1 diff -Naur MEDCOUPLING_old/CMakeLists.txt MEDCOUPLING_new/CMakeLists.txt
2 --- MEDCOUPLING_old/CMakeLists.txt 2018-04-19 17:04:36.583219652 +0200
3 +++ MEDCOUPLING_new/CMakeLists.txt 2018-04-19 17:25:17.227787276 +0200
5 STRING(TOUPPER ${PROJECT_NAME} PROJECT_NAME_UC)
7 SET(${PROJECT_NAME_UC}_MAJOR_VERSION 8)
8 -SET(${PROJECT_NAME_UC}_MINOR_VERSION 3)
9 +SET(${PROJECT_NAME_UC}_MINOR_VERSION 4)
10 SET(${PROJECT_NAME_UC}_PATCH_VERSION 0)
11 SET(${PROJECT_NAME_UC}_VERSION
12 ${${PROJECT_NAME_UC}_MAJOR_VERSION}.${${PROJECT_NAME_UC}_MINOR_VERSION}.${${PROJECT_NAME_UC}_PATCH_VERSION})
16 INCLUDE(CMakeDependentOption)
17 -OPTION(MEDCOUPLING_MICROMED "Build MED without MED file dependancy." OFF)
18 +OPTION(MEDCOUPLING_MICROMED "Build MED without MED file dependency." OFF)
19 OPTION(MEDCOUPLING_ENABLE_PYTHON "Build PYTHON bindings." ON)
20 OPTION(MEDCOUPLING_ENABLE_PARTITIONER "Build MEDPartitioner." ON)
21 OPTION(MEDCOUPLING_ENABLE_RENUMBER "Build Renumber." ON)
23 CMAKE_DEPENDENT_OPTION(MEDCOUPLING_PARTITIONER_METIS "Enable metis graph library in MEDPartitioner." ${USE_METIS_NOT_PARMETIS}
24 "MEDCOUPLING_ENABLE_PARTITIONER" OFF)
25 CMAKE_DEPENDENT_OPTION(MEDCOUPLING_PARTITIONER_SCOTCH "Enable scotch graph library in MEDPartitioner." ON
26 - "MEDCOUPLING_ENABLE_PARTITIONER;NOT MEDCOUPLING_USE_MPI" OFF)
27 + "MEDCOUPLING_ENABLE_PARTITIONER" OFF)
28 CMAKE_DEPENDENT_OPTION(MEDCOUPLING_PARTITIONER_PARMETIS "Enable parmetis graph library in MEDPartitioner." ${MEDCOUPLING_USE_MPI}
29 "MEDCOUPLING_ENABLE_PARTITIONER;MEDCOUPLING_USE_MPI" OFF)
30 +CMAKE_DEPENDENT_OPTION(MEDCOUPLING_PARTITIONER_PTSCOTCH "Enable ptscotch graph library in MEDPartitioner." ${MEDCOUPLING_USE_MPI}
31 + "MEDCOUPLING_ENABLE_PARTITIONER;MEDCOUPLING_USE_MPI" OFF)
32 SET(XDR_DEFAULT_OPTION ON)
34 SET(XDR_DEFAULT_OPTION OFF)
36 MESSAGE(FATAL_ERROR "ParMetis and Metis are mutually exclusive! Make a choice (options MEDCOUPLING_PARTITIONER_METIS and MEDCOUPLING_PARTITIONER_PARMETIS).")
39 +IF(${MEDCOUPLING_PARTITIONER_PTSCOTCH} AND ${MEDCOUPLING_PARTITIONER_SCOTCH})
40 + MESSAGE(FATAL_ERROR "PTScotch and Scotch are mutually exclusive! Make a choice (options MEDCOUPLING_PARTITIONER_SCOTCH and MEDCOUPLING_PARTITIONER_PTSCOTCH).")
44 # Set list of prerequisites
45 # =========================
47 ADD_DEFINITIONS("-DMED_ENABLE_PARMETIS")
49 ENDIF(MEDCOUPLING_PARTITIONER_PARMETIS)
50 + IF(MEDCOUPLING_PARTITIONER_PTSCOTCH)
51 + FIND_PACKAGE(SalomePTScotch)
52 + SALOME_LOG_OPTIONAL_PACKAGE(PTScotch MEDCOUPLING_PARTITIONER_PTSCOTCH)
53 + IF(SalomePTScotch_FOUND)
54 + ADD_DEFINITIONS("-DMED_ENABLE_PTSCOTCH")
55 + ENDIF(SalomePTScotch_FOUND)
56 + ENDIF(MEDCOUPLING_PARTITIONER_PTSCOTCH)
57 ENDIF(MEDCOUPLING_USE_MPI)
59 IF(MEDCOUPLING_ENABLE_RENUMBER)
61 # List of targets in this project we want to make visible to the rest of the world.
62 # They all have to be INSTALL'd with the option "EXPORT ${PROJECT_NAME}TargetGroup"
63 SET(_${PROJECT_NAME}_exposed_targets
64 - interpkernel medcoupling medcouplingremapper)
65 + interpkernel medcouplingcpp medcouplingremapper)
67 IF(NOT MEDCOUPLING_MICROMED)
68 LIST(APPEND _${PROJECT_NAME}_exposed_targets medloader)
69 diff -Naur MEDCOUPLING_old/doc/tutorial/atestMEDLoaderAdvancedAPI1.rst MEDCOUPLING_new/doc/tutorial/atestMEDLoaderAdvancedAPI1.rst
70 --- MEDCOUPLING_old/doc/tutorial/atestMEDLoaderAdvancedAPI1.rst 2018-04-19 17:04:36.585219692 +0200
71 +++ MEDCOUPLING_new/doc/tutorial/atestMEDLoaderAdvancedAPI1.rst 2018-04-19 17:25:17.221787157 +0200
74 fMEDFileRead2 = ml.MEDFileField1TS("TargetMesh2.med",fPart.getName(),7,8)
75 fPartRead, pflRead = fMEDFileRead2.getFieldWithProfile(ml.ON_CELLS,0,meshMEDFileRead)
76 - print "Is the partial field correclty read?", fPartRead.isEqualWithoutConsideringStr(fPart.getArray(),1e-12)
77 + print "Is the partial field correctly read?", fPartRead.isEqualWithoutConsideringStr(fPart.getArray(),1e-12)
78 print "Is the list of cell identifiers matching?", pflRead.isEqualWithoutConsideringStr(pfl)
80 diff -Naur MEDCOUPLING_old/doc/tutorial/atestMEDLoaderBasicAPI1.rst MEDCOUPLING_new/doc/tutorial/atestMEDLoaderBasicAPI1.rst
81 --- MEDCOUPLING_old/doc/tutorial/atestMEDLoaderBasicAPI1.rst 2018-04-19 17:04:36.585219692 +0200
82 +++ MEDCOUPLING_new/doc/tutorial/atestMEDLoaderBasicAPI1.rst 2018-04-19 17:25:17.170786149 +0200
85 f.setName("AFieldName")
86 ml.WriteField("MyFirstField.med",f,True)
87 - # Re-read it ans test equality
88 + # Re-read it and test equality
89 f2 = ml.ReadFieldCell("MyFirstField.med", f.getMesh().getName(), 0, f.getName(), 7, 8)
90 print "Is the read field identical to 'f' ?", f2.isEqual(f,1e-12,1e-12)
91 # Writing in several steps
92 diff -Naur MEDCOUPLING_old/doc/tutorial/medcoupling_2Dpolygon.rst MEDCOUPLING_new/doc/tutorial/medcoupling_2Dpolygon.rst
93 --- MEDCOUPLING_old/doc/tutorial/medcoupling_2Dpolygon.rst 2018-04-19 17:04:36.627220529 +0200
94 +++ MEDCOUPLING_new/doc/tutorial/medcoupling_2Dpolygon.rst 2018-04-19 17:25:17.133785418 +0200
99 -Then we must instanciate a meshing object::
100 +Then we must instantiate a meshing object::
102 mesh=MEDCouplingUMesh.New()
103 mesh.setMeshDimension(2)
104 diff -Naur MEDCOUPLING_old/doc/tutorial/medcoupling_3Dcube.rst MEDCOUPLING_new/doc/tutorial/medcoupling_3Dcube.rst
105 --- MEDCOUPLING_old/doc/tutorial/medcoupling_3Dcube.rst 2018-04-19 17:04:36.627220529 +0200
106 +++ MEDCOUPLING_new/doc/tutorial/medcoupling_3Dcube.rst 2018-04-19 17:25:17.106784884 +0200
109 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
111 -First instanciate a meshing object. Therefore, we need to define :
112 +First instantiate a meshing object. Therefore, we need to define :
120 -The field will be a sin function dependant of distance of the barycenter of each cell from origin. So we need to create a barycenter field on the 3D mesh::
121 +The field will be a sin function dependent of distance of the barycenter of each cell from origin. So we need to create a barycenter field on the 3D mesh::
123 # Creation of field : with following definition
124 # => Definition of the mesh support
125 diff -Naur MEDCOUPLING_old/doc/tutorial/medcoupling_dataarray1_fr.rst MEDCOUPLING_new/doc/tutorial/medcoupling_dataarray1_fr.rst
126 --- MEDCOUPLING_old/doc/tutorial/medcoupling_dataarray1_fr.rst 2018-04-19 17:04:36.627220529 +0200
127 +++ MEDCOUPLING_new/doc/tutorial/medcoupling_dataarray1_fr.rst 2018-04-19 17:25:17.128785319 +0200
129 La méthode ``findCommonTuples()`` retourne ainsi 2 paramètres: un tableau contenant la liste des tuples communs
130 et un tableau d'index qui permet de naviguer dans le premier tableau.
131 Il s'agit d'une forme de retour très classique dans MEDCoupling, appelée *indirect indexing*. Cela apparaît souvent dans la manipulation des
132 -maillages non structurés. Cette représentation est rappelée sur l'image ci-dessous, où le premier tableau et en haut,
133 +maillages non structurés. Cette représentation est rappelée sur l'image ci-dessous, où le premier tableau est en haut,
134 et le deuxième tableau permettant de la parcourir en bas:
136 .. image:: images/IndirectIndex.jpg
141 -Constuire un maillage non strucuturé
142 +Constuire un maillage non structuré
143 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
145 On chercher maintenant à créer le maillage final montré dans la figure. Nous avons déjà construit le tableau
146 diff -Naur MEDCOUPLING_old/doc/tutorial/medcouplingloaderex2_en.rst MEDCOUPLING_new/doc/tutorial/medcouplingloaderex2_en.rst
147 --- MEDCOUPLING_old/doc/tutorial/medcouplingloaderex2_en.rst 2018-04-19 17:04:36.628220549 +0200
148 +++ MEDCOUPLING_new/doc/tutorial/medcouplingloaderex2_en.rst 2018-04-19 17:25:17.175786248 +0200
150 .. image:: images/zone1Mobm.jpg
152 From now on we work on "zone1Mobm". We will reduce the working area of "fixm" around "zone1Mobm".
153 -To achive this: reduce "fixm" taking only "fixm" cells located in the bounding box of "zone1Mobm" (MEDCouplingUMesh.getBoundingBox() and MEDCouplingUMesh.getCellsInBoundingBox()).
154 +To achieve this: reduce "fixm" taking only "fixm" cells located in the bounding box of "zone1Mobm" (MEDCouplingUMesh.getBoundingBox() and MEDCouplingUMesh.getCellsInBoundingBox()).
155 Name this object "partFixm", remove its orphan nodes and display it. ::
157 ids2=fixm.getCellsInBoundingBox(zone1Mobm.getBoundingBox(),1e-10)
158 diff -Naur MEDCOUPLING_old/doc/tutorial/medcouplingmultiproc_fr.rst MEDCOUPLING_new/doc/tutorial/medcouplingmultiproc_fr.rst
159 --- MEDCOUPLING_old/doc/tutorial/medcouplingmultiproc_fr.rst 2018-04-19 17:04:36.628220549 +0200
160 +++ MEDCOUPLING_new/doc/tutorial/medcouplingmultiproc_fr.rst 2018-04-19 17:25:17.167786090 +0200
162 L'idée est d'interpoler ``m`` avec ``m2Part``.
164 On récupèrera ensuite la matrice sparse ``myMat`` issue de ``m`` avec ``m2Part``.
165 -Ensuite l'idée et de générer une matrice sparse ``mat2`` à partir de ``myMat`` avec les ids globaux de ``m2``. ::
166 +Ensuite l'idée est de générer une matrice sparse ``mat2`` à partir de ``myMat`` avec les ids globaux de ``m2``. ::
169 m2Part,partToGlob=inp
170 myRemap=mr.MEDCouplingRemapper()
171 assert(myRemap.prepare(m,m2Part,"P0P0")==1)
172 myMat=myRemap.getCrudeCSRMatrix()
173 - a=mc.DataArrayInt.Range(s.start,s.stop,s.step)
174 indptrnew=mc.DataArrayInt(m2.getNumberOfCells())
175 indptrnew.fillWithZero()
176 d=mc.DataArrayInt(myMat.indptr).deltaShiftIndex()
177 diff -Naur MEDCOUPLING_old/doc/tutorial/medcoupling_umesh1_en.rst MEDCOUPLING_new/doc/tutorial/medcoupling_umesh1_en.rst
178 --- MEDCOUPLING_old/doc/tutorial/medcoupling_umesh1_en.rst 2018-04-19 17:04:36.627220529 +0200
179 +++ MEDCOUPLING_new/doc/tutorial/medcoupling_umesh1_en.rst 2018-04-19 17:25:17.223787197 +0200
181 mesh3DSlice2bis.translate([0.,1000.,0.])
182 mesh3DSlice2All=MEDCouplingUMesh.MergeUMeshes([mesh3DSlice2,mesh3DSlice2bis])
184 -.. note:: My apologies for the name of the method MEDCouplingUMesh.MergeUMeshes. In future version it will be called AggregateUMeshes. For information, to merge two (or more) unstructured meshes, one has to invoke MergeUMeshes(), then mergeNodes() on the result, and finally zipConnectivity().
185 +.. note:: My apologies for the name of the method MEDCouplingUMesh.MergeUMeshes. In future version it will be called AggregateUMeshes. For information, to merge two (or more) unstructured meshes, one has to invoke MergeUMeshes(), then mergeNodes() on the result, and finally zipConnectivityTraducer().
188 Descending connectivity
189 diff -Naur MEDCOUPLING_old/doc/tutorial/medcoupling_umesh1_fr.rst MEDCOUPLING_new/doc/tutorial/medcoupling_umesh1_fr.rst
190 --- MEDCOUPLING_old/doc/tutorial/medcoupling_umesh1_fr.rst 2018-04-19 17:04:36.627220529 +0200
191 +++ MEDCOUPLING_new/doc/tutorial/medcoupling_umesh1_fr.rst 2018-04-19 17:25:17.172786189 +0200
193 critères géométriques.
194 Il s'agit d'abord de calculer les barycentres des cellules 3D de ``mesh3D`` (méthode
195 ``MEDCouplingUMesh.computeCellCenterOfMass()``).
196 - (*Note*: le nom -- un peu trop long -- de cette méthode hérite du passé. Le "AndOwner" indique le fait qu'en C++
197 - l'appelant est responsable de la désallocation de l'objet retourné : il prend l'*ownership* du résultat).
199 Ensuite sélectionner la composante #2 des barycentres des cellules et mettre le résultat dans ``baryZ``.
200 Ensuite il suffit de selectionner dans ``baryZ`` les tuples qui sont dans l'intervalle ``[zLev[1], zLev[2]]``.
202 mesh3DSlice2All.writeVTK("mesh3DSlice2All.vtu")
204 .. note:: Pour information pour merger deux (ou plus) maillages non structurés, il faut invoquer ``MEDCouplingUMesh.MergeUMeshes()``
205 - puis ``MEDCouplingUMesh.mergeNodes()`` sur le résultat, et enfin ``MEDCouplingUMesh.zipConnectivity()``.
206 + puis ``MEDCouplingUMesh.mergeNodes()`` sur le résultat, et enfin ``MEDCouplingUMesh.zipConnectivityTraducer()``.
208 .. _exo-umesh-desc-connec:
210 diff -Naur MEDCOUPLING_old/doc/tutorial/medloader_advancedAPI1_fr.rst MEDCOUPLING_new/doc/tutorial/medloader_advancedAPI1_fr.rst
211 --- MEDCOUPLING_old/doc/tutorial/medloader_advancedAPI1_fr.rst 2018-04-19 17:04:36.628220549 +0200
212 +++ MEDCOUPLING_new/doc/tutorial/medloader_advancedAPI1_fr.rst 2018-04-19 17:25:17.169786129 +0200
215 fMEDFileRead2 = ml.MEDFileField1TS("TargetMesh2.med",fPart.getName(),7,8)
216 fPartRead, pflRead = fMEDFileRead2.getFieldWithProfile(ml.ON_CELLS,0,meshMEDFileRead)
217 - print "Is the partial field correclty read?", fPartRead.isEqualWithoutConsideringStr(fPart.getArray(),1e-12)
218 + print "Is the partial field correctly read?", fPartRead.isEqualWithoutConsideringStr(fPart.getArray(),1e-12)
219 print "Is the list of cell identifiers matching?", pflRead.isEqualWithoutConsideringStr(pfl)
222 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/appendix/install.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/appendix/install.dox
223 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/appendix/install.dox 2018-04-19 17:04:36.629220569 +0200
224 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/appendix/install.dox 2018-04-19 17:25:17.099784746 +0200
226 - \a -DMEDCOUPLING_PARTITIONER_METIS=ON enables metis graph library in MEDPartitioner,
227 - \a -DMEDCOUPLING_PARTITIONER_PARMETIS=ON enables parmetis graph library in MEDPartitioner,
228 - \a -DMEDCOUPLING_PARTITIONER_SCOTCH=ON enables scotch graph library in MEDPartitioner,
229 -- \a -DMEDCOUPLING_MICROMED=ON build MED with MED file dependancy,
230 +- \a -DMEDCOUPLING_MICROMED=ON build MED with MED file dependency,
231 - \a -DMEDCOUPLING_ENABLE_PYTHON=ON builds PYTHON bindings,
232 - \a -DMEDCOUPLING_ENABLE_PARTITIONER builds MEDPartitioner,
233 - \a -DMEDCOUPLING_ENABLE_RENUMBER builds Renumber,
234 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/appendix/porting.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/appendix/porting.dox
235 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/appendix/porting.dox 2018-04-19 17:04:36.629220569 +0200
236 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/appendix/porting.dox 2018-04-19 17:25:17.100784765 +0200
238 The MEDLoader high level API is hence accessible:
239 - at the MEDCoupling namespace level in C++ (direct static functions, no more MEDLoader class)
240 - at the MEDLoader module level in Python. Scripts using the high level API of the MEDLoader
241 -typically need to get read of all the occurences of "MEDLoader." in their code.
242 +typically need to get read of all the occurrences of "MEDLoader." in their code.
244 -Note that on the Python side the module MEDLoader is still here, but doesn't containt the MEDLoader class anymore.
245 +Note that on the Python side the module MEDLoader is still here, but doesn't contain the MEDLoader class anymore.
246 As before it re-includes all of MEDCoupling classes, plus the low level MEDLoader classes (MEDFile* classes).
248 \section port-full-ref Name changes - Reference list
249 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/appendix/references.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/appendix/references.dox
250 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/appendix/references.dox 2018-04-19 17:04:36.629220569 +0200
251 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/appendix/references.dox 2018-04-19 17:25:17.097784706 +0200
254 \page references References
256 -Here follows a list of useful references :
257 +Below is a list of useful references :
259 -# \anchor RefManualMedFile Reference Manual for Med File, V. Lefebvre, E. Fayolle, Projet PAL: Définition du modèle d'échange de données MED V2.2, Note technique EDF/SINETICS, HI-26-03-012/A, https://hammi.extra.cea.fr/static/MED/web_med/index.html
260 -# VTK home page: \c http://public.kitware.com/VTK
261 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/examples/medcouplingexamplesmeshes.doxy MEDCOUPLING_new/doc/user/doxygen/doxfiles/examples/medcouplingexamplesmeshes.doxy
262 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/examples/medcouplingexamplesmeshes.doxy 2018-04-19 17:04:36.630220589 +0200
263 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/examples/medcouplingexamplesmeshes.doxy 2018-04-19 17:25:17.044783658 +0200
265 \snippet MEDCouplingExamplesTest.cxx CppSnippet_MEDCouplingUMesh_buildFacePartOfMySelfNode_2
266 <br>If the last parameter is \c true
267 \ref MEDCoupling::MEDCouplingUMesh::buildFacePartOfMySelfNode "buildFacePartOfMySelfNode()" looks
268 -for segements whose all nodes are given to it, hence it finds segments bounding the cell #0 only.
269 +for segments whose all nodes are given to it, hence it finds segments bounding the cell #0 only.
270 <br>If the last parameter is \c false
271 \ref MEDCoupling::MEDCouplingUMesh::buildFacePartOfMySelfNode "buildFacePartOfMySelfNode()" looks
272 for any segment whose nodes are given to it, hence it adds more segments to \b mesh2.
274 - #4 (== \b desc[ \b descIndx[ 0 ] + 3 ]).
275 <br>Ids are positive since order of nodes in the corresponding cells of \b mesh and \b mesh2
276 are same. For example nodes of SEG2 #3 are [4,1] and nodes of QUAD4 #0 are [0,3,\b 4,\b 1].
277 -- The cell #1 of \b mesh (TRI3) is bound by 3 (== \b descIndx[2] - \b descIndx[1]) segements of
278 +- The cell #1 of \b mesh (TRI3) is bound by 3 (== \b descIndx[2] - \b descIndx[1]) segments of
279 \b mesh2 whose ids in FORTRAN mode are:
280 - #-3 (== \b desc[ \b descIndx[ 1 ]]),
281 - #5 (== \b desc[ \b descIndx[ 1 ] + 1 ]) and
283 - #1 (== \b desc[ \b descIndx[ 0 ] + 1 ]),
284 - #2 (== \b desc[ \b descIndx[ 0 ] + 2 ]) and
285 - #3 (== \b desc[ \b descIndx[ 0 ] + 3 ]).
286 -- The cell #1 of \b mesh (TRI3) is bound by 3 (== \b descIndx[2] - \b descIndx[1]) segements of
287 +- The cell #1 of \b mesh (TRI3) is bound by 3 (== \b descIndx[2] - \b descIndx[1]) segments of
288 \b mesh2 whose ids are:
289 - #2 (== \b desc[ \b descIndx[ 1 ]]),
290 - #4 (== \b desc[ \b descIndx[ 1 ] + 1 ]) and
291 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/examples/medcouplingexamplesother.doxy MEDCOUPLING_new/doc/user/doxygen/doxfiles/examples/medcouplingexamplesother.doxy
292 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/examples/medcouplingexamplesother.doxy 2018-04-19 17:04:36.630220589 +0200
293 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/examples/medcouplingexamplesother.doxy 2018-04-19 17:25:17.047783718 +0200
295 \ref medcoupling "MEDCoupling" allows to make bridges between the approaches. For example \a pfl \ref MEDCoupling::DataArrayInt "DataArrayInt instance" retrieved directly
296 from the file in the second approach can be retrieved starting from first approach.
298 -Starting from mesh \a firstApproachMesh of read field in first approach \a fread, whith the whole mesh \a wholeMesh the profile \a pflComputed can be computed :
299 +Starting from mesh \a firstApproachMesh of read field in first approach \a fread, with the whole mesh \a wholeMesh the profile \a pflComputed can be computed :
301 \snippet MEDLoaderExamplesTest.py PySnippetReadFieldPartial1_5
303 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/faq.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/faq.dox
304 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/faq.dox 2018-04-19 17:04:36.630220589 +0200
305 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/faq.dox 2018-04-19 17:25:17.056783896 +0200
307 Take a look at \ref library
309 \subsubsection f-visu How can I visualize a mesh and/or a field?
310 -Use the PARAVIS module of SALOME to visualize your MED file. The following dedicated fitlers have been
311 +Use the PARAVIS module of SALOME to visualize your MED file. The following dedicated filters have been
312 written specifically for MED files: Extract group, Extract cell types, ELNO Mesh, ELNO Points, ELNO Surface.
314 \subsubsection f-p0p1 What does a P0- (or P1-) field mean?
315 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/arrays/arrays.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/arrays/arrays.dox
316 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/arrays/arrays.dox 2018-04-19 17:04:36.630220589 +0200
317 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/arrays/arrays.dox 2018-04-19 17:25:17.094784647 +0200
319 understood to efficiently deal with \ref meshes "Meshes" and \ref fields "Fields".
321 \ref MEDCoupling::DataArray "DataArrays" are the atomic element of potentially heavy-memory objects in
322 -the 3 modules mentionned above.
323 +the 3 modules mentioned above.
325 There are for the moment two types of arrays :
326 - double precision float (64 bits) array incarnated by \ref MEDCoupling::DataArrayDouble "DataArrayDouble class".
327 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/arrays/numbering.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/arrays/numbering.dox
328 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/arrays/numbering.dox 2018-04-19 17:04:36.630220589 +0200
329 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/arrays/numbering.dox 2018-04-19 17:25:17.092784607 +0200
332 \section MEDCouplingArrayRenumberingO2N Old-to-new mode
334 -The old to new mode is particularly recommanded for surjective and bijective applications. This
335 +The old to new mode is particularly recommended for surjective and bijective applications. This
336 is typically the case of \ref MEDCoupling::MEDCouplingUMesh::mergeNodes "MEDCouplingUMesh::mergeNodes" method.
337 Let's consider a call to \ref MEDCoupling::MEDCouplingUMesh::mergeNodes "mergeNodes" that reduces the
338 number of nodes from 5 nodes to 3 nodes.\n
339 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/cpp/cpp.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/cpp/cpp.dox
340 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/cpp/cpp.dox 2018-04-19 17:04:36.630220589 +0200
341 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/cpp/cpp.dox 2018-04-19 17:25:17.091784588 +0200
344 - \page cpp Note for C++ developpers
345 + \page cpp Note for C++ developers
347 Using the C++ API provided by MED requires you to be familiar with some specificities which are not
348 visible to the Python user.
349 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/distrib/parallel.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/distrib/parallel.dox
350 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/distrib/parallel.dox 2018-04-19 17:04:36.630220589 +0200
351 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/distrib/parallel.dox 2018-04-19 17:25:17.064784054 +0200
353 The core elements of the API are:
354 - \ref CommInterface-det "CommInterface", this is the wrapper around the MPI library, and an instance
355 of this object is required in many constructors of the following objects.
356 -- \ref ParaMESH-det "ParaMESH", the parallel instanciation of a \ref meshes "MEDCoupling mesh"
357 -- \ref ParaFIELD-det "ParaFIELD", the parallel instanciation of a \ref fields "MEDCoupling field"
358 +- \ref ParaMESH-det "ParaMESH", the parallel instantiation of a \ref meshes "MEDCoupling mesh"
359 +- \ref ParaFIELD-det "ParaFIELD", the parallel instantiation of a \ref fields "MEDCoupling field"
360 - \ref MPIProcessorGroup-det "MPIProcessorGroup" (which inherits from the abstract
361 \ref MEDCoupling::ProcessorGroup "ProcessorGroup"), a group of processors (typically MPI nodes)
363 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/fields/discretization.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/fields/discretization.dox
364 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/fields/discretization.dox 2018-04-19 17:04:36.630220589 +0200
365 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/fields/discretization.dox 2018-04-19 17:25:17.073784232 +0200
367 - Kriging points: built with \ref MEDCoupling::TypeOfField "ON_NODES_KR"
369 The spatial discretization is at the center of the \ref interpolation "interpolation" mechanisms,
370 -since one of the main interpolation paramter is indeed specifying from which source discretization
371 +since one of the main interpolation parameter is indeed specifying from which source discretization
372 to which target discretization one wants to go. For example:
373 -- a P0->P0 interpolation means that a field on cells will be transfered to another cell-based field;
374 -- a P1->P0 interpolation means that a field on nodes this time will be transfered to a cell-based field.
375 +- a P0->P0 interpolation means that a field on cells will be transferred to another cell-based field;
376 +- a P1->P0 interpolation means that a field on nodes this time will be transferred to a cell-based field.
379 Finally, in the code itself, the class \ref MEDCoupling::MEDCouplingFieldDiscretization "MEDCouplingFieldDiscretization"
380 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/interpolation/Geometric2D.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/interpolation/Geometric2D.dox
381 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/interpolation/Geometric2D.dox 2018-04-19 17:04:36.630220589 +0200
382 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/interpolation/Geometric2D.dox 2018-04-19 17:25:17.081784390 +0200
384 \subsection interpkernelGeo2DBoolOpStep3 Step3 : Result polygon building.
386 This stage links each edge with wanted loc. \b Contrary to last 2 steps it is obviously boolean
387 -operation dependant. Let's take the case of the intersection that is used in
388 +operation dependent. Let's take the case of the intersection that is used in
389 P0->P0 interpolation. \n The principle of result polygon building is to build polygon by taking
390 edges localized as \b in or \b on.
392 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/interpolation/interptheory.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/interpolation/interptheory.dox
393 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/interpolation/interptheory.dox 2018-04-19 17:04:36.631220609 +0200
394 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/interpolation/interptheory.dox 2018-04-19 17:25:17.084784449 +0200
399 -This type of nature is particulary recommended to interpolate an intensive \b density
400 +This type of nature is particularly recommended to interpolate an intensive \b density
401 field (moderator density, power density).
402 The difference with \ref TableNatureOfFieldExampleConservVol "conservative volumic" seen above is that here the
403 target field is homogenized to the \b whole target cell. It explains why this nature of field does not follow the maximum principle.
404 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/interpolation/mapped_bary.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/interpolation/mapped_bary.dox
405 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/interpolation/mapped_bary.dox 2018-04-19 17:04:36.631220609 +0200
406 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/interpolation/mapped_bary.dox 2018-04-19 17:25:17.076784291 +0200
409 \subsection{Rectangle}
411 -Finally it is worth puting aside the case \f$\mathbf{N} = 0\f$ (rectangle), which boils down to solving an ordinary
412 +Finally it is worth putting aside the case \f$\mathbf{N} = 0\f$ (rectangle), which boils down to solving an ordinary
414 \f[ x = \frac{p_x A_y - p_y A_x}{C_x A_y - C_y A_x}, y = \frac{C_x p_y-C_y p_x}{C_x A_y - C_y A_x} \f]
416 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/meshes/meshes.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/meshes/meshes.dox
417 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/meshes/meshes.dox 2018-04-19 17:04:36.632220629 +0200
418 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/meshes/meshes.dox 2018-04-19 17:25:17.070784173 +0200
421 Several types of meshes are available in MEDCoupling:
423 -- \subpage MEDCouplingPointSetPage "Point set mesh" (abstract, can not be instanciated)
424 +- \subpage MEDCouplingPointSetPage "Point set mesh" (abstract, can not be instantiated)
425 - \subpage MEDCouplingUMeshPage "Unstructured meshes"
426 - \subpage MEDCouplingCMeshPage "Cartesian meshes"
427 - \subpage MEDCouplingExtrudedPage "3D Extruded meshes"
428 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/misc/tools.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/misc/tools.dox
429 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/reference/misc/tools.dox 2018-04-19 17:04:36.632220629 +0200
430 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/reference/misc/tools.dox 2018-04-19 17:25:17.086784489 +0200
432 --meshname=<string> : name of the input mesh (not used with --distributed option)
433 --ndomains=<number> : number of subdomains in the output file, default is 1
434 --plain-master : creates a plain masterfile instead of an XML file
435 - --creates-boundary-faces: creates the necessary faces so that faces joints are created in the output files
436 + --create-boundary-faces: creates the necessary faces so that faces joints are created in the output files
437 --family-splitting : preserves the family names instead of focusing on the groups
440 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/start/library.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/start/library.dox
441 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/start/library.dox 2018-04-19 17:04:36.632220629 +0200
442 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/start/library.dox 2018-04-19 17:25:17.050783777 +0200
445 "MED" can (unfortunately) refer to:
446 - <b>\ref med-file "MED file format"</b>: the file format used to save a mesh (".med" extension)
447 -- <b>\ref med-file "MED-file library"</b>: the C++ library developped by EdF R&D (and provided
448 +- <b>\ref med-file "MED-file library"</b>: the C++ library developed by EdF R&D (and provided
449 with SALOME) to read/write MED file (warning: for advanced users only!)
450 - <b> \ref medcoupling "MEDCoupling"</b>: the (relatively) high level API to deal with mesh and fields in memory
451 - <b>\ref medloader MEDLoader</b>: part of the library dedicated to file I/O = a more user-friendly API than the MED-file library API
454 The most common confusion is between the MED library (what you are reading at present) and
455 the MED-file library ("MED fichier").
456 -The MED-file library is part of the prerequisites of the MED libary, and its only purpose is to read and write
457 +The MED-file library is part of the prerequisites of the MED library, and its only purpose is to read and write
458 MED files. This is a low level API written in C, and giving a fine-grain access to the structure
459 of the MED files (.med). The architecture diagramm below details those points further.
461 diff -Naur MEDCOUPLING_old/doc/user/doxygen/doxfiles/start/start.dox MEDCOUPLING_new/doc/user/doxygen/doxfiles/start/start.dox
462 --- MEDCOUPLING_old/doc/user/doxygen/doxfiles/start/start.dox 2018-04-19 17:04:36.632220629 +0200
463 +++ MEDCOUPLING_new/doc/user/doxygen/doxfiles/start/start.dox 2018-04-19 17:25:17.055783876 +0200
466 \page start Getting started
468 -If you are completly new to MED, this page will help you grasp the main concepts
469 +If you are completely new to MED, this page will help you grasp the main concepts
470 used overall in the \ref library "MED world", and have an idea of what you can achieve with MED.
472 The <a class="el" href="tutorial/index.html">tutorial</a> is also a good way to start.
473 diff -Naur MEDCOUPLING_old/doc/user/doxygen/Doxyfile_med_user.in MEDCOUPLING_new/doc/user/doxygen/Doxyfile_med_user.in
474 --- MEDCOUPLING_old/doc/user/doxygen/Doxyfile_med_user.in 2018-04-19 17:04:36.629220569 +0200
475 +++ MEDCOUPLING_new/doc/user/doxygen/Doxyfile_med_user.in 2018-04-19 17:25:16.841779646 +0200
478 MEDFileParameter.*xx \
480 + MEDFileFieldGlobs.*xx \
481 + MEDFileFieldInternal.*xx \
482 + MEDFileField1TS.*xx \
483 + MEDFileFieldMultiTS.*xx \
486 + MEDFileFieldVisitor.hxx \
491 diff -Naur MEDCOUPLING_old/MEDCouplingConfig.cmake.in MEDCOUPLING_new/MEDCouplingConfig.cmake.in
492 --- MEDCOUPLING_old/MEDCouplingConfig.cmake.in 2018-04-19 17:04:36.584219672 +0200
493 +++ MEDCOUPLING_new/MEDCouplingConfig.cmake.in 2018-04-19 17:25:18.169805896 +0200
495 # - Config file for the @PROJECT_NAME@ package
496 # It defines the following variables.
497 -# Specific to the pacakge @PROJECT_NAME@ itself:
498 +# Specific to the package @PROJECT_NAME@ itself:
499 # @PROJECT_NAME_UC@_ROOT_DIR_EXP - the root path of the installation providing this CMake file
503 # Load the dependencies for the libraries of @PROJECT_NAME@
504 # (contains definitions for IMPORTED targets). This is only
505 # imported if we are not built as a subproject (in this case targets are already there)
506 -IF(NOT TARGET medcoupling AND NOT @PROJECT_NAME@_BINARY_DIR)
507 +IF(NOT TARGET medcouplingcpp AND NOT @PROJECT_NAME@_BINARY_DIR)
508 INCLUDE("@PACKAGE_MEDCOUPLING_INSTALL_CMAKE_LOCAL@/@PROJECT_NAME@Targets.cmake")
513 # Exposed MEDCoupling targets:
514 SET(MEDCoupling_interpkernel interpkernel)
515 -SET(MEDCoupling_medcoupling medcoupling)
516 +SET(MEDCoupling_medcouplingcpp medcouplingcpp)
517 +SET(MEDCoupling_medcoupling medcouplingcpp)
518 SET(MEDCoupling_medcouplingremapper medcouplingremapper)
519 SET(MEDCoupling_medloader medloader)
520 SET(MEDCoupling_renumbercpp renumbercpp)
521 diff -Naur MEDCOUPLING_old/src/CMakeLists.txt MEDCOUPLING_new/src/CMakeLists.txt
522 --- MEDCOUPLING_old/src/CMakeLists.txt 2018-04-19 17:04:36.669221367 +0200
523 +++ MEDCOUPLING_new/src/CMakeLists.txt 2018-04-19 17:25:17.367790043 +0200
525 ADD_SUBDIRECTORY(MEDCoupling)
526 IF(MEDCOUPLING_ENABLE_PYTHON)
527 ADD_SUBDIRECTORY(MEDCoupling_Swig)
528 + ADD_SUBDIRECTORY(PyWrapping)
529 ENDIF(MEDCOUPLING_ENABLE_PYTHON)
531 IF(NOT MEDCOUPLING_MICROMED)
532 diff -Naur MEDCOUPLING_old/src/CTestTestfileInstall.cmake MEDCOUPLING_new/src/CTestTestfileInstall.cmake
533 --- MEDCOUPLING_old/src/CTestTestfileInstall.cmake 2018-04-19 17:04:36.669221367 +0200
534 +++ MEDCOUPLING_new/src/CTestTestfileInstall.cmake 2018-04-19 17:25:18.144805402 +0200
536 #SUBDIRS(ParaMEDMEMTest)
537 SUBDIRS(MEDPartitioner_Swig)
538 SUBDIRS(RENUMBER_Swig)
541 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Bases/InterpKernelAssert.hxx MEDCOUPLING_new/src/INTERP_KERNEL/Bases/InterpKernelAssert.hxx
542 --- MEDCOUPLING_old/src/INTERP_KERNEL/Bases/InterpKernelAssert.hxx 1970-01-01 01:00:00.000000000 +0100
543 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Bases/InterpKernelAssert.hxx 2018-04-19 17:25:17.507792810 +0200
545 +// Copyright (C) 2018 CEA/DEN, EDF R&D
547 +// This library is free software; you can redistribute it and/or
548 +// modify it under the terms of the GNU Lesser General Public
549 +// License as published by the Free Software Foundation; either
550 +// version 2.1 of the License, or (at your option) any later version.
552 +// This library is distributed in the hope that it will be useful,
553 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
554 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
555 +// Lesser General Public License for more details.
557 +// You should have received a copy of the GNU Lesser General Public
558 +// License along with this library; if not, write to the Free Software
559 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
561 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
563 +// Author : Anthony Geay (EDF R&D)
565 +#ifndef __INTERPKERNELASSERT_HXX__
566 +#define __INTERPKERNELASSERT_HXX__
568 +#include "InterpKernelException.hxx"
572 +#define IKAssert(a) { bool verdict(a); \
573 + if(!verdict) { std::ostringstream osszz; osszz << "Assertion \"" << #a << "\" failed into " << __FILE__ << " at line " << __LINE__ << " !"; throw INTERP_KERNEL::Exception(osszz.str()); } }
575 +#define IKAssertMsg(a,b) { bool verdict(a); \
576 + if(!verdict) { std::ostringstream osszz; osszz << "Assertion \"" << #a << "\" failed into " << __FILE__ << " at line " << __LINE__ << " with message \"" << b << "\" !"; throw INTERP_KERNEL::Exception(osszz.str()); } }
579 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Bases/NormalizedGeometricTypes MEDCOUPLING_new/src/INTERP_KERNEL/Bases/NormalizedGeometricTypes
580 --- MEDCOUPLING_old/src/INTERP_KERNEL/Bases/NormalizedGeometricTypes 2018-04-19 17:04:36.670221387 +0200
581 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Bases/NormalizedGeometricTypes 2018-04-19 17:25:17.505792771 +0200
590 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/BoundingBox.cxx MEDCOUPLING_new/src/INTERP_KERNEL/BoundingBox.cxx
591 --- MEDCOUPLING_old/src/INTERP_KERNEL/BoundingBox.cxx 2018-04-19 17:04:36.670221387 +0200
592 +++ MEDCOUPLING_new/src/INTERP_KERNEL/BoundingBox.cxx 2018-04-19 17:25:17.462791921 +0200
597 + void BoundingBox::toCompactData(double data[6]) const
599 + data[0]=_coords[XMIN];
600 + data[1]=_coords[XMAX];
601 + data[2]=_coords[YMIN];
602 + data[3]=_coords[YMAX];
603 + data[4]=_coords[ZMIN];
604 + data[5]=_coords[ZMAX];
608 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/BoundingBox.hxx MEDCOUPLING_new/src/INTERP_KERNEL/BoundingBox.hxx
609 --- MEDCOUPLING_old/src/INTERP_KERNEL/BoundingBox.hxx 2018-04-19 17:04:36.670221387 +0200
610 +++ MEDCOUPLING_new/src/INTERP_KERNEL/BoundingBox.hxx 2018-04-19 17:25:17.537793403 +0200
613 inline void dumpCoords() const;
615 + void toCompactData(double data[6]) const;
619 bool isValid() const;
620 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/CellModel.cxx MEDCOUPLING_new/src/INTERP_KERNEL/CellModel.cxx
621 --- MEDCOUPLING_old/src/INTERP_KERNEL/CellModel.cxx 2018-04-19 17:04:36.671221407 +0200
622 +++ MEDCOUPLING_new/src/INTERP_KERNEL/CellModel.cxx 2018-04-19 17:25:17.403790755 +0200
625 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
627 -// Author : Anthony Geay (CEA/DEN)
628 +// Author : Anthony Geay (EDF R&D)
630 #include "CellModel.hxx"
633 "NORM_SEG4", "", "", "", "NORM_TETRA4",//10->14
634 "NORM_PYRA5", "NORM_PENTA6", "", "NORM_HEXA8", "",//15->19
635 "NORM_TETRA10", "", "NORM_HEXGP12", "NORM_PYRA13", "",//20->24
636 - "NORM_PENTA15", "", "NORM_HEXA27", "", "",//25->29
637 + "NORM_PENTA15", "", "NORM_HEXA27", "NORM_PENTA18", "",//25->29
638 "NORM_HEXA20", "NORM_POLYHED", "NORM_QPOLYG", "NORM_POLYL", "",//30->34
639 "", "", "", "", "",//35->39
642 _map_of_unique_instance.insert(std::make_pair(NORM_HEXGP12,CellModel(NORM_HEXGP12)));
643 _map_of_unique_instance.insert(std::make_pair(NORM_PYRA13,CellModel(NORM_PYRA13)));
644 _map_of_unique_instance.insert(std::make_pair(NORM_PENTA15,CellModel(NORM_PENTA15)));
645 + _map_of_unique_instance.insert(std::make_pair(NORM_PENTA18,CellModel(NORM_PENTA18)));
646 _map_of_unique_instance.insert(std::make_pair(NORM_HEXA20,CellModel(NORM_HEXA20)));
647 _map_of_unique_instance.insert(std::make_pair(NORM_HEXA27,CellModel(NORM_HEXA27)));
648 _map_of_unique_instance.insert(std::make_pair(NORM_POLYGON,CellModel(NORM_POLYGON)));
650 _little_sons_con[0][0]=0; _little_sons_con[0][1]=1; _little_sons_con[0][2]=6; _nb_of_little_sons=9;
651 _little_sons_con[1][0]=1; _little_sons_con[1][1]=2; _little_sons_con[1][2]=7;
652 _little_sons_con[2][0]=2; _little_sons_con[2][1]=0; _little_sons_con[2][2]=8;
653 + _little_sons_con[3][0]=3; _little_sons_con[3][1]=4; _little_sons_con[3][2]=9;
654 + _little_sons_con[4][0]=4; _little_sons_con[4][1]=5; _little_sons_con[4][2]=10;
655 + _little_sons_con[5][0]=5; _little_sons_con[5][1]=3; _little_sons_con[5][2]=11;
656 + _little_sons_con[6][0]=0; _little_sons_con[6][1]=3; _little_sons_con[6][2]=12;
657 + _little_sons_con[7][0]=1; _little_sons_con[7][1]=4; _little_sons_con[7][2]=13;
658 + _little_sons_con[8][0]=2; _little_sons_con[8][1]=5; _little_sons_con[8][2]=14;
663 + _nb_of_pts=18; _nb_of_sons=5; _dim=3; _linear_type=NORM_PENTA6; _is_simplex=false;
664 + _sons_type[0]=NORM_TRI6; _sons_type[1]=NORM_TRI6; _sons_type[2]=NORM_QUAD9; _sons_type[3]=NORM_QUAD9; _sons_type[4]=NORM_QUAD9;
665 + _sons_con[0][0]=0; _sons_con[0][1]=1; _sons_con[0][2]=2; _sons_con[0][3]=6; _sons_con[0][4]=7; _sons_con[0][5]=8; _nb_of_sons_con[0]=6;
666 + _sons_con[1][0]=3; _sons_con[1][1]=5; _sons_con[1][2]=4; _sons_con[1][3]=11; _sons_con[1][4]=10; _sons_con[1][5]=9; _nb_of_sons_con[1]=6;
667 + _sons_con[2][0]=0; _sons_con[2][1]=3; _sons_con[2][2]=4; _sons_con[2][3]=1; _sons_con[2][4]=12; _sons_con[2][5]=9; _sons_con[2][6]=13; _sons_con[2][7]=6; _sons_con[2][8]=15; _nb_of_sons_con[2]=9;
668 + _sons_con[3][0]=1; _sons_con[3][1]=4; _sons_con[3][2]=5; _sons_con[3][3]=2; _sons_con[3][4]=13; _sons_con[3][5]=10; _sons_con[3][6]=14; _sons_con[3][7]=7; _sons_con[3][8]=16; _nb_of_sons_con[3]=9;
669 + _sons_con[4][0]=2; _sons_con[4][1]=4; _sons_con[4][2]=5; _sons_con[4][3]=0; _sons_con[4][4]=14; _sons_con[4][5]=11; _sons_con[4][6]=12; _sons_con[4][7]=8; _sons_con[4][8]=17; _nb_of_sons_con[4]=9; _quadratic=true;
670 + _little_sons_con[0][0]=0; _little_sons_con[0][1]=1; _little_sons_con[0][2]=6; _nb_of_little_sons=9;
671 + _little_sons_con[1][0]=1; _little_sons_con[1][1]=2; _little_sons_con[1][2]=7;
672 + _little_sons_con[2][0]=2; _little_sons_con[2][1]=0; _little_sons_con[2][2]=8;
673 _little_sons_con[3][0]=3; _little_sons_con[3][1]=4; _little_sons_con[3][2]=9;
674 _little_sons_con[4][0]=4; _little_sons_con[4][1]=5; _little_sons_con[4][2]=10;
675 _little_sons_con[5][0]=5; _little_sons_con[5][1]=3; _little_sons_con[5][2]=11;
676 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/CMakeLists.txt MEDCOUPLING_new/src/INTERP_KERNEL/CMakeLists.txt
677 --- MEDCOUPLING_old/src/INTERP_KERNEL/CMakeLists.txt 2018-04-19 17:04:36.670221387 +0200
678 +++ MEDCOUPLING_new/src/INTERP_KERNEL/CMakeLists.txt 2018-04-19 17:25:17.404790774 +0200
681 Interpolation2D3D.cxx
682 Interpolation3D1D.cxx
683 + Interpolation1D0D.cxx
685 InterpKernelMeshQuality.cxx
686 InterpKernelCellSimplify.cxx
687 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/CurveIntersector.txx MEDCOUPLING_new/src/INTERP_KERNEL/CurveIntersector.txx
688 --- MEDCOUPLING_old/src/INTERP_KERNEL/CurveIntersector.txx 2018-04-19 17:04:36.671221407 +0200
689 +++ MEDCOUPLING_new/src/INTERP_KERNEL/CurveIntersector.txx 2018-04-19 17:25:17.483792336 +0200
694 - Computes the bouding box of a given element. iP in numPol mode.
695 + Computes the bounding box of a given element. iP in numPol mode.
697 template<class MyMeshType, class MyMatrix>
698 void CurveIntersector<MyMeshType,MyMatrix>::getElemBB (double* bb,
699 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/DirectedBoundingBox.cxx MEDCOUPLING_new/src/INTERP_KERNEL/DirectedBoundingBox.cxx
700 --- MEDCOUPLING_old/src/INTERP_KERNEL/DirectedBoundingBox.cxx 2018-04-19 17:04:36.671221407 +0200
701 +++ MEDCOUPLING_new/src/INTERP_KERNEL/DirectedBoundingBox.cxx 2018-04-19 17:25:17.426791209 +0200
704 //================================================================================
706 - * \brief Creates empty box intended to further initalization via setData()
707 + * \brief Creates empty box intended to further initialization via setData()
709 //================================================================================
711 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/ExprEval/InterpKernelExprParser.cxx MEDCOUPLING_new/src/INTERP_KERNEL/ExprEval/InterpKernelExprParser.cxx
712 --- MEDCOUPLING_old/src/INTERP_KERNEL/ExprEval/InterpKernelExprParser.cxx 2018-04-19 17:04:36.672221426 +0200
713 +++ MEDCOUPLING_new/src/INTERP_KERNEL/ExprEval/InterpKernelExprParser.cxx 2018-04-19 17:25:17.650795637 +0200
718 - * This method has the responsability to see if this->_expr can be seen as a unary function of something.
719 + * This method has the responsibility to see if this->_expr can be seen as a unary function of something.
720 * Something defined as the contain of highest level barckets.
721 * Typically '(3*x+2)' and 'cos(4*l+p*n)' will be intercepted by this method whereas '3*x+2' not...etc..
727 - * This method has the responsability to see if this->_expr is interpretable without any recursion.
728 + * This method has the responsibility to see if this->_expr is interpretable without any recursion.
729 * \return true if no recursion needed, false if this->_expr is too complex to be interpreted at this level.
730 - * \throw exception if this->_expr is simple enough to try to interprate this and this expression contains an error.
731 + * \throw exception if this->_expr is simple enough to try to interpret this and this expression contains an error.
733 bool ExprParser::tryToInterpALeaf()
738 std::ostringstream errMsg;
739 - char MSGTYP1[]="Error in brackets : closing brackets ')' before openning '('";
740 + char MSGTYP1[]="Error in brackets : closing brackets ')' before opening '('";
741 errMsg << EXPR_PARSE_ERR_MSG << MSGTYP1;
742 LocateError(errMsg,_expr,(int)std::distance(_expr.begin(),iter));
743 throw INTERP_KERNEL::Exception(errMsg.str().c_str());
746 double ExprParser::ReplaceAndTraduce(std::string& expr, int id, std::size_t bg, std::size_t end, int& delta)
748 - static const char MSG[]="Interal error : A string expected to be a float is not one ! Bug to signal !";
749 + static const char MSG[]="Internal error : A string expected to be a float is not one ! Bug to signal !";
750 std::istringstream stream;
751 std::ostringstream oss;
752 std::size_t end2=end!=std::string::npos?end-bg:end;
753 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/ExprEval/InterpKernelUnit.hxx MEDCOUPLING_new/src/INTERP_KERNEL/ExprEval/InterpKernelUnit.hxx
754 --- MEDCOUPLING_old/src/INTERP_KERNEL/ExprEval/InterpKernelUnit.hxx 2018-04-19 17:04:36.672221426 +0200
755 +++ MEDCOUPLING_new/src/INTERP_KERNEL/ExprEval/InterpKernelUnit.hxx 2018-04-19 17:25:17.653795696 +0200
759 * This class deals with units.
760 - * This class has two main responsabilities :
761 + * This class has two main responsibilities :
762 * - interprete units by giving simply their representation in string type.
763 * - performing operations on these units.
765 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/GaussPoints/CleanUpGauss.py MEDCOUPLING_new/src/INTERP_KERNEL/GaussPoints/CleanUpGauss.py
766 --- MEDCOUPLING_old/src/INTERP_KERNEL/GaussPoints/CleanUpGauss.py 2018-04-19 17:04:36.672221426 +0200
767 +++ MEDCOUPLING_new/src/INTERP_KERNEL/GaussPoints/CleanUpGauss.py 2018-04-19 17:25:17.481792296 +0200
769 # Author : Anthony Geay (EDF R&D)
776 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/GenMathFormulae.hxx MEDCOUPLING_new/src/INTERP_KERNEL/GenMathFormulae.hxx
777 --- MEDCOUPLING_old/src/INTERP_KERNEL/GenMathFormulae.hxx 2018-04-19 17:04:36.673221446 +0200
778 +++ MEDCOUPLING_new/src/INTERP_KERNEL/GenMathFormulae.hxx 2018-04-19 17:25:17.407790834 +0200
780 namespace INTERP_KERNEL
783 - * This method computes eigenvalues of a 3x3 symetric matrix stored with 6 values in 'matrix'. The convension chosen for 'matrix' is described here:
784 + * This method computes eigenvalues of a 3x3 symmetric matrix stored with 6 values in 'matrix'. The convension chosen for 'matrix' is described here:
785 * matrix[0]=m_xx, matrix[1]=m_yy, matrix[2]=m_zz,
786 * matrix[3]=m_xy, matrix[4]=m_yz, matrix[5]=m_xz
787 * This method returns the 3 eigenvalues in 'eigenVals'.
792 - * This method computes one eigenvector of a 3x3 symetric matrix stored with 6 values in 'matrix'. The convension chosen for 'matrix' is described here:
793 + * This method computes one eigenvector of a 3x3 symmetric matrix stored with 6 values in 'matrix'. The convension chosen for 'matrix' is described here:
794 * matrix[0]=m_xx, matrix[1]=m_yy, matrix[2]=m_zz,
795 * matrix[3]=m_xy, matrix[4]=m_yz, matrix[5]=m_xz
796 * This method returns the eigenvector of the corresponding eigenvalue in 'eigenVal'. The returned eigenValue is normalized.
797 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DBounds.cxx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DBounds.cxx
798 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DBounds.cxx 2018-04-19 17:04:36.673221446 +0200
799 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DBounds.cxx 2018-04-19 17:25:17.625795143 +0200
800 @@ -148,15 +148,16 @@
802 Bounds *Bounds::nearlyAmIIntersectingWith(const Bounds& other) const
804 - if( (other._x_min > _x_max+QUADRATIC_PLANAR::_precision) || (other._x_max < _x_min-QUADRATIC_PLANAR::_precision) || (other._y_min > _y_max+QUADRATIC_PLANAR::_precision)
805 - || (other._y_max < _y_min-QUADRATIC_PLANAR::_precision) )
806 + double eps = QuadraticPlanarPrecision::getPrecision();
807 + if( (other._x_min > _x_max+eps) || (other._x_max < _x_min-eps) || (other._y_min > _y_max+eps)
808 + || (other._y_max < _y_min-eps) )
810 if( (other._x_min >= _x_max ) || (other._x_max <= _x_min) || (other._y_min >= _y_max) || (other._y_max <= _y_min) )
812 - return new Bounds(std::max(_x_min-QUADRATIC_PLANAR::_precision,other._x_min),
813 - std::min(_x_max+QUADRATIC_PLANAR::_precision,other._x_max),
814 - std::max(_y_min-QUADRATIC_PLANAR::_precision,other._y_min),
815 - std::min(_y_max+QUADRATIC_PLANAR::_precision,other._y_max));//In approx cases.
816 + return new Bounds(std::max(_x_min-eps,other._x_min),
817 + std::min(_x_max+eps,other._x_max),
818 + std::max(_y_min-eps,other._y_min),
819 + std::min(_y_max+eps,other._y_max));//In approx cases.
822 return new Bounds(std::max(_x_min,other._x_min),std::min(_x_max,other._x_max),std::max(_y_min,other._y_min),std::min(_y_max,other._y_max));
824 bool thinY=Node::areDoubleEquals(_y_min,_y_max);
827 - if((Node::areDoubleEquals(x,_x_min) || Node::areDoubleEquals(x,_x_max)) && ((y<_y_max+QUADRATIC_PLANAR::_precision) && (y>_y_min-QUADRATIC_PLANAR::_precision)))
828 + if((Node::areDoubleEquals(x,_x_min) || Node::areDoubleEquals(x,_x_max)) && ((y<_y_max+QuadraticPlanarPrecision::getPrecision()) && (y>_y_min-QuadraticPlanarPrecision::getPrecision())))
829 return ON_BOUNDARY_POS;
836 - if((Node::areDoubleEquals(y,_y_min) || Node::areDoubleEquals(y,_y_max)) && ((x<_x_max+QUADRATIC_PLANAR::_precision) && (x>_x_min-QUADRATIC_PLANAR::_precision)))
837 + if((Node::areDoubleEquals(y,_y_min) || Node::areDoubleEquals(y,_y_max)) && ((x<_x_max+QuadraticPlanarPrecision::getPrecision()) && (x>_x_min-QuadraticPlanarPrecision::getPrecision())))
838 return ON_BOUNDARY_POS;
841 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DComposedEdge.cxx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DComposedEdge.cxx
842 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DComposedEdge.cxx 2018-04-19 17:04:36.673221446 +0200
843 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DComposedEdge.cxx 2018-04-19 17:25:17.634795321 +0200
844 @@ -541,14 +541,14 @@
845 std::set<Node *> nodes;
847 for(std::set<Node *>::const_iterator iter=nodes.begin();iter!=nodes.end();iter++)
848 - if(sqrt((*iter)->distanceWithSq(*nodeToTest))<QUADRATIC_PLANAR::_precision)
849 + if(sqrt((*iter)->distanceWithSq(*nodeToTest))<QuadraticPlanarPrecision::getPrecision())
851 double ref(isInOrOutAlg(nodeToTest,nodes,inOutSwitch));
853 for(std::set< IntersectElement >::iterator iter4=inOutSwitch.begin();iter4!=inOutSwitch.end();iter4++)
855 double val((*iter4).getVal1());
856 - if(fabs(val-ref)>=QUADRATIC_PLANAR::_precision)
857 + if(fabs(val-ref)>=QuadraticPlanarPrecision::getPrecision())
861 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdgeArcCircle.cxx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdgeArcCircle.cxx
862 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdgeArcCircle.cxx 2018-04-19 17:04:36.673221446 +0200
863 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdgeArcCircle.cxx 2018-04-19 17:25:17.619795024 +0200
865 a2.getCenter(centerL); radiusL=a2.getRadius();
866 a1.getCenter(centerB); radiusB=a1.getRadius();
868 - // dividing from the begining by radiusB^2 to keep precision
869 + // dividing from the beginning by radiusB^2 to keep precision
870 distBetweenCenters=Node::distanceBtw2PtSq(centerL,centerB);
871 cst=distBetweenCenters/(radiusB*radiusB);
872 cst+=radiusL*radiusL/(radiusB*radiusB);
875 _dist=Node::distanceBtw2Pt(getE1().getCenter(),getE2().getCenter());
876 double radius1=getE1().getRadius(); double radius2=getE2().getRadius();
877 - if(_dist>radius1+radius2+QUADRATIC_PLANAR::_precision || _dist+std::min(radius1,radius2)+QUADRATIC_PLANAR::_precision<std::max(radius1,radius2))
878 + if(_dist>radius1+radius2+QuadraticPlanarPrecision::getPrecision() || _dist+std::min(radius1,radius2)+QuadraticPlanarPrecision::getPrecision()<std::max(radius1,radius2))
880 obviousNoIntersection=true;
883 ((*(_e2.getStartNode()))[0]-center[0])*((*(_e2.getEndNode()))[1]-center[1])-
884 ((*(_e2.getStartNode()))[1]-center[1])*((*(_e2.getEndNode()))[0]-center[0]);
885 _determinant=getE1().getRadius()*getE1().getRadius()/_drSq-_cross*_cross/(_drSq*_drSq);
886 - if(_determinant>-2*QUADRATIC_PLANAR::_precision)//QUADRATIC_PLANAR::_precision*QUADRATIC_PLANAR::_precision*_drSq*_drSq/(2.*_dx*_dx))
887 + if(_determinant>-2*QuadraticPlanarPrecision::getPrecision())//QuadraticPlanarPrecision::getPrecision()*QuadraticPlanarPrecision::getPrecision()*_drSq*_drSq/(2.*_dx*_dx))
888 obviousNoIntersection=false;
890 obviousNoIntersection=true;
893 std::list< IntersectElement > ret;
894 const double *center=getE1().getCenter();
895 - if(!(fabs(_determinant)<(2.*QUADRATIC_PLANAR::_precision)))//QUADRATIC_PLANAR::_precision*QUADRATIC_PLANAR::_precision*_drSq*_drSq/(2.*_dx*_dx))
896 + if(!(fabs(_determinant)<(2.*QuadraticPlanarPrecision::getPrecision())))//QuadraticPlanarPrecision::getPrecision()*QuadraticPlanarPrecision::getPrecision()*_drSq*_drSq/(2.*_dx*_dx))
898 double determinant=EdgeArcCircle::SafeSqrt(_determinant);
899 double x1=(_cross*_dy/_drSq+Node::sign(_dy)*_dx*determinant)+center[0];
902 * 'eps' is expected to be > 0.
903 * 'conn' is of size 3. conn[0] is start id, conn[1] is end id and conn[2] is middle id.
904 - * 'offset' is typically the number of nodes already existing in global 2D curve mesh. Additionnal coords 'addCoo' ids will be put after the already existing.
905 + * 'offset' is typically the number of nodes already existing in global 2D curve mesh. Additional coords 'addCoo' ids will be put after the already existing.
907 void EdgeArcCircle::tesselate(const int *conn, int offset, double eps, std::vector<int>& newConn, std::vector<double>& addCoo) const
911 double myDelta1(angle1-_angle0),myDelta2(angle2-_angle0);
913 - { myDelta1=myDelta1>-QUADRATIC_PLANAR::_precision?myDelta1:myDelta1+2.*M_PI; myDelta2=myDelta2>-QUADRATIC_PLANAR::_precision?myDelta2:myDelta2+2.*M_PI; }
914 + { myDelta1=myDelta1>-QuadraticPlanarPrecision::getPrecision()?myDelta1:myDelta1+2.*M_PI; myDelta2=myDelta2>-QuadraticPlanarPrecision::getPrecision()?myDelta2:myDelta2+2.*M_PI; }
916 - { myDelta1=myDelta1<QUADRATIC_PLANAR::_precision?myDelta1:myDelta1-2.*M_PI; myDelta2=myDelta2<QUADRATIC_PLANAR::_precision?myDelta2:myDelta2-2.*M_PI; }
917 + { myDelta1=myDelta1<QuadraticPlanarPrecision::getPrecision()?myDelta1:myDelta1-2.*M_PI; myDelta2=myDelta2<QuadraticPlanarPrecision::getPrecision()?myDelta2:myDelta2-2.*M_PI; }
919 mid[0]=_center[0]+_radius*cos(_angle0+(myDelta1+myDelta2)/2.);
920 mid[1]=_center[1]+_radius*sin(_angle0+(myDelta1+myDelta2)/2.);
921 @@ -703,14 +703,14 @@
922 double myDelta2=val2-_angle0;
925 - myDelta1=myDelta1>-(_radius*QUADRATIC_PLANAR::_precision)?myDelta1:myDelta1+2.*M_PI;//in some cases val1 or val2 are so close to angle0 that myDelta is close to 0. but negative.
926 - myDelta2=myDelta2>-(_radius*QUADRATIC_PLANAR::_precision)?myDelta2:myDelta2+2.*M_PI;
927 + myDelta1=myDelta1>-(_radius*QuadraticPlanarPrecision::getPrecision())?myDelta1:myDelta1+2.*M_PI;//in some cases val1 or val2 are so close to angle0 that myDelta is close to 0. but negative.
928 + myDelta2=myDelta2>-(_radius*QuadraticPlanarPrecision::getPrecision())?myDelta2:myDelta2+2.*M_PI;
929 return myDelta1<myDelta2;
933 - myDelta1=myDelta1<(_radius*QUADRATIC_PLANAR::_precision)?myDelta1:myDelta1-2.*M_PI;
934 - myDelta2=myDelta2<(_radius*QUADRATIC_PLANAR::_precision)?myDelta2:myDelta2-2.*M_PI;
935 + myDelta1=myDelta1<(_radius*QuadraticPlanarPrecision::getPrecision())?myDelta1:myDelta1-2.*M_PI;
936 + myDelta2=myDelta2<(_radius*QuadraticPlanarPrecision::getPrecision())?myDelta2:myDelta2-2.*M_PI;
937 return myDelta2<myDelta1;
940 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdge.cxx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdge.cxx
941 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdge.cxx 2018-04-19 17:04:36.673221446 +0200
942 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdge.cxx 2018-04-19 17:25:17.627795182 +0200
947 - * This methode is const because 'node' is supposed to be equal geomitrically to _node.
948 + * This method is const because 'node' is supposed to be equal geometrically to _node.
950 void IntersectElement::setNode(Node *node) const
953 if(intersector->intersect(whereToFind,newNodes,order,commonNode))
956 - throw Exception("Internal error occured - error in intersector implementation!");// This case should never happen
957 + throw Exception("Internal error occurred - error in intersector implementation!");// This case should never happen
958 std::vector<Node *>::iterator iter=newNodes.begin();
959 std::vector<Node *>::reverse_iterator iterR=newNodes.rbegin();
960 f1->addSubEdgeInVector(f1->getStartNode(),*iter,outValForF1);
963 inline bool eqpair(const std::pair<double,Node *>& p1, const std::pair<double,Node *>& p2)
965 - return fabs(p1.first-p2.first)<QUADRATIC_PLANAR::_precision;
966 + return fabs(p1.first-p2.first)<QuadraticPlanarPrecision::getPrecision();
970 @@ -1005,12 +1005,12 @@
971 for(std::vector< std::pair<double,Node *> >::const_iterator it=an2.begin();it!=itend;it++)
973 int idd=(*mapp2.find((*it).second)).second;
974 - if((*it).first<QUADRATIC_PLANAR::_precision)
975 + if((*it).first<QuadraticPlanarPrecision::getPrecision())
980 - if((*it).first>1-QUADRATIC_PLANAR::_precision)
981 + if((*it).first>1-QuadraticPlanarPrecision::getPrecision())
985 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdge.hxx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdge.hxx
986 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdge.hxx 2018-04-19 17:04:36.673221446 +0200
987 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdge.hxx 2018-04-19 17:25:17.616794965 +0200
989 class INTERPKERNEL_EXPORT EdgeIntersector
992 - //! All non symetric methods are relative to 'e1'.
993 + //! All non symmetric methods are relative to 'e1'.
994 EdgeIntersector(const Edge& e1, const Edge& e2):_e1(e1),_e2(e2) { }
996 virtual ~EdgeIntersector() { }
997 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdgeLin.cxx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdgeLin.cxx
998 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdgeLin.cxx 2018-04-19 17:04:36.674221466 +0200
999 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DEdgeLin.cxx 2018-04-19 17:25:17.609794826 +0200
1000 @@ -108,20 +108,20 @@
1001 bool SegSegIntersector::areColinears() const
1003 double determinant=_matrix[0]*_matrix[3]-_matrix[1]*_matrix[2];
1004 - return fabs(determinant)<QUADRATIC_PLANAR::_arc_detection_precision;
1005 + return fabs(determinant)<QuadraticPlanarArcDetectionPrecision::getArcDetectionPrecision();
1009 * Should be called \b once ! non const method.
1010 * \param whereToFind specifies the box where final seek should be done. Essentially it is used for caracteristic reason.
1011 - * \param colinearity returns if regarding QUADRATIC_PLANAR::_precision ; e1 and e2 are colinears
1012 + * \param colinearity returns if regarding QuadraticPlanarPrecision::getPrecision() ; e1 and e2 are colinears
1013 * If true 'this' is modified ! So this method be called once above all if true is returned for this parameter.
1014 * \param areOverlapped if colinearity if true, this parameter looks if e1 and e2 are overlapped.
1016 void SegSegIntersector::areOverlappedOrOnlyColinears(const Bounds *whereToFind, bool& colinearity, bool& areOverlapped)
1018 double determinant=_matrix[0]*_matrix[3]-_matrix[1]*_matrix[2];
1019 - if(fabs(determinant)>2.*QUADRATIC_PLANAR::_precision)//2*_precision due to max of offset on _start and _end
1020 + if(fabs(determinant)>2.*QuadraticPlanarPrecision::getPrecision())//2*_precision due to max of offset on _start and _end
1022 colinearity=false; areOverlapped=false;
1023 _matrix[0]/=determinant; _matrix[1]/=determinant; _matrix[2]/=determinant; _matrix[3]/=determinant;
1025 double deno=sqrt(_matrix[0]*_matrix[0]+_matrix[1]*_matrix[1]);
1026 double x=(*(_e1.getStartNode()))[0]-(*(_e2.getStartNode()))[0];
1027 double y=(*(_e1.getStartNode()))[1]-(*(_e2.getStartNode()))[1];
1028 - areOverlapped=fabs((_matrix[1]*y+_matrix[0]*x)/deno)<QUADRATIC_PLANAR::_precision;
1029 + areOverlapped=fabs((_matrix[1]*y+_matrix[0]*x)/deno)<QuadraticPlanarPrecision::getPrecision();
1033 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DNode.hxx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DNode.hxx
1034 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DNode.hxx 2018-04-19 17:04:36.674221466 +0200
1035 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DNode.hxx 2018-04-19 17:25:17.631795261 +0200
1037 static double dot(const double *vect1, const double *vect2) { return vect1[0]*vect2[0]+vect1[1]*vect2[1]; }
1038 static double sign(double val) { if(val>=0) return 1.; else return -1.; }
1039 static double norm(const double *vect) { return sqrt(vect[0]*vect[0]+vect[1]*vect[1]); }
1040 - static bool areDoubleEquals(double a, double b) { return fabs(a-b) < QUADRATIC_PLANAR::_precision; }
1041 + static bool areDoubleEquals(double a, double b) { return fabs(a-b) < QuadraticPlanarPrecision::getPrecision(); }
1042 //! idem areDoubleEquals except that precision of comparison is modified.
1043 - static bool areDoubleEqualsWP(double a, double b, double k) { return fabs(a-b) < k*QUADRATIC_PLANAR::_precision; }
1044 + static bool areDoubleEqualsWP(double a, double b, double k) { return fabs(a-b) < k*QuadraticPlanarPrecision::getPrecision(); }
1045 static double distanceBtw2Pt(const double *a, const double *b) { return sqrt((a[0]-b[0])*(a[0]-b[0])+(a[1]-b[1])*(a[1]-b[1])); }
1046 static double distanceBtw2PtSq(const double *a, const double *b) { return (a[0]-b[0])*(a[0]-b[0])+(a[1]-b[1])*(a[1]-b[1]); }
1048 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DPrecision.cxx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DPrecision.cxx
1049 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DPrecision.cxx 2018-04-19 17:04:36.674221466 +0200
1050 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DPrecision.cxx 2018-04-19 17:25:17.621795064 +0200
1053 #include "InterpKernelGeo2DPrecision.hxx"
1055 -double INTERP_KERNEL::QUADRATIC_PLANAR::_precision=1e-14;
1056 +double INTERP_KERNEL::QuadraticPlanarPrecision::_precision=1e-14;
1057 +double INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::_arc_detection_precision=1e-14;
1059 +INTERP_KERNEL::QuadraticPlanarPrecision::QuadraticPlanarPrecision(double precision):
1060 + _initial_precision(_precision)
1062 + _precision=precision;
1065 +INTERP_KERNEL::QuadraticPlanarPrecision::~QuadraticPlanarPrecision()
1067 + _precision = _initial_precision;
1070 +INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::QuadraticPlanarArcDetectionPrecision(double precision):
1071 + _initial_arc_detection_precision(_arc_detection_precision)
1073 + _arc_detection_precision=precision;
1076 +INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::~QuadraticPlanarArcDetectionPrecision()
1078 + _arc_detection_precision = _initial_arc_detection_precision;
1081 -double INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=1e-14;
1083 -void INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(double precision)
1084 +void INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(double precision)
1086 - INTERP_KERNEL::QUADRATIC_PLANAR::_precision=precision;
1087 + _precision=precision;
1090 -void INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(double precision)
1091 +void INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(double precision)
1093 - INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=precision;
1094 + _arc_detection_precision=precision;
1096 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DPrecision.hxx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DPrecision.hxx
1097 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DPrecision.hxx 2018-04-19 17:04:36.674221466 +0200
1098 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DPrecision.hxx 2018-04-19 17:25:17.623795103 +0200
1101 namespace INTERP_KERNEL
1103 - class INTERPKERNEL_EXPORT QUADRATIC_PLANAR
1104 + /* !!TODO: a more global review of the code should be done, so that eps is always a parameter of all methods
1105 + instead of being stored as a static attribute.
1108 + /** Class storing the precision for the detection of colinear segments, coincident points, etc ...
1109 + * in Geometric2D computations.
1111 + * RAII pattern allowing to temporarily override Geometric2D precision.
1112 + * When the instance is destroyed, the previous precision is set back.
1115 + class QuadraticPlanarPrecision
1118 - static double _precision;
1119 - static double _arc_detection_precision;
1120 + QuadraticPlanarPrecision(double prec);
1121 + virtual ~QuadraticPlanarPrecision();
1123 static void setPrecision(double precision);
1124 + inline static double getPrecision() { return _precision; }
1126 + static double _precision;
1127 + double _initial_precision;
1130 + /** Class storing the precision for the detection of degenerated arc of circles
1131 + * in Geometric2D computations.
1133 + * RAII pattern allowing to temporarily override Geometric2D precision.
1134 + * When the instance is destroyed, the previous precision is set back.
1136 + class QuadraticPlanarArcDetectionPrecision
1139 + QuadraticPlanarArcDetectionPrecision(double prec);
1140 + virtual ~QuadraticPlanarArcDetectionPrecision();
1142 static void setArcDetectionPrecision(double precision);
1143 + inline static double getArcDetectionPrecision() { return _arc_detection_precision; }
1145 + static double _arc_detection_precision;
1146 + double _initial_arc_detection_precision;
1153 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DQuadraticPolygon.cxx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DQuadraticPolygon.cxx
1154 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DQuadraticPolygon.cxx 2018-04-19 17:04:36.674221466 +0200
1155 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2D/InterpKernelGeo2DQuadraticPolygon.cxx 2018-04-19 17:25:17.628795202 +0200
1156 @@ -267,11 +267,11 @@
1160 - * This method splits 'this' with 'other' into smaller pieces localizable. 'mapThis' is a map that gives the correspondance
1161 + * This method splits 'this' with 'other' into smaller pieces localizable. 'mapThis' is a map that gives the correspondence
1162 * between nodes contained in 'this' and node ids in a global mesh.
1163 - * In the same way, 'mapOther' gives the correspondance between nodes contained in 'other' and node ids in a
1164 - * global mesh from wich 'other' is extracted.
1165 - * This method has 1 out paramater : 'edgesThis', After the call of this method, it contains the nodal connectivity (including type)
1166 + * In the same way, 'mapOther' gives the correspondence between nodes contained in 'other' and node ids in a
1167 + * global mesh from which 'other' is extracted.
1168 + * This method has 1 out parameter : 'edgesThis', After the call of this method, it contains the nodal connectivity (including type)
1169 * of 'this' into globlal "this mesh".
1170 * This method has 2 in/out parameters : 'subDivOther' and 'addCoo'.'otherEdgeIds' is useful to put values in
1171 * 'edgesThis', 'subDivOther' and 'addCoo'.
1172 @@ -1090,7 +1090,7 @@
1175 throw Exception("Internal error: polygons incompatible with each others. Should never happen!");
1176 - //Ok we found correspondance between this and pol1. Searching for right direction to close polygon.
1177 + //Ok we found correspondence between this and pol1. Searching for right direction to close polygon.
1178 ElementaryEdge *e=_sub_edges.back();
1179 if(e->getLoc()==FULL_ON_1)
1181 @@ -1140,7 +1140,7 @@
1185 - int szMax(pol1Splitted.size()+1),ii(0);// here a protection against agressive users of IntersectMeshes of invalid input meshes
1186 + int szMax(pol1Splitted.size()+1),ii(0);// here a protection against aggressive users of IntersectMeshes of invalid input meshes
1187 std::list<QuadraticPolygon *>::iterator ret;
1190 @@ -1157,7 +1157,7 @@
1193 while(ret==iEnd && ii<szMax);
1194 - if(ii==szMax)// here a protection against agressive users of IntersectMeshes of invalid input meshes
1195 + if(ii==szMax)// here a protection against aggressive users of IntersectMeshes of invalid input meshes
1196 throw INTERP_KERNEL::Exception("QuadraticPolygon::fillAsMuchAsPossibleWith : Something is invalid with input polygons !");
1199 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2DIntersector.hxx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2DIntersector.hxx
1200 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2DIntersector.hxx 2018-04-19 17:04:36.674221466 +0200
1201 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2DIntersector.hxx 2018-04-19 17:25:17.415790992 +0200
1203 QuadraticPolygon *buildPolygonOfOneEdgeFrom(const std::vector<double>& coords, NormalizedCellType type);
1204 QuadraticPolygon *buildPolygonAFrom(ConnType cell, int nbOfPoints, NormalizedCellType type);
1205 QuadraticPolygon *buildPolygonBFrom(ConnType cell, int nbOfPoints, NormalizedCellType type);
1207 + QuadraticPlanarPrecision _precision;
1211 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2DIntersector.txx MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2DIntersector.txx
1212 --- MEDCOUPLING_old/src/INTERP_KERNEL/Geometric2DIntersector.txx 2018-04-19 17:04:36.674221466 +0200
1213 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Geometric2DIntersector.txx 2018-04-19 17:25:17.398790656 +0200
1215 GEO2D_INTERSECTOR::Geometric2DIntersector(const MyMeshType& meshT, const MyMeshType& meshS,
1216 double dimCaracteristic, double md3DSurf, double minDot3DSurf, double medianPlane,
1217 double precision, int orientation):
1218 - InterpType<MyMeshType,MyMatrix,GEO2D_INTERSECTOR >(meshT,meshS,dimCaracteristic, precision, md3DSurf, minDot3DSurf, medianPlane, true, orientation, 0)
1219 + InterpType<MyMeshType,MyMatrix,GEO2D_INTERSECTOR >(meshT,meshS,dimCaracteristic, precision, md3DSurf, minDot3DSurf, medianPlane, true, orientation, 0),
1220 + _precision(precision)
1222 - QUADRATIC_PLANAR::_precision=precision;
1225 INTERSECTOR_TEMPLATE
1226 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation1D0D.cxx MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation1D0D.cxx
1227 --- MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation1D0D.cxx 1970-01-01 01:00:00.000000000 +0100
1228 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation1D0D.cxx 2018-04-19 17:25:17.662795874 +0200
1230 +// Copyright (C) 2018 CEA/DEN, EDF R&D
1232 +// This library is free software; you can redistribute it and/or
1233 +// modify it under the terms of the GNU Lesser General Public
1234 +// License as published by the Free Software Foundation; either
1235 +// version 2.1 of the License, or (at your option) any later version.
1237 +// This library is distributed in the hope that it will be useful,
1238 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
1239 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
1240 +// Lesser General Public License for more details.
1242 +// You should have received a copy of the GNU Lesser General Public
1243 +// License along with this library; if not, write to the Free Software
1244 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
1246 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
1248 +// Author : Anthony GEAY (EDF R&D)
1250 +#include "Interpolation1D0D.hxx"
1251 +#include "Interpolation1D0D.txx"
1253 +namespace INTERP_KERNEL
1256 + * \class Interpolation1D0D
1257 + * \brief Class used to calculate the interpolation between a 1D mesh and 0D mesh (in 3D space)
1258 + * Can be seen as a specialization of Interpolation3D, and allows notably the adjustment of bounind boxes.
1262 + Interpolation1D0D::Interpolation1D0D()
1265 + Interpolation1D0D::Interpolation1D0D(const InterpolationOptions& io):Interpolation<Interpolation1D0D>(io)
1269 + * Inspired from PlanarIntersector<MyMeshType,MyMatrix>::adjustBoundingBoxes
1271 + void Interpolation1D0D::adjustBoundingBoxes(std::vector<double>& bbox)
1273 + const int SPACE_DIM = 3;
1274 + const double adj(getPrecision());// here precision is used instead of getBoundingBoxAdjustment and getBoundingBoxAdjustmentAbs because in the context only precision is relevant
1276 + long size = bbox.size()/(2*SPACE_DIM);
1277 + for (int i=0; i<size; i++)
1279 + for(int idim=0; idim<SPACE_DIM; idim++)
1281 + bbox[i*2*SPACE_DIM+2*idim ] -= adj;
1282 + bbox[i*2*SPACE_DIM+2*idim+1] += adj;
1287 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation1D0D.hxx MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation1D0D.hxx
1288 --- MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation1D0D.hxx 1970-01-01 01:00:00.000000000 +0100
1289 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation1D0D.hxx 2018-04-19 17:25:17.637795380 +0200
1291 +// Copyright (C) 2018 CEA/DEN, EDF R&D
1293 +// This library is free software; you can redistribute it and/or
1294 +// modify it under the terms of the GNU Lesser General Public
1295 +// License as published by the Free Software Foundation; either
1296 +// version 2.1 of the License, or (at your option) any later version.
1298 +// This library is distributed in the hope that it will be useful,
1299 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
1300 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
1301 +// Lesser General Public License for more details.
1303 +// You should have received a copy of the GNU Lesser General Public
1304 +// License along with this library; if not, write to the Free Software
1305 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
1307 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
1309 +// Author : A Geay (EDF R&D)
1311 +#ifndef __INTERPOLATION1D0D_HXX__
1312 +#define __INTERPOLATION1D0D_HXX__
1314 +#include "INTERPKERNELDefines.hxx"
1315 +#include "Interpolation.hxx"
1316 +#include "NormalizedUnstructuredMesh.hxx"
1317 +#include "InterpolationOptions.hxx"
1321 +namespace INTERP_KERNEL
1323 + class INTERPKERNEL_EXPORT Interpolation1D0D : public Interpolation<Interpolation1D0D>
1326 + Interpolation1D0D();
1327 + Interpolation1D0D(const InterpolationOptions& io);
1328 + template<class MyMeshType, class MatrixType>
1329 + int interpolateMeshes(const MyMeshType& srcMesh, const MyMeshType& targetMesh, MatrixType& result, const std::string& method);
1331 + void adjustBoundingBoxes(std::vector<double>& bbox);
1336 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation1D0D.txx MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation1D0D.txx
1337 --- MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation1D0D.txx 1970-01-01 01:00:00.000000000 +0100
1338 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation1D0D.txx 2018-04-19 17:25:17.423791150 +0200
1340 +// Copyright (C) 2018 CEA/DEN, EDF R&D
1342 +// This library is free software; you can redistribute it and/or
1343 +// modify it under the terms of the GNU Lesser General Public
1344 +// License as published by the Free Software Foundation; either
1345 +// version 2.1 of the License, or (at your option) any later version.
1347 +// This library is distributed in the hope that it will be useful,
1348 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
1349 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
1350 +// Lesser General Public License for more details.
1352 +// You should have received a copy of the GNU Lesser General Public
1353 +// License along with this library; if not, write to the Free Software
1354 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
1356 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
1358 +// Author : Anthony Geay (EDF R&D)
1360 +#ifndef __INTERPOLATION1D0D_TXX__
1361 +#define __INTERPOLATION1D0D_TXX__
1363 +#include "Interpolation1D0D.hxx"
1364 +#include "Interpolation.txx"
1365 +#include "MeshElement.txx"
1366 +#include "PointLocator3DIntersectorP0P0.txx"
1367 +#include "PointLocator3DIntersectorP0P1.txx"
1368 +#include "PointLocator3DIntersectorP1P0.txx"
1369 +#include "PointLocator3DIntersectorP1P1.txx"
1372 +#include "BBTree.txx"
1374 +#include "InterpKernelAssert.hxx"
1376 +namespace INTERP_KERNEL
1379 + * Very similar to Interpolation3D::interpolateMeshes, except for the bounding boxes that can be
1380 + * adjusted in a similar fashion as in InterpolationPlanar::performAdjustmentOfBB()
1382 + template<class MyMeshType, class MatrixType>
1383 + int Interpolation1D0D::interpolateMeshes(const MyMeshType& srcMesh, const MyMeshType& targetMesh, MatrixType& result, const std::string& method)
1385 +#if __cplusplus >= 201103L
1386 + constexpr int SPACEDIM=MyMeshType::MY_SPACEDIM;
1387 + using ConnType=typename MyMeshType::MyConnType;
1388 + IKAssert(SPACEDIM==3);
1390 + if(InterpolationOptions::getIntersectionType() != PointLocator)
1391 + INTERP_KERNEL::Exception("Invalid 1D/0D intersection type specified : must be PointLocator.");
1393 + std::string methC ( InterpolationOptions::filterInterpolationMethod(method) );
1395 + throw Exception("Invalid method chosen must be in \"P1P1\".");
1397 + const double epsilon(getPrecision());
1398 + // create MeshElement objects corresponding to each element of the two meshes
1399 + const unsigned long numSrcElems(srcMesh.getNumberOfElements()), numTargetElems(targetMesh.getNumberOfElements());
1401 + LOG(2, "Source mesh has " << numSrcElems << " elements and target mesh has " << numTargetElems << " elements ");
1403 + std::vector<MeshElement<ConnType>*> srcElems(numSrcElems);
1405 + std::map<MeshElement<ConnType>*, int> indices;
1407 + for(unsigned long i = 0 ; i < numSrcElems ; ++i)
1408 + srcElems[i] = new MeshElement<ConnType>(i, srcMesh);
1410 + // create empty maps for all source elements
1411 + result.resize(targetMesh.getNumberOfNodes());
1413 + // create BBTree structure
1414 + // - get bounding boxes
1415 + std::vector<double> bboxes(2*SPACEDIM*numSrcElems);
1416 + int* srcElemIdx = new int[numSrcElems];
1417 + for(unsigned long i = 0; i < numSrcElems ; ++i)
1419 + // get source bboxes in right order
1420 + srcElems[i]->getBoundingBox()->toCompactData(bboxes.data()+6*i);
1421 + srcElemIdx[i] = srcElems[i]->getIndex();
1424 + adjustBoundingBoxes(bboxes);
1425 + const double *bboxPtr(nullptr);
1427 + bboxPtr=&bboxes[0];
1428 + BBTree<SPACEDIM,ConnType> tree(bboxPtr, srcElemIdx, 0, numSrcElems);
1429 + const ConnType *trgConnPtr(targetMesh.getConnectivityPtr()),*trgConnIPtr(targetMesh.getConnectivityIndexPtr());
1430 + const ConnType *srcConnPtr(srcMesh.getConnectivityPtr()),*srcConnIPtr(srcMesh.getConnectivityIndexPtr());
1431 + const double *trgCooPtr(targetMesh.getCoordinatesPtr()),*srcCooPtr(srcMesh.getCoordinatesPtr());
1432 + for(unsigned long i = 0; i < numTargetElems; ++i)
1434 + IKAssert(trgConnIPtr[i+1]==i+1 && trgConnIPtr[i]==i);
1435 + std::vector<ConnType> srcSegCondidates;
1436 + const double *trgCellPosition(trgCooPtr+SPACEDIM*trgConnPtr[i]);
1437 + typename MatrixType::value_type& resRow(result[trgConnPtr[i]]);
1438 + tree.getElementsAroundPoint(trgCellPosition, srcSegCondidates);
1439 + for(auto srcSeg: srcSegCondidates)
1441 + IKAssertMsg(srcConnIPtr[srcSeg+1]==2*(srcSeg+1) && srcConnIPtr[srcSeg]==2*srcSeg,"Only implemented for linear 1D source");
1442 + double bc0(0.),bc1(0.);
1443 + ConnType srcNode0(srcConnPtr[2*srcSeg]),srcNode1(srcConnPtr[2*srcSeg+1]);
1444 + if(IsPointOn3DSeg(srcCooPtr+SPACEDIM*srcNode0,srcCooPtr+SPACEDIM*srcNode1,trgCellPosition,epsilon,bc0,bc1))
1446 + resRow.insert(std::make_pair(srcNode0,bc0));
1447 + resRow.insert(std::make_pair(srcNode1,bc1));
1452 + delete [] srcElemIdx;
1453 + for(unsigned long i = 0 ; i < numSrcElems ; ++i)
1454 + delete srcElems[i];
1455 + return srcMesh.getNumberOfNodes();
1458 + throw INTERP_KERNEL::Exception("Go buying a C++11 compiler :)");
1463 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation2D1D.txx MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation2D1D.txx
1464 --- MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation2D1D.txx 2018-04-19 17:04:36.676221506 +0200
1465 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation2D1D.txx 2018-04-19 17:25:17.485792376 +0200
1468 /****************************************************************/
1469 /* Create a search tree based on the bounding boxes */
1470 - /* Instanciate the intersector and initialise the result vector */
1471 + /* Instantiate the intersector and initialise the result vector */
1472 /****************************************************************/
1474 long start_filtering=clock();
1475 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation2DCurve.hxx MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation2DCurve.hxx
1476 --- MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation2DCurve.hxx 2018-04-19 17:04:36.676221506 +0200
1477 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation2DCurve.hxx 2018-04-19 17:25:17.521793087 +0200
1480 Interpolation2DCurve();
1481 Interpolation2DCurve(const InterpolationOptions& io);
1482 - // geometric precision, intersection tolerance, coice of the median line,
1483 + // geometric precision, intersection tolerance, choice of the median line,
1484 void setOptions(double precision, double tolerance, double medianLine);
1487 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation3DSurf.cxx MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation3DSurf.cxx
1488 --- MEDCOUPLING_old/src/INTERP_KERNEL/Interpolation3DSurf.cxx 2018-04-19 17:04:36.676221506 +0200
1489 +++ MEDCOUPLING_new/src/INTERP_KERNEL/Interpolation3DSurf.cxx 2018-04-19 17:25:17.640795439 +0200
1491 - Values: between 0 and 1.
1493 -# doRotat: rotate the coordinate system such that the target cell is in the Oxy plane.
1494 - - Values: true (necessarilly if Intersection_type=Triangle), false.
1495 + - Values: true (necessarily if Intersection_type=Triangle), false.
1496 - Default: true (as default Intersection_type=Triangle)
1497 -# precision: Level of precision of the computations is precision times the characteristic size of the mesh.
1498 - Values: positive real number.
1500 -# printLevel: Level of verboseness during the computations.
1501 - - Values: interger between 0 and 3.
1502 + - Values: integer between 0 and 3.
1505 void Interpolation3DSurf::setOptions(double precision, int printLevel, double medianPlan,
1506 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/InterpolationCurve.txx MEDCOUPLING_new/src/INTERP_KERNEL/InterpolationCurve.txx
1507 --- MEDCOUPLING_old/src/INTERP_KERNEL/InterpolationCurve.txx 2018-04-19 17:04:36.676221506 +0200
1508 +++ MEDCOUPLING_new/src/INTERP_KERNEL/InterpolationCurve.txx 2018-04-19 17:25:17.384790379 +0200
1510 throw INTERP_KERNEL::Exception("Invalid method specified ! Must be in : \"P0P0\" \"P0P1\" \"P1P0\" or \"P1P1\"");
1511 /****************************************************************/
1512 /* Create a search tree based on the bounding boxes */
1513 - /* Instanciate the intersector and initialise the result vector */
1514 + /* Instantiate the intersector and initialise the result vector */
1515 /****************************************************************/
1517 long start_filtering=clock();
1518 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/InterpolationOptions.cxx MEDCOUPLING_new/src/INTERP_KERNEL/InterpolationOptions.cxx
1519 --- MEDCOUPLING_old/src/INTERP_KERNEL/InterpolationOptions.cxx 2018-04-19 17:04:36.676221506 +0200
1520 +++ MEDCOUPLING_new/src/INTERP_KERNEL/InterpolationOptions.cxx 2018-04-19 17:25:17.660795835 +0200
1523 double INTERP_KERNEL::InterpolationOptions::getArcDetectionPrecision() const
1525 - return INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision;
1526 + return INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::getArcDetectionPrecision();
1529 void INTERP_KERNEL::InterpolationOptions::setArcDetectionPrecision(double p)
1531 - INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=p;
1532 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(p);
1535 std::string INTERP_KERNEL::InterpolationOptions::getIntersectionTypeRepr() const
1536 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/InterpolationPlanar.hxx MEDCOUPLING_new/src/INTERP_KERNEL/InterpolationPlanar.hxx
1537 --- MEDCOUPLING_old/src/INTERP_KERNEL/InterpolationPlanar.hxx 2018-04-19 17:04:36.676221506 +0200
1538 +++ MEDCOUPLING_new/src/INTERP_KERNEL/InterpolationPlanar.hxx 2018-04-19 17:25:17.387790438 +0200
1540 InterpolationPlanar();
1541 InterpolationPlanar(const InterpolationOptions & io);
1543 - // geometric precision, debug print level, coice of the median plane, intersection etc ...
1544 + // geometric precision, debug print level, choice of the median plane, intersection etc ...
1545 void setOptions(double precision, int printLevel,
1546 IntersectionType intersectionType, int orientation=0);
1548 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/InterpolationPlanar.txx MEDCOUPLING_new/src/INTERP_KERNEL/InterpolationPlanar.txx
1549 --- MEDCOUPLING_old/src/INTERP_KERNEL/InterpolationPlanar.txx 2018-04-19 17:04:36.676221506 +0200
1550 +++ MEDCOUPLING_new/src/INTERP_KERNEL/InterpolationPlanar.txx 2018-04-19 17:25:17.370790102 +0200
1552 * - Values: positive real number.
1553 * - Default: 1.0E-12.
1554 * -# PrintLevel: Level of verboseness during the computations.
1555 - * - Values: interger between 0 and 3.
1556 + * - Values: integer between 0 and 3.
1559 template<class RealPlanar>
1561 throw INTERP_KERNEL::Exception("Invalid method specified or intersection type ! Must be in : \"P0P0\" \"P0P1\" \"P1P0\" or \"P1P1\"");
1562 /****************************************************************/
1563 /* Create a search tree based on the bounding boxes */
1564 - /* Instanciate the intersector and initialise the result vector */
1565 + /* Instantiate the intersector and initialise the result vector */
1566 /****************************************************************/
1568 long start_filtering=clock();
1569 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/InterpolationUtils.hxx MEDCOUPLING_new/src/INTERP_KERNEL/InterpolationUtils.hxx
1570 --- MEDCOUPLING_old/src/INTERP_KERNEL/InterpolationUtils.hxx 2018-04-19 17:04:36.676221506 +0200
1571 +++ MEDCOUPLING_new/src/INTERP_KERNEL/InterpolationUtils.hxx 2018-04-19 17:25:17.449791664 +0200
1573 /* calcul la surface d'un triangle */
1574 /*_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ */
1576 - inline double Surf_Tri(const double* P_1,const double* P_2,const double* P_3)
1577 + inline double Surf_Tri(const double *P_1,const double *P_2,const double *P_3)
1579 double A=(P_3[1]-P_1[1])*(P_2[0]-P_1[0])-(P_2[1]-P_1[1])*(P_3[0]-P_1[0]);
1580 double Surface = 0.5*fabs(A);
1582 //fonction qui calcul le determinant des vecteurs: P3P1 et P3P2
1585 - inline double mon_determinant(const double* P_1,
1586 - const double* P_2,
1587 - const double* P_3)
1588 + inline double mon_determinant(const double *P_1,
1589 + const double *P_2,
1590 + const double *P_3)
1592 double mon_det=(P_1[0]-P_3[0])*(P_2[1]-P_3[1])-(P_2[0]-P_3[0])*(P_1[1]-P_3[1]);
1596 double X=P_1[0]-P_2[0];
1597 double Y=P_1[1]-P_2[1];
1598 - double norme=sqrt(X*X+Y*Y);
1600 + return sqrt(X*X+Y*Y);
1603 /*_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ */
1604 @@ -537,6 +536,29 @@
1608 + * Compute barycentric coords of point \a point relative to segment S [segStart,segStop] in 3D space.
1609 + * If point \a point is further from S than eps false is returned.
1610 + * If point \a point projection on S is outside S false is also returned.
1611 + * If point \a point is closer from S than eps and its projection inside S true is returned and \a bc0 and \a bc1 output parameter set.
1613 + inline bool IsPointOn3DSeg(const double segStart[3], const double segStop[3], const double point[3], double eps, double& bc0, double& bc1)
1615 + double AB[3]={segStop[0]-segStart[0],segStop[1]-segStart[1],segStop[2]-segStart[2]},AP[3]={point[0]-segStart[0],point[1]-segStart[1],point[2]-segStart[2]};
1616 + double l_AB(sqrt(AB[0]*AB[0]+AB[1]*AB[1]+AB[2]*AB[2]));
1617 + double AP_dot_AB((AP[0]*AB[0]+AP[1]*AB[1]+AP[2]*AB[2])/(l_AB*l_AB));
1618 + double projOfPOnAB[3]={segStart[0]+AP_dot_AB*AB[0],segStart[1]+AP_dot_AB*AB[1],segStart[2]+AP_dot_AB*AB[2]};
1619 + double V_dist_P_AB[3]={point[0]-projOfPOnAB[0],point[1]-projOfPOnAB[1],point[2]-projOfPOnAB[2]};
1620 + double dist_P_AB(sqrt(V_dist_P_AB[0]*V_dist_P_AB[0]+V_dist_P_AB[1]*V_dist_P_AB[1]+V_dist_P_AB[2]*V_dist_P_AB[2]));
1621 + if(dist_P_AB>=eps)
1622 + return false;//to far from segment [segStart,segStop]
1623 + if(AP_dot_AB<-eps || AP_dot_AB>1.+eps)
1625 + AP_dot_AB=std::max(AP_dot_AB,0.); AP_dot_AB=std::min(AP_dot_AB,1.);
1626 + bc0=1.-AP_dot_AB; bc1=AP_dot_AB;
1631 * Calculate pseudo barycentric coordinates of a point p with respect to the quadrangle vertices.
1632 * This method makes the assumption that:
1633 * - spacedim == meshdim (2 here).
1637 /*! Function that compares two angles from the values of the pairs (sin,cos)*/
1638 - /*! Angles are considered in [0, 2Pi] bt are not computed explicitely */
1639 + /*! Angles are considered in [0, 2Pi] bt are not computed explicitly */
1643 @@ -1048,9 +1070,9 @@
1644 // just to be able to compile
1647 - /*_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _*/
1648 - /* Checks wether point A is inside the quadrangle BCDE */
1649 - /*_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _*/
1650 + /*_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ */
1651 + /* Checks whether point A is inside the quadrangle BCDE */
1652 + /*_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ */
1654 template<int dim> inline double check_inside(const double* A,const double* B,const double* C,const double* D,
1655 const double* E,double* ABC, double* ADE)
1656 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/MeshElement.txx MEDCOUPLING_new/src/INTERP_KERNEL/MeshElement.txx
1657 --- MEDCOUPLING_old/src/INTERP_KERNEL/MeshElement.txx 2018-04-19 17:04:36.678221546 +0200
1658 +++ MEDCOUPLING_new/src/INTERP_KERNEL/MeshElement.txx 2018-04-19 17:25:17.535793364 +0200
1665 /////////////////////////////////////////////////////////////////////
1666 /// ElementBBoxOrder /////////////
1667 /////////////////////////////////////////////////////////////////////
1668 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/PlanarIntersector.txx MEDCOUPLING_new/src/INTERP_KERNEL/PlanarIntersector.txx
1669 --- MEDCOUPLING_old/src/INTERP_KERNEL/PlanarIntersector.txx 2018-04-19 17:04:36.678221546 +0200
1670 +++ MEDCOUPLING_new/src/INTERP_KERNEL/PlanarIntersector.txx 2018-04-19 17:25:17.604794728 +0200
1675 - Computes the bouding box of a given element. iP in numPol mode.
1676 + Computes the bounding box of a given element. iP in numPol mode.
1678 template<class MyMeshType, class MyMatrix>
1679 void PlanarIntersector<MyMeshType,MyMatrix>::getElemBB(double* bb, const MyMeshType& mesh, ConnType iP, ConnType nb_nodes)
1681 Coords_B[SPACEDIM*i_B+idim] -= proj*linear_comb[idim];
1684 - //Buid the matrix sending A into the Oxy plane and apply it to A and B
1685 + //Build the matrix sending A into the Oxy plane and apply it to A and B
1688 TranslationRotationMatrix rotation;
1689 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/PointLocator2DIntersector.txx MEDCOUPLING_new/src/INTERP_KERNEL/PointLocator2DIntersector.txx
1690 --- MEDCOUPLING_old/src/INTERP_KERNEL/PointLocator2DIntersector.txx 2018-04-19 17:04:36.679221566 +0200
1691 +++ MEDCOUPLING_new/src/INTERP_KERNEL/PointLocator2DIntersector.txx 2018-04-19 17:25:17.513792929 +0200
1693 const double * sourceTria,
1694 std::vector<double>& res)
1696 - throw INTERP_KERNEL::Exception("intersectGeoBary incompatible with PointLocator. Desactivate P1P0Bary to avoid the problem");
1697 + throw INTERP_KERNEL::Exception("intersectGeoBary incompatible with PointLocator. Deactivate P1P0Bary to avoid the problem");
1701 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/PolygonAlgorithms.txx MEDCOUPLING_new/src/INTERP_KERNEL/PolygonAlgorithms.txx
1702 --- MEDCOUPLING_old/src/INTERP_KERNEL/PolygonAlgorithms.txx 2018-04-19 17:04:36.679221566 +0200
1703 +++ MEDCOUPLING_new/src/INTERP_KERNEL/PolygonAlgorithms.txx 2018-04-19 17:25:17.599794629 +0200
1705 /*************************************************************/
1706 /* Computes the 3D intersection between two COPLANAR */
1707 /* Segments [A,B] and [C,D], stores the result in V. */
1708 - /* If A belongs to [CD] then the vertex E (preceeding A) */
1709 + /* If A belongs to [CD] then the vertex E (preceding A) */
1710 /* is used to decide if the crossing is real. If A coincides */
1711 /* with C or D, a special treatment is performed */
1712 /*************************************************************/
1715 if(distance2<DIM>(A,D)<_epsilon)
1716 crossprod<DIM>(A,C,E,_vdouble);//store the crossprod between vectors AC and AE (E=vertex preceding A)
1717 - return false;//case of paralell segments
1718 + return false;//case of parallel segments
1720 case 3://beware AB and CD may belong to a vertical plane
1721 det = determinant(&AB[1],&DC[1]);//determinant of the last two coefficients
1724 if(distance2<DIM>(A,D)<_epsilon)
1725 crossprod<DIM>(A,C,E,_vdouble);//store the crossprod between vectors AC and AE (E=vertex preceding A)
1726 - return false;//case of paralell segments
1727 + return false;//case of parallel segments
1734 else if( same_side > _epsilon ) _terminus= !_is_in_intersection;//reflexion
1735 - else //separation of overlaping edges
1736 + else //separation of overlapping edges
1738 if(_Inter.empty() ) _terminus=true;
1739 else if(!_is_in_intersection)
1743 else if(fabs(in_between)<=_epsilon && dotprod<DIM>(Vdoublebis,Vdoublebis) > _epsilon)
1744 - //ie _vdouble=0, separation of overlaping edges at a double point
1745 + //ie _vdouble=0, separation of overlapping edges at a double point
1747 //crossprod<DIM>(A,E,B,_vdouble);
1748 if(dotprod<DIM>(_vdouble,Vdoublebis) >=_epsilon )//crossing
1750 /*******************************************************/
1751 /* adds the possible crossings between segments [A,B] (with end-point global indices i and i_next) */
1752 /*and segments [C,D] and [E,F] to the list inter and updates _End_segments */
1753 - /* In cases of ambiguity, the vertex G is used to decide wether the crossing should be accepted */
1754 + /* In cases of ambiguity, the vertex G is used to decide whether the crossing should be accepted */
1755 /*******************************************************/
1757 inline void PolygonAlgorithms<DIM>::addCrossings( const double * A, const double * B, int i , int i_next,
1760 std::multimap< int, std::pair< int,bool> >::iterator mi;
1762 - /********** Initalisation of events with P1 and P2 vertices ************/
1763 + /********** Initialisation of events with P1 and P2 vertices ************/
1764 for(i_loc=0;i_loc<N1;i_loc++)
1765 mmap_events.insert(std::make_pair(&P_1[DIM*i_loc],i_loc));
1766 for(i_loc=0;i_loc<N2;i_loc++)
1767 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/SplitterTetra.hxx MEDCOUPLING_new/src/INTERP_KERNEL/SplitterTetra.hxx
1768 --- MEDCOUPLING_old/src/INTERP_KERNEL/SplitterTetra.hxx 2018-04-19 17:04:36.680221586 +0200
1769 +++ MEDCOUPLING_new/src/INTERP_KERNEL/SplitterTetra.hxx 2018-04-19 17:25:17.497792613 +0200
1773 // Each sub-node is the barycenter of 4 other nodes.
1774 - // For the faces, these are on the orignal mesh.
1775 + // For the faces, these are on the original mesh.
1776 // For the barycenter, the four face sub-nodes are used.
1777 static const int GENERAL_24_SUB_NODES[28] =
1781 // Define 8 hexahedral subzones as in Grandy, p449
1782 // the values correspond to the nodes that correspond to nodes 1,2,3,4,5,6,7,8 in the subcell
1783 - // For the correspondance of the nodes, see the GENERAL_48_SUB_NODES table in calculateSubNodes
1784 + // For the correspondence of the nodes, see the GENERAL_48_SUB_NODES table in calculateSubNodes
1785 static const int GENERAL_48_SUBZONES[64] =
1787 0,8,21,12,9,20,26,22,
1788 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/SplitterTetra.txx MEDCOUPLING_new/src/INTERP_KERNEL/SplitterTetra.txx
1789 --- MEDCOUPLING_old/src/INTERP_KERNEL/SplitterTetra.txx 2018-04-19 17:04:36.680221586 +0200
1790 +++ MEDCOUPLING_new/src/INTERP_KERNEL/SplitterTetra.txx 2018-04-19 17:25:17.465791980 +0200
1791 @@ -1108,7 +1108,7 @@
1793 // The two nodes of the original mesh cell used in each tetrahedron.
1794 // The tetrahedra all have nodes (cellCenter, faceCenter, edgeNode1, edgeNode2)
1795 - // For the correspondance of the nodes, see the GENERAL_48_SUB_NODES table in calculateSubNodes
1796 + // For the correspondence of the nodes, see the GENERAL_48_SUB_NODES table in calculateSubNodes
1798 // nodes to use for tetrahedron
1799 const double* nodes[4];
1800 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/TransformedTriangle.hxx MEDCOUPLING_new/src/INTERP_KERNEL/TransformedTriangle.hxx
1801 --- MEDCOUPLING_old/src/INTERP_KERNEL/TransformedTriangle.hxx 2018-04-19 17:04:36.680221586 +0200
1802 +++ MEDCOUPLING_new/src/INTERP_KERNEL/TransformedTriangle.hxx 2018-04-19 17:25:17.390790498 +0200
1804 * For the other two halfstrips (above the xy and yz edges), other double products are used, which
1805 * are stored in the table DP_FOR_HALFSTRIP_INTERSECTION. This allows us to treat
1806 * all the edges equally, avoiding switch() - statements. It is the careful choice of order of the enumeration types that makes this
1807 - * possible. Notably, there is a correspondance between the TetraEdge type and the DoubleProduct type (see Grandy, table III) that
1808 + * possible. Notably, there is a correspondence between the TetraEdge type and the DoubleProduct type (see Grandy, table III) that
1809 * is used throughout the code, permitting statements such as DoubleProduct(some_edge) to work.
1810 * When an intersection point has been detected it is calculated with a corresponding calc* - method in the cases where it
1811 * is not known directly. It is then added to the polygon A and/or B as necessary.
1814 static const double TRIPLE_PRODUCT_ANGLE_THRESHOLD;
1816 - // correspondance facet - double product
1817 + // correspondence facet - double product
1819 static const DoubleProduct DP_FOR_SEG_FACET_INTERSECTION[12];
1821 @@ -362,14 +362,14 @@
1822 // for Segment-Facet and Segment-Edge intersections
1823 static const int DP_INDEX[12];
1825 - // correspondance edge - corners
1826 + // correspondence edge - corners
1827 static const TetraCorner CORNERS_FOR_EDGE[12];
1829 - // correspondance edge - facets
1830 + // correspondence edge - facets
1831 // facets shared by each edge
1832 static const TetraFacet FACET_FOR_EDGE[12];
1834 - // correspondance edge - corners
1835 + // correspondence edge - corners
1836 static const TetraEdge EDGES_FOR_CORNER[12];
1838 // double products used in segment-halfstrip test
1839 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/TransformedTriangleInline.hxx MEDCOUPLING_new/src/INTERP_KERNEL/TransformedTriangleInline.hxx
1840 --- MEDCOUPLING_old/src/INTERP_KERNEL/TransformedTriangleInline.hxx 2018-04-19 17:04:36.680221586 +0200
1841 +++ MEDCOUPLING_new/src/INTERP_KERNEL/TransformedTriangleInline.hxx 2018-04-19 17:25:17.491792494 +0200
1844 // assert(edge < H01);
1846 - // correspondance edge - triple products
1847 + // correspondence edge - triple products
1848 // for edges OX, ..., ZX (Grandy, table III)
1849 static const TetraCorner TRIPLE_PRODUCTS[12] =
1853 inline bool TransformedTriangle::testSegmentIntersectsFacet(const TriSegment seg, const TetraFacet facet) const
1855 - // use correspondance facet a = 0 <=> offset for coordinate a in _coords
1856 - // and also correspondance segment AB => corner A
1857 + // use correspondence facet a = 0 <=> offset for coordinate a in _coords
1858 + // and also correspondence segment AB => corner A
1859 const double coord1 = _coords[5*seg + facet];
1860 const double coord2 = _coords[5*( (seg + 1) % 3) + facet];
1862 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/TransformedTriangleIntersect.cxx MEDCOUPLING_new/src/INTERP_KERNEL/TransformedTriangleIntersect.cxx
1863 --- MEDCOUPLING_old/src/INTERP_KERNEL/TransformedTriangleIntersect.cxx 2018-04-19 17:04:36.680221586 +0200
1864 +++ MEDCOUPLING_new/src/INTERP_KERNEL/TransformedTriangleIntersect.cxx 2018-04-19 17:25:17.526793186 +0200
1868 // ----------------------------------------------------------------------------------
1869 - // Correspondance tables describing all the variations of formulas.
1870 + // Correspondence tables describing all the variations of formulas.
1871 // ----------------------------------------------------------------------------------
1873 - /// \brief Correspondance between facets and double products.
1874 + /// \brief Correspondence between facets and double products.
1876 /// This table encodes Grandy, table IV. Use 3*facet + {0,1,2} as index
1877 const TransformedTriangle::DoubleProduct TransformedTriangle::DP_FOR_SEG_FACET_INTERSECTION[12] =
1882 - /// \brief Correspondance edge - corners.
1883 + /// \brief Correspondence edge - corners.
1885 /// Gives the two corners associated with each edge
1886 /// Use 2*edge + {0, 1} as index
1891 - /// \brief Correspondance edge - facets.
1892 + /// \brief Correspondence edge - facets.
1894 /// Gives the two facets shared by and edge. Use 2*facet + {0, 1} as index
1895 const TransformedTriangle::TetraFacet TransformedTriangle::FACET_FOR_EDGE[12] =
1900 - /// \brief Correspondance corners - edges.
1901 + /// \brief Correspondence corners - edges.
1903 /// Gives edges meeting at a given corner. Use 3*corner + {0,1,2} as index
1904 const TransformedTriangle::TetraEdge TransformedTriangle::EDGES_FOR_CORNER[12] =
1905 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/TransformedTriangleMath.cxx MEDCOUPLING_new/src/INTERP_KERNEL/TransformedTriangleMath.cxx
1906 --- MEDCOUPLING_old/src/INTERP_KERNEL/TransformedTriangleMath.cxx 2018-04-19 17:04:36.699221965 +0200
1907 +++ MEDCOUPLING_new/src/INTERP_KERNEL/TransformedTriangleMath.cxx 2018-04-19 17:25:17.452791723 +0200
1912 - // -- (2) check that each double product statisfies Grandy, [47], else set to 0
1913 + // -- (2) check that each double product satisfies Grandy, [47], else set to 0
1914 for(TriSegment seg = PQ ; seg <= RP ; seg = TriSegment(seg + 1))
1916 for(DoubleProduct dp = C_YZ ; dp <= C_10 ; dp = DoubleProduct(dp + 1))
1919 const DoubleProduct dp = DP_FOR_DETERMINANT_EXPANSION[3*corner + (row - 1)];
1921 - // get edge by using correspondance between Double Product and Edge
1922 + // get edge by using correspondence between Double Product and Edge
1923 TetraEdge edge = TetraEdge(dp);
1925 // use edge only if it is surrounded by the surface
1926 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/VolSurfUser.cxx MEDCOUPLING_new/src/INTERP_KERNEL/VolSurfUser.cxx
1927 --- MEDCOUPLING_old/src/INTERP_KERNEL/VolSurfUser.cxx 2018-04-19 17:04:36.700221985 +0200
1928 +++ MEDCOUPLING_new/src/INTERP_KERNEL/VolSurfUser.cxx 2018-04-19 17:25:17.411790913 +0200
1933 - * \param [out] matrix contain a dense matrix of size 12 with 3 rows containing each 4 colums. This matrix is the reduction of 4x4 matrix but the last
1934 + * \param [out] matrix contain a dense matrix of size 12 with 3 rows containing each 4 columns. This matrix is the reduction of 4x4 matrix but the last
1935 * line containing [0,0,0,1] is omitted.
1937 bool ComputeRotTranslationMatrixToPut3PointsOnOXY(const double *p0, const double *p1, const double *p2, double *matrix)
1938 diff -Naur MEDCOUPLING_old/src/INTERP_KERNEL/VolSurfUser.txx MEDCOUPLING_new/src/INTERP_KERNEL/VolSurfUser.txx
1939 --- MEDCOUPLING_old/src/INTERP_KERNEL/VolSurfUser.txx 2018-04-19 17:04:36.700221985 +0200
1940 +++ MEDCOUPLING_new/src/INTERP_KERNEL/VolSurfUser.txx 2018-04-19 17:25:17.435791387 +0200
1943 case INTERP_KERNEL::NORM_PENTA6 :
1944 case INTERP_KERNEL::NORM_PENTA15 :
1945 + case INTERP_KERNEL::NORM_PENTA18 :
1947 int N1 = OTT<ConnType,numPol>::coo2C(connec[0]);
1948 int N2 = OTT<ConnType,numPol>::coo2C(connec[1]);
1949 diff -Naur MEDCOUPLING_old/src/INTERP_KERNELTest/CMakeLists.txt MEDCOUPLING_new/src/INTERP_KERNELTest/CMakeLists.txt
1950 --- MEDCOUPLING_old/src/INTERP_KERNELTest/CMakeLists.txt 2018-04-19 17:04:36.701222005 +0200
1951 +++ MEDCOUPLING_new/src/INTERP_KERNELTest/CMakeLists.txt 2018-04-19 17:25:17.930801172 +0200
1953 TARGET_LINK_LIBRARIES(InterpKernelTestUtils interpkernel)
1954 ADD_LIBRARY(InterpKernelTest ${InterpKernelTest_SOURCES})
1956 -SET(InterpKernelTest_LIBS medcoupling interpkernel ${CPPUNIT_LIBRARIES})
1957 +SET(InterpKernelTest_LIBS medcouplingcpp interpkernel ${CPPUNIT_LIBRARIES})
1958 IF(NOT MEDCOUPLING_MICROMED)
1959 SET(InterpKernelTest_LIBS medloader ${InterpKernelTest_LIBS})
1960 ENDIF(NOT MEDCOUPLING_MICROMED)
1961 diff -Naur MEDCOUPLING_old/src/INTERP_KERNELTest/InterpolationOptionsTest.cxx MEDCOUPLING_new/src/INTERP_KERNELTest/InterpolationOptionsTest.cxx
1962 --- MEDCOUPLING_old/src/INTERP_KERNELTest/InterpolationOptionsTest.cxx 2018-04-19 17:04:36.701222005 +0200
1963 +++ MEDCOUPLING_new/src/INTERP_KERNELTest/InterpolationOptionsTest.cxx 2018-04-19 17:25:17.927801112 +0200
1965 MEDCouplingNormalizedUnstructuredMesh<2,2> wrap_target_mesh(target_mesh_mc);
1966 // Go for interpolation...
1967 INTERP_KERNEL::Interpolation2D myInterpolator;
1968 - //optionnal call to parametrize your interpolation. First precision, tracelevel, intersector wanted.
1969 + //optional call to parametrize your interpolation. First precision, tracelevel, intersector wanted.
1970 myInterpolator.setPrecision(1e-7);
1971 myInterpolator.setPrintLevel(1);
1972 source_mesh->decrRef();
1973 diff -Naur MEDCOUPLING_old/src/INTERP_KERNELTest/MeshTestToolkit.txx MEDCOUPLING_new/src/INTERP_KERNELTest/MeshTestToolkit.txx
1974 --- MEDCOUPLING_old/src/INTERP_KERNELTest/MeshTestToolkit.txx 2018-04-19 17:04:36.701222005 +0200
1975 +++ MEDCOUPLING_new/src/INTERP_KERNELTest/MeshTestToolkit.txx 2018-04-19 17:25:17.943801429 +0200
1977 * @param mesh2path the path to the file containing the target mesh, relative to {$MEDCOUPLING_ROOT_DIR}/share/resources/med/
1978 * @param mesh2 the name of the target mesh
1979 * @param correctVol the total volume of the intersection of the two meshes
1980 - * @param prec maximum relative error to be tolerated in volume comparisions
1981 + * @param prec maximum relative error to be tolerated in volume comparisons
1982 * @param doubleTest if false, only the test with mesh 1 as the source mesh and mesh 2 as the target mesh will be performed
1986 * @param mesh1 the name of the source mesh
1987 * @param mesh2 the name of the target mesh
1988 * @param correctVol the total volume of the intersection of the two meshes
1989 - * @param prec maximum relative error to be tolerated in volume comparisions
1990 + * @param prec maximum relative error to be tolerated in volume comparisons
1991 * @param doubleTest if false, only the test with mesh 1 as the source mesh and mesh 2 as the target mesh will be performed
1994 diff -Naur MEDCOUPLING_old/src/INTERP_KERNELTest/QuadraticPlanarInterpTest2.cxx MEDCOUPLING_new/src/INTERP_KERNELTest/QuadraticPlanarInterpTest2.cxx
1995 --- MEDCOUPLING_old/src/INTERP_KERNELTest/QuadraticPlanarInterpTest2.cxx 2018-04-19 17:04:36.702222025 +0200
1996 +++ MEDCOUPLING_new/src/INTERP_KERNELTest/QuadraticPlanarInterpTest2.cxx 2018-04-19 17:25:17.924801053 +0200
1998 delete intersector; e2->decrRef(); e1->decrRef();
2000 // Tangent intersection
2001 - QUADRATIC_PLANAR::setPrecision(1e-5);
2002 + QuadraticPlanarPrecision::setPrecision(1e-5);
2003 for(unsigned k=0;k<8;k++)
2005 double center2[2]; center[0]=0.; center[1]=0.;
2007 bool obvious,areOverlapped;
2008 intersector->areOverlappedOrOnlyColinears(0,obvious,areOverlapped);
2009 CPPUNIT_ASSERT(!obvious && !areOverlapped);
2010 - CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); // order has no sence here because v4.size() expected to 1 but for valgrind serenity test.
2011 + CPPUNIT_ASSERT(intersector->intersect(0,v4,order,v3)); CPPUNIT_ASSERT(order); // order has no sense here because v4.size() expected to 1 but for valgrind serenity test.
2012 CPPUNIT_ASSERT_EQUAL(1,(int)v4.size()); CPPUNIT_ASSERT_EQUAL(0,(int)v3.getNumberOfAssociations());
2013 CPPUNIT_ASSERT_DOUBLES_EQUAL(e1->getRadius(),Node::distanceBtw2Pt(e1->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR);
2014 CPPUNIT_ASSERT_DOUBLES_EQUAL(e2->getRadius(),Node::distanceBtw2Pt(e2->getCenter(),(*(v4[0]))),ADMISSIBLE_ERROR);
2016 v4.clear(); v4.clear();
2017 delete intersector; e2->decrRef(); e1->decrRef();
2019 - QUADRATIC_PLANAR::setPrecision(1e-14);
2020 + QuadraticPlanarPrecision::setPrecision(1e-14);
2022 for(unsigned k=0;k<8;k++)
2024 diff -Naur MEDCOUPLING_old/src/INTERP_KERNELTest/QuadraticPlanarInterpTest4.cxx MEDCOUPLING_new/src/INTERP_KERNELTest/QuadraticPlanarInterpTest4.cxx
2025 --- MEDCOUPLING_old/src/INTERP_KERNELTest/QuadraticPlanarInterpTest4.cxx 2018-04-19 17:04:36.702222025 +0200
2026 +++ MEDCOUPLING_new/src/INTERP_KERNELTest/QuadraticPlanarInterpTest4.cxx 2018-04-19 17:25:17.961801784 +0200
2029 void QuadraticPlanarInterpTest::checkHighLevelFunctionTest1()
2031 - QUADRATIC_PLANAR::setPrecision(1e-12);
2032 - QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9);
2033 + QuadraticPlanarPrecision::setPrecision(1e-12);
2034 + QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-9);
2036 8.8334591186000004, 5.0999999999999996,
2037 7.1014083111000001, 6.0999999999999996,
2038 @@ -581,13 +581,13 @@
2039 pol=QuadraticPolygon::BuildArcCirclePolygon(nodes);
2040 pol->getBarycenter(tmp,tmp2);
2042 - QUADRATIC_PLANAR::setPrecision(1e-14);
2043 + QuadraticPlanarPrecision::setPrecision(1e-14);
2046 void QuadraticPlanarInterpTest::check1DInterpLin()
2048 - QUADRATIC_PLANAR::setPrecision(1e-7);
2049 - QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9);
2050 + QuadraticPlanarPrecision::setPrecision(1e-7);
2051 + QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-9);
2052 const int NB_OF_CELL_AXIAL_1=30;
2053 static const double Z_VALS_1[NB_OF_CELL_AXIAL_1+1]=
2054 { -0.1550 , -0.1356, -0.1162, -0.0969, -0.0775 ,-0.0581, -0.0387, -0.0194, 0.0000 , 0.0500,
2056 CPPUNIT_ASSERT_EQUAL(1,(int)m[i+2].size());
2057 CPPUNIT_ASSERT_DOUBLES_EQUAL(1.,m[i+2][i+9],1e-12);
2059 - QUADRATIC_PLANAR::setPrecision(1e-14);
2060 + QuadraticPlanarPrecision::setPrecision(1e-14);
2066 void QuadraticPlanarInterpTest::checkEpsilonCoherency1()
2068 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-12);
2069 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5);
2070 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-12);
2071 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-5);
2073 const double pol1[]={
2074 -2.1083388455000001, 1.2172499999999999,
2077 void QuadraticPlanarInterpTest::checkNonRegression2()
2079 - QUADRATIC_PLANAR::setPrecision(1e-12);
2080 - QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9);
2081 + QuadraticPlanarPrecision::setPrecision(1e-12);
2082 + QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-9);
2085 15.141499999899999, -26.226033271399999,
2088 void QuadraticPlanarInterpTest::checkNonRegression4()
2090 - QUADRATIC_PLANAR::setPrecision(1e-12);
2091 - QUADRATIC_PLANAR::setArcDetectionPrecision(1e-9);
2092 + QuadraticPlanarPrecision::setPrecision(1e-12);
2093 + QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-9);
2096 10.962340811000001, -22.417749999000002,
2099 void QuadraticPlanarInterpTest::checkNonRegression5()
2101 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-12);
2102 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5);
2103 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-12);
2104 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-5);
2107 -1.7320508075000001, 1,
2110 void QuadraticPlanarInterpTest::checkNonRegression6()
2112 - QUADRATIC_PLANAR::setPrecision(1e-12);
2113 - QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5);
2114 + QuadraticPlanarPrecision::setPrecision(1e-12);
2115 + QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-5);
2118 10.962340811000001, -22.417749999000002,
2121 void QuadraticPlanarInterpTest::checkNonRegression7()
2123 - QUADRATIC_PLANAR::setPrecision(1e-5);
2124 - QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5);
2125 + QuadraticPlanarPrecision::setPrecision(1e-5);
2126 + QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-5);
2130 @@ -1017,8 +1017,8 @@
2132 void QuadraticPlanarInterpTest::checkNonRegression8()
2134 - QUADRATIC_PLANAR::setPrecision(1e-3);
2135 - QUADRATIC_PLANAR::setArcDetectionPrecision(1e-5);
2136 + QuadraticPlanarPrecision::setPrecision(1e-3);
2137 + QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-5);
2140 -13.933240959000001, -28.559499999,
2141 @@ -1068,8 +1068,8 @@
2143 void QuadraticPlanarInterpTest::checkNonRegression9()
2145 - QUADRATIC_PLANAR::setPrecision(1e-7);
2146 - QUADRATIC_PLANAR::setArcDetectionPrecision(1e-8);
2147 + QuadraticPlanarPrecision::setPrecision(1e-7);
2148 + QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-8);
2151 -0.04476229252902969, -0.085118027765365603,
2152 @@ -1119,8 +1119,8 @@
2154 void QuadraticPlanarInterpTest::checkNonRegression10()
2156 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2157 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2158 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2159 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2161 { -0.002269581957210453, -0.09851030343724453,
2162 -0.004268022334182935, -0.1059685844580936,
2163 @@ -1149,8 +1149,8 @@
2165 void QuadraticPlanarInterpTest::checkNonRegression11()
2167 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2168 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2169 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2170 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2172 { -0.002269581957210453, -0.09851030343724453,
2173 -0.004268022334182935, -0.1059685844580936,
2174 @@ -1200,8 +1200,8 @@
2176 void QuadraticPlanarInterpTest::checkNonRegression12()
2178 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-6);
2179 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2180 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-6);
2181 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2183 { -0.5032251558760915, -0.8716087994449138,
2184 -0.4695268343089433, -0.8806382374805872,
2185 @@ -1252,8 +1252,8 @@
2187 void QuadraticPlanarInterpTest::checkNonRegression13()
2189 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2190 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-6);
2191 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2192 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-6);
2194 double coords_1[194]={
2195 0, 0, 0.304375, -7.454791178893722e-17, 0.2152256265236553, -0.2152256265236555, -5.591093384170291e-17, -0.304375,
2196 @@ -1348,8 +1348,8 @@
2198 void QuadraticPlanarInterpTest::checkNonRegression14()
2200 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2201 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-6);
2202 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2203 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-6);
2206 1.,0.,1.3,0.,-1.3,0.,-1.,0.,1.15,0.,0.,1.3,-1.15,0.,0.,1.,
2207 @@ -1418,8 +1418,8 @@
2209 void QuadraticPlanarInterpTest::checkNonRegression15()
2211 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2212 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-6);
2213 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2214 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-6);
2217 1.,0.,1.3,0.,-1.3,0.,-1.,0.,1.15,0.,0.,1.3,-1.15,0.,0.,1.,
2218 @@ -1494,8 +1494,8 @@
2220 void QuadraticPlanarInterpTest::checkNonRegression16()
2222 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2223 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2224 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2225 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2226 double coords1[194]={
2227 0, 0, 0.304375, 0, 0.2152256265236554, 0.2152256265236554, 1.86369779472343e-17, 0.304375,
2228 -0.2152256265236554, 0.2152256265236554, -0.304375, 3.727395589446861e-17, -0.2152256265236555, -0.2152256265236554, -5.591093384170291e-17, -0.304375,
2229 @@ -1574,8 +1574,8 @@
2231 void QuadraticPlanarInterpTest::checkNonRegression17()
2233 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2234 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2235 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2236 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2238 -1., 0., 1., 0. , 1.5, 0., -1.5, 0.,
2239 0. , 1., 1.25, 0., 0., 1.5, -1.25, 0.};
2240 @@ -1614,7 +1614,7 @@
2242 void QuadraticPlanarInterpTest::checkNormalize()
2244 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-14);
2245 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-14);
2246 Node *n1=new Node(0.,0.); Node *n4=new Node(0.,-3.);
2247 Node *n2=new Node(10.,0.); Node *n5=new Node(10.,-3.);
2248 Node *n3=new Node(5.,10.); Node *n6=new Node(5.,7.);
2249 @@ -1665,7 +1665,7 @@
2251 void QuadraticPlanarInterpTest::checkMakePartitionAbs1()
2253 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-14);
2254 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-14);
2255 Node *n0=new Node(0.,0.); Node *n4=new Node(0.5,0.25);
2256 Node *n1=new Node(0.,0.5); Node *n5=new Node(0.3,1.2);
2257 Node *n2=new Node(1.,0.5); Node *n6=new Node(1.1,1.3);
2258 diff -Naur MEDCOUPLING_old/src/INTERP_KERNELTest/QuadraticPlanarInterpTest5.cxx MEDCOUPLING_new/src/INTERP_KERNELTest/QuadraticPlanarInterpTest5.cxx
2259 --- MEDCOUPLING_old/src/INTERP_KERNELTest/QuadraticPlanarInterpTest5.cxx 2018-04-19 17:04:36.702222025 +0200
2260 +++ MEDCOUPLING_new/src/INTERP_KERNELTest/QuadraticPlanarInterpTest5.cxx 2018-04-19 17:25:17.951801587 +0200
2263 void QuadraticPlanarInterpTest::checkNonRegressionOmar0000()
2265 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2266 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2267 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2268 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2270 -0.383022221559489, 0.3213938048432697, -0.5745333323392334, 0.4820907072649046, 0.5745333323392335, 0.4820907072649044, 0.383022221559489, 0.3213938048432696,
2271 -0.4787777769493612, 0.4017422560540872, 4.592273826833915e-17, 0.75, 0.4787777769493612, 0.401742256054087, 3.061515884555943e-17, 0.5 };
2274 void QuadraticPlanarInterpTest::checkNonRegressionOmar0001()
2276 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2277 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2278 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2279 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2281 -0.383022221559489, 0.3213938048432697, -0.5745333323392334, 0.4820907072649046, 0.5745333323392335, 0.4820907072649044, 0.383022221559489, 0.3213938048432696,
2282 -0.4787777769493612, 0.4017422560540872, 4.592273826833915e-17, 0.75, 0.4787777769493612, 0.401742256054087, 3.061515884555943e-17, 0.5 };
2285 void QuadraticPlanarInterpTest::checkNonRegressionOmar0002()
2287 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2288 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2289 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2290 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2292 -0.383022221559489, 0.3213938048432697, -0.5745333323392334, 0.4820907072649046, 0.5745333323392335, 0.4820907072649044, 0.383022221559489, 0.3213938048432696,
2293 -0.4787777769493612, 0.4017422560540872, 4.592273826833915e-17, 0.75, 0.4787777769493612, 0.401742256054087, 3.061515884555943e-17, 0.5 };
2296 void QuadraticPlanarInterpTest::checkNonRegressionOmar0003()
2298 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2299 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2300 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2301 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2303 -0.3535533905932737, 0.3535533905932738, -0.5303300858899106, 0.5303300858899107, 0.5303300858899107, 0.5303300858899106, 0.3535533905932738, 0.3535533905932737,
2304 -0.4419417382415922, 0.4419417382415922, 4.592273826833915e-17, 0.75, 0.4419417382415922, 0.4419417382415922, 3.061515884555943e-17, 0.5 };
2307 void QuadraticPlanarInterpTest::checkNonRegressionOmar0004()
2309 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2310 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2311 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2312 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2314 -0.4596194077712559, 0.4596194077712559, -0.5303300858899106, 0.5303300858899107, 0.5303300858899107, 0.5303300858899106, 0.4596194077712559, 0.4596194077712559,
2315 -0.4949747468305832, 0.4949747468305833, 4.592273826833915e-17, 0.75, 0.4949747468305833, 0.4949747468305832, 3.979970649922726e-17, 0.65 };
2318 void QuadraticPlanarInterpTest::checkNonRegressionOmar0005()
2320 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2321 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2322 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2323 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2325 -0.383022221559489, 0.3213938048432697, -0.6128355544951823, 0.5142300877492316, 0.6128355544951825, 0.5142300877492314, 0.383022221559489, 0.3213938048432696,
2326 -0.4979288880273356, 0.4178119462962507, 4.898425415289509e-17, 0.8, 0.4979288880273357, 0.4178119462962505, 3.061515884555943e-17, 0.5 };
2329 void QuadraticPlanarInterpTest::checkNonRegressionOmar0006()
2331 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2332 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2333 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2334 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2336 -0.383022221559489, 0.3213938048432697, -0.5362311101832845, 0.4499513267805776, 0.5362311101832846, 0.4499513267805774, 0.383022221559489, 0.3213938048432696,
2337 -0.4596266658713867, 0.3856725658119237, 4.28612223837832e-17, 0.7, 0.4596266658713868, 0.3856725658119236, 3.061515884555943e-17, 0.5 };
2340 void QuadraticPlanarInterpTest::checkNonRegressionOmar0007()
2342 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2343 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2344 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2345 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2347 -0.383022221559489, 0.3213938048432697, -0.5362311101832845, 0.4499513267805776, 0.5362311101832846, 0.4499513267805774, 0.383022221559489, 0.3213938048432696,
2348 -0.4596266658713867, 0.3856725658119237, 4.28612223837832e-17, 0.7, 0.4596266658713868, 0.3856725658119236, 3.061515884555943e-17, 0.5 };
2351 void QuadraticPlanarInterpTest::checkNonRegressionOmar0008()
2353 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2354 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2355 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2356 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2358 -0.383022221559489, 0.3213938048432697, -0.5362311101832845, 0.4499513267805776, 0.5362311101832846, 0.4499513267805774, 0.383022221559489, 0.3213938048432696,
2359 -0.4596266658713867, 0.3856725658119237, 4.28612223837832e-17, 0.7, 0.4596266658713868, 0.3856725658119236, 3.061515884555943e-17, 0.5 };
2362 void QuadraticPlanarInterpTest::checkNonRegressionOmar0009()
2364 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2365 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2366 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2367 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2369 -0.3863703305156274, -0.1035276180410081, -0.4829629131445342, -0.1294095225512602, 0.4829629131445342, -0.1294095225512604, 0.3863703305156274, -0.1035276180410083,
2370 -0.4346666218300808, -0.1164685702961342, 1.416374613080751e-16, 0.5, 0.4346666218300808, -0.1164685702961343, 1.133099690464601e-16, 0.4 };
2373 void QuadraticPlanarInterpTest::checkNonRegressionOmar0010()
2375 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2376 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2377 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2378 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2380 -0.3863703305156274, -0.1035276180410081, -0.4829629131445342, -0.1294095225512602, 0.4829629131445342, -0.1294095225512604, 0.3863703305156274, -0.1035276180410083,
2381 -0.4346666218300808, -0.1164685702961342, 1.416374613080751e-16, 0.5, 0.4346666218300808, -0.1164685702961343, 1.133099690464601e-16, 0.4 };
2384 void QuadraticPlanarInterpTest::checkNonRegressionOmar0011()
2386 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2387 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2388 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2389 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2391 -0.3863703305156274, -0.1035276180410081, -0.4829629131445342, -0.1294095225512602, 0.4829629131445342, -0.1294095225512604, 0.3863703305156274, -0.1035276180410083,
2392 -0.4346666218300808, -0.1164685702961342, 1.416374613080751e-16, 0.5, 0.4346666218300808, -0.1164685702961343, 1.133099690464601e-16, 0.4 };
2395 void QuadraticPlanarInterpTest::checkNonRegressionOmar2511()
2397 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2398 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2399 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2400 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2402 -0.3863703305156274, -0.1035276180410081, -0.4829629131445342, -0.1294095225512602, 0.4829629131445342, -0.1294095225512604, 0.3863703305156274, -0.1035276180410083,
2403 -0.4346666218300808, -0.1164685702961342, 1.416374613080751e-16, 0.5, 0.4346666218300808, -0.1164685702961343, 1.133099690464601e-16, 0.4, };
2406 void QuadraticPlanarInterpTest::checkNonRegressionOmar0012()
2408 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2409 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2410 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2411 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2413 -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
2414 -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
2417 void QuadraticPlanarInterpTest::checkNonRegressionOmar0013()
2419 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2420 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2421 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2422 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2424 -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
2425 -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
2428 void QuadraticPlanarInterpTest::checkNonRegressionOmar0014()
2430 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2431 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2432 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2433 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2435 -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
2436 -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
2439 void QuadraticPlanarInterpTest::checkNonRegressionOmar0015()
2441 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2442 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2443 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2444 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2446 -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
2447 -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
2450 void QuadraticPlanarInterpTest::checkNonRegressionOmar0016()
2452 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2453 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2454 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2455 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2457 -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
2458 -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
2461 void QuadraticPlanarInterpTest::checkNonRegressionOmar0017()
2463 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2464 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2465 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2466 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2468 -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
2469 -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
2472 void QuadraticPlanarInterpTest::checkNonRegressionOmar0018()
2474 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2475 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2476 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2477 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2479 -1, 1.224606353822377e-16, -1.6, 1.959370166115804e-16, 9.796850830579018e-17, 1.6, 6.123031769111886e-17, 1,
2480 -1.3, 1.591988259969091e-16, -1.131370849898476, 1.131370849898476, 7.959941299845453e-17, 1.3, -0.7071067811865475, 0.7071067811865476 };
2483 void QuadraticPlanarInterpTest::checkNonRegressionOmar0019()
2485 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2486 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2487 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2488 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2490 -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
2491 -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
2494 void QuadraticPlanarInterpTest::checkNonRegressionOmar0020()
2496 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2497 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2498 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2499 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2501 -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
2502 -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
2505 void QuadraticPlanarInterpTest::checkNonRegressionOmar0021()
2507 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2508 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2509 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2510 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2512 -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
2513 -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
2516 void QuadraticPlanarInterpTest::checkNonRegressionOmar0022()
2518 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2519 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2520 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2521 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2523 -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
2524 -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
2527 void QuadraticPlanarInterpTest::checkNonRegressionOmar0023()
2529 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2530 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2531 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2532 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2534 -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
2535 -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5, };
2538 void QuadraticPlanarInterpTest::checkNonRegressionOmar0024()
2540 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2541 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2542 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2543 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2545 -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
2546 -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
2549 void QuadraticPlanarInterpTest::checkNonRegressionOmar2524()
2551 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2552 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2553 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2554 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2556 -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
2557 -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
2560 void QuadraticPlanarInterpTest::checkNonRegressionOmar0025()
2562 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2563 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2564 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2565 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2567 -0.5, 6.123031769111886e-17, -0.8, 9.796850830579018e-17, 0.8, 0, 0.5, 0,
2568 -0.65, 7.959941299845453e-17, 4.898425415289509e-17, 0.8, 0.65, 0, 3.061515884555943e-17, 0.5 };
2571 void QuadraticPlanarInterpTest::checkNonRegressionOmar0026()
2573 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2574 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2575 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2576 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2578 -0.4, 4.898425415289509e-17, -0.75, 9.184547653667829e-17, 0.75, 0, 0.4, 0,
2579 -0.575, 7.041486534478669e-17, 4.592273826833915e-17, 0.75, 0.575, 0, 2.449212707644755e-17, 0.4 };
2582 void QuadraticPlanarInterpTest::checkNonRegressionOmar0027()
2584 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2585 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2586 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2587 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2589 -0.4, 4.898425415289509e-17, -0.75, 9.184547653667829e-17, 0.75, 0, 0.4, 0,
2590 -0.575, 7.041486534478669e-17, 4.592273826833915e-17, 0.75, 0.575, 0, 2.449212707644755e-17, 0.4 };
2591 @@ -1038,8 +1038,8 @@
2593 void QuadraticPlanarInterpTest::checkNonRegressionOmar0028()
2595 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2596 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2597 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2598 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2600 -0.4, 4.898425415289509e-17, -0.75, 9.184547653667829e-17, 0.75, 0, 0.4, 0,
2601 -0.575, 7.041486534478669e-17, 4.592273826833915e-17, 0.75, 0.575, 0, 2.449212707644755e-17, 0.4 };
2602 @@ -1083,8 +1083,8 @@
2604 void QuadraticPlanarInterpTest::checkNonRegressionOmar0029()
2606 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2607 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2608 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2609 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2611 -0.4, 4.898425415289509e-17, -0.75, 9.184547653667829e-17, 0.75, 0, 0.4, 0,
2612 -0.575, 7.041486534478669e-17, 4.592273826833915e-17, 0.75, 0.575, 0, 2.449212707644755e-17, 0.4 };
2613 @@ -1128,8 +1128,8 @@
2615 void QuadraticPlanarInterpTest::checkNonRegressionOmar0030()
2617 - INTERP_KERNEL::QUADRATIC_PLANAR::setPrecision(1e-7);
2618 - INTERP_KERNEL::QUADRATIC_PLANAR::setArcDetectionPrecision(1e-7);
2619 + INTERP_KERNEL::QuadraticPlanarPrecision::setPrecision(1e-7);
2620 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision::setArcDetectionPrecision(1e-7);
2622 -0.4, 4.898425415289509e-17, -0.75, 9.184547653667829e-17, 0.75, 0, 0.4, 0,
2623 -0.575, 7.041486534478669e-17, 4.592273826833915e-17, 0.75, 0.575, 0, 2.449212707644755e-17, 0.4 };
2624 diff -Naur MEDCOUPLING_old/src/INTERP_KERNELTest/SingleElementPlanarTests.cxx MEDCOUPLING_new/src/INTERP_KERNELTest/SingleElementPlanarTests.cxx
2625 --- MEDCOUPLING_old/src/INTERP_KERNELTest/SingleElementPlanarTests.cxx 2018-04-19 17:04:36.703222045 +0200
2626 +++ MEDCOUPLING_new/src/INTERP_KERNELTest/SingleElementPlanarTests.cxx 2018-04-19 17:25:17.937801310 +0200
2629 INTERP_KERNEL::PolygonAlgorithms<2> intersector (_Epsilon, _Precision);;
2631 - ////////////////// TEST DESACTIVATED by A. GEAY because memory fault :
2632 + ////////////////// TEST DEACTIVATED by A. GEAY because memory fault :
2633 // conditional jump INTERP_KERNEL::PolygonAlgorithms<2>::intersectConvexPolygons(double const*, double const*, int, int) (PolygonAlgorithms.txx:629)
2634 std::deque< double > actual_result = intersector.intersectConvexPolygons(_square1,_square1,4,4);
2635 std::deque< double > expected_result;
2636 diff -Naur MEDCOUPLING_old/src/MEDCoupling/CMakeLists.txt MEDCOUPLING_new/src/MEDCoupling/CMakeLists.txt
2637 --- MEDCOUPLING_old/src/MEDCoupling/CMakeLists.txt 2018-04-19 17:04:36.704222065 +0200
2638 +++ MEDCOUPLING_new/src/MEDCoupling/CMakeLists.txt 2018-04-19 17:25:18.014802832 +0200
2640 MEDCouplingRemapper.cxx
2643 -ADD_LIBRARY(medcoupling ${medcoupling_SOURCES})
2644 -TARGET_LINK_LIBRARIES(medcoupling interpkernel)
2645 -INSTALL(TARGETS medcoupling EXPORT ${PROJECT_NAME}TargetGroup DESTINATION ${MEDCOUPLING_INSTALL_LIBS})
2646 +ADD_LIBRARY(medcouplingcpp ${medcoupling_SOURCES})
2647 +SET_TARGET_PROPERTIES(medcouplingcpp PROPERTIES OUTPUT_NAME "medcoupling")
2648 +TARGET_LINK_LIBRARIES(medcouplingcpp interpkernel)
2649 +INSTALL(TARGETS medcouplingcpp EXPORT ${PROJECT_NAME}TargetGroup DESTINATION ${MEDCOUPLING_INSTALL_LIBS})
2651 ADD_LIBRARY(medcouplingremapper ${medcouplingremapper_SOURCES})
2652 -TARGET_LINK_LIBRARIES(medcouplingremapper medcoupling)
2653 +TARGET_LINK_LIBRARIES(medcouplingremapper medcouplingcpp)
2654 INSTALL(TARGETS medcouplingremapper EXPORT ${PROJECT_NAME}TargetGroup DESTINATION ${MEDCOUPLING_INSTALL_LIBS})
2656 FILE(GLOB medcoupling_HEADERS_HXX "${CMAKE_CURRENT_SOURCE_DIR}/*.hxx")
2657 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MCAuto.hxx MEDCOUPLING_new/src/MEDCoupling/MCAuto.hxx
2658 --- MEDCOUPLING_old/src/MEDCoupling/MCAuto.hxx 2018-04-19 17:04:36.704222065 +0200
2659 +++ MEDCOUPLING_new/src/MEDCoupling/MCAuto.hxx 2018-04-19 17:25:18.015802852 +0200
2661 const T& operator*() { return *_ptr; }
2662 const T& operator*() const { return *_ptr; }
2663 operator const T *() const { return _ptr; }
2664 + T *shameOnMeConstCast() const { return const_cast<T*>(_ptr); }
2666 void referPtr(const T *ptr) { _ptr=ptr; if(_ptr) _ptr->incrRef(); }
2667 void destroyPtr() { if(_ptr) _ptr->decrRef(); }
2668 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCoupling1GTUMesh.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCoupling1GTUMesh.cxx
2669 --- MEDCOUPLING_old/src/MEDCoupling/MEDCoupling1GTUMesh.cxx 2018-04-19 17:04:36.704222065 +0200
2670 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCoupling1GTUMesh.cxx 2018-04-19 17:25:18.048803504 +0200
2672 * \a this is composed in cell types.
2673 * The returned array is of size 3*n where n is the number of different types present in \a this.
2674 * For every k in [0,n] ret[3*k+2]==-1 because it has no sense here.
2675 - * This parameter is kept only for compatibility with other methode listed above.
2676 + * This parameter is kept only for compatibility with other method listed above.
2678 std::vector<int> MEDCoupling1GTUMesh::getDistributionOfTypes() const
2681 * - After \a code contains [NORM_...,nbCells,0], \a idsInPflPerType [[0,1]] and \a idsPerType is [[1,2]] <br>
2684 -void MEDCoupling1GTUMesh::splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType) const
2685 +void MEDCoupling1GTUMesh::splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType, bool smartPflKiller) const
2688 throw INTERP_KERNEL::Exception("MEDCoupling1GTUMesh::splitProfilePerType : input profile is NULL !");
2690 code.resize(3); idsInPflPerType.resize(1);
2691 code[0]=(int)getCellModelEnum(); code[1]=nbTuples;
2692 idsInPflPerType.resize(1);
2693 - if(profile->isIota(nbOfCells))
2694 + if(smartPflKiller && profile->isIota(nbOfCells))
2697 idsInPflPerType[0]=const_cast<DataArrayInt *>(profile); idsInPflPerType[0]->incrRef();
2698 @@ -1635,7 +1635,7 @@
2702 - * \return DataArrayInt * - the internal reference to the nodal connectivity. The caller is not reponsible to deallocate it.
2703 + * \return DataArrayInt * - the internal reference to the nodal connectivity. The caller is not responsible to deallocate it.
2705 DataArrayInt *MEDCoupling1SGTUMesh::getNodalConnectivity() const
2707 @@ -1646,7 +1646,7 @@
2709 * Allocates memory to store an estimation of the given number of cells. Closer is the estimation to the number of cells effectively inserted,
2710 * less will be the needs to realloc. If the number of cells to be inserted is not known simply put 0 to this parameter.
2711 - * If a nodal connectivity previouly existed before the call of this method, it will be reset.
2712 + * If a nodal connectivity previously existed before the call of this method, it will be reset.
2714 * \param [in] nbOfCells - estimation of the number of cell \a this mesh will contain.
2716 @@ -1666,7 +1666,7 @@
2717 * \param [in] nodalConnOfCellEnd - the end (excluded) of nodal connectivity of the cell to add.
2718 * \throw If the length of the input nodal connectivity array of the cell to add is not equal to number of nodes per cell relative to the unique geometric type
2719 * attached to \a this.
2720 - * \thow If the nodal connectivity array in \a this is null (call MEDCoupling1SGTUMesh::allocateCells before).
2721 + * \throw If the nodal connectivity array in \a this is null (call MEDCoupling1SGTUMesh::allocateCells before).
2723 void MEDCoupling1SGTUMesh::insertNextCell(const int *nodalConnOfCellBg, const int *nodalConnOfCellEnd)
2725 @@ -3302,7 +3302,7 @@
2726 * \param [in] nodalConnOfCellEnd - the end (excluded) of nodal connectivity of the cell to add.
2727 * \throw If the length of the input nodal connectivity array of the cell to add is not equal to number of nodes per cell relative to the unique geometric type
2728 * attached to \a this.
2729 - * \thow If the nodal connectivity array in \a this is null (call MEDCoupling1SGTUMesh::allocateCells before).
2730 + * \throw If the nodal connectivity array in \a this is null (call MEDCoupling1SGTUMesh::allocateCells before).
2732 void MEDCoupling1DGTUMesh::insertNextCell(const int *nodalConnOfCellBg, const int *nodalConnOfCellEnd)
2734 @@ -3338,7 +3338,7 @@
2738 - * \return DataArrayInt * - the internal reference to the nodal connectivity. The caller is not reponsible to deallocate it.
2739 + * \return DataArrayInt * - the internal reference to the nodal connectivity. The caller is not responsible to deallocate it.
2741 DataArrayInt *MEDCoupling1DGTUMesh::getNodalConnectivity() const
2743 @@ -3347,7 +3347,7 @@
2747 - * \return DataArrayInt * - the internal reference to the nodal connectivity index. The caller is not reponsible to deallocate it.
2748 + * \return DataArrayInt * - the internal reference to the nodal connectivity index. The caller is not responsible to deallocate it.
2750 DataArrayInt *MEDCoupling1DGTUMesh::getNodalConnectivityIndex() const
2752 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCoupling1GTUMesh.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCoupling1GTUMesh.hxx
2753 --- MEDCOUPLING_old/src/MEDCoupling/MEDCoupling1GTUMesh.hxx 2018-04-19 17:04:36.705222084 +0200
2754 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCoupling1GTUMesh.hxx 2018-04-19 17:25:18.029803128 +0200
2756 MEDCOUPLING_EXPORT INTERP_KERNEL::NormalizedCellType getTypeOfCell(std::size_t cellId) const;
2757 MEDCOUPLING_EXPORT std::set<INTERP_KERNEL::NormalizedCellType> getAllGeoTypes() const;
2758 MEDCOUPLING_EXPORT std::vector<int> getDistributionOfTypes() const;
2759 - MEDCOUPLING_EXPORT void splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType) const;
2760 + MEDCOUPLING_EXPORT void splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType, bool smartPflKiller=true) const;
2761 MEDCOUPLING_EXPORT DataArrayInt *checkTypeConsistencyAndContig(const std::vector<int>& code, const std::vector<const DataArrayInt *>& idsPerType) const;
2762 MEDCOUPLING_EXPORT void writeVTKLL(std::ostream& ofs, const std::string& cellData, const std::string& pointData, DataArrayByte *byteData) const;
2763 MEDCOUPLING_EXPORT std::string getVTKDataSetType() const;
2764 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingAMRAttribute.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingAMRAttribute.cxx
2765 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingAMRAttribute.cxx 2018-04-19 17:04:36.705222084 +0200
2766 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingAMRAttribute.cxx 2018-04-19 17:25:18.120804927 +0200
2770 * Assign the info on components for all DataArrayDouble instance recursively stored in \a this.
2771 - * The first dim of input \a compNames is the field id in the same order than those implicitely specified in \a fieldNames parameter of MEDCouplingAMRAttribute::New.
2772 + * The first dim of input \a compNames is the field id in the same order than those implicitly specified in \a fieldNames parameter of MEDCouplingAMRAttribute::New.
2773 * The second dim of \a compNames represent the component names component per component corresponding to the field. The size of this 2nd dimension has
2774 * to perfectly fit with those specified in MEDCouplingAMRAttribute::New.
2776 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingCartesianAMRMesh.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingCartesianAMRMesh.cxx
2777 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingCartesianAMRMesh.cxx 2018-04-19 17:04:36.706222105 +0200
2778 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingCartesianAMRMesh.cxx 2018-04-19 17:25:17.991802377 +0200
2782 * \a p1 is expected to be more refined than \a p2. \a p1 and \a p2 have to share a common ancestor. Compared to UpdateNeighborsOfOneWithTwoExt here \a p1 and \a p2 are \b not at the same level !
2783 - * This method has 3 outputs. 2 two first are the resp the position of \a p1 and \a p2 relative to \a p1. And \a factToApplyOn2 is the coeff of refinement to be applied on \a p2 to be virtualy
2784 + * This method has 3 outputs. 2 two first are the resp the position of \a p1 and \a p2 relative to \a p1. And \a factToApplyOn2 is the coeff of refinement to be applied on \a p2 to be virtually
2785 * on the same level as \a p1.
2787 void MEDCouplingCartesianAMRPatch::ComputeZonesOfTwoRelativeToOneDiffLev(int ghostLev, const MEDCouplingCartesianAMRPatch *p1, const MEDCouplingCartesianAMRPatch *p2, std::vector< std::pair<int,int> >& p1Zone, std::vector< std::pair<int,int> >& p2Zone, std::vector<int>& factToApplyOn2)
2788 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingCMesh.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingCMesh.cxx
2789 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingCMesh.cxx 2018-04-19 17:04:36.705222084 +0200
2790 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingCMesh.cxx 2018-04-19 17:25:18.020802951 +0200
2793 void MEDCouplingCMesh::renumberCells(const int *old2NewBg, bool check)
2795 - throw INTERP_KERNEL::Exception("Functionnality of renumbering cell not available for CMesh !");
2796 + throw INTERP_KERNEL::Exception("Functionality of renumbering cell not available for CMesh !");
2799 void MEDCouplingCMesh::getTinySerializationInformation(std::vector<double>& tinyInfoD, std::vector<int>& tinyInfo, std::vector<std::string>& littleStrings) const
2800 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingCurveLinearMesh.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingCurveLinearMesh.cxx
2801 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingCurveLinearMesh.cxx 2018-04-19 17:04:36.706222105 +0200
2802 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingCurveLinearMesh.cxx 2018-04-19 17:25:18.098804492 +0200
2804 double tt=getTime(tmpp1,tmpp2);
2805 ret << "Time attached to the mesh [unit] : " << tt << " [" << getTimeUnit() << "]\n";
2806 ret << "Iteration : " << tmpp1 << " Order : " << tmpp2 << "\n";
2807 - ret << "The nodal stucture of curve linear mesh is : [";
2808 + ret << "The nodal structure of curve linear mesh is : [";
2809 std::copy(_structure.begin(),_structure.end(),std::ostream_iterator<int>(ret,",")); ret << "]\n";
2810 ret << "The coords array is this : ";
2811 if((const DataArrayDouble *)_coords)
2816 - * \param [in,out] f field feeded with good values.
2817 + * \param [in,out] f field fed with good values.
2818 * \sa MEDCouplingCurveLinearMesh::getMeasureField
2820 void MEDCouplingCurveLinearMesh::getMeasureFieldMeshDim1(bool isAbs, MEDCouplingFieldDouble *field) const
2825 - * \param [in,out] f field feeded with good values.
2826 + * \param [in,out] f field fed with good values.
2827 * \sa MEDCouplingCurveLinearMesh::getMeasureField
2829 void MEDCouplingCurveLinearMesh::getMeasureFieldMeshDim2(bool isAbs, MEDCouplingFieldDouble *field) const
2834 - * \param [in,out] f field feeded with good values.
2835 + * \param [in,out] f field fed with good values.
2836 * \sa MEDCouplingCurveLinearMesh::getMeasureField
2838 void MEDCouplingCurveLinearMesh::getMeasureFieldMeshDim3(bool isAbs, MEDCouplingFieldDouble *field) const
2843 - * \param [in,out] bary Barycenter array feeded with good values.
2844 + * \param [in,out] bary Barycenter array fed with good values.
2845 * \sa MEDCouplingCurveLinearMesh::computeCellCenterOfMass
2847 void MEDCouplingCurveLinearMesh::getBarycenterAndOwnerMeshDim3(DataArrayDouble *bary) const
2852 - * \param [in,out] bary Barycenter array feeded with good values.
2853 + * \param [in,out] bary Barycenter array fed with good values.
2854 * \sa MEDCouplingCurveLinearMesh::computeCellCenterOfMass
2856 void MEDCouplingCurveLinearMesh::getBarycenterAndOwnerMeshDim2(DataArrayDouble *bary) const
2861 - * \param [in,out] bary Barycenter array feeded with good values.
2862 + * \param [in,out] bary Barycenter array fed with good values.
2863 * \sa MEDCouplingCurveLinearMesh::computeCellCenterOfMass
2865 void MEDCouplingCurveLinearMesh::getBarycenterAndOwnerMeshDim1(DataArrayDouble *bary) const
2868 void MEDCouplingCurveLinearMesh::renumberCells(const int *old2NewBg, bool check)
2870 - throw INTERP_KERNEL::Exception("Functionnality of renumbering cell not available for CurveLinear Mesh !");
2871 + throw INTERP_KERNEL::Exception("Functionality of renumbering cell not available for CurveLinear Mesh !");
2874 void MEDCouplingCurveLinearMesh::getTinySerializationInformation(std::vector<double>& tinyInfoD, std::vector<int>& tinyInfo, std::vector<std::string>& littleStrings) const
2875 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingDefinitionTime.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingDefinitionTime.cxx
2876 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingDefinitionTime.cxx 2018-04-19 17:04:36.706222105 +0200
2877 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingDefinitionTime.cxx 2018-04-19 17:25:18.101804552 +0200
2879 return new MEDCouplingDefinitionTimeSliceLT(f,meshId,arrId[0],arrId[1],fieldId);
2882 - throw INTERP_KERNEL::Exception("Invalide time discretization ! NO_TIME ! Impossible to build a definition time slice !");
2883 + throw INTERP_KERNEL::Exception("Invalid time discretization ! NO_TIME ! Impossible to build a definition time slice !");
2885 - throw INTERP_KERNEL::Exception("Invalide time discretization : Not recognized !");
2886 + throw INTERP_KERNEL::Exception("Invalid time discretization : Not recognized !");
2890 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingField.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingField.cxx
2891 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingField.cxx 2018-04-19 17:04:36.706222105 +0200
2892 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingField.cxx 2018-04-19 17:25:17.999802535 +0200
2894 throw INTERP_KERNEL::Exception("MEDCouplingField::checkConsistencyLight : no spatial discretization !");
2897 -bool MEDCouplingField::isEqualIfNotWhy(const MEDCouplingField *other, double meshPrec, double valsPrec, std::string& reason) const
2898 +bool MEDCouplingField::isEqualIfNotWhyProtected(const MEDCouplingField *other, double meshPrec, std::string& reason) const
2901 throw INTERP_KERNEL::Exception("MEDCouplingField::isEqualIfNotWhy : other instance is NULL !");
2906 - if(!_type->isEqualIfNotWhy(other->_type,valsPrec,reason))
2907 + if(!_type->isEqualIfNotWhy(other->_type,meshPrec,reason))
2909 reason.insert(0,"Spatial discretizations differ :");
2915 - * Checks if \a this and another MEDCouplingField are fully equal.
2916 - * \param [in] other - the field to compare with \a this one.
2917 - * \param [in] meshPrec - precision used to compare node coordinates of the underlying mesh.
2918 - * \param [in] valsPrec - precision used to compare field values.
2919 - * \return bool - \c true if the two fields are equal, \c false else.
2920 - * \throw If \a other is NULL.
2922 -bool MEDCouplingField::isEqual(const MEDCouplingField *other, double meshPrec, double valsPrec) const
2925 - return isEqualIfNotWhy(other,meshPrec,valsPrec,tmp);
2929 * Checks if \a this and another MEDCouplingField are equal. The textual
2930 * information like names etc. is not considered.
2931 * \param [in] other - the field to compare with \a this one.
2932 * \param [in] meshPrec - precision used to compare node coordinates of the underlying mesh.
2933 - * \param [in] valsPrec - precision used to compare field values.
2934 * \return bool - \c true if the two fields are equal, \c false else.
2935 * \throw If \a other is NULL.
2936 * \throw If the spatial discretization of \a this field is NULL.
2938 -bool MEDCouplingField::isEqualWithoutConsideringStr(const MEDCouplingField *other, double meshPrec, double valsPrec) const
2939 +bool MEDCouplingField::isEqualWithoutConsideringStrProtected(const MEDCouplingField *other, double meshPrec) const
2942 throw INTERP_KERNEL::Exception("MEDCouplingField::isEqualWithoutConsideringStr : input field is NULL !");
2944 throw INTERP_KERNEL::Exception("MEDCouplingField::isEqualWithoutConsideringStr : spatial discretization of this is NULL !");
2945 - if(!_type->isEqualWithoutConsideringStr(other->_type,valsPrec))
2946 + if(!_type->isEqualWithoutConsideringStr(other->_type,meshPrec))
2948 if(_nature!=other->_nature)
2950 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldDiscretization.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldDiscretization.cxx
2951 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldDiscretization.cxx 2018-04-19 17:04:36.707222124 +0200
2952 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldDiscretization.cxx 2018-04-19 17:25:18.104804611 +0200
2954 case MEDCouplingFieldDiscretizationKriging::TYPE:
2955 return new MEDCouplingFieldDiscretizationKriging;
2957 - throw INTERP_KERNEL::Exception("Choosen discretization is not implemented yet.");
2958 + throw INTERP_KERNEL::Exception("Chosen discretization is not implemented yet.");
2965 * This method is typically the first step of renumbering. The implementation is empty it is not a bug only gauss is impacted
2966 - * virtualy by this method.
2967 + * virtually by this method.
2969 void MEDCouplingFieldDiscretization::renumberCells(const int *old2NewBg, bool check)
2971 @@ -1183,7 +1183,7 @@
2974 * This method is typically the first step of renumbering. The impact on _discr_per_cell is necessary here.
2975 - * virtualy by this method.
2976 + * virtually by this method.
2978 void MEDCouplingFieldDiscretizationPerCell::renumberCells(const int *old2NewBg, bool check)
2980 @@ -1663,7 +1663,7 @@
2984 - std::ostringstream oss; oss << "Cell # " << i << " of mesh \"" << mesh->getName() << "\" has an undefined gauss location ! Should never happend !";
2985 + std::ostringstream oss; oss << "Cell # " << i << " of mesh \"" << mesh->getName() << "\" has an undefined gauss location ! Should never happened !";
2986 throw INTERP_KERNEL::Exception(oss.str().c_str());
2989 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldDouble.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldDouble.cxx
2990 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldDouble.cxx 2018-04-19 17:04:36.708222144 +0200
2991 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldDouble.cxx 2018-04-19 17:25:18.027803089 +0200
2993 #include "MEDCouplingFieldTemplate.hxx"
2994 #include "MEDCouplingFieldT.txx"
2995 #include "MEDCouplingFieldInt.hxx"
2996 +#include "MEDCouplingFieldFloat.hxx"
2997 #include "MEDCouplingUMesh.hxx"
2998 #include "MEDCouplingTimeDiscretization.hxx"
2999 #include "MEDCouplingFieldDiscretization.hxx"
3000 #include "MCAuto.txx"
3001 #include "MEDCouplingVoronoi.hxx"
3002 #include "MEDCouplingNatureOfField.hxx"
3003 +#include "MEDCouplingMemArray.txx"
3005 #include "InterpKernelAutoPtr.hxx"
3006 #include "InterpKernelGaussCoords.hxx"
3011 - * This method converts a field on nodes (\a this) to a cell field (returned field). The convertion is a \b non \b conservative remapping !
3012 - * This method is useful only for users that need a fast convertion from node to cell spatial discretization. The algorithm applied is simply to attach
3013 + * This method converts a field on nodes (\a this) to a cell field (returned field). The conversion is a \b non \b conservative remapping !
3014 + * This method is useful only for users that need a fast conversion from node to cell spatial discretization. The algorithm applied is simply to attach
3015 * to each cell the average of values on nodes constituting this cell.
3017 * \return MEDCouplingFieldDouble* - a new instance of MEDCouplingFieldDouble. The
3022 - * This method converts a field on cell (\a this) to a node field (returned field). The convertion is a \b non \b conservative remapping !
3023 - * This method is useful only for users that need a fast convertion from cell to node spatial discretization. The algorithm applied is simply to attach
3024 + * This method converts a field on cell (\a this) to a node field (returned field). The conversion is a \b non \b conservative remapping !
3025 + * This method is useful only for users that need a fast conversion from cell to node spatial discretization. The algorithm applied is simply to attach
3026 * to each node the average of values on cell sharing this node. If \a this lies on a mesh having orphan nodes the values applied on them will be NaN (division by 0.).
3028 * \return MEDCouplingFieldDouble* - a new instance of MEDCouplingFieldDouble. The
3029 @@ -368,76 +370,6 @@
3033 - * Permutes values of \a this field according to a given permutation array for cells
3034 - * renumbering. The underlying mesh is deeply copied and its cells are also permuted.
3035 - * The number of cells remains the same; for that the permutation array \a old2NewBg
3036 - * should not contain equal ids.
3037 - * ** Warning, this method modifies the mesh aggreagated by \a this (by performing a deep copy ) **.
3039 - * \param [in] old2NewBg - the permutation array in "Old to New" mode. Its length is
3040 - * to be equal to \a this->getMesh()->getNumberOfCells().
3041 - * \param [in] check - if \c true, \a old2NewBg is transformed to a new permutation
3042 - * array, so that its maximal cell id to correspond to (be less than) the number
3043 - * of cells in mesh. This new array is then used for the renumbering. If \a
3044 - * check == \c false, \a old2NewBg is used as is, that is less secure as validity
3045 - * of ids in \a old2NewBg is not checked.
3046 - * \throw If the mesh is not set.
3047 - * \throw If the spatial discretization of \a this field is NULL.
3048 - * \throw If \a check == \c true and \a old2NewBg contains equal ids.
3049 - * \throw If mesh nature does not allow renumbering (e.g. structured mesh).
3051 - * \if ENABLE_EXAMPLES
3052 - * \ref cpp_mcfielddouble_renumberCells "Here is a C++ example".<br>
3053 - * \ref py_mcfielddouble_renumberCells "Here is a Python example".
3056 -void MEDCouplingFieldDouble::renumberCells(const int *old2NewBg, bool check)
3058 - renumberCellsWithoutMesh(old2NewBg,check);
3059 - MCAuto<MEDCouplingMesh> m=_mesh->deepCopy();
3060 - m->renumberCells(old2NewBg,check);
3066 - * Permutes values of \a this field according to a given permutation array for cells
3067 - * renumbering. The underlying mesh is \b not permuted.
3068 - * The number of cells remains the same; for that the permutation array \a old2NewBg
3069 - * should not contain equal ids.
3070 - * This method performs a part of job of renumberCells(). The reasonable use of this
3071 - * method is only for multi-field instances lying on the same mesh to avoid a
3072 - * systematic duplication and renumbering of _mesh attribute.
3073 - * \warning Use this method with a lot of care!
3074 - * \param [in] old2NewBg - the permutation array in "Old to New" mode. Its length is
3075 - * to be equal to \a this->getMesh()->getNumberOfCells().
3076 - * \param [in] check - if \c true, \a old2NewBg is transformed to a new permutation
3077 - * array, so that its maximal cell id to correspond to (be less than) the number
3078 - * of cells in mesh. This new array is then used for the renumbering. If \a
3079 - * check == \c false, \a old2NewBg is used as is, that is less secure as validity
3080 - * of ids in \a old2NewBg is not checked.
3081 - * \throw If the mesh is not set.
3082 - * \throw If the spatial discretization of \a this field is NULL.
3083 - * \throw If \a check == \c true and \a old2NewBg contains equal ids.
3084 - * \throw If mesh nature does not allow renumbering (e.g. structured mesh).
3086 -void MEDCouplingFieldDouble::renumberCellsWithoutMesh(const int *old2NewBg, bool check)
3089 - throw INTERP_KERNEL::Exception("Expecting a defined mesh to be able to operate a renumbering !");
3090 - if(_type.isNull())
3091 - throw INTERP_KERNEL::Exception("Expecting a spatial discretization to be able to operate a renumbering !");
3093 - _type->renumberCells(old2NewBg,check);
3094 - std::vector<DataArrayDouble *> arrays;
3095 - timeDiscr()->getArrays(arrays);
3096 - std::vector<DataArray *> arrays2(arrays.size()); std::copy(arrays.begin(),arrays.end(),arrays2.begin());
3097 - _type->renumberArraysForCell(_mesh,arrays2,old2NewBg,check);
3103 * Permutes values of \a this field according to a given permutation array for node
3104 * renumbering. The underlying mesh is deeply copied and its nodes are also permuted.
3105 * The number of nodes can change, contrary to renumberCells().
3107 * \throw If the spatial discretization of \a this field is NULL.
3108 * \throw If \a check == \c true and \a old2NewBg contains equal ids.
3109 * \throw If mesh nature does not allow renumbering (e.g. structured mesh).
3110 - * \throw If values at merged nodes deffer more than \a eps.
3111 + * \throw If values at merged nodes differ more than \a eps.
3113 * \if ENABLE_EXAMPLES
3114 * \ref cpp_mcfielddouble_renumberNodes "Here is a C++ example".<br>
3116 * the values differ more than \a eps, an exception is thrown.
3117 * \throw If the mesh is not set.
3118 * \throw If the spatial discretization of \a this field is NULL.
3119 - * \throw If values at merged nodes deffer more than \a eps.
3120 + * \throw If values at merged nodes differ more than \a eps.
3122 void MEDCouplingFieldDouble::renumberNodesWithoutMesh(const int *old2NewBg, int newNbOfNodes, double eps)
3124 @@ -522,21 +454,32 @@
3125 return getArray()->findIdsInRange(vmin,vmax);
3128 -MEDCouplingFieldInt *MEDCouplingFieldDouble::convertToIntField() const
3130 +typename Traits<U>::FieldType *ConvertToUField(const MEDCouplingFieldDouble *self)
3132 - MCAuto<MEDCouplingFieldTemplate> tmp(MEDCouplingFieldTemplate::New(*this));
3133 + MCAuto<MEDCouplingFieldTemplate> tmp(MEDCouplingFieldTemplate::New(*self));
3135 - double t0(getTime(t1,t2));
3136 - MCAuto<MEDCouplingFieldInt> ret(MEDCouplingFieldInt::New(*tmp,getTimeDiscretization()));
3137 + double t0(self->getTime(t1,t2));
3138 + MCAuto<typename Traits<U>::FieldType > ret(Traits<U>::FieldType::New(*tmp,self->getTimeDiscretization()));
3139 ret->setTime(t0,t1,t2);
3141 + if(self->getArray())
3143 - MCAuto<DataArrayInt> arr(getArray()->convertToIntArr());
3144 + MCAuto<typename Traits<U>::ArrayType> arr(self->getArray()->convertToOtherTypeOfArr<U>());
3150 +MEDCouplingFieldInt *MEDCouplingFieldDouble::convertToIntField() const
3152 + return ConvertToUField<int>(this);
3155 +MEDCouplingFieldFloat *MEDCouplingFieldDouble::convertToFloatField() const
3157 + return ConvertToUField<float>(this);
3160 MEDCouplingFieldDouble::MEDCouplingFieldDouble(TypeOfField type, TypeOfTimeDiscretization td):MEDCouplingFieldT<double>(type,MEDCouplingTimeDiscretization::New(td))
3165 * Returns the maximal value and all its locations within \a this scalar field.
3166 * Only the first of available data arrays is checked.
3167 - * \param [out] tupleIds - a new instance of DataArrayInt containg indices of
3168 + * \param [out] tupleIds - a new instance of DataArrayInt containing indices of
3169 * tuples holding the maximal value. The caller is to delete it using
3170 * decrRef() as it is no more needed.
3171 * \return double - the maximal value among all values of the first array of \a this filed.
3174 * Returns the minimal value and all its locations within \a this scalar field.
3175 * Only the first of available data arrays is checked.
3176 - * \param [out] tupleIds - a new instance of DataArrayInt containg indices of
3177 + * \param [out] tupleIds - a new instance of DataArrayInt containing indices of
3178 * tuples holding the minimal value. The caller is to delete it using
3179 * decrRef() as it is no more needed.
3180 * \return double - the minimal value among all values of the first array of \a this filed.
3181 @@ -1644,7 +1587,7 @@
3182 * \throw If \a other == NULL.
3183 * \throw If any of the meshes is not well defined.
3184 * \throw If the two meshes do not match.
3185 - * \throw If field values at merged nodes (if any) deffer more than \a eps.
3186 + * \throw If field values at merged nodes (if any) differ more than \a eps.
3188 * \if ENABLE_EXAMPLES
3189 * \ref cpp_mcfielddouble_changeUnderlyingMesh "Here is a C++ example".<br>
3190 @@ -1692,7 +1635,7 @@
3191 * \throw If any of the meshes is not set or is not well defined.
3192 * \throw If the two meshes do not match.
3193 * \throw If the two fields are not coherent for merge.
3194 - * \throw If field values at merged nodes (if any) deffer more than \a eps.
3195 + * \throw If field values at merged nodes (if any) differ more than \a eps.
3197 * \if ENABLE_EXAMPLES
3198 * \ref cpp_mcfielddouble_substractInPlaceDM "Here is a C++ example".<br>
3199 @@ -1725,7 +1668,7 @@
3200 * \throw If the mesh is not well defined.
3201 * \throw If the spatial discretization of \a this field is NULL.
3202 * \throw If the data array is not set.
3203 - * \throw If field values at merged nodes (if any) deffer more than \a epsOnVals.
3204 + * \throw If field values at merged nodes (if any) differ more than \a epsOnVals.
3206 bool MEDCouplingFieldDouble::mergeNodes(double eps, double epsOnVals)
3208 @@ -1764,7 +1707,7 @@
3209 * \throw If the mesh is not well defined.
3210 * \throw If the spatial discretization of \a this field is NULL.
3211 * \throw If the data array is not set.
3212 - * \throw If field values at merged nodes (if any) deffer more than \a epsOnVals.
3213 + * \throw If field values at merged nodes (if any) differ more than \a epsOnVals.
3215 bool MEDCouplingFieldDouble::mergeNodesCenter(double eps, double epsOnVals)
3217 @@ -1801,7 +1744,7 @@
3218 * \throw If the mesh is not well defined.
3219 * \throw If the spatial discretization of \a this field is NULL.
3220 * \throw If the data array is not set.
3221 - * \throw If field values at merged nodes (if any) deffer more than \a epsOnVals.
3222 + * \throw If field values at merged nodes (if any) differ more than \a epsOnVals.
3224 bool MEDCouplingFieldDouble::zipCoords(double epsOnVals)
3226 @@ -1842,7 +1785,7 @@
3227 * \throw If the mesh is not well defined.
3228 * \throw If the spatial discretization of \a this field is NULL.
3229 * \throw If the data array is not set.
3230 - * \throw If field values at merged cells (if any) deffer more than \a epsOnVals.
3231 + * \throw If field values at merged cells (if any) differ more than \a epsOnVals.
3233 bool MEDCouplingFieldDouble::zipConnectivity(int compType, double epsOnVals)
3235 @@ -2070,7 +2013,7 @@
3238 * This is expected to be a 3 components vector field on nodes (if not an exception will be thrown). \a this is also expected to lie on a MEDCouplingPointSet mesh.
3239 - * Finaly \a this is also expected to be consistent.
3240 + * Finally \a this is also expected to be consistent.
3241 * In these conditions this method returns a newly created field (to be dealed by the caller).
3242 * The returned field will also 3 compo vector field be on nodes lying on the same mesh than \a this.
3244 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldDouble.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldDouble.hxx
3245 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldDouble.hxx 2018-04-19 17:04:36.708222144 +0200
3246 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldDouble.hxx 2018-04-19 17:25:17.994802437 +0200
3248 MEDCOUPLING_EXPORT std::string writeVTK(const std::string& fileName, bool isBinary=true) const;
3249 MEDCOUPLING_EXPORT bool areCompatibleForMerge(const MEDCouplingField *other) const;
3250 MEDCOUPLING_EXPORT bool areCompatibleForMeld(const MEDCouplingFieldDouble *other) const;
3251 - MEDCOUPLING_EXPORT void renumberCells(const int *old2NewBg, bool check=true);
3252 - MEDCOUPLING_EXPORT void renumberCellsWithoutMesh(const int *old2NewBg, bool check=true);
3253 MEDCOUPLING_EXPORT void renumberNodes(const int *old2NewBg, double eps=1e-15);
3254 MEDCOUPLING_EXPORT void renumberNodesWithoutMesh(const int *old2NewBg, int newNbOfNodes, double eps=1e-15);
3255 MEDCOUPLING_EXPORT DataArrayInt *findIdsInRange(double vmin, double vmax) const;
3257 MEDCOUPLING_EXPORT MEDCouplingFieldDouble *nodeToCellDiscretization() const;
3258 MEDCOUPLING_EXPORT MEDCouplingFieldDouble *cellToNodeDiscretization() const;
3259 MEDCOUPLING_EXPORT MEDCouplingFieldInt *convertToIntField() const;
3260 + MEDCOUPLING_EXPORT MEDCouplingFieldFloat *convertToFloatField() const;
3261 MEDCOUPLING_EXPORT double getIJK(int cellId, int nodeIdInCell, int compoId) const;
3262 MEDCOUPLING_EXPORT double accumulate(int compId) const;
3263 MEDCOUPLING_EXPORT void accumulate(double *res) const;
3264 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingField.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingField.hxx
3265 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingField.hxx 2018-04-19 17:04:36.706222105 +0200
3266 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingField.hxx 2018-04-19 17:25:18.045803445 +0200
3268 MEDCOUPLING_EXPORT virtual bool areCompatibleForMerge(const MEDCouplingField *other) const;
3269 MEDCOUPLING_EXPORT virtual bool areStrictlyCompatible(const MEDCouplingField *other) const;
3270 MEDCOUPLING_EXPORT virtual bool areStrictlyCompatibleForMulDiv(const MEDCouplingField *other) const;
3271 - MEDCOUPLING_EXPORT virtual bool isEqualIfNotWhy(const MEDCouplingField *other, double meshPrec, double valsPrec, std::string& reason) const;
3272 - MEDCOUPLING_EXPORT virtual bool isEqual(const MEDCouplingField *other, double meshPrec, double valsPrec) const;
3273 - MEDCOUPLING_EXPORT virtual bool isEqualWithoutConsideringStr(const MEDCouplingField *other, double meshPrec, double valsPrec) const;
3274 MEDCOUPLING_EXPORT virtual void copyTinyStringsFrom(const MEDCouplingField *other);
3275 MEDCOUPLING_EXPORT void setMesh(const MEDCoupling::MEDCouplingMesh *mesh);
3276 MEDCOUPLING_EXPORT const MEDCoupling::MEDCouplingMesh *getMesh() const { return _mesh; }
3278 MEDCOUPLING_EXPORT MEDCouplingField(const MEDCouplingField& other, bool deepCopy=true);
3279 MEDCOUPLING_EXPORT MEDCouplingField(MEDCouplingFieldDiscretization *type, NatureOfField nature=NoNature);
3280 MEDCOUPLING_EXPORT virtual ~MEDCouplingField();
3281 + MEDCOUPLING_EXPORT bool isEqualIfNotWhyProtected(const MEDCouplingField *other, double meshPrec, std::string& reason) const;
3282 + MEDCOUPLING_EXPORT bool isEqualWithoutConsideringStrProtected(const MEDCouplingField *other, double meshPrec) const;
3286 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldTemplate.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldTemplate.cxx
3287 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldTemplate.cxx 2018-04-19 17:04:36.708222144 +0200
3288 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldTemplate.cxx 2018-04-19 17:25:18.095804433 +0200
3290 return new MEDCouplingFieldTemplate(f,false);
3293 +bool MEDCouplingFieldTemplate::isEqualIfNotWhy(const MEDCouplingFieldTemplate *other, double meshPrec, std::string& reason) const
3295 + return isEqualIfNotWhyProtected(other,meshPrec,reason);
3298 +bool MEDCouplingFieldTemplate::isEqual(const MEDCouplingFieldTemplate *other, double meshPrec) const
3301 + return isEqualIfNotWhyProtected(other,meshPrec,tmp);
3304 +bool MEDCouplingFieldTemplate::isEqualWithoutConsideringStr(const MEDCouplingFieldTemplate *other, double meshPrec) const
3306 + return isEqualWithoutConsideringStrProtected(other,meshPrec);
3310 * The user should \b not use this method. Only useful for CORBA serialization/unserialization.
3312 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldTemplate.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldTemplate.hxx
3313 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldTemplate.hxx 2018-04-19 17:04:36.708222144 +0200
3314 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldTemplate.hxx 2018-04-19 17:25:18.043803405 +0200
3316 MEDCOUPLING_EXPORT static MEDCouplingFieldTemplate *NewWithoutCheck(const MEDCouplingFieldDouble& f);
3317 MEDCOUPLING_EXPORT static MEDCouplingFieldTemplate *NewWithoutCheck(const MEDCouplingFieldFloat& f);
3318 MEDCOUPLING_EXPORT static MEDCouplingFieldTemplate *NewWithoutCheck(const MEDCouplingFieldInt& f);
3319 + MEDCOUPLING_EXPORT bool isEqualIfNotWhy(const MEDCouplingFieldTemplate *other, double meshPrec, std::string& reason) const;
3320 + MEDCOUPLING_EXPORT bool isEqual(const MEDCouplingFieldTemplate *other, double meshPrec) const;
3321 + MEDCOUPLING_EXPORT bool isEqualWithoutConsideringStr(const MEDCouplingFieldTemplate *other, double meshPrec) const;
3322 MEDCOUPLING_EXPORT std::string simpleRepr() const;
3323 MEDCOUPLING_EXPORT std::string advancedRepr() const;
3324 MEDCOUPLING_EXPORT void checkConsistencyLight() const;
3325 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldT.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldT.hxx
3326 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldT.hxx 2018-04-19 17:04:36.708222144 +0200
3327 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldT.hxx 2018-04-19 17:25:18.038803306 +0200
3329 MEDCOUPLING_EXPORT double getStartTime(int& iteration, int& order) const { return _time_discr->getStartTime(iteration,order); }
3330 MEDCOUPLING_EXPORT double getEndTime(int& iteration, int& order) const { return _time_discr->getEndTime(iteration,order); }
3331 MEDCOUPLING_EXPORT T getIJ(int tupleId, int compoId) const { return getArray()->getIJ(tupleId,compoId); }
3332 - MEDCOUPLING_EXPORT bool isEqualIfNotWhy(const MEDCouplingField *other, double meshPrec, double valsPrec, std::string& reason) const;
3333 - MEDCOUPLING_EXPORT bool isEqualWithoutConsideringStr(const MEDCouplingField *other, double meshPrec, double valsPrec) const;
3334 + MEDCOUPLING_EXPORT virtual bool isEqual(const MEDCouplingFieldT<T> *other, double meshPrec, T valsPrec) const;
3335 + MEDCOUPLING_EXPORT virtual bool isEqualIfNotWhy(const MEDCouplingFieldT<T> *other, double meshPrec, T valsPrec, std::string& reason) const;
3336 + MEDCOUPLING_EXPORT virtual bool isEqualWithoutConsideringStr(const MEDCouplingFieldT<T> *other, double meshPrec, T valsPrec) const;
3337 MEDCOUPLING_EXPORT void copyTinyStringsFrom(const MEDCouplingField *other);
3338 MEDCOUPLING_EXPORT bool areStrictlyCompatible(const MEDCouplingField *other) const;
3339 MEDCOUPLING_EXPORT bool areStrictlyCompatibleForMulDiv(const MEDCouplingField *other) const;
3341 MEDCOUPLING_EXPORT bool areCompatibleForDiv(const MEDCouplingField *other) const;
3342 MEDCOUPLING_EXPORT void copyTinyAttrFrom(const MEDCouplingFieldT<T> *other);
3343 MEDCOUPLING_EXPORT void copyAllTinyAttrFrom(const MEDCouplingFieldT<T> *other);
3344 + MEDCOUPLING_EXPORT void renumberCells(const int *old2NewBg, bool check=true);
3345 + MEDCOUPLING_EXPORT void renumberCellsWithoutMesh(const int *old2NewBg, bool check=true);
3347 MEDCOUPLING_EXPORT void getTinySerializationIntInformation(std::vector<int>& tinyInfo) const;
3348 MEDCOUPLING_EXPORT void getTinySerializationDbleInformation(std::vector<double>& tinyInfo) const;
3349 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldT.txx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldT.txx
3350 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingFieldT.txx 2018-04-19 17:04:36.708222144 +0200
3351 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingFieldT.txx 2018-04-19 17:25:18.037803287 +0200
3352 @@ -117,21 +117,22 @@
3358 + bool MEDCouplingFieldT<T>::isEqual(const MEDCouplingFieldT<T> *other, double meshPrec, T valsPrec) const
3361 + return isEqualIfNotWhy(other,meshPrec,valsPrec,tmp);
3365 - bool MEDCouplingFieldT<T>::isEqualIfNotWhy(const MEDCouplingField *other, double meshPrec, double valsPrec, std::string& reason) const
3366 + bool MEDCouplingFieldT<T>::isEqualIfNotWhy(const MEDCouplingFieldT<T> *other, double meshPrec, T valsPrec, std::string& reason) const
3369 throw INTERP_KERNEL::Exception("MEDCouplingFieldT::isEqualIfNotWhy : other instance is NULL !");
3370 - const MEDCouplingFieldT<T> *otherC(dynamic_cast<const MEDCouplingFieldT<T> *>(other));
3373 - reason="field given in input is not castable in MEDCouplingFieldT !";
3376 - if(!MEDCouplingField::isEqualIfNotWhy(other,meshPrec,valsPrec,reason))
3377 + if(!isEqualIfNotWhyProtected(other,meshPrec,reason))
3379 - if(!_time_discr->isEqualIfNotWhy(otherC->_time_discr,T(valsPrec),reason))
3380 + if(!_time_discr->isEqualIfNotWhy(other->_time_discr,T(valsPrec),reason))
3382 reason.insert(0,"In FieldT time discretizations differ :");
3384 @@ -150,14 +151,13 @@
3385 * \throw If the spatial discretization of \a this field is NULL.
3388 - bool MEDCouplingFieldT<T>::isEqualWithoutConsideringStr(const MEDCouplingField *other, double meshPrec, double valsPrec) const
3389 + bool MEDCouplingFieldT<T>::isEqualWithoutConsideringStr(const MEDCouplingFieldT<T> *other, double meshPrec, T valsPrec) const
3391 - const MEDCouplingFieldT<T> *otherC(dynamic_cast<const MEDCouplingFieldT<T> *>(other));
3395 - if(!MEDCouplingField::isEqualWithoutConsideringStr(other,meshPrec,valsPrec))
3396 + if(!isEqualWithoutConsideringStrProtected(other,meshPrec))
3398 - if(!_time_discr->isEqualWithoutConsideringStr(otherC->_time_discr,T(valsPrec)))
3399 + if(!_time_discr->isEqualWithoutConsideringStr(other->_time_discr,valsPrec))
3403 @@ -204,6 +204,78 @@
3407 + * Permutes values of \a this field according to a given permutation array for cells
3408 + * renumbering. The underlying mesh is deeply copied and its cells are also permuted.
3409 + * The number of cells remains the same; for that the permutation array \a old2NewBg
3410 + * should not contain equal ids.
3411 + * ** Warning, this method modifies the mesh aggreagated by \a this (by performing a deep copy ) **.
3413 + * \param [in] old2NewBg - the permutation array in "Old to New" mode. Its length is
3414 + * to be equal to \a this->getMesh()->getNumberOfCells().
3415 + * \param [in] check - if \c true, \a old2NewBg is transformed to a new permutation
3416 + * array, so that its maximal cell id to correspond to (be less than) the number
3417 + * of cells in mesh. This new array is then used for the renumbering. If \a
3418 + * check == \c false, \a old2NewBg is used as is, that is less secure as validity
3419 + * of ids in \a old2NewBg is not checked.
3420 + * \throw If the mesh is not set.
3421 + * \throw If the spatial discretization of \a this field is NULL.
3422 + * \throw If \a check == \c true and \a old2NewBg contains equal ids.
3423 + * \throw If mesh nature does not allow renumbering (e.g. structured mesh).
3425 + * \if ENABLE_EXAMPLES
3426 + * \ref cpp_mcfielddouble_renumberCells "Here is a C++ example".<br>
3427 + * \ref py_mcfielddouble_renumberCells "Here is a Python example".
3431 + void MEDCouplingFieldT<T>::renumberCells(const int *old2NewBg, bool check)
3433 + renumberCellsWithoutMesh(old2NewBg,check);
3434 + MCAuto<MEDCouplingMesh> m(_mesh->deepCopy());
3435 + m->renumberCells(old2NewBg,check);
3441 + * Permutes values of \a this field according to a given permutation array for cells
3442 + * renumbering. The underlying mesh is \b not permuted.
3443 + * The number of cells remains the same; for that the permutation array \a old2NewBg
3444 + * should not contain equal ids.
3445 + * This method performs a part of job of renumberCells(). The reasonable use of this
3446 + * method is only for multi-field instances lying on the same mesh to avoid a
3447 + * systematic duplication and renumbering of _mesh attribute.
3448 + * \warning Use this method with a lot of care!
3449 + * \param [in] old2NewBg - the permutation array in "Old to New" mode. Its length is
3450 + * to be equal to \a this->getMesh()->getNumberOfCells().
3451 + * \param [in] check - if \c true, \a old2NewBg is transformed to a new permutation
3452 + * array, so that its maximal cell id to correspond to (be less than) the number
3453 + * of cells in mesh. This new array is then used for the renumbering. If \a
3454 + * check == \c false, \a old2NewBg is used as is, that is less secure as validity
3455 + * of ids in \a old2NewBg is not checked.
3456 + * \throw If the mesh is not set.
3457 + * \throw If the spatial discretization of \a this field is NULL.
3458 + * \throw If \a check == \c true and \a old2NewBg contains equal ids.
3459 + * \throw If mesh nature does not allow renumbering (e.g. structured mesh).
3462 + void MEDCouplingFieldT<T>::renumberCellsWithoutMesh(const int *old2NewBg, bool check)
3465 + throw INTERP_KERNEL::Exception("Expecting a defined mesh to be able to operate a renumbering !");
3466 + if(_type.isNull())
3467 + throw INTERP_KERNEL::Exception("Expecting a spatial discretization to be able to operate a renumbering !");
3469 + _type->renumberCells(old2NewBg,check);
3470 + std::vector< typename MEDCoupling::Traits<T>::ArrayType *> arrays;
3471 + timeDiscrSafe()->getArrays(arrays);
3472 + std::vector<DataArray *> arrays2(arrays.size()); std::copy(arrays.begin(),arrays.end(),arrays2.begin());
3473 + _type->renumberArraysForCell(_mesh,arrays2,old2NewBg,check);
3479 * This method is more strict than MEDCouplingField::areCompatibleForMerge method.
3480 * This method is used for operation on fields to operate a first check before attempting operation.
3486 - * Builds a newly created field, that the caller will have the responsability to deal with.
3487 + * Builds a newly created field, that the caller will have the responsibility to deal with.
3488 * \n This method makes the assumption that \a this field is correctly defined when this method is called (\a this->checkConsistencyLight() returns without any exception thrown), **no check of this will be done**.
3489 * \n This method returns a restriction of \a this so that only tuple ids specified in [ \a partBg , \a partEnd ) will be contained in the returned field.
3490 * \n Parameter [\a partBg, \a partEnd ) specifies **cell ids whatever the spatial discretization** of \a this (
3495 - * Builds a newly created field, that the caller will have the responsability to deal with (decrRef()).
3496 + * Builds a newly created field, that the caller will have the responsibility to deal with (decrRef()).
3497 * This method makes the assumption that the field is correctly defined when this method is called, no check of this will be done.
3498 * This method returns a restriction of \a this so that only tuples with ids specified in \a part will be contained in the returned field.
3499 * Parameter \a part specifies **cell ids whatever the spatial discretization of this** (
3504 - * Contrary to MEDCouplingPointSet class the returned arrays are \b not the responsabilities of the caller.
3505 + * Contrary to MEDCouplingPointSet class the returned arrays are \b not the responsibilities of the caller.
3506 * The values returned must be consulted only in readonly mode.
3509 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingIMesh.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingIMesh.cxx
3510 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingIMesh.cxx 2018-04-19 17:04:36.709222164 +0200
3511 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingIMesh.cxx 2018-04-19 17:25:18.019802931 +0200
3515 * This static method is useful to condense field on cells of a MEDCouplingIMesh instance coming from a refinement ( MEDCouplingIMesh::refineWithFactor for example)
3516 - * to a coarse MEDCouplingIMesh instance. So this method can be seen as a specialization in P0P0 conservative interpolation non overlaping from fine image mesh
3517 + * to a coarse MEDCouplingIMesh instance. So this method can be seen as a specialization in P0P0 conservative interpolation non overlapping from fine image mesh
3518 * to a coarse image mesh. Only tuples ( deduced from \a fineLocInCoarse ) of \a coarseDA will be modified. Other tuples of \a coarseDA will be let unchanged.
3520 * \param [in] coarseSt The cell structure of coarse mesh.
3524 * This static method is useful to condense field on cells of a MEDCouplingIMesh instance coming from a refinement ( MEDCouplingIMesh::refineWithFactor for example)
3525 - * to a coarse MEDCouplingIMesh instance. So this method can be seen as a specialization in P0P0 conservative interpolation non overlaping from fine image mesh
3526 + * to a coarse MEDCouplingIMesh instance. So this method can be seen as a specialization in P0P0 conservative interpolation non overlapping from fine image mesh
3527 * to a coarse image mesh. Only tuples ( deduced from \a fineLocInCoarse ) of \a coarseDA will be modified. Other tuples of \a coarseDA will be let unchanged.
3529 * \param [in] coarseSt The cell structure of coarse mesh.
3530 @@ -1232,7 +1232,7 @@
3532 void MEDCouplingIMesh::renumberCells(const int *old2NewBg, bool check)
3534 - throw INTERP_KERNEL::Exception("Functionnality of renumbering cell not available for IMesh !");
3535 + throw INTERP_KERNEL::Exception("Functionality of renumbering cell not available for IMesh !");
3538 void MEDCouplingIMesh::getTinySerializationInformation(std::vector<double>& tinyInfoD, std::vector<int>& tinyInfo, std::vector<std::string>& littleStrings) const
3539 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMappedExtrudedMesh.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMappedExtrudedMesh.cxx
3540 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMappedExtrudedMesh.cxx 2018-04-19 17:04:36.709222164 +0200
3541 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMappedExtrudedMesh.cxx 2018-04-19 17:25:17.989802338 +0200
3544 const DataArrayDouble *MEDCouplingMappedExtrudedMesh::getDirectAccessOfCoordsArrIfInStructure() const
3546 - throw INTERP_KERNEL::Exception("MEDCouplingMappedExtrudedMesh::getDirectAccessOfCoordsArrIfInStructure : no direct acess of DataArrayDouble holding nodes !");
3547 + throw INTERP_KERNEL::Exception("MEDCouplingMappedExtrudedMesh::getDirectAccessOfCoordsArrIfInStructure : no direct access of DataArrayDouble holding nodes !");
3550 bool MEDCouplingMappedExtrudedMesh::isEqualIfNotWhy(const MEDCouplingMesh *other, double prec, std::string& reason) const
3553 void MEDCouplingMappedExtrudedMesh::renumberCells(const int *old2NewBg, bool check)
3555 - throw INTERP_KERNEL::Exception("Functionnality of renumbering cells unavailable for ExtrudedMesh");
3556 + throw INTERP_KERNEL::Exception("Functionality of renumbering cells unavailable for ExtrudedMesh");
3561 throw INTERP_KERNEL::Exception("Not implemented yet !");
3564 -void MEDCouplingMappedExtrudedMesh::splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType) const
3565 +void MEDCouplingMappedExtrudedMesh::splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType, bool smartPflKiller) const
3567 throw INTERP_KERNEL::Exception("Not implemented yet !");
3569 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMappedExtrudedMesh.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMappedExtrudedMesh.hxx
3570 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMappedExtrudedMesh.hxx 2018-04-19 17:04:36.709222164 +0200
3571 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMappedExtrudedMesh.hxx 2018-04-19 17:25:18.036803267 +0200
3573 MEDCOUPLING_EXPORT void scale(const double *point, double factor);
3574 MEDCOUPLING_EXPORT std::vector<int> getDistributionOfTypes() const;
3575 MEDCOUPLING_EXPORT DataArrayInt *checkTypeConsistencyAndContig(const std::vector<int>& code, const std::vector<const DataArrayInt *>& idsPerType) const;
3576 - MEDCOUPLING_EXPORT void splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType) const;
3577 + MEDCOUPLING_EXPORT void splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType, bool smartPflKiller=true) const;
3578 MEDCOUPLING_EXPORT MEDCouplingMesh *buildPart(const int *start, const int *end) const;
3579 MEDCOUPLING_EXPORT MEDCouplingMesh *buildPartAndReduceNodes(const int *start, const int *end, DataArrayInt*& arr) const;
3580 MEDCOUPLING_EXPORT DataArrayInt *simplexize(int policy);
3581 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMemArrayChar.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMemArrayChar.cxx
3582 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMemArrayChar.cxx 2018-04-19 17:04:36.714222264 +0200
3583 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMemArrayChar.cxx 2018-04-19 17:25:18.138805283 +0200
3586 std::size_t lgth=st.length();
3588 - throw INTERP_KERNEL::Exception("DataArrayAsciiChar contructor with string ! Size of input string is null !");
3589 + throw INTERP_KERNEL::Exception("DataArrayAsciiChar constructor with string ! Size of input string is null !");
3591 std::copy(st.begin(),st.begin()+lgth,getPointer());
3593 @@ -882,12 +882,12 @@
3594 DataArrayAsciiChar::DataArrayAsciiChar(const std::vector<std::string>& vst, char defaultChar)
3597 - throw INTERP_KERNEL::Exception("DataArrayAsciiChar contructor with vector of strings ! Empty array !");
3598 + throw INTERP_KERNEL::Exception("DataArrayAsciiChar constructor with vector of strings ! Empty array !");
3599 std::size_t nbCompo=0;
3600 for(std::vector<std::string>::const_iterator it=vst.begin();it!=vst.end();it++)
3601 nbCompo=std::max(nbCompo,(*it).length());
3603 - throw INTERP_KERNEL::Exception("DataArrayAsciiChar contructor with vector of strings ! All strings in not empty vector are empty !");
3604 + throw INTERP_KERNEL::Exception("DataArrayAsciiChar constructor with vector of strings ! All strings in not empty vector are empty !");
3605 int nbTuples=(int)vst.size();
3606 alloc(nbTuples,(int)nbCompo);
3607 char *pt=getPointer();
3608 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMemArray.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMemArray.cxx
3609 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMemArray.cxx 2018-04-19 17:04:36.713222244 +0200
3610 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMemArray.cxx 2018-04-19 17:25:18.118804888 +0200
3612 #include "InterpKernelAutoPtr.hxx"
3613 #include "InterpKernelExprParser.hxx"
3615 +#include "InterpKernelAutoPtr.hxx"
3616 +#include "InterpKernelGeo2DEdgeArcCircle.hxx"
3617 +#include "InterpKernelAutoPtr.hxx"
3618 +#include "InterpKernelGeo2DNode.hxx"
3619 +#include "InterpKernelGeo2DEdgeLin.hxx"
3627 * This method checks that [\b start, \b end) is compliant with ref length \b value.
3628 - * typicaly start in [0,\b value) and end in [0,\b value). If value==start and start==end, it is supported.
3629 + * typically start in [0,\b value) and end in [0,\b value). If value==start and start==end, it is supported.
3631 void DataArray::CheckValueInRangeEx(int value, int start, int end, const std::string& msg)
3635 * The input \a sliceId should be an id in [0, \a nbOfSlices) that specifies the slice of work.
3637 - * \param [in] start - the start of the input slice of the whole work to perform splitted into slices.
3638 - * \param [in] stop - the stop of the input slice of the whole work to perform splitted into slices.
3639 - * \param [in] step - the step (that can be <0) of the input slice of the whole work to perform splitted into slices.
3640 + * \param [in] start - the start of the input slice of the whole work to perform split into slices.
3641 + * \param [in] stop - the stop of the input slice of the whole work to perform split into slices.
3642 + * \param [in] step - the step (that can be <0) of the input slice of the whole work to perform split into slices.
3643 * \param [in] sliceId - the slice id considered
3644 * \param [in] nbOfSlices - the number of slices (typically the number of cores on which the work is expected to be sliced)
3645 * \param [out] startSlice - the start of the slice considered
3646 @@ -1517,7 +1523,7 @@
3649 * Returns the maximal value and all its locations within \a this one-dimensional array.
3650 - * \param [out] tupleIds - a new instance of DataArrayInt containg indices of
3651 + * \param [out] tupleIds - a new instance of DataArrayInt containing indices of
3652 * tuples holding the maximal value. The caller is to delete it using
3653 * decrRef() as it is no more needed.
3654 * \return double - the maximal value among all values of \a this array.
3655 @@ -1535,7 +1541,7 @@
3658 * Returns the minimal value and all its locations within \a this one-dimensional array.
3659 - * \param [out] tupleIds - a new instance of DataArrayInt containg indices of
3660 + * \param [out] tupleIds - a new instance of DataArrayInt containing indices of
3661 * tuples holding the minimal value. The caller is to delete it using
3662 * decrRef() as it is no more needed.
3663 * \return double - the minimal value among all values of \a this array.
3664 @@ -1611,7 +1617,7 @@
3667 * Returns the maximum norm of the vector defined by \a this array.
3668 - * This method works even if the number of components is diferent from one.
3669 + * This method works even if the number of components is different from one.
3670 * If the number of elements in \a this is 0, -1. is returned.
3671 * \return double - the value of the maximum norm, i.e.
3672 * the maximal absolute value among values of \a this array (whatever its number of components).
3673 @@ -1634,7 +1640,7 @@
3676 * Returns the minimum norm (absolute value) of the vector defined by \a this array.
3677 - * This method works even if the number of components is diferent from one.
3678 + * This method works even if the number of components is different from one.
3679 * If the number of elements in \a this is 0, std::numeric_limits<double>::max() is returned.
3680 * \return double - the value of the minimum norm, i.e.
3681 * the minimal absolute value among values of \a this array (whatever its number of components).
3682 @@ -2490,6 +2496,38 @@
3686 + * This method expects that \a this stores 3 tuples containing 2 components each.
3687 + * Each of this tuples represent a point into 2D space.
3688 + * This method tries to find an arc of circle starting from first point (tuple) to 2nd and middle point (tuple) along 3nd and last point (tuple).
3689 + * If such arc of circle exists, the corresponding center, radius of circle is returned. And additionnaly the length of arc expressed with an \a ang output variable in ]0,2*pi[.
3691 + * \throw If \a this is not allocated.
3692 + * \throw If \a this has not 3 tuples of 2 components
3693 + * \throw If tuples/points in \a this are aligned
3695 +void DataArrayDouble::asArcOfCircle(double center[2], double& radius, double& ang) const
3698 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(1e-14);
3699 + if(getNumberOfTuples()!=3 && getNumberOfComponents()!=2)
3700 + throw INTERP_KERNEL::Exception("DataArrayDouble::asArcCircle : this method expects");
3701 + const double *pt(begin());
3702 + MCAuto<INTERP_KERNEL::Node> n0(new INTERP_KERNEL::Node(pt[0],pt[1])),n1(new INTERP_KERNEL::Node(pt[2],pt[3])),n2(new INTERP_KERNEL::Node(pt[4],pt[5]));
3704 + INTERP_KERNEL::AutoCppPtr<INTERP_KERNEL::EdgeLin> e1(new INTERP_KERNEL::EdgeLin(n0,n2)),e2(new INTERP_KERNEL::EdgeLin(n2,n1));
3705 + INTERP_KERNEL::SegSegIntersector inters(*e1,*e2);
3706 + bool colinearity(inters.areColinears());
3708 + throw INTERP_KERNEL::Exception("DataArrayDouble::asArcOfCircle : 3 points in this have been detected as colinear !");
3710 + INTERP_KERNEL::AutoCppPtr<INTERP_KERNEL::EdgeArcCircle> ret(new INTERP_KERNEL::EdgeArcCircle(n0,n2,n1));
3711 + const double *c(ret->getCenter());
3712 + center[0]=c[0]; center[1]=c[1];
3713 + radius=ret->getRadius();
3714 + ang=ret->getAngle();
3718 * Sorts value within every tuple of \a this array.
3719 * \param [in] asc - if \a true, the values are sorted in ascending order, else,
3720 * in descending order.
3721 @@ -3005,7 +3043,7 @@
3725 - * Returns a new DataArrayInt contating indices of tuples of \a this one-dimensional
3726 + * Returns a new DataArrayInt containing indices of tuples of \a this one-dimensional
3727 * array whose values are within a given range. Textual data is not copied.
3728 * \param [in] vmin - a lowest acceptable value (included).
3729 * \param [in] vmax - a greatest acceptable value (included).
3730 @@ -3036,7 +3074,7 @@
3734 - * Returns a new DataArrayInt contating indices of tuples of \a this one-dimensional
3735 + * Returns a new DataArrayInt containing indices of tuples of \a this one-dimensional
3736 * array whose values are not within a given range. Textual data is not copied.
3737 * \param [in] vmin - a lowest not acceptable value (excluded).
3738 * \param [in] vmax - a greatest not acceptable value (excluded).
3739 @@ -3955,7 +3993,7 @@
3740 * \throw If any value of \a this can't be used as a valid index for
3741 * [\a indArrBg, \a indArrEnd).
3744 + * \sa changeValue, findIdForEach
3746 void DataArrayInt::transformWithIndArr(const int *indArrBg, const int *indArrEnd)
3748 @@ -3970,7 +4008,7 @@
3751 std::ostringstream oss; oss << "DataArrayInt::transformWithIndArr : error on tuple #" << i << " of this value is " << *pt << ", should be in [0," << nbElemsIn << ") !";
3752 - throw INTERP_KERNEL::Exception(oss.str().c_str());
3753 + throw INTERP_KERNEL::Exception(oss.str());
3756 this->declareAsNew();
3757 @@ -3981,7 +4019,7 @@
3758 this->checkAllocated();
3759 if(this->getNumberOfComponents()!=1)
3760 throw INTERP_KERNEL::Exception("Call transformWithIndArr method on DataArrayInt with only one component, you can call 'rearrange' method before !");
3761 - const std::map<int,int> dat(m.data());
3762 + const std::map<int,int>& dat(m.data());
3763 int nbOfTuples(getNumberOfTuples()),*pt(getPointer());
3764 for(int i=0;i<nbOfTuples;i++,pt++)
3766 @@ -3991,7 +4029,7 @@
3769 std::ostringstream oss; oss << "DataArrayInt::transformWithIndArr : error on tuple #" << i << " of this value is " << *pt << " not in map !";
3770 - throw INTERP_KERNEL::Exception(oss.str().c_str());
3771 + throw INTERP_KERNEL::Exception(oss.str());
3774 this->declareAsNew();
3775 @@ -4169,14 +4207,16 @@
3776 * \sa invertArrayN2O2O2N
3779 -MCAuto< MapKeyVal<int> > DataArrayInt::invertArrayN2O2O2NOptimized() const
3780 +MCAuto< MapKeyVal<int> > DataArrayInt32::invertArrayN2O2O2NOptimized() const
3783 + if(getNumberOfComponents()!=1)
3784 + throw INTERP_KERNEL::Exception("DataArrayInt32::invertArrayN2O2O2NOptimized : single component expected !");
3785 MCAuto< MapKeyVal<int> > ret(MapKeyVal<int>::New());
3786 std::map<int,int>& m(ret->data());
3787 const int *new2Old(begin());
3788 - int nbOfNewElems(this->getNumberOfTuples());
3789 - for(int i=0;i<nbOfNewElems;i++)
3790 + std::size_t nbOfNewElems(this->getNumberOfTuples());
3791 + for(std::size_t i=0;i<nbOfNewElems;i++)
3795 @@ -4212,17 +4252,25 @@
3799 - * This method tries to find the permutation to apply to the first input \a ids1 to obtain the same array (without considering strings informations) the second
3800 + * This method tries to find the permutation to apply to the first input \a ids1 to obtain the same array (without considering strings information) the second
3801 * input array \a ids2.
3802 * \a ids1 and \a ids2 are expected to be both a list of ids (both with number of components equal to one) not sorted and with values that can be negative.
3803 * This method will throw an exception is no such permutation array can be obtained. It is typically the case if there is some ids in \a ids1 not in \a ids2 or
3805 - * In case of success (no throw) : \c ids1->renumber(ret)->isEqual(ids2) where \a ret is the return of this method.
3806 + * In case of success both assertion will be true (no throw) :
3807 + * \c ids1->renumber(ret)->isEqual(ids2) where \a ret is the return of this method.
3808 + * \c ret->transformWithIndArr(ids2)->isEqual(ids1)
3811 + * - \a ids1 : [3,1,103,4,6,10,-7,205]
3812 + * - \a ids2 : [-7,1,205,10,6,3,103,4]
3813 + * - \a return is : [5,1,6,7,4,3,0,2] because ids2[5]==ids1[0], ids2[1]==ids1[1], ids2[6]==ids1[2]...
3815 * \return DataArrayInt * - a new instance of DataArrayInt. The caller is to delete this
3816 * array using decrRef() as it is no more needed.
3817 * \throw If either ids1 or ids2 is null not allocated or not with one components.
3819 + * \sa DataArrayInt32::findIdForEach
3821 DataArrayInt *DataArrayInt::FindPermutationFromFirstToSecond(const DataArrayInt *ids1, const DataArrayInt *ids2)
3823 @@ -4655,6 +4703,47 @@
3827 + * This method finds for each element \a ELT in [valsBg,valsEnd) elements in \a this equal to it. Associated to ELT
3828 + * this method will return the tuple id of last element found. If there is no element in \a this equal to ELT
3829 + * an exception will be thrown.
3831 + * In case of success this[ret]==vals. Samely ret->transformWithIndArr(this->begin(),this->end())==vals.
3832 + * Where \a vals is the [valsBg,valsEnd) array and \a ret the array returned by this method.
3833 + * This method can be seen as an extension of FindPermutationFromFirstToSecond.
3835 + * \b Example: <br>
3836 + * - \a this: [17,27,2,10,-4,3,12,27,16]
3837 + * - \a val : [3,16,-4,27,17]
3838 + * - result: [5,8,4,7,0]
3840 + * \return - An array of size std::distance(valsBg,valsEnd)
3842 + * \sa DataArrayInt32::FindPermutationFromFirstToSecond
3844 +MCAuto<DataArrayInt32> DataArrayInt32::findIdForEach(const int *valsBg, const int *valsEnd) const
3846 + MCAuto<DataArrayInt32> ret(DataArrayInt32::New());
3847 + std::size_t nbOfTuplesOut(std::distance(valsBg,valsEnd));
3848 + ret->alloc(nbOfTuplesOut,1);
3849 + MCAuto< MapKeyVal<int> > zeMap(invertArrayN2O2O2NOptimized());
3850 + const std::map<int,int>& dat(zeMap->data());
3851 + int *ptToFeed(ret->getPointer());
3852 + for(const int *pt=valsBg;pt!=valsEnd;pt++)
3854 + std::map<int,int>::const_iterator it(dat.find(*pt));
3856 + *ptToFeed++=(*it).second;
3859 + std::ostringstream oss; oss << "DataArrayInt32::findIdForEach : error for element at place " << std::distance(valsBg,pt);
3860 + oss << " of input array value is " << *pt << " which is not in this !";
3861 + throw INTERP_KERNEL::Exception(oss.str());
3868 * Assigns \a newValue to all elements holding \a oldValue within \a this
3869 * one-dimensional array.
3870 * \param [in] oldValue - the value to replace.
3871 @@ -5567,7 +5656,7 @@
3875 - * This method allows to put a vector of vector of integer into a more compact data stucture (skyline).
3876 + * This method allows to put a vector of vector of integer into a more compact data structure (skyline).
3877 * This method is not available into python because no available optimized data structure available to map std::vector< std::vector<int> >.
3879 * \param [in] v the input data structure to be translate into skyline format.
3880 @@ -5791,7 +5880,7 @@
3881 * "MEDCouplingUMesh::buildDescendingConnectivity" and
3882 * \ref MEDCoupling::MEDCouplingUMesh::getNodalConnectivityIndex
3883 * "MEDCouplingUMesh::getNodalConnectivityIndex" etc.
3884 - * This method preforms the reverse operation of DataArrayInt::computeOffsetsFull.
3885 + * This method performs the reverse operation of DataArrayInt::computeOffsetsFull.
3886 * \return DataArrayInt * - a new instance of DataArrayInt, whose number of tuples
3887 * equals to \a this->getNumberOfComponents() - 1, and number of components is 1.
3888 * The caller is to delete this array using decrRef() as it is no more needed.
3889 @@ -5867,7 +5956,7 @@
3890 * components remains the same and number of tuples is inceamented by one.<br>
3891 * This method is useful for allToAllV in MPI with contiguous policy. This method
3892 * differs from computeOffsets() in that the number of tuples is changed by this one.
3893 - * This method preforms the reverse operation of DataArrayInt::deltaShiftIndex.
3894 + * This method performs the reverse operation of DataArrayInt::deltaShiftIndex.
3895 * \throw If \a this is not allocated.
3896 * \throw If \a this->getNumberOfComponents() != 1.
3898 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMemArray.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMemArray.hxx
3899 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMemArray.hxx 2018-04-19 17:04:36.713222244 +0200
3900 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMemArray.hxx 2018-04-19 17:25:18.131805145 +0200
3902 MEDCOUPLING_EXPORT const T *getConstPointer() const { return _mem.getConstPointer(); }
3903 MEDCOUPLING_EXPORT const T *begin() const { return getConstPointer(); }
3904 MEDCOUPLING_EXPORT const T *end() const { return getConstPointer()+getNbOfElems(); }
3905 + MEDCOUPLING_EXPORT T *rwBegin() { return getPointer(); }
3906 + MEDCOUPLING_EXPORT T *rwEnd() { return getPointer()+getNbOfElems(); }
3907 void alloc(std::size_t nbOfTuple, std::size_t nbOfCompo=1);
3908 void useArray(const T *array, bool ownership, DeallocType type, int nbOfTuple, int nbOfCompo);
3909 void useExternalArrayWithRWAccess(const T *array, int nbOfTuple, int nbOfCompo);
3911 void setContigPartOfSelectedValuesSlice(int tupleIdStart, const DataArray *aBase, int bg, int end2, int step);
3912 T getMaxValue(int& tupleId) const;
3913 T getMaxValueInArray() const;
3914 + T getMaxAbsValue(std::size_t& tupleId) const;
3915 + T getMaxAbsValueInArray() const;
3916 T getMinValue(int& tupleId) const;
3917 T getMinValueInArray() const;
3918 MEDCOUPLING_EXPORT void getTuple(int tupleId, T *res) const { std::copy(_mem.getConstPointerLoc(tupleId*_info_on_compo.size()),_mem.getConstPointerLoc((tupleId+1)*_info_on_compo.size()),res); }
3919 @@ -349,13 +353,13 @@
3920 MEDCOUPLING_EXPORT void reprZipWithoutNameStream(std::ostream& stream) const;
3921 MEDCOUPLING_EXPORT void reprNotTooLongWithoutNameStream(std::ostream& stream) const;
3922 MEDCOUPLING_EXPORT std::string reprNotTooLong() const;
3924 + MCAuto< typename Traits<U>::ArrayType > convertToOtherTypeOfArr() const;
3926 static typename Traits<T>::ArrayType *PerformCopyOrIncrRef(bool dCpy, const typename Traits<T>::ArrayType& self);
3928 MCAuto<DataArrayInt32> findIdsAdv(const OP& op) const;
3931 - MCAuto< typename Traits<U>::ArrayType > convertToOtherTypeOfArr() const;
3933 void somethingEqual(const typename Traits<T>::ArrayType *other);
3936 MEDCOUPLING_EXPORT DataArrayDouble *maxPerTupleWithCompoId(DataArrayInt32* &compoIdOfMaxPerTuple) const;
3937 MEDCOUPLING_EXPORT DataArrayDouble *buildEuclidianDistanceDenseMatrix() const;
3938 MEDCOUPLING_EXPORT DataArrayDouble *buildEuclidianDistanceDenseMatrixWith(const DataArrayDouble *other) const;
3939 + MEDCOUPLING_EXPORT void asArcOfCircle(double center[2], double& radius, double& ang) const;
3940 MEDCOUPLING_EXPORT void sortPerTuple(bool asc);
3941 MEDCOUPLING_EXPORT void applyInv(double numerator);
3942 MEDCOUPLING_EXPORT void applyPow(double val);
3944 MEDCOUPLING_EXPORT DataArrayInt32 *findIdsEqualList(const int *valsBg, const int *valsEnd) const;
3945 MEDCOUPLING_EXPORT DataArrayInt32 *findIdsNotEqualList(const int *valsBg, const int *valsEnd) const;
3946 MEDCOUPLING_EXPORT DataArrayInt32 *findIdsEqualTuple(const int *tupleBg, const int *tupleEnd) const;
3947 + MEDCOUPLING_EXPORT MCAuto<DataArrayInt32> findIdForEach(const int *valsBg, const int *valsEnd) const;
3948 MEDCOUPLING_EXPORT int changeValue(int oldValue, int newValue);
3949 MEDCOUPLING_EXPORT int findIdFirstEqualTuple(const std::vector<int>& tupl) const;
3950 MEDCOUPLING_EXPORT int findIdFirstEqual(int value) const;
3951 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMemArray.txx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMemArray.txx
3952 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMemArray.txx 2018-04-19 17:04:36.714222264 +0200
3953 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMemArray.txx 2018-04-19 17:25:18.136805243 +0200
3956 * This method performs systematically an allocation of \a newNbOfElements elements in \a this.
3957 * \a _nb_of_elem and \a _nb_of_elem_alloc will be equal even if only std::min<std::size_t>(_nb_of_elem,newNbOfElements) come from the .
3958 - * The remaing part of the new allocated chunk are available but not set previouly !
3959 + * The remaining part of the new allocated chunk are available but not set previously !
3961 * So this method should not be confused with MemArray<T>::reserve that is close to MemArray<T>::reAlloc but not same.
3967 - * This method desallocated \a this without modification of informations relative to the components.
3968 + * This method deallocated \a this without modification of information relative to the components.
3969 * After call of this method, DataArrayDouble::isAllocated will return false.
3970 * If \a this is already not allocated, \a this is let unchanged.
3973 * This method reserve nbOfElems elements in memory ( nbOfElems*8 bytes ) \b without impacting the number of tuples in \a this.
3974 * If \a this has already been allocated, this method checks that \a this has only one component. If not an INTERP_KERNEL::Exception will be thrown.
3975 * If \a this has not already been allocated, number of components is set to one.
3976 - * This method allows to reduce number of reallocations on invokation of DataArrayDouble::pushBackSilent and DataArrayDouble::pushBackValsSilent on \a this.
3977 + * This method allows to reduce number of reallocations on invocation of DataArrayDouble::pushBackSilent and DataArrayDouble::pushBackValsSilent on \a this.
3979 * \sa DataArrayDouble::pack, DataArrayDouble::pushBackSilent, DataArrayDouble::pushBackValsSilent
3985 - * This method adds at the end of \a this a serie of values [\c valsBg,\c valsEnd). This method do \b not update its time label to avoid useless incrementation
3986 + * This method adds at the end of \a this a series of values [\c valsBg,\c valsEnd). This method do \b not update its time label to avoid useless incrementation
3987 * of counter. So the caller is expected to call TimeLabel::declareAsNew on \a this at the end of the push session.
3989 * \param [in] valsBg - an array of values to push at the end of \c this.
3990 @@ -2185,6 +2185,7 @@
3991 * \return double - the maximal value among all values of \a this array.
3992 * \throw If \a this->getNumberOfComponents() != 1
3993 * \throw If \a this->getNumberOfTuples() < 1
3994 + * \sa getMaxAbsValue, getMinValue
3997 T DataArrayTemplate<T>::getMaxValue(int& tupleId) const
3998 @@ -2206,6 +2207,7 @@
4000 * \return double - the maximal value among all values of \a this array.
4001 * \throw If \a this is not allocated.
4002 + * \sa getMaxAbsValueInArray, getMinValueInArray
4005 T DataArrayTemplate<T>::getMaxValueInArray() const
4006 @@ -2216,6 +2218,50 @@
4010 + * Returns the maximal absolute value in \a this and the first occurrence location associated to it.
4011 + * \return the element in this (positive or negative) having the max abs value in \a this.
4012 + * \throw If \a this is not allocated.
4013 + * \throw If \a this is non one component array.
4014 + * \throw If \a this is empty.
4017 + T DataArrayTemplate<T>::getMaxAbsValue(std::size_t& tupleId) const
4020 + if(getNumberOfComponents()!=1)
4021 + throw INTERP_KERNEL::Exception("DataArrayDouble::getMaxAbsValue : must be applied on DataArrayDouble with only one component, you can call 'rearrange' method before or call 'getMaxValueInArray' method !");
4022 + std::size_t nbTuples(this->getNumberOfTuples());
4024 + throw INTERP_KERNEL::Exception("DataArrayTemplate<T>::getMaxAbsValue : empty array !");
4027 + const T *pt(begin());
4028 + for(std::size_t i=0;i<nbTuples;i++,pt++)
4030 + T cand(std::abs(*pt));
4037 + return this->getIJ(tupleId,0);
4041 + * Returns the maximal absolute value in \a this.
4042 + * \throw If \a this is not allocated.
4043 + * \throw If \a this is non one component array.
4044 + * \throw If \a this is empty.
4047 + T DataArrayTemplate<T>::getMaxAbsValueInArray() const
4049 + std::size_t dummy;
4050 + return getMaxAbsValue(dummy);
4054 * Returns the minimal value and its location within \a this one-dimensional array.
4055 * \param [out] tupleId - index of the tuple holding the minimal value.
4056 * \return double - the minimal value among all values of \a this array.
4057 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMesh.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMesh.cxx
4058 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMesh.cxx 2018-04-19 17:04:36.715222284 +0200
4059 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMesh.cxx 2018-04-19 17:25:18.028803109 +0200
4064 - * This method is very poor and looks only if \a this and \a other are candidate for merge of fields lying repectively on them.
4065 + * This method is very poor and looks only if \a this and \a other are candidate for merge of fields lying respectively on them.
4067 bool MEDCouplingMesh::areCompatibleForMerge(const MEDCouplingMesh *other) const
4069 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMesh.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMesh.hxx
4070 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingMesh.hxx 2018-04-19 17:04:36.715222284 +0200
4071 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingMesh.hxx 2018-04-19 17:25:17.980802160 +0200
4073 MEDCOUPLING_EXPORT virtual const DataArrayDouble *getDirectAccessOfCoordsArrIfInStructure() const = 0;
4074 MEDCOUPLING_EXPORT virtual std::vector<int> getDistributionOfTypes() const = 0;
4075 MEDCOUPLING_EXPORT virtual DataArrayInt *checkTypeConsistencyAndContig(const std::vector<int>& code, const std::vector<const DataArrayInt *>& idsPerType) const = 0;
4076 - MEDCOUPLING_EXPORT virtual void splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType) const = 0;
4077 + MEDCOUPLING_EXPORT virtual void splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType, bool smartPflKiller=true) const = 0;
4078 MEDCOUPLING_EXPORT virtual void getBoundingBox(double *bbox) const = 0;
4079 MEDCOUPLING_EXPORT virtual MEDCouplingFieldDouble *getMeasureField(bool isAbs) const = 0;
4080 MEDCOUPLING_EXPORT virtual MEDCouplingFieldDouble *getMeasureFieldOnNode(bool isAbs) const = 0;
4081 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingNormalizedUnstructuredMesh.txx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingNormalizedUnstructuredMesh.txx
4082 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingNormalizedUnstructuredMesh.txx 2018-04-19 17:04:36.715222284 +0200
4083 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingNormalizedUnstructuredMesh.txx 2018-04-19 17:25:18.106804650 +0200
4085 #define __MEDCOUPLINGNORMALIZEDUNSTRUCTUREDMESH_TXX__
4087 #include "MEDCouplingNormalizedUnstructuredMesh.hxx"
4088 +#include "InterpKernelAssert.hxx"
4090 #include "MEDCouplingUMesh.hxx"
4091 #include "MEDCoupling1GTUMesh.hxx"
4093 template<int SPACEDIM,int MESHDIM>
4094 void MEDCouplingNormalizedUnstructuredMesh<SPACEDIM,MESHDIM>::prepare()
4096 + IKAssert(_mesh->getSpaceDimension()==SPACEDIM);
4097 const MEDCoupling::MEDCouplingUMesh *m1(dynamic_cast<const MEDCoupling::MEDCouplingUMesh *>(_mesh));
4100 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingPointSet.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingPointSet.cxx
4101 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingPointSet.cxx 2018-04-19 17:04:36.716222304 +0200
4102 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingPointSet.cxx 2018-04-19 17:25:18.113804789 +0200
4105 * @param comm in param in the same format than one returned by findCommonNodes method (\ref numbering-indirect).
4106 * @param commI in param in the same format than one returned by findCommonNodes method (\ref numbering-indirect).
4107 - * @return the old to new correspondance array.
4108 + * @return the old to new correspondence array.
4110 DataArrayInt *MEDCouplingPointSet::buildNewNumberingFromCommonNodesFormat(const DataArrayInt *comm, const DataArrayInt *commIndex,
4111 int& newNbOfNodes) const
4112 @@ -1042,7 +1042,7 @@
4114 if(!srcMesh || !trgMesh)
4115 throw INTERP_KERNEL::Exception("MEDCouplingPointSet::ComputeNbOfInteractionsWithSrcCells : the input meshes must be not NULL !");
4116 - MCAuto<DataArrayDouble> sbbox(srcMesh->getBoundingBoxForBBTree()),tbbox(trgMesh->getBoundingBoxForBBTree());
4117 + MCAuto<DataArrayDouble> sbbox(srcMesh->getBoundingBoxForBBTree(eps)),tbbox(trgMesh->getBoundingBoxForBBTree(eps));
4118 return tbbox->computeNbOfInteractionsWith(sbbox,eps);
4121 @@ -1112,7 +1112,7 @@
4122 * \param [out] beginOut valid only if \a arr not NULL !
4123 * \param [out] endOut valid only if \a arr not NULL !
4124 * \param [out] stepOut valid only if \a arr not NULL !
4125 - * \param [out] arr correspondance old to new in node ids.
4126 + * \param [out] arr correspondence old to new in node ids.
4128 * \sa MEDCouplingUMesh::buildPartOfMySelfSlice
4130 @@ -1181,6 +1181,9 @@
4132 bool MEDCouplingPointSet::isButterfly2DCell(const std::vector<double>& res, bool isQuad, double eps)
4134 + INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
4135 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
4137 std::size_t nbOfNodes(res.size()/2);
4138 std::vector<INTERP_KERNEL::Node *> nodes(nbOfNodes);
4139 for(std::size_t i=0;i<nbOfNodes;i++)
4140 @@ -1188,8 +1191,6 @@
4141 INTERP_KERNEL::Node *tmp=new INTERP_KERNEL::Node(res[2*i],res[2*i+1]);
4144 - INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
4145 - INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
4146 INTERP_KERNEL::QuadraticPolygon *pol=0;
4148 pol=INTERP_KERNEL::QuadraticPolygon::BuildArcCirclePolygon(nodes);
4149 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingRefCountObject.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingRefCountObject.cxx
4150 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingRefCountObject.cxx 2018-04-19 17:04:36.716222304 +0200
4151 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingRefCountObject.cxx 2018-04-19 17:25:17.998802516 +0200
4153 return BIGENDIAN_STR;
4156 +bool MEDCoupling::IsCXX11Compiled()
4158 +#if __cplusplus >= 201103L
4167 std::size_t BigMemoryObject::getHeapMemorySize() const
4168 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingRefCountObject.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingRefCountObject.hxx
4169 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingRefCountObject.hxx 2018-04-19 17:04:36.716222304 +0200
4170 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingRefCountObject.hxx 2018-04-19 17:25:18.001802575 +0200
4172 MEDCOUPLING_EXPORT int MEDCouplingSizeOfVoidStar();
4173 MEDCOUPLING_EXPORT bool MEDCouplingByteOrder();
4174 MEDCOUPLING_EXPORT const char *MEDCouplingByteOrderStr();
4176 + MEDCOUPLING_EXPORT bool IsCXX11Compiled();
4178 class BigMemoryObject
4181 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingRemapper.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingRemapper.cxx
4182 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingRemapper.cxx 2018-04-19 17:04:36.716222304 +0200
4183 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingRemapper.cxx 2018-04-19 17:25:17.996802476 +0200
4185 #include "Interpolation2D1D.txx"
4186 #include "Interpolation2D3D.txx"
4187 #include "Interpolation3D1D.txx"
4188 +#include "Interpolation1D0D.txx"
4189 #include "InterpolationCU.txx"
4190 #include "InterpolationCC.txx"
4194 int MEDCouplingRemapper::prepare(const MEDCouplingMesh *srcMesh, const MEDCouplingMesh *targetMesh, const std::string& method)
4196 - if(!srcMesh || !targetMesh)
4197 - throw INTERP_KERNEL::Exception("MEDCouplingRemapper::prepare : presence of NULL input pointer !");
4198 - std::string srcMethod,targetMethod;
4199 - INTERP_KERNEL::Interpolation<INTERP_KERNEL::Interpolation3D>::CheckAndSplitInterpolationMethod(method,srcMethod,targetMethod);
4200 - MCAuto<MEDCouplingFieldTemplate> src=MEDCouplingFieldTemplate::New(MEDCouplingFieldDiscretization::GetTypeOfFieldFromStringRepr(srcMethod));
4201 - src->setMesh(srcMesh);
4202 - MCAuto<MEDCouplingFieldTemplate> target=MEDCouplingFieldTemplate::New(MEDCouplingFieldDiscretization::GetTypeOfFieldFromStringRepr(targetMethod));
4203 - target->setMesh(targetMesh);
4204 + MCAuto<MEDCouplingFieldTemplate> src,target;
4205 + BuildFieldTemplatesFrom(srcMesh,targetMesh,method,src,target);
4206 return prepareEx(src,target);
4211 int MEDCouplingRemapper::prepareEx(const MEDCouplingFieldTemplate *src, const MEDCouplingFieldTemplate *target)
4213 - if(!src || !target)
4214 - throw INTERP_KERNEL::Exception("MEDCouplingRemapper::prepareEx : presence of NULL input pointer !");
4215 - if(!src->getMesh() || !target->getMesh())
4216 - throw INTERP_KERNEL::Exception("MEDCouplingRemapper::prepareEx : presence of NULL mesh pointer in given field template !");
4217 - releaseData(true);
4218 - _src_ft=const_cast<MEDCouplingFieldTemplate *>(src); _src_ft->incrRef();
4219 - _target_ft=const_cast<MEDCouplingFieldTemplate *>(target); _target_ft->incrRef();
4220 + restartUsing(src,target);
4221 if(isInterpKernelOnlyOrNotOnly())
4222 return prepareInterpKernelOnly();
4224 return prepareNotInterpKernelOnly();
4227 +void MEDCouplingRemapper::setCrudeMatrix(const MEDCouplingMesh *srcMesh, const MEDCouplingMesh *targetMesh, const std::string& method, const std::vector<std::map<int,double> >& m)
4229 + MCAuto<MEDCouplingFieldTemplate> src,target;
4230 + BuildFieldTemplatesFrom(srcMesh,targetMesh,method,src,target);
4231 + setCrudeMatrixEx(src,target,m);
4234 +void MEDCouplingRemapper::setCrudeMatrixEx(const MEDCouplingFieldTemplate *src, const MEDCouplingFieldTemplate *target, const std::vector<std::map<int,double> >& m)
4236 +#if __cplusplus >= 201103L
4237 + restartUsing(src,target);
4238 + if(m.size()!=target->getNumberOfTuplesExpected())
4240 + std::ostringstream oss; oss << "MEDCouplingRemapper::setMatrixEx : input matrix has " << m.size() << " rows whereas there are " << target->getNumberOfTuplesExpected() << " expected !";
4241 + throw INTERP_KERNEL::Exception(oss.str());
4243 + auto srcNbElem(src->getNumberOfTuplesExpected());
4248 + auto idToTest(it2.first);
4249 + if(idToTest<0 || idToTest>=srcNbElem)
4251 + std::ostringstream oss; oss << "MEDCouplingRemapper::setMatrixEx : presence of elt #" << idToTest << " ! not in [0," << srcNbElem << ") !";
4252 + throw INTERP_KERNEL::Exception(oss.str());
4257 + _deno_multiply.clear();
4258 + _deno_multiply.resize(_matrix.size());
4259 + _deno_reverse_multiply.clear();
4260 + _deno_reverse_multiply.resize(srcNbElem);
4262 + throw INTERP_KERNEL::Exception("Breaking news : 10% off for C++11 compiler :)");
4266 int MEDCouplingRemapper::prepareInterpKernelOnly()
4268 int meshInterpType=((int)_src_ft->getMesh()->getType()*16)+(int)_target_ft->getMesh()->getType();
4269 @@ -311,14 +339,14 @@
4273 - * This method returns the interpolation matrix policy. This policy specifies which interpolation matrix method to keep or prefered.
4274 + * This method returns the interpolation matrix policy. This policy specifies which interpolation matrix method to keep or preferred.
4275 * If interpolation matrix policy is :
4277 - * - set to IK_ONLY_PREFERED (0) (the default) : the INTERP_KERNEL only method is prefered. That is to say, if it is possible to treat the case
4278 + * - set to IK_ONLY_PREFERED (0) (the default) : the INTERP_KERNEL only method is preferred. That is to say, if it is possible to treat the case
4279 * regarding spatial discretization of source and target with INTERP_KERNEL only method, INTERP_KERNEL only method will be performed.
4280 * If not, the \b not only INTERP_KERNEL method will be attempt.
4282 - * - set to NOT_IK_ONLY_PREFERED (1) : the \b NOT only INTERP_KERNEL method is prefered. That is to say, if it is possible to treat the case
4283 + * - set to NOT_IK_ONLY_PREFERED (1) : the \b NOT only INTERP_KERNEL method is preferred. That is to say, if it is possible to treat the case
4284 * regarding spatial discretization of source and target with \b NOT only INTERP_KERNEL method, \b NOT only INTERP_KERNEL method, will be performed.
4285 * If not, the INTERP_KERNEL only method will be attempt.
4287 @@ -340,11 +368,11 @@
4289 * If interpolation matrix policy is :
4291 - * - set to IK_ONLY_PREFERED (0) (the default) : the INTERP_KERNEL only method is prefered. That is to say, if it is possible to treat the case
4292 + * - set to IK_ONLY_PREFERED (0) (the default) : the INTERP_KERNEL only method is preferred. That is to say, if it is possible to treat the case
4293 * regarding spatial discretization of source and target with INTERP_KERNEL only method, INTERP_KERNEL only method will be performed.
4294 * If not, the \b not only INTERP_KERNEL method will be attempt.
4296 - * - set to NOT_IK_ONLY_PREFERED (1) : the \b NOT only INTERP_KERNEL method is prefered. That is to say, if it is possible to treat the case
4297 + * - set to NOT_IK_ONLY_PREFERED (1) : the \b NOT only INTERP_KERNEL method is preferred. That is to say, if it is possible to treat the case
4298 * regarding spatial discretization of source and target with \b NOT only INTERP_KERNEL method, \b NOT only INTERP_KERNEL method, will be performed.
4299 * If not, the INTERP_KERNEL only method will be attempt.
4301 @@ -440,6 +468,15 @@
4302 INTERP_KERNEL::Interpolation3D1D interpolation(*this);
4303 nbCols=interpolation.interpolateMeshes(source_mesh_wrapper,target_mesh_wrapper,_matrix,method);
4305 + else if(srcMeshDim==1 && trgMeshDim==0 && srcSpaceDim==3)
4307 + if(getIntersectionType()!=INTERP_KERNEL::PointLocator)
4308 + throw INTERP_KERNEL::Exception("Invalid interpolation requested between 1D and 0D into 3D space ! Select PointLocator as intersection type !");
4309 + MEDCouplingNormalizedUnstructuredMesh<3,3> source_mesh_wrapper(src_mesh);
4310 + MEDCouplingNormalizedUnstructuredMesh<3,3> target_mesh_wrapper(target_mesh);
4311 + INTERP_KERNEL::Interpolation1D0D interpolation(*this);
4312 + nbCols=interpolation.interpolateMeshes(source_mesh_wrapper,target_mesh_wrapper,_matrix,method);
4314 else if(srcMeshDim==1 && trgMeshDim==3 && srcSpaceDim==3)
4316 if(getIntersectionType()!=INTERP_KERNEL::PointLocator)
4318 INTERP_KERNEL::Interpolation2D1D::DuplicateFacesType duplicateFaces=interpolation.retrieveDuplicateFaces();
4319 if(!duplicateFaces.empty())
4321 - std::ostringstream oss; oss << "An unexpected situation happend ! For the following 1D Cells are part of edges shared by 2D cells :\n";
4322 + std::ostringstream oss; oss << "An unexpected situation happened ! For the following 1D Cells are part of edges shared by 2D cells :\n";
4323 for(std::map<int,std::set<int> >::const_iterator it=duplicateFaces.begin();it!=duplicateFaces.end();it++)
4325 oss << "1D Cell #" << (*it).first << " is part of common edge of following 2D cells ids : ";
4327 INTERP_KERNEL::Interpolation2D3D::DuplicateFacesType duplicateFaces=interpolation.retrieveDuplicateFaces();
4328 if(!duplicateFaces.empty())
4330 - std::ostringstream oss; oss << "An unexpected situation happend ! For the following 2D Cells are part of edges shared by 3D cells :\n";
4331 + std::ostringstream oss; oss << "An unexpected situation happened ! For the following 2D Cells are part of edges shared by 3D cells :\n";
4332 for(std::map<int,std::set<int> >::const_iterator it=duplicateFaces.begin();it!=duplicateFaces.end();it++)
4334 oss << "2D Cell #" << (*it).first << " is part of common face of following 3D cells ids : ";
4336 INTERP_KERNEL::Interpolation2D3D::DuplicateFacesType duplicateFaces=interpolation.retrieveDuplicateFaces();
4337 if(!duplicateFaces.empty())
4339 - std::ostringstream oss; oss << "An unexpected situation happend ! For the following 2D Cells are part of edges shared by 3D cells :\n";
4340 + std::ostringstream oss; oss << "An unexpected situation happened ! For the following 2D Cells are part of edges shared by 3D cells :\n";
4341 for(std::map<int,std::set<int> >::const_iterator it=duplicateFaces.begin();it!=duplicateFaces.end();it++)
4343 oss << "2D Cell #" << (*it).first << " is part of common face of following 3D cells ids : ";
4347 * This method builds a code considering already set field discretization int \a this : \a _src_ft and \a _target_ft.
4348 - * This method returns 3 informations (2 in ouput parameters and 1 in return).
4349 + * This method returns 3 information (2 in output parameters and 1 in return).
4351 * \param [out] srcMeth the string code of the discretization of source field template
4352 * \param [out] trgMeth the string code of the discretization of target field template
4353 @@ -975,6 +1012,18 @@
4357 +void MEDCouplingRemapper::BuildFieldTemplatesFrom(const MEDCouplingMesh *srcMesh, const MEDCouplingMesh *targetMesh, const std::string& method, MCAuto<MEDCouplingFieldTemplate>& src, MCAuto<MEDCouplingFieldTemplate>& target)
4359 + if(!srcMesh || !targetMesh)
4360 + throw INTERP_KERNEL::Exception("MEDCouplingRemapper::BuildFieldTemplatesFrom : presence of NULL input pointer !");
4361 + std::string srcMethod,targetMethod;
4362 + INTERP_KERNEL::Interpolation<INTERP_KERNEL::Interpolation3D>::CheckAndSplitInterpolationMethod(method,srcMethod,targetMethod);
4363 + src=MEDCouplingFieldTemplate::New(MEDCouplingFieldDiscretization::GetTypeOfFieldFromStringRepr(srcMethod));
4364 + src->setMesh(srcMesh);
4365 + target=MEDCouplingFieldTemplate::New(MEDCouplingFieldDiscretization::GetTypeOfFieldFromStringRepr(targetMethod));
4366 + target->setMesh(targetMesh);
4369 void MEDCouplingRemapper::releaseData(bool matrixSuppression)
4372 @@ -987,6 +1036,17 @@
4376 +void MEDCouplingRemapper::restartUsing(const MEDCouplingFieldTemplate *src, const MEDCouplingFieldTemplate *target)
4378 + if(!src || !target)
4379 + throw INTERP_KERNEL::Exception("MEDCouplingRemapper::restartUsingData : presence of NULL input pointer !");
4380 + if(!src->getMesh() || !target->getMesh())
4381 + throw INTERP_KERNEL::Exception("MEDCouplingRemapper::prepareEx : presence of NULL mesh pointer in given field template !");
4382 + releaseData(true);
4383 + _src_ft.takeRef(const_cast<MEDCouplingFieldTemplate *>(src));
4384 + _target_ft.takeRef(const_cast<MEDCouplingFieldTemplate *>(target));
4387 void MEDCouplingRemapper::transferUnderground(const MEDCouplingFieldDouble *srcField, MEDCouplingFieldDouble *targetField, bool isDftVal, double dftValue)
4389 if(!srcField || !targetField)
4390 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingRemapper.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingRemapper.hxx
4391 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingRemapper.hxx 2018-04-19 17:04:36.716222304 +0200
4392 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingRemapper.hxx 2018-04-19 17:25:18.125805026 +0200
4394 MEDCOUPLINGREMAPPER_EXPORT ~MEDCouplingRemapper();
4395 MEDCOUPLINGREMAPPER_EXPORT int prepare(const MEDCouplingMesh *srcMesh, const MEDCouplingMesh *targetMesh, const std::string& method);
4396 MEDCOUPLINGREMAPPER_EXPORT int prepareEx(const MEDCouplingFieldTemplate *src, const MEDCouplingFieldTemplate *target);
4397 + MEDCOUPLINGREMAPPER_EXPORT void setCrudeMatrix(const MEDCouplingMesh *srcMesh, const MEDCouplingMesh *targetMesh, const std::string& method, const std::vector<std::map<int,double> >& m);
4398 + MEDCOUPLINGREMAPPER_EXPORT void setCrudeMatrixEx(const MEDCouplingFieldTemplate *src, const MEDCouplingFieldTemplate *target, const std::vector<std::map<int,double> >& m);
4399 MEDCOUPLINGREMAPPER_EXPORT void transfer(const MEDCouplingFieldDouble *srcField, MEDCouplingFieldDouble *targetField, double dftValue);
4400 MEDCOUPLINGREMAPPER_EXPORT void partialTransfer(const MEDCouplingFieldDouble *srcField, MEDCouplingFieldDouble *targetField);
4401 MEDCOUPLINGREMAPPER_EXPORT void reverseTransfer(MEDCouplingFieldDouble *srcField, const MEDCouplingFieldDouble *targetField, double dftValue);
4403 MEDCOUPLINGREMAPPER_EXPORT int getNumberOfColsOfMatrix() const;
4404 MEDCOUPLINGREMAPPER_EXPORT static void PrintMatrix(const std::vector<std::map<int,double> >& m);
4405 MEDCOUPLINGREMAPPER_EXPORT static std::string BuildMethodFrom(const std::string& meth1, const std::string& meth2);
4406 + MEDCOUPLINGREMAPPER_EXPORT void BuildFieldTemplatesFrom(const MEDCouplingMesh *srcMesh, const MEDCouplingMesh *targetMesh, const std::string& method, MCAuto<MEDCouplingFieldTemplate>& src, MCAuto<MEDCouplingFieldTemplate>& target);
4408 int prepareInterpKernelOnly();
4409 int prepareInterpKernelOnlyUU();
4411 void checkPrepare() const;
4412 std::string checkAndGiveInterpolationMethodStr(std::string& srcMeth, std::string& trgMeth) const;
4413 void releaseData(bool matrixSuppression);
4414 + void restartUsing(const MEDCouplingFieldTemplate *src, const MEDCouplingFieldTemplate *target);
4415 void transferUnderground(const MEDCouplingFieldDouble *srcField, MEDCouplingFieldDouble *targetField, bool isDftVal, double dftValue);
4416 void computeDeno(NatureOfField nat, const MEDCouplingFieldDouble *srcField, const MEDCouplingFieldDouble *trgField);
4417 void computeDenoFromScratch(NatureOfField nat, const MEDCouplingFieldDouble *srcField, const MEDCouplingFieldDouble *trgField);
4418 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingSkyLineArray.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingSkyLineArray.cxx
4419 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingSkyLineArray.cxx 2018-04-19 17:04:36.716222304 +0200
4420 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingSkyLineArray.cxx 2018-04-19 17:25:18.009802733 +0200
4422 #include "MEDCouplingSkyLineArray.hxx"
4428 using namespace MEDCoupling;
4432 void MEDCouplingSkyLineArray::deletePack(const int superIdx, const int idx)
4434 - using namespace std;
4436 checkSuperIndex("deletePack");
4437 validSuperIndexAndIndex("deletePack", superIdx, idx);
4439 @@ -393,12 +393,12 @@
4440 int * siP(_super_index->getPointer()), *iP(_index->getPointer());
4441 const int start = iP[siP[superIdx]+idx], end = iP[siP[superIdx]+idx+1];
4443 - copy(vP+end, vP+_values->getNbOfElems(), vP+start);
4444 + std::copy(vP+end, vP+_values->getNbOfElems(), vP+start);
4445 _values->reAlloc(_values->getNbOfElems() - (end-start));
4448 int nt = _index->getNbOfElems();
4449 - copy(iP+siP[superIdx]+idx+1, iP+nt, iP+siP[superIdx]+idx);
4450 + std::copy(iP+siP[superIdx]+idx+1, iP+nt, iP+siP[superIdx]+idx);
4451 _index->reAlloc(nt-1); iP = _index->getPointer(); // better not forget this ...
4452 for(int ii = siP[superIdx]+idx; ii < nt-1; ii++)
4453 iP[ii] -= (end-start);
4454 @@ -408,6 +408,128 @@
4458 +void MEDCouplingSkyLineArray::deleteSimplePack(const int idx)
4460 + validIndex("deleteSimplePack", idx);
4462 + int* iP(_index->getPointer());
4463 + const int start(iP[idx]), end(iP[idx+1]);
4466 + int initValSz( _values->getNbOfElems() );
4467 + int deltaSz( start-end ); // should be negative
4468 + int *vP(_values->getPointer());
4471 + std::copy(vP+end, vP+initValSz, vP+start);
4472 + _values->reAlloc(initValSz+deltaSz);
4475 + throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::deleteSimplePack");
4477 + int nt(_index->getNbOfElems());
4478 + std::copy(iP+idx+1, iP+nt, iP+idx);
4479 + for(int ii = idx; ii < nt-1; ii++)
4480 + iP[ii] += deltaSz;
4481 + _index->reAlloc(nt-1);
4484 +void MEDCouplingSkyLineArray::replaceSimplePacks(const DataArrayInt* idx, const std::vector<const DataArrayInt*>& packs)
4489 + for (const int * id = idx->begin(); id != idx->end(); id++)
4490 + validIndex("deleteSimplePacks", *id);
4492 + if (idx->getNbOfElems() != packs.size())
4493 + throw INTERP_KERNEL::Exception("MEDCouplingSkyLineArray::deleteSimplePacks: size of list of pack is incorrect");
4495 + // copy _index, _values into a deque<set<int>>
4496 + std::deque< std::set<int> > valuesByIdx;
4497 + int* vP(_values->getPointer());
4498 + int* iP(_index->getPointer());
4499 + std::size_t nt ( _index->getNbOfElems() );
4500 + for (int ii = 0; ii < nt-1; ii++)
4501 + valuesByIdx.push_back(std::set<int>(vP+iP[ii], vP+iP[ii+1]));
4503 + // modify the deque<set<int>> according to idx and packs
4505 + for (const int *id = idx->begin(); id != idx->end(); id++)
4507 + valuesByIdx[*id] = std::set<int>(packs[ii]->begin(), packs[ii]->end());
4510 + // copy back the deque<set<int>> into _index, _values
4513 + for (std::deque< std::set<int> >::const_iterator values=valuesByIdx.begin();values!=valuesByIdx.end();values++)
4515 + valSz += (*values).size();
4518 + _values->reAlloc(valSz);
4519 + iP = _index->getPointer();
4520 + vP = _values->getPointer();
4521 + for (auto values : valuesByIdx)
4523 + std::copy(values.begin(), values.end(), vP+(*iP));
4528 +void MEDCouplingSkyLineArray::deleteSimplePacks(const DataArrayInt* idx)
4530 + for (auto id = idx->begin(); id != idx->end(); id++)
4531 + validIndex("deleteSimplePacks", *id);
4533 + std::set<int> packsToDelete(idx->begin(), idx->end());
4536 + int* iP(_index->getPointer());
4537 + int initValSz = _values->getNbOfElems();
4538 + int *vP(_values->getPointer());
4539 + int end_prec(0),start_prec(0);
4540 + for(std::set<int>::const_iterator ii=packsToDelete.begin();ii!=packsToDelete.end();ii++)
4542 + int start = iP[*ii];
4543 + if (end_prec != 0)
4544 + std::copy(vP+end_prec, vP+start, vP+start_prec);
4545 + start_prec += start-end_prec;
4546 + end_prec = iP[*ii+1];
4548 + if (end_prec != 0)
4549 + std::copy(vP+end_prec, vP+initValSz, vP+start_prec);
4550 + _values->reAlloc(initValSz-(end_prec-start_prec));
4553 + int nt = _index->getNbOfElems();
4558 + for(std::set<int>::const_iterator ii=packsToDelete.begin();ii!=packsToDelete.end();ii++)
4560 + if (end_prec != 0)
4562 + std::copy(iP+end_prec, iP+*ii, iP+start_prec);
4563 + for (int i=start_prec; i<*ii; i++)
4566 + offset += iP[*ii+1] - iP[*ii];
4567 + start_prec = *ii-deleted;
4571 + if (end_prec != 0)
4573 + std::copy(iP+end_prec, iP+nt, iP+start_prec);
4574 + for (int i=start_prec; i<nt; i++)
4577 + _index->reAlloc(nt-deleted);
4581 * Insert a new pack in super-pack at index 'superIdx'. The pack is inserted at the end of the pack list of the chosen super-pack.
4583 @@ -448,12 +570,10 @@
4585 void MEDCouplingSkyLineArray::replaceSimplePack(const int idx, const int * packBg, const int * packEnd)
4587 - using namespace std;
4589 validIndex("replaceSimplePack", idx);
4591 int * iP(_index->getPointer());
4592 - int newSz = distance(packBg, packEnd);
4593 + int newSz = std::distance(packBg, packEnd);
4594 const int start = iP[idx], end = iP[idx+1];
4597 @@ -464,13 +584,13 @@
4599 _values->reAlloc(initValSz+deltaSz);
4600 int *vP(_values->getPointer());
4601 - copy(vP+end, vP+initValSz, vP+end+deltaSz);
4602 + std::copy(vP+end, vP+initValSz, vP+end+deltaSz);
4604 _values->reAlloc(initValSz+deltaSz);
4608 - copy(packBg, packEnd, _values->getPointer()+start);
4609 + std::copy(packBg, packEnd, _values->getPointer()+start);
4612 for(int ii = idx+1; ii < (int)_index->getNbOfElems(); ii++)
4613 @@ -481,15 +601,13 @@
4614 * Replace pack with super index 'superIdx' and index 'idx' with the provided new pack.
4615 * Function can be used only for 3-level SkyLine.
4617 -void MEDCouplingSkyLineArray::replacePack(const int superIdx, const int idx, const int * packBg, const int * packEnd)
4618 +void MEDCouplingSkyLineArray::replacePack(const int superIdx, const int idx, const int *packBg, const int *packEnd)
4620 - using namespace std;
4622 checkSuperIndex("replacePack");
4623 validSuperIndexAndIndex("replacePack", superIdx, idx);
4625 int * siP(_super_index->getPointer()), *iP(_index->getPointer());
4626 - int newSz = distance(packBg, packEnd);
4627 + int newSz = std::distance(packBg, packEnd);
4628 const int start = iP[siP[superIdx]+idx], end = iP[siP[superIdx]+idx+1];
4631 @@ -500,13 +618,13 @@
4633 _values->reAlloc(initValSz+deltaSz);
4634 int *vP(_values->getPointer());
4635 - copy(vP+end, vP+initValSz, vP+end+deltaSz);
4636 + std::copy(vP+end, vP+initValSz, vP+end+deltaSz);
4638 _values->reAlloc(initValSz+deltaSz);
4642 - copy(packBg, packEnd, _values->getPointer()+start);
4643 + std::copy(packBg, packEnd, _values->getPointer()+start);
4646 for(int ii = siP[superIdx]+idx+1; ii < (int)_index->getNbOfElems(); ii++)
4647 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingSkyLineArray.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingSkyLineArray.hxx
4648 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingSkyLineArray.hxx 2018-04-19 17:04:36.716222304 +0200
4649 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingSkyLineArray.hxx 2018-04-19 17:25:18.042803386 +0200
4651 std::vector<int>& out) const;
4653 void deletePack(const int superIdx, const int idx);
4654 + void deleteSimplePack(const int idx);
4655 void pushBackPack(const int superIdx, const int * packBg, const int * packEnd);
4657 void replaceSimplePack(const int idx, const int * packBg, const int * packEnd);
4658 void replacePack(const int superIdx, const int idx, const int * packBg, const int * packEnd);
4660 + void deleteSimplePacks(const DataArrayInt* idx);
4661 + void replaceSimplePacks(const DataArrayInt* idx, const std::vector<const DataArrayInt*>& packs);
4663 void convertToPolyhedronConn( MCAuto<DataArrayInt>& c, MCAuto<DataArrayInt>& cI) const;
4666 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingStructuredMesh.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingStructuredMesh.cxx
4667 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingStructuredMesh.cxx 2018-04-19 17:04:36.716222304 +0200
4668 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingStructuredMesh.cxx 2018-04-19 17:25:18.023803010 +0200
4670 * - After \a code contains [NORM_...,nbCells,0], \a idsInPflPerType [[0,1]] and \a idsPerType is [[1,2]] <br>
4673 -void MEDCouplingStructuredMesh::splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType) const
4674 +void MEDCouplingStructuredMesh::splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType, bool smartPflKiller) const
4676 if(!profile || !profile->isAllocated())
4677 throw INTERP_KERNEL::Exception("MEDCouplingStructuredMesh::splitProfilePerType : input profile is NULL or not allocated !");
4679 code.resize(3); idsInPflPerType.resize(1);
4680 code[0]=(int)getTypeOfCell(0); code[1]=nbOfCells;
4681 idsInPflPerType.resize(1);
4682 - if(profile->isIota(nbOfCells))
4683 + if(smartPflKiller && profile->isIota(nbOfCells))
4686 idsInPflPerType[0]=profile->deepCopy();
4687 @@ -1887,7 +1887,7 @@
4690 * This method builds the explicit entity array from the structure in \a st and the range in \a partCompactFormat.
4691 - * If the range contains invalid values regarding sructure an exception will be thrown.
4692 + * If the range contains invalid values regarding structure an exception will be thrown.
4694 * \return DataArrayInt * - a new object.
4695 * \sa MEDCouplingStructuredMesh::IsPartStructured, MEDCouplingStructuredMesh::DeduceNumberOfGivenRangeInCompactFrmt, SwitchOnIdsFrom, ExtractFieldOfBoolFrom, ExtractFieldOfDoubleFrom, MultiplyPartOf
4696 @@ -1956,7 +1956,7 @@
4697 * \param [in] st - the structure of grid ( \b without considering ghost cells).
4698 * \param [in] part - the part in the structure ( \b without considering ghost cells) contained in grid whose structure is defined by \a st.
4699 * \param [in] factor - the factor, the tuples in \a da will be multiply by.
4700 - * \param [in,out] da - The DataArray in wich only tuples specified by \a part will be modified.
4701 + * \param [in,out] da - The DataArray in which only tuples specified by \a part will be modified.
4703 * \sa BuildExplicitIdsFrom
4705 @@ -2037,7 +2037,7 @@
4706 * \param [in] part - the part in the structure ( \b without considering ghost cells) contained in grid whose structure is defined by \a st.
4707 * \param [in] ghostSize - \a ghostSize must be >= 0.
4708 * \param [in] factor - the factor, the tuples in \a da will be multiply by.
4709 - * \param [in,out] da - The DataArray in wich only tuples specified by \a part will be modified.
4710 + * \param [in,out] da - The DataArray in which only tuples specified by \a part will be modified.
4712 * \sa MultiplyPartOf, PutInGhostFormat
4714 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingStructuredMesh.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingStructuredMesh.hxx
4715 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingStructuredMesh.hxx 2018-04-19 17:04:36.717222324 +0200
4716 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingStructuredMesh.hxx 2018-04-19 17:25:18.142805362 +0200
4719 MEDCOUPLING_EXPORT std::vector<int> getDistributionOfTypes() const;
4720 MEDCOUPLING_EXPORT DataArrayInt *checkTypeConsistencyAndContig(const std::vector<int>& code, const std::vector<const DataArrayInt *>& idsPerType) const;
4721 - MEDCOUPLING_EXPORT void splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType) const;
4722 + MEDCOUPLING_EXPORT void splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType, bool smartPflKiller=true) const;
4723 MEDCOUPLING_EXPORT MEDCoupling1SGTUMesh *build1SGTUnstructured() const;
4724 MEDCOUPLING_EXPORT MEDCouplingUMesh *buildUnstructured() const;
4725 MEDCOUPLING_EXPORT MEDCouplingMesh *buildPart(const int *start, const int *end) const;
4726 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingTimeDiscretization.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingTimeDiscretization.cxx
4727 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingTimeDiscretization.cxx 2018-04-19 17:04:36.717222324 +0200
4728 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingTimeDiscretization.cxx 2018-04-19 17:25:18.007802694 +0200
4730 if(arrays1[i]!=0 && arrays2[i]!=0)
4731 arrays1[i]->setSelectedComponents(arrays2[i],compoIds);
4732 else if(arrays1[i]!=0 || arrays2[i]!=0)
4733 - throw INTERP_KERNEL::Exception("TimeDiscretization::setSelectedComponents : some time array in correspondance are not defined symetrically !");
4734 + throw INTERP_KERNEL::Exception("TimeDiscretization::setSelectedComponents : some time array in correspondence are not defined symmetrically !");
4739 case MEDCouplingTimeDiscretizationInt::DISCRETIZATION:
4740 return new MEDCouplingTimeDiscretizationInt;
4742 - throw INTERP_KERNEL::Exception("Time discretization not implemented yet for intergers !");
4743 + throw INTERP_KERNEL::Exception("Time discretization not implemented yet for integers !");
4747 @@ -771,14 +771,12 @@
4748 case MEDCouplingTimeDiscretizationFloat::DISCRETIZATION:
4749 return new MEDCouplingTimeDiscretizationFloat;
4751 - throw INTERP_KERNEL::Exception("Time discretization not implemented yet for intergers !");
4752 + throw INTERP_KERNEL::Exception("Time discretization not implemented yet for integers !");
4756 bool MEDCouplingTimeDiscretizationFloat::isEqualIfNotWhy(const MEDCouplingTimeDiscretizationTemplate<float> *other, float prec, std::string& reason) const
4759 - throw INTERP_KERNEL::Exception("isEqualIfNotWhy : only precision equal to 0 supported for int !");
4762 reason="Time discretization is NULL.";
4763 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingTimeLabel.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingTimeLabel.cxx
4764 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingTimeLabel.cxx 2018-04-19 17:04:36.717222324 +0200
4765 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingTimeLabel.cxx 2018-04-19 17:25:18.132805164 +0200
4770 - * This method has to be called with a lot of care. It set agressively the time in this with the
4771 + * This method has to be called with a lot of care. It set aggressively the time in this with the
4774 void TimeLabel::forceTimeOfThis(const TimeLabel& other) const
4775 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingUMesh.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingUMesh.cxx
4776 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingUMesh.cxx 2018-04-19 17:04:36.722222424 +0200
4777 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingUMesh.cxx 2018-04-19 17:25:17.986802279 +0200
4779 double MEDCouplingUMesh::EPS_FOR_POLYH_ORIENTATION=1.e-14;
4782 -const INTERP_KERNEL::NormalizedCellType MEDCouplingUMesh::MEDMEM_ORDER[N_MEDMEM_ORDER] = { INTERP_KERNEL::NORM_POINT1, INTERP_KERNEL::NORM_SEG2, INTERP_KERNEL::NORM_SEG3, INTERP_KERNEL::NORM_SEG4, INTERP_KERNEL::NORM_POLYL, INTERP_KERNEL::NORM_TRI3, INTERP_KERNEL::NORM_QUAD4, INTERP_KERNEL::NORM_TRI6, INTERP_KERNEL::NORM_TRI7, INTERP_KERNEL::NORM_QUAD8, INTERP_KERNEL::NORM_QUAD9, INTERP_KERNEL::NORM_POLYGON, INTERP_KERNEL::NORM_QPOLYG, INTERP_KERNEL::NORM_TETRA4, INTERP_KERNEL::NORM_PYRA5, INTERP_KERNEL::NORM_PENTA6, INTERP_KERNEL::NORM_HEXA8, INTERP_KERNEL::NORM_HEXGP12, INTERP_KERNEL::NORM_TETRA10, INTERP_KERNEL::NORM_PYRA13, INTERP_KERNEL::NORM_PENTA15, INTERP_KERNEL::NORM_HEXA20, INTERP_KERNEL::NORM_HEXA27, INTERP_KERNEL::NORM_POLYHED };
4783 -const int MEDCouplingUMesh::MEDCOUPLING2VTKTYPETRADUCER[INTERP_KERNEL::NORM_MAXTYPE+1]={1,3,21,5,9,7,22,34,23,28,-1,-1,-1,-1,10,14,13,-1,12,-1,24,-1,16,27,-1,26,-1,29,-1,-1,25,42,36,4};
4784 +const INTERP_KERNEL::NormalizedCellType MEDCouplingUMesh::MEDMEM_ORDER[N_MEDMEM_ORDER] = { INTERP_KERNEL::NORM_POINT1, INTERP_KERNEL::NORM_SEG2, INTERP_KERNEL::NORM_SEG3, INTERP_KERNEL::NORM_SEG4, INTERP_KERNEL::NORM_POLYL, INTERP_KERNEL::NORM_TRI3, INTERP_KERNEL::NORM_QUAD4, INTERP_KERNEL::NORM_TRI6, INTERP_KERNEL::NORM_TRI7, INTERP_KERNEL::NORM_QUAD8, INTERP_KERNEL::NORM_QUAD9, INTERP_KERNEL::NORM_POLYGON, INTERP_KERNEL::NORM_QPOLYG, INTERP_KERNEL::NORM_TETRA4, INTERP_KERNEL::NORM_PYRA5, INTERP_KERNEL::NORM_PENTA6, INTERP_KERNEL::NORM_HEXA8, INTERP_KERNEL::NORM_HEXGP12, INTERP_KERNEL::NORM_TETRA10, INTERP_KERNEL::NORM_PYRA13, INTERP_KERNEL::NORM_PENTA15, INTERP_KERNEL::NORM_PENTA18, INTERP_KERNEL::NORM_HEXA20, INTERP_KERNEL::NORM_HEXA27, INTERP_KERNEL::NORM_POLYHED };
4785 +const int MEDCouplingUMesh::MEDCOUPLING2VTKTYPETRADUCER[INTERP_KERNEL::NORM_MAXTYPE+1]={1,3,21,5,9,7,22,34,23,28,-1,-1,-1,-1,10,14,13,-1,12,-1,24,-1,16,27,-1,26,-1,29,32,-1,25,42,36,4};
4788 MEDCouplingUMesh *MEDCouplingUMesh::New()
4789 @@ -301,9 +301,10 @@
4793 - * Allocates memory to store an estimation of the given number of cells. The closer is the estimation to the number of cells effectively inserted,
4794 - * the less will the library need to reallocate memory. If the number of cells to be inserted is not known simply put 0 to this parameter.
4795 - * If a nodal connectivity previouly existed before the call of this method, it will be reset.
4796 + * Allocates memory to store an estimation of the given number of cells.
4797 + * The closer the estimation to the number of cells effectively inserted, the less need the library requires
4798 + * to reallocate memory. If the number of cells to be inserted is not known simply assign 0 to this parameter.
4799 + * If a nodal connectivity previously existed before the call of this method, it will be reset.
4801 * \param [in] nbOfCells - estimation of the number of cell \a this mesh will contain.
4806 * Entry point for iteration over cells groups geo types per geotypes. Warning the returned cell iterator should be deallocated.
4807 - * If \a this is not so that that cells are grouped by geo types this method will throw an exception.
4808 + * If \a this is not so that the cells are grouped by geo types, this method will throw an exception.
4809 * In this case MEDCouplingUMesh::sortCellsInMEDFileFrmt or MEDCouplingUMesh::rearrange2ConsecutiveCellTypes methods for example can be called before invoking this method.
4810 * Useful for python users.
4812 @@ -975,7 +976,12 @@
4814 int *neighIdx(neighborsIdx->getPointer());
4815 for(std::vector< std::set<int> >::const_iterator it=st0.begin();it!=st0.end();it++,neighIdx++)
4816 - neighIdx[1]=neighIdx[0]+(*it).size()-1;
4818 + if ((*it).empty())
4819 + neighIdx[1]=neighIdx[0];
4821 + neighIdx[1]=neighIdx[0]+(*it).size()-1;
4824 neighbors=DataArrayInt::New(); neighbors->alloc(neighborsIdx->back(),1);
4826 @@ -1308,12 +1314,14 @@
4827 connINew->alloc(nbOfCells+1,1);
4828 int *connINewPtr=connINew->getPointer(); *connINewPtr++=0;
4829 MCAuto<DataArrayInt> connNew=DataArrayInt::New(); connNew->alloc(0,1);
4830 + MCAuto<DataArrayInt> E_Fi(DataArrayInt::New()), E_F(DataArrayInt::New()), F_Ei(DataArrayInt::New()), F_E(DataArrayInt::New());
4831 + MCAuto<MEDCouplingUMesh> m_faces(buildDescendingConnectivity(E_F, E_Fi, F_E, F_Ei));
4833 for(int i=0;i<nbOfCells;i++,connINewPtr++)
4835 if(conn[index[i]]==(int)INTERP_KERNEL::NORM_POLYHED)
4837 - SimplifyPolyhedronCell(eps,coords,conn+index[i],conn+index[i+1],connNew);
4838 + SimplifyPolyhedronCell(eps,coords, i,connNew, m_faces, E_Fi, E_F, F_Ei, F_E);
4842 @@ -1698,7 +1706,7 @@
4843 * \param [in] startCellId specifies the cellId starting from which the equality computation will be carried out. By default it is 0, which it means that all cells in \a this will be scanned.
4844 * \param [out] commonCellsArr common cells ids (\ref numbering-indirect)
4845 * \param [out] commonCellsIArr common cells ids (\ref numbering-indirect)
4846 - * \return the correspondance array old to new in a newly allocated array.
4847 + * \return the correspondence array old to new in a newly allocated array.
4850 void MEDCouplingUMesh::findCommonCells(int compType, int startCellId, DataArrayInt *& commonCellsArr, DataArrayInt *& commonCellsIArr) const
4851 @@ -1895,7 +1903,7 @@
4853 * Build a sub part of \b this lying or not on the same coordinates than \b this (regarding value of \b keepCoords).
4854 * By default coordinates are kept. This method is close to MEDCouplingUMesh::buildPartOfMySelf except that here input
4855 - * cellIds is not given explicitely but by a range python like.
4856 + * cellIds is not given explicitly but by a range python like.
4860 @@ -2277,7 +2285,7 @@
4861 * This method expects that \b this and \b otherDimM1OnSameCoords share the same coordinates array.
4862 * otherDimM1OnSameCoords->getMeshDimension() is expected to be equal to this->getMeshDimension()-1.
4863 * This method searches for nodes needed to be duplicated. These nodes are nodes fetched by \b otherDimM1OnSameCoords which are not part of the boundary of \b otherDimM1OnSameCoords.
4864 - * If a node is in the boundary of \b this \b and in the boundary of \b otherDimM1OnSameCoords this node is considerd as needed to be duplicated.
4865 + * If a node is in the boundary of \b this \b and in the boundary of \b otherDimM1OnSameCoords this node is considered as needed to be duplicated.
4866 * When the set of node ids \b nodeIdsToDuplicate is computed, cell ids in \b this is searched so that their connectivity includes at least 1 node in \b nodeIdsToDuplicate.
4868 * \param [in] otherDimM1OnSameCoords a mesh lying on the same coords than \b this and with a mesh dimension equal to those of \b this minus 1. WARNING this input
4869 @@ -2422,7 +2430,7 @@
4870 * This method operates a modification of the connectivity and coords in \b this.
4871 * Every time that a node id in [ \b nodeIdsToDuplicateBg, \b nodeIdsToDuplicateEnd ) will append in nodal connectivity of \b this
4872 * its ids will be modified to id this->getNumberOfNodes()+std::distance(nodeIdsToDuplicateBg,std::find(nodeIdsToDuplicateBg,nodeIdsToDuplicateEnd,id)).
4873 - * More explicitely the renumber array in nodes is not explicitely given in old2new to avoid to build a big array of renumbering whereas typically few node ids needs to be
4874 + * More explicitly the renumber array in nodes is not explicitly given in old2new to avoid to build a big array of renumbering whereas typically few node ids needs to be
4875 * renumbered. The node id nodeIdsToDuplicateBg[0] will have id this->getNumberOfNodes()+0, node id nodeIdsToDuplicateBg[1] will have id this->getNumberOfNodes()+1,
4876 * node id nodeIdsToDuplicateBg[2] will have id this->getNumberOfNodes()+2...
4878 @@ -2563,7 +2571,7 @@
4879 * Coordinates are \b NOT considered here and will remain unchanged by this method. this->_coords can ever been null for the needs of this method.
4880 * Every time that a node id in [ \b nodeIdsToDuplicateBg, \b nodeIdsToDuplicateEnd ) will append in nodal connectivity of \b this
4881 * its ids will be modified to id offset+std::distance(nodeIdsToDuplicateBg,std::find(nodeIdsToDuplicateBg,nodeIdsToDuplicateEnd,id)).
4882 - * More explicitely the renumber array in nodes is not explicitely given in old2new to avoid to build a big array of renumbering whereas typically few node ids needs to be
4883 + * More explicitly the renumber array in nodes is not explicitly given in old2new to avoid to build a big array of renumbering whereas typically few node ids needs to be
4884 * renumbered. The node id nodeIdsToDuplicateBg[0] will have id offset+0, node id nodeIdsToDuplicateBg[1] will have id offset+1,
4885 * node id nodeIdsToDuplicateBg[2] will have id offset+2...
4887 @@ -2934,7 +2942,7 @@
4891 - * This method builds a newly allocated instance (with the same name than \a this) that the caller has the responsability to deal with.
4892 + * This method builds a newly allocated instance (with the same name than \a this) that the caller has the responsibility to deal with.
4893 * This method returns an instance with all arrays allocated (connectivity, connectivity index, coordinates)
4894 * but with length of these arrays set to 0. It allows to define an "empty" mesh (with nor cells nor nodes but compliant with
4896 @@ -2996,7 +3004,7 @@
4899 * Returns types of cells of the specified part of \a this mesh.
4900 - * This method avoids computing sub-mesh explicitely to get its types.
4901 + * This method avoids computing sub-mesh explicitly to get its types.
4902 * \param [in] begin - an array of cell ids of interest.
4903 * \param [in] end - the end of \a begin, i.e. a pointer to its (last+1)-th element.
4904 * \return std::set<INTERP_KERNEL::NormalizedCellType> - a set of enumeration items
4905 @@ -3839,7 +3847,7 @@
4906 * If not an exception will thrown. If this is an empty mesh with no cell an exception will be thrown too.
4907 * No consideration of coordinate is done by this method.
4908 * A 1D mesh is said contiguous if : a cell i with nodal connectivity (k,p) the cell i+1 the nodal connectivity should be (p,m)
4909 - * If not false is returned. In case that false is returned a call to MEDCoupling::MEDCouplingUMesh::mergeNodes could be usefull.
4910 + * If not false is returned. In case that false is returned a call to MEDCoupling::MEDCouplingUMesh::mergeNodes could be useful.
4912 bool MEDCouplingUMesh::isContiguous1D() const
4914 @@ -5417,6 +5425,8 @@
4915 DataArrayDouble *MEDCouplingUMesh::getBoundingBoxForBBTree2DQuadratic(double arcDetEps) const
4917 checkFullyDefined();
4918 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(arcDetEps);
4920 int spaceDim(getSpaceDimension()),mDim(getMeshDimension()),nbOfCells(getNumberOfCells());
4921 if(spaceDim!=2 || mDim!=2)
4922 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::getBoundingBoxForBBTree2DQuadratic : This method should be applied on mesh with mesh dimension equal to 2 and space dimension also equal to 2!");
4923 @@ -5428,7 +5438,6 @@
4925 const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel((INTERP_KERNEL::NormalizedCellType)conn[*connI]));
4926 int sz(connI[1]-connI[0]-1);
4927 - INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=arcDetEps;
4928 std::vector<INTERP_KERNEL::Node *> nodes(sz);
4929 INTERP_KERNEL::QuadraticPolygon *pol(0);
4930 for(int j=0;j<sz;j++)
4931 @@ -5465,6 +5474,7 @@
4932 int spaceDim(getSpaceDimension()),mDim(getMeshDimension()),nbOfCells(getNumberOfCells());
4933 if(spaceDim!=2 || mDim!=1)
4934 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::getBoundingBoxForBBTree1DQuadratic : This method should be applied on mesh with mesh dimension equal to 1 and space dimension also equal to 2!");
4935 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(arcDetEps);
4936 MCAuto<DataArrayDouble> ret(DataArrayDouble::New()); ret->alloc(nbOfCells,2*spaceDim);
4937 double *bbox(ret->getPointer());
4938 const double *coords(_coords->begin());
4939 @@ -5473,7 +5483,6 @@
4941 const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel((INTERP_KERNEL::NormalizedCellType)conn[*connI]));
4942 int sz(connI[1]-connI[0]-1);
4943 - INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=arcDetEps;
4944 std::vector<INTERP_KERNEL::Node *> nodes(sz);
4945 INTERP_KERNEL::Edge *edge(0);
4946 for(int j=0;j<sz;j++)
4947 @@ -5524,7 +5533,7 @@
4948 * \a this is composed in cell types.
4949 * The returned array is of size 3*n where n is the number of different types present in \a this.
4950 * For every k in [0,n] ret[3*k+2]==-1 because it has no sense here.
4951 - * This parameter is kept only for compatibility with other methode listed above.
4952 + * This parameter is kept only for compatibility with other method listed above.
4954 std::vector<int> MEDCouplingUMesh::getDistributionOfTypes() const
4956 @@ -5569,7 +5578,7 @@
4958 * If all geometric types in \a code are exactly those in \a this null pointer is returned.
4959 * If it exists a geometric type in \a this \b not in \a code \b no exception is thrown
4960 - * and a DataArrayInt instance is returned that the user has the responsability to deallocate.
4961 + * and a DataArrayInt instance is returned that the user has the responsibility to deallocate.
4963 DataArrayInt *MEDCouplingUMesh::checkTypeConsistencyAndContig(const std::vector<int>& code, const std::vector<const DataArrayInt *>& idsPerType) const
4965 @@ -5672,7 +5681,7 @@
4966 * This vector can be empty in case of all geometric type cells are fully covered in ascending in the given input \a profile.
4967 * \throw if \a profile has not exactly one component. It throws too, if \a profile contains some values not in [0,getNumberOfCells()) or if \a this is not fully defined
4969 -void MEDCouplingUMesh::splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType) const
4970 +void MEDCouplingUMesh::splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType, bool smartPflKiller) const
4973 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::splitProfilePerType : input profile is NULL !");
4974 @@ -5714,7 +5723,7 @@
4975 code[3*i]=(int)types[castId];
4976 code[3*i+1]=tmp3->getNumberOfTuples();
4977 MCAuto<DataArrayInt> tmp4=rankInsideCast->selectByTupleId(tmp3->begin(),tmp3->begin()+tmp3->getNumberOfTuples());
4978 - if(!tmp4->isIota(typeRangeVals[castId+1]-typeRangeVals[castId]))
4979 + if(!smartPflKiller || !tmp4->isIota(typeRangeVals[castId+1]-typeRangeVals[castId]))
4981 tmp4->copyStringInfoFrom(*profile);
4982 idsPerType2.push_back(tmp4);
4983 @@ -5880,7 +5889,7 @@
4985 * This method returns 2 newly allocated DataArrayInt instances. The first is an array of size 'this->getNumberOfCells()' with one component,
4986 * that tells for each cell the pos of its type in the array on type given in input parameter. The 2nd output parameter is an array with the same
4987 - * number of tuples than input type array and with one component. This 2nd output array gives type by type the number of occurence of type in 'this'.
4988 + * number of tuples than input type array and with one component. This 2nd output array gives type by type the number of occurrence of type in 'this'.
4990 DataArrayInt *MEDCouplingUMesh::getLevArrPerCellTypes(const INTERP_KERNEL::NormalizedCellType *orderBg, const INTERP_KERNEL::NormalizedCellType *orderEnd, DataArrayInt *&nbPerType) const
4992 @@ -5919,7 +5928,7 @@
4994 * This method behaves exactly as MEDCouplingUMesh::getRenumArrForConsecutiveCellTypesSpec but the order is those defined in MED file spec.
4996 - * \return a new object containing the old to new correspondance.
4997 + * \return a new object containing the old to new correspondence.
4999 * \sa MEDCouplingUMesh::getRenumArrForConsecutiveCellTypesSpec, MEDCouplingUMesh::sortCellsInMEDFileFrmt.
5001 @@ -5929,7 +5938,7 @@
5005 - * This method is similar to method MEDCouplingUMesh::rearrange2ConsecutiveCellTypes except that the type order is specfied by [ \a orderBg , \a orderEnd ) (as MEDCouplingUMesh::checkConsecutiveCellTypesAndOrder method) and that this method is \b const and performs \b NO permutation in \a this.
5006 + * This method is similar to method MEDCouplingUMesh::rearrange2ConsecutiveCellTypes except that the type order is specified by [ \a orderBg , \a orderEnd ) (as MEDCouplingUMesh::checkConsecutiveCellTypesAndOrder method) and that this method is \b const and performs \b NO permutation in \a this.
5007 * This method returns an array of size getNumberOfCells() that gives a renumber array old2New that can be used as input of MEDCouplingMesh::renumberCells.
5008 * The mesh after this call to MEDCouplingMesh::renumberCells will pass the test of MEDCouplingUMesh::checkConsecutiveCellTypesAndOrder with the same inputs.
5009 * The returned array minimizes the permutations that is to say the order of cells inside same geometric type remains the same.
5010 @@ -5948,7 +5957,7 @@
5011 * This method tries to minimizes the number of needed permutations. So, this method behaves not exactly as
5012 * MEDCouplingUMesh::sortCellsInMEDFileFrmt.
5014 - * \return the array giving the correspondance old to new.
5015 + * \return the array giving the correspondence old to new.
5017 DataArrayInt *MEDCouplingUMesh::rearrange2ConsecutiveCellTypes()
5019 @@ -6121,7 +6130,7 @@
5021 * This method takes in input a vector of MEDCouplingUMesh instances lying on the same coordinates with same mesh dimensions.
5022 * Each mesh in \b ms must be sorted by type with the same order (typically using MEDCouplingUMesh::sortCellsInMEDFileFrmt).
5023 - * This method is particulary useful for MED file interaction. It allows to aggregate several meshes and keeping the type sorting
5024 + * This method is particularly useful for MED file interaction. It allows to aggregate several meshes and keeping the type sorting
5025 * and the track of the permutation by chunk of same geotype cells to retrieve it. The traditional formats old2new and new2old
5026 * are not used here to avoid the build of big permutation array.
5028 @@ -6784,7 +6793,7 @@
5029 * Makes all given meshes share the nodal connectivity array. The common connectivity
5030 * array is created by concatenating the connectivity arrays of all given meshes. All
5031 * the given meshes must be of the same space dimension but dimension of cells **can
5032 - * differ**. This method is particulary useful in MEDLoader context to build a \ref
5033 + * differ**. This method is particularly useful in MEDLoader context to build a \ref
5034 * MEDCoupling::MEDFileUMesh "MEDFileUMesh" instance that expects that underlying
5035 * MEDCouplingUMesh'es of different dimension share the same nodal connectivity array.
5036 * \param [in,out] meshes - a vector of meshes to update.
5037 @@ -6838,7 +6847,7 @@
5039 * Merges nodes coincident with a given precision within all given meshes that share
5040 * the nodal connectivity array. The given meshes **can be of different** mesh
5041 - * dimension. This method is particulary useful in MEDLoader context to build a \ref
5042 + * dimension. This method is particularly useful in MEDLoader context to build a \ref
5043 * MEDCoupling::MEDFileUMesh "MEDFileUMesh" instance that expects that underlying
5044 * MEDCouplingUMesh'es of different dimension share the same nodal connectivity array.
5045 * \param [in,out] meshes - a vector of meshes to update.
5046 @@ -6889,7 +6898,7 @@
5050 - * This static operates only for coords in 3D. The polygon is specfied by its connectivity nodes in [ \a begin , \a end ).
5051 + * This static operates only for coords in 3D. The polygon is specified by its connectivity nodes in [ \a begin , \a end ).
5053 bool MEDCouplingUMesh::IsPolygonWellOriented(bool isQuadratic, const double *vec, const int *begin, const int *end, const double *coords)
5055 @@ -6933,7 +6942,7 @@
5059 - * The polyhedron is specfied by its connectivity nodes in [ \a begin , \a end ).
5060 + * The polyhedron is specified by its connectivity nodes in [ \a begin , \a end ).
5062 bool MEDCouplingUMesh::IsPolyhedronWellOriented(const int *begin, const int *end, const double *coords)
5064 @@ -7019,48 +7028,62 @@
5065 * \param [in] end end of nodal connectivity of a single polyhedron cell (excluded)
5066 * \param [out] res the result is put at the end of the vector without any alteration of the data.
5068 -void MEDCouplingUMesh::SimplifyPolyhedronCell(double eps, const DataArrayDouble *coords, const int *begin, const int *end, DataArrayInt *res)
5069 +void MEDCouplingUMesh::SimplifyPolyhedronCell(double eps, const DataArrayDouble *coords, int index, DataArrayInt *res, MEDCouplingUMesh *faces,
5070 + DataArrayInt *E_Fi, DataArrayInt *E_F, DataArrayInt *F_Ei, DataArrayInt *F_E)
5072 - int nbFaces=std::count(begin+1,end,-1)+1;
5073 + int nbFaces = E_Fi->getIJ(index + 1, 0) - E_Fi->getIJ(index, 0);
5074 MCAuto<DataArrayDouble> v=DataArrayDouble::New(); v->alloc(nbFaces,3);
5075 double *vPtr=v->getPointer();
5076 - MCAuto<DataArrayDouble> p=DataArrayDouble::New(); p->alloc(nbFaces,1);
5077 + MCAuto<DataArrayDouble> p=DataArrayDouble::New(); p->alloc(nbFaces,2);
5078 double *pPtr=p->getPointer();
5079 - const int *stFaceConn=begin+1;
5080 + int *e_fi = E_Fi->getPointer(), *e_f = E_F->getPointer(), *f_ei = F_Ei->getPointer(), *f_e = F_E->getPointer();
5081 + const int *f_idx = faces->getNodalConnectivityIndex()->getPointer(), *f_cnn = faces->getNodalConnectivity()->getPointer();
5082 for(int i=0;i<nbFaces;i++,vPtr+=3,pPtr++)
5084 - const int *endFaceConn=std::find(stFaceConn,end,-1);
5085 - ComputeVecAndPtOfFace(eps,coords->begin(),stFaceConn,endFaceConn,vPtr,pPtr);
5086 - stFaceConn=endFaceConn+1;
5087 + int face = e_f[e_fi[index] + i];
5088 + ComputeVecAndPtOfFace(eps, coords->begin(), f_cnn + f_idx[face] + 1, f_cnn + f_idx[face + 1], vPtr, pPtr);
5089 + // to differentiate faces going to different cells:
5090 + pPtr++, *pPtr = 0;
5091 + for (int j = f_ei[face]; j < f_ei[face + 1]; j++)
5094 pPtr=p->getPointer(); vPtr=v->getPointer();
5095 DataArrayInt *comm1=0,*commI1=0;
5096 v->findCommonTuples(eps,-1,comm1,commI1);
5097 + for (int i = 0; i < nbFaces; i++)
5098 + if (comm1->findIdFirstEqual(i) < 0)
5100 + comm1->pushBackSilent(i);
5101 + commI1->pushBackSilent(comm1->getNumberOfTuples());
5103 MCAuto<DataArrayInt> comm1Auto(comm1),commI1Auto(commI1);
5104 const int *comm1Ptr=comm1->begin();
5105 const int *commI1Ptr=commI1->begin();
5106 int nbOfGrps1=commI1Auto->getNumberOfTuples()-1;
5107 res->pushBackSilent((int)INTERP_KERNEL::NORM_POLYHED);
5109 - MCAuto<MEDCouplingUMesh> mm=MEDCouplingUMesh::New("",3);
5110 - mm->setCoords(const_cast<DataArrayDouble *>(coords)); mm->allocateCells(1); mm->insertNextCell(INTERP_KERNEL::NORM_POLYHED,(int)std::distance(begin+1,end),begin+1);
5111 - mm->finishInsertingCells();
5113 for(int i=0;i<nbOfGrps1;i++)
5115 int vecId=comm1Ptr[commI1Ptr[i]];
5116 MCAuto<DataArrayDouble> tmpgrp2=p->selectByTupleId(comm1Ptr+commI1Ptr[i],comm1Ptr+commI1Ptr[i+1]);
5117 DataArrayInt *comm2=0,*commI2=0;
5118 tmpgrp2->findCommonTuples(eps,-1,comm2,commI2);
5119 + for (int j = 0; j < commI1Ptr[i+1] - commI1Ptr[i]; j++)
5120 + if (comm2->findIdFirstEqual(j) < 0)
5122 + comm2->pushBackSilent(j);
5123 + commI2->pushBackSilent(comm2->getNumberOfTuples());
5125 MCAuto<DataArrayInt> comm2Auto(comm2),commI2Auto(commI2);
5126 const int *comm2Ptr=comm2->begin();
5127 const int *commI2Ptr=commI2->begin();
5128 int nbOfGrps2=commI2Auto->getNumberOfTuples()-1;
5129 for(int j=0;j<nbOfGrps2;j++)
5131 - if(commI2Ptr[j+1]-commI2Ptr[j]<=1)
5132 + if(commI2Ptr[j+1] == commI2Ptr[j] + 1)
5134 - res->insertAtTheEnd(begin,end);
5135 + int face = e_f[e_fi[index] + comm1Ptr[commI1Ptr[i] + comm2Ptr[commI2Ptr[j]]]]; //hmmm
5136 + res->insertAtTheEnd(f_cnn + f_idx[face] + 1, f_cnn + f_idx[face + 1]);
5137 res->pushBackSilent(-1);
5140 @@ -7068,13 +7091,12 @@
5141 int pointId=comm1Ptr[commI1Ptr[i]+comm2Ptr[commI2Ptr[j]]];
5142 MCAuto<DataArrayInt> ids2=comm2->selectByTupleIdSafeSlice(commI2Ptr[j],commI2Ptr[j+1],1);
5143 ids2->transformWithIndArr(comm1Ptr+commI1Ptr[i],comm1Ptr+commI1Ptr[i+1]);
5144 - DataArrayInt *tmp0=DataArrayInt::New(),*tmp1=DataArrayInt::New(),*tmp2=DataArrayInt::New(),*tmp3=DataArrayInt::New();
5145 - MCAuto<MEDCouplingUMesh> mm2=mm->buildDescendingConnectivity(tmp0,tmp1,tmp2,tmp3); tmp0->decrRef(); tmp1->decrRef(); tmp2->decrRef(); tmp3->decrRef();
5146 - MCAuto<MEDCouplingUMesh> mm3=static_cast<MEDCouplingUMesh *>(mm2->buildPartOfMySelf(ids2->begin(),ids2->end(),true));
5147 + ids2->transformWithIndArr(e_f + e_fi[index], e_f + e_fi[index + 1]);
5148 + MCAuto<MEDCouplingUMesh> mm3=static_cast<MEDCouplingUMesh *>(faces->buildPartOfMySelf(ids2->begin(),ids2->end(),true));
5149 MCAuto<DataArrayInt> idsNodeTmp=mm3->zipCoordsTraducer();
5150 MCAuto<DataArrayInt> idsNode=idsNodeTmp->invertArrayO2N2N2O(mm3->getNumberOfNodes());
5151 const int *idsNodePtr=idsNode->begin();
5152 - double center[3]; center[0]=pPtr[pointId]*vPtr[3*vecId]; center[1]=pPtr[pointId]*vPtr[3*vecId+1]; center[2]=pPtr[pointId]*vPtr[3*vecId+2];
5153 + double center[3]; center[0]=pPtr[2*pointId]*vPtr[3*vecId]; center[1]=pPtr[2*pointId]*vPtr[3*vecId+1]; center[2]=pPtr[2*pointId]*vPtr[3*vecId+2];
5154 double vec[3]; vec[0]=vPtr[3*vecId+1]; vec[1]=-vPtr[3*vecId]; vec[2]=0.;
5155 double norm=vec[0]*vec[0]+vec[1]*vec[1]+vec[2]*vec[2];
5156 if(std::abs(norm)>eps)
5157 @@ -7884,7 +7906,7 @@
5158 * This method works on an input pair (\b arrIn, \b arrIndxIn) where \b arrIn indexes is in \b arrIndxIn.
5159 * This method builds an output pair (\b arrOut,\b arrIndexOut) that is a copy from \b arrIn for all cell ids \b not \b in [ \b idsOfSelectBg , \b idsOfSelectEnd ) and for
5160 * cellIds \b in [ \b idsOfSelectBg , \b idsOfSelectEnd ) a copy coming from the corresponding values in input pair (\b srcArr, \b srcArrIndex).
5161 - * This method is an generalization of MEDCouplingUMesh::SetPartOfIndexedArraysSameIdx that performs the same thing but by without building explicitely a result output arrays.
5162 + * This method is an generalization of MEDCouplingUMesh::SetPartOfIndexedArraysSameIdx that performs the same thing but by without building explicitly a result output arrays.
5164 * \param [in] idsOfSelectBg begin of set of ids of the input extraction (included)
5165 * \param [in] idsOfSelectEnd end of set of ids of the input extraction (excluded)
5166 @@ -7950,7 +7972,7 @@
5169 * This method works on an input pair (\b arrIn, \b arrIndxIn) where \b arrIn indexes is in \b arrIndxIn.
5170 - * This method is an specialization of MEDCouplingUMesh::SetPartOfIndexedArrays in the case of assignement do not modify the index in \b arrIndxIn.
5171 + * This method is an specialization of MEDCouplingUMesh::SetPartOfIndexedArrays in the case of assignment do not modify the index in \b arrIndxIn.
5173 * \param [in] idsOfSelectBg begin of set of ids of the input extraction (included)
5174 * \param [in] idsOfSelectEnd end of set of ids of the input extraction (excluded)
5175 @@ -8047,7 +8069,7 @@
5176 * This method works on an input pair (\b arrIn, \b arrIndxIn) where \b arrIn indexes is in \b arrIndxIn.
5177 * This method builds an output pair (\b arrOut,\b arrIndexOut) that is a copy from \b arrIn for all cell ids \b not \b in [ \b idsOfSelectBg , \b idsOfSelectEnd ) and for
5178 * cellIds \b in [\b idsOfSelectBg, \b idsOfSelectEnd) a copy coming from the corresponding values in input pair (\b srcArr, \b srcArrIndex).
5179 - * This method is an generalization of MEDCouplingUMesh::SetPartOfIndexedArraysSameIdx that performs the same thing but by without building explicitely a result output arrays.
5180 + * This method is an generalization of MEDCouplingUMesh::SetPartOfIndexedArraysSameIdx that performs the same thing but by without building explicitly a result output arrays.
5182 * \param [in] start begin of set of ids of the input extraction (included)
5183 * \param [in] end end of set of ids of the input extraction (excluded)
5184 @@ -8112,7 +8134,7 @@
5187 * This method works on an input pair (\b arrIn, \b arrIndxIn) where \b arrIn indexes is in \b arrIndxIn.
5188 - * This method is an specialization of MEDCouplingUMesh::SetPartOfIndexedArrays in the case of assignement do not modify the index in \b arrIndxIn.
5189 + * This method is an specialization of MEDCouplingUMesh::SetPartOfIndexedArrays in the case of assignment do not modify the index in \b arrIndxIn.
5191 * \param [in] start begin of set of ids of the input extraction (included)
5192 * \param [in] end end of set of ids of the input extraction (excluded)
5193 @@ -8282,7 +8304,7 @@
5194 * decrRef() as it is no more needed.
5195 * \return MEDCoupling1SGTUMesh * - the mesh containing only INTERP_KERNEL::NORM_TETRA4 cells.
5197 - * \warning This method operates on each cells in this independantly ! So it can leads to non conform mesh in returned value ! If you expect to have a conform mesh in output
5198 + * \warning This method operates on each cells in this independently ! So it can leads to non conform mesh in returned value ! If you expect to have a conform mesh in output
5199 * the policy PLANAR_FACE_6 should be used on a mesh sorted with MEDCoupling1SGTUMesh::sortHexa8EachOther.
5201 * \throw If \a this is not a 3D mesh (spaceDim==3 and meshDim==3).
5202 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingUMesh.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingUMesh.hxx
5203 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingUMesh.hxx 2018-04-19 17:04:36.722222424 +0200
5204 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingUMesh.hxx 2018-04-19 17:25:18.041803366 +0200
5206 MEDCOUPLING_EXPORT void orientCorrectlyPolyhedrons();
5207 MEDCOUPLING_EXPORT void invertOrientationOfAllCells();
5208 MEDCOUPLING_EXPORT void getFastAveragePlaneOfThis(double *vec, double *pos) const;
5209 + MEDCOUPLING_EXPORT void attractSeg3MidPtsAroundNodes(double ratio, const int *nodeIdsBg, const int *nodeIdsEnd);
5211 MEDCOUPLING_EXPORT MEDCouplingFieldDouble *getEdgeRatioField() const;
5212 MEDCOUPLING_EXPORT MEDCouplingFieldDouble *getAspectRatioField() const;
5214 //utilities for MED File RW
5215 MEDCOUPLING_EXPORT std::vector<int> getDistributionOfTypes() const;
5216 MEDCOUPLING_EXPORT DataArrayInt *checkTypeConsistencyAndContig(const std::vector<int>& code, const std::vector<const DataArrayInt *>& idsPerType) const;
5217 - MEDCOUPLING_EXPORT void splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType) const;
5218 + MEDCOUPLING_EXPORT void splitProfilePerType(const DataArrayInt *profile, std::vector<int>& code, std::vector<DataArrayInt *>& idsInPflPerType, std::vector<DataArrayInt *>& idsPerType, bool smartPflKiller=true) const;
5219 MEDCOUPLING_EXPORT MEDCouplingUMesh *emulateMEDMEMBDC(const MEDCouplingUMesh *nM1LevMesh, DataArrayInt *desc, DataArrayInt *descIndx, DataArrayInt *&revDesc, DataArrayInt *&revDescIndx, DataArrayInt *& nM1LevMeshIds, DataArrayInt *&meshnM1Old2New) const;
5220 MEDCOUPLING_EXPORT DataArrayInt *sortCellsInMEDFileFrmt();
5221 MEDCOUPLING_EXPORT bool checkConsecutiveCellTypes() const;
5223 MEDCOUPLING_EXPORT static void CorrectExtrudedStaticCell(int *begin, int *end);
5224 MEDCOUPLING_EXPORT static bool IsTetra4WellOriented(const int *begin, const int *end, const double *coords);
5225 MEDCOUPLING_EXPORT static bool IsPyra5WellOriented(const int *begin, const int *end, const double *coords);
5226 - MEDCOUPLING_EXPORT static void SimplifyPolyhedronCell(double eps, const DataArrayDouble *coords, const int *begin, const int *end, DataArrayInt *res);
5227 + MEDCOUPLING_EXPORT static void SimplifyPolyhedronCell(double eps, const DataArrayDouble *coords, int index, DataArrayInt *res, MEDCouplingUMesh *faces,
5228 + DataArrayInt *E_Fi, DataArrayInt *E_F, DataArrayInt *F_Ei, DataArrayInt *F_E);
5229 MEDCOUPLING_EXPORT static void ComputeVecAndPtOfFace(double eps, const double *coords, const int *begin, const int *end, double *v, double *p);
5230 MEDCOUPLING_EXPORT static void TryToCorrectPolyhedronOrientation(int *begin, int *end, const double *coords);
5231 MEDCOUPLING_EXPORT static MEDCouplingUMesh *Intersect2DMeshes(const MEDCouplingUMesh *m1, const MEDCouplingUMesh *m2, double eps, DataArrayInt *&cellNb1, DataArrayInt *&cellNb2);
5232 @@ -355,9 +357,10 @@
5233 std::vector<int> & pointIds, std::vector<int> & hitSegs);
5234 static void ReplaceEdgeInFace(const int * sIdxConn, const int * sIdxConnE, int startNode, int endNode,
5235 const std::vector<int>& insidePoints, std::vector<int>& modifiedFace);
5236 + void attractSeg3MidPtsAroundNodesUnderground(double ratio, const int *nodeIdsBg, const int *nodeIdsEnd);
5238 MEDCOUPLING_EXPORT static DataArrayInt *ComputeRangesFromTypeDistribution(const std::vector<int>& code);
5239 - MEDCOUPLING_EXPORT static const int N_MEDMEM_ORDER=24;
5240 + MEDCOUPLING_EXPORT static const int N_MEDMEM_ORDER=25;
5241 MEDCOUPLING_EXPORT static const INTERP_KERNEL::NormalizedCellType MEDMEM_ORDER[N_MEDMEM_ORDER];
5242 MEDCOUPLING_EXPORT static const int MEDCOUPLING2VTKTYPETRADUCER[INTERP_KERNEL::NORM_MAXTYPE+1];
5244 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingUMesh_internal.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingUMesh_internal.cxx
5245 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingUMesh_internal.cxx 2018-04-19 17:04:36.722222424 +0200
5246 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingUMesh_internal.cxx 2018-04-19 17:25:18.122804967 +0200
5248 double epsa=fabs(eps);
5249 if(epsa<std::numeric_limits<double>::min())
5250 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::tessellate2DCurveInternal : epsilon is null ! Please specify a higher epsilon. If too tiny it can lead to a huge amount of nodes and memory !");
5251 - INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=1.e-10;
5252 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(1.e-10); // RAII
5253 int nbCells=getNumberOfCells();
5254 int nbNodes=getNumberOfNodes();
5255 const int *conn=_nodal_connec->begin();
5259 * This private method is used to subdivide edges of a mesh with meshdim==2. If \a this has no a meshdim equal to 2 an exception will be thrown.
5260 - * This method completly ignore coordinates.
5261 + * This method completely ignores coordinates.
5262 * \param nodeSubdived is the nodal connectivity of subdivision of edges
5263 * \param nodeIndxSubdived is the nodal connectivity index of subdivision of edges
5264 * \param desc is descending connectivity in format specified in MEDCouplingUMesh::buildDescendingConnectivity2
5265 @@ -1585,7 +1585,7 @@
5266 * This method is part of the Slice3D algorithm. It is the first step of assembly process, ones coordinates have been computed (by MEDCouplingUMesh::split3DCurveWithPlane method).
5267 * This method allows to compute given the status of 3D curve cells and the descending connectivity 3DSurf->3DCurve to deduce the intersection of each 3D surf cells
5268 * with a plane. The result will be put in 'cut3DSuf' out parameter.
5269 - * \param [in] cut3DCurve input paramter that gives for each 3DCurve cell if it owns fully to the plane or partially.
5270 + * \param [in] cut3DCurve input parameter that gives for each 3DCurve cell if it owns fully to the plane or partially.
5271 * \param [out] nodesOnPlane, returns all the nodes that are on the plane.
5272 * \param [in] nodal3DSurf is the nodal connectivity of 3D surf mesh.
5273 * \param [in] nodalIndx3DSurf is the nodal connectivity index of 3D surf mesh.
5274 @@ -1663,7 +1663,7 @@
5275 * This method is part of the Slice3D algorithm. It is the second step of assembly process, ones coordinates have been computed (by MEDCouplingUMesh::split3DCurveWithPlane method).
5276 * This method allows to compute given the result of 3D surf cells with plane and the descending connectivity 3D->3DSurf to deduce the intersection of each 3D cells
5277 * with a plane. The result will be put in 'nodalRes' 'nodalResIndx' and 'cellIds' out parameters.
5278 - * \param cut3DSurf input paramter that gives for each 3DSurf its intersection with plane (result of MEDCouplingUMesh::AssemblyForSplitFrom3DCurve).
5279 + * \param cut3DSurf input parameter that gives for each 3DSurf its intersection with plane (result of MEDCouplingUMesh::AssemblyForSplitFrom3DCurve).
5280 * \param desc is the descending connectivity 3D->3DSurf
5281 * \param descIndx is the descending connectivity index 3D->3DSurf
5283 @@ -1754,3 +1754,88 @@
5284 types.insert((INTERP_KERNEL::NormalizedCellType)conn[*pt]);
5289 + * This method expects that \a this a quadratic 1D, 2D or 3D mesh.
5290 + * This method will 'attract' middle points of seg3 (deduced from this by explosion if needed) of cells connected to nodes specified in [\a nodeIdsBg, \a nodeIdsEnd )
5291 + * For those selected mid points, their coordinates will be modified by applying a dilation between node in input [\a nodeIdsBg, \a nodeIdsEnd ) and the corresponding mid points using \a ratio input value.
5292 + * So this method is non const because coordinates are modified.
5293 + * If there is a couple of 2 points in [\a nodeIdsBg, \a nodeIdsEnd ) that are boundaries of a seg3, the corresponding mid point will remain untouched.
5295 + * \param [in] ratio - ratio of dilation
5296 + * \param [in] nodeIdsBg - start (included) of input node list
5297 + * \param [in] nodeIdsEnd - end (excluded) of input node list
5298 + * \throw if there is a point in [\a nodeIdsBg, \a nodeIdsEnd ) that is a mid point of a seg3
5299 + * \warning in case of throw the coordinates may be partially modified before the exception arises
5301 +void MEDCouplingUMesh::attractSeg3MidPtsAroundNodes(double ratio, const int *nodeIdsBg, const int *nodeIdsEnd)
5303 + checkFullyDefined();
5304 + int mdim(getMeshDimension());
5305 + if(mdim==2 || mdim==3)
5307 + MCAuto<MEDCouplingUMesh> edges;
5309 + MCAuto<DataArrayInt> a,b,c,d;
5310 + edges=this->explodeIntoEdges(a,b,c,d);
5312 + return edges->attractSeg3MidPtsAroundNodesUnderground(ratio,nodeIdsBg,nodeIdsEnd);
5315 + return attractSeg3MidPtsAroundNodesUnderground(ratio,nodeIdsBg,nodeIdsEnd);
5316 + throw INTERP_KERNEL::Exception("MEDCouplingUMesh::attractSeg3MidPtsAroundNodes : not managed dimension ! Should be in [1,2,3] !");
5320 + * \a this is expected to have meshdim==1.
5322 +void MEDCouplingUMesh::attractSeg3MidPtsAroundNodesUnderground(double ratio, const int *nodeIdsBg, const int *nodeIdsEnd)
5324 +#if __cplusplus >= 201103L
5325 + int spaceDim(getSpaceDimension());
5326 + double *coords(getCoords()->getPointer());
5327 + auto nbNodes(getNumberOfNodes());
5328 + auto nbCells(getNumberOfCells());
5329 + std::vector<bool> fastFinder(nbNodes,false);
5330 + for(auto work=nodeIdsBg;work!=nodeIdsEnd;work++)
5331 + if(*work>=0 && *work<nbNodes)
5332 + fastFinder[*work]=true;
5333 + MCAuto<DataArrayInt> cellsIds(getCellIdsLyingOnNodes(nodeIdsBg,nodeIdsEnd,false));
5334 + const int *nc(_nodal_connec->begin()),*nci(_nodal_connec_index->begin());
5335 + for(auto cellId=0;cellId<nbCells;cellId++,nci++)
5337 + const int *isSelected(std::find_if(nc+nci[0]+1,nc+nci[1],[&fastFinder](int v) { return fastFinder[v]; }));
5338 + if(isSelected!=nc+nci[1])
5340 + if((INTERP_KERNEL::NormalizedCellType)nc[nci[0]]==INTERP_KERNEL::NORM_SEG3 && nci[1]-nci[0]==4)
5342 + bool aa(fastFinder[nc[*nci+1]]),bb(fastFinder[nc[*nci+2]]),cc(fastFinder[nc[*nci+3]]);
5347 + auto ptToMove(nc[*nci+3]);
5348 + auto attractor(aa?nc[*nci+1]:nc[*nci+2]),endPt(aa?nc[*nci+2]:nc[*nci+1]);
5349 + std::transform(coords+spaceDim*attractor,coords+spaceDim*(attractor+1),coords+spaceDim*endPt,
5350 + coords+spaceDim*ptToMove,[ratio](const double& stPt, const double& endPt) { return stPt+ratio*(endPt-stPt); });
5353 + continue;//both 2 boundary nodes of current seg3 are un nodeIds input list -> skip it.
5357 + std::ostringstream oss; oss << "MEDCouplingUMesh::attractSeg3MidPtsAroundNodes : cell #" << cellId << " has a mid point " << nc[*nci+3] << " ! This node is in input list !";
5358 + throw INTERP_KERNEL::Exception(oss.str());
5363 + std::ostringstream oss; oss << "MEDCouplingUMesh::attractSeg3MidPtsAroundNodes : cell #" << cellId << " sharing one of the input nodes list its geo type is NOT SEG3 !";
5364 + throw INTERP_KERNEL::Exception(oss.str());
5369 + throw INTERP_KERNEL::Exception("MEDCouplingUMesh::attractSeg3MidPtsAroundNodes : for your information new compiler have arrived since Fortran66 compiler :)");
5372 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingUMesh_internal.hxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingUMesh_internal.hxx
5373 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingUMesh_internal.hxx 2018-04-19 17:04:36.722222424 +0200
5374 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingUMesh_internal.hxx 2018-04-19 17:25:18.111804749 +0200
5375 @@ -102,6 +102,10 @@
5376 void MEDCouplingUMesh::getCellsContainingPointsAlg(const double *coords, const double *pos, int nbOfPoints,
5377 double eps, MCAuto<DataArrayInt>& elts, MCAuto<DataArrayInt>& eltsIndex) const
5379 + // Override precision for this method only:
5380 + INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
5381 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
5383 elts=DataArrayInt::New(); eltsIndex=DataArrayInt::New(); eltsIndex->alloc(nbOfPoints+1,1); eltsIndex->setIJ(0,0,0); elts->alloc(0,1);
5384 int *eltsIndexPtr(eltsIndex->getPointer());
5385 MCAuto<DataArrayDouble> bboxArr(getBoundingBoxForBBTree(eps));
5389 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::getCellsContainingPointsAlg : not implemented yet for POLYGON and QPOLYGON in spaceDim 3 !");
5390 - INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
5391 - INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
5392 std::vector<INTERP_KERNEL::Node *> nodes(sz);
5393 INTERP_KERNEL::QuadraticPolygon *pol(0);
5394 for(int j=0;j<sz;j++)
5395 diff -Naur MEDCOUPLING_old/src/MEDCoupling/MEDCouplingUMesh_intersection.cxx MEDCOUPLING_new/src/MEDCoupling/MEDCouplingUMesh_intersection.cxx
5396 --- MEDCOUPLING_old/src/MEDCoupling/MEDCouplingUMesh_intersection.cxx 2018-04-19 17:04:36.723222444 +0200
5397 +++ MEDCOUPLING_new/src/MEDCoupling/MEDCouplingUMesh_intersection.cxx 2018-04-19 17:25:18.034803227 +0200
5402 - * Construct a mapping between set of Nodes and the standart MEDCoupling connectivity format (c, cI).
5403 + * Construct a mapping between set of Nodes and the standard MEDCoupling connectivity format (c, cI).
5405 void MEDCouplingUMeshBuildQPFromMesh3(const double *coo1, int offset1, const double *coo2, int offset2, const std::vector<double>& addCoo,
5406 const int *desc1Bg, const int *desc1End, const std::vector<std::vector<int> >& intesctEdges1,
5408 // This initializes posBaseElt.
5411 - for(unsigned i=1;i<nbs && nbOfHit<maxNbOfHit;i++) // 2nd condition is to avoid ending with a cell wih one single edge
5412 + for(unsigned i=1;i<nbs && nbOfHit<maxNbOfHit;i++) // 2nd condition is to avoid ending with a cell with one single edge
5414 cm.fillSonCellNodalConnectivity2(nbs-i,connBg+1,sz,tmpConn,typeOfSon);
5415 INTERP_KERNEL::Edge *eCand(MEDCouplingUMeshBuildQPFromEdge2(typeOfSon,tmpConn,coords,m));
5418 // Now move forward:
5419 const unsigned fwdStart = (nbOfTurn == 0 ? 0 : posBaseElt); // the first element to be inspected going forward
5420 - for(unsigned j=fwdStart+1;j<nbs && nbOfHit<maxNbOfHit;j++) // 2nd condition is to avoid ending with a cell wih one single edge
5421 + for(unsigned j=fwdStart+1;j<nbs && nbOfHit<maxNbOfHit;j++) // 2nd condition is to avoid ending with a cell with one single edge
5423 cm.fillSonCellNodalConnectivity2((int)j,connBg+1,sz,tmpConn,typeOfSon); // get edge #j's connectivity
5424 INTERP_KERNEL::Edge *eCand(MEDCouplingUMeshBuildQPFromEdge2(typeOfSon,tmpConn,coords,m));
5428 //push [posBaseElt,posEndElt) in newConnOfCell using e
5429 - // The if clauses below are (volontary) not mutually exclusive: on a quad cell with 2 edges, the end of the connectivity is also its begining!
5430 + // The if clauses below are (voluntary) not mutually exclusive: on a quad cell with 2 edges, the end of the connectivity is also its beginning!
5432 - // at the begining of the connectivity (insert type)
5433 + // at the beginning of the connectivity (insert type)
5434 EnterTheResultOf2DCellFirst(e,posBaseElt,posEndElt,(int)nbs,cm.isQuadratic(),coords,connBg+1,offset,newConnOfCell,appendedCoords,middles);
5435 else if((nbOfHit+nbOfTurn) != (nbs-1))
5438 * (Only present for its coords in case of 'subDiv' shares some nodes of 'm1')
5439 * \param m2 is expected to be a mesh of meshDimension equal to 1 and spaceDim equal to 2. No check of that is performed by this method.
5440 * \param addCoo input parameter with additional nodes linked to intersection of the 2 meshes.
5441 - * \param[out] intersectEdge the same content as subDiv, but correclty oriented.
5442 + * \param[out] intersectEdge the same content as subDiv, but correctly oriented.
5444 void MEDCouplingUMesh::BuildIntersectEdges(const MEDCouplingUMesh *m1, const MEDCouplingUMesh *m2,
5445 const std::vector<double>& addCoo,
5446 @@ -1170,11 +1170,11 @@
5447 std::vector< std::vector<int> >& intersectEdge1, std::vector< std::vector<int> >& colinear2, std::vector< std::vector<int> >& subDiv2, std::vector<double>& addCoo, std::map<int,int>& mergedNodes)
5449 static const int SPACEDIM=2;
5450 - INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
5451 - INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
5452 + INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
5453 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
5454 const int *c1(m1Desc->getNodalConnectivity()->begin()),*ci1(m1Desc->getNodalConnectivityIndex()->begin());
5455 // Build BB tree of all edges in the tool mesh (second mesh)
5456 - MCAuto<DataArrayDouble> bbox1Arr(m1Desc->getBoundingBoxForBBTree()),bbox2Arr(m2Desc->getBoundingBoxForBBTree());
5457 + MCAuto<DataArrayDouble> bbox1Arr(m1Desc->getBoundingBoxForBBTree(eps)),bbox2Arr(m2Desc->getBoundingBoxForBBTree(eps));
5458 const double *bbox1(bbox1Arr->begin()),*bbox2(bbox2Arr->begin());
5459 int nDescCell1(m1Desc->getNumberOfCells()),nDescCell2(m2Desc->getNumberOfCells());
5460 intersectEdge1.resize(nDescCell1);
5461 @@ -1206,7 +1206,7 @@
5462 for(std::size_t iii=0;iii<szz;iii++,itt++)
5463 { (*itt)->incrRef(); nodesSafe[iii]=*itt; }
5464 // end of protection
5465 - // Performs egde cutting:
5466 + // Performs edge cutting:
5467 pol1->splitAbs(*pol2,map1,map2,offset1,offset2,candidates2,intersectEdge1[i],i,colinear2,subDiv2,addCoo,mergedNodes);
5470 @@ -1252,7 +1252,7 @@
5471 * (newly created) nodes corresponding to the edge intersections.
5473 * @param[out] cr, crI connectivity of the resulting mesh
5474 - * @param[out] cNb1, cNb2 correspondance arrays giving for the merged mesh the initial cells IDs in m1 / m2
5475 + * @param[out] cNb1, cNb2 correspondence arrays giving for the merged mesh the initial cells IDs in m1 / m2
5476 * TODO: describe input parameters
5478 void MEDCouplingUMesh::BuildIntersecting2DCellsFromEdges(double eps, const MEDCouplingUMesh *m1, const int *desc1, const int *descIndx1,
5479 @@ -1269,7 +1269,7 @@
5480 const int *conn2(m2->getNodalConnectivity()->begin()),*connI2(m2->getNodalConnectivityIndex()->begin());
5481 int offset2(offset1+m2->getNumberOfNodes());
5482 int offset3(offset2+((int)addCoords.size())/2);
5483 - MCAuto<DataArrayDouble> bbox1Arr(m1->getBoundingBoxForBBTree()),bbox2Arr(m2->getBoundingBoxForBBTree());
5484 + MCAuto<DataArrayDouble> bbox1Arr(m1->getBoundingBoxForBBTree(eps)),bbox2Arr(m2->getBoundingBoxForBBTree(eps));
5485 const double *bbox1(bbox1Arr->begin()),*bbox2(bbox2Arr->begin());
5486 // Here a BBTree on 2D-cells, not on segments:
5487 BBTree<SPACEDIM,int> myTree(bbox2,0,0,m2->getNumberOfCells(),eps);
5488 @@ -1431,7 +1431,7 @@
5492 - * It is the linear part of MEDCouplingUMesh::split2DCells. Here no additionnal nodes will be added in \b this. So coordinates pointer remain unchanged (is not even touch).
5493 + * It is the linear part of MEDCouplingUMesh::split2DCells. Here no additional nodes will be added in \b this. So coordinates pointer remain unchanged (is not even touch).
5495 * \sa MEDCouplingUMesh::split2DCells
5497 @@ -1467,7 +1467,7 @@
5501 - * It is the quadratic part of MEDCouplingUMesh::split2DCells. Here some additionnal nodes can be added at the end of coordinates array object.
5502 + * It is the quadratic part of MEDCouplingUMesh::split2DCells. Here some additional nodes can be added at the end of coordinates array object.
5504 * \return int - the number of new nodes created.
5505 * \sa MEDCouplingUMesh::split2DCells
5506 @@ -1567,6 +1567,8 @@
5507 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::Intersect2DMeshes : input meshes must be not NULL !");
5508 m1->checkFullyDefined();
5509 m2->checkFullyDefined();
5510 + INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
5511 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
5512 if(m1->getMeshDimension()!=2 || m1->getSpaceDimension()!=2 || m2->getMeshDimension()!=2 || m2->getSpaceDimension()!=2)
5513 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::Intersect2DMeshes works on umeshes m1 AND m2 with meshdim equal to 2 and spaceDim equal to 2 too!");
5515 @@ -1617,7 +1619,7 @@
5517 * Partitions the first given 2D mesh using the second given 1D mesh as a tool.
5518 * Thus the final result contains the aggregation of nodes of \a mesh2D, then nodes of \a mesh1D, then new nodes that are the result of the intersection
5519 - * and finaly, in case of quadratic polygon the centers of edges new nodes.
5520 + * and finally, in case of quadratic polygon the centers of edges new nodes.
5521 * The meshes should be in 2D space. In addition, returns two arrays mapping cells of the resulting mesh to cells of the input.
5523 * \param [in] mesh2D - the 2D mesh (spacedim=meshdim=2) to be intersected using \a mesh1D tool. The mesh must be so that each point in the space covered by \a mesh2D
5524 @@ -1647,8 +1649,8 @@
5525 // Step 1: compute all edge intersections (new nodes)
5526 std::vector< std::vector<int> > intersectEdge1, colinear2, subDiv2;
5527 std::vector<double> addCoo,addCoordsQuadratic; // coordinates of newly created nodes
5528 - INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
5529 - INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
5530 + INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
5531 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
5533 // Build desc connectivity
5534 DataArrayInt *desc1(DataArrayInt::New()),*descIndx1(DataArrayInt::New()),*revDesc1(DataArrayInt::New()),*revDescIndx1(DataArrayInt::New());
5535 @@ -1702,7 +1704,9 @@
5536 MCAuto<DataArrayDouble> baryRet1(ret1NonCol->computeCellCenterOfMass());
5537 MCAuto<DataArrayInt> elts,eltsIndex;
5538 mesh2D->getCellsContainingPoints(baryRet1->begin(),baryRet1->getNumberOfTuples(),eps,elts,eltsIndex);
5539 - MCAuto<DataArrayInt> eltsIndex2(eltsIndex->deltaShiftIndex());
5540 + MCAuto<DataArrayInt> eltsIndex2(DataArrayInt::New()); eltsIndex2->alloc(0,1);
5541 + if (eltsIndex->getNumberOfTuples() > 1)
5542 + eltsIndex2 = eltsIndex->deltaShiftIndex();
5543 MCAuto<DataArrayInt> eltsIndex3(eltsIndex2->findIdsEqual(1));
5544 if(eltsIndex2->count(0)+eltsIndex3->getNumberOfTuples()!=ret1NonCol->getNumberOfCells())
5545 throw INTERP_KERNEL::Exception("Intersect2DMeshWith1DLine : internal error 1 !");
5546 @@ -1809,7 +1813,7 @@
5547 * \b WARNING this method lead to have a non geometric type sorted mesh (for MED file users) !
5548 * This method performs a conformization of \b this. So if a edge in \a this can be split into entire edges in \a this this method
5549 * will suppress such edges to use sub edges in \a this. So this method does not add nodes in \a this if merged edges are both linear (INTERP_KERNEL::NORM_SEG2).
5550 - * In the other cases new nodes can be created. If any are created, they will be appended at the end of the coordinates object before the invokation of this method.
5551 + * In the other cases new nodes can be created. If any are created, they will be appended at the end of the coordinates object before the invocation of this method.
5553 * Whatever the returned value, this method does not alter the order of cells in \a this neither the orientation of cells.
5554 * The modified cells, if any, are systematically declared as NORM_POLYGON or NORM_QPOLYG depending on the initial quadraticness of geometric type.
5555 @@ -1836,14 +1840,14 @@
5556 MCAuto<DataArrayInt> desc1(DataArrayInt::New()),descIndx1(DataArrayInt::New()),revDesc1(DataArrayInt::New()),revDescIndx1(DataArrayInt::New());
5557 MCAuto<MEDCouplingUMesh> mDesc(buildDescendingConnectivity(desc1,descIndx1,revDesc1,revDescIndx1));
5558 const int *c(mDesc->getNodalConnectivity()->begin()),*ci(mDesc->getNodalConnectivityIndex()->begin()),*rd(revDesc1->begin()),*rdi(revDescIndx1->begin());
5559 - MCAuto<DataArrayDouble> bboxArr(mDesc->getBoundingBoxForBBTree());
5560 + MCAuto<DataArrayDouble> bboxArr(mDesc->getBoundingBoxForBBTree(eps));
5561 const double *bbox(bboxArr->begin()),*coords(getCoords()->begin());
5562 int nCell(getNumberOfCells()),nDescCell(mDesc->getNumberOfCells());
5563 std::vector< std::vector<int> > intersectEdge(nDescCell),overlapEdge(nDescCell);
5564 std::vector<double> addCoo;
5565 BBTree<SPACEDIM,int> myTree(bbox,0,0,nDescCell,-eps);
5566 - INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
5567 - INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
5568 + INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
5569 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
5570 for(int i=0;i<nDescCell;i++)
5572 std::vector<int> candidates;
5573 @@ -1948,7 +1952,7 @@
5574 * If yes, the cell is "repaired" to minimize at most its number of edges. So this method do not change the overall shape of cells in \a this (with eps precision).
5575 * This method do not take care of shared edges between cells, so this method can lead to a non conform mesh (\a this). If a conform mesh is required you're expected
5576 * to invoke MEDCouplingUMesh::mergeNodes and MEDCouplingUMesh::conformize2D right after this call.
5577 - * This method works on any 2D geometric types of cell (even static one). If a cell is touched its type becomes dynamic automaticaly. For 2D "repaired" quadratic cells
5578 + * This method works on any 2D geometric types of cell (even static one). If a cell is touched its type becomes dynamic automatically. For 2D "repaired" quadratic cells
5579 * new nodes for center of merged edges is are systematically created and appended at the end of the previously existing nodes.
5581 * If the returned array is empty it means that nothing has changed in \a this (as if it were a const method). If the array is not empty the connectivity of \a this is modified
5582 @@ -1970,8 +1974,8 @@
5583 checkConsistencyLight();
5584 if(getSpaceDimension()!=2 || getMeshDimension()!=2)
5585 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::colinearize2D : This method only works for meshes with spaceDim=2 and meshDim=2 !");
5586 - INTERP_KERNEL::QUADRATIC_PLANAR::_arc_detection_precision=eps;
5587 - INTERP_KERNEL::QUADRATIC_PLANAR::_precision=eps;
5588 + INTERP_KERNEL::QuadraticPlanarPrecision prec(eps);
5589 + INTERP_KERNEL::QuadraticPlanarArcDetectionPrecision arcPrec(eps);
5590 int nbOfCells(getNumberOfCells()),nbOfNodes(getNumberOfNodes());
5591 const int *cptr(_nodal_connec->begin()),*ciptr(_nodal_connec_index->begin());
5592 MCAuto<DataArrayInt> newc(DataArrayInt::New()),newci(DataArrayInt::New()); newci->alloc(nbOfCells+1,1); newc->alloc(0,1); newci->setIJ(0,0,0);
5593 @@ -2084,7 +2088,7 @@
5594 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::ReplaceEdgeInFace: internal error, should never happen!");
5595 int d = distance(startPos, endPos);
5596 if (d == 1 || d == (1-dst)) // don't use modulo, for neg numbers, result is implementation defined ...
5597 - modifiedFace.insert(++startPos, ++insidePoints.begin(), --insidePoints.end()); // insidePoints also contains start and end node. Those dont need to be inserted.
5598 + modifiedFace.insert(++startPos, ++insidePoints.begin(), --insidePoints.end()); // insidePoints also contains start and end node. Those don't need to be inserted.
5600 modifiedFace.insert(++endPos, ++insidePoints.rbegin(), --insidePoints.rend());
5602 @@ -2138,7 +2142,7 @@
5603 MCAuto<MEDCouplingSkyLineArray> connSlaDesc(MEDCouplingSkyLineArray::New(mDesc->getNodalConnectivityIndex(), mDesc->getNodalConnectivity()));
5606 - MCAuto<DataArrayDouble> bboxArr(mDesc->getBoundingBoxForBBTree());
5607 + MCAuto<DataArrayDouble> bboxArr(mDesc->getBoundingBoxForBBTree(eps));
5608 const double *bbox(bboxArr->begin()); getCoords()->begin();
5609 int nDescCell(mDesc->getNumberOfCells());
5610 BBTree<SPACEDIM,int> myTree(bbox,0,0,nDescCell,-eps);
5611 @@ -2162,7 +2166,7 @@
5612 fill(hit.begin(), hit.end(), false);
5613 vector<int> hitPoly; // the final result: which 3D cells have been modified.
5615 - for( vector<pair<double,int>>::const_iterator it = S.begin(); it != S.end(); it++)
5616 + for( vector<pair<double,int> >::const_iterator it = S.begin(); it != S.end(); it++)
5618 int faceIdx = (*it).second;
5619 if (hit[faceIdx]) continue;
5620 @@ -2260,7 +2264,7 @@
5622 if (packsIds[jj] == -1)
5623 // The below should never happen - if a face is used several times, with a different layout of the nodes
5624 - // it means that is is already conform, so it is *not* hit by the algorithm. The algorithm only hits
5625 + // it means that it is already conform, so it is *not* hit by the algorithm. The algorithm only hits
5626 // faces which are actually used only once, by a single cell. This is different for edges below.
5627 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::conformize3D: Could not find face in connectivity! Internal error.");
5629 @@ -2308,7 +2312,7 @@
5630 // mDesc2->writeVTK("/tmp/toto_desc2_confInter.vtu");
5631 const int *revDescIP2(revDescI2->getConstPointer()), *revDescP2(revDesc2->getConstPointer());
5632 const int *cDesc2(mDesc2->getNodalConnectivity()->begin()),*cIDesc2(mDesc2->getNodalConnectivityIndex()->begin());
5633 - MCAuto<DataArrayDouble> bboxArr(mDesc2->getBoundingBoxForBBTree());
5634 + MCAuto<DataArrayDouble> bboxArr(mDesc2->getBoundingBoxForBBTree(eps));
5635 const double *bbox2(bboxArr->begin());
5636 int nDesc2Cell=mDesc2->getNumberOfCells();
5637 BBTree<SPACEDIM,int> myTree2(bbox2,0,0,nDesc2Cell,-eps);
5638 @@ -2318,7 +2322,7 @@
5639 DataArrayDouble * lens = lenF->getArray();
5641 // Sort edges by decreasing length:
5642 - vector<pair<double,int>> S;
5643 + vector<pair<double,int> > S;
5644 for(std::size_t i=0;i < lens->getNumberOfTuples();i++)
5646 pair<double,int> p = make_pair(lens->getIJ(i, 0), i);
5647 @@ -2329,7 +2333,7 @@
5648 vector<bool> hit(nDesc2Cell);
5649 fill(hit.begin(), hit.end(), false);
5651 - for( vector<pair<double,int>>::const_iterator it = S.begin(); it != S.end(); it++)
5652 + for( vector<pair<double,int> >::const_iterator it = S.begin(); it != S.end(); it++)
5654 int eIdx = (*it).second;
5656 @@ -2397,7 +2401,7 @@
5657 mPartCand->getNodalConnectivity()->begin(), mPartCand->getNodalConnectivityIndex()->begin(),
5658 idsGoodLine->begin(), idsGoodLine->end(),
5659 /*out*/insidePoints, hitSegs);
5660 - // Optim: smaller segments completly included in eIdx and not split won't need any further treatment:
5661 + // Optim: smaller segments completely included in eIdx and not split won't need any further treatment:
5662 for (vector<int>::const_iterator its=hitSegs.begin(); its != hitSegs.end(); ++its)
5663 hit[cands2[*its]] = true;
5665 diff -Naur MEDCOUPLING_old/src/MEDCoupling/Test/CMakeLists.txt MEDCOUPLING_new/src/MEDCoupling/Test/CMakeLists.txt
5666 --- MEDCOUPLING_old/src/MEDCoupling/Test/CMakeLists.txt 2018-04-19 17:04:36.723222444 +0200
5667 +++ MEDCOUPLING_new/src/MEDCoupling/Test/CMakeLists.txt 2018-04-19 17:25:18.061803761 +0200
5669 SALOME_GENERATE_TESTS_ENVIRONMENT(tests_env)
5671 ADD_EXECUTABLE(TestMEDCoupling ${TestMEDCoupling_SOURCES})
5672 -TARGET_LINK_LIBRARIES(TestMEDCoupling medcoupling ${CPPUNIT_LIBRARIES} ${PLATFORM_LIBS})
5673 +TARGET_LINK_LIBRARIES(TestMEDCoupling medcouplingcpp ${CPPUNIT_LIBRARIES} ${PLATFORM_LIBS})
5674 ADD_TEST(TestMEDCoupling TestMEDCoupling)
5675 SET_TESTS_PROPERTIES(TestMEDCoupling PROPERTIES ENVIRONMENT "${tests_env}")
5678 SET_TESTS_PROPERTIES(TestMEDCouplingRemapper PROPERTIES ENVIRONMENT "${tests_env}")
5680 ADD_EXECUTABLE(TestMEDCouplingExamples ${TestMEDCouplingExamples_SOURCES})
5681 -TARGET_LINK_LIBRARIES(TestMEDCouplingExamples medcoupling ${CPPUNIT_LIBRARIES} ${PLATFORM_LIBS})
5682 +TARGET_LINK_LIBRARIES(TestMEDCouplingExamples medcouplingcpp ${CPPUNIT_LIBRARIES} ${PLATFORM_LIBS})
5683 ADD_TEST(TestMEDCouplingExamples TestMEDCouplingExamples)
5684 SET_TESTS_PROPERTIES(TestMEDCouplingExamples PROPERTIES ENVIRONMENT "${tests_env}")
5686 diff -Naur MEDCOUPLING_old/src/MEDCoupling/Test/MEDCouplingBasicsTest4.cxx MEDCOUPLING_new/src/MEDCoupling/Test/MEDCouplingBasicsTest4.cxx
5687 --- MEDCOUPLING_old/src/MEDCoupling/Test/MEDCouplingBasicsTest4.cxx 2018-04-19 17:04:36.725222483 +0200
5688 +++ MEDCOUPLING_new/src/MEDCoupling/Test/MEDCouplingBasicsTest4.cxx 2018-04-19 17:25:18.083804196 +0200
5690 m->checkConsistency();//OK because we are in polyhedron connec
5691 m->getNodalConnectivity()->setIJ(36,0,14);
5692 m->checkConsistencyLight();
5693 - CPPUNIT_ASSERT_THROW(m->checkConsistency(),INTERP_KERNEL::Exception);//Throw beacause now cell 5 is a TETRA4 (14) so mimatch of number index and static type.
5694 + CPPUNIT_ASSERT_THROW(m->checkConsistency(),INTERP_KERNEL::Exception);//Throw because now cell 5 is a TETRA4 (14) so mismatch of number index and static type.
5698 diff -Naur MEDCOUPLING_old/src/MEDCoupling/Test/MEDCouplingBasicsTestInterp.cxx MEDCOUPLING_new/src/MEDCoupling/Test/MEDCouplingBasicsTestInterp.cxx
5699 --- MEDCOUPLING_old/src/MEDCoupling/Test/MEDCouplingBasicsTestInterp.cxx 2018-04-19 17:04:36.726222503 +0200
5700 +++ MEDCOUPLING_new/src/MEDCoupling/Test/MEDCouplingBasicsTestInterp.cxx 2018-04-19 17:25:18.077804077 +0200
5701 @@ -1465,7 +1465,7 @@
5702 sourceMesh->allocateCells(0);
5703 sourceMesh->finishInsertingCells();
5704 DataArrayDouble *myCoords=DataArrayDouble::New();
5705 - myCoords->alloc(0,0);
5706 + myCoords->alloc(0,2);
5707 sourceMesh->setCoords(myCoords);
5708 myCoords->decrRef();
5709 MEDCouplingUMesh *targetMesh=MEDCouplingUMesh::New();
5710 diff -Naur MEDCOUPLING_old/src/MEDCoupling/Test/MEDCouplingExamplesTest.cxx MEDCOUPLING_new/src/MEDCoupling/Test/MEDCouplingExamplesTest.cxx
5711 --- MEDCOUPLING_old/src/MEDCoupling/Test/MEDCouplingExamplesTest.cxx 2018-04-19 17:04:36.727222523 +0200
5712 +++ MEDCOUPLING_new/src/MEDCoupling/Test/MEDCouplingExamplesTest.cxx 2018-04-19 17:25:18.066803860 +0200
5713 @@ -2378,7 +2378,7 @@
5714 fieldOnCells->setMesh(mesh);
5715 mesh->decrRef(); // no more need of mesh because mesh has been attached to fieldOnCells
5716 MEDCoupling::DataArrayDouble *array=MEDCoupling::DataArrayDouble::New();
5717 - array->alloc(fieldOnCells->getMesh()->getNumberOfCells(),9);//Implicitely fieldOnCells will be a 9 components field.
5718 + array->alloc(fieldOnCells->getMesh()->getNumberOfCells(),9);//Implicitly fieldOnCells will be a 9 components field.
5719 array->fillWithValue(7.);
5720 fieldOnCells->setArray(array);
5722 @@ -2430,7 +2430,7 @@
5723 fieldOnNodes->setMesh(mesh);
5724 mesh->decrRef(); // no more need of mesh because mesh has been attached to fieldOnNodes
5725 MEDCoupling::DataArrayDouble *array=MEDCoupling::DataArrayDouble::New();
5726 - array->alloc(fieldOnNodes->getMesh()->getNumberOfNodes(),1);//Implicitely fieldOnNodes will be a 1 component field.
5727 + array->alloc(fieldOnNodes->getMesh()->getNumberOfNodes(),1);//Implicitly fieldOnNodes will be a 1 component field.
5728 array->fillWithValue(8.);
5729 fieldOnNodes->setArray(array);
5731 @@ -2457,7 +2457,7 @@
5732 fieldOnCells->setMesh(mesh);
5733 mesh->decrRef(); // no more need of mesh because mesh has been attached to fieldOnCells
5734 MEDCoupling::DataArrayDouble *array=MEDCoupling::DataArrayDouble::New();
5735 - array->alloc(fieldOnCells->getMesh()->getNumberOfCells(),2);//Implicitely fieldOnCells will be a 2 components field.
5736 + array->alloc(fieldOnCells->getMesh()->getNumberOfCells(),2);//Implicitly fieldOnCells will be a 2 components field.
5737 array->fillWithValue(7.);
5738 fieldOnCells->setArray(array);
5740 @@ -2485,7 +2485,7 @@
5741 fieldOnNodes->setMesh(mesh);
5742 mesh->decrRef(); // no more need of mesh because mesh has been attached to fieldOnNodes
5743 MEDCoupling::DataArrayDouble *array=MEDCoupling::DataArrayDouble::New();
5744 - array->alloc(fieldOnNodes->getMesh()->getNumberOfNodes(),3);//Implicitely fieldOnNodes will be a 3 components field.
5745 + array->alloc(fieldOnNodes->getMesh()->getNumberOfNodes(),3);//Implicitly fieldOnNodes will be a 3 components field.
5746 array->fillWithValue(8.);
5747 fieldOnNodes->setArray(array);
5749 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/CMakeLists.txt MEDCOUPLING_new/src/MEDCoupling_Swig/CMakeLists.txt
5750 --- MEDCOUPLING_old/src/MEDCoupling_Swig/CMakeLists.txt 2018-04-19 17:04:36.728222543 +0200
5751 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/CMakeLists.txt 2018-04-19 17:25:17.264788007 +0200
5756 + MEDCouplingRemapperCommon.i
5757 MEDCouplingRefCountObject.i
5758 MEDCouplingMemArray.i
5759 MEDCouplingFieldDiscretization.i
5761 INCLUDE_DIRECTORIES(
5762 ${PYTHON_INCLUDE_DIRS}
5763 ${NUMPY_INCLUDE_DIR}
5764 - ${PTHREAD_INCLUDE_DIR} # pthread dependancy due to python2.7 library
5765 + ${PTHREAD_INCLUDE_DIR} # pthread dependency due to python2.7 library
5766 ${CMAKE_CURRENT_SOURCE_DIR}
5767 ${CMAKE_CURRENT_BINARY_DIR}
5768 ${CMAKE_CURRENT_SOURCE_DIR}/../MEDCoupling
5772 SWIG_ADD_MODULE(MEDCoupling python MEDCoupling.i)
5773 -SWIG_LINK_LIBRARIES(MEDCoupling ${PYTHON_LIBRARIES} ${PLATFORM_LIBS} medcoupling)
5774 +SWIG_LINK_LIBRARIES(MEDCoupling ${PYTHON_LIBRARIES} ${PLATFORM_LIBS} medcouplingcpp)
5775 SWIG_CHECK_GENERATION(MEDCoupling)
5776 SET_SOURCE_FILES_PROPERTIES(MEDCouplingRemapper.i PROPERTIES CPLUSPLUS ON)
5777 IF ("${PYTHON_VERSION_MAJOR}" STREQUAL "3")
5778 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingBasicsTest3.py MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingBasicsTest3.py
5779 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingBasicsTest3.py 2018-04-19 17:04:36.729222563 +0200
5780 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingBasicsTest3.py 2018-04-19 17:25:17.250787731 +0200
5781 @@ -1444,7 +1444,7 @@
5782 m.checkConsistency();#OK because we are in polyhedron connec
5783 m.getNodalConnectivity().setIJ(36,0,14);
5784 m.checkConsistencyLight();
5785 - self.assertRaises(InterpKernelException,m.checkConsistency);#Throw beacause now cell 5 is a TETRA4 (14) so mimatch of number index and static type.
5786 + self.assertRaises(InterpKernelException,m.checkConsistency);#Throw because now cell 5 is a TETRA4 (14) so mismatch of number index and static type.
5789 def testUnPolyze2(self):
5790 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingBasicsTest5.py MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingBasicsTest5.py
5791 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingBasicsTest5.py 2018-04-19 17:04:36.732222623 +0200
5792 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingBasicsTest5.py 2018-04-19 17:25:17.247787671 +0200
5795 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
5798 from MEDCoupling import *
5800 from math import pi,e,sqrt,cos,sin
5801 @@ -1462,7 +1461,7 @@
5802 self.assertEqual(f4.getMesh(),None)
5805 - # test a simple node to cell convertion of a field
5806 + # test a simple node to cell conversion of a field
5807 def testSwig2NodeToCellDiscretization1(self):
5808 f=MEDCouplingFieldDouble(ON_NODES) ; f.setTime(1.1,2,3)
5809 a1=DataArrayDouble(4) ; a1.iota()
5810 @@ -1891,7 +1890,7 @@
5811 gaussCoords=refCoords[:] ; gaussCoords[14]=0.9999999999999 # change z of point #4 0.999... instead of 1. because with shape function it leads to division by 0. !
5812 fGauss.setGaussLocalizationOnType(NORM_PYRA13,refCoords,gaussCoords,weights)
5813 arrOfDisc2=fGauss.getLocalizationOfDiscr()
5814 - self.assertTrue(arrOfDisc2.isEqual(coo,1e-10)) # be less exigent 1e-10 instead of 1e-12 due to shape function sensitivity arount 0.,0.,1. !
5815 + self.assertTrue(arrOfDisc2.isEqual(coo,1e-10)) # be less exigent 1e-10 instead of 1e-12 due to shape function sensitivity around 0.,0.,1. !
5818 def testSwig2Tri7GP1(self):
5819 @@ -2123,7 +2122,7 @@
5822 def testSwig2Colinearize2D3(self):
5823 - """ colinearize was too agressive, potentially producing cells with one edge """
5824 + """ colinearize was too aggressive, potentially producing cells with one edge """
5825 # Flat polygon with 3 edges - nothing should happen (min number of edges for a linear polyg)
5826 coo = DataArrayDouble([0.0,0.0, 2.0,0.0, 1.5,0.0, 1.0,0.0, 0.5,0.0], 5,2)
5827 m = MEDCouplingUMesh("m", 2)
5828 @@ -3902,32 +3901,32 @@
5829 arr2=DataArrayInt([(0,1),(2,3),(4,5),(6,7),(8,9),(10,11),(12,13),(14,15),(16,17),(18,19),(20,21),(22,23)]) ; arr2.setInfoOnComponents(["aa","bbb"])
5830 f2.setArray(arr2) ; f2.setName("f1") ; f2.setTime(2.,3,4)
5832 - self.assertTrue(f1.isEqual(f2,1e-12,0.))
5833 + self.assertTrue(f1.isEqual(f2,1e-12,0))
5835 - self.assertTrue(not f1.isEqual(f2,1e-12,0.))
5836 - self.assertTrue(not f1.isEqualWithoutConsideringStr(f2,1e-12,0.))
5837 + self.assertTrue(not f1.isEqual(f2,1e-12,0))
5838 + self.assertTrue(not f1.isEqualWithoutConsideringStr(f2,1e-12,0))
5840 - self.assertTrue(f1.isEqual(f2,1e-12,0.))
5841 + self.assertTrue(f1.isEqual(f2,1e-12,0))
5844 - self.assertTrue(not f1.isEqual(f2,1e-12,0.))
5845 + self.assertTrue(not f1.isEqual(f2,1e-12,0))
5847 - self.assertTrue(f1.isEqual(f2,1e-12,0.))
5848 + self.assertTrue(f1.isEqual(f2,1e-12,0))
5850 f1.getArray().setInfoOnComponents(["aa","bbbb"])
5851 - self.assertTrue(not f1.isEqual(f2,1e-12,0.))
5852 - self.assertTrue(f1.isEqualWithoutConsideringStr(f2,1e-12,0.))
5853 + self.assertTrue(not f1.isEqual(f2,1e-12,0))
5854 + self.assertTrue(f1.isEqualWithoutConsideringStr(f2,1e-12,0))
5855 f1.getArray().setInfoOnComponents(["aa","bbb"])
5856 - self.assertTrue(f1.isEqual(f2,1e-12,0.))
5857 + self.assertTrue(f1.isEqual(f2,1e-12,0))
5860 - self.assertTrue(f1.isEqual(f3,1e-12,0.))
5861 + self.assertTrue(f1.isEqual(f3,1e-12,0))
5863 for fd,expected in ((ON_NODES,False),(ON_CELLS,True)):
5864 f4=MEDCouplingFieldInt(fd) ; f4.setMesh(m2) ; f4.setTime(2.,3,4)
5865 arr4=DataArrayInt([(0,1),(2,3),(4,5),(6,7),(8,9),(10,11),(12,13),(14,15),(16,17),(18,19),(20,21),(22,23)]) ; arr4.setInfoOnComponents(["aa","bbb"])
5866 f4.setArray(arr4) ; f4.setName("f1")
5867 - self.assertEqual(f1.isEqual(f4,1e-12,0.),expected)
5868 + self.assertEqual(f1.isEqual(f4,1e-12,0),expected)
5872 @@ -4276,6 +4275,35 @@
5873 self.assertEqual(fieldOnCell.getMesh().buildDescendingConnectivity()[0].getNumberOfCells(),2*7+21)
5876 + def testVoronoi3D_8(self):
5877 + """More aggressive 3D test. Bug EDF 15094"""
5878 + mesh = MEDCouplingUMesh("myMeshForAnthony",3)
5879 + coords = [2.20449946892035, 0.0015302058397972198, -0.014025000000000001, 2.20449522028465, 0.00459061457029268, -0.0109750000232271, 2.20449946892035, 0.0015302058397972198, -0.0125000000116135, 2.20577243296484, 0.00153108944037966, -0.0137555135576553, 2.20517315768831, 0.0045920262990614006, -0.010764118475206199, 2.2054749202977, 0.0015308829283677198, -0.012259816016430801, 2.20449787568164, 0.00306041094231961, -0.0125000000116135, 2.20449787568164, 0.00306041094231961, -0.011737500017420301, 2.20449946892035, 0.0015302058397972198, -0.0132625000058068, 2.20513595094259, 0.0015306476400884401, -0.0138902567788277, 2.20483418898648, 0.0045913204346770395, -0.0108695592492167, 2.20498719460902, 0.00153054438408247, -0.0123799080140222, 2.20547332635401, 0.0030617651191343705, -0.012259816016430801, 2.20532457012796, 0.00306155860717217, -0.0115119672458185, 2.20562367663127, 0.0015309861843736902, -0.013007664787043, 2.20582504233773, 0.0045933837758852306, -0.010139577890770399, 2.20642582267143, 0.004594634833691141, -0.009125379014333041, 2.20612543250458, 0.00459400930478819, -0.00963247845255172, 2.2069524110381, 0.004595731395029229, -0.00776049693994639, 2.20668911685476, 0.004595183114360191, -0.00844293797713971, 2.20832419990944, 0.0076643330146060895, -0.0108392857142857, 2.20832419990944, 0.0076643330146060895, -0.008671428571428571, 2.20704504094678, 0.00765989349423635, -0.008671428571428571, 2.20704504094678, 0.00765989349423635, -0.0108392857142857, 2.2062381754171, 0.00459424407928538, -0.00868052596233734, 2.20832419990944, 0.0076643330146060895, -0.00975535714285714, 2.20768462042811, 0.00766211325442122, -0.008671428571428571, 2.20704504094678, 0.00765989349423635, -0.00975535714285714, 2.20768462042811, 0.00766211325442122, -0.0108392857142857, 2.20737554490036, 0.00612882358882901, -0.009982332364309381, 2.20763883863969, 0.00612955462931014, -0.00821596275568748, 2.2066421405633703, 0.00612678727660696, -0.00867597726688296, 2.20643557437203, 0.006126213741329251, -0.0104894318025281, 2.2065952932276, 0.00459498773715731, -0.00822051145114186, 2.20603160887741, 0.00459381392758531, -0.00941005192655387]
5880 + da = DataArrayDouble.New(coords,35,3)
5881 + mesh.setCoords(da)
5882 + mesh.allocateCells()
5883 + mesh.insertNextCell(NORM_PENTA15, [0, 2, 1, 3, 5, 4, 8, 7, 6, 14, 13, 12, 9, 11, 10])
5884 + mesh.insertNextCell(NORM_HEXA20, [20, 23, 22, 21, 16, 15, 24, 18, 28, 27, 26, 25, 17, 34, 33, 19, 29, 32, 31, 30])
5886 + f=MEDCouplingFieldDouble(ON_GAUSS_PT)
5888 + f.setName("myFieldForAnthony")
5889 + f.setGaussLocalizationOnCells([0],[-1, 1, 0, -1, 0, 0, -1, 0, 1, 1, 1, 0, 1, 0, 0, 1, 0, 1, -1, 0.5, 0, -1, 0, 0.5, -1, 0.5, 0.5, 1, 0.5, 0, 1, 0, 0.5, 1, 0.5, 0.5, 0, 1, 0, 0, 0, 0, 0, 0, 1],[-0.774597, 0.333333, 0.333333, -0.774597, 0.470142, 0.470142, -0.774597, 0.0597159, 0.470142, -0.774597, 0.470142, 0.0597159, -0.774597, 0.101287, 0.101287, -0.774597, 0.797427, 0.101287, -0.774597, 0.101287, 0.797427, 0, 0.333333, 0.333333, 0, 0.470142, 0.470142, 0, 0.0597159, 0.470142, 0, 0.470142, 0.0597159, 0, 0.101287, 0.101287, 0, 0.797427, 0.101287, 0, 0.101287, 0.797427, 0.774597, 0.333333, 0.333333, 0.774597, 0.470142, 0.470142, 0.774597, 0.0597159, 0.470142, 0.774597, 0.470142, 0.0597159, 0.774597, 0.101287, 0.101287, 0.774597, 0.797427, 0.101287, 0.774597, 0.101287, 0.797427],[0.0625, 0.0367762, 0.0367762, 0.0367762, 0.0349831, 0.0349831, 0.0349831, 0.1, 0.0588418, 0.0588418, 0.0588418, 0.055973, 0.055973, 0.055973, 0.0625, 0.0367762, 0.0367762, 0.0367762, 0.0349831, 0.0349831, 0.0349831])
5890 + f.setGaussLocalizationOnCells([1],[-1, -1, -1, -1, 1, -1, 1, 1, -1, 1, -1, -1, -1, -1, 1, -1, 1, 1, 1, 1, 1, 1, -1, 1, -1, 0, -1, 0, 1, -1, 1, 0, -1, 0, -1, -1, -1, 0, 1, 0, 1, 1, 1, 0, 1, 0, -1, 1, -1, -1, 0, -1, 1, 0, 1, 1, 0, 1, -1, 0],[-0.774597, -0.774597, -0.774597, -0.774597, -0.774597, 0, -0.774597, -0.774597, 0.774597, -0.774597, 0, -0.774597, -0.774597, 0, 0, -0.774597, 0, 0.774597, -0.774597, 0.774597, -0.774597, -0.774597, 0.774597, 0, -0.774597, 0.774597, 0.774597, 0, -0.774597, -0.774597, 0, -0.774597, 0, 0, -0.774597, 0.774597, 0, 0, -0.774597, 0, 0, 0, 0, 0, 0.774597, 0, 0.774597, -0.774597, 0, 0.774597, 0, 0, 0.774597, 0.774597, 0.774597, -0.774597, -0.774597, 0.774597, -0.774597, 0, 0.774597, -0.774597, 0.774597, 0.774597, 0, -0.774597, 0.774597, 0, 0, 0.774597, 0, 0.774597, 0.774597, 0.774597, -0.774597, 0.774597, 0.774597, 0, 0.774597, 0.774597, 0.774597],[0.171468, 0.274348, 0.171468, 0.274348, 0.438957, 0.274348, 0.171468, 0.274348, 0.171468, 0.274348, 0.438957, 0.274348, 0.438957, 0.702332, 0.438957, 0.274348, 0.438957, 0.274348, 0.171468, 0.274348, 0.171468, 0.274348, 0.438957, 0.274348, 0.171468, 0.274348, 0.171468])
5891 + arr = DataArrayDouble(48, 3)
5892 + arr[:, 0] = list(range(48))
5893 + arr[:, 1] = 100 + arr[:, 0]
5894 + arr[:, 2] = 200 + arr[:, 0]
5896 + fieldOnCell=f.voronoize(1e-12) # hot point
5897 + fieldOnCell.checkConsistencyLight()
5898 + self.assertEqual(fieldOnCell.getMesh().getNumberOfCells(),48)
5899 + self.assertEqual(fieldOnCell.getMesh().getNumberOfNodes(),127)
5900 + meaRef=f.getMesh().getMeasureField(True).getArray(); meaRef.rearrange(2); meaRef2 = meaRef.sumPerTuple()
5901 + mea=fieldOnCell.getMesh().getMeasureField(True).getArray(); mea.rearrange(48); mea2 = mea.sumPerTuple()
5902 + self.assertTrue(mea2.isEqual(meaRef2,1e-9))
5905 def testVoronoi3DSurf_1(self):
5906 tmp=MEDCouplingCMesh("mesh")
5907 arr=DataArrayDouble(5) ; arr.iota()
5908 @@ -4445,7 +4473,7 @@
5909 self.assertTrue(f3.getMesh().getMeasureField(False).getArray().isEqual(ref,1e-12))
5910 self.assertTrue(f3.getArray().isEqual(DataArrayDouble([0,1,2,3]),1e-12))
5914 def testVoronoi3D_4(self):
5915 """Idem testVoronoi3D_3 except that here quadratic cells are considered"""
5916 coo=DataArrayDouble([0.0,1.0,0.0,0.0,0.0,0.0,0.0,0.0,1.0,1.0,0.0,0.0,0.0,0.5,0.0,0.0,0.0,0.5,0.0,0.5,0.5,0.5,0.5,0.0,0.5,0.0,0.0,0.5,0.0,0.5],10,3)
5917 @@ -4592,8 +4620,16 @@
5918 def testUMeshComputeEnlargedNeighborsOfNodes(self):
5919 m=MEDCouplingCMesh() ; arr=DataArrayDouble(4) ; arr.iota() ; m.setCoords(arr,arr) ; m=m.buildUnstructured()
5920 a,b=m.computeEnlargedNeighborsOfNodes()
5921 - self.assertTrue(a.isEqual(DataArrayInt([1,4,5,0,2,4,5,6,1,3,5,6,7,2,6,7,0,1,5,8,9,0,1,2,4,6,8,9,10,1,2,3,5,7,9,10,11,2,3,6,10,11,4,5,9,12,13,4,5,6,8,10,12,13,14,5,6,7,9,11,13,14,15,6,7,10,14,15,8,9,13,8,9,10,12,14,9,10,11,13,15,10,11,14])))
5922 - self.assertTrue(b.isEqual(DataArrayInt([0,3,8,13,16,21,29,37,42,47,55,63,68,71,76,81,84])))
5923 + aExp=DataArrayInt([1,4,5,0,2,4,5,6,1,3,5,6,7,2,6,7,0,1,5,8,9,0,1,2,4,6,8,9,10,1,2,3,5,7,9,10,11,2,3,6,10,11,4,5,9,12,13,4,5,6,8,10,12,13,14,5,6,7,9,11,13,14,15,6,7,10,14,15,8,9,13,8,9,10,12,14,9,10,11,13,15,10,11,14])
5924 + bExp=DataArrayInt([0,3,8,13,16,21,29,37,42,47,55,63,68,71,76,81,84])
5925 + self.assertTrue(a.isEqual(aExp))
5926 + self.assertTrue(b.isEqual(bExp))
5928 + c,d=m2.computeEnlargedNeighborsOfNodes()
5929 + cExp=DataArrayInt([2,5,6,1,3,5,6,7,2,6,7,5,8,9,1,2,4,6,8,9,1,2,3,5,7,2,3,6,4,5,9,4,5,8])
5930 + dExp=DataArrayInt([0,0,3,8,11,14,20,25,28,31,34,34,34,34,34,34,34])
5931 + self.assertTrue(c.isEqual(cExp))
5932 + self.assertTrue(d.isEqual(dExp))
5935 def testDAIfindIdsExt1(self):
5936 @@ -4738,7 +4774,22 @@
5937 m.insertNextCell(NORM_POLYGON,[0,1,2,3,4,5])
5938 self.assertTrue(m.computePlaneEquationOf3DFaces().isEqual(DataArrayDouble([0,1,0,-1],1,4),1e-12))
5942 + def testSimplifyPolyhedra(self):
5943 + mesh = MEDCouplingUMesh('mesh', 3)
5944 + coo = DataArrayDouble([(-0.01225,-0.0212176,0.02),(-0.00634107,-0.0236652,0.02),(1.50019e-18,-0.0245,0.02),(0.00634107,-0.0236652,0.02),(0.01225,-0.0212176,0.02),(-0.0153864,-0.02665,0),(-0.00714085,-0.02665,0),(1.63184e-18,-0.02665,0),(0.00714085,-0.02665,0),(0.0153864,-0.02665,0),(-0.00714085,-0.02665,0.0101475),(1.63184e-18,-0.02665,0.013145),(0.00714085,-0.02665,0.0101475),(-0.013,-0.0225167,0.02),(-0.0067293,-0.0251141,0.02),(1.59204e-18,-0.026,0.02),(0.0067293,-0.0251141,0.02),(0.013,-0.0225167,0.02),(-0.0161658,-0.028,0),(-0.00750258,-0.028,0),(1.71451e-18,-0.028,0),(0.00750258,-0.028,0),(0.0161658,-0.028,0),(-0.00750258,-0.028,0.0105625),(1.71451e-18,-0.028,0.0136825),(0.00750258,-0.028,0.0105625)])
5945 + mesh.setCoords(coo)
5946 + c = DataArrayInt([31, 13, 14, 15, 16, 17, 4, 3, 2, 1, 0, -1, 18, 5, 6, 7, 8, 9, 22, 21, 20, 19, -1, 19, 23, 18, -1, 23, 14, 13, 18, -1, 20, 24, 23, 19, -1, 24, 15, 14, 23, -1, 21, 25, 24, 20, -1, 25, 16, 15, 24, -1, 22, 25, 21, -1, 22, 17, 16, 25, -1, 9, 4, 17, 22, -1, 8, 12, 9, -1, 12, 3, 4, 9, -1, 7, 11, 12, 8, -1, 11, 2, 3, 12, -1, 6, 10, 11, 7, -1, 10, 1, 2, 11, -1, 5, 10, 6, -1, 5, 0, 1, 10, -1, 18, 13, 0, 5])
5947 + cI = DataArrayInt([0, 108])
5948 + mesh.setConnectivity(c, cI)
5949 + mesh.simplifyPolyhedra(1.0e-8)
5950 + c, cI = mesh.getNodalConnectivity(), mesh.getNodalConnectivityIndex()
5951 + tgt_c = DataArrayInt([31, 23, 18, 19, 20, 21, 22, 25, 24, -1, 12, 9, 8, 7, 6, 5, 10, 11, -1, 13, 14, 15, 16, 17, 4, 3, 2, 1, 0, -1, 18, 5, 6, 7, 8, 9, 22, 21, 20, 19, -1, 23, 14, 13, 18, -1, 24, 15, 14, 23, -1, 25, 16, 15, 24, -1, 22, 17, 16, 25, -1, 9, 4, 17, 22, -1, 12, 3, 4, 9, -1, 11, 2, 3, 12, -1, 10, 1, 2, 11, -1, 5, 0, 1, 10, -1, 18, 13, 0, 5])
5952 + tgt_cI = DataArrayInt([0, 90])
5953 + self.assertEqual(c.getValues(), tgt_c.getValues())
5954 + self.assertEqual(cI.getValues(), tgt_cI.getValues())
5959 if __name__ == '__main__':
5960 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingBasicsTest6.py MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingBasicsTest6.py
5961 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingBasicsTest6.py 2018-04-19 17:04:36.732222623 +0200
5962 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingBasicsTest6.py 2018-04-19 17:25:17.252787770 +0200
5963 @@ -106,6 +106,112 @@
5968 + def testPenta18_1(self):
5969 + arr=DataArrayDouble([
5970 + (0.,1.,1.),(0.,0.,1.),(1.,0.,1.),
5971 + (0.,1.,0.),(0.,0.,0.),(1.,0.,0.),
5972 + (0.,0.5,1.),(0.5,0.,1.),(0.5,0.5,1.),
5973 + (0.,0.5,0.),(0.5,0.,0.),(0.5,0.5,0.),
5974 + (0.,1.,0.5),(0.,0.,0.5),(1.,0.,0.5),
5975 + (0.,0.5,0.5),(0.5,0.,0.5),(0.5,0.5,0.5)])
5976 + m=MEDCouplingUMesh("mesh",3)
5978 + m.allocateCells(1)
5979 + m.insertNextCell(NORM_PENTA18,list(range(18)))
5980 + m.checkConsistencyLight()
5981 + self.assertTrue(m.getMeasureField(True).getArray().isEqual(DataArrayDouble([0.5]),1e-12))
5983 + f=MEDCouplingFieldDouble(ON_NODES)
5985 + f.setName("FieldOnPenta18")
5986 + f.setArray(DataArrayDouble(list(range(18))))
5987 + f.checkConsistencyLight()
5989 + m2,d,di,rd,rdi=m.buildDescendingConnectivity()
5990 + self.assertTrue(m2.getNodalConnectivity().isEqual(DataArrayInt([6,0,1,2,6,7,8,6,3,5,4,11,10,9,9,0,3,4,1,12,9,13,6,15,9,1,4,5,2,13,10,14,7,16,9,2,4,5,0,14,11,12,8,17])))
5991 + self.assertTrue(m2.getNodalConnectivityIndex().isEqual(DataArrayInt([0,7,14,24,34,44])))
5992 + self.assertTrue(d.isEqual(DataArrayInt([0,1,2,3,4])))
5993 + self.assertTrue(di.isEqual(DataArrayInt([0,5])))
5994 + self.assertTrue(rd.isEqual(DataArrayInt([0,0,0,0,0])))
5995 + self.assertTrue(rdi.isEqual(DataArrayInt([0,1,2,3,4,5])))
5997 + f2=MEDCouplingFieldDouble(ON_NODES)
5999 + f2.setName("FieldOnPenta18Sub")
6000 + f2.setArray(DataArrayDouble(list(range(18))))
6001 + f2.checkConsistencyLight()
6004 + def testSKLAReplaceDeletePacks(self):
6005 + index=DataArrayInt([0,3,5,6,6])
6006 + value=DataArrayInt([1,2,3, 2,3, 3 ])
6007 + sla=MEDCouplingSkyLineArray(index,value)
6008 + idx=DataArrayInt([0,3])
6009 + packs=[DataArrayInt([4,5]),DataArrayInt([6,7,8])]
6010 + sla.replaceSimplePacks(idx,packs)
6011 + self.assertTrue(sla.getIndexArray().isEqual(DataArrayInt([0,2,4,5,8])))
6012 + self.assertTrue(sla.getValuesArray().isEqual(DataArrayInt([4,5, 2,3, 3, 6,7,8])))
6013 + sla.deleteSimplePacks(idx)
6014 + self.assertTrue(sla.getIndexArray().isEqual(DataArrayInt([0,2,3])))
6015 + self.assertTrue(sla.getValuesArray().isEqual(DataArrayInt([2,3, 3])))
6016 + sla.deleteSimplePack(1)
6017 + self.assertTrue(sla.getIndexArray().isEqual(DataArrayInt([0,2])))
6018 + self.assertTrue(sla.getValuesArray().isEqual(DataArrayInt([2,3])))
6021 + def testDADAsArcOfCircle(self):
6022 + d=DataArrayDouble([3.06915124862645,2.1464466094067824,2.85355345827285,2.3620444674400574,2.637955532559882,2.1464467447661937],3,2)
6023 + center,radius,ang=d.asArcOfCircle()
6024 + self.assertTrue((d-center).magnitude().isUniform(radius,1e-10))
6025 + self.assertAlmostEqual(ang,-4.712389294301196,12)
6028 + def testDAMaxAbsValue(self):
6029 + d=DataArrayDouble([-2,3,1.2,-2.9])
6030 + a,b=d.getMaxAbsValue()
6031 + self.assertAlmostEqual(a,3.,13)
6032 + self.assertEqual(b,1)
6033 + a,b=(-d).getMaxAbsValue()
6034 + self.assertAlmostEqual(a,-3.,13)
6035 + self.assertEqual(b,1)
6036 + self.assertAlmostEqual((-d).getMaxAbsValueInArray(),-3.,13)
6039 + def testDAIFindIdForEach1(self):
6040 + a1=DataArrayInt([17,27,2,10,-4,3,12,27,16])
6041 + b1=DataArrayInt([3,16,-4,27,17])
6042 + ret=a1.findIdForEach(b1)
6043 + self.assertTrue(ret.isEqual(DataArrayInt([5,8,4,7,0])))
6044 + self.assertTrue(a1[ret].isEqual(b1))
6045 + b2=DataArrayInt([3,16,22,27,17])
6046 + self.assertRaises(InterpKernelException,a1.findIdForEach,b2) # 22 not in a1 !
6048 + self.assertRaises(InterpKernelException,a1.findIdForEach,b1) # a1 is not single component
6051 + @unittest.skipUnless(IsCXX11Compiled(),"requires C++11")
6052 + def testAttractSeg3MidPtsAroundNodes1(self):
6053 + """ Test of MEDCouplingUMesh.attractSeg3MidPtsAroundNodes methods """
6054 + ptsExpToBeModified=DataArrayInt([95,96,97,98,101,103,104,106,108,110])
6058 + coo=DataArrayDouble([10,0,0,10,10,0,10,0,3.+b,10,0,6.+a,10,10,3.+b,10,10,6.+a,10,3.+b,0,10,6.+a,0,3.+b,0,0,6.+a,0,0,3.+b,10,0,6.+a,10,0,10,3.+b,6.+a,10,6.+a,6.+a,10,3.+b,3.+b,10,6.+a,3.+b,3.+b,0,3.+b,3.+b,0,6.+a,6.+a,0,3.+b,6.+a,0,6.+a,6.+a,10,3.+b,6.+a,10,6.+a,3.+b,10,3.+b,3.+b,10,6.+a,3.+b,3.+b,0,6.+a,3.+b,0,3.+b,6.+a,0,6.+a,6.+a,0,3.+b,3.+b,6.+a,6.+a,3.+b,6.+a,3.+b,6.+a,6.+a,6.+a,6.+a,6.+a,3.+b,3.+b,3.+b,6.+a,3.+b,3.+b,3.+b,6.+a,3.+b,6.+a,6.+a,3.+b,10,0,1.+a,10,0,5.,10,10,1.+a,10,10,5.,10,1.+a,0,10,5.,0,10,8.+b,0,5.,0,0,8.+b,0,0,5.,10,0,8.+b,10,0,10,1.+a,6.+a,10,5.,6.+a,10,8.+b,6.+a,10,1.+a,3.+b,10,3.+b,5.,10,5.,3.+b,10,6.+a,5.,10,8.+b,3.+b,10,3.+b,1.+a,10,6.+a,1.+a,3.+b,0,1.+a,3.+b,0,5.,6.+a,0,1.+a,5.,0,3.+b,6.+a,0,5.,5.,0,6.+a,8.+b,0,3.+b,8.+b,0,6.+a,6.+a,10,1.+a,8.+b,10,3.+b,6.+a,10,5.,8.+b,10,6.+a,3.+b,10,1.+a,5.,10,3.+b,3.+b,10,5.,5.,10,6.+a,3.+b,1.+a,0,5.,3.+b,0,6.+a,1.+a,0,8.+b,3.+b,0,3.+b,5.,0,5.,6.+a,0,6.+a,5.,0,8.+b,6.+a,0,3.+b,8.+b,0,6.+a,8.+b,0,3.+b,1.+a,6.+a,6.+a,1.+a,6.+a,5.,3.+b,6.+a,8.+b,3.+b,6.+a,3.+b,5.,6.+a,6.+a,5.,6.+a,5.,6.+a,6.+a,8.+b,6.+a,6.+a,3.+b,8.+b,6.+a,6.+a,8.+b,6.+a,3.+b,3.+b,5,3.+b,1.+a,3.+b,6.+a,3.+b,5.,6.+a,1.+a,3.+b,5.,3.+b,3.+b,8.+b,3.+b,3.+b,3.+b,6.+a,5.,3.+b,5.,3.+b,6.+a,6.+a,5.,6.+a,5.,3.+b,5.,6.+a,3.+b,8.+b,6.+a,3.+b,3.+b,8.+b,3.+b,6.+a,8.+b,3.+b,3.+b,3.+b,1.+a,6.+a,3.+b,1.+a,3.+b,6.+a,1.+a,6.+a,6.+a,1.+a],111,3)
6059 + conn=DataArrayInt([30,17,28,32,16,19,29,33,18,83,93,94,58,84,95,96,61,62,85,97,60,30,19,29,33,18,3,12,14,2,84,95,96,61,47,51,50,37,64,86,98,63,30,28,30,34,32,29,31,35,33,87,99,100,93,88,101,102,95,85,89,103,97,30,29,31,35,33,12,13,15,14,88,101,102,95,48,53,52,51,86,90,104,98,30,30,23,22,34,31,21,20,35,91,71,105,99,92,67,106,101,89,72,70,103,30,31,21,20,35,13,5,4,15,92,67,106,101,49,39,54,53,90,68,66,104,30,16,32,24,8,18,33,25,9,94,107,73,57,96,108,75,59,60,97,74,43,30,18,33,25,9,2,14,6,0,96,108,75,59,50,55,40,36,63,98,76,44,30,32,34,26,24,33,35,27,25,100,109,77,107,102,110,79,108,97,103,78,74,30,33,35,27,25,14,15,7,6,102,110,79,108,52,56,41,55,98,104,80,76,30,34,22,10,26,35,20,11,27,105,69,81,109,106,65,82,110,103,70,45,78,30,35,20,11,27,15,4,1,7,106,65,82,110,54,38,42,56,104,66,46,80])
6060 + connI=DataArrayInt([0,21,42,63,84,105,126,147,168,189,210,231,252])
6061 + m=MEDCouplingUMesh("mesh",3)
6062 + m.setConnectivity(conn,connI,True)
6063 + m.setCoords(coo.deepCopy())# deep copy coo because next line is going to modify it, if it works normaly
6064 + m.attractSeg3MidPtsAroundNodes(0.1,DataArrayInt([33,35])) # ze call is here !
6065 + self.assertTrue(not m.getCoords().isEqual(coo,eps)) # some points have had their position changed...
6066 + ptsExpNotToBeModified=ptsExpToBeModified.buildComplement(len(coo))
6067 + self.assertTrue(m.getCoords()[ptsExpNotToBeModified].isEqual(coo[ptsExpNotToBeModified],eps))
6068 + self.assertTrue((m.getCoords()[ptsExpToBeModified]-coo[ptsExpToBeModified]).magnitude().isUniform(4./3.,1e-12))
6069 + ptsPosExp=DataArrayDouble([6.+a,3.+b,3.+a,6.+a,3.,3.+b,6.+b,3.+b,3.+b,7.,3.+b,3.+b,6.+a,6.+a,3.+a,6.+b,6.+a,3.+b,7.,6.+a,3.+b,6.+a,7.,3.+b,6.+a,3.+b,3.,6.+a,6.+a,3.],10,3)
6070 + self.assertTrue(m.getCoords()[ptsExpToBeModified].isEqual(ptsPosExp,1e-12))
6075 if __name__ == '__main__':
6076 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingCommon.i MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingCommon.i
6077 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingCommon.i 2018-04-19 17:04:36.733222643 +0200
6078 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingCommon.i 2018-04-19 17:25:17.277788264 +0200
6080 -// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
6081 +// Copyright (C) 2017 CEA/DEN, EDF R&D
6083 // This library is free software; you can redistribute it and/or
6084 // modify it under the terms of the GNU Lesser General Public
6087 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
6089 -// Author : Anthony Geay (CEA/DEN)
6091 -%module MEDCoupling
6092 +// Author : Anthony Geay (EDF R&D)
6094 #ifdef WITH_DOCSTRINGS
6095 %include MEDCoupling_doc.i
6096 @@ -147,6 +145,18 @@
6097 //$$$$$$$$$$$$$$$$$$
6099 ////////////////////
6100 +%typemap(out) MEDCoupling::MEDCouplingField*
6102 + $result=convertField($1,$owner);
6105 +%typemap(out) MEDCouplingField*
6107 + $result=convertField($1,$owner);
6109 +//$$$$$$$$$$$$$$$$$$
6111 +////////////////////
6112 %typemap(out) MEDCoupling::MEDCouplingMultiFields*
6114 $result=convertMultiFields($1,$owner);
6116 %newobject MEDCoupling::MEDCouplingFieldDouble::MergeFields;
6117 %newobject MEDCoupling::MEDCouplingFieldDouble::MeldFields;
6118 %newobject MEDCoupling::MEDCouplingFieldDouble::convertToIntField;
6119 +%newobject MEDCoupling::MEDCouplingFieldDouble::convertToFloatField;
6120 %newobject MEDCoupling::MEDCouplingFieldDouble::doublyContractedProduct;
6121 %newobject MEDCoupling::MEDCouplingFieldDouble::determinant;
6122 %newobject MEDCoupling::MEDCouplingFieldDouble::eigenValues;
6124 %feature("unref") MEDCouplingFieldDiscretizationGaussNE "$this->decrRef();"
6125 %feature("unref") MEDCouplingFieldDiscretizationKriging "$this->decrRef();"
6126 %feature("unref") MEDCouplingFieldDouble "$this->decrRef();"
6127 +%feature("unref") MEDCouplingFieldFloat "$this->decrRef();"
6128 +%feature("unref") MEDCouplingFieldInt "$this->decrRef();"
6129 %feature("unref") MEDCouplingMultiFields "$this->decrRef();"
6130 %feature("unref") MEDCouplingFieldTemplate "$this->decrRef();"
6131 %feature("unref") MEDCouplingMultiFields "$this->decrRef();"
6132 @@ -951,12 +964,12 @@
6133 return self->checkTypeConsistencyAndContig(code,idsPerType);
6136 - PyObject *splitProfilePerType(const DataArrayInt *profile) const throw(INTERP_KERNEL::Exception)
6137 + PyObject *splitProfilePerType(const DataArrayInt *profile, bool smartPflKiller=true) const throw(INTERP_KERNEL::Exception)
6139 std::vector<int> code;
6140 std::vector<DataArrayInt *> idsInPflPerType;
6141 std::vector<DataArrayInt *> idsPerType;
6142 - self->splitProfilePerType(profile,code,idsInPflPerType,idsPerType);
6143 + self->splitProfilePerType(profile,code,idsInPflPerType,idsPerType,smartPflKiller);
6144 PyObject *ret=PyTuple_New(3);
6146 if(code.size()%3!=0)
6147 @@ -1070,14 +1083,6 @@
6148 self->resizeForUnserialization(tinyInfo,a1,a2,littleStrings);
6151 - PyObject *__getnewargs__() throw(INTERP_KERNEL::Exception)
6152 - {// put an empty dict in input to say to __new__ to call __init__...
6153 - PyObject *ret(PyTuple_New(1));
6154 - PyObject *ret0(PyDict_New());
6155 - PyTuple_SetItem(ret,0,ret0);
6159 PyObject *__getstate__() const throw(INTERP_KERNEL::Exception)
6161 PyObject *ret0(MEDCoupling_MEDCouplingMesh_getTinySerializationInformation(self));
6162 @@ -1221,6 +1226,9 @@
6164 void deletePack(const int i, const int j) throw(INTERP_KERNEL::Exception);
6166 + void deleteSimplePack(const int i) throw(INTERP_KERNEL::Exception);
6167 + void deleteSimplePacks(const DataArrayInt* idx) throw(INTERP_KERNEL::Exception);
6171 MEDCouplingSkyLineArray() throw(INTERP_KERNEL::Exception)
6172 @@ -1304,6 +1312,13 @@
6173 self->replaceSimplePack(idx, vpack.data(), vpack.data()+vpack.size());
6176 + void replaceSimplePacks(const DataArrayInt* idx, PyObject *listePacks) throw(INTERP_KERNEL::Exception)
6178 + std::vector<const DataArrayInt*> packs;
6179 + convertFromPyObjVectorOfObj<const MEDCoupling::DataArrayInt*>(listePacks,SWIGTYPE_p_MEDCoupling__DataArrayInt,"DataArrayInt",packs);
6180 + self->replaceSimplePacks(idx, packs);
6183 void replacePack(const int superIdx, const int idx, PyObject *pack) throw(INTERP_KERNEL::Exception)
6185 std::vector<int> vpack;
6186 @@ -1497,8 +1512,8 @@
6187 DataArrayDoubleTuple *aa,*aa2;
6188 std::vector<double> bb,bb2;
6190 - const char msg[]="Python wrap of MEDCouplingPointSet::findNodesOnLine : 1st paramater for point.";
6191 - const char msg2[]="Python wrap of MEDCouplingPointSet::findNodesOnLine : 2nd paramater for vector.";
6192 + const char msg[]="Python wrap of MEDCouplingPointSet::findNodesOnLine : 1st parameter for point.";
6193 + const char msg2[]="Python wrap of MEDCouplingPointSet::findNodesOnLine : 2nd parameter for vector.";
6194 const double *p=convertObjToPossibleCpp5_Safe(pt,sw,val,a,aa,bb,msg,1,spaceDim,true);
6195 const double *v=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
6196 std::vector<int> nodes;
6197 @@ -1516,8 +1531,8 @@
6198 DataArrayDoubleTuple *aa,*aa2;
6199 std::vector<double> bb,bb2;
6201 - const char msg[]="Python wrap of MEDCouplingPointSet::findNodesOnPlane : 1st paramater for point.";
6202 - const char msg2[]="Python wrap of MEDCouplingPointSet::findNodesOnPlane : 2nd paramater for vector.";
6203 + const char msg[]="Python wrap of MEDCouplingPointSet::findNodesOnPlane : 1st parameter for point.";
6204 + const char msg2[]="Python wrap of MEDCouplingPointSet::findNodesOnPlane : 2nd parameter for vector.";
6205 const double *p=convertObjToPossibleCpp5_Safe(pt,sw,val,a,aa,bb,msg,1,spaceDim,true);
6206 const double *v=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
6207 std::vector<int> nodes;
6208 @@ -1994,12 +2009,6 @@
6209 return MEDCouplingUMesh::New(meshName,meshDim);
6213 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
6215 - return NewMethWrapCallInitOnlyIfEmptyDictInInput(cls,args,"MEDCouplingUMesh");
6218 std::string __str__() const throw(INTERP_KERNEL::Exception)
6220 return self->simpleRepr();
6221 @@ -2380,6 +2389,14 @@
6225 + void attractSeg3MidPtsAroundNodes(double ratio, PyObject *nodeIds) throw(INTERP_KERNEL::Exception)
6227 + int szArr,sw,iTypppArr;
6228 + std::vector<int> stdvecTyyppArr;
6229 + const int *nodeIdsPtr(convertIntStarLikePyObjToCppIntStar(nodeIds,sw,szArr,iTypppArr,stdvecTyyppArr));
6230 + self->attractSeg3MidPtsAroundNodes(ratio,nodeIdsPtr,nodeIdsPtr+szArr);
6233 PyObject *getLevArrPerCellTypes(PyObject *li) const throw(INTERP_KERNEL::Exception)
6236 @@ -2924,8 +2941,8 @@
6237 DataArrayDoubleTuple *aa,*aa2;
6238 std::vector<double> bb,bb2;
6240 - const char msg[]="Python wrap of MEDCouplingUMesh::buildSlice3D : 1st paramater for origin.";
6241 - const char msg2[]="Python wrap of MEDCouplingUMesh::buildSlice3D : 2nd paramater for vector.";
6242 + const char msg[]="Python wrap of MEDCouplingUMesh::buildSlice3D : 1st parameter for origin.";
6243 + const char msg2[]="Python wrap of MEDCouplingUMesh::buildSlice3D : 2nd parameter for vector.";
6244 const double *orig=convertObjToPossibleCpp5_Safe(origin,sw,val,a,aa,bb,msg,1,spaceDim,true);
6245 const double *vect=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
6247 @@ -2947,8 +2964,8 @@
6248 DataArrayDoubleTuple *aa,*aa2;
6249 std::vector<double> bb,bb2;
6251 - const char msg[]="Python wrap of MEDCouplingUMesh::buildSlice3DSurf : 1st paramater for origin.";
6252 - const char msg2[]="Python wrap of MEDCouplingUMesh::buildSlice3DSurf : 2nd paramater for vector.";
6253 + const char msg[]="Python wrap of MEDCouplingUMesh::buildSlice3DSurf : 1st parameter for origin.";
6254 + const char msg2[]="Python wrap of MEDCouplingUMesh::buildSlice3DSurf : 2nd parameter for vector.";
6255 const double *orig=convertObjToPossibleCpp5_Safe(origin,sw,val,a,aa,bb,msg,1,spaceDim,true);
6256 const double *vect=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
6258 @@ -2967,8 +2984,8 @@
6259 DataArrayDoubleTuple *aa,*aa2;
6260 std::vector<double> bb,bb2;
6262 - const char msg[]="Python wrap of MEDCouplingUMesh::clipSingle3DCellByPlane : 1st paramater for origin.";
6263 - const char msg2[]="Python wrap of MEDCouplingUMesh::clipSingle3DCellByPlane : 2nd paramater for vector.";
6264 + const char msg[]="Python wrap of MEDCouplingUMesh::clipSingle3DCellByPlane : 1st parameter for origin.";
6265 + const char msg2[]="Python wrap of MEDCouplingUMesh::clipSingle3DCellByPlane : 2nd parameter for vector.";
6266 const double *orig=convertObjToPossibleCpp5_Safe(origin,sw,val,a,aa,bb,msg,1,3,true);
6267 const double *vect=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,3,true);
6268 MCAuto<MEDCouplingUMesh> ret(self->clipSingle3DCellByPlane(orig,vect,eps));
6269 @@ -2985,8 +3002,8 @@
6270 DataArrayDoubleTuple *aa,*aa2;
6271 std::vector<double> bb,bb2;
6273 - const char msg[]="Python wrap of MEDCouplingUMesh::getCellIdsCrossingPlane : 1st paramater for origin.";
6274 - const char msg2[]="Python wrap of MEDCouplingUMesh::getCellIdsCrossingPlane : 2nd paramater for vector.";
6275 + const char msg[]="Python wrap of MEDCouplingUMesh::getCellIdsCrossingPlane : 1st parameter for origin.";
6276 + const char msg2[]="Python wrap of MEDCouplingUMesh::getCellIdsCrossingPlane : 2nd parameter for vector.";
6277 const double *orig=convertObjToPossibleCpp5_Safe(origin,sw,val,a,aa,bb,msg,1,spaceDim,true);
6278 const double *vect=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
6279 return self->getCellIdsCrossingPlane(orig,vect,eps);
6280 @@ -3058,11 +3075,6 @@
6282 return MEDCouplingMappedExtrudedMesh::New();
6285 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
6287 - return NewMethWrapCallInitOnlyIfEmptyDictInInput(cls,args,"MEDCouplingMappedExtrudedMesh");
6290 std::string __str__() const throw(INTERP_KERNEL::Exception)
6292 @@ -3168,11 +3180,6 @@
6293 return MEDCoupling1SGTUMesh::New(m);
6296 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
6298 - return NewMethWrapCallInitOnlyIfEmptyDictInInput(cls,args,"MEDCoupling1SGTUMesh");
6301 std::string __str__() const throw(INTERP_KERNEL::Exception)
6303 return self->simpleRepr();
6304 @@ -3240,11 +3247,6 @@
6305 return MEDCoupling1DGTUMesh::New(m);
6308 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
6310 - return NewMethWrapCallInitOnlyIfEmptyDictInInput(cls,args,"MEDCoupling1DGTUMesh");
6313 std::string __str__() const throw(INTERP_KERNEL::Exception)
6315 return self->simpleRepr();
6316 @@ -3589,11 +3591,6 @@
6318 return MEDCouplingCMesh::New(meshName);
6321 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
6323 - return NewMethWrapCallInitOnlyIfEmptyDictInInput(cls,args,"MEDCouplingCMesh");
6325 std::string __str__() const throw(INTERP_KERNEL::Exception)
6327 return self->simpleRepr();
6328 @@ -3633,10 +3630,6 @@
6330 return MEDCouplingCurveLinearMesh::New(meshName);
6332 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
6334 - return NewMethWrapCallInitOnlyIfEmptyDictInInput(cls,args,"MEDCouplingCurveLinearMesh");
6336 std::string __str__() const throw(INTERP_KERNEL::Exception)
6338 return self->simpleRepr();
6339 @@ -3714,11 +3707,6 @@
6340 return MEDCoupling_MEDCouplingIMesh_New__SWIG_1(meshName,spaceDim,nodeStrct,origin,dxyz);
6343 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
6345 - return NewMethWrapCallInitOnlyIfEmptyDictInInput(cls,args,"MEDCouplingIMesh");
6348 void setNodeStruct(PyObject *nodeStrct) throw(INTERP_KERNEL::Exception)
6351 @@ -3810,8 +3798,6 @@
6353 virtual void checkConsistencyLight() const throw(INTERP_KERNEL::Exception);
6354 virtual bool areCompatibleForMerge(const MEDCouplingField *other) const throw(INTERP_KERNEL::Exception);
6355 - virtual bool isEqual(const MEDCouplingField *other, double meshPrec, double valsPrec) const throw(INTERP_KERNEL::Exception);
6356 - virtual bool isEqualWithoutConsideringStr(const MEDCouplingField *other, double meshPrec, double valsPrec) const throw(INTERP_KERNEL::Exception);
6357 virtual void copyTinyStringsFrom(const MEDCouplingField *other) throw(INTERP_KERNEL::Exception);
6358 void setMesh(const MEDCoupling::MEDCouplingMesh *mesh) throw(INTERP_KERNEL::Exception);
6359 void setName(const char *name) throw(INTERP_KERNEL::Exception);
6360 @@ -3857,18 +3843,6 @@
6361 return convertIntArrToPyList3(ret);
6364 - PyObject *isEqualIfNotWhy(const MEDCouplingField *other, double meshPrec, double valsPrec) const throw(INTERP_KERNEL::Exception)
6367 - bool ret0=self->isEqualIfNotWhy(other,meshPrec,valsPrec,ret1);
6368 - PyObject *ret=PyTuple_New(2);
6369 - PyObject *ret0Py=ret0?Py_True:Py_False;
6370 - Py_XINCREF(ret0Py);
6371 - PyTuple_SetItem(ret,0,ret0Py);
6372 - PyTuple_SetItem(ret,1,PyString_FromString(ret1.c_str()));
6376 PyObject *buildSubMeshData(PyObject *li) const throw(INTERP_KERNEL::Exception)
6378 DataArrayInt *ret1=0;
6379 @@ -3971,6 +3945,8 @@
6380 static MEDCouplingFieldTemplate *New(TypeOfField type);
6381 std::string simpleRepr() const throw(INTERP_KERNEL::Exception);
6382 std::string advancedRepr() const throw(INTERP_KERNEL::Exception);
6383 + bool isEqual(const MEDCouplingFieldTemplate *other, double meshPrec) const throw(INTERP_KERNEL::Exception);
6384 + bool isEqualWithoutConsideringStr(const MEDCouplingFieldTemplate *other, double meshPrec) const throw(INTERP_KERNEL::Exception);
6387 MEDCouplingFieldTemplate(const MEDCouplingFieldDouble& f) throw(INTERP_KERNEL::Exception)
6388 @@ -4004,16 +3980,45 @@
6389 self->reprQuickOverview(oss);
6393 + PyObject *isEqualIfNotWhy(const MEDCouplingFieldTemplate *other, double meshPrec) const throw(INTERP_KERNEL::Exception)
6396 + bool ret0=self->isEqualIfNotWhy(other,meshPrec,ret1);
6397 + PyObject *ret=PyTuple_New(2);
6398 + PyObject *ret0Py=ret0?Py_True:Py_False;
6399 + Py_XINCREF(ret0Py);
6400 + PyTuple_SetItem(ret,0,ret0Py);
6401 + PyTuple_SetItem(ret,1,PyString_FromString(ret1.c_str()));
6408 + class MEDCouplingFieldT : public MEDCoupling::MEDCouplingField
6411 + TypeOfTimeDiscretization getTimeDiscretization() const throw(INTERP_KERNEL::Exception);
6413 + MEDCouplingFieldT();
6414 + ~MEDCouplingFieldT();
6417 + %template(MEDCouplingFieldTdouble) MEDCoupling::MEDCouplingFieldT<double>;
6418 + %template(MEDCouplingFieldTfloat) MEDCoupling::MEDCouplingFieldT<float>;
6419 + %template(MEDCouplingFieldTint) MEDCoupling::MEDCouplingFieldT<int>;
6421 class MEDCouplingFieldInt;
6422 + class MEDCouplingFieldFloat;
6424 - class MEDCouplingFieldDouble : public MEDCoupling::MEDCouplingField
6425 + class MEDCouplingFieldDouble : public MEDCouplingFieldT<double>
6428 static MEDCouplingFieldDouble *New(TypeOfField type, TypeOfTimeDiscretization td=ONE_TIME);
6429 static MEDCouplingFieldDouble *New(const MEDCouplingFieldTemplate& ft, TypeOfTimeDiscretization td=ONE_TIME);
6430 + bool isEqual(const MEDCouplingFieldDouble *other, double meshPrec, double valsPrec) const throw(INTERP_KERNEL::Exception);
6431 + bool isEqualWithoutConsideringStr(const MEDCouplingFieldDouble *other, double meshPrec, double valsPrec) const throw(INTERP_KERNEL::Exception);
6432 void setTimeUnit(const std::string& unit);
6433 std::string getTimeUnit() const;
6434 void synchronizeTimeWithSupport() throw(INTERP_KERNEL::Exception);
6435 @@ -4023,13 +4028,13 @@
6436 std::string advancedRepr() const throw(INTERP_KERNEL::Exception);
6437 std::string writeVTK(const std::string& fileName, bool isBinary=true) const throw(INTERP_KERNEL::Exception);
6438 MEDCouplingFieldInt *convertToIntField() const throw(INTERP_KERNEL::Exception);
6439 + MEDCouplingFieldFloat *convertToFloatField() const throw(INTERP_KERNEL::Exception);
6440 MEDCouplingFieldDouble *clone(bool recDeepCpy) const;
6441 MEDCouplingFieldDouble *cloneWithMesh(bool recDeepCpy) const;
6442 MEDCouplingFieldDouble *deepCopy() const;
6443 MEDCouplingFieldDouble *buildNewTimeReprFromThis(TypeOfTimeDiscretization td, bool deepCopy) const throw(INTERP_KERNEL::Exception);
6444 MEDCouplingFieldDouble *nodeToCellDiscretization() const throw(INTERP_KERNEL::Exception);
6445 MEDCouplingFieldDouble *cellToNodeDiscretization() const throw(INTERP_KERNEL::Exception);
6446 - TypeOfTimeDiscretization getTimeDiscretization() const throw(INTERP_KERNEL::Exception);
6447 double getIJ(int tupleId, int compoId) const throw(INTERP_KERNEL::Exception);
6448 double getIJK(int cellId, int nodeIdInCell, int compoId) const throw(INTERP_KERNEL::Exception);
6449 void synchronizeTimeWithMesh() throw(INTERP_KERNEL::Exception);
6450 @@ -4130,6 +4135,18 @@
6451 self->reprQuickOverview(oss);
6455 + PyObject *isEqualIfNotWhy(const MEDCouplingFieldDouble *other, double meshPrec, double valsPrec) const throw(INTERP_KERNEL::Exception)
6458 + bool ret0=self->isEqualIfNotWhy(other,meshPrec,valsPrec,ret1);
6459 + PyObject *ret=PyTuple_New(2);
6460 + PyObject *ret0Py=ret0?Py_True:Py_False;
6461 + Py_XINCREF(ret0Py);
6462 + PyTuple_SetItem(ret,0,ret0Py);
6463 + PyTuple_SetItem(ret,1,PyString_FromString(ret1.c_str()));
6467 MEDCouplingFieldDouble *voronoize(double eps) const throw(INTERP_KERNEL::Exception)
6469 @@ -4426,8 +4443,8 @@
6470 std::vector<double> bb,bb2;
6473 - const char msg[]="Python wrap of MEDCouplingFieldDouble::extractSlice3D : 1st paramater for origin.";
6474 - const char msg2[]="Python wrap of MEDCouplingFieldDouble::extractSlice3D : 2nd paramater for vector.";
6475 + const char msg[]="Python wrap of MEDCouplingFieldDouble::extractSlice3D : 1st parameter for origin.";
6476 + const char msg2[]="Python wrap of MEDCouplingFieldDouble::extractSlice3D : 2nd parameter for vector.";
6477 const double *orig=convertObjToPossibleCpp5_Safe(origin,sw,val,a,aa,bb,msg,1,spaceDim,true);
6478 const double *vect=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
6480 @@ -5028,16 +5045,6 @@
6481 return field_serialize<double>(self);
6484 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
6486 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInputGeneral<SinglePyObjExpectToBeAListOfSz2>(cls,args,"MEDCouplingFieldDouble");
6489 - PyObject *__getnewargs__() throw(INTERP_KERNEL::Exception)
6490 - {// put an empty dict in input to say to __new__ to call __init__...
6491 - return field__getnewargs__<MEDCouplingFieldDouble>(self);
6494 PyObject *__getstate__() const throw(INTERP_KERNEL::Exception)
6496 return field__getstate__<MEDCouplingFieldDouble>(self,MEDCoupling_MEDCouplingFieldDouble_getTinySerializationInformation,MEDCoupling_MEDCouplingFieldDouble_serialize);
6497 @@ -5207,11 +5214,13 @@
6501 - class MEDCouplingFieldInt : public MEDCouplingField
6502 + class MEDCouplingFieldInt : public MEDCouplingFieldT<int>
6505 static MEDCouplingFieldInt *New(TypeOfField type, TypeOfTimeDiscretization td=ONE_TIME);
6506 static MEDCouplingFieldInt *New(const MEDCouplingFieldTemplate& ft, TypeOfTimeDiscretization td=ONE_TIME);
6507 + bool isEqual(const MEDCouplingFieldInt *other, double meshPrec, int valsPrec) const throw(INTERP_KERNEL::Exception);
6508 + bool isEqualWithoutConsideringStr(const MEDCouplingFieldInt *other, double meshPrec, int valsPrec) const throw(INTERP_KERNEL::Exception);
6509 void setTimeUnit(const std::string& unit) throw(INTERP_KERNEL::Exception);
6510 std::string getTimeUnit() const throw(INTERP_KERNEL::Exception);
6511 void setTime(double val, int iteration, int order) throw(INTERP_KERNEL::Exception);
6512 @@ -5232,6 +5241,18 @@
6513 return MEDCouplingFieldInt::New(ft,td);
6516 + PyObject *isEqualIfNotWhy(const MEDCouplingFieldInt *other, double meshPrec, int valsPrec) const throw(INTERP_KERNEL::Exception)
6519 + bool ret0=self->isEqualIfNotWhy(other,meshPrec,valsPrec,ret1);
6520 + PyObject *ret=PyTuple_New(2);
6521 + PyObject *ret0Py=ret0?Py_True:Py_False;
6522 + Py_XINCREF(ret0Py);
6523 + PyTuple_SetItem(ret,0,ret0Py);
6524 + PyTuple_SetItem(ret,1,PyString_FromString(ret1.c_str()));
6528 std::string __str__() const throw(INTERP_KERNEL::Exception)
6530 return self->simpleRepr();
6531 @@ -5283,16 +5304,6 @@
6532 return field_serialize<int>(self);
6535 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
6537 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInputGeneral<SinglePyObjExpectToBeAListOfSz2>(cls,args,"MEDCouplingFieldInt");
6540 - PyObject *__getnewargs__() throw(INTERP_KERNEL::Exception)
6541 - {// put an empty dict in input to say to __new__ to call __init__...
6542 - return field__getnewargs__<MEDCouplingFieldInt>(self);
6545 PyObject *__getstate__() const throw(INTERP_KERNEL::Exception)
6547 return field__getstate__<MEDCouplingFieldInt>(self,MEDCoupling_MEDCouplingFieldInt_getTinySerializationInformation,MEDCoupling_MEDCouplingFieldInt_serialize);
6548 @@ -5305,11 +5316,13 @@
6552 - class MEDCouplingFieldFloat : public MEDCouplingField
6553 + class MEDCouplingFieldFloat : public MEDCouplingFieldT<float>
6556 static MEDCouplingFieldFloat *New(TypeOfField type, TypeOfTimeDiscretization td=ONE_TIME);
6557 static MEDCouplingFieldFloat *New(const MEDCouplingFieldTemplate& ft, TypeOfTimeDiscretization td=ONE_TIME);
6558 + bool isEqual(const MEDCouplingFieldFloat *other, double meshPrec, float valsPrec) const throw(INTERP_KERNEL::Exception);
6559 + bool isEqualWithoutConsideringStr(const MEDCouplingFieldFloat *other, double meshPrec, float valsPrec) const throw(INTERP_KERNEL::Exception);
6560 void setTimeUnit(const std::string& unit) throw(INTERP_KERNEL::Exception);
6561 std::string getTimeUnit() const throw(INTERP_KERNEL::Exception);
6562 void setTime(double val, int iteration, int order) throw(INTERP_KERNEL::Exception);
6563 @@ -5330,6 +5343,18 @@
6564 return MEDCouplingFieldFloat::New(ft,td);
6567 + PyObject *isEqualIfNotWhy(const MEDCouplingFieldFloat *other, double meshPrec, float valsPrec) const throw(INTERP_KERNEL::Exception)
6570 + bool ret0=self->isEqualIfNotWhy(other,meshPrec,valsPrec,ret1);
6571 + PyObject *ret=PyTuple_New(2);
6572 + PyObject *ret0Py=ret0?Py_True:Py_False;
6573 + Py_XINCREF(ret0Py);
6574 + PyTuple_SetItem(ret,0,ret0Py);
6575 + PyTuple_SetItem(ret,1,PyString_FromString(ret1.c_str()));
6579 std::string __str__() const throw(INTERP_KERNEL::Exception)
6581 return self->simpleRepr();
6582 @@ -5380,16 +5405,6 @@
6584 return field_serialize<float>(self);
6587 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
6589 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInputGeneral<SinglePyObjExpectToBeAListOfSz2>(cls,args,"MEDCouplingFieldFloat");
6592 - PyObject *__getnewargs__() throw(INTERP_KERNEL::Exception)
6593 - {// put an empty dict in input to say to __new__ to call __init__...
6594 - return field__getnewargs__<MEDCouplingFieldFloat>(self);
6597 PyObject *__getstate__() const throw(INTERP_KERNEL::Exception)
6599 @@ -6000,6 +6015,35 @@
6603 +def MEDCouplingUMeshReduce(self):
6604 + return MEDCouplingStdReduceFunct,(MEDCouplingUMesh,((),(self.__getstate__()),))
6605 +def MEDCouplingCMeshReduce(self):
6606 + return MEDCouplingStdReduceFunct,(MEDCouplingCMesh,((),(self.__getstate__()),))
6607 +def MEDCouplingIMeshReduce(self):
6608 + return MEDCouplingStdReduceFunct,(MEDCouplingIMesh,((),(self.__getstate__()),))
6609 +def MEDCouplingMappedExtrudedMeshReduce(self):
6610 + return MEDCouplingStdReduceFunct,(MEDCouplingMappedExtrudedMesh,((),(self.__getstate__()),))
6611 +def MEDCouplingCurveLinearMeshReduce(self):
6612 + return MEDCouplingStdReduceFunct,(MEDCouplingCurveLinearMesh,((),(self.__getstate__()),))
6613 +def MEDCoupling1SGTUMeshReduce(self):
6614 + return MEDCouplingStdReduceFunct,(MEDCoupling1SGTUMesh,((),(self.__getstate__()),))
6615 +def MEDCoupling1DGTUMeshReduce(self):
6616 + return MEDCouplingStdReduceFunct,(MEDCoupling1DGTUMesh,((),(self.__getstate__()),))
6617 +def MEDCouplingFieldDoubleReduce(self):
6618 + self.checkConsistencyLight()
6619 + d=(self.getTypeOfField(),self.getTimeDiscretization())
6620 + return MEDCouplingStdReduceFunct,(MEDCouplingFieldDouble,(d,(self.__getstate__()),))
6621 +def MEDCouplingFieldIntReduce(self):
6622 + self.checkConsistencyLight()
6623 + d=(self.getTypeOfField(),self.getTimeDiscretization())
6624 + return MEDCouplingStdReduceFunct,(MEDCouplingFieldInt,(d,(self.__getstate__()),))
6625 +def MEDCouplingFieldFloatReduce(self):
6626 + self.checkConsistencyLight()
6627 + d=(self.getTypeOfField(),self.getTimeDiscretization())
6628 + return MEDCouplingStdReduceFunct,(MEDCouplingFieldFloat,(d,(self.__getstate__()),))
6633 __filename=os.environ.get('PYTHONSTARTUP')
6634 if __filename and os.path.isfile(__filename):
6635 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingDataArrayTraits.hxx MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingDataArrayTraits.hxx
6636 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingDataArrayTraits.hxx 2018-04-19 17:04:36.733222643 +0200
6637 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingDataArrayTraits.hxx 2018-04-19 17:25:17.286788442 +0200
6640 // specific DataArray deallocator callback. This deallocator is used both in the constructor of DataArray and in the toNumPyArr
6641 // method. This dellocator uses weakref to determine if the linked numArr is still alive or not. If alive the ownership is given to it.
6642 -// if no more alive the "standart" DataArray deallocator is called.
6643 +// if no more alive the "standard" DataArray deallocator is called.
6644 void numarrdeal(void *pt, void *wron)
6646 void **wronc=(void **)wron;
6647 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingDataArrayTypemaps.i MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingDataArrayTypemaps.i
6648 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingDataArrayTypemaps.i 2018-04-19 17:04:36.733222643 +0200
6649 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingDataArrayTypemaps.i 2018-04-19 17:25:17.255787829 +0200
6651 -// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
6652 +// Copyright (C) 2007-2017 CEA/DEN, EDF R&D
6654 // This library is free software; you can redistribute it and/or
6655 // modify it under the terms of the GNU Lesser General Public
6660 - * This method is an extention of PySlice_GetIndices but less
6661 + * This method is an extension of PySlice_GetIndices but less
6662 * open than PySlice_GetIndicesEx that accepts too many situations.
6664 void GetIndicesOfSlice(PyObject *slice, Py_ssize_t length, Py_ssize_t *start, Py_ssize_t *stop, Py_ssize_t *step, const char *msgInCaseOfFailure)
6665 @@ -236,27 +236,27 @@
6668 * Don't allow infinite chains of views, always set the base
6669 - * to the first owner of the data.
6670 - * That is, either the first object which isn't an array,
6671 + * to the first owner of the data.
6672 + * That is, either the first object which isn't an array,
6673 * or the first object which owns its own data.
6676 while (PyArray_Check(obj) && (PyObject *)arr != obj) {
6677 PyArrayObject *obj_arr = (PyArrayObject *)obj;
6682 /* If this array owns its own data, stop collapsing */
6683 - if (PyArray_CHKFLAGS(obj_arr, MED_NUMPY_OWNDATA )) {
6684 + if (PyArray_CHKFLAGS(obj_arr, MED_NUMPY_OWNDATA )) {
6689 tmp = PyArray_BASE(obj_arr);
6690 /* If there's no base, stop collapsing */
6694 - /* Stop the collapse new base when the would not be of the same
6695 + /* Stop the collapse new base when the would not be of the same
6696 * type (i.e. different subclass).
6698 if (Py_TYPE(tmp) != Py_TYPE(arr)) {
6700 MEDCoupling::MemArray<T>& mem=self->accessToMemArray();
6703 - std::ostringstream oss; oss << MCDataStr << "::toNumPyArray : number of components of this is 0 ! Should be > 0 !";
6704 + std::ostringstream oss; oss << MCDataStr << "::toNumPyArray : number of components of this is 0 ! Should be > 0 !";
6705 throw INTERP_KERNEL::Exception(oss.str().c_str());
6707 int nbDims=nbComp==1?1:2;
6712 - oss << "PyWrap convertPyObjectToStr : expect a sting like py object !";
6713 + oss << "PyWrap convertPyObjectToStr : expect a string like py object !";
6714 throw INTERP_KERNEL::Exception(oss.str());
6717 @@ -1394,7 +1394,7 @@
6719 status=SWIG_ConvertPtr(value,&argp,SWIGTYPE_p_MEDCoupling__DataArrayIntTuple,0|0);
6720 if(SWIG_IsOK(status))
6723 daIntTuple=reinterpret_cast< MEDCoupling::DataArrayIntTuple * >(argp);
6726 @@ -1474,7 +1474,7 @@
6728 status=SWIG_ConvertPtr(value,&argp,SWIGTYPE_p_MEDCoupling__DataArrayIntTuple,0|0);
6729 if(SWIG_IsOK(status))
6732 MEDCoupling::DataArrayIntTuple *daIntTuple=reinterpret_cast< MEDCoupling::DataArrayIntTuple * >(argp);
6733 sw=4; sz=daIntTuple->getNumberOfCompo();
6734 return daIntTuple->getConstPointer();
6735 @@ -1690,14 +1690,14 @@
6737 int status=SWIG_ConvertPtr(value,&argp,ti_da,0|0);
6738 if(SWIG_IsOK(status))
6741 d=reinterpret_cast< typename MEDCoupling::Traits<T>::ArrayType * >(argp);
6745 status=SWIG_ConvertPtr(value,&argp,ti_tuple,0|0);
6746 if(SWIG_IsOK(status))
6749 e=reinterpret_cast< typename MEDCoupling::Traits<T>::ArrayTuple * >(argp);
6752 @@ -1719,6 +1719,19 @@
6756 + * if value int -> cpp val sw=1
6757 + * if value double -> cpp val sw=1
6758 + * if value DataArrayDouble -> cpp DataArrayDouble sw=2
6759 + * if value DataArrayDoubleTuple -> cpp DataArrayDoubleTuple sw=3
6760 + * if value list[int,double] -> cpp std::vector<double> sw=4
6761 + * if value tuple[int,double] -> cpp std::vector<double> sw=4
6763 +static void convertFloatStarLikePyObjToCpp_2(PyObject *value, int& sw, float& val, MEDCoupling::DataArrayFloat *&d, MEDCoupling::DataArrayFloatTuple *&e, std::vector<float>& f)
6765 + convertFPStarLikePyObjToCpp_2<float>(value,sw,val,d,e,f,SWIGTYPE_p_MEDCoupling__DataArrayFloat,SWIGTYPE_p_MEDCoupling__DataArrayFloatTuple);
6769 * if python int -> cpp int sw=1
6770 * if python list[int] -> cpp vector<int> sw=2
6771 * if python tuple[int] -> cpp vector<int> sw=2
6772 @@ -2068,7 +2081,7 @@
6774 if(nbTuplesExpected*nbCompExpected!=1)
6776 - std::ostringstream oss; oss << msg << "dimension expected to be " << nbTuplesExpected*nbCompExpected << " , and your data in input has dimension one (single PyFloat) !";
6777 + std::ostringstream oss; oss << msg << "dimension expected to be " << nbTuplesExpected*nbCompExpected << " , and your data in input has dimension one (single PyFloat) !";
6778 throw INTERP_KERNEL::Exception(oss.str().c_str());
6781 @@ -2079,7 +2092,7 @@
6783 if(nbTuplesExpected*nbCompExpected!=1)
6785 - std::ostringstream oss; oss << msg << "dimension expected to be " << nbTuplesExpected*nbCompExpected << " , and your data in input has dimension one (single PyInt) !";
6786 + std::ostringstream oss; oss << msg << "dimension expected to be " << nbTuplesExpected*nbCompExpected << " , and your data in input has dimension one (single PyInt) !";
6787 throw INTERP_KERNEL::Exception(oss.str().c_str());
6790 @@ -2099,7 +2112,7 @@
6792 int status=SWIG_ConvertPtr(value,&argp,SWIGTYPE_p_MEDCoupling__DataArrayDouble,0|0);
6793 if(SWIG_IsOK(status))
6796 d=reinterpret_cast< MEDCoupling::DataArrayDouble * >(argp);
6799 @@ -2135,7 +2148,7 @@
6801 status=SWIG_ConvertPtr(value,&argp,SWIGTYPE_p_MEDCoupling__DataArrayDoubleTuple,0|0);
6802 if(SWIG_IsOK(status))
6805 e=reinterpret_cast< MEDCoupling::DataArrayDoubleTuple * >(argp);
6807 if(e->getNumberOfCompo()==nbCompExpected)
6808 @@ -2144,7 +2157,7 @@
6809 return e->getConstPointer();
6812 - std::ostringstream oss; oss << msg << "nb of tuples expected to be " << nbTuplesExpected << " , and input DataArrayDoubleTuple has always one tuple by contruction !";
6813 + std::ostringstream oss; oss << msg << "nb of tuples expected to be " << nbTuplesExpected << " , and input DataArrayDoubleTuple has always one tuple by construction !";
6814 throw INTERP_KERNEL::Exception(oss.str().c_str());
6817 @@ -2175,7 +2188,7 @@
6819 if(nbCompExpected!=1)
6821 - std::ostringstream oss; oss << msg << "dimension expected to be " << nbCompExpected << " , and your data in input has dimension one (single PyFloat) !";
6822 + std::ostringstream oss; oss << msg << "dimension expected to be " << nbCompExpected << " , and your data in input has dimension one (single PyFloat) !";
6823 throw INTERP_KERNEL::Exception(oss.str().c_str());
6826 @@ -2187,7 +2200,7 @@
6828 if(nbCompExpected!=1)
6830 - std::ostringstream oss; oss << msg << "dimension expected to be " << nbCompExpected << " , and your data in input has dimension one (single PyInt) !";
6831 + std::ostringstream oss; oss << msg << "dimension expected to be " << nbCompExpected << " , and your data in input has dimension one (single PyInt) !";
6832 throw INTERP_KERNEL::Exception(oss.str().c_str());
6835 @@ -2213,7 +2226,7 @@
6837 if(size%nbCompExpected!=0)
6839 - std::ostringstream oss; oss << msg << "dimension expected to be a multiple of " << nbCompExpected << " , and your data in input has dimension " << f.size() << " !";
6840 + std::ostringstream oss; oss << msg << "dimension expected to be a multiple of " << nbCompExpected << " , and your data in input has dimension " << f.size() << " !";
6841 throw INTERP_KERNEL::Exception(oss.str().c_str());
6843 nbTuples=size/nbCompExpected;
6844 @@ -2239,7 +2252,7 @@
6846 if(size%nbCompExpected!=0)
6848 - std::ostringstream oss; oss << msg << "dimension expected to be a multiple of " << nbCompExpected << " , and your data in input has dimension " << f.size() << " !";
6849 + std::ostringstream oss; oss << msg << "dimension expected to be a multiple of " << nbCompExpected << " , and your data in input has dimension " << f.size() << " !";
6850 throw INTERP_KERNEL::Exception(oss.str().c_str());
6852 nbTuples=size/nbCompExpected;
6853 @@ -2248,7 +2261,7 @@
6855 int status=SWIG_ConvertPtr(value,&argp,SWIGTYPE_p_MEDCoupling__DataArrayDouble,0|0);
6856 if(SWIG_IsOK(status))
6859 d=reinterpret_cast< MEDCoupling::DataArrayDouble * >(argp);
6862 @@ -2277,7 +2290,7 @@
6864 status=SWIG_ConvertPtr(value,&argp,SWIGTYPE_p_MEDCoupling__DataArrayDoubleTuple,0|0);
6865 if(SWIG_IsOK(status))
6868 e=reinterpret_cast< MEDCoupling::DataArrayDoubleTuple * >(argp);
6871 @@ -2380,7 +2393,7 @@
6873 int status=SWIG_ConvertPtr(value,&argp,SWIGTYPE_p_MEDCoupling__DataArrayDouble,0|0);
6874 if(SWIG_IsOK(status))
6877 d=reinterpret_cast< MEDCoupling::DataArrayDouble * >(argp);
6880 @@ -2409,7 +2422,7 @@
6882 status=SWIG_ConvertPtr(value,&argp,SWIGTYPE_p_MEDCoupling__DataArrayDoubleTuple,0|0);
6883 if(SWIG_IsOK(status))
6886 e=reinterpret_cast< MEDCoupling::DataArrayDoubleTuple * >(argp);
6889 @@ -2456,114 +2469,6 @@
6890 return reinterpret_cast< MEDCoupling::DataArray * >(aBasePtrVS);
6893 -static PyObject *NewMethWrapCallInitOnlyIfEmptyDictInInput(PyObject *cls, PyObject *args, const char *clsName)
6895 - if(!PyTuple_Check(args))
6897 - std::ostringstream oss; oss << clsName << ".__new__ : the args in input is expected to be a tuple !";
6898 - throw INTERP_KERNEL::Exception(oss.str().c_str());
6900 - PyObject *builtinsd(PyEval_GetBuiltins());//borrowed
6901 - PyObject *obj(PyDict_GetItemString(builtinsd,"object"));//borrowed
6902 - PyObject *selfMeth(PyObject_GetAttrString(obj,"__new__"));
6904 - PyObject *tmp0(PyTuple_New(1));
6905 - PyTuple_SetItem(tmp0,0,cls); Py_XINCREF(cls);
6906 - PyObject *instance(PyObject_CallObject(selfMeth,tmp0));
6908 - Py_DECREF(selfMeth);
6909 - if(PyTuple_Size(args)==2 && PyDict_Check(PyTuple_GetItem(args,1)) && PyDict_Size(PyTuple_GetItem(args,1))==0 )
6910 - {// NOT general case. only true if in unpickeling context ! call __init__. Because for all other cases, __init__ is called right after __new__ !
6911 - PyObject *initMeth(PyObject_GetAttrString(instance,"__init__"));
6912 - PyObject *tmp3(PyTuple_New(0));
6913 - PyObject *tmp2(PyObject_CallObject(initMeth,tmp3));
6916 - Py_DECREF(initMeth);
6922 -static PyObject *NewMethWrapCallInitOnlyIfDictWithSingleEltInInputGeneral(PyObject *cls, PyObject *args, const char *clsName)
6924 - if(!PyTuple_Check(args))
6926 - std::ostringstream oss; oss << clsName << ".__new__ : the args in input is expected to be a tuple !";
6927 - throw INTERP_KERNEL::Exception(oss.str().c_str());
6929 - PyObject *builtinsd(PyEval_GetBuiltins());//borrowed
6930 - PyObject *obj(PyDict_GetItemString(builtinsd,"object"));//borrowed
6931 - PyObject *selfMeth(PyObject_GetAttrString(obj,"__new__"));
6933 - PyObject *tmp0(PyTuple_New(1));
6934 - PyTuple_SetItem(tmp0,0,cls); Py_XINCREF(cls);
6935 - PyObject *instance(PyObject_CallObject(selfMeth,tmp0));
6937 - Py_DECREF(selfMeth);
6938 - if(PyTuple_Size(args)==2 && PyDict_Check(PyTuple_GetItem(args,1)) && PyDict_Size(PyTuple_GetItem(args,1))==1 )
6939 - {// NOT general case. only true if in unpickeling context ! call __init__. Because for all other cases, __init__ is called right after __new__ !
6940 - PyObject *initMeth(PyObject_GetAttrString(instance,"__init__"));
6941 - PyObject *zeNumpyRepr(0);
6943 - PyObject *tmp1(PyInt_FromLong(0));
6944 - zeNumpyRepr=PyDict_GetItem(PyTuple_GetItem(args,1),tmp1);//borrowed
6949 - std::ostringstream oss; oss << clsName << ".__new__ : the args in input is expected to be a tuple !";
6950 - throw INTERP_KERNEL::Exception(oss.str().c_str());
6954 - PyObject *tmp3(0);
6957 - tmp3=tt(zeNumpyRepr);
6959 - catch(INTERP_KERNEL::Exception& e)
6961 - std::ostringstream oss; oss << clsName << ".__new__ : Invalid type in input " << " : " << e.what();
6962 - throw INTERP_KERNEL::Exception(oss.str());
6965 - PyObject *tmp2(PyObject_CallObject(initMeth,tmp3));
6970 - Py_DECREF(initMeth);
6975 -struct SinglePyObjToBePutInATuple
6977 - PyObject *operator()(PyObject *zeNumpyRepr)
6979 - PyObject *tmp3(PyTuple_New(1));
6980 - PyTuple_SetItem(tmp3,0,zeNumpyRepr); Py_XINCREF(zeNumpyRepr);
6985 -struct SinglePyObjExpectToBeAListOfSz2
6987 - PyObject *operator()(PyObject *uniqueElt)
6989 - if(!PyTuple_Check(uniqueElt) || PyTuple_Size(uniqueElt)!=2)
6990 - throw INTERP_KERNEL::Exception("Not a tuple of size 2 !");
6991 - Py_XINCREF(uniqueElt);
6996 -static PyObject *NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(PyObject *cls, PyObject *args, const char *clsName)
6998 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInputGeneral<SinglePyObjToBePutInATuple>(cls,args,clsName);
7001 static PyObject *convertPartDefinition(MEDCoupling::PartDefinition *pd, int owner)
7004 @@ -3127,6 +3032,83 @@
7008 +bool isCSRMatrix(PyObject *m)
7010 +#if defined(WITH_NUMPY) && defined(WITH_SCIPY)
7011 + PyObject* pdict(PyDict_New());
7012 + PyDict_SetItemString(pdict, "__builtins__", PyEval_GetBuiltins());
7013 + PyObject *tmp(PyRun_String("from scipy.sparse import csr_matrix", Py_single_input, pdict, pdict));
7015 + throw INTERP_KERNEL::Exception("Problem during loading csr_matrix in scipy.sparse ! Is Scipy module available in present ?");
7016 + PyObject *csrMatrixCls=PyDict_GetItemString(pdict,"csr_matrix");
7018 + throw INTERP_KERNEL::Exception("csr_matrix not found in scipy.sparse ! Is Scipy module available in present ?");
7019 + bool ret(PyObject_IsInstance(m,csrMatrixCls));
7020 + Py_DECREF(pdict); Py_XDECREF(tmp);
7027 +void convertCSR_MCDataToVectMapIntDouble(const MEDCoupling::DataArrayInt *indptrPtr, const MEDCoupling::DataArrayInt *indicesPtr, const MEDCoupling::DataArrayDouble *dataPtr, std::vector<std::map<int,double> >& mCpp)
7029 +#if __cplusplus >= 201103L
7030 + auto nbOfRows(indptrPtr->getNumberOfTuples()-1);
7032 + throw INTERP_KERNEL::Exception("pywrap of MEDCouplingRemapper::setMatrix : input CSR matrix looks bad regarding indptr array !");
7033 + mCpp.resize(nbOfRows);
7034 + auto indPtrCPtr(indptrPtr->begin());
7035 + auto indicesCPtr(indicesPtr->begin());
7036 + auto dataCPtr(dataPtr->begin());
7037 + for(auto i=0;i<nbOfRows;i++)
7039 + auto& line(mCpp[i]);
7040 + for(auto j=indPtrCPtr[i];j<indPtrCPtr[i+1];j++)
7042 + line[indicesCPtr[j]]=dataCPtr[j];
7046 + throw INTERP_KERNEL::Exception("Breaking news : 10% off for C++11 compiler :)");
7050 +void convertToVectMapIntDouble(PyObject *pyobj, std::vector<std::map<int,double> >& mCpp)
7052 + if(!PyList_Check(pyobj))
7053 + throw INTERP_KERNEL::Exception("convertToVectMapIntDouble : input is not a python list !");
7055 + Py_ssize_t sz(PyList_Size(pyobj));
7057 + for(Py_ssize_t i=0;i<sz;i++)
7059 + PyObject *elt(PyList_GetItem(pyobj,i));
7060 + if(!PyDict_Check(elt))
7062 + std::ostringstream oss; oss << "convertToVectMapIntDouble : at pos # " << i << " of pylist a dict is exepect !";
7063 + throw INTERP_KERNEL::Exception(oss.str());
7065 + PyObject *key, *value;
7066 + Py_ssize_t pos(0);
7067 + std::map<int,double>& mapCpp(mCpp[i]);
7068 + while(PyDict_Next(elt,&pos,&key,&value))
7070 + if(!PyInt_Check(key))
7072 + std::ostringstream oss; oss << "convertToVectMapIntDouble : at pos # " << i << " of pylist the dict contains at pos " << pos << " a key not mappable to pyint !";
7073 + throw INTERP_KERNEL::Exception(oss.str());
7075 + if(!PyFloat_Check(value))
7077 + std::ostringstream oss; oss << "convertToVectMapIntDouble : at pos # " << i << " of pylist the dict contains at pos " << pos << " the value not mappable to pyfloat !";
7078 + throw INTERP_KERNEL::Exception(oss.str());
7080 + mapCpp[(int)PyInt_AS_LONG(key)]=PyFloat_AS_DOUBLE(value);
7086 PyObject *DataArrayT_imul__internal(PyObject *trueSelf, PyObject *obj, typename MEDCoupling::Traits<T>::ArrayType *self, swig_type_info *ti_da, swig_type_info *ti_tuple)
7088 @@ -3257,7 +3239,7 @@
7089 throw INTERP_KERNEL::Exception(msg);
7095 PyObject *DataArrayT_isub__internal(PyObject *trueSelf, PyObject *obj, typename MEDCoupling::Traits<T>::ArrayType *self, swig_type_info *ti_da, swig_type_info *ti_tuple)
7097 @@ -3324,9 +3306,11 @@
7098 swig_type_info *SWIGTITraits<float>::TI_TUPLE=NULL;//unfortunately SWIGTYPE_p_MEDCoupling__DataArrayFloat is null when called here ! Postpone initialization at inlined initializeMe()
7099 swig_type_info *SWIGTITraits<int>::TI_TUPLE=NULL;//unfortunately SWIGTYPE_p_MEDCoupling__DataArrayFloat is null when called here ! Postpone initialization at inlined initializeMe()
7102 PyTypeObject *NPYTraits<double>::NPYFunc=&PyCallBackDataArrayDouble_RefType;
7104 PyTypeObject *NPYTraits<float>::NPYFunc=&PyCallBackDataArrayFloat_RefType;
7108 typename MEDCoupling::Traits<T>::ArrayType *DataArrayT__setitem__(typename MEDCoupling::Traits<T>::ArrayType *self, PyObject *obj, PyObject *value)
7109 @@ -3364,4 +3348,37 @@
7110 return DataArrayT_isub__internal<T>(trueSelf,obj,self,SWIGTITraits<T>::TI,SWIGTITraits<T>::TI_TUPLE);
7114 +typename MEDCoupling::Traits<T>::ArrayType *DataArrayFPT_rmul(typename MEDCoupling::Traits<T>::ArrayType *self, PyObject *obj)
7116 + const char msg[]="Unexpected situation in __rmul__ !";
7118 + typename MEDCoupling::Traits<T>::ArrayType *a;
7119 + typename MEDCoupling::Traits<T>::ArrayTuple *aa;
7120 + std::vector<T> bb;
7122 + convertFPStarLikePyObjToCpp_2<T>(obj,sw,val,a,aa,bb,SWIGTITraits<T>::TI,SWIGTITraits<T>::TI_TUPLE);
7127 + typename MEDCoupling::MCAuto<typename MEDCoupling::Traits<T>::ArrayType> ret(self->deepCopy());
7128 + ret->applyLin(val,0.);
7129 + return ret.retn();
7133 + typename MEDCoupling::MCAuto<typename MEDCoupling::Traits<T>::ArrayType> aaa(aa->buildDA(1,self->getNumberOfComponents()));
7134 + return MEDCoupling::Traits<T>::ArrayType::Multiply(self,aaa);
7138 + typename MEDCoupling::MCAuto<typename MEDCoupling::Traits<T>::ArrayType> aaa(MEDCoupling::Traits<T>::ArrayType::New()); aaa->useArray(&bb[0],false,MEDCoupling::CPP_DEALLOC,1,(int)bb.size());
7139 + return MEDCoupling::Traits<T>::ArrayType::Multiply(self,aaa);
7142 + throw INTERP_KERNEL::Exception(msg);
7147 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyc MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyc
7148 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyc 1970-01-01 01:00:00.000000000 +0100
7149 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyc 2018-04-19 17:25:17.266788047 +0200
7152 +
\18;ÕZc
\0\0\0\0\0\0\0\0\ 3\0\0\0@
\0\0\0s!
\0\0\0d
\0\0d
\ 1\0l
\0\0Td
\ 2\0d
\ 5\0d
\ 3\0\84\0\0\83\0\0YZ
\ 1\0d
\ 4\0S(
\ 6\0\0\0iÿÿÿÿ(
\ 1\0\0\0t
\ 1\0\0\0*t
\16\0\0\0MEDCouplingDataForTestc
\0\0\0\0\0\0\0\0\ 2\0\0\0B
\0\0\0s~
\ 2\0\0e
\0\0Z
\ 1\0d
\0\0\84\0\0Z
\ 2\0d
\ 1\0\84\0\0Z
\ 3\0d
\ 2\0\84\0\0Z
\ 4\0d
\ 3\0\84\0\0Z
\ 5\0d
\ 4\0\84\0\0Z
\ 6\0d
\ 5\0\84\0\0Z
\a\0d
\ 6\0\84\0\0Z
\b\0d
\a\0\84\0\0Z
\0d
\b\0\84\0\0Z
7153 +
\0d
\0\84\0\0Z
\v\0d
7154 +
\0\84\0\0Z
\f\0d
\v\0\84\0\0Z
\r\0d
\f\0\84\0\0Z
\ e\0d
\r\0\84\0\0Z
\ f\0d
\ e\0\84\0\0Z
\10\0d
\ f\0\84\0\0Z
\11\0d
\10\0\84\0\0Z
\12\0d
\11\0\84\0\0Z
\13\0d
\12\0\84\0\0Z
\14\0d
\13\0\84\0\0Z
\15\0d
\14\0\84\0\0Z
\16\0d
\15\0\84\0\0Z
\17\0d
\16\0\84\0\0Z
\18\0d
\17\0\84\0\0Z
\19\0d
\18\0\84\0\0Z
\1a\0d
\19\0\84\0\0Z
\e\0d
\1a\0\84\0\0Z
\1c\0d
\e\0\84\0\0Z
\1d\0d
\1c\0\84\0\0Z
\1e\0d
\1d\0\84\0\0Z
\1f\0e
\0e
\ 2\0\83\ 1\0Z
\ 2\0e
\0e
\ 3\0\83\ 1\0Z
\ 3\0e
\0e
\ 4\0\83\ 1\0Z
\ 4\0e
\0e
\ 5\0\83\ 1\0Z
\ 5\0e
\0e
\ 6\0\83\ 1\0Z
\ 6\0e
\0e
\a\0\83\ 1\0Z
\a\0e
\0e
\b\0\83\ 1\0Z
\b\0e
\0e
\0\83\ 1\0Z
\0e
\0e
7156 +
\0e
\0e
\v\0\83\ 1\0Z
\v\0e
\0e
\f\0\83\ 1\0Z
\f\0e
\0e
\r\0\83\ 1\0Z
\r\0e
\0e
\ e\0\83\ 1\0Z
\ e\0e
\0e
\ f\0\83\ 1\0Z
\ f\0e
\0e
\10\0\83\ 1\0Z
\10\0e
\0e
\11\0\83\ 1\0Z
\11\0e
\0e
\12\0\83\ 1\0Z
\12\0e
\0e
\13\0\83\ 1\0Z
\13\0e
\0e
\14\0\83\ 1\0Z
\14\0e
\0e
\15\0\83\ 1\0Z
\15\0e
\0e
\16\0\83\ 1\0Z
\16\0e
\0e
\17\0\83\ 1\0Z
\17\0e
\0e
\18\0\83\ 1\0Z
\18\0e
\0e
\19\0\83\ 1\0Z
\19\0e
\0e
\1a\0\83\ 1\0Z
\1a\0e
\0e
\e\0\83\ 1\0Z
\e\0e
\0e
\1c\0\83\ 1\0Z
\1c\0e
\0e
\1d\0\83\ 1\0Z
\1d\0e
\0e
\1e\0\83\ 1\0Z
\1e\0e
\0e
\1f\0\83\ 1\0Z
\1f\0RS(
\1e\0\0\0c
\ 1\0\0\0\ 5\0\0\0\12\0\0\0C
\0\0\0sZ
\ 1\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0g
\12\0}
\ 1\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\a\0d
\ 6\0d
\b\0d
\ 6\0d
\0d
\b\0d
7157 +
\0d
\v\0d
\ 6\0d
\ 5\0d
\v\0d
\f\0d
\0d
\ 6\0g
\12\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
\b\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 6\0|
\ 2\0d
\ 4\0d
\ 6\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\ 5\0|
\ 2\0d
\ 6\0d
\v\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\ 5\0|
\ 2\0d
\v\0d
\r\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 6\0|
\ 2\0d
\r\0d
\ e\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 6\0|
\ 2\0d
\ e\0d
\ f\0!
\83\ 3\0\ 1|
\ 3\0j
\a\0\83\0\0\ 1t
\b\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\0|
\ 1\0d
\10\0d
\b\0\83\ 3\0\ 1|
\ 3\0j
7158 +
\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\11\0\0\0Ng333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?i
\0\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
7159 +
\0\0\0i
\ e\0\0\0i
\12\0\0\0i
\0\0\0(
\v\0\0\0t
\10\0\0\0MEDCouplingUMesht
\ 3\0\0\0Newt
\10\0\0\0setMeshDimensiont
\r\0\0\0allocateCellst
\ e\0\0\0insertNextCellt
7160 +
\0\0\0NORM_QUAD4t
\0\0\0NORM_TRI3t
\14\0\0\0finishInsertingCellst
\ f\0\0\0DataArrayDoublet
\0\0\0setValuest
\0\0\0setCoords(
\ 5\0\0\0t
\ 3\0\0\0clst
\f\0\0\0targetCoordst
7162 +
\0\0\0targetMesht
\b\0\0\0myCoords(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build2DTargetMesh_1
\18\0\0\0s
\1e\0\0\0\0\ 1<
\ 1<
\ 1\f\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7163 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0\b\0\0\0C
\0\0\0sÃ
\0\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0g
\b\0}
\ 1\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 6\0d
\ 4\0g
\ 6\0}
\ 2\0t
\0\0j
\ 1\0d
\a\0d
\ 6\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 2\0d
\ 6\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0t
\ 4\0d
\ 4\0|
\ 2\0d
\ 3\0d
\ 4\0!
\83\ 3\0\ 1|
\ 3\0j
\ 3\0t
\ 4\0d
\ 4\0|
\ 2\0d
\ 4\0d
\b\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0\83\0\0\ 1t
\ 6\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\a\0|
\ 1\0d
\0d
\ 6\0\83\ 3\0\ 1|
\ 3\0j
\b\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
7164 +
\0\0\0Ng333333Ó¿gffffffæ?i
\0\0\0\0i
\ 3\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0s
\12\0\0\0my name of mesh 2Di
\ 6\0\0\0i
\ 4\0\0\0(
\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\b\0\0\0R
\0\0\0R
7165 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 5\0\0\0R
\r\0\0\0t
\f\0\0\0sourceCoordst
7167 +
\0\0\0sourceMeshR
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build2DSourceMesh_1)
\0\0\0s
\16\0\0\0\0\ 1\1e\ 1\18\ 1\12\ 1\r\ 1\1a\ 1\1a\ 1
7168 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 6\0\0\0Q
\0\0\0C
\0\0\0s\
\ 2\0\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0gQ
\0}
\ 1\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
7169 +
\0d
\v\0d
\ 5\0d
\f\0d
\r\0d
\ 6\0d
\0d
\ e\0d
\ f\0d
7170 +
\0d
\a\0d
\ 6\0d
\10\0d
\11\0d
\v\0d
7171 +
\0d
\12\0d
\13\0d
\ 6\0d
\r\0d
\14\0d
\10\0d
7172 +
\0d
\ f\0d
\15\0d
\12\0d
\b\0d
\0d
7173 +
\0d
\v\0d
\16\0d
\17\0d
\18\0d
\19\0d
\0d
\ e\0d
\ f\0d
7174 +
\0d
\17\0d
\1a\0d
\e\0d
\18\0d
\v\0d
7175 +
\0d
\12\0d
\13\0d
\19\0d
\18\0d
\1c\0d
\1d\0d
7176 +
\0d
\ f\0d
\15\0d
\12\0d
\18\0d
\e\0d
\1e\0d
\1c\0g@
\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
\a\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\v\0\83\ 1\0\ 1x:
\0t
\ 4\0d
\14\0\83\ 1\0D],
\0}
\ 4\0|
\ 3\0j
\ 5\0t
\ 6\0d
\14\0|
\ 2\0d
\14\0|
\ 4\0\14d
\14\0|
\ 4\0\14d
\14\0\17!
\83\ 3\0\ 1qò
\ 1W|
\ 3\0j
\a\0\83\0\0\ 1t
\b\0j
\ 1\0\83\0\0}
\ 5\0|
\ 5\0j
\0|
\ 1\0d
\1f\0d
\a\0\83\ 3\0\ 1|
\ 3\0j
7177 +
\0|
\ 5\0\83\ 1\0\ 1|
\ 3\0S(
\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0I@g
\0\0\0\0\0\0i@i
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 3\0\0\0i
\0\0\0i
7178 +
\0\0\0i
\r\0\0\0i
\f\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\v\0\0\0i
\ e\0\0\0i
\a\0\0\0i
\ 6\0\0\0i
\10\0\0\0i
\ f\0\0\0i
\b\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0i
\16\0\0\0i
\15\0\0\0i
\14\0\0\0i
\17\0\0\0i
\19\0\0\0i
\18\0\0\0i
\1a\0\0\0i
\e\0\0\0(
\v\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0R
\ 5\0\0\0t
\ 5\0\0\0rangeR
\ 6\0\0\0t
7179 +
\0\0\0NORM_HEXA8R
\0\0\0R
7180 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 6\0\0\0R
\r\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0t
\ 1\0\0\0iR
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build3DTargetMesh_16
\0\0\0s
\0\0\0\0\ 1Q
\ 1Q
\ 1W
\ 1`
\ 1f
\ 1\f\ 1\r\ 1\r\ 1\13\ 1&
\ 1\ 4\ 1
7181 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\00
\0\0\0C
\0\0\0s
\85\ 2\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 3\0g
\e\0}
\ 1\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
\ 4\0d
7182 +
\0d
\ 6\0d
\v\0d
\f\0d
\ 4\0d
\b\0d
\ 4\0d
\v\0d
\ 6\0d
\b\0d
\ 4\0d
\0d
\v\0d
\b\0d
\ 4\0d
\ 6\0d
\a\0d
\ 4\0d
\ 5\0d
\a\0d
\0d
\v\0d
\ 5\0d
\f\0d
\ 4\0d
\ 5\0d
\ 6\0d
\f\0d
\ 4\0d
\0d
\a\0d
\ 4\0d
7183 +
\0d
\ 4\0d
\ 5\0d
\0d
\v\0d
\a\0d
\b\0d
\ 4\0d
7184 +
\0g0
\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
\a\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\r\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\0d
\v\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\v\0d
\ 4\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\ 4\0d
\r\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\r\0d
\ e\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\ e\0d
\ f\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\ f\0d
\10\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\10\0d
\11\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\11\0d
\12\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\12\0d
\13\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\13\0d
\14\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\14\0d
\15\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\v\0|
\ 2\0d
\15\0d
\16\0!
\83\ 3\0\ 1|
\ 3\0j
\ 6\0\83\0\0\ 1t
\a\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\b\0|
\ 1\0d
\17\0d
\a\0\83\ 3\0\ 1|
\ 3\0j
\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\18\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0i@g
\0\0\0\0\0\0Y@i
\b\0\0\0i
\ 1\0\0\0i
\a\0\0\0i
\ 3\0\0\0i
\ 6\0\0\0i
\0\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\f\0\0\0i
\10\0\0\0i
\14\0\0\0i
\18\0\0\0i
\1c\0\0\0i
\0\0\0i$
\0\0\0i(
\0\0\0i,
\0\0\0i0
\0\0\0i
\0\0\0(
7185 +
\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0t
\v\0\0\0NORM_TETRA4R
\0\0\0R
7186 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 5\0\0\0t
\ 4\0\0\0selfR
\13\0\0\0R
\14\0\0\0R
\15\0\0\0R
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build3DSourceMesh_1H
\0\0\0s.
\0\0\0\0\ 1-
\ 1*
\ 1\96\ 1\f\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7187 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0\e\0\0\0C
\0\0\0su
\ 1\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 4\0d
\ 5\0d
\ 1\0d
\ 6\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 6\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 3\0d
\ 5\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 6\0g
\e\0}
\ 1\0d
\a\0d
\b\0d
\0d
7189 +
\0d
\0d
\v\0d
\0d
\f\0d
\v\0d
\r\0d
\ e\0d
\0d
\b\0d
\ e\0d
\ f\0d
\f\0d
\0g
\12\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
\v\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\f\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0d
\a\0d
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\b\0|
\ 2\0d
\0d
\ e\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\b\0|
\ 2\0d
\ e\0d
\10\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0d
\10\0d
\11\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0d
\11\0d
\12\0!
\83\ 3\0\ 1|
\ 3\0j
\a\0\83\0\0\ 1t
\b\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\0|
\ 1\0d
\13\0d
\b\0\83\ 3\0\ 1|
\ 3\0j
7190 +
\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\14\0\0\0Ng333333Ó¿g
\0\0\0\0\0\0à?g
\9a\99\99\99\99\99É?g
\0\0\0\0\0\0ð?gffffffæ?g
\0\0\0\0\0\0ø?i
\0\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
7191 +
\0\0\0i
\ e\0\0\0i
\12\0\0\0i
\0\0\0(
\v\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
7192 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 5\0\0\0R
\1c\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\17\0\0\0build3DSurfTargetMesh_1b
\0\0\0s
\1e\0\0\0\0\ 1W
\ 1<
\ 1\f\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7193 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\a\0\0\0b
\ 1\0\0C
\0\0\0s»
\0\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 4\0d
\ 1\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 5\0d
\ 1\0d
\ 6\0d
\ 2\0d
\ 1\0d
\ 6\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 6\0d
\ 1\0d
\ 5\0d
\ 5\0d
\ 1\0d
\ 5\0d
\ 6\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 5\0d
\ 1\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 2\0d
\ 6\0d
\ 5\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 5\0d
\ 5\0d
\ 2\0d
\ 5\0d
\ 6\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 3\0d
\ 5\0d
\ 2\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 1\0d
\ 5\0d
\ 5\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 5\0d
\ 5\0d
\ 1\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 2\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 5\0d
\ 1\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 6\0d
\ 5\0d
\ 5\0d
\ 5\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 6\0d
\ 2\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 3\0d
\ 6\0d
\ 2\0d
\ 1\0d
\ 6\0d
\ 2\0d
\ 4\0d
\ 6\0d
\ 5\0d
\ 1\0d
\ 6\0d
\ 5\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 5\0d
\ 6\0d
\ 1\0d
\ 5\0d
\ 6\0d
\ 6\0d
\ 2\0d
\ 6\0d
\ 6\0d
\ 5\0d
\ 6\0d
\ 1\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 6\0d
\ 6\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 6\0d
\ 6\0g´
\0}
\ 1\0d
\a\0d
\b\0d
\0d
7194 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\0d
\r\0d
\15\0d
\13\0d
\14\0d
\13\0d
\15\0d
\16\0d
\12\0d
\14\0d
\12\0d
\11\0d
\17\0d
\16\0d
\14\0d
\11\0d
\10\0d
\18\0d
\17\0d
\14\0d
\10\0d
\ f\0d
\19\0d
\18\0d
\14\0d
\ f\0d
\0d
\r\0d
\19\0d
\14\0d
\r\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\0d
\13\0d
\1a\0d
7195 +
\0d
\r\0d
\15\0d
\e\0d
\ e\0d
\12\0d
\1c\0d
\1d\0d
\13\0d
\16\0d
\1e\0d
\1f\0d
\15\0d
\b\0d
\0d
\11\0d
\10\0d
\ f\0d
\0d
\14\0d
\b\0d
\f\0d
\r\0d
\0d
\14\0d
\0d
\r\0d
\19\0d
\ f\0d
\14\0d
\ f\0d
\19\0d
\18\0d
\10\0d
\14\0d
\10\0d
\18\0d
\17\0d
\11\0d
\14\0d
\11\0d
\0d!
\0d
\17\0d
\14\0d
\0d
\b\0d
\f\0d!
\0d
\14\0d
\f\0d
\r\0d
\19\0d
\18\0d
\17\0d!
\0d
\11\0d"
\0d#
\0d
\12\0d
\17\0d$
\0d%
\0d
\16\0d
\v\0d
\f\0d
\r\0d
\ e\0d&
\0d'
\0d(
\0d)
\0d
\r\0d
\19\0d
\18\0d
\17\0d
\16\0d
\15\0d
\14\0d
\r\0d(
\0d*
\0d
\15\0d
\14\0d
\15\0d*
\0d+
\0d
\16\0d
\14\0d
\16\0d
\17\0d,
\0d+
\0d
\14\0d
\17\0d
\18\0d-
\0d,
\0d
\14\0d
\18\0d
\19\0d.
\0d-
\0d
\14\0d
\19\0d
\r\0d(
\0d.
\0d
\14\0d(
\0d*
\0d+
\0d,
\0d-
\0d.
\0d
\r\0d
\15\0d
\e\0d
\ e\0d(
\0d*
\0d/
\0d)
\0d
\16\0d
\1e\0d
\1f\0d
\15\0d+
\0d0
\0d1
\0d*
\0d
\f\0d!
\0d
\17\0d
\18\0d
\19\0d
\r\0d
\14\0d
\f\0d'
\0d(
\0d
\r\0d
\14\0d
\r\0d(
\0d.
\0d
\19\0d
\14\0d
\19\0d.
\0d-
\0d
\18\0d
\14\0d
\18\0d-
\0d,
\0d
\17\0d
\14\0d
\17\0d!
\0d2
\0d,
\0d
\14\0d!
\0d
\f\0d'
\0d2
\0d
\14\0d'
\0d(
\0d.
\0d-
\0d,
\0d2
\0d
\17\0d$
\0d%
\0d
\16\0d,
\0d3
\0d4
\0d+
\0d&
\0d'
\0d(
\0d)
\0d5
\0d6
\0d7
\0d8
\0d(
\0d.
\0d-
\0d,
\0d+
\0d*
\0d
\14\0d(
\0d7
\0d9
\0d*
\0d
\14\0d*
\0d9
\0d:
\0d+
\0d
\14\0d+
\0d,
\0d;
\0d:
\0d
\14\0d,
\0d-
\0d<
\0d;
\0d
\14\0d-
\0d.
\0d=
\0d<
\0d
\14\0d.
\0d(
\0d7
\0d=
\0d
\14\0d7
\0d9
\0d:
\0d;
\0d<
\0d=
\0d(
\0d*
\0d/
\0d)
\0d7
\0d9
\0d>
\0d8
\0d+
\0d0
\0d1
\0d*
\0d:
\0d?
\0d@
\0d9
\0d'
\0d2
\0d,
\0d-
\0d.
\0d(
\0d
\14\0d'
\0d6
\0d7
\0d(
\0d
\14\0d(
\0d7
\0d=
\0d.
\0d
\14\0d.
\0d=
\0d<
\0d-
\0d
\14\0d-
\0d<
\0d;
\0d,
\0d
\14\0d,
\0d2
\0dA
\0d;
\0d
\14\0d2
\0d'
\0d6
\0dA
\0d
\14\0d6
\0d7
\0d=
\0d<
\0d;
\0dA
\0d,
\0d3
\0d4
\0d+
\0d;
\0dB
\0dC
\0d:
\0gb
\ 1}
\ 2\0d
\11\0d"
\0d#
\0d
\12\0d
\b\0d
\0d
\11\0d
\10\0d
\ f\0d
\0d
\12\0d
\1c\0d
\1d\0d
\13\0d
\0d
\13\0d
\1a\0d
7196 +
\0d
\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\a\0d
\b\0d
\0d
7197 +
\0g
\1c\0}
\ 3\0t
\0\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 2\0d
7198 +
\0\83\ 1\0\ 1|
\ 4\0j
\ 3\0d
\ e\0\83\ 1\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0d
\a\0d
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 6\0d+
\0|
\ 2\0d
\0d9
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0d9
\0dC
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0dC
\0dD
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 6\0d+
\0|
\ 2\0dD
\0dE
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0dE
\0dF
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0dF
\0dG
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 6\0d+
\0|
\ 2\0dG
\0dH
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0dH
\0dI
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0dI
\0dJ
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 6\0d+
\0|
\ 2\0dJ
\0dK
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0dK
\0dL
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0dL
\0dM
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 6\0d+
\0|
\ 2\0dM
\0dN
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0dN
\0dO
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0dO
\0dP
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 6\0d+
\0|
\ 2\0dP
\0dQ
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\0|
\ 2\0dQ
\0dR
\0!
\83\ 3\0\ 1|
\ 4\0j
\a\0\83\0\0\ 1t
\b\0j
\ 1\0\83\0\0}
\ 5\0|
\ 5\0j
\0|
\ 1\0dS
\0d
7199 +
\0\83\ 3\0\ 1|
\ 4\0j
7200 +
\0|
\ 5\0\83\ 1\0\ 1t
\0\0j
\ 1\0\83\0\0}
\ 6\0|
\ 6\0j
\ 2\0d
\ f\0\83\ 1\0\ 1|
\ 6\0j
\ 3\0d
\13\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0t
\v\0d
\10\0|
\ 3\0d
\a\0d
\10\0!
\83\ 3\0\ 1|
\ 6\0j
\ 4\0t
\f\0d
\13\0|
\ 3\0d
\10\0d
\1c\0!
\83\ 3\0\ 1|
\ 6\0j
\ 4\0t
\v\0d
\10\0|
\ 3\0d
\1c\0d#
\0!
\83\ 3\0\ 1|
\ 6\0j
\ 4\0t
\v\0d
\10\0|
\ 3\0d#
\0d
\ e\0!
\83\ 3\0\ 1|
\ 6\0j
\ 4\0t
\f\0d
\13\0|
\ 3\0d
\ e\0d
\1f\0!
\83\ 3\0\ 1|
\ 6\0j
\ 4\0t
\v\0d
\10\0|
\ 3\0d
\1f\0d
\16\0!
\83\ 3\0\ 1|
\ 6\0j
\a\0\83\0\0\ 1|
\ 6\0j
7201 +
\0|
\ 5\0\83\ 1\0\ 1|
\ 4\0|
\ 6\0f
\ 2\0S(T
\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0ô?g
\0\0\0\0\0\0ø?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@i
\0\0\0\0i
\v\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0i
\ f\0\0\0i
\1a\0\0\0i
\10\0\0\0i
\12\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0i
\a\0\0\0i
\r\0\0\0i
\ 6\0\0\0iÿÿÿÿi
\15\0\0\0i
\1c\0\0\0i
\16\0\0\0i
\13\0\0\0i
\11\0\0\0i
\ 5\0\0\0i
\14\0\0\0i
7202 +
\0\0\0i
\0\0\0i
\19\0\0\0i
\18\0\0\0i
\b\0\0\0i
\17\0\0\0i
\f\0\0\0i
\ e\0\0\0i
\e\0\0\0i
\1d\0\0\0i
\1e\0\0\0i)
\0\0\0i
\1f\0\0\0i!
\0\0\0i$
\0\0\0i+
\0\0\0i%
\0\0\0i"
\0\0\0i
\0\0\0i#
\0\0\0i(
\0\0\0i'
\0\0\0i&
\0\0\0i*
\0\0\0i,
\0\0\0i-
\0\0\0i8
\0\0\0i.
\0\0\0i0
\0\0\0i3
\0\0\0i:
\0\0\0i4
\0\0\0i1
\0\0\0i/
\0\0\0i2
\0\0\0i7
\0\0\0i6
\0\0\0i5
\0\0\0i9
\0\0\0i;
\0\0\0iC
\0\0\0in
\0\0\0iv
\0\0\0i~
\0\0\0i©
\0\0\0i±
\0\0\0i¹
\0\0\0iä
\0\0\0iì
\0\0\0iô
\0\0\0i
\1f\ 1\0\0i'
\ 1\0\0i/
\ 1\0\0iZ
\ 1\0\0ib
\ 1\0\0i<
\0\0\0(
\r\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\18\0\0\0t
\f\0\0\0NORM_POLYHEDR
\0\0\0R
7203 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\a\0\0\0t
\f\0\0\0NORM_POLYGON(
\a\0\0\0R
\1c\0\0\0t
\ 6\0\0\0coordst
\ 4\0\0\0connt
\ 5\0\0\0conn2t
\ 3\0\0\0retR
\11\0\0\0t
\ 6\0\0\0mesh2D(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\16\0\0\0build3DExtrudedUMesh_1s
\0\0\0st
\0\0\0\0\ 2Z
\ 1-
\ 1Z
\ 1-
\ 1Z
\ 1-
\ 1Z
\ 13
\ 4\99\ 10
\ 1\81\ 1\18\ 2\99\ 10
\ 1\81\ 1\18\ 2\99\ 10
\ 1\81\ 1\1e\ 1Z
\ 2\f\ 1\r\ 1\r\ 2\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 2\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 2\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 2
7204 +
\ 1\f\ 1\13\ 1\r\ 2\f\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7205 +
\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0\ 6\0\0\0C
\0\0\0sØ
\0\0\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0g
\ 4\0}
\ 1\0d
\ 5\0d
\ 6\0d
\ 6\0d
\a\0d
\a\0d
\b\0g
\ 6\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
\ 6\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\b\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\a\0|
\ 2\0d
\ 5\0d
\a\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\a\0|
\ 2\0d
\a\0d
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\a\0|
\ 2\0d
\0d
7206 +
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 6\0\83\0\0\ 1t
\a\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\b\0|
\ 1\0d
\0d
\ 6\0\83\ 3\0\ 1|
\ 3\0j
\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\v\0\0\0Ng
\0\0\0\0\0\0\0\0g333333Ó?g
\0\0\0\0\0\0è?g
\0\0\0\0\0\0ð?i
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0(
7207 +
\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0t
\0\0\0NORM_SEG2R
\0\0\0R
7208 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 5\0\0\0R
\1c\0\0\0R!
\0\0\0R"
\0\0\0t
\ 4\0\0\0meshR
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\ f\0\0\0buildCU1DMesh_U»
\0\0\0s
\1a\0\0\0\0\ 1\12\ 1\18\ 1\f\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1
7209 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0$
\0\0\0C
\0\0\0s
\90\ 1\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 3\0g$
\0}
\ 1\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
7210 +
\0d
\v\0d
\f\0d
\r\0d
\ 5\0d
\ e\0d
\ f\0d
\ 6\0d
\10\0d
\11\0d
\12\0d
\0g
\12\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
7211 +
\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\a\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\b\0|
\ 2\0d
\ 4\0d
\b\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\13\0|
\ 2\0d
\b\0d
\ 6\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\13\0|
\ 2\0d
\ 6\0d
\v\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\b\0|
\ 2\0d
\v\0d
\ e\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\b\0|
\ 2\0d
\ e\0d
\14\0!
\83\ 3\0\ 1|
\ 3\0j
\a\0\83\0\0\ 1t
\b\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\0|
\ 1\0d
\14\0d
7212 +
\0\83\ 3\0\ 1|
\ 3\0j
7213 +
\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\15\0\0\0Ng333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?i
\0\0\0\0i
\0\0\0i
\a\0\0\0i
\ 5\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0i
\ 2\0\0\0i
7214 +
\0\0\0i
\v\0\0\0i
\b\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\11\0\0\0i
\10\0\0\0i
\r\0\0\0i
\ 3\0\0\0i
\12\0\0\0(
\v\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
7215 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 5\0\0\0R
\1c\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\1c\0\0\0build2DTargetMeshMergeNode_1Ê
\0\0\0s
\1e\0\0\0\0\ 1r
\ 1<
\ 1\f\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7216 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 6\0\0\0]
\0\0\0C
\0\0\0s
\80\ 2\0\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0g]
\0}
\ 1\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
7217 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ 6\0d
\0d
\ f\0d
\10\0d
7218 +
\0d
\a\0d
\ 6\0d
\11\0d
\12\0d
\v\0d
7219 +
\0d
\13\0d
\14\0d
\ 6\0d
\ e\0d
\15\0d
\11\0d
7220 +
\0d
\10\0d
\16\0d
\13\0d
\b\0d
\0d
7221 +
\0d
\v\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\0d
\ f\0d
\10\0d
7222 +
\0d
\18\0d
\e\0d
\1c\0d
\19\0d
\v\0d
7223 +
\0d
\13\0d
\14\0d
\1a\0d
\19\0d
\1d\0d
\1e\0d
7224 +
\0d
\10\0d
\16\0d
\13\0d
\19\0d
\1f\0d
\0d
\1d\0g@
\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
\a\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\v\0\83\ 1\0\ 1x:
\0t
\ 4\0d
\15\0\83\ 1\0D],
\0}
\ 4\0|
\ 3\0j
\ 5\0t
\ 6\0d
\15\0|
\ 2\0d
\15\0|
\ 4\0\14d
\15\0|
\ 4\0d!
\0\17\14!
\83\ 3\0\ 1q
\16\ 2W|
\ 3\0j
\a\0\83\0\0\ 1t
\b\0j
\ 1\0\83\0\0}
\ 5\0|
\ 5\0j
\0|
\ 1\0d"
\0d
\a\0\83\ 3\0\ 1|
\ 3\0j
7225 +
\0|
\ 5\0\83\ 1\0\ 1|
\ 3\0S(#
\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0I@g
\0\0\0\0\0\0i@i
\0\0\0\0i
\1d\0\0\0i
\ 4\0\0\0i
\ 3\0\0\0i
\0\0\0i
7226 +
\0\0\0i
\r\0\0\0i
\f\0\0\0i
\1c\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\v\0\0\0i
\ e\0\0\0i
\a\0\0\0i
\ 6\0\0\0i
\10\0\0\0i
\ f\0\0\0i
\b\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0i
\16\0\0\0i
\15\0\0\0i
\14\0\0\0i
\17\0\0\0i
\19\0\0\0i
\18\0\0\0i
\1e\0\0\0i
\1a\0\0\0i
\ 1\0\0\0i
\1f\0\0\0(
\v\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0R
\ 5\0\0\0R
\17\0\0\0R
\ 6\0\0\0R
\18\0\0\0R
\0\0\0R
7227 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 6\0\0\0R
\1c\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\19\0\0\0R
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\1c\0\0\0build3DTargetMeshMergeNode_1Û
\0\0\0s
\0\0\0\0\ 1Q
\ 1Q
\ 1{
\ 1`
\ 1f
\ 1\f\ 1\r\ 1\r\ 1\13\ 1&
\ 1\ 4\ 1
7228 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0\1a\0\0\0C
\0\0\0sÅ
\ 1\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 1\0d
\ 4\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0g
\1a\0}
\ 1\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\b\0d
\a\0d
\0d
\a\0d
7229 +
\0d
\0d
\v\0d
\f\0d
\a\0d
\ 6\0d
\f\0d
\r\0d
7230 +
\0d
\a\0d
\ e\0d
\ f\0d
\10\0d
\ e\0d
\11\0d
\ f\0g
\18\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
\12\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\10\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\a\0|
\ 2\0d
\ 5\0d
\a\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\ 6\0|
\ 2\0d
\a\0d
\f\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\ 6\0|
\ 2\0d
\f\0d
\10\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\a\0|
\ 2\0d
\10\0d
\13\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\a\0|
\ 2\0d
\13\0d
\14\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\ 6\0|
\ 2\0d
\14\0d
\15\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\ 6\0|
\ 2\0d
\15\0d
\16\0!
\83\ 3\0\ 1|
\ 3\0j
\b\0\83\0\0\ 1t
\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
7231 +
\0|
\ 1\0d
\17\0d
\0\83\ 3\0\ 1|
\ 3\0j
\v\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\18\0\0\0Ng333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?g333333û?i
\0\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
\f\0\0\0i
7232 +
\0\0\0i
\v\0\0\0t
\ 5\0\0\0mergei
\ e\0\0\0i
\12\0\0\0i
\15\0\0\0i
\18\0\0\0i
\r\0\0\0(
\f\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0t
\a\0\0\0setNameR
\ 4\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
7233 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 5\0\0\0R
\1c\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\19\0\0\0build2DTargetMeshMerged_1í
\0\0\0s(
\0\0\0\0\ 26
\ 1\1e\ 36
\ 1\18\ 2\f\ 1\r\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7234 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0\18\0\0\0C
\0\0\0sº
\ 1\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0g
\12\0}
\ 1\0d
\ 4\0d
\ 5\0d
\ 6\0d
\ 4\0d
\ 6\0d
\a\0d
\a\0d
\ 6\0d
\b\0d
\ 6\0d
\0d
\b\0d
\ 5\0d
7236 +
\0d
\v\0d
\ 6\0d
\ 6\0d
\v\0d
\0d
\v\0d
\f\0d
\0g
\18\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
\b\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\f\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
\ 4\0d
\ 5\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
\ 5\0d
7237 +
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
7238 +
\0d
\r\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
\r\0d
\ e\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
\ e\0d
\ f\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
\ f\0d
\10\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
\10\0d
\11\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
\11\0d
\12\0!
\83\ 3\0\ 1|
\ 3\0j
\ 6\0\83\0\0\ 1t
\a\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\b\0|
\ 1\0d
\r\0d
\b\0\83\ 3\0\ 1|
\ 3\0j
\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\13\0\0\0Ng333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?i
\0\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
\f\0\0\0i
\ f\0\0\0i
\12\0\0\0i
\15\0\0\0i
\18\0\0\0(
7239 +
\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\b\0\0\0R
\0\0\0R
7240 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 5\0\0\0R
\r\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build2DTargetMesh_2
\a\ 1\0\0s$
\0\0\0\0\ 1<
\ 1N
\ 1\f\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7241 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0\b\0\0\0C
\0\0\0s¹
\0\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0|
\ 1\0j
\ 2\0d
\ 3\0\83\ 1\0\ 1d
\ 4\0d
\ 2\0d
\ 5\0d
\ 6\0d
\ 2\0d
\ 5\0d
\ 6\0d
\ 3\0g
\b\0}
\ 2\0x:
\0t
\ 3\0d
\ 3\0\83\ 1\0D],
\0}
\ 3\0|
\ 1\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
\ 5\0|
\ 3\0\14d
\ 5\0|
\ 3\0\14d
\ 5\0\17!
\83\ 3\0\ 1qJ
\0W|
\ 1\0j
\ 6\0\83\0\0\ 1t
\a\0j
\ 1\0d
\a\0d
\b\0d
\0d
7242 +
\0d
\v\0g
\ 5\0d
\f\0d
\ 2\0\83\ 3\0}
\ 4\0|
\ 1\0j
\b\0|
\ 4\0\83\ 1\0\ 1|
\ 1\0S(
\r\0\0\0Nt
\f\0\0\01DSourceMeshi
\ 1\0\0\0i
\ 4\0\0\0i
\0\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0g333333Ó?gffffffæ?gÍÌÌÌÌÌì?g
\0\0\0\0\0\0ð?gìQ¸
\1e\85ëñ?i
\ 5\0\0\0(
\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 5\0\0\0R
\17\0\0\0R
\ 6\0\0\0R'
\0\0\0R
\0\0\0R
7243 +
\0\0\0R
\f\0\0\0(
\ 5\0\0\0R
\r\0\0\0R$
\0\0\0R"
\0\0\0R
\19\0\0\0R
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build1DSourceMesh_2
\e\ 1\0\0s
\14\0\0\0\0\ 1\12\ 1\r\ 1\1e\ 1\13\ 1&
\ 1\ 4\ 1
7244 +
\ 1$
\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0
7245 +
\0\0\0C
\0\0\0s
\ 1\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0|
\ 1\0j
\ 2\0d
\ 3\0\83\ 1\0\ 1d
\ 4\0d
\ 2\0d
\ 5\0d
\ 6\0d
\ 3\0d
\a\0d
\b\0d
\0d
7247 +
\0}
\ 2\0|
\ 1\0j
\ 3\0t
\ 4\0d
\ 6\0|
\ 2\0d
\ 4\0d
\ 6\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\ 5\0d
\ 5\0|
\ 2\0d
\ 6\0d
\b\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\ 4\0d
\ 6\0|
\ 2\0d
\b\0d
\v\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\ 5\0d
\ 5\0|
\ 2\0d
\v\0d
\f\0!
\83\ 3\0\ 1|
\ 1\0j
\ 6\0\83\0\0\ 1d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\r\0d
\12\0d
\13\0d
\10\0d
\14\0g
7248 +
\0}
\ 3\0t
\a\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\b\0|
\ 3\0d
\f\0d
\ 2\0\83\ 3\0\ 1|
\ 1\0j
\0|
\ 4\0\83\ 1\0\ 1|
\ 1\0S(
\15\0\0\0Nt
\b\0\0\01DMesh_3i
\ 1\0\0\0i
\ 4\0\0\0i
\0\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 6\0\0\0i
\ 5\0\0\0i
\a\0\0\0i
\0\0\0i
\b\0\0\0i
7249 +
\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0ð?g
\9a\99\99\99\99\99é?g
\0\0\0\0\0\0\14@g×£p=
7250 +×
\14@g
\9a\99\99\99\99\99ñ?gffffffæ?g=
7252 +
\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0t
\0\0\0NORM_SEG3R'
\0\0\0R
\0\0\0R
7253 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 5\0\0\0R
\r\0\0\0R$
\0\0\0R"
\0\0\0R!
\0\0\0R
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build1DTargetMesh_3'
\ 1\0\0s
\1a\0\0\0\0\ 1\12\ 1\r\ 1$
\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7254 +
\ 1$
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0\14\0\0\0C
\0\0\0s'
\ 1\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0|
\ 1\0j
\ 2\0d
\ 3\0\83\ 1\0\ 1d
\ 4\0d
\ 2\0d
\ 5\0d
\ 6\0d
\ 3\0d
\a\0d
\b\0d
\0d
7256 +
\0}
\ 2\0|
\ 1\0j
\ 3\0t
\ 4\0d
\ 6\0|
\ 2\0d
\ 4\0d
\ 6\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\ 5\0d
\ 5\0|
\ 2\0d
\ 6\0d
\b\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\ 4\0d
\ 6\0|
\ 2\0d
\b\0d
\v\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\ 5\0d
\ 5\0|
\ 2\0d
\v\0d
\f\0!
\83\ 3\0\ 1|
\ 1\0j
\ 6\0\83\0\0\ 1d
\r\0d
\r\0d
\ e\0d
\ e\0d
\ f\0d
\ f\0d
\10\0d
\10\0d
\11\0d
\11\0d
\r\0d
\r\0d
\12\0d
\12\0d
\13\0d
\13\0d
\10\0d
\10\0d
\14\0d
\14\0g
\14\0}
\ 3\0t
\a\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\b\0|
\ 3\0d
\f\0d
\ 5\0\83\ 3\0\ 1|
\ 1\0j
\0|
\ 4\0\83\ 1\0\ 1|
\ 1\0S(
\15\0\0\0Nt
\r\0\0\02DCurveMesh_3i
\ 1\0\0\0i
\ 4\0\0\0i
\0\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 6\0\0\0i
\ 5\0\0\0i
\a\0\0\0i
\0\0\0i
\b\0\0\0i
7257 +
\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0ð?g
\9a\99\99\99\99\99é?g
\0\0\0\0\0\0\14@g×£p=
7258 +×
\14@g
\9a\99\99\99\99\99ñ?gffffffæ?g=
7260 +
\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R3
\0\0\0R'
\0\0\0R
\0\0\0R
7261 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 5\0\0\0R
\r\0\0\0R$
\0\0\0R"
\0\0\0R!
\0\0\0R
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\18\0\0\0build2DCurveTargetMesh_36
\ 1\0\0s
\1a\0\0\0\0\ 1\12\ 1\r\ 1$
\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7262 +
\ 1B
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\04
\0\0\0C
\0\0\0sQ
\ 2\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0|
\ 1\0j
\ 2\0d
\ 3\0\83\ 1\0\ 1d
\ 4\0d
\ 5\0d
\ 2\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\ 4\0d
\ 5\0d
\ 6\0d
\b\0d
\a\0d
\ 4\0d
\ 5\0d
\ 2\0d
\0d
7263 +
\0d
\v\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\0d
\f\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 2\0d
\ 5\0d
\ 4\0d
\a\0d
\ 6\0d
\ 5\0d
\ 4\0d
\a\0d
\b\0d
\ 6\0d
\ 5\0d
\ 4\0d
\ 2\0d
\ 5\0d
\v\0d
7264 +
\0d
\0d
\ 4\0d
\a\0d
\ 6\0d
\ 5\0d
\ 3\0d
\ 2\0d
\f\0d
\0g4
\0}
\ 2\0|
\ 1\0j
\ 3\0t
\ 4\0d
\ 6\0|
\ 2\0d
\ 4\0d
\ 6\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\ 5\0d
\a\0|
\ 2\0d
\ 6\0d
7265 +
\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\ 6\0d
\b\0|
\ 2\0d
7266 +
\0d
\r\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\a\0d
\0|
\ 2\0d
\r\0d
\ e\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\b\0d
\v\0|
\ 2\0d
\ e\0d
\ f\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\ 4\0d
\ 6\0|
\ 2\0d
\ f\0d
\10\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\ 5\0d
\a\0|
\ 2\0d
\10\0d
\11\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\ 6\0d
\b\0|
\ 2\0d
\11\0d
\12\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\a\0d
\0|
\ 2\0d
\12\0d
\13\0!
\83\ 3\0\ 1|
\ 1\0j
\ 3\0t
\b\0d
\v\0|
\ 2\0d
\13\0d
\14\0!
\83\ 3\0\ 1|
\ 1\0j
\0\83\0\0\ 1d
\15\0d
\15\0d
\16\0d
\15\0d
\17\0d
\16\0d
\16\0d
\16\0d
\15\0d
\16\0d
\17\0d
\18\0d
\17\0d
\15\0d
\19\0d
\17\0d
\1a\0d
\17\0d
\16\0d
\17\0d
\15\0d
\17\0g
\16\0}
\ 3\0t
7267 +
\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\v\0|
\ 3\0d
\e\0d
\ 2\0\83\ 3\0\ 1|
\ 1\0j
\f\0|
\ 4\0\83\ 1\0\ 1|
\ 1\0j
\r\0\83\0\0\ 1|
\ 1\0S(
\1c\0\0\0Nt
\b\0\0\02DMesh_3i
\ 2\0\0\0i
7268 +
\0\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
\f\0\0\0i
\12\0\0\0i
\1a\0\0\0i
\1d\0\0\0i!
\0\0\0i&
\0\0\0i,
\0\0\0i4
\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0è?g
\0\0\0\0\0\0Ð?i
\v\0\0\0(
\ e\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\b\0\0\0R
\a\0\0\0R
\0\0\0t
\0\0\0NORM_TRI6t
7269 +
\0\0\0NORM_QUAD8R
\0\0\0R
7270 +
\0\0\0R
\v\0\0\0R
\f\0\0\0t
\15\0\0\0checkConsistencyLight(
\ 5\0\0\0R
\r\0\0\0R$
\0\0\0R"
\0\0\0R!
\0\0\0R
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build2DTargetMesh_3E
\ 1\0\0s(
\0\0\0\0\ 1\12\ 1\r\ 1¢
\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7271 +
\ 1H
\ 1\f\ 1\13\ 1\r\ 1
7272 +
\ 1c
\ 1\0\0\0\ 5\0\0\0\14\0\0\0C
\0\0\0s`
\ 1\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0g
\14\0}
\ 1\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\a\0d
\ 6\0d
\b\0d
\ 6\0d
\0d
7273 +
\0d
\v\0d
\f\0d
\ 6\0d
\ 5\0d
\f\0d
\r\0d
\0d
\ 6\0g
\12\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
7274 +
\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\ 6\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
\ 4\0d
\ 5\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\b\0|
\ 2\0d
\ 5\0d
\v\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\b\0|
\ 2\0d
\v\0d
\ e\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
\ e\0d
\ f\0!
\83\ 3\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 2\0d
\ f\0d
\10\0!
\83\ 3\0\ 1|
\ 3\0j
\a\0\83\0\0\ 1t
\b\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\0|
\ 1\0d
\ e\0d
7275 +
\0\83\ 3\0\ 1|
\ 3\0j
7276 +
\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\11\0\0\0Ng333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?i
\0\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0i
\ 6\0\0\0i
\ 2\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
7277 +
\0\0\0i
\ e\0\0\0i
\12\0\0\0(
\v\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
7278 +
\0\0\0R
\v\0\0\0R
\f\0\0\0(
\ 5\0\0\0R
\r\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\11\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build2DTargetMesh_4[
\ 1\0\0s
\1e\0\0\0\0\ 1B
\ 1<
\ 1\f\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7279 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\13\0\0\0 \0\0\0C
\0\0\0s
\96\ 3\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0d
\ 1\0\83\ 1\0\ 1t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0\83\ 1\0\ 1d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 5\0}
\ 3\0d
\b\0d
\0d
7280 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0g
\0}
\ 4\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0g
\0}
\ 5\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0g
\ 5\0}
\ 6\0d
\1f\0d
\0d!
\0d"
\0d#
\0g
\ 5\0}
\a\0t
\ 3\0j
\ 4\0\83\0\0}
\b\0|
\b\0j
\ 5\0|
\ 3\0d$
\0d%
\0\83\ 3\0\ 1t
\ 3\0j
\ 4\0\83\0\0}
\0|
\0j
\ 5\0|
\ 4\0d&
\0d%
\0\83\ 3\0\ 1t
\ 3\0j
\ 4\0\83\0\0}
7282 +
\0j
\ 5\0|
\ 5\0d&
\0d%
\0\83\ 3\0\ 1t
\ 3\0j
\ 4\0\83\0\0}
\v\0|
\v\0j
\ 5\0|
\ 6\0d$
\0d%
\0\83\ 3\0\ 1t
\ 3\0j
\ 4\0\83\0\0}
\f\0|
\f\0j
\ 5\0|
\a\0d$
\0d%
\0\83\ 3\0\ 1|
\b\0j
\ 2\0d'
\0\83\ 1\0\ 1|
\0j
\ 2\0d(
\0\83\ 1\0\ 1|
7283 +
\0j
\ 2\0d)
\0\83\ 1\0\ 1|
\v\0j
\ 2\0d*
\0\83\ 1\0\ 1|
\f\0j
\ 2\0d+
\0\83\ 1\0\ 1|
\b\0j
\ 6\0d,
\0d-
\0\83\ 2\0\ 1|
\0j
\ 6\0d,
\0d.
\0\83\ 2\0\ 1|
7284 +
\0j
\ 6\0d,
\0d/
\0\83\ 2\0\ 1|
\v\0j
\ 6\0d,
\0d0
\0\83\ 2\0\ 1|
\f\0j
\ 6\0d,
\0d1
\0\83\ 2\0\ 1t
\a\0j
\ 4\0t
\b\0t
\0\83\ 2\0}
\r\0|
\r\0j
7285 +
\0|
\ 1\0\83\ 1\0\ 1|
\r\0j
\v\0|
\b\0\83\ 1\0\ 1|
\r\0j
\f\0d
\ e\0d$
\0d2
\0\83\ 3\0\ 1|
\r\0j
\ 2\0d3
\0\83\ 1\0\ 1t
\a\0j
\ 4\0t
\r\0t
\ e\0\83\ 2\0}
\ e\0|
\ e\0j
7286 +
\0|
\ 1\0\83\ 1\0\ 1|
\ e\0j
\ f\0|
\0|
7287 +
\0g
\ 2\0\83\ 1\0\ 1|
\ e\0j
\10\0d4
\0d5
\0d6
\0\83\ 3\0\ 1|
\ e\0j
\11\0d7
\0d&
\0d8
\0\83\ 3\0\ 1|
\ e\0j
\ 2\0d9
\0\83\ 1\0\ 1t
\a\0j
\ 4\0t
\b\0t
\12\0\83\ 2\0}
\ f\0|
\ f\0j
7288 +
\0|
\ 2\0\83\ 1\0\ 1|
\ f\0j
\v\0|
\v\0\83\ 1\0\ 1|
\ f\0j
\f\0d7
\0d:
\0d;
\0\83\ 3\0\ 1|
\ f\0j
\11\0d<
\0d=
\0d>
\0\83\ 3\0\ 1|
\ f\0j
\ 2\0d?
\0\83\ 1\0\ 1t
\a\0j
\ 4\0t
\b\0t
\0\83\ 2\0}
\10\0|
\10\0j
7289 +
\0|
\ 1\0\83\ 1\0\ 1|
\10\0j
\v\0|
\v\0\83\ 1\0\ 1|
\10\0j
\f\0d@
\0dA
\0dB
\0\83\ 3\0\ 1|
\10\0j
\ 2\0dC
\0\83\ 1\0\ 1t
\a\0j
\ 4\0t
\b\0t
\13\0\83\ 2\0}
\11\0|
\11\0j
7290 +
\0|
\ 2\0\83\ 1\0\ 1|
\11\0j
\v\0|
\f\0\83\ 1\0\ 1|
\11\0j
\ 2\0dD
\0\83\ 1\0\ 1t
\14\0j
\ 4\0|
\r\0|
\ e\0|
\ f\0|
\10\0|
\11\0g
\ 5\0\83\ 1\0}
\12\0|
\12\0S(E
\0\0\0Nt
\ 2\0\0\0m1t
\ 2\0\0\0m2gffffffæ¿g
\0\0\0\0\0\0ð¿g
\0\0\0\0\0\0\0Àg
\0\0\0\0\0\0\bÀg
\0\0\0\0\0\0\10Àg
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0\10@g
\9a\99\99\99\99\99¹?g
\9a\99\99\99\99\99É?g333333Ó?g
\9a\99\99\99\99\99Ù?g
\0\0\0\0\0@e@g
\0\0\0\0\0`e@g
\0\0\0\0\0\80e@g
\0\0\0\0\0 e@g
\0\0\0\0\0Àe@g33333Ce@gfffffFe@g
\9a\99\99\99\99Ie@gÍÌÌÌÌLe@g
\0\0\0\0\0\0\14@g
\0\0\0\0\0\0\18@g
\0\0\0\0\0\0\1c@g
\0\0\0\0\0\0 @g
\0\0\0\0\0\0"@g
\0\0\0\0\0\0.@g
\0\0\0\0\0\00@g
\0\0\0\0\0\01@g
\0\0\0\0\0\02@g
\0\0\0\0\0\03@i
\ 5\0\0\0i
\ 1\0\0\0i
\0\0\0t
\ 2\0\0\0d0t
\ 2\0\0\0d1t
\ 4\0\0\0d1_1t
\ 2\0\0\0d2t
\ 2\0\0\0d4i
\0\0\0\0t
\ 2\0\0\0c1t
\ 2\0\0\0c6t
\ 2\0\0\0c9t
\ 2\0\0\0c5t
\ 2\0\0\0c7i
\ 6\0\0\0t
\ 2\0\0\0f0gffffffæ?i
\a\0\0\0i
\b\0\0\0g333333ó?i
7291 +
\0\0\0t
\ 2\0\0\0f1i
\v\0\0\0i
\f\0\0\0g
\0\0\0\0\0\0ø?i
\r\0\0\0i
\ e\0\0\0t
\ 2\0\0\0f2g333333û?i
\ f\0\0\0i
\10\0\0\0t
\ 2\0\0\0f3t
\ 2\0\0\0f4(
\15\0\0\0R
\ 1\0\0\0R
\12\0\0\0R-
\0\0\0R
7292 +
\0\0\0R
\ 3\0\0\0R
\v\0\0\0t
\12\0\0\0setInfoOnComponentt
\16\0\0\0MEDCouplingFieldDoublet
\b\0\0\0ON_CELLSt
\b\0\0\0ONE_TIMEt
\a\0\0\0setMesht
\b\0\0\0setArrayt
\a\0\0\0setTimet
\b\0\0\0ON_NODESt
\v\0\0\0LINEAR_TIMEt
\0\0\0setArrayst
\f\0\0\0setStartTimet
7293 +
\0\0\0setEndTimet
\16\0\0\0CONST_ON_TIME_INTERVALt
\a\0\0\0NO_TIMEt
\16\0\0\0MEDCouplingMultiFields(
\13\0\0\0R
\r\0\0\0R=
\0\0\0R>
\0\0\0t
\ 5\0\0\0vals0t
\ 5\0\0\0vals1t
\a\0\0\0vals1_1t
\ 5\0\0\0vals2t
\ 5\0\0\0vals4R?
\0\0\0R@
\0\0\0RA
\0\0\0RB
\0\0\0RC
\0\0\0RI
\0\0\0RJ
\0\0\0RK
\0\0\0RL
\0\0\0RM
\0\0\0R$
\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\12\0\0\0buildMultiFields_1l
\ 1\0\0sr
\0\0\0\0\ 1\f\ 1\r\ 1\f\ 1\r\ 1\15\ 1!
\ 1!
\ 1\15\ 1\15\ 1\f\ 1\13\ 1\f\ 1\13\ 1\f\ 1\13\ 1\f\ 1\13\ 1\f\ 1\13\ 1\r\0\r\0\r\0\r\0\r\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\12\ 1\r\ 1\r\ 1\13\ 1\r\ 1\12\ 1\r\ 1\13\ 1\13\ 1\13\ 1\r\ 1\12\ 1\r\ 1\r\ 1\13\ 1\13\ 1\r\ 1\12\ 1\r\ 1\r\ 1\13\ 1\r\ 1\12\ 1\r\ 1\r\ 1\r\ 1\1e\ 1c
\ 1\0\0\0\12\0\0\0\ 5\0\0\0C
\0\0\0so
\ 3\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0d
\ 1\0\83\ 1\0\ 1t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0\83\ 1\0\ 1d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 5\0}
\ 3\0d
\b\0d
\0d
7294 +
\0d
\v\0d
\f\0g
\ 5\0}
\ 4\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0g
\ 5\0}
\ 5\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0g
\ 5\0}
\ 6\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0g
\ 5\0}
\a\0t
\ 3\0j
\ 4\0\83\0\0}
\b\0|
\b\0j
\ 5\0|
\ 3\0d
\1c\0d
\1d\0\83\ 3\0\ 1t
\ 3\0j
\ 4\0\83\0\0}
\0|
\0j
\ 5\0|
\ 4\0d
\1c\0d
\1d\0\83\ 3\0\ 1t
\ 3\0j
\ 4\0\83\0\0}
7296 +
\0j
\ 5\0|
\ 5\0d
\1c\0d
\1d\0\83\ 3\0\ 1t
\ 3\0j
\ 4\0\83\0\0}
\v\0|
\v\0j
\ 5\0|
\ 6\0d
\1c\0d
\1d\0\83\ 3\0\ 1t
\ 3\0j
\ 4\0\83\0\0}
\f\0|
\f\0j
\ 5\0|
\a\0d
\1c\0d
\1d\0\83\ 3\0\ 1|
\b\0j
\ 2\0d
\1e\0\83\ 1\0\ 1|
\0j
\ 2\0d
\1f\0\83\ 1\0\ 1|
7297 +
\0j
\ 2\0d
\0\83\ 1\0\ 1|
\v\0j
\ 2\0d!
\0\83\ 1\0\ 1|
\f\0j
\ 2\0d"
\0\83\ 1\0\ 1|
\b\0j
\ 6\0d#
\0d$
\0\83\ 2\0\ 1|
\0j
\ 6\0d#
\0d%
\0\83\ 2\0\ 1|
7298 +
\0j
\ 6\0d#
\0d&
\0\83\ 2\0\ 1|
\v\0j
\ 6\0d#
\0d'
\0\83\ 2\0\ 1|
\f\0j
\ 6\0d#
\0d(
\0\83\ 2\0\ 1t
\a\0j
\ 4\0t
\b\0t
\0\83\ 2\0}
\r\0|
\r\0j
7299 +
\0|
\ 1\0\83\ 1\0\ 1|
\r\0j
\v\0|
\b\0\83\ 1\0\ 1|
\r\0j
\f\0d)
\0d
\1c\0d*
\0\83\ 3\0\ 1|
\r\0j
\ 2\0d+
\0\83\ 1\0\ 1t
\a\0j
\ 4\0t
\b\0t
\r\0\83\ 2\0}
\ e\0|
\ e\0j
7300 +
\0|
\ 1\0\83\ 1\0\ 1|
\ e\0j
\ e\0|
\0|
7301 +
\0g
\ 2\0\83\ 1\0\ 1|
\ e\0j
\ f\0d,
\0d-
\0d.
\0\83\ 3\0\ 1|
\ e\0j
\10\0d/
\0d0
\0d1
\0\83\ 3\0\ 1|
\ e\0j
\ 2\0d2
\0\83\ 1\0\ 1t
\a\0j
\ 4\0t
\b\0t
\11\0\83\ 2\0}
\ f\0|
\ f\0j
7302 +
\0|
\ 2\0\83\ 1\0\ 1|
\ f\0j
\v\0|
\v\0\83\ 1\0\ 1|
\ f\0j
\f\0d/
\0d3
\0d4
\0\83\ 3\0\ 1|
\ f\0j
\10\0d5
\0d6
\0d7
\0\83\ 3\0\ 1|
\ f\0j
\ 2\0d8
\0\83\ 1\0\ 1t
\a\0j
\ 4\0t
\b\0t
\0\83\ 2\0}
\10\0|
\10\0j
7303 +
\0|
\ 1\0\83\ 1\0\ 1|
\10\0j
\v\0|
\v\0\83\ 1\0\ 1|
\10\0j
\f\0d9
\0d:
\0d;
\0\83\ 3\0\ 1|
\10\0j
\ 2\0d<
\0\83\ 1\0\ 1t
\a\0j
\ 4\0t
\b\0t
\12\0\83\ 2\0}
\11\0|
\11\0j
7304 +
\0|
\ 2\0\83\ 1\0\ 1|
\11\0j
\v\0|
\f\0\83\ 1\0\ 1|
\11\0j
\ 2\0d=
\0\83\ 1\0\ 1|
\r\0|
\ e\0|
\ f\0|
\10\0|
\11\0g
\ 5\0S(>
\0\0\0NR=
\0\0\0R>
\0\0\0gffffffæ¿g
\0\0\0\0\0\0ð¿g
\0\0\0\0\0\0\0Àg
\0\0\0\0\0\0\bÀg
\0\0\0\0\0\0\10Àg
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0\10@g
\0\0\0\0\0@e@g
\0\0\0\0\0`e@g
\0\0\0\0\0\80e@g
\0\0\0\0\0 e@g
\0\0\0\0\0Àe@g
\0\0\0\0\0\0\14@g
\0\0\0\0\0\0\18@g
\0\0\0\0\0\0\1c@g
\0\0\0\0\0\0 @g
\0\0\0\0\0\0"@g
\0\0\0\0\0\0.@g
\0\0\0\0\0\00@g
\0\0\0\0\0\01@g
\0\0\0\0\0\02@g
\0\0\0\0\0\03@i
\ 5\0\0\0i
\ 1\0\0\0R?
\0\0\0R@
\0\0\0RA
\0\0\0RB
\0\0\0RC
\0\0\0i
\0\0\0\0RD
\0\0\0RE
\0\0\0RF
\0\0\0RG
\0\0\0RH
\0\0\0g
\9a\99\99\99\99\99É?i
\ 6\0\0\0RI
\0\0\0gffffffæ?i
\a\0\0\0i
\b\0\0\0g333333ó?i
\0\0\0i
7305 +
\0\0\0RJ
\0\0\0i
\v\0\0\0i
\f\0\0\0g
\0\0\0\0\0\0ø?i
\r\0\0\0i
\ e\0\0\0RK
\0\0\0g333333û?i
\ f\0\0\0i
\10\0\0\0RL
\0\0\0RM
\0\0\0(
\13\0\0\0R
\ 1\0\0\0R
\12\0\0\0R-
\0\0\0R
7306 +
\0\0\0R
\ 3\0\0\0R
\v\0\0\0RN
\0\0\0RO
\0\0\0RP
\0\0\0RQ
\0\0\0RR
\0\0\0RS
\0\0\0RT
\0\0\0RV
\0\0\0RW
\0\0\0RX
\0\0\0RY
\0\0\0RZ
\0\0\0R[
\0\0\0(
\12\0\0\0R
\r\0\0\0R=
\0\0\0R>
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0Ra
\0\0\0R?
\0\0\0R@
\0\0\0RA
\0\0\0RB
\0\0\0RC
\0\0\0RI
\0\0\0RJ
\0\0\0RK
\0\0\0RL
\0\0\0RM
\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\12\0\0\0buildMultiFields_2£
\ 1\0\0sp
\0\0\0\0\ 1\f\ 1\r\ 1\f\ 1\r\ 1\15\ 1\15\ 1\15\ 1\15\ 1\15\ 1\f\ 1\13\ 1\f\ 1\13\ 1\f\ 1\13\ 1\f\ 1\13\ 1\f\ 1\13\ 1\r\0\r\0\r\0\r\0\r\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\12\ 1\r\ 1\r\ 1\13\ 1\r\ 1\12\ 1\r\ 1\13\ 1\13\ 1\13\ 1\r\ 1\12\ 1\r\ 1\r\ 1\13\ 1\13\ 1\r\ 1\12\ 1\r\ 1\r\ 1\13\ 1\r\ 1\12\ 1\r\ 1\r\ 1\r\ 1c
\ 1\0\0\0\ 4\0\0\0\ 6\0\0\0C
\0\0\0s
\8f\0\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0t
\ 2\0j
\ 3\0\83\0\0}
\ 2\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 2\0g
\ 5\0}
\ 3\0|
\ 1\0j
\ 4\0d
\ 4\0\83\ 1\0\ 1|
\ 1\0j
\ 5\0t
\ 6\0d
\ 4\0|
\ 3\0d
\ 3\0d
\ 4\0!
\83\ 3\0\ 1|
\ 1\0j
\ 5\0t
\a\0d
\ 5\0|
\ 3\0d
\ 4\0d
\ 6\0!
\83\ 3\0\ 1|
\ 1\0j
\b\0\83\0\0\ 1|
\ 1\0j
\0|
\ 2\0\83\ 1\0\ 1|
\ 1\0S(
\a\0\0\0Nt
\v\0\0\0Multi1DMeshi
\ 1\0\0\0i
\0\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0(
7307 +
\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 1\0\0\0t
\1a\0\0\0buildCoordsForMultiTypes_1R
\ 5\0\0\0R
\ 6\0\0\0R'
\0\0\0R3
\0\0\0R
\0\0\0R
\f\0\0\0(
\ 4\0\0\0R
\1c\0\0\0R(
\0\0\0t
\ 3\0\0\0cooR"
\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build1DMultiTypes_1Ù
\ 1\0\0s
\12\0\0\0\0\ 1\12\ 1\f\ 1\15\ 1\r\ 1\1a\ 1\1a\ 1
7308 +
\ 1\r\ 1c
\ 1\0\0\0\ 4\0\0\0\15\0\0\0C
\0\0\0só
\0\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0t
\ 2\0j
\ 3\0\83\0\0}
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
7310 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0g
\15\0}
\ 3\0|
\ 1\0j
\ 4\0d
\ 4\0\83\ 1\0\ 1|
\ 1\0j
\ 5\0t
\ 6\0d
\ 3\0|
\ 3\0d
\0d
\ 3\0!
\83\ 3\0\ 1|
\ 1\0j
\ 5\0t
\a\0d
\ 6\0|
\ 3\0d
\ 3\0d
7311 +
\0!
\83\ 3\0\ 1|
\ 1\0j
\ 5\0t
\b\0d
\ 4\0|
\ 3\0d
7312 +
\0d
\ e\0!
\83\ 3\0\ 1|
\ 1\0j
\ 5\0t
\0d
\b\0|
\ 3\0d
\ e\0d
\11\0!
\83\ 3\0\ 1|
\ 1\0j
7313 +
\0\83\0\0\ 1|
\ 1\0j
\v\0|
\ 2\0\83\ 1\0\ 1|
\ 1\0S(
\12\0\0\0Nt
\v\0\0\0Multi2DMeshi
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0\0i
\0\0\0i
7314 +
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\15\0\0\0(
\f\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 1\0\0\0Re
\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\b\0\0\0R8
\0\0\0R
\a\0\0\0R9
\0\0\0R
\0\0\0R
\f\0\0\0(
\ 4\0\0\0R
\1c\0\0\0R(
\0\0\0Rf
\0\0\0R"
\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build2DMultiTypes_1ä
\ 1\0\0s
\16\0\0\0\0\ 1\12\ 1\f\ 1E
\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7315 +
\ 1\r\ 1c
\ 1\0\0\0\ 4\0\0\0Q
\0\0\0C
\0\0\0s
\ f\ 2\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0t
\ 2\0j
\ 3\0\83\0\0}
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
7316 +
\0d
\v\0d
\f\0d
\ 3\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\ 3\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\ 3\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\ 3\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0d$
\0d%
\0d&
\0d
\ 3\0d
\ f\0d
\ e\0d
\r\0d'
\0d(
\0d)
\0d*
\0d
\ 3\0d
\ f\0d
\ e\0d
\r\0d'
\0d(
\0d)
\0d*
\0d
\14\0d
\13\0d
\12\0d
\11\0d+
\0d,
\0d-
\0d.
\0d/
\0d0
\0d1
\0d2
\0gQ
\0}
\ 3\0|
\ 1\0j
\ 4\0d3
\0\83\ 1\0\ 1|
\ 1\0j
\ 5\0t
\ 6\0d4
\0|
\ 3\0d
\ 3\0d4
\0!
\83\ 3\0\ 1|
\ 1\0j
\ 5\0t
\a\0d
\ e\0|
\ 3\0d4
\0d
\12\0!
\83\ 3\0\ 1|
\ 1\0j
\ 5\0t
\b\0d5
\0|
\ 3\0d
\12\0d
\a\0!
\83\ 3\0\ 1|
\ 1\0j
\ 5\0t
\0d
\13\0|
\ 3\0d
\a\0d
\e\0!
\83\ 3\0\ 1|
\ 1\0j
\ 5\0t
7317 +
\0d6
\0|
\ 3\0d
\e\0d!
\0!
\83\ 3\0\ 1|
\ 1\0j
\ 5\0t
\v\0d
\11\0|
\ 3\0d!
\0d0
\0!
\83\ 3\0\ 1|
\ 1\0j
\ 5\0t
\f\0d3
\0|
\ 3\0d0
\0d7
\0!
\83\ 3\0\ 1|
\ 1\0j
\ 5\0t
\r\0d
\b\0|
\ 3\0d7
\0d8
\0!
\83\ 3\0\ 1|
\ 1\0j
\ e\0\83\0\0\ 1|
\ 1\0j
\ f\0|
\ 2\0\83\ 1\0\ 1|
\ 1\0S(9
\0\0\0Nt
\v\0\0\0Multi3DMeshi
\ 3\0\0\0i
\0\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\v\0\0\0i
7318 +
\0\0\0i
\0\0\0i
\19\0\0\0i
\ f\0\0\0i
\ e\0\0\0i
\r\0\0\0i
\f\0\0\0i
\1a\0\0\0i
\e\0\0\0i
\1c\0\0\0i
\1d\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i#
\0\0\0i$
\0\0\0i%
\0\0\0i&
\0\0\0i'
\0\0\0i(
\0\0\0i)
\0\0\0i*
\0\0\0i+
\0\0\0i,
\0\0\0i-
\0\0\0i.
\0\0\0i/
\0\0\0i0
\0\0\0i1
\0\0\0i2
\0\0\0i3
\0\0\0i4
\0\0\0i5
\0\0\0i6
\0\0\0i7
\0\0\0i
\b\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i=
\0\0\0iQ
\0\0\0(
\10\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 1\0\0\0Re
\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\e\0\0\0t
\f\0\0\0NORM_TETRA10t
7319 +
\0\0\0NORM_PYRA5t
\v\0\0\0NORM_PYRA13t
\v\0\0\0NORM_PENTA6t
\f\0\0\0NORM_PENTA15R
\18\0\0\0t
\v\0\0\0NORM_HEXA20R
\0\0\0R
\f\0\0\0(
\ 4\0\0\0R
\1c\0\0\0R(
\0\0\0Rf
\0\0\0R"
\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0build3DMultiTypes_1ñ
\ 1\0\0s,
\0\0\0\0\ 1\12\ 1\f\ 1\f\ 1\1e\ 1\ f\ 1'
\ 1\12\ 1-
\ 1\18\ 1B
\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7320 +
\ 1\r\ 1c
\ 1\0\0\0\ 3\0\0\0¨
\0\0\0C
\0\0\0sQ
\ 2\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 1\0d
\ 4\0d
\ 5\0d
\ 1\0d
\ 6\0d
\a\0d
\ 1\0d
\ 3\0d
\ 4\0d
\ 1\0d
\b\0d
\ 5\0d
\ 1\0d
\0d
\ 2\0d
\ 1\0d
\ 1\0d
\0d
\ 1\0d
\0d
\0d
\ 1\0d
\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 4\0d
\ 1\0d
\ 4\0d
\0d
\ 1\0d
\0d
\ 4\0d
\ 1\0d
\ 4\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 6\0d
\ 1\0d
7325 +
\0d
\ 1\0d
\a\0d
\b\0d
\ 1\0d
\a\0d
\a\0d
\ 1\0d
\f\0d
\a\0d
\a\0d
\f\0d
\b\0d
\a\0d
\r\0d
7326 +
\0d
\a\0d
\ 4\0d
\ 4\0d
\ 4\0d
7330 +
\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 1\0d
7331 +
\0d
\ 1\0d
\ 4\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 6\0d
\ 1\0d
7333 +
\0d
\ 1\0d
\ 6\0d
\ 1\0d
\a\0d
\ 1\0d
\a\0d
\a\0d
\ 1\0d
\a\0d
\ 1\0d
\ 1\0d
\ 1\0d
\a\0d
\ 6\0d
\a\0d
\a\0d
\ 6\0d
\a\0d
\ 1\0d
\ 6\0d
\ 1\0d
\ 1\0d
7338 +
\0d
\ 1\0d
\ 1\0d
\0d
\ 1\0d
\0d
\0d
\0d
\0d
\0d
\0d
\ 1\0d
\0d
\ 1\0d
\ 4\0d
\0d
\ 4\0d
\0d
\0d
\0d
\ 4\0d
\0d
\ 4\0d
\ 1\0d
\0d
\ 1\0d
\ 1\0d
\ 4\0d
\ 1\0d
\0d
\ 4\0d
\0d
\0d
\ 4\0d
\0d
\ 1\0d
\ 4\0g¨
\0}
\ 2\0|
\ 1\0j
\ 2\0|
\ 2\0d
\ e\0d
\ f\0\83\ 3\0\ 1|
\ 1\0j
\ 3\0d
\10\0d
\11\0\83\ 2\0\ 1|
\ 1\0j
\ 3\0d
\12\0d
\13\0\83\ 2\0\ 1|
\ 1\0j
\ 3\0d
\14\0d
\15\0\83\ 2\0\ 1|
\ 1\0S(
\16\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\ 4@g
\0\0\0\0\0\0\18@g
\0\0\0\0\0\0ø?g
\0\0\0\0\0\0\12@g
\0\0\0\0\0\0\10@g
\0\0\0\0\0\0\b@gÍÌÌÌÌÌô?gÍÌÌÌÌÌä?g333333
\ 1@i8
\0\0\0i
\ 3\0\0\0i
\0\0\0\0s
\ 6\0\0\0X (cm)i
\ 1\0\0\0s
\ 6\0\0\0Y (cm)i
\ 2\0\0\0s
\ 6\0\0\0Z (cm)(
\ 4\0\0\0R
7339 +
\0\0\0R
\ 3\0\0\0R
\v\0\0\0RN
\0\0\0(
\ 3\0\0\0R
\1c\0\0\0R!
\0\0\0t
\ 4\0\0\0data(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyRe
\0\0\0 \ 2\0\0s
\12\0\0\0\0\ 1\f\ 1ÿ
\0ÿ
\0\0\ 1\13\ 1\10\ 1\10\ 1\10\ 1c
\ 1\0\0\0\ 6\0\0\0Q
\0\0\0C
\0\0\0sU
\ 2\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0t
\ 2\0j
\ 1\0\83\0\0}
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 3\0d
\ 5\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 3\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ 3\0d
\ 5\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 5\0d
\ 5\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 5\0d
\ 4\0d
\ 4\0d
\ 3\0d
\ 5\0d
\ 4\0d
\ 4\0d
\ 5\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ 3\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ 5\0d
\ 5\0d
\ 3\0d
\ 5\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 4\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 5\0d
\ 5\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 5\0d
\ 5\0d
\ 5\0gQ
\0}
\ 3\0|
\ 2\0j
\ 3\0|
\ 3\0d
\ 6\0d
\ 2\0\83\ 3\0\ 1d
\ 2\0d
\a\0d
\b\0d
\0d
7340 +
\0d
\v\0d
\f\0d
\r\0d
\0d
\b\0d
\ e\0d
\ f\0d
\r\0d
\f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\ 2\0d
\a\0d
\b\0d
\0d
\15\0d
\14\0d
\16\0d
\17\0d
\0d
\b\0d
\ e\0d
\ f\0d
\a\0d
\18\0d
\19\0d
\b\0d
\v\0d
\1a\0d
\e\0d
\f\0d
\b\0d
\19\0d
\1c\0d
\ e\0d
\f\0d
\e\0d
\1d\0d
\10\0d
\13\0d
\1e\0d
\1f\0d
\14\0d
\a\0d
\18\0d
\19\0d
\b\0d
\14\0d
\1f\0d
\0d
\16\0d
\b\0d
\19\0d
\1c\0d
\ e\0g@
\0}
\ 4\0|
\ 1\0j
\ 4\0d
\17\0\83\ 1\0\ 1x:
\0t
\ 5\0d
\17\0\83\ 1\0D],
\0}
\ 5\0|
\ 1\0j
\ 6\0t
\a\0d
\17\0|
\ 4\0d
\17\0|
\ 5\0\14d
\17\0|
\ 5\0d
\r\0\17\14!
\83\ 3\0\ 1q
7341 +
\ 2W|
\ 1\0j
\b\0\83\0\0\ 1|
\ 1\0j
\0|
\ 2\0\83\ 1\0\ 1|
\ 1\0S(!
\0\0\0Nt
\0\0\0Hexa8Onlyi
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0ð?i
\e\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ 4\0\0\0i
\0\0\0\0i
\0\0\0i
7342 +
\0\0\0i
\ 1\0\0\0i
\ e\0\0\0i
\ 5\0\0\0i
\v\0\0\0i
\ 2\0\0\0i
\ 6\0\0\0i
\ f\0\0\0i
\10\0\0\0i
\a\0\0\0i
\11\0\0\0i
\b\0\0\0i
\15\0\0\0i
\16\0\0\0i
\12\0\0\0i
\13\0\0\0i
\17\0\0\0i
\14\0\0\0i
\18\0\0\0i
\19\0\0\0i
\1a\0\0\0(
7343 +
\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
7344 +
\0\0\0R
\v\0\0\0R
\ 5\0\0\0R
\17\0\0\0R
\ 6\0\0\0R
\18\0\0\0R
\0\0\0R
\f\0\0\0(
\ 6\0\0\0R
\1c\0\0\0R(
\0\0\0Rf
\0\0\0R!
\0\0\0R"
\0\0\0R
\19\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\10\0\0\0buildHexa8Mesh_1
\12\ 2\0\0s&
\0\0\0\0\ 1\12\ 1\f\ 1ù
\ 1\13\ 1\18\ 1\18\ 1\18\ 1\18\ 1\18\ 1\18\ 1\18\ 1\1e\ 1\r\ 1\13\ 1&
\ 1\ 4\ 1
7345 +
\ 1\r\ 1c
\ 1\0\0\0\b\0\0\0J
\0\0\0C
\0\0\0s
\82\ 3\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0t
\0\0j
\ 1\0d
\ 1\0d
\ 3\0\83\ 2\0}
\ 2\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 5\0d
\ 6\0d
\ 4\0d
\ 5\0d
\ 4\0d
\ 6\0d
\ 5\0d
\a\0d
\ 4\0d
\ 5\0d
\ 4\0d
\a\0d
\ 5\0d
\ 5\0d
\ 5\0d
\ 6\0d
\b\0d
\ 5\0d
\ 6\0d
\b\0d
\b\0d
\ 6\0d
\ 5\0d
\b\0d
\ 6\0d
\ 5\0d
\ 5\0d
\0d
\b\0d
\ 5\0d
\0d
\b\0d
\b\0d
\0d
\ 5\0d
\b\0d
\0d
\ 5\0d
\ 5\0d
7349 +
\0d
\ 4\0d
\ 4\0d
\v\0g9
\0}
\ 3\0d
\f\0d
\r\0d
\ 3\0d
\ e\0d
\f\0d
\r\0d
\ 2\0d
\ 3\0d
\f\0d
\r\0d
\ f\0d
\ 2\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\r\0d
\10\0d
\ 2\0d
\ 3\0d
\r\0d
\11\0d
\ f\0d
\ 2\0d
\r\0d
\12\0d
\ e\0d
\ f\0d
\r\0d
\13\0d
\ 3\0d
\ e\0d
\r\0d
\10\0d
\ 3\0d
\13\0d
\r\0d
\11\0d
\ 2\0d
\10\0d
\r\0d
\12\0d
\ f\0d
\11\0d
\r\0d
\13\0d
\ e\0d
\12\0d
\10\0d
\11\0d
\12\0d
\13\0d
\r\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\17\0d
\16\0d
\15\0d
\19\0d
\1a\0d
\e\0d
\1c\0gJ
\0}
\ 4\0t
\ 2\0j
\ 1\0\83\0\0}
\ 5\0|
\ 5\0j
\ 3\0|
\ 3\0d
\1d\0d
\ 2\0\83\ 3\0\ 1|
\ 1\0j
\ 4\0|
\ 5\0\83\ 1\0\ 1|
\ 2\0j
\ 4\0|
\ 5\0\83\ 1\0\ 1|
\ 1\0j
\ 5\0d
\16\0\83\ 1\0\ 1x:
\0t
\ 6\0d
\e\0\83\ 1\0D],
\0}
\ 6\0|
\ 1\0j
\a\0t
\b\0d
\ f\0|
\ 4\0d
\ f\0|
\ 6\0\14d
\ f\0|
\ 6\0\14d
\ f\0\17!
\83\ 3\0\ 1q
\f\ 2W|
\ 1\0j
\a\0t
\0d
\ e\0|
\ 4\0d
\1e\0d
\1f\0!
\83\ 3\0\ 1|
\ 1\0j
\a\0t
\0d
\ e\0|
\ 4\0d
\1f\0d
\0!
\83\ 3\0\ 1|
\ 1\0j
\a\0t
7350 +
\0d
\12\0|
\ 4\0d
\0d!
\0!
\83\ 3\0\ 1|
\ 1\0j
\a\0t
7351 +
\0d
\12\0|
\ 4\0d!
\0d"
\0!
\83\ 3\0\ 1|
\ 1\0j
\v\0\83\0\0\ 1d
\f\0d
\ e\0d
\r\0d
\14\0d
\18\0d
\15\0d
\12\0d
\11\0d
\ f\0d
\13\0d
\ e\0d
\ 3\0d
\e\0d
\12\0d
\13\0d
\1c\0d
\10\0d
\11\0d
\12\0d
\13\0g
\14\0}
\a\0|
\ 2\0j
\ 5\0d
\10\0\83\ 1\0\ 1x:
\0t
\ 6\0d
\ f\0\83\ 1\0D],
\0}
\ 6\0|
\ 2\0j
\a\0t
\f\0d
\ 2\0|
\a\0d
\ 2\0|
\ 6\0\14d
\ 2\0|
\ 6\0\14d
\ 2\0\17!
\83\ 3\0\ 1q
7352 +
\ 3W|
\ 2\0j
\a\0t
\r\0d
\ f\0|
\a\0d
\e\0d
\16\0!
\83\ 3\0\ 1|
\ 2\0j
\a\0t
\r\0d
\ f\0|
\a\0d
\16\0d#
\0!
\83\ 3\0\ 1|
\ 2\0j
\v\0\83\0\0\ 1|
\ 1\0|
\ 2\0g
\ 2\0S($
\0\0\0Ns
7353 +
\0\0\0Pointe.medi
\ 3\0\0\0i
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\0Àg
\0\0\0\0\0\0ð¿g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0\10@g
\0\0\0\0\0\0\14@i
\0\0\0\0i
\ 1\0\0\0i
\ 5\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
\ e\0\0\0i
\11\0\0\0i
\10\0\0\0i
\ f\0\0\0i
\12\0\0\0i
7354 +
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0i
\13\0\0\0i0
\0\0\0i5
\0\0\0i:
\0\0\0iB
\0\0\0iJ
\0\0\0i
\14\0\0\0(
\ e\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
7355 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\ 5\0\0\0R
\17\0\0\0R
\ 6\0\0\0R
\e\0\0\0Rl
\0\0\0R
\18\0\0\0R
\0\0\0R
\b\0\0\0R
\a\0\0\0(
\b\0\0\0R
\1c\0\0\0R(
\0\0\0t
\ 5\0\0\0mesh2R!
\0\0\0R"
\0\0\0Rf
\0\0\0R
\19\0\0\0R#
\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\r\0\0\0buildPointe_1'
\ 2\0\0s4
\0\0\0\0\ 1\12\ 1\12\ 1±
\ 1ä
\ 1\f\ 1\13\ 1\r\ 1\r\ 1\r\ 1\13\ 1&
\ 1\ 4\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
7356 +
\ 2B
\ 1\r\ 1\13\ 1&
\ 1\ 4\ 1\1a\ 1\1a\ 1
7357 +
\ 1c
\ 1\0\0\0\ 6\0\0\0\93\0\0\0C
\0\0\0s_
\a\0\0t
\0\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
7358 +
\0d
\v\0d
\ 2\0d
\f\0d
\r\0d
\ e\0d
\ e\0d
\ f\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\ 6\0d
\ 5\0d
\b\0d
\a\0d
7359 +
\0d
\0d
\r\0d
\f\0d
\14\0d
\ 3\0d
\15\0d
\ 4\0d
\16\0d
\v\0d
\17\0d
\ 1\0d
\18\0d
\ 2\0d
\19\0d
7360 +
\0d
\1a\0d
\ 2\0d
\e\0d
\ 2\0d
\1c\0d
\ 6\0d
\1d\0d
\r\0d
\1e\0d
\ e\0d
\1f\0d
\b\0d
\0d
\ 2\0d!
\0d"
\0d#
\0d
\ 2\0d$
\0d%
\0d&
\0d
\ 2\0d'
\0d(
\0d)
\0d*
\0d+
\0d,
\0d-
\0d.
\0d/
\0d0
\0d1
\0d
\ 2\0d2
\0d
\ f\0d3
\0d
\13\0d4
\0d5
\0d6
\0d7
\0d8
\0d9
\0d:
\0d;
\0d<
\0d=
\0d>
\0d?
\0d@
\0dA
\0dB
\0dC
\0dD
\0dE
\0dF
\0d
\11\0dG
\0dH
\0dI
\0dJ
\0dK
\0dL
\0dM
\0dN
\0dO
\0d
\f\0dP
\0d
\0dQ
\0d
\a\0dR
\0dS
\0dT
\0dU
\0dV
\0dW
\0dX
\0d
\ 5\0dY
\0dZ
\0d[
\0d\
\0d]
\0d^
\0d_
\0d`
\0da
\0db
\0dc
\0dd
\0de
\0df
\0dg
\0dh
\0di
\0dj
\0dk
\0dl
\0dm
\0dn
\0g
\92\0do
\0dp
\0\83\ 3\0}
\ 1\0|
\ 1\0j
\ 1\0dq
\0dr
\0g
\ 2\0\83\ 1\0\ 1t
\ 2\0ds
\0dp
\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 3\0dt
\0\83\ 1\0\ 1|
\ 2\0j
\ 4\0du
\0\83\ 1\0\ 1|
\ 2\0j
\ 5\0d1
\0dv
\0dv
\0\83\ 3\0\ 1|
\ 2\0j
\ 6\0|
\ 1\0\83\ 1\0\ 1|
\ 2\0j
\a\0\83\0\0\ 1dw
\0dx
\0dy
\0g
\ 3\0dw
\0dy
\0dz
\0g
\ 3\0dx
\0d{
\0dy
\0g
\ 3\0d{
\0d|
\0dy
\0g
\ 3\0d{
\0d}
\0d~
\0g
\ 3\0d{
\0d~
\0d|
\0g
\ 3\0dz
\0dy
\0d
\7f\0g
\ 3\0dy
\0d
\80\0d
\7f\0g
\ 3\0dy
\0d|
\0d
\81\0g
\ 3\0dy
\0d
\81\0d
\80\0g
\ 3\0d|
\0d~
\0d
\81\0g
\ 3\0d~
\0d
\82\0d
\81\0g
\ 3\0d
\83\0d
\84\0d
\85\0d
\86\0g
\ 4\0d
\84\0dp
\0d
\87\0d
\85\0g
\ 4\0dp
\0d
\88\0d
\89\0d
\87\0g
\ 4\0d
\86\0d
\85\0dx
\0dw
\0g
\ 4\0d
\85\0d
\87\0d{
\0dx
\0g
\ 4\0d
\87\0d
\89\0d}
\0d{
\0g
\ 4\0d
\8a\0d
\8b\0d
\8c\0d
\8d\0d
\8e\0d
\8f\0g
\ 6\0d
\8c\0d
\90\0d
\8a\0d
\91\0d
\92\0d
\8f\0g
\ 6\0d
\8b\0d
\93\0d
\8c\0d
\94\0d
\95\0d
\8e\0g
\ 6\0d
\93\0d
\96\0d
\8c\0d
\97\0d
\98\0d
\95\0g
\ 6\0d
\93\0d
\99\0d
\9a\0d
\9b\0d
\9c\0d
\9d\0g
\ 6\0d
\9a\0d
\96\0d
\93\0d
\9e\0d
\97\0d
\9d\0g
\ 6\0d
\90\0d
\8c\0d
\9f\0d
\91\0d
\0d¡
\0g
\ 6\0d
\8c\0d¢
\0d
\9f\0d£
\0d¤
\0d
\0g
\ 6\0d
\8c\0d
\96\0d¥
\0d
\98\0d¦
\0d§
\0g
\ 6\0d¥
\0d¢
\0d
\8c\0d¨
\0d£
\0d§
\0g
\ 6\0d
\96\0d
\9a\0d¥
\0d
\9e\0d©
\0d¦
\0g
\ 6\0d
\9a\0dª
\0d¥
\0d«
\0d¬
\0d©
\0g
\ 6\0d
\9f\0d¢
\0d
\0d®
\0d¤
\0d¯
\0d°
\0d±
\0g
\b\0d¢
\0d¥
\0d²
\0d
\0d¨
\0d³
\0d´
\0d¯
\0g
\b\0d¥
\0dª
\0dµ
\0d²
\0d¬
\0d¶
\0d·
\0d³
\0g
\b\0d®
\0d
\0d
\81\0d
\82\0d°
\0d¸
\0d¹
\0dº
\0g
\b\0d
\0d²
\0d
\80\0d
\81\0d´
\0d»
\0d¼
\0d¸
\0g
\b\0d²
\0dµ
\0d
\7f\0d
\80\0d·
\0d½
\0d¾
\0d»
\0g
\b\0g$
\0}
\ 3\0x+
\0t
\b\0d
\83\0dz
\0\83\ 2\0D]
\1a\0}
\ 4\0|
\ 2\0j
\0t
7361 +
\0|
\ 3\0|
\ 4\0\19\83\ 2\0\ 1qÌ
\ 4Wx+
\0t
\b\0dz
\0d
\82\0\83\ 2\0D]
\1a\0}
\ 4\0|
\ 2\0j
\0t
\v\0|
\ 3\0|
\ 4\0\19\83\ 2\0\ 1qú
\ 4Wx+
\0t
\b\0d
\82\0d
\94\0\83\ 2\0D]
\1a\0}
\ 4\0|
\ 2\0j
\0t
\f\0|
\ 3\0|
\ 4\0\19\83\ 2\0\ 1q(
\ 5Wx+
\0t
\b\0d
\94\0d¨
\0\83\ 2\0D]
\1a\0}
\ 4\0|
\ 2\0j
\0t
\r\0|
\ 3\0|
\ 4\0\19\83\ 2\0\ 1qV
\ 5Wt
\ e\0j
\ f\0t
\10\0\83\ 1\0}
\ 5\0|
\ 5\0j
\11\0d¿
\0\83\ 1\0\ 1|
\ 5\0j
\12\0t
\13\0\83\ 1\0\ 1|
\ 5\0j
\14\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\15\0t
\16\0t
\b\0d
\83\0dz
\0\83\ 2\0\83\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0g
\ 6\0dÀ
\0dÀ
\0g
\ 2\0dÁ
\0g
\ 1\0\83\ 4\0\ 1|
\ 5\0j
\15\0t
\16\0t
\b\0dz
\0d
\82\0\83\ 2\0\83\ 1\0d1
\0d1
\0d
\ 1\0d1
\0d
\ 1\0d
\ 1\0d1
\0d
\ 1\0g
\b\0dÂ
\0dÂ
\0dÃ
\0dÂ
\0dÃ
\0dÃ
\0dÂ
\0dÃ
\0g
\b\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0g
\ 4\0\83\ 4\0\ 1|
\ 5\0j
\15\0t
\16\0t
\b\0d
\82\0d
\94\0\83\ 2\0\83\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0dÁ
\0d
\ 2\0dÁ
\0dÁ
\0d
\ 2\0dÁ
\0g
\f\0dÄ
\0dÄ
\0dÅ
\0dÄ
\0dÄ
\0dÅ
\0g
\ 6\0dÄ
\0dÄ
\0dÄ
\0g
\ 3\0\83\ 4\0\ 1|
\ 5\0j
\15\0t
\16\0t
\b\0d
\94\0d¨
\0\83\ 2\0\83\ 1\0d1
\0d1
\0d
\ 1\0d1
\0d
\ 1\0d
\ 1\0d1
\0d
\ 1\0d
\ 2\0d1
\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d1
\0d
\ 2\0g
\10\0dÆ
\0dÆ
\0dÇ
\0dÆ
\0dÇ
\0dÇ
\0dÆ
\0dÇ
\0d
\ 2\0dÆ
\0dÇ
\0d
\ 2\0d
\ 2\0dÇ
\0dÆ
\0d
\ 2\0d
\ 2\0d
\ 2\0g
\12\0dÈ
\0dÈ
\0dÈ
\0dÈ
\0dÉ
\0dÉ
\0dÉ
\0dÉ
\0dÊ
\0g
\0\83\ 4\0\ 1t
\17\0|
\ 5\0\83\ 1\0S(Ë
\0\0\0Ng
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0gFUUUUUõ?gºªªªªªú?gH
\8d2Ïk
\90í?gh©®¦â}Ø?gB^Ì4
\9dµó?g
\94\e\1foìSà?g¦uÿ
\81\ 4£ø?g~âæ
\8açhä?g
\0\0\0\0\0\0\0@g7
\8d2Ïk
\90ý?gh©®¦â}è?gdúþÝ}+î?g
\84\¿ª.Ûò?gã;
\7ff
\9e ö?g¶;
\7ff
\9e ö?gÑ;
\7ff
\9e æ?gÈ;
\7ff
\9e æ?g
\ 4\0\0\0\00
\82<g
\ 2\0\0\0\0Àj<gúÿÿÿÿæ³¼gúÿÿÿÿ棼g
\0\0\0\0\0\0\0Àg¦uÿ
\81\ 4£ø¿gºªªªªªú¿gFUUUUUõ¿gH
\8d2Ïk
\90í¿g7
\8d2Ïk
\90ý¿gdúþÝ}+î¿gB^Ì4
\9dµó¿gFUUUUUý¿g
\84\ 1\99(¸
\19û¿gîÅÊ
\18esæ?g
\0\0\0\0\0\0ø¿g,
\93O5eìô¿g¸nF(Ð¥Ð?gºªªªªªò¿gcÒ2
\8eé>ñ¿gHpvÂÝ
\92Ü?gc1
\8cw*,ö¿gü
\ 3xµb¡í?gôéeÛP,ö¿g
\rÿ
\ 2ýi^â?gÔlßÌvøð¿gÔlßÌvøð?g¢¡
\ e)f
\9bê¿gÇh®9;Çá?g
\0\0\0\0\0\0ð¿g
\84\¿ª.Ûò¿gÑ;
\7ff
\9e æ¿gÖw£
\82~'ú¿g\
7362 +X2DÏÔ?g«\÷Ï
\97bÿ¿g
\ 1¦i<¸øØ?g
\98\85ùÛñ
\89÷¿g
\81<O-
\8aºÒ?g\÷Ï
\97bï¿g
\ 2¦i<¸øÈ?g
\82iMPÈcø¿gP55JöKð?g4L
\9f\88æ½ô¿g4L
\9f\88æ½ô?g%Á Æî¼ñ¿ga6
\93÷N´ç?gè
\11\91Ú¡
7363 +ï¿g
\90Ï
\18Žä?g
\15\e?"
\ efê¿g
\15\e?"
\ efê?gã;
\7ff
\9e ö¿g@jM)
\vÅü¿g8Ø`7þãÖ?g ¥
\8eØNò¿g¸A{F,"Í?g¡¡
\ e)f
\9bú¿g´h®9;Çñ?gDùÊ
\9e\8côó¿g*
\9d\85Öتê?gh©®¦â}è¿g~âæ
\8açhä¿g
\94\e\1foìSà¿gîÅÊ
\18esæ¿g
\84\ 1\99(¸
\19û?g
\rÿ
\ 2ýi^â¿gôéeÛP,ö?gHpvÂÝ
\92Ü¿gcÒ2
\8eé>ñ?gh©®¦â}Ø¿gü
\ 3xµb¡í¿gc1
\8cw*,ö?ga6
\93÷N´ç¿g%Á Æî¼ñ?gÇh®9;Çá¿g¢¡
\ e)f
\9bê?g\
7364 +X2DÏÔ¿gÖw£
\82~'ú?g¸nF(Хпg,
\93O5eìô?g
\ 2¦i<¸øÈ¿g\÷Ï
\97bï?gõÿÿÿÿÿ><gFUUUUUý?güÿÿÿÿÁ±¼g
\0\0\0\0\0\0ø?gñÿÿÿÿS¥¼gºªªªªªò?g´h®9;Çñ¿g¡¡
\ e)f
\9bú?g
\14¦i<¸øØ¿g«\÷Ï
\97bÿ?iI
\0\0\0i
\ 2\0\0\0s
\f\0\0\0X [INCONNUE]s
\f\0\0\0Y [INCONNUE]t
\ 3\0\0\0MA1s
\13\0\0\0CREE PAR CODE_ASTERs
\v\0\0\0SANS UNITESiÿÿÿÿi
\v\0\0\0i
\b\0\0\0i
\r\0\0\0i
\f\0\0\0i
\0\0\0i
\ e\0\0\0i
7365 +
\0\0\0i
\ f\0\0\0i
\13\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\14\0\0\0i
\16\0\0\0i
\15\0\0\0i
\1c\0\0\0i)
\0\0\0i3
\0\0\0i
\19\0\0\0i
\1d\0\0\0i*
\0\0\0i
\17\0\0\0i
\1e\0\0\0i+
\0\0\0i
\e\0\0\0i
\1f\0\0\0i#
\0\0\0i&
\0\0\0i
\18\0\0\0i
\0\0\0i,
\0\0\0i4
\0\0\0i!
\0\0\0i2
\0\0\0i-
\0\0\0i5
\0\0\0i'
\0\0\0i"
\0\0\0i.
\0\0\0i
\1a\0\0\0i/
\0\0\0i6
\0\0\0i$
\0\0\0i0
\0\0\0i(
\0\0\0i%
\0\0\0i1
\0\0\0i8
\0\0\0i7
\0\0\0i>
\0\0\0i:
\0\0\0iG
\0\0\0i9
\0\0\0i?
\0\0\0i;
\0\0\0i=
\0\0\0i@
\0\0\0i<
\0\0\0iA
\0\0\0iD
\0\0\0iH
\0\0\0iB
\0\0\0iE
\0\0\0iC
\0\0\0iF
\0\0\0t
\ 5\0\0\0CH1RBgUUUUUUÕ?g
\0\0\0\0\0\0à?g
\1e3
\90E§yâ¿g
\1e3
\90E§yâ?gUUUUUUÅ?gUUUUUUå?gDr?ô~Éè¿gDr?ô~Éè?g·æ
\87EÊÀÓ?gX¤
\f<Ý
\9aß?gàéÖü°Hé?(
\18\0\0\0R
7366 +
\0\0\0t
\13\0\0\0setInfoOnComponentsR
\ 2\0\0\0t
\ e\0\0\0setDescriptiont
\v\0\0\0setTimeUnitRT
\0\0\0R
\f\0\0\0R
\ 5\0\0\0R
\17\0\0\0R
\ 6\0\0\0R
\b\0\0\0R
\a\0\0\0R8
\0\0\0R9
\0\0\0RO
\0\0\0R
\ 3\0\0\0t
\v\0\0\0ON_GAUSS_PTR-
\0\0\0t
\0\0\0setNaturet
\10\0\0\0IntensiveMaximumRR
\0\0\0t
\e\0\0\0setGaussLocalizationOnCellst
\ 4\0\0\0listt
\18\0\0\0MEDCouplingFieldTemplate(
\ 6\0\0\0R
\1c\0\0\0Rf
\0\0\0t
\ 1\0\0\0mR"
\0\0\0R
\19\0\0\0t
\ 3\0\0\0fff(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0buildFieldOnGauss_1E
\ 2\0\0sB
\0\0\0\0\ 1ÿ
\0É
\ 1\13\ 1\ f\ 1\r\0\r\0\13\ 1\r\ 1
7367 +
\ 1ÿ
\0ÿ
\0\90\ 1\16\ 1\14\ 1\ 4\ 1\16\ 1\14\ 1\ 4\ 1\16\ 1\14\ 1\ 4\ 1\16\ 1\14\ 1\ 4\ 1\ f\0\r\0\r\ 1\r\ 1@
\ 1a
\ 1d
\ 1¦
\ 1c
\ 1\0\0\0\ 6\0\0\0·
\ 1\0\0C
\0\0\0s¶
\10\0\0t
\0\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 2\0d
\ 6\0d
\ 2\0d
\a\0d
\b\0d
\0d
\ 2\0d
7368 +
\0d
\ 2\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0d$
\0d%
\0d&
\0d'
\0d(
\0d)
\0d*
\0d+
\0d,
\0d-
\0d.
\0d/
\0d0
\0d1
\0d2
\0d3
\0d
\ 2\0d4
\0d5
\0d6
\0d
\ 2\0d7
\0d8
\0d9
\0d
\ 2\0d:
\0d;
\0d<
\0d
\ 2\0d=
\0d>
\0d?
\0d@
\0dA
\0dB
\0dC
\0dD
\0dE
\0dF
\0dG
\0dH
\0dI
\0dJ
\0dK
\0dL
\0dM
\0dN
\0dO
\0dP
\0dQ
\0dR
\0dS
\0dT
\0dU
\0dV
\0dW
\0dX
\0dY
\0dZ
\0d[
\0d\
\0d]
\0d^
\0d_
\0d`
\0da
\0db
\0dc
\0dd
\0de
\0df
\0dg
\0dh
\0di
\0dj
\0dk
\0dl
\0dm
\0dn
\0do
\0dp
\0dq
\0dr
\0ds
\0dt
\0du
\0dv
\0dw
\0dx
\0dy
\0dz
\0d{
\0d|
\0d}
\0d~
\0d
\7f\0d
\80\0d
\81\0d
\82\0d
\83\0d
\84\0d
\85\0d
\86\0d
\87\0d
\88\0d
\89\0d
\8a\0d
\8b\0d
\8c\0d
\8d\0d
\8e\0d
\8f\0d
\90\0d
\91\0d
\92\0d
\93\0d
\94\0d
\95\0d
\96\0d
\97\0d
\98\0d
\99\0d
\9a\0d
\9b\0d
\9c\0d
\9d\0d
\9e\0d
\9f\0d
\0d¡
\0d¢
\0d£
\0d¤
\0d¥
\0d¦
\0d§
\0d¨
\0d©
\0dª
\0d«
\0d¬
\0d
\0d®
\0d¯
\0d°
\0d±
\0d²
\0d³
\0d´
\0dµ
\0d¶
\0d·
\0d¸
\0d¹
\0dº
\0d»
\0d¼
\0d½
\0d¾
\0d¿
\0dÀ
\0dÁ
\0dÂ
\0dÃ
\0dÄ
\0dÅ
\0dÆ
\0dÇ
\0dÈ
\0dÉ
\0dÊ
\0dË
\0dÌ
\0dÍ
\0dÎ
\0dÏ
\0dÐ
\0dÑ
\0dÒ
\0dÓ
\0dÔ
\0dÕ
\0dÖ
\0d×
\0dØ
\0dÙ
\0dÚ
\0dÛ
\0dÜ
\0dÝ
\0dÞ
\0dß
\0dà
\0dá
\0dâ
\0dã
\0dä
\0då
\0dæ
\0dç
\0dè
\0dé
\0dê
\0dë
\0dì
\0dí
\0dî
\0dï
\0dð
\0dñ
\0dò
\0dó
\0dô
\0dõ
\0dö
\0d÷
\0dø
\0dù
\0dú
\0dû
\0dü
\0dý
\0dþ
\0dÿ
\0d
\0\ 1d
\ 1\ 1d
\ 2\ 1d
\ 3\ 1d
\ 4\ 1d
\ 5\ 1d
\ 6\ 1d
\a\ 1d
\b\ 1d
\ 1d
7369 +
\ 1d
\v\ 1d
\f\ 1d
\r\ 1d
\ e\ 1d
\ f\ 1d
\10\ 1d
\11\ 1d
\12\ 1d
\13\ 1d
\14\ 1d
\15\ 1d
\16\ 1d
\17\ 1d
\18\ 1d
\19\ 1d
\1a\ 1d
\e\ 1d
\1c\ 1d
\1d\ 1d
\1e\ 1d
\1f\ 1d
\ 1d!
\ 1d"
\ 1d#
\ 1d$
\ 1d%
\ 1d&
\ 1d'
\ 1d(
\ 1d)
\ 1d*
\ 1d+
\ 1d,
\ 1d-
\ 1d.
\ 1d/
\ 1d0
\ 1d1
\ 1d2
\ 1d3
\ 1d4
\ 1d5
\ 1d6
\ 1d7
\ 1d8
\ 1d9
\ 1d:
\ 1d;
\ 1d<
\ 1d=
\ 1d>
\ 1d?
\ 1d@
\ 1dA
\ 1dB
\ 1dC
\ 1dD
\ 1dE
\ 1dF
\ 1dG
\ 1dH
\ 1dI
\ 1dJ
\ 1dK
\ 1d
\ 2\0dL
\ 1d
\ 2\0dM
\ 1d
\ 2\0dN
\ 1d
\ 2\0dO
\ 1dP
\ 1dQ
\ 1dR
\ 1dS
\ 1dT
\ 1dU
\ 1dV
\ 1dW
\ 1dX
\ 1dY
\ 1dZ
\ 1d[
\ 1d\
\ 1d]
\ 1d^
\ 1d_
\ 1d`
\ 1da
\ 1db
\ 1dc
\ 1dd
\ 1de
\ 1df
\ 1dg
\ 1dh
\ 1di
\ 1dj
\ 1dk
\ 1dl
\ 1dm
\ 1dn
\ 1do
\ 1d
\ 2\0dp
\ 1dq
\ 1dr
\ 1ds
\ 1dt
\ 1du
\ 1dv
\ 1dw
\ 1dx
\ 1d/
\0dy
\ 1dq
\0dz
\ 1d+
\0d{
\ 1do
\0d|
\ 1ds
\0d}
\ 1d~
\ 1d
\7f\ 1d
\80\ 1d
\81\ 1d
\82\ 1d
\83\ 1d
\84\ 1d
\85\ 1d
\86\ 1d
\87\ 1d
\88\ 1d
\89\ 1d
\8a\ 1d
\8b\ 1d
\8c\ 1d
\8d\ 1d
\8e\ 1d
\8f\ 1d
\90\ 1d
\91\ 1d
\92\ 1d
\93\ 1d
\94\ 1d
\95\ 1d
\96\ 1d
\97\ 1d
\98\ 1d
\99\ 1d
\9a\ 1d
\9b\ 1d
\9c\ 1d
\9d\ 1d
\9e\ 1d
\9f\ 1d
\ 1d¡
\ 1d¢
\ 1d£
\ 1d¤
\ 1g¶
\ 1d¥
\ 1d¦
\ 1\83\ 3\0}
\ 1\0|
\ 1\0j
\ 1\0d§
\ 1d¨
\ 1g
\ 2\0\83\ 1\0\ 1t
\ 2\0d©
\ 1d¦
\ 1\83\ 2\0}
\ 2\0|
\ 2\0j
\ 3\0dª
\ 1\83\ 1\0\ 1|
\ 2\0j
\ 4\0d«
\ 1\83\ 1\0\ 1|
\ 2\0j
\ 5\0do
\ 1d¬
\ 1d¬
\ 1\83\ 3\0\ 1|
\ 2\0j
\ 6\0|
\ 1\0\83\ 1\0\ 1|
\ 2\0j
\a\0d
\ 1\83\ 1\0\ 1d®
\ 1d¯
\ 1d°
\ 1g
\ 3\0d®
\ 1d°
\ 1d±
\ 1g
\ 3\0d¯
\ 1d²
\ 1d°
\ 1g
\ 3\0d²
\ 1d³
\ 1d°
\ 1g
\ 3\0d²
\ 1d´
\ 1dµ
\ 1g
\ 3\0d²
\ 1dµ
\ 1d³
\ 1g
\ 3\0d´
\ 1d¶
\ 1dµ
\ 1g
\ 3\0d¶
\ 1d·
\ 1dµ
\ 1g
\ 3\0d±
\ 1d°
\ 1d¸
\ 1g
\ 3\0d±
\ 1d¸
\ 1d¹
\ 1g
\ 3\0d°
\ 1d³
\ 1d¸
\ 1g
\ 3\0d³
\ 1dº
\ 1d¸
\ 1g
\ 3\0d³
\ 1dµ
\ 1d»
\ 1g
\ 3\0d³
\ 1d»
\ 1dº
\ 1g
\ 3\0dµ
\ 1d·
\ 1d»
\ 1g
\ 3\0d·
\ 1d¼
\ 1d»
\ 1g
\ 3\0d¹
\ 1d¸
\ 1d½
\ 1g
\ 3\0d¹
\ 1d½
\ 1d¾
\ 1g
\ 3\0d¸
\ 1dº
\ 1d½
\ 1g
\ 3\0dº
\ 1d¿
\ 1d½
\ 1g
\ 3\0dº
\ 1d»
\ 1dÀ
\ 1g
\ 3\0dº
\ 1dÀ
\ 1d¿
\ 1g
\ 3\0d»
\ 1d¼
\ 1dÀ
\ 1g
\ 3\0d¼
\ 1dÁ
\ 1dÀ
\ 1g
\ 3\0d¾
\ 1d½
\ 1dÂ
\ 1g
\ 3\0d¾
\ 1dÂ
\ 1dÃ
\ 1g
\ 3\0d½
\ 1d¿
\ 1dÂ
\ 1g
\ 3\0d¿
\ 1dÄ
\ 1dÂ
\ 1g
\ 3\0d¿
\ 1dÀ
\ 1dÅ
\ 1g
\ 3\0d¿
\ 1dÅ
\ 1dÄ
\ 1g
\ 3\0dÀ
\ 1dÁ
\ 1dÅ
\ 1g
\ 3\0dÁ
\ 1dÆ
\ 1dÅ
\ 1g
\ 3\0dÃ
\ 1dÂ
\ 1dÇ
\ 1g
\ 3\0dÃ
\ 1dÇ
\ 1dÈ
\ 1g
\ 3\0dÂ
\ 1dÄ
\ 1dÇ
\ 1g
\ 3\0dÄ
\ 1dÉ
\ 1dÇ
\ 1g
\ 3\0dÄ
\ 1dÅ
\ 1dÊ
\ 1g
\ 3\0dÄ
\ 1dÊ
\ 1dÉ
\ 1g
\ 3\0dÅ
\ 1dÆ
\ 1dÊ
\ 1g
\ 3\0dÆ
\ 1dË
\ 1dÊ
\ 1g
\ 3\0dÌ
\ 1dÍ
\ 1dÎ
\ 1dÏ
\ 1g
\ 4\0dÍ
\ 1dÐ
\ 1dÑ
\ 1dÎ
\ 1g
\ 4\0dÐ
\ 1dÒ
\ 1dÓ
\ 1dÑ
\ 1g
\ 4\0dÒ
\ 1dÔ
\ 1dÕ
\ 1dÓ
\ 1g
\ 4\0dÏ
\ 1dÎ
\ 1dÖ
\ 1d×
\ 1g
\ 4\0dÎ
\ 1dÑ
\ 1dØ
\ 1dÖ
\ 1g
\ 4\0dÑ
\ 1dÓ
\ 1dÙ
\ 1dØ
\ 1g
\ 4\0dÓ
\ 1dÕ
\ 1dÚ
\ 1dÙ
\ 1g
\ 4\0d×
\ 1dÖ
\ 1dÛ
\ 1dÜ
\ 1g
\ 4\0dÖ
\ 1dØ
\ 1dÝ
\ 1dÛ
\ 1g
\ 4\0dØ
\ 1dÙ
\ 1dÞ
\ 1dÝ
\ 1g
\ 4\0dÙ
\ 1dÚ
\ 1dß
\ 1dÞ
\ 1g
\ 4\0dÜ
\ 1dÛ
\ 1dà
\ 1dá
\ 1g
\ 4\0dÛ
\ 1dÝ
\ 1dâ
\ 1dà
\ 1g
\ 4\0dÝ
\ 1dÞ
\ 1dã
\ 1dâ
\ 1g
\ 4\0dÞ
\ 1dß
\ 1dä
\ 1dã
\ 1g
\ 4\0dá
\ 1dà
\ 1d¯
\ 1d®
\ 1g
\ 4\0dà
\ 1dâ
\ 1d²
\ 1d¯
\ 1g
\ 4\0dâ
\ 1dã
\ 1d´
\ 1d²
\ 1g
\ 4\0dã
\ 1dä
\ 1d¶
\ 1d´
\ 1g
\ 4\0d
\ 1d¦
\ 1då
\ 1dæ
\ 1dç
\ 1dè
\ 1g
\ 6\0då
\ 1dé
\ 1d
\ 1dê
\ 1dë
\ 1dè
\ 1g
\ 6\0d¦
\ 1dì
\ 1då
\ 1dí
\ 1dî
\ 1dç
\ 1g
\ 6\0dì
\ 1dï
\ 1då
\ 1dð
\ 1dñ
\ 1dî
\ 1g
\ 6\0dì
\ 1dò
\ 1dó
\ 1dô
\ 1dõ
\ 1dö
\ 1g
\ 6\0dó
\ 1dï
\ 1dì
\ 1d÷
\ 1dð
\ 1dö
\ 1g
\ 6\0dò
\ 1dø
\ 1dó
\ 1dù
\ 1dú
\ 1dõ
\ 1g
\ 6\0dø
\ 1dû
\ 1dó
\ 1dü
\ 1dý
\ 1dú
\ 1g
\ 6\0dé
\ 1då
\ 1dþ
\ 1dê
\ 1dÿ
\ 1d
\0\ 2g
\ 6\0dþ
\ 1d
\ 1\ 2dé
\ 1d
\ 2\ 2d
\ 3\ 2d
\0\ 2g
\ 6\0då
\ 1dï
\ 1dþ
\ 1dñ
\ 1d
\ 4\ 2dÿ
\ 1g
\ 6\0dï
\ 1d
\ 5\ 2dþ
\ 1d
\ 6\ 2d
\a\ 2d
\ 4\ 2g
\ 6\0dï
\ 1dó
\ 1d
\b\ 2d÷
\ 1d
\ 2d
7370 +
\ 2g
\ 6\0d
\b\ 2d
\ 5\ 2dï
\ 1d
\v\ 2d
\ 6\ 2d
7371 +
\ 2g
\ 6\0dó
\ 1dû
\ 1d
\b\ 2dý
\ 1d
\f\ 2d
\ 2g
\ 6\0dû
\ 1d
\r\ 2d
\b\ 2d
\ e\ 2d
\ f\ 2d
\f\ 2g
\ 6\0d
\ 1\ 2dþ
\ 1d
\10\ 2d
\ 2\ 2d
\11\ 2d
\12\ 2g
\ 6\0d
\10\ 2d
\13\ 2d
\ 1\ 2d
\14\ 2d
\15\ 2d
\12\ 2g
\ 6\0dþ
\ 1d
\ 5\ 2d
\10\ 2d
\a\ 2d
\16\ 2d
\11\ 2g
\ 6\0d
\ 5\ 2d
\17\ 2d
\10\ 2d
\18\ 2d
\19\ 2d
\16\ 2g
\ 6\0d
\ 5\ 2d
\b\ 2d
\1a\ 2d
\v\ 2d
\e\ 2d
\1c\ 2g
\ 6\0d
\1a\ 2d
\17\ 2d
\ 5\ 2d
\1d\ 2d
\18\ 2d
\1c\ 2g
\ 6\0d
\b\ 2d
\r\ 2d
\1a\ 2d
\ f\ 2d
\1e\ 2d
\e\ 2g
\ 6\0d
\r\ 2d
\1f\ 2d
\1a\ 2d
\ 2d!
\ 2d
\1e\ 2g
\ 6\0d
\13\ 2d
\10\ 2d"
\ 2d
\14\ 2d#
\ 2d$
\ 2g
\ 6\0d"
\ 2d%
\ 2d
\13\ 2d&
\ 2d'
\ 2d$
\ 2g
\ 6\0d
\10\ 2d
\17\ 2d"
\ 2d
\19\ 2d(
\ 2d#
\ 2g
\ 6\0d
\17\ 2d)
\ 2d"
\ 2d*
\ 2d+
\ 2d(
\ 2g
\ 6\0d
\17\ 2d
\1a\ 2d,
\ 2d
\1d\ 2d-
\ 2d.
\ 2g
\ 6\0d,
\ 2d)
\ 2d
\17\ 2d/
\ 2d*
\ 2d.
\ 2g
\ 6\0d
\1a\ 2d
\1f\ 2d,
\ 2d!
\ 2d0
\ 2d-
\ 2g
\ 6\0d
\1f\ 2d1
\ 2d,
\ 2d2
\ 2d3
\ 2d0
\ 2g
\ 6\0d%
\ 2d"
\ 2d4
\ 2d&
\ 2d5
\ 2d6
\ 2g
\ 6\0d4
\ 2d7
\ 2d%
\ 2d8
\ 2d9
\ 2d6
\ 2g
\ 6\0d"
\ 2d)
\ 2d4
\ 2d+
\ 2d:
\ 2d5
\ 2g
\ 6\0d)
\ 2d;
\ 2d4
\ 2d<
\ 2d=
\ 2d:
\ 2g
\ 6\0d)
\ 2d,
\ 2d>
\ 2d/
\ 2d?
\ 2d@
\ 2g
\ 6\0d>
\ 2d;
\ 2d)
\ 2dA
\ 2d<
\ 2d@
\ 2g
\ 6\0d,
\ 2d1
\ 2d>
\ 2d3
\ 2dB
\ 2d?
\ 2g
\ 6\0d1
\ 2dC
\ 2d>
\ 2dD
\ 2dE
\ 2dB
\ 2g
\ 6\0d7
\ 2d4
\ 2dF
\ 2dG
\ 2d8
\ 2dH
\ 2dI
\ 2dJ
\ 2g
\b\0d4
\ 2d;
\ 2dK
\ 2dF
\ 2d=
\ 2dL
\ 2dM
\ 2dH
\ 2g
\b\0d;
\ 2d>
\ 2dN
\ 2dK
\ 2dA
\ 2dO
\ 2dP
\ 2dL
\ 2g
\b\0d>
\ 2dC
\ 2dQ
\ 2dN
\ 2dE
\ 2dR
\ 2dS
\ 2dO
\ 2g
\b\0dG
\ 2dF
\ 2dT
\ 2dU
\ 2dI
\ 2dV
\ 2dW
\ 2dX
\ 2g
\b\0dF
\ 2dK
\ 2dY
\ 2dT
\ 2dM
\ 2dZ
\ 2d[
\ 2dV
\ 2g
\b\0dK
\ 2dN
\ 2d\
\ 2dY
\ 2dP
\ 2d]
\ 2d^
\ 2dZ
\ 2g
\b\0dN
\ 2dQ
\ 2d_
\ 2d\
\ 2dS
\ 2d`
\ 2da
\ 2d]
\ 2g
\b\0dU
\ 2dT
\ 2db
\ 2dc
\ 2dW
\ 2dd
\ 2de
\ 2df
\ 2g
\b\0dT
\ 2dY
\ 2dg
\ 2db
\ 2d[
\ 2dh
\ 2di
\ 2dd
\ 2g
\b\0dY
\ 2d\
\ 2dj
\ 2dg
\ 2d^
\ 2dk
\ 2dl
\ 2dh
\ 2g
\b\0d\
\ 2d_
\ 2dm
\ 2dj
\ 2da
\ 2dn
\ 2do
\ 2dk
\ 2g
\b\0dc
\ 2db
\ 2dp
\ 2dq
\ 2de
\ 2dr
\ 2ds
\ 2dt
\ 2g
\b\0db
\ 2dg
\ 2du
\ 2dp
\ 2di
\ 2dv
\ 2dw
\ 2dr
\ 2g
\b\0dg
\ 2dj
\ 2dx
\ 2du
\ 2dl
\ 2dy
\ 2dz
\ 2dv
\ 2g
\b\0dj
\ 2dm
\ 2d{
\ 2dx
\ 2do
\ 2d|
\ 2d}
\ 2dy
\ 2g
\b\0dq
\ 2dp
\ 2dÊ
\ 1dË
\ 1ds
\ 2d~
\ 2d
\7f\ 2d
\80\ 2g
\b\0dp
\ 2du
\ 2dÉ
\ 1dÊ
\ 1dw
\ 2d
\81\ 2d
\82\ 2d~
\ 2g
\b\0du
\ 2dx
\ 2dÇ
\ 1dÉ
\ 1dz
\ 2d
\83\ 2d
\84\ 2d
\81\ 2g
\b\0dx
\ 2d{
\ 2dÈ
\ 1dÇ
\ 1d}
\ 2d
\85\ 2d
\86\ 2d
\83\ 2g
\b\0gx
\0}
\ 3\0x+
\0t
\b\0d
\ 1d
\ e\ 2\83\ 2\0D]
\1a\0}
\ 4\0|
\ 2\0j
\0t
7372 +
\0|
\ 3\0|
\ 4\0\19\83\ 2\0\ 1q#
\ eWx+
\0t
\b\0d
\ e\ 2d;
\ 2\83\ 2\0D]
\1a\0}
\ 4\0|
\ 2\0j
\0t
\v\0|
\ 3\0|
\ 4\0\19\83\ 2\0\ 1qQ
\ eWx+
\0t
\b\0d;
\ 2dF
\ 2\83\ 2\0D]
\1a\0}
\ 4\0|
\ 2\0j
\0t
\f\0|
\ 3\0|
\ 4\0\19\83\ 2\0\ 1q
\7f\ eWx+
\0t
\b\0dF
\ 2d[
\ 2\83\ 2\0D]
\1a\0}
\ 4\0|
\ 2\0j
\0t
\r\0|
\ 3\0|
\ 4\0\19\83\ 2\0\ 1q
\ eWt
\ e\0j
\ f\0t
\10\0\83\ 1\0}
\ 5\0|
\ 5\0j
\11\0d
\87\ 2\83\ 1\0\ 1|
\ 5\0j
\12\0t
\13\0\83\ 1\0\ 1|
\ 5\0j
\14\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\15\0t
\16\0t
\b\0d
\ 1d
\ e\ 2\83\ 2\0\83\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0g
\ 6\0d
\88\ 2d
\88\ 2g
\ 2\0d
\89\ 2g
\ 1\0\83\ 4\0\ 1|
\ 5\0j
\15\0t
\16\0t
\b\0d
\ e\ 2d;
\ 2\83\ 2\0\83\ 1\0do
\ 1do
\ 1d
\ 1\0do
\ 1d
\ 1\0d
\ 1\0do
\ 1d
\ 1\0g
\b\0d
\8a\ 2d
\8a\ 2d
\8b\ 2d
\8a\ 2d
\8b\ 2d
\8b\ 2d
\8a\ 2d
\8b\ 2g
\b\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0g
\ 4\0\83\ 4\0\ 1|
\ 5\0j
\15\0t
\16\0t
\b\0d;
\ 2dF
\ 2\83\ 2\0\83\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\89\ 2d
\ 2\0d
\89\ 2d
\89\ 2d
\ 2\0d
\89\ 2g
\f\0d
\8c\ 2d
\8c\ 2d
\8d\ 2d
\8c\ 2d
\8c\ 2d
\8d\ 2g
\ 6\0d
\8c\ 2d
\8c\ 2d
\8c\ 2g
\ 3\0\83\ 4\0\ 1|
\ 5\0j
\15\0t
\16\0t
\b\0dF
\ 2d[
\ 2\83\ 2\0\83\ 1\0do
\ 1do
\ 1d
\ 1\0do
\ 1d
\ 1\0d
\ 1\0do
\ 1d
\ 1\0d
\ 2\0do
\ 1d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0do
\ 1d
\ 2\0g
\10\0d
\8e\ 2d
\8e\ 2d
\8f\ 2d
\8e\ 2d
\8f\ 2d
\8f\ 2d
\8e\ 2d
\8f\ 2d
\ 2\0d
\8e\ 2d
\8f\ 2d
\ 2\0d
\ 2\0d
\8f\ 2d
\8e\ 2d
\ 2\0d
\ 2\0d
\ 2\0g
\12\0d
\90\ 2d
\90\ 2d
\90\ 2d
\90\ 2d
\91\ 2d
\91\ 2d
\91\ 2d
\91\ 2d
\92\ 2g
\0\83\ 4\0\ 1t
\17\0|
\ 5\0\83\ 1\0S(
\93\ 2\0\0Ng
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0g
\fg
\85\17ÖÙó?g¸
\9d±¯Ä
\7fÃ?g
\0\0\0\0\0\0ô?g
\0\0\0\0\0\0ø?gªöí
\92Êû?gwvÅÂyLË?g
\0\0\0\0\0\0ü?g
\0\0\0\0\0\0\0@g
\8c>¢%ðÂï?g²bOLÔ2¿?gk
\14¬
\ 3êgó?g¸óÎw
\8fZÓ?gÛ®9
\1c4Ò÷?g
\17\8a;9
\1ffÇ?gÎ
\82\8ak
\14+û?g
\ 2"
\88tb
\18Û?gx>¢%ðÂÿ?gÕbOLÔ2Ï?g ºy
\9f©
\fï?g'¹äòK÷Î?gùÒ_
\89î«ò?g
\ 5\88Â'`«Ü?g
\86K
\9b7
\7fI÷?gÝ
\8a+öx9×?g÷À
\1f\8dç#ú?gÐøÔ
\e\90\11ä?g
\18ºy
\9f©
\fÿ?g
\15¹äòK÷Þ?g
\b¸ÿ
\ eäßí?g8ÓÎ
\1f\80ïÖ?gk8¤
\11±¨ñ?gP²
\96\88cÇâ?gøÉ?
\vëgö?gj
\1eÛ
\17 3á?g
\1e\82\7få÷¸ø?glÆ
\9f%XJê?gö·ÿ
\ eäßý?g@ÓÎ
\1f\80ïæ?g
\b'mO
\eAì?g}P$tÒ
\vÞ?g
\8et÷
\ ebð?gÚ[
\9b6lñæ?gDÝ
\91{Ô0õ?gY<
\e×Ý
\88æ?grÖò
\8d®ïö?gFÀlYe
\ fð?gö&mO
\eAü?g}P$tÒ
\vî?g
\0\0\0\0\0\0ò?g;C+
\15§Ýñ?g
\9a§ìj
\97\8cÁ?g
\0\0\0\0\0\0ö?g¶P¥J
\8aô÷?g
\1aú'ÍPq·?g
\0\0\0\0\0\0ú?gÙÒ
\93\1ecÎù?gX
\80\0~LYÉ?g
\0\0\0\0\0\0þ?g8
\16\87c¸ðÿ?gà¢
\8a\11ÁA¿?gÇx´i
\1fwñ?g
\1d¨ ¸
\1akÑ?g
7373 +
\8bß
\19\ 5Öõ?gù
\93vôñrÅ?g0Ù6?
\1e\99÷?g
\9f.OÊ
\9e~Ñ?g,ç
\92ÑI:ù?ggÖYµí(Ù?g©
\1aH#ÁÆý?g·l
\8a\a§?Í?gNÌóþÒvÿ?g0>
\14c~S×?gz×oHðÍð?g§È#pÍÙ?g
\ f°£
\9d´Xõ?gB?ý6
\ 4JÕ?gç
\81Ú
\ e£ãö?g4|xN%ÞÜ?gvÅ/LéEø?g¢
\vØ
\19\98¢â?gt
\1e\82\ 5ß
\eý?g
\8cm¶3×
\aÝ?gÏW#iÙ
\84þ?g
\1c¨¥
\89Ã>ã?gêËZ¹>Éï?gCmTa¦æà?gyÎOÊì
\89ô?gub¼+P
\89ß?gùý
\bSÍÖõ?g#à
\13%Àçã?gǯ
\880æôö?gg
\81]þ
\9aiè?gu¼
\ fÎå
\ 1ü?g
\bæÑ
\1d\88\80å?gÎRa
\19g
\1eý?gÔ*Å
\86U
\8aê?g288$N}í?g©Ò
\8b\97\14¦ä?gÁ
7374 +
\9bÆÂló?gU÷د ¨ä?gøÃû
\ 4\9fvô?gèÅo]v
\14é?gâ}a¨FLõ?ge÷É
\13sÓí?g Tv
\9a }ú?gp
\vâL
\15+ì?g,
\ 5¥
\ 6ÔHû?g§.õèN¸ð?gJ
\87\15Y~6ê?gwI|ø¼Zâ?g
\80%ÐÂÞ¨ó?g4nºt
\e\88ë?g6
\87\15Y~6ú?goI|ø¼Zò?gÞm4>söó?gÁ¥öª
\18\89³?gL
\16\87c¸ðï?gÑ¢
\8a\11ÁA¯?g`ßlÄ~õõ?gíO
\ f¼4}µ?g
\8e3
\16W¡òû?g
\95NYï
\88Y»?gã¤Nݬñý?gºøq
\0¥M½?g _XßCªó?g¯MÙû](Í?gOÌóþÒvï?g
\1f>
\14c~SÇ?g
\7f\9cG
\ f±¡õ?gÅê
\1däf Ð?g¾R
\15\9fø
\87û?gh¶±
\96\ eiÔ?gp
\8f\ 4Ïe
\7fý?gUúâ|FÞÕ?gÜ
\16¶á
\a\13ó?g
\1f\12\ flt
\ eØ?gâW#iÙ
\84î?g
\1c¨¥
\89Ã>Ó?gbLHxUûô?g2ÇCÝLvÚ?gòìþ;>´ú?g
\eóp
\18ëÖà?gv"
\91Ò
\8b\9cü?g
\9bM
\vQ×
7375 +â?g»ÓÜo
\03ò?gÆ:;tu
\96à?g½Ra
\19g
\1eí?gÔ*Å
\86U
\8aÚ?gðèráæ
\ 4ô?gt
\8d§Ì
\1a?â?gb(56
\9azù?gv
\85ìÕ
7376 +9ç?g
\98=˧
\80Lû?g$ØX.°áè?g^#'
\84\84\rñ?gDz2£bæä?g?
\ 5¥
\ 6ÔHë?g
\9e.õèN¸à?g«s
\91Ä
\11Âò?g
\e Q
\80lýæ?gðÌ>Ýv
\ 5ò?g
\ 3åªÕÃ<é?g
\92dÐ
\85¹ß÷?g
\8d\11
\17\8aBí?gß´:ÆF
\94ù?ge·Ëô
\93Yï?gÔ.
\84s
\16\93ø?gÚ
\84ô(
\115ñ?g
\88üû·g÷ñ?g
\95ûÝ
\99ü
\94±?g
\fÂÝÐ
\95óù?gE¤@Þle¹?gï"i¯Ö²ñ?gøÅv/î=Ê?g
\ e\16&o
\8b\90ù?g
\8dr
\80°ÖóÒ?g
\84á#Kº*ñ?g
\1d]Úú
\9b¦Õ?gm·l¥ðËø?g41¿ýEß?g
\86¾Fþ
\19að?g/Ð
\9d7 ÛÝ?g.
\13\9fij¨÷?gÈ2
\80}e
\90å?gì¥y
\87î±î?glÔ
\13ÆXÏâ?gE
\14fE,+ö?gÀk
\8e:
\80+ë?gÀ¾3¨×Çç?gÖ
\vâ
\96\84iå?gu®@
\92͹í?gÐ
\8e\9a¼åÃê?g
\vÏ&¾áÕñ?gî
\88)q#
\ fð?gêF-³ÜÎô?gTÊ
\ 5\ 4T¼ò?gÒO8
\81oþä?g8
\1c¡´
\94&è?gÈc
\86a
\v>ê?gEcÉá90î?g¿wÔA§}ï?g2Õx
\87ï
\1cò?gäE
\11\91¡^ò?g¬ø
\f\1eÂ!õ?g
\14ý
\11\84èäá?g¨î¨Íy
\87ê?gS|
\16¥"^æ?g
\1d\95\89 ¬
\94ð?g
\9aû
\1aÆ\×ê?gð²>Z
\9båó?gàz
\1fç
\96Pï?gÃÐó
\93\8a6÷?g
\ 5ÞD+.
\ eÝ?go,=
\1d \83ì?g¼
7377 +
\vÛÜ(â?gÅ;F
\12ôÑñ?g
\80¦s ¢Êå?gJáí
\15Xbõ?gBBÜehlé?gÎ
\86\95\19¼òø?g
\956:
\9dÒÀê?gOM¾)µ
\16è?g2
\93£CdYð?gHÐvO
\16qí?g
\11\vª8_Ró?g
\8b©
\97º»eñ?gÃ
\82°-ZKö?g
\1eësMì
\12ô?gÒY_q=
\9eç?gº?5Kg+ë?gÈmQÙÝì?g_Ã.<
\86\9að?gÉÀý
\98º
\ eñ?gØæÂÒX
\9fó?gÒÊ$
\89\88®ó?g
\7f
7378 +Wi+¤ö?g´<
\94\94\85!ä?gz
\f^
\aiØí?gû»
\98µ¿
\9aè?g
\a$d½#=ò?gB;
\9dÖù
\13í?gÙA
\19÷
\12\8eõ?g@ÝÐû
\99Æð?g¬_Î0
\ 2ßø?gß¼VøùWà?gìhr
\10 ð?g¢X¿½¿ùã?g
\9e\ e\1a\14&
\9aó?geô'
\83\85\9bç?g"´Á
\17\8a*÷?g
\1f\90\90HK=ë?g¨Yi
\eîºú?gɾ3¨×Ç÷?gè
\vâ
\96\84iõ?gÀO8
\81oþô?g$
\1c¡´
\94&ø?g
\ 2ý
\11\84èäñ?g
\96î¨Íy
\87ú?g
\ 5ÞD+.
\ eí?g
\7f,=
\1d \83ü?gå
\8e¢SèMï?g
\8e\98áÄ
\8cæè?g»U.2XÈò?g
\14·
\ e¹uáí?göc
\8b:¼éõ?g¹ê
\9dV/nñ?g^rèB
\vù?g
\12z´Ð£ëó?gR@ñ
\94O ì?g
\18ûæA¯
\87ì?g¦&÷òbÒð?gjcWô5
\1eñ?g
\bu
\e\1e ó?ghI»G
\94øó?gj3ôCÙmö?g8/
\1f\9bòÒö?gçXz
\8f·Yè?g·í,.ð»ï?gß
\9d_ßu8í?ga[
\81è\
7379 +ó?ghq¢
\17\9a\vñ?gù?ì¹Á6ö?gä
\13\95?ùzó?g
\90$W
\8b&cù?g
\9aC¿]1Mä?g¨
\86»
\92\8a;ñ?g
\1fQ²£¡\è?gó
\aá|Ùô?g¤^¥é
\11lì?g?
\89\ 6g( ø?g
\1d6Ì
\17Á=ð?g
\8a
7380 +,Qw
\92û?gø
\8c»
\84aæß?gB
\a\ fûXWò?gÃ
\87p
\1cÔ#ã?g°ÕÞÆj
\ 2ö?g
\12I
\83vwTæ?gð£®
\92|ù?gb
7381 +
\96Ð
\1a\85é?g0r~^
\8eXý?gõ
\8e¬
\91\92\Û?gF\sé9Ëò?g÷
\88gW¾jà?gÊ¡½±x
\8dö?gtÊøe3'ã?gyç
\az·Oú?gò
\v\8at¨ãå?g*-RBö
\11þ?goM
\e\83\1d Ø?gm9N
\85\1aêð?gzÐ=
\a\19Þ?gñ~
\98MY¬ô?g»)°ÞøÈá?g¡Äâ
\15\98nø?g8kAím
\85ä?gR
7382 +-ÞÖ0ü?gû
\v\8at¨ãÕ?g"-RBö
\11î?gUrèB
\vé?g
\13z´Ð£ëã?gt3ôCÙmæ?gJ/
\1f\9bòÒæ?gí
\13\95?ùzã?g
\90$W
\8b&cé?g
\146Ì
\17Á=à?g
\94
7384 +
\96Ð
\1a\85Ù?g(r~^
\8eXí?g
\0\0\0\0\0\0\0Àg
\0\0\0\0\0\0ü¿g
\0\0\0\0\0\0ø¿g
\0\0\0\0\0\0ô¿gʶ8i}iÿ¿gWbvÝmlØ?gá
\9f\11¼M|û¿gþ
\95Ç!à^Õ?g$
\89ê
\ e\1e\8f÷¿g¸É
\18fRQÒ?g9rÃaî¡ó¿gäúÓT
\89\87Î?gBË
\97y}«ý¿g
\81\96åî
\8dùç?göÑdÊ
\röù¿g±ã
\b1\úä?g}Ø1
\e\9e@ö¿gá0,s*ûá?g
\ 4ßþk.
\8bò¿g ü
\9ejñ÷Ý?gä/®¨cÖú¿g
7385 +wp×®mñ?gØi
\983
\97{÷¿goÐ
\ 4ùñ
\7fî?g÷£
\82¾Ê ô¿g¯²(C
\86$ê?géÝlIþÅð¿gæ
\94L
\8d\1aÉå?g.M¥æÔ
\ 4÷¿gürà0¤:ö?g
\94£ÐI:$ô¿gÄdĪOsó?gùùû¬
\9fCñ¿g_V¨$û«ð?g
\88 N
7386 +Æì¿gØ
\8f\18=MÉë?g
\0\0\0\0\0\0ð¿g¶8i}iï¿gWbvÝmlÈ?gUË
\97y}«í¿g
\81\96åî
\8dù×?gÜ/®¨cÖê¿g
\1cwp×®má?g8M¥æÔ
\ 4ç¿g
\ esà0¤:æ?gFÀlYe
\ fð¿g4nºt
\e\88ë¿gÚ[
\9b6lñæ¿gwI|ø¼Zâ¿goI|ø¼Zò¿g×
\1a\ 6!ù
\aê¿g
\8e\7fÿ®Ã;ý?gtWåüùÆæ¿g
\9c\8f\1f9K
\94ù?g
\1a\94ÄØú
\85ã¿gª
\9f?ÃÒìõ?gÀУ´ûDà¿g¸¯_MZEò?gÍ
\1a\ 6!ù
\aÚ¿g
\97\7fÿ®Ã;í?guÆÍ62ËÜ¿g
\ e\87N!
7387 +.ÿ?g¬
\rôïË1Ù¿g&¶$ÝHHû?gáT
\1a©e
\98Õ¿g?åú
\98\87b÷?g
\ 5\9c@bÿþÑ¿gW
\14ÑTÆ|ó?guÆÍ62ËÌ¿g
\r\87N!
7388 +.ï?g
\1eÜ÷ÉXÞ±¿ga
\ 5¿x
\ 2ûÿ?gEÁqa
\eE¯¿gÅ$§)¢ûû?gAÊó.
\85ͪ¿gýC
\8fÚAü÷?g>ÓuüîU¦¿gbcw
\8báüó?g
\1eÜ÷ÉXÞ¡¿gj
\ 5¿x
\ 2ûï?gzS¨g
\v\ 6Ô?gpä/
\94$
\9bÿ?g
\aI³úI
\85Ñ?gÌç©
\ 1À§û?gJ}|
\e\11 Î?gTë#o[´÷?gbh
\92A
\8e\aÉ?g°î
\9dÜöÀó?gzS¨g
\v\ 6Ä?g_ä/
\94$
\9bï?iÛ
\0\0\0i
\ 2\0\0\0s
\f\0\0\0X [INCONNUE]s
\f\0\0\0Y [INCONNUE]t
\ 3\0\0\0MA2s
\13\0\0\0CREE PAR CODE_ASTERs
\v\0\0\0SANS UNITESiÿÿÿÿi
\0\0\0\0iÆ
\0\0\0iÂ
\0\0\0iÈ
\0\0\0iÇ
\0\0\0iÃ
\0\0\0iÉ
\0\0\0iÄ
\0\0\0iÊ
\0\0\0iÅ
\0\0\0iË
\0\0\0iÍ
\0\0\0iÌ
\0\0\0iÎ
\0\0\0iÏ
\0\0\0iÐ
\0\0\0iÒ
\0\0\0iÑ
\0\0\0iÓ
\0\0\0iÔ
\0\0\0iÕ
\0\0\0i×
\0\0\0iÖ
\0\0\0iØ
\0\0\0iÙ
\0\0\0iÚ
\0\0\0i
\9d\0\0\0i
\9e\0\0\0i
\9c\0\0\0i
\9b\0\0\0i£
\0\0\0i©
\0\0\0iª
\0\0\0i®
\0\0\0i
\0\0\0i«
\0\0\0i¯
\0\0\0i¬
\0\0\0i°
\0\0\0i½
\0\0\0i¾
\0\0\0i²
\0\0\0i±
\0\0\0i³
\0\0\0i´
\0\0\0i¿
\0\0\0i¶
\0\0\0iµ
\0\0\0i·
\0\0\0i¸
\0\0\0iÀ
\0\0\0iº
\0\0\0i¹
\0\0\0i»
\0\0\0i¼
\0\0\0iÁ
\0\0\0i
\ 1\0\0\0i
\e\0\0\0i>
\0\0\0iY
\0\0\0i
\a\0\0\0i
\1c\0\0\0i?
\0\0\0i
\ 3\0\0\0i
\1d\0\0\0i@
\0\0\0i
\0\0\0i
\1e\0\0\0i$
\0\0\0i
\ 5\0\0\0i
\ 4\0\0\0i
\1f\0\0\0iA
\0\0\0iZ
\0\0\0i
\0\0\0i
\ 6\0\0\0i!
\0\0\0iB
\0\0\0i
\v\0\0\0i"
\0\0\0i'
\0\0\0i
\b\0\0\0iC
\0\0\0i[
\0\0\0i
\f\0\0\0i#
\0\0\0iD
\0\0\0iE
\0\0\0i
\ e\0\0\0i%
\0\0\0i*
\0\0\0i
7389 +
\0\0\0iF
\0\0\0i\
\0\0\0i&
\0\0\0iG
\0\0\0i
\10\0\0\0i(
\0\0\0i-
\0\0\0i
\r\0\0\0iH
\0\0\0i]
\0\0\0i
\11\0\0\0i)
\0\0\0iI
\0\0\0iJ
\0\0\0i
\13\0\0\0i+
\0\0\0i0
\0\0\0i
\ f\0\0\0iK
\0\0\0i^
\0\0\0i,
\0\0\0iL
\0\0\0i
\15\0\0\0i.
\0\0\0i3
\0\0\0i
\12\0\0\0iM
\0\0\0i_
\0\0\0i
\16\0\0\0i/
\0\0\0iN
\0\0\0iO
\0\0\0i
\18\0\0\0i1
\0\0\0i6
\0\0\0i
\14\0\0\0iP
\0\0\0i`
\0\0\0i2
\0\0\0iQ
\0\0\0i
\1a\0\0\0i4
\0\0\0i9
\0\0\0i
\17\0\0\0iR
\0\0\0ia
\0\0\0i;
\0\0\0i5
\0\0\0iS
\0\0\0iT
\0\0\0i<
\0\0\0i7
\0\0\0iU
\0\0\0i
\19\0\0\0iV
\0\0\0ib
\0\0\0i8
\0\0\0iW
\0\0\0i=
\0\0\0i:
\0\0\0iX
\0\0\0id
\0\0\0ic
\0\0\0i
\87\0\0\0is
\0\0\0i¤
\0\0\0ie
\0\0\0i
\88\0\0\0it
\0\0\0if
\0\0\0i
\89\0\0\0iu
\0\0\0i
\83\0\0\0i
\8a\0\0\0iv
\0\0\0ih
\0\0\0ig
\0\0\0i
\8b\0\0\0iw
\0\0\0i¥
\0\0\0ii
\0\0\0i
\8c\0\0\0ix
\0\0\0ij
\0\0\0i
\8d\0\0\0iy
\0\0\0i
\84\0\0\0i
\8e\0\0\0iz
\0\0\0il
\0\0\0ik
\0\0\0i
\8f\0\0\0i{
\0\0\0i¦
\0\0\0im
\0\0\0i
\90\0\0\0i|
\0\0\0in
\0\0\0i
\91\0\0\0i}
\0\0\0i
\85\0\0\0i
\92\0\0\0i~
\0\0\0ip
\0\0\0io
\0\0\0i
\93\0\0\0i
\7f\0\0\0i§
\0\0\0iq
\0\0\0i
\94\0\0\0i
\80\0\0\0ir
\0\0\0i
\95\0\0\0i
\81\0\0\0i
\86\0\0\0i
\96\0\0\0i
\82\0\0\0i
\97\0\0\0i
\9f\0\0\0i¨
\0\0\0i
\98\0\0\0i
\0\0\0i
\99\0\0\0i¡
\0\0\0i
\9a\0\0\0i¢
\0\0\0t
\ 5\0\0\0CH2RBgUUUUUUÕ?g
\0\0\0\0\0\0à?g
\1e3
\90E§yâ¿g
\1e3
\90E§yâ?gUUUUUUÅ?gUUUUUUå?gDr?ô~Éè¿gDr?ô~Éè?g·æ
\87EÊÀÓ?gX¤
\f<Ý
\9aß?gàéÖü°Hé?(
\18\0\0\0R
7390 +
\0\0\0Ry
\0\0\0R
\ 2\0\0\0Rz
\0\0\0R{
\0\0\0RT
\0\0\0R
\f\0\0\0R
\ 5\0\0\0R
\17\0\0\0R
\ 6\0\0\0R
\b\0\0\0R
\a\0\0\0R8
\0\0\0R9
\0\0\0RO
\0\0\0R
\ 3\0\0\0R|
\0\0\0R-
\0\0\0R}
\0\0\0R~
\0\0\0RR
\0\0\0R
\7f\0\0\0R
\80\0\0\0R
\81\0\0\0(
\ 6\0\0\0R
\1c\0\0\0Rf
\0\0\0R
\82\0\0\0R"
\0\0\0R
\19\0\0\0R
\83\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0buildFieldOnGauss_2b
\ 2\0\0sV
\0\0\0\0\ 1ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\09
\ 1\13\ 1\ f\ 1\r\0\r\0\13\ 1\r\ 1\r\ 1ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0~
\ 1\16\ 1\14\ 1\ 4\ 1\16\ 1\14\ 1\ 4\ 1\16\ 1\14\ 1\ 4\ 1\16\ 1\14\ 1\ 4\ 1\ f\0\r\0\r\ 1\r\ 1@
\ 1a
\ 1d
\ 1¦
\ 1c
\ 1\0\0\0\ 6\0\0\0L
\0\0\0C
\0\0\0sý
\ 4\0\0t
\0\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 4\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 4\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 4\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 2\0d
\ 5\0d
\ 4\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 5\0d
\ 1\0d
\ 2\0d
\ 5\0d
\ 5\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0gK
\0d
\ 6\0d
\a\0\83\ 3\0}
\ 1\0|
\ 1\0j
\ 1\0d
\b\0d
\0d
7391 +
\0g
\ 3\0\83\ 1\0\ 1t
\ 2\0d
\v\0d
\a\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 3\0d
\f\0\83\ 1\0\ 1|
\ 2\0j
\ 4\0d
\r\0\83\ 1\0\ 1|
\ 2\0j
\ 5\0d
\ e\0d
\ f\0d
\ f\0\83\ 3\0\ 1|
\ 2\0j
\ 6\0|
\ 1\0\83\ 1\0\ 1|
\ 2\0j
\a\0d
\10\0\83\ 1\0\ 1d
\a\0d
\11\0d
\12\0d
\13\0g
\ 4\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0g
\ 5\0d
\10\0d
\19\0d
\1a\0d
\a\0d
\12\0d
\13\0g
\ 6\0d
\13\0d
\12\0d
\11\0d
\e\0d
\1c\0d
\1d\0g
\ 6\0d
\1e\0d
\1f\0d
\0d
\18\0d
\14\0d
\17\0g
\ 6\0d
\18\0d
\17\0d
\16\0d!
\0d"
\0d#
\0g
\ 6\0d
\1a\0d$
\0d
\e\0d
\13\0d
\19\0d%
\0d
\1c\0d
\12\0g
\b\0d
\1e\0d&
\0d!
\0d
\18\0d
\0d'
\0d"
\0d
\17\0g
\b\0g
\b\0}
\ 3\0|
\ 2\0j
\b\0t
\0|
\ 3\0d
\10\0\19\83\ 2\0\ 1|
\ 2\0j
\b\0t
7392 +
\0|
\ 3\0d
\1a\0\19\83\ 2\0\ 1x+
\0t
\v\0d$
\0d
\19\0\83\ 2\0D]
\1a\0}
\ 4\0|
\ 2\0j
\b\0t
\f\0|
\ 3\0|
\ 4\0\19\83\ 2\0\ 1qH
\ 2W|
\ 2\0j
\b\0t
\r\0|
\ 3\0d
\19\0\19\83\ 2\0\ 1|
\ 2\0j
\b\0t
\r\0|
\ 3\0d%
\0\19\83\ 2\0\ 1t
\ e\0j
\ f\0t
\10\0\83\ 1\0}
\ 5\0|
\ 5\0j
\11\0d(
\0\83\ 1\0\ 1|
\ 5\0j
\12\0t
\13\0\83\ 1\0\ 1|
\ 5\0j
\14\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\15\0d
\10\0g
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 1\0g
\f\0d)
\0d)
\0d)
\0g
\ 3\0d*
\0g
\ 1\0\83\ 4\0\ 1|
\ 5\0j
\15\0d
\1a\0g
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ e\0d
\ 1\0d
\ e\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0g
\ f\0d
\ 5\0d
\ 1\0d+
\0d
\ 1\0d
\ 5\0d+
\0d,
\0d
\ 1\0d+
\0d
\ 1\0d,
\0d+
\0d
\ 1\0d
\ 1\0d-
\0g
\ f\0d.
\0d.
\0d.
\0d.
\0d.
\0g
\ 5\0\83\ 4\0\ 1|
\ 5\0j
\15\0d$
\0d
\a\0d
\13\0d
\e\0g
\ 4\0d
\ e\0d
\ 2\0d
\ 1\0d
\ e\0d
\ 1\0d
\ 1\0d
\ e\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0g
\12\0d/
\0d
\ 5\0d
\ 5\0d/
\0d
\ 1\0d
\ 5\0d/
\0d
\ 5\0d
\ 1\0d0
\0d
\ 5\0d
\ 5\0d0
\0d
\ 1\0d
\ 5\0d0
\0d
\ 5\0d
\ 1\0g
\12\0d*
\0d*
\0d*
\0d*
\0d*
\0d*
\0g
\ 6\0\83\ 4\0\ 1|
\ 5\0j
\15\0d
\19\0d%
\0g
\ 2\0d
\ e\0d
\ e\0d
\ e\0d
\ e\0d
\ 2\0d
\ e\0d
\ 2\0d
\ 2\0d
\ e\0d
\ 2\0d
\ e\0d
\ e\0d
\ e\0d
\ e\0d
\ 2\0d
\ e\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ e\0d
\ 2\0g
\18\0d/
\0d/
\0d/
\0d/
\0d/
\0d0
\0d/
\0d0
\0d/
\0d/
\0d0
\0d0
\0d0
\0d/
\0d/
\0d0
\0d/
\0d0
\0d0
\0d0
\0d/
\0d0
\0d0
\0d0
\0g
\18\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0g
\b\0\83\ 4\0\ 1t
\16\0|
\ 5\0\83\ 1\0S(1
\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0à?i
\19\0\0\0i
\ 3\0\0\0s
\f\0\0\0X [INCONNUE]s
\f\0\0\0Y [INCONNUE]s
\f\0\0\0Z [INCONNUE]Rw
\0\0\0s
\13\0\0\0CREE PAR CODE_ASTERs
\v\0\0\0SANS UNITESg
\0\0\0\0\0\0ð¿iÿÿÿÿi
\0\0\0\0i
7393 +
\0\0\0i
\b\0\0\0i
\ 4\0\0\0i
\13\0\0\0i
\16\0\0\0i
\17\0\0\0i
\14\0\0\0i
\ e\0\0\0i
\ 6\0\0\0i
\ 1\0\0\0i
\ 5\0\0\0i
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\ f\0\0\0i
\15\0\0\0i
\18\0\0\0i
\ 2\0\0\0i
\a\0\0\0i
\r\0\0\0i
\12\0\0\0t
\ 4\0\0\0CH13g
\0\0\0\0\0\0Ð?gUUUUUUÅ?gÝFà
\85@
\9bÃ?g
\0\0\0\0\0\0à¿g#¹
\1fz¿dä?g
\10\11\11\11\11\11Á?g
\1e3
\90E§yâ¿g
\1e3
\90E§yâ?(
\17\0\0\0R
7394 +
\0\0\0Ry
\0\0\0R
\ 2\0\0\0Rz
\0\0\0R{
\0\0\0RT
\0\0\0R
\f\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\e\0\0\0Rl
\0\0\0R
\17\0\0\0Rn
\0\0\0R
\18\0\0\0RO
\0\0\0R
\ 3\0\0\0R|
\0\0\0R-
\0\0\0R}
\0\0\0R~
\0\0\0RR
\0\0\0R
\7f\0\0\0R
\81\0\0\0(
\ 6\0\0\0R
\1c\0\0\0Rf
\0\0\0R
\82\0\0\0R"
\0\0\0R
\19\0\0\0R
\83\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0buildFieldOnGauss_3
\7f\ 2\0\0s2
\0\0\0\0\ 1ó
\ 1\16\ 1\ f\ 1\r\0\r\0\13\ 1\r\ 1\r\ 1±
\ 1\14\ 1\14\ 1\16\ 1\14\ 1\ 4\ 1\14\ 1\14\ 1\ f\0\r\0\r\ 1\r\ 1I
\ 1\82\ 1 \ 1Ä
\ 1c
\ 1\0\0\0\ 6\0\0\0L
\0\0\0C
\0\0\0sý
\ 4\0\0t
\0\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 4\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 5\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 5\0d
\ 3\0d
\ 1\0d
\ 6\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 4\0d
\ 6\0d
\ 3\0d
\ 4\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 5\0d
\ 3\0d
\ 3\0d
\ 6\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 3\0gK
\0d
\a\0d
\b\0\83\ 3\0}
\ 1\0|
\ 1\0j
\ 1\0d
\0d
7395 +
\0d
\v\0g
\ 3\0\83\ 1\0\ 1t
\ 2\0d
\f\0d
\b\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 3\0d
\r\0\83\ 1\0\ 1|
\ 2\0j
\ 4\0d
\ e\0\83\ 1\0\ 1|
\ 2\0j
\ 5\0d
\ f\0d
\10\0d
\10\0\83\ 3\0\ 1|
\ 2\0j
\ 6\0|
\ 1\0\83\ 1\0\ 1|
\ 2\0j
\a\0d
\11\0\83\ 1\0\ 1d
\b\0d
\12\0d
\13\0d
\14\0g
\ 4\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0g
\ 5\0d
\11\0d
\1a\0d
\e\0d
\b\0d
\13\0d
\14\0g
\ 6\0d
\14\0d
\13\0d
\12\0d
\1c\0d
\1d\0d
\1e\0g
\ 6\0d
\1f\0d
\0d!
\0d
\19\0d
\15\0d
\18\0g
\ 6\0d
\19\0d
\18\0d
\17\0d"
\0d#
\0d$
\0g
\ 6\0d
\e\0d%
\0d
\1c\0d
\14\0d
\1a\0d&
\0d
\1d\0d
\13\0g
\b\0d
\1f\0d'
\0d"
\0d
\19\0d!
\0d(
\0d#
\0d
\18\0g
\b\0g
\b\0}
\ 3\0|
\ 2\0j
\b\0t
\0|
\ 3\0d
\11\0\19\83\ 2\0\ 1|
\ 2\0j
\b\0t
7396 +
\0|
\ 3\0d
\e\0\19\83\ 2\0\ 1x+
\0t
\v\0d%
\0d
\1a\0\83\ 2\0D]
\1a\0}
\ 4\0|
\ 2\0j
\b\0t
\f\0|
\ 3\0|
\ 4\0\19\83\ 2\0\ 1qH
\ 2W|
\ 2\0j
\b\0t
\r\0|
\ 3\0d
\1a\0\19\83\ 2\0\ 1|
\ 2\0j
\b\0t
\r\0|
\ 3\0d&
\0\19\83\ 2\0\ 1t
\ e\0j
\ f\0t
\10\0\83\ 1\0}
\ 5\0|
\ 5\0j
\11\0d)
\0\83\ 1\0\ 1|
\ 5\0j
\12\0t
\13\0\83\ 1\0\ 1|
\ 5\0j
\14\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\15\0d
\11\0g
\ 1\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 1\0d
\ 1\0g
\f\0d*
\0d*
\0d*
\0g
\ 3\0d+
\0g
\ 1\0\83\ 4\0\ 1|
\ 5\0j
\15\0d
\e\0g
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ f\0d
\ 1\0d
\ f\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 3\0g
\ f\0d
\ 4\0d
\ 1\0d,
\0d
\ 1\0d
\ 4\0d,
\0d-
\0d
\ 1\0d,
\0d
\ 1\0d-
\0d,
\0d
\ 1\0d
\ 1\0d.
\0g
\ f\0d/
\0d/
\0d/
\0d/
\0d/
\0g
\ 5\0\83\ 4\0\ 1|
\ 5\0j
\15\0d%
\0d
\b\0d
\14\0d
\1c\0g
\ 4\0d
\ f\0d
\ 3\0d
\ 1\0d
\ f\0d
\ 1\0d
\ 1\0d
\ f\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 3\0g
\12\0d0
\0d
\ 4\0d
\ 4\0d0
\0d
\ 1\0d
\ 4\0d0
\0d
\ 4\0d
\ 1\0d1
\0d
\ 4\0d
\ 4\0d1
\0d
\ 1\0d
\ 4\0d1
\0d
\ 4\0d
\ 1\0g
\12\0d+
\0d+
\0d+
\0d+
\0d+
\0d+
\0g
\ 6\0\83\ 4\0\ 1|
\ 5\0j
\15\0d
\1a\0d&
\0g
\ 2\0d
\ f\0d
\ f\0d
\ f\0d
\ f\0d
\ 3\0d
\ f\0d
\ 3\0d
\ 3\0d
\ f\0d
\ 3\0d
\ f\0d
\ f\0d
\ f\0d
\ f\0d
\ 3\0d
\ f\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ f\0d
\ 3\0g
\18\0d0
\0d0
\0d0
\0d0
\0d0
\0d1
\0d0
\0d1
\0d0
\0d0
\0d1
\0d1
\0d1
\0d0
\0d0
\0d1
\0d0
\0d1
\0d1
\0d1
\0d0
\0d1
\0d1
\0d1
\0g
\18\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0g
\b\0\83\ 4\0\ 1t
\16\0|
\ 5\0\83\ 1\0S(2
\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0\ 4@i
\19\0\0\0i
\ 3\0\0\0s
\f\0\0\0X [INCONNUE]s
\f\0\0\0Y [INCONNUE]s
\f\0\0\0Z [INCONNUE]R
\85\0\0\0s
\13\0\0\0CREE PAR CODE_ASTERs
\v\0\0\0SANS UNITESg
\0\0\0\0\0\0ð¿iÿÿÿÿi
\0\0\0\0i
7397 +
\0\0\0i
\b\0\0\0i
\ 4\0\0\0i
\13\0\0\0i
\16\0\0\0i
\17\0\0\0i
\14\0\0\0i
\ e\0\0\0i
\ 6\0\0\0i
\ 1\0\0\0i
\ 5\0\0\0i
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\ f\0\0\0i
\15\0\0\0i
\18\0\0\0i
\ 2\0\0\0i
\a\0\0\0i
\r\0\0\0i
\12\0\0\0t
\ 4\0\0\0CH23g
\0\0\0\0\0\0Ð?gUUUUUUÅ?gÝFà
\85@
\9bÃ?g
\0\0\0\0\0\0à¿g#¹
\1fz¿dä?g
\10\11\11\11\11\11Á?g
\1e3
\90E§yâ¿g
\1e3
\90E§yâ?(
\17\0\0\0R
7398 +
\0\0\0Ry
\0\0\0R
\ 2\0\0\0Rz
\0\0\0R{
\0\0\0RT
\0\0\0R
\f\0\0\0R
\ 5\0\0\0R
\ 6\0\0\0R
\e\0\0\0Rl
\0\0\0R
\17\0\0\0Rn
\0\0\0R
\18\0\0\0RO
\0\0\0R
\ 3\0\0\0R|
\0\0\0R-
\0\0\0R}
\0\0\0R~
\0\0\0RR
\0\0\0R
\7f\0\0\0R
\81\0\0\0(
\ 6\0\0\0R
\1c\0\0\0Rf
\0\0\0R
\82\0\0\0R"
\0\0\0R
\19\0\0\0R
\83\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\13\0\0\0buildFieldOnGauss_4
\97\ 2\0\0s2
\0\0\0\0\ 1ó
\ 1\16\ 1\ f\ 1\r\0\r\0\13\ 1\r\ 1\r\ 1±
\ 1\14\ 1\14\ 1\16\ 1\14\ 1\ 4\ 1\14\ 1\14\ 1\ f\0\r\0\r\ 1\r\ 1I
\ 1\82\ 1 \ 1Ä
\ 1c
\ 4\0\0\0\f\0\0\0 \0\0\0C
\0\0\0s1
\ 1\0\0d
\ 1\0d
\ 2\0l
\0\0m
\ 1\0}
\ 4\0\ 1d
\ 1\0d
\ 3\0l
\ 2\0m
\ 3\0}
\ 5\0\ 1g
\0\0t
\ 4\0d
\ 4\0\83\ 1\0D]
\1d\0}
\ 6\0|
\ 4\0|
\ 3\0|
\ 6\0|
\ 5\0\14d
\ 5\0\15\83\ 2\0^
\ 2\0q-
\0}
\a\0|
\a\0d
\ 1\0\19j
\ 5\0|
\a\0d
\ 1\0\19j
\ 6\0|
\a\0d
\ 6\0\19j
\ 5\0|
\a\0d
\ 6\0\19j
\ 6\0|
\a\0d
\a\0\19j
\ 5\0|
\a\0d
\a\0\19j
\ 6\0|
\a\0d
\b\0\19j
\ 5\0|
\a\0d
\b\0\19j
\ 6\0g
\b\0}
\b\0t
\a\0t
\ 4\0d
\0\83\ 1\0\83\ 1\0}
\0t
\b\0j
\0d
7402 +
\0d
\b\0\83\ 1\0\ 1t
\v\0j
\0|
\b\0t
\f\0|
\b\0\83\ 1\0d
\v\0\1ad
\v\0\83\ 3\0}
\v\0|
\v\0|
\ 1\0|
\ 2\0f
\ 2\07}
\v\0|
7403 +
\0j
\r\0|
\v\0\83\ 1\0\ 1|
7404 +
\0j
\ e\0t
\ f\0|
\0\83\ 2\0\ 1|
7405 +
\0j
\10\0\83\0\0\ 1|
7406 +
\0S(
\f\0\0\0Niÿÿÿÿ(
\ 1\0\0\0t
\ 4\0\0\0rect(
\ 1\0\0\0t
\ 2\0\0\0pii
\b\0\0\0g
\0\0\0\0\0\0\10@i
\ 3\0\0\0i
\ 5\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0t
\ 6\0\0\0circlei
\ 2\0\0\0(
\11\0\0\0t
\ 5\0\0\0cmathR
\8c\0\0\0t
\ 4\0\0\0mathR
\8d\0\0\0R
\17\0\0\0t
\ 4\0\0\0realt
\ 4\0\0\0imagR
\80\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 5\0\0\0R
7407 +
\0\0\0t
\ 3\0\0\0lenR
\f\0\0\0R
\ 6\0\0\0t
\v\0\0\0NORM_QPOLYGR
\0\0\0(
\f\0\0\0R
\1c\0\0\0t
\b\0\0\0center_Xt
\b\0\0\0center_Yt
\ 6\0\0\0radiusR
\8c\0\0\0R
\8d\0\0\0R
\19\0\0\0t
\ 1\0\0\0cR!
\0\0\0t
\ 6\0\0\0connect
\b\0\0\0baseMesht
7408 +
\0\0\0meshCoords(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\v\0\0\0buildCircle®
\ 2\0\0s
\1c\0\0\0\0\ 1\10\ 1\10\ 20
\ 1(
\ 1.
\ 1\12\ 1\12\ 1\r\ 1\1f\ 1\10\ 1\r\ 2\10\ 1
7409 +
\ 1c
\ 4\0\0\0\f\0\0\0\b\0\0\0C
\0\0\0s%
\ 1\0\0d
\ 1\0d
\ 2\0l
\0\0m
\ 1\0}
\ 4\0\ 1d
\ 1\0d
\ 3\0l
\ 2\0m
\ 3\0}
\ 5\0\ 1g
\0\0t
\ 4\0d
\ 4\0\83\ 1\0D]
\1d\0}
\ 6\0|
\ 4\0|
\ 3\0|
\ 6\0|
\ 5\0\14d
\ 5\0\15\83\ 2\0^
\ 2\0q-
\0}
\a\0g
\0\0}
\b\0x5
\0t
\ 4\0d
\ 4\0\83\ 1\0D]'
\0}
\ 6\0|
\b\0j
\ 5\0|
\a\0|
\ 6\0\19j
\ 6\0|
\a\0|
\ 6\0\19j
\a\0g
\ 2\0\83\ 1\0\ 1qc
\0Wd
\ 6\0d
\a\0d
\b\0d
\0d
7410 +
\0d
\v\0d
\f\0d
\r\0g
\b\0}
\0t
\b\0j
\0d
\ e\0d
\f\0\83\ 2\0}
7413 +
\0d
\0\83\ 1\0\ 1t
\v\0j
\0|
\b\0t
\f\0|
\b\0\83\ 1\0d
\f\0\1ad
\f\0\83\ 3\0}
\v\0|
\v\0|
\ 1\0|
\ 2\0f
\ 2\07}
\v\0|
7414 +
\0j
\r\0|
\v\0\83\ 1\0\ 1|
7415 +
\0j
\ e\0t
\ f\0|
\0\83\ 2\0\ 1|
7416 +
\0j
\10\0\83\0\0\ 1|
7417 +
\0S(
\ f\0\0\0Niÿÿÿÿ(
\ 1\0\0\0R
\8c\0\0\0(
\ 1\0\0\0R
\8d\0\0\0i
\b\0\0\0g
\0\0\0\0\0\0\10@i
\a\0\0\0i
\ 5\0\0\0i
\ 3\0\0\0i
\ 1\0\0\0i
\ 6\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\0\0\0\0R
\8e\0\0\0(
\11\0\0\0R
\8f\0\0\0R
\8c\0\0\0R
\90\0\0\0R
\8d\0\0\0R
\17\0\0\0t
\ 6\0\0\0extendR
\91\0\0\0R
\92\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 5\0\0\0R
7418 +
\0\0\0R
\93\0\0\0R
\f\0\0\0R
\ 6\0\0\0R
\94\0\0\0R
\0\0\0(
\f\0\0\0R
\1c\0\0\0R
\95\0\0\0R
\96\0\0\0R
\97\0\0\0R
\8c\0\0\0R
\8d\0\0\0R
\19\0\0\0R
\98\0\0\0R!
\0\0\0R
\99\0\0\0R
\9a\0\0\0R
\9b\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\f\0\0\0buildCircle2À
\ 2\0\0s
\1e\0\0\0\0\ 1\10\ 1\10\ 20
\ 1\ 6\ 1\13\ 1%
\ 1\1e\ 1\12\ 1\r\ 1\1f\ 1\10\ 1\r\ 2\10\ 1
7419 +
\ 1(!
\0\0\0t
\b\0\0\0__name__t
7420 +
\0\0\0__module__R
\12\0\0\0R
\16\0\0\0R
\1a\0\0\0R
\1d\0\0\0R
\1e\0\0\0R&
\0\0\0R)
\0\0\0R*
\0\0\0R+
\0\0\0R.
\0\0\0R/
\0\0\0R1
\0\0\0R4
\0\0\0R6
\0\0\0R;
\0\0\0R<
\0\0\0Rb
\0\0\0Rc
\0\0\0Rg
\0\0\0Ri
\0\0\0Rq
\0\0\0Re
\0\0\0Rt
\0\0\0Rv
\0\0\0R
\84\0\0\0R
\87\0\0\0R
\89\0\0\0R
\8b\0\0\0R
\9c\0\0\0R
\9e\0\0\0t
\v\0\0\0classmethod(
\0\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyR
\ 1\0\0\0\17\0\0\0sz
\0\0\0\ 6\ 1 \11 \r \12 \1a \11 H
\ f \11 \12 \1a \14 \f \ f \ f \16 \11 7 6
\v \r \18 \15 \1e \1d \1d \18 \17 \12 \13\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1N(
\0\0\0\0(
\ 2\0\0\0t
\v\0\0\0MEDCouplingR
\ 1\0\0\0(
\0\0\0\0(
\0\0\0\0(
\0\0\0\0s}
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDCoupling_Swig/MEDCouplingDataForTest.pyt
\b\0\0\0<module>
\15\0\0\0s
\ 2\0\0\0
7422 \ Pas de fin de ligne à la fin du fichier
7423 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingExamplesTest.py MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingExamplesTest.py
7424 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingExamplesTest.py 2018-04-19 17:04:36.734222663 +0200
7425 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingExamplesTest.py 2018-04-19 17:25:17.260787928 +0200
7426 @@ -2220,7 +2220,7 @@
7427 fieldOnCells.setName("MyTensorFieldOnCellNoTime")
7428 fieldOnCells.setMesh(mesh)
7429 array=DataArrayDouble()
7430 - array.alloc(fieldOnCells.getMesh().getNumberOfCells(),9) # Implicitely fieldOnCells will be a 9 components field.
7431 + array.alloc(fieldOnCells.getMesh().getNumberOfCells(),9) # Implicitly fieldOnCells will be a 9 components field.
7432 array.fillWithValue(7.)
7433 fieldOnCells.setArray(array)
7434 # fieldOnCells is now usable
7435 @@ -2252,7 +2252,7 @@
7436 fieldOnNodes.setName("MyScalarFieldOnNodeNoTime")
7437 fieldOnNodes.setMesh(mesh)
7438 array=DataArrayDouble()
7439 - array.alloc(fieldOnNodes.getMesh().getNumberOfNodes(),1) # Implicitely fieldOnNodes will be a 1 component field.
7440 + array.alloc(fieldOnNodes.getMesh().getNumberOfNodes(),1) # Implicitly fieldOnNodes will be a 1 component field.
7441 array.fillWithValue(7.)
7442 fieldOnNodes.setArray(array)
7443 # fieldOnNodes is now usable
7444 @@ -2272,7 +2272,7 @@
7445 fieldOnCells.setTime(4.22,2,-1) # Time attached is 4.22 ms, iteration id is 2 and order id (or sub iteration id) is -1
7446 fieldOnCells.setMesh(mesh)
7447 array=DataArrayDouble()
7448 - array.alloc(fieldOnCells.getMesh().getNumberOfCells(),2) # Implicitely fieldOnCells will be a 2 components field.
7449 + array.alloc(fieldOnCells.getMesh().getNumberOfCells(),2) # Implicitly fieldOnCells will be a 2 components field.
7450 array.fillWithValue(7.)
7451 fieldOnCells.setArray(array)
7452 # fieldOnCells is now usable
7453 @@ -2293,7 +2293,7 @@
7454 fieldOnNodes.setEndTime(6.44,4,-1)# fieldOnNodes is defined in interval [4.22 ms,6.44 ms]
7455 fieldOnNodes.setMesh(mesh)
7456 array=DataArrayDouble()
7457 - array.alloc(fieldOnNodes.getMesh().getNumberOfNodes(),3) # Implicitely fieldOnNodes will be a 3 components field.
7458 + array.alloc(fieldOnNodes.getMesh().getNumberOfNodes(),3) # Implicitly fieldOnNodes will be a 3 components field.
7459 array.fillWithValue(7.)
7460 fieldOnNodes.setArray(array)
7461 # fieldOnNodes is now usable
7462 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingFinalize.i MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingFinalize.i
7463 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingFinalize.i 2018-04-19 17:04:36.735222683 +0200
7464 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingFinalize.i 2018-04-19 17:25:17.278788284 +0200
7468 InterpKernelException.__reduce__=INTERPKERNELExceptionReduce
7469 -DataArrayDouble.__new__=classmethod(MEDCouplingDataArrayDoublenew)
7471 +DataArrayDouble.__reduce__=MEDCouplingDataArrayDoubleReduce
7472 DataArrayDouble.__iadd__=MEDCouplingDataArrayDoubleIadd
7473 DataArrayDouble.__isub__=MEDCouplingDataArrayDoubleIsub
7474 DataArrayDouble.__imul__=MEDCouplingDataArrayDoubleImul
7476 DataArrayDouble.__ifloordiv__=MEDCouplingDataArrayDoubleIdiv
7477 DataArrayDouble.__rfloordiv__=DataArrayDouble.__rdiv__
7479 -DataArrayInt.__new__=classmethod(MEDCouplingDataArrayIntnew)
7480 +DataArrayInt.__reduce__=MEDCouplingDataArrayIntReduce
7481 DataArrayInt.__iadd__=MEDCouplingDataArrayIntIadd
7482 DataArrayInt.__isub__=MEDCouplingDataArrayIntIsub
7483 DataArrayInt.__imul__=MEDCouplingDataArrayIntImul
7485 DataArrayInt.__ifloordiv__=MEDCouplingDataArrayIntIdiv
7486 DataArrayInt.__rfloordiv__=DataArrayInt.__rdiv__
7488 -DataArrayByte.__new__=classmethod(MEDCouplingDataArrayBytenew)
7490 -DataArrayFloat.__new__=classmethod(MEDCouplingDataArrayFloatnew)
7491 +DataArrayByte.__reduce__=MEDCouplingDataArrayByteReduce
7493 +DataArrayFloat.__reduce__=MEDCouplingDataArrayFloatReduce
7494 DataArrayFloat.__iadd__=MEDCouplingDataArrayFloatIadd
7495 DataArrayFloat.__isub__=MEDCouplingDataArrayFloatIsub
7496 DataArrayFloat.__imul__=MEDCouplingDataArrayFloatImul
7498 DataArrayFloat.__itruediv__=MEDCouplingDataArrayFloatIdiv
7499 DataArrayFloat.__ifloordiv__=MEDCouplingDataArrayFloatIdiv
7501 -MEDCouplingFieldDouble.__new__=classmethod(MEDCouplingFieldDoublenew)
7502 +MEDCouplingFieldDouble.__reduce__=MEDCouplingFieldDoubleReduce
7503 MEDCouplingFieldDouble.__iadd__=MEDCouplingFieldDoubleIadd
7504 MEDCouplingFieldDouble.__isub__=MEDCouplingFieldDoubleIsub
7505 MEDCouplingFieldDouble.__imul__=MEDCouplingFieldDoubleImul
7507 MEDCouplingFieldDouble.__rfloordiv__=MEDCouplingFieldDouble.__rdiv__
7508 MEDCouplingFieldDouble.__ifloordiv__=MEDCouplingFieldDoubleIdiv
7510 -MEDCouplingFieldInt.__new__=classmethod(MEDCouplingFieldIntnew)
7511 +MEDCouplingFieldInt.__reduce__=MEDCouplingFieldIntReduce
7513 -MEDCouplingFieldFloat.__new__=classmethod(MEDCouplingFieldFloatnew)
7514 +MEDCouplingFieldFloat.__reduce__=MEDCouplingFieldFloatReduce
7516 DataArrayDoubleTuple.__iadd__=MEDCouplingDataArrayDoubleTupleIadd
7517 DataArrayDoubleTuple.__isub__=MEDCouplingDataArrayDoubleTupleIsub
7519 DataArrayIntTuple.__ifloordiv__=MEDCouplingDataArrayIntTupleIdiv
7520 DataArrayIntTuple.__imod__=MEDCouplingDataArrayIntTupleImod
7522 -DenseMatrix.__iadd__=ParaMEDMEMDenseMatrixIadd
7523 -DenseMatrix.__isub__=ParaMEDMEMDenseMatrixIsub
7524 +DenseMatrix.__iadd__=MEDCouplingDenseMatrixIadd
7525 +DenseMatrix.__isub__=MEDCouplingDenseMatrixIsub
7527 -MEDCouplingUMesh.__new__=classmethod(MEDCouplingUMeshnew)
7528 -MEDCoupling1DGTUMesh.__new__=classmethod(MEDCoupling1DGTUMeshnew)
7529 -MEDCoupling1SGTUMesh.__new__=classmethod(MEDCoupling1SGTUMeshnew)
7530 -MEDCouplingCurveLinearMesh.__new__=classmethod(MEDCouplingCurveLinearMeshnew)
7531 -MEDCouplingCMesh.__new__=classmethod(MEDCouplingCMeshnew)
7532 -MEDCouplingIMesh.__new__=classmethod(MEDCouplingIMeshnew)
7533 -MEDCouplingMappedExtrudedMesh.__new__=classmethod(MEDCouplingExtrudedMeshnew)
7534 +MEDCouplingUMesh.__reduce__=MEDCouplingUMeshReduce
7535 +MEDCoupling1DGTUMesh.__reduce__=MEDCoupling1DGTUMeshReduce
7536 +MEDCoupling1SGTUMesh.__reduce__=MEDCoupling1SGTUMeshReduce
7537 +MEDCouplingCurveLinearMesh.__reduce__=MEDCouplingCurveLinearMeshReduce
7538 +MEDCouplingCMesh.__reduce__=MEDCouplingCMeshReduce
7539 +MEDCouplingIMesh.__reduce__=MEDCouplingIMeshReduce
7540 +MEDCouplingMappedExtrudedMesh.__reduce__=MEDCouplingMappedExtrudedMeshReduce
7542 DataArrayAsciiCharIterator.__next__ = DataArrayAsciiCharIterator.next
7543 DataArrayIntIterator.__next__ = DataArrayIntIterator.next
7544 @@ -106,7 +107,20 @@
7545 MEDCouplingUMeshCellByTypeIterator.__next__ = MEDCouplingUMeshCellByTypeIterator.next
7547 del INTERPKERNELExceptionReduce
7548 -del MEDCouplingDataArrayDoublenew
7549 +del MEDCouplingDataArrayDoubleReduce
7550 +del MEDCouplingDataArrayFloatReduce
7551 +del MEDCouplingDataArrayIntReduce
7552 +del MEDCouplingDataArrayByteReduce
7553 +del MEDCouplingUMeshReduce
7554 +del MEDCouplingCMeshReduce
7555 +del MEDCouplingIMeshReduce
7556 +del MEDCouplingMappedExtrudedMeshReduce
7557 +del MEDCouplingCurveLinearMeshReduce
7558 +del MEDCoupling1SGTUMeshReduce
7559 +del MEDCoupling1DGTUMeshReduce
7560 +del MEDCouplingFieldDoubleReduce
7561 +del MEDCouplingFieldFloatReduce
7562 +del MEDCouplingFieldIntReduce
7563 del MEDCouplingDataArrayDoubleIadd
7564 del MEDCouplingDataArrayDoubleIsub
7565 del MEDCouplingDataArrayDoubleImul
7566 @@ -116,14 +130,11 @@
7567 del MEDCouplingFieldDoubleImul
7568 del MEDCouplingFieldDoubleIdiv
7569 del MEDCouplingFieldDoubleIpow
7570 -del MEDCouplingDataArrayIntnew
7571 del MEDCouplingDataArrayIntIadd
7572 del MEDCouplingDataArrayIntIsub
7573 del MEDCouplingDataArrayIntImul
7574 del MEDCouplingDataArrayIntIdiv
7575 del MEDCouplingDataArrayIntImod
7576 -del MEDCouplingDataArrayBytenew
7577 -del MEDCouplingDataArrayFloatnew
7578 del MEDCouplingDataArrayFloatIadd
7579 del MEDCouplingDataArrayFloatIsub
7580 del MEDCouplingDataArrayFloatImul
7581 @@ -137,14 +148,6 @@
7582 del MEDCouplingDataArrayIntTupleImul
7583 del MEDCouplingDataArrayIntTupleIdiv
7584 del MEDCouplingDataArrayIntTupleImod
7585 -del ParaMEDMEMDenseMatrixIadd
7586 -del ParaMEDMEMDenseMatrixIsub
7587 -del MEDCouplingUMeshnew
7588 -del MEDCoupling1DGTUMeshnew
7589 -del MEDCoupling1SGTUMeshnew
7590 -del MEDCouplingCurveLinearMeshnew
7591 -del MEDCouplingCMeshnew
7592 -del MEDCouplingIMeshnew
7593 -del MEDCouplingExtrudedMeshnew
7594 -del MEDCouplingFieldDoublenew
7595 +del MEDCouplingDenseMatrixIadd
7596 +del MEDCouplingDenseMatrixIsub
7598 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCoupling.i MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCoupling.i
7599 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCoupling.i 2018-04-19 17:04:36.728222543 +0200
7600 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCoupling.i 2018-04-19 17:25:17.280788323 +0200
7602 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
7605 +%module MEDCoupling
7607 %include "MEDCouplingCommon.i"
7610 -def MEDCouplingDataArrayDoublenew(cls,*args):
7611 - import _MEDCoupling
7612 - return _MEDCoupling.DataArrayDouble____new___(cls,args)
7613 def MEDCouplingDataArrayDoubleIadd(self,*args):
7615 return _MEDCoupling.DataArrayDouble____iadd___(self, self, *args)
7617 def MEDCouplingDataArrayDoubleIpow(self,*args):
7619 return _MEDCoupling.DataArrayDouble____ipow___(self, self, *args)
7620 -def MEDCouplingFieldDoublenew(cls,*args):
7621 - import _MEDCoupling
7622 - return _MEDCoupling.MEDCouplingFieldDouble____new___(cls,args)
7623 def MEDCouplingFieldDoubleIadd(self,*args):
7625 return _MEDCoupling.MEDCouplingFieldDouble____iadd___(self, self, *args)
7627 def MEDCouplingFieldDoubleIpow(self,*args):
7629 return _MEDCoupling.MEDCouplingFieldDouble____ipow___(self, self, *args)
7630 -def MEDCouplingFieldIntnew(cls,*args):
7631 - import _MEDCoupling
7632 - return _MEDCoupling.MEDCouplingFieldInt____new___(cls,args)
7633 -def MEDCouplingFieldFloatnew(cls,*args):
7634 - import _MEDCoupling
7635 - return _MEDCoupling.MEDCouplingFieldFloat____new___(cls,args)
7636 -def MEDCouplingDataArrayIntnew(cls,*args):
7637 - import _MEDCoupling
7638 - return _MEDCoupling.DataArrayInt____new___(cls,args)
7639 def MEDCouplingDataArrayIntIadd(self,*args):
7641 return _MEDCoupling.DataArrayInt____iadd___(self, self, *args)
7643 def MEDCouplingDataArrayIntIpow(self,*args):
7645 return _MEDCoupling.DataArrayInt____ipow___(self, self, *args)
7646 -def MEDCouplingDataArrayBytenew(cls,*args):
7647 - import _MEDCoupling
7648 - return _MEDCoupling.DataArrayByte____new___(cls,args)
7649 -def MEDCouplingDataArrayFloatnew(cls,*args):
7650 - import _MEDCoupling
7651 - return _MEDCoupling.DataArrayFloat____new___(cls,args)
7652 def MEDCouplingDataArrayFloatIadd(self,*args):
7654 return _MEDCoupling.DataArrayFloat____iadd___(self, self, *args)
7655 @@ -128,33 +109,12 @@
7656 def MEDCouplingDataArrayIntTupleImod(self,*args):
7658 return _MEDCoupling.DataArrayIntTuple____imod___(self, self, *args)
7659 -def ParaMEDMEMDenseMatrixIadd(self,*args):
7660 +def MEDCouplingDenseMatrixIadd(self,*args):
7662 return _MEDCoupling.DenseMatrix____iadd___(self, self, *args)
7663 -def ParaMEDMEMDenseMatrixIsub(self,*args):
7664 +def MEDCouplingDenseMatrixIsub(self,*args):
7666 return _MEDCoupling.DenseMatrix____isub___(self, self, *args)
7667 -def MEDCouplingUMeshnew(cls,*args):
7668 - import _MEDCoupling
7669 - return _MEDCoupling.MEDCouplingUMesh____new___(cls,args)
7670 -def MEDCoupling1DGTUMeshnew(cls,*args):
7671 - import _MEDCoupling
7672 - return _MEDCoupling.MEDCoupling1DGTUMesh____new___(cls,args)
7673 -def MEDCoupling1SGTUMeshnew(cls,*args):
7674 - import _MEDCoupling
7675 - return _MEDCoupling.MEDCoupling1SGTUMesh____new___(cls,args)
7676 -def MEDCouplingCurveLinearMeshnew(cls,*args):
7677 - import _MEDCoupling
7678 - return _MEDCoupling.MEDCouplingCurveLinearMesh____new___(cls,args)
7679 -def MEDCouplingCMeshnew(cls,*args):
7680 - import _MEDCoupling
7681 - return _MEDCoupling.MEDCouplingCMesh____new___(cls,args)
7682 -def MEDCouplingIMeshnew(cls,*args):
7683 - import _MEDCoupling
7684 - return _MEDCoupling.MEDCouplingIMesh____new___(cls,args)
7685 -def MEDCouplingExtrudedMeshnew(cls,*args):
7686 - import _MEDCoupling
7687 - return _MEDCoupling.MEDCouplingMappedExtrudedMesh____new___(cls,args)
7690 %include "MEDCouplingFinalize.i"
7691 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingIntersectTest.py MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingIntersectTest.py
7692 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingIntersectTest.py 2018-04-19 17:04:36.735222683 +0200
7693 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingIntersectTest.py 2018-04-19 17:25:17.284788402 +0200
7694 @@ -312,6 +312,56 @@
7695 self.assertTrue(f.getArray().isEqual(valuesExpected,1e-12))
7698 + def testIntersect2DMeshes7(self):
7699 + """ Quadratic precision values were improperly reset before testing colinearities """
7701 + mesh1 = MEDCouplingUMesh('assemblyGrid_Pij', 2)
7702 + coo = DataArrayDouble([(10.80630000000000,10.80630000000000),(9.48750000000000,10.80630000000000),(10.75250000000000,10.80630000000000),(9.48750000000000,9.48750000000000),(10.75250000000000,9.48750000000000),(10.80630000000000,9.48750000000000),(9.48750000000000,10.75250000000000),(10.75250000000000,10.75250000000000),(10.80630000000000,10.75250000000000)])
7703 + mesh1.setCoords(coo)
7704 + c = DataArrayInt([5, 4, 3, 6, 7, 5, 5, 4, 7, 8, 5, 1, 2, 7, 6, 5, 2, 0, 8, 7])
7705 + cI = DataArrayInt([0, 5, 10, 15, 20])
7706 + mesh1.setConnectivity(c, cI)
7707 + mesh2 = MEDCouplingUMesh('merge', 2)
7708 + coo = DataArrayDouble([(9.48750000000001,9.48750000000001),(10.75249999999975,9.48749999999955),(10.12000000000001,9.48750000000001),(10.80629999999976,9.48749999999955),(8.22250000000029,10.75250000000028),(9.48749999999961,10.75249999999971),(8.85500000000029,10.75250000000028),(9.48750000000001,10.12000000000001),(10.75249999999338,10.75249999999338),(10.41000000000001,10.12000000000001),(10.32506096654411,10.32506096654411),(10.12000000000001,10.41000000000001),(9.91493903345591,10.32506096654411),(9.83000000000001,10.12000000000001),(9.91493903345591,9.91493903345591),(10.12000000000001,9.83000000000001),(10.32506096654411,9.91493903345591),(10.11999999999961,10.75249999999971),(10.75249999999975,10.11999999999958),(10.49000000000001,10.12000000000001),(10.38162950903903,10.38162950903903),(10.12000000000001,10.49000000000001),(9.85837049096099,10.38162950903903),(9.75000000000001,10.12000000000001),(9.85837049096099,9.85837049096099),(10.12000000000001,9.75000000000001),(10.38162950903903,9.85837049096099),(9.88665476220845,10.35334523779157),(9.88665476220845,9.88665476220845),(9.67293524548050,9.67293524548050),(9.67293524548050,10.56706475451952),(10.80629999999339,10.75249999999338),(8.22250000000029,10.80630000000028),(9.48749999999961,10.80629999999971),(10.75249999999338,10.80629999999339),(10.80629999999339,10.80629999999339),(10.77939999999976,9.48749999999955),(10.77939999999339,10.75249999999338),(10.80629999999976,10.11999999999958),(8.22250000000029,10.77940000000028),(8.85500000000029,10.80630000000028),(9.48749999999961,10.77939999999971),(10.11999999999961,10.80629999999971),(10.75249999999338,10.77939999999339),(10.77939999999339,10.80629999999339),(10.80629999999339,10.77939999999339)])
7709 + mesh2.setCoords(coo)
7710 + c = DataArrayInt([32, 4, 32, 33, 5, 39, 40, 41, 6, 32, 5, 33, 34, 8, 41, 42, 43, 17, 32, 8, 34, 35, 31, 43, 44, 45, 37, 32, 14, 12, 10, 16, 13, 11, 9, 15, 32, 22, 12, 14, 24, 27, 13, 28, 23, 32, 24, 0, 5, 22, 29, 7, 30, 23, 32, 24, 14, 16, 10, 12, 22, 20, 26, 28, 15, 9, 11, 27, 21, 19, 25, 32, 22, 5, 8, 1, 0, 24, 26, 20, 30, 17, 18, 2, 29, 25, 19, 21, 32, 1, 8, 31, 3, 18, 37, 38, 36])
7711 + cI = DataArrayInt([0, 9, 18, 27, 36, 45, 54, 71, 88, 97])
7712 + mesh2.setConnectivity(c, cI)
7713 + result, mapResToInit, mapResToRef = MEDCouplingUMesh.Intersect2DMeshes(mesh1, mesh2, eps)
7714 + result.zipCoords()
7715 + exp_coo = [9.48750000000001, 9.48750000000001, 10.75249999999975, 9.48749999999955, 10.80629999999976, 9.48749999999955, 9.48749999999961, 10.75249999999971, 10.75249999999338, 10.75249999999338, 10.32506096654411, 10.32506096654411, 9.91493903345591, 10.32506096654411, 9.91493903345591, 9.91493903345591, 10.32506096654411, 9.91493903345591, 10.38162950903903, 10.38162950903903, 9.85837049096099, 10.38162950903903, 9.85837049096099, 9.85837049096099, 10.38162950903903, 9.85837049096099, 10.80629999999339, 10.75249999999338, 9.48749999999961, 10.80629999999971, 10.75249999999338, 10.80629999999339, 10.80629999999339, 10.80629999999339, 9.830000000000023, 10.120000000000008, 10.120000000000008, 10.410000000000004, 10.41000000000001, 10.120000000000008, 10.120000000000008, 9.830000000000013, 9.886654762208451, 10.353345237791569, 9.830000000000023, 10.120000000000008, 9.886654762208451, 9.886654762208451, 9.750000000000005, 10.12000000000001, 9.487499999999809, 10.11999999999986, 9.6729352454803, 10.56706475451937, 9.750000000000005, 10.12000000000001, 9.672935245480499, 9.672935245480499, 9.886654762208451, 9.886654762208451, 10.120000000000008, 9.830000000000013, 10.41000000000001, 10.120000000000008, 10.120000000000008, 10.410000000000004, 9.886654762208451, 10.353345237791569, 10.120000000000013, 10.490000000000004, 10.489999999999988, 10.120000000000013, 10.120000000000017, 9.750000000000021, 10.119999999996494, 10.752499999996544, 10.752499999996566, 10.119999999996466, 10.11999999999988, 9.48749999999978, 9.672935245480499, 9.672935245480499, 10.120000000000017, 9.750000000000021, 10.489999999999988, 10.120000000000013, 10.120000000000013, 10.490000000000004, 9.6729352454803, 10.56706475451937]
7716 + e1 = [0, 0, 0, 0, 0, 1, 2, 3]
7717 + e2 = [3, 4, 5, 6, 7, 8, 1, 2]
7718 + valuesExpected=DataArrayDouble(exp_coo, len(exp_coo)//2, 2)
7719 + self.assertTrue(result.getCoords().isEqual(valuesExpected,1e-12))
7720 + self.assertEqual(e1, mapResToInit.getValues())
7721 + self.assertEqual(e2, mapResToRef.getValues())
7723 + def testIntersect2DMeshes8(self):
7724 + """ Quadratic precision values were improperly reset before testing colinearities
7725 + This was also impacting the mapping computation. """
7727 + mesh1 = MEDCouplingUMesh('assemblyGrid_Pij', 2)
7728 + coo = DataArrayDouble([(10.80630000000000,-10.80630000000000),(9.48750000000000,-10.80630000000000),(10.75250000000000,-10.80630000000000),(9.48750000000000,-10.75250000000000),(10.75250000000000,-10.75250000000000),(10.80630000000000,-10.75250000000000),(9.48750000000000,-9.48750000000000),(10.75250000000000,-9.48750000000000),(10.80630000000000,-9.48750000000000)])
7729 + mesh1.setCoords(coo)
7730 + c = DataArrayInt([5, 2, 1, 3, 4, 5, 0, 2, 4, 5, 5, 4, 3, 6, 7, 5, 5, 4, 7, 8])
7731 + cI = DataArrayInt([0, 5, 10, 15, 20])
7732 + mesh1.setConnectivity(c, cI)
7733 + mesh2 = MEDCouplingUMesh('merge', 2)
7734 + coo = DataArrayDouble([(9.48749999999998,-10.75249999999999),(9.48750000000018,-10.80629999999998),(10.75250000000047,-10.75250000000063),(10.75249999999318,-10.80629999999318),(10.80630000000048,-10.75250000000063),(10.80629999999318,-10.80629999999318),(9.48750000000001,-9.48750000000001),(9.48749999999998,-10.11999999999999),(10.75249999999975,-9.48750000000004),(10.40999999999999,-10.11999999999999),(10.32506096654408,-9.91493903345589),(10.11999999999999,-9.82999999999999),(9.91493903345589,-9.91493903345589),(9.82999999999998,-10.11999999999999),(9.91493903345589,-10.32506096654409),(10.11999999999999,-10.40999999999999),(10.32506096654408,-10.32506096654409),(10.12000000000001,-9.48750000000001),(10.75250000000047,-10.12000000000058),(10.12000000000018,-10.75249999999998),(9.70121951672794,-10.53878048327204),(9.70121951672794,-9.70121951672794),(10.80629999999976,-9.48750000000004),(9.48750000000018,-10.77939999999998),(10.75249999999318,-10.77939999999318),(10.12000000000018,-10.80629999999998),(10.77940000000048,-10.75250000000063),(10.80629999999318,-10.77939999999318),(10.77939999999318,-10.80629999999318),(10.77939999999976,-9.48750000000004),(10.80630000000048,-10.12000000000058)])
7735 + mesh2.setCoords(coo)
7736 + c = DataArrayInt([32, 1, 0, 2, 3, 23, 19, 24, 25, 32, 3, 2, 4, 5, 24, 26, 27, 28, 32, 16, 14, 12, 10, 15, 13, 11, 9, 32, 0, 6, 12, 14, 7, 21, 13, 20, 32, 6, 8, 2, 0, 14, 16, 10, 12, 17, 18, 19, 20, 15, 9, 11, 21, 32, 2, 8, 22, 4, 18, 29, 30, 26])
7737 + cI = DataArrayInt([0, 9, 18, 27, 36, 53, 62])
7738 + mesh2.setConnectivity(c, cI)
7739 + result, mapResToInit, mapResToRef = MEDCouplingUMesh.Intersect2DMeshes(mesh1, mesh2, eps)
7740 + result.zipCoords()
7741 + exp_coo = [9.48749999999998, -10.75249999999999, 9.48750000000018, -10.80629999999998, 10.75250000000047, -10.75250000000063, 10.75249999999318, -10.80629999999318, 10.80630000000048, -10.75250000000063, 10.80629999999318, -10.80629999999318, 9.48750000000001, -9.48750000000001, 10.75249999999975, -9.48750000000004, 10.32506096654408, -9.91493903345589, 9.91493903345589, -9.91493903345589, 9.91493903345589, -10.32506096654409, 10.32506096654408, -10.32506096654409, 10.80629999999976, -9.48750000000004, 10.119999999999989, -10.409999999999961, 9.829999999999997, -10.11999999999999, 10.119999999999983, -9.830000000000005, 10.409999999999968, -10.119999999999987, 9.487499999999994, -10.120000000000001, 9.70121951672795, -9.70121951672795, 9.829999999999997, -10.11999999999999, 9.701219516727935, -10.53878048327204, 10.11999999999988, -9.487500000000026, 10.752500000000111, -10.120000000000335, 10.120000000000225, -10.75250000000031, 9.701219516727935, -10.53878048327204, 10.119999999999989, -10.409999999999961, 10.409999999999968, -10.119999999999987, 10.119999999999983, -9.830000000000005, 9.70121951672795, -9.70121951672795]
7742 + e1 = [0, 1, 2, 2, 2, 3]
7743 + e2 = [0, 1, 2, 3, 4, 5]
7744 + valuesExpected=DataArrayDouble(exp_coo, len(exp_coo)//2, 2)
7745 + self.assertTrue(result.getCoords().isEqual(valuesExpected,1e-10))
7746 + self.assertEqual(e1, mapResToInit.getValues())
7747 + self.assertEqual(e2, mapResToRef.getValues())
7749 def testSwig2Intersect2DMeshesQuadra1(self):
7752 m1.finishInsertingCells()
7754 m2 = MEDCouplingDataForTest.buildCircle(0.25, 0.2, 0.4)
7755 - # Was looping indefinitly:
7756 + # Was looping indefinitely:
7757 m_intersec, resToM1, resToM2 = MEDCouplingUMesh.Intersect2DMeshes(m1, m2, eps)
7758 m_intersec.zipCoords()
7759 coo_tgt = DataArrayDouble([-0.5, -0.5, -0.5, 0.5, 0.5, 0.5, 0.5, -0.5, -0.03284271247461901, 0.4828427124746191,
7761 connI_tgt = [0, 9, 22]
7764 - self.assert_(coo_tgt.isEqualWithoutConsideringStr(m_intersec.getCoords(), 1e-12))
7765 + self.assertTrue(coo_tgt.isEqualWithoutConsideringStr(m_intersec.getCoords(), 1e-12))
7766 self.assertEqual(conn_tgt, m_intersec.getNodalConnectivity().getValues())
7767 self.assertEqual(connI_tgt, m_intersec.getNodalConnectivityIndex().getValues())
7768 self.assertEqual(res1_tgt, resToM1.getValues())
7769 @@ -819,6 +869,29 @@
7770 self.assertTrue(d.isEqual(DataArrayInt([(-1,-1),(1,2),(3,0),(3,4),(-1,-1)])))
7773 + def testSwig2Intersect2DMeshWith1DLine17(self):
7774 + """ Single colinear intersection - a deltaShiftIndex() was improperly tested. """
7776 + mesh = MEDCouplingUMesh('dummy_layer', 2)
7777 + coo = DataArrayDouble([(-0.5,-0.5),(-0.5,0.5),(0.5,0.5),(0.5,-0.5),(-0.25,-0.25),(-0.25,0.25),(0.25,0.25),(0.25,-0.25)])
7778 + mesh.setCoords(coo)
7779 + c = DataArrayInt([5, 4, 5, 6, 7, 5, 0, 1, 5, 4, 5, 1, 2, 3, 0, 4, 7, 6, 5])
7780 + cI = DataArrayInt([0, 5, 10, 19])
7781 + mesh.setConnectivity(c, cI)
7782 + m_line = MEDCouplingUMesh('segment', 1)
7783 + coo = DataArrayDouble([(-0.5,0.5),(-0.25,0.25)])
7784 + m_line.setCoords(coo)
7785 + c = DataArrayInt([1, 0, 1])
7786 + cI = DataArrayInt([0, 3])
7787 + m_line.setConnectivity(c, cI)
7788 + a, b, c, d = MEDCouplingUMesh.Intersect2DMeshWith1DLine(mesh, m_line, eps)
7789 + self.assertEqual(mesh.getNodalConnectivity().getValues(),a.getNodalConnectivity().getValues())
7790 + self.assertEqual(mesh.getNodalConnectivityIndex().getValues(),a.getNodalConnectivityIndex().getValues())
7791 + self.assertEqual([1,1,5],b.getNodalConnectivity().getValues())
7792 + self.assertEqual(m_line.getNodalConnectivityIndex().getValues(),b.getNodalConnectivityIndex().getValues())
7793 + self.assertTrue([0,1,2], c.getValues())
7794 + self.assertEqual([2,1], d.getValues())
7796 def testSwig2Conformize2D1(self):
7798 coo = [0.,-0.5,0.,0.,0.5,0.,0.5,-0.5,0.25,
7799 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingMemArray.i MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingMemArray.i
7800 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingMemArray.i 2018-04-19 17:04:36.736222703 +0200
7801 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingMemArray.i 2018-04-19 17:25:17.290788521 +0200
7803 %newobject MEDCoupling::DataArrayFloat::iterator;
7804 %newobject MEDCoupling::DataArrayFloat::__iter__;
7805 %newobject MEDCoupling::DataArrayFloat::Meld;
7806 +%newobject MEDCoupling::DataArrayFloat::__rmul__;
7807 %newobject MEDCoupling::DataArrayInt::New;
7808 %newobject MEDCoupling::DataArrayInt::__iter__;
7809 %newobject MEDCoupling::DataArrayInt::performCopyOrIncrRef;
7811 %newobject MEDCoupling::DataArrayInt::findIdsEqualList;
7812 %newobject MEDCoupling::DataArrayInt::findIdsNotEqualList;
7813 %newobject MEDCoupling::DataArrayInt::findIdsEqualTuple;
7814 +%newobject MEDCoupling::DataArrayInt::findIdForEach;
7815 %newobject MEDCoupling::DataArrayInt::sumPerTuple;
7816 %newobject MEDCoupling::DataArrayInt::negate;
7817 %newobject MEDCoupling::DataArrayInt::computeAbs;
7818 @@ -745,6 +747,18 @@
7819 int nbOfComp(self->getNumberOfComponents()),nbOfTuples(self->getNumberOfTuples());
7820 return convertDblArrToPyListOfTuple<float>(vals,nbOfComp,nbOfTuples);
7823 + PyObject *isEqualIfNotWhy(const DataArrayFloat& other, float prec) const throw(INTERP_KERNEL::Exception)
7826 + bool ret0=self->isEqualIfNotWhy(other,prec,ret1);
7827 + PyObject *ret=PyTuple_New(2);
7828 + PyObject *ret0Py=ret0?Py_True:Py_False;
7829 + Py_XINCREF(ret0Py);
7830 + PyTuple_SetItem(ret,0,ret0Py);
7831 + PyTuple_SetItem(ret,1,PyString_FromString(ret1.c_str()));
7835 PyObject *__getitem__(PyObject *obj) throw(INTERP_KERNEL::Exception)
7837 @@ -771,6 +785,11 @@
7838 return DataArrayT_imul<float>(trueSelf,obj,self);
7841 + DataArrayFloat *__rmul__(PyObject *obj) throw(INTERP_KERNEL::Exception)
7843 + return DataArrayFPT_rmul<float>(self,obj);
7846 PyObject *___idiv___(PyObject *trueSelf, PyObject *obj) throw(INTERP_KERNEL::Exception)
7848 return DataArrayT_idiv<float>(trueSelf,obj,self);
7849 @@ -782,31 +801,6 @@
7850 return ToNumPyArray<DataArrayFloat,float>(self,NPY_FLOAT,"DataArrayFloat");
7855 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
7857 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"DataArrayFloat");
7860 - PyObject *__getnewargs__() throw(INTERP_KERNEL::Exception)
7863 - if(!self->isAllocated())
7864 - throw INTERP_KERNEL::Exception("PyWrap of DataArrayFloat.__getnewargs__ : self is not allocated !");
7865 - PyObject *ret(PyTuple_New(1));
7866 - PyObject *ret0(PyDict_New());
7867 - PyObject *numpyArryObj(MEDCoupling_DataArrayFloat_toNumPyArray(self));
7868 - {// create a dict to discriminite in __new__ if __init__ should be called. Not beautiful but not idea ...
7869 - PyObject *tmp1(PyInt_FromLong(0));
7870 - PyDict_SetItem(ret0,tmp1,numpyArryObj); Py_DECREF(tmp1); Py_DECREF(numpyArryObj);
7871 - PyTuple_SetItem(ret,0,ret0);
7875 - throw INTERP_KERNEL::Exception("PyWrap of DataArrayByte.__getnewargs__ : not implemented because numpy is not active in your configuration ! No serialization/unserialization available without numpy !");
7882 void checkNoNullValues() const throw(INTERP_KERNEL::Exception);
7883 DataArrayDouble *computeBBoxPerTuple(double epsilon=0.0) const throw(INTERP_KERNEL::Exception);
7884 void recenterForMaxPrecision(double eps) throw(INTERP_KERNEL::Exception);
7885 - double getMaxValue(int& tupleId) const throw(INTERP_KERNEL::Exception);
7886 double getMaxValueInArray() const throw(INTERP_KERNEL::Exception);
7887 - double getMinValue(int& tupleId) const throw(INTERP_KERNEL::Exception);
7888 + double getMaxAbsValueInArray() const throw(INTERP_KERNEL::Exception);
7889 double getMinValueInArray() const throw(INTERP_KERNEL::Exception);
7890 int count(double value, double eps) const throw(INTERP_KERNEL::Exception);
7891 double getAverageValue() const throw(INTERP_KERNEL::Exception);
7892 @@ -1052,6 +1045,22 @@
7896 + PyObject *asArcOfCircle() const throw(INTERP_KERNEL::Exception)
7898 + double center[2],radius,ang;
7899 + self->asArcOfCircle(center,radius,ang);
7900 + PyObject *ret(PyTuple_New(3));
7902 + PyObject *ret0(PyList_New(2));
7903 + PyList_SetItem(ret0,0,PyFloat_FromDouble(center[0]));
7904 + PyList_SetItem(ret0,1,PyFloat_FromDouble(center[1]));
7905 + PyTuple_SetItem(ret,0,ret0);
7907 + PyTuple_SetItem(ret,1,PyFloat_FromDouble(radius));
7908 + PyTuple_SetItem(ret,2,PyFloat_FromDouble(ang));
7912 DataArrayDoubleIterator *__iter__() throw(INTERP_KERNEL::Exception)
7914 return self->iterator();
7915 @@ -1284,6 +1293,16 @@
7919 + PyObject *getMaxAbsValue() const throw(INTERP_KERNEL::Exception)
7922 + double r1=self->getMaxAbsValue(tmp);
7923 + PyObject *ret=PyTuple_New(2);
7924 + PyTuple_SetItem(ret,0,PyFloat_FromDouble(r1));
7925 + PyTuple_SetItem(ret,1,PyInt_FromLong(tmp));
7929 PyObject *getMaxValue2() const throw(INTERP_KERNEL::Exception)
7932 @@ -1689,34 +1708,7 @@
7934 DataArrayDouble *__rmul__(PyObject *obj) throw(INTERP_KERNEL::Exception)
7936 - const char msg[]="Unexpected situation in __rmul__ !";
7938 - DataArrayDouble *a;
7939 - DataArrayDoubleTuple *aa;
7940 - std::vector<double> bb;
7942 - convertDoubleStarLikePyObjToCpp_2(obj,sw,val,a,aa,bb);
7947 - MCAuto<DataArrayDouble> ret=self->deepCopy();
7948 - ret->applyLin(val,0.);
7949 - return ret.retn();
7953 - MCAuto<DataArrayDouble> aaa=aa->buildDADouble(1,self->getNumberOfComponents());
7954 - return DataArrayDouble::Multiply(self,aaa);
7958 - MCAuto<DataArrayDouble> aaa=DataArrayDouble::New(); aaa->useArray(&bb[0],false,CPP_DEALLOC,1,(int)bb.size());
7959 - return DataArrayDouble::Multiply(self,aaa);
7962 - throw INTERP_KERNEL::Exception(msg);
7964 + return DataArrayFPT_rmul<double>(self,obj);
7967 PyObject *___imul___(PyObject *trueSelf, PyObject *obj) throw(INTERP_KERNEL::Exception)
7968 @@ -1947,31 +1939,6 @@
7969 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_MEDCoupling__DataArrayInt, SWIG_POINTER_OWN | 0 ));
7974 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
7976 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"DataArrayDouble");
7979 - PyObject *__getnewargs__() throw(INTERP_KERNEL::Exception)
7982 - if(!self->isAllocated())
7983 - throw INTERP_KERNEL::Exception("PyWrap of DataArrayDouble.__getnewargs__ : self is not allocated !");
7984 - PyObject *ret(PyTuple_New(1));
7985 - PyObject *ret0(PyDict_New());
7986 - PyObject *numpyArryObj(MEDCoupling_DataArrayDouble_toNumPyArray(self));
7987 - {// create a dict to discriminite in __new__ if __init__ should be called. Not beautiful but not idea ...
7988 - PyObject *tmp1(PyInt_FromLong(0));
7989 - PyDict_SetItem(ret0,tmp1,numpyArryObj); Py_DECREF(tmp1); Py_DECREF(numpyArryObj);
7990 - PyTuple_SetItem(ret,0,ret0);
7994 - throw INTERP_KERNEL::Exception("PyWrap of DataArrayDouble.__getnewargs__ : not implemented because numpy is not active in your configuration ! No serialization/unserialization available without numpy !");
8000 @@ -2356,9 +2323,8 @@
8001 bool presenceOfValue(const std::vector<int>& vals) const throw(INTERP_KERNEL::Exception);
8002 int count(int value) const throw(INTERP_KERNEL::Exception);
8003 int accumulate(int compId) const throw(INTERP_KERNEL::Exception);
8004 - int getMaxValue(int& tupleId) const throw(INTERP_KERNEL::Exception);
8005 int getMaxValueInArray() const throw(INTERP_KERNEL::Exception);
8006 - int getMinValue(int& tupleId) const throw(INTERP_KERNEL::Exception);
8007 + int getMaxAbsValueInArray() const throw(INTERP_KERNEL::Exception);
8008 int getMinValueInArray() const throw(INTERP_KERNEL::Exception);
8009 void abs() throw(INTERP_KERNEL::Exception);
8010 DataArrayInt *computeAbs() const throw(INTERP_KERNEL::Exception);
8011 @@ -2577,6 +2543,15 @@
8012 return self->findIdsEqualTuple(bg,bg+sz);
8015 + DataArrayInt *findIdForEach(PyObject *vals) const throw(INTERP_KERNEL::Exception)
8018 + std::vector<int> val2;
8019 + const int *bg(convertIntStarLikePyObjToCppIntStar(vals,sw,sz,val,val2));
8020 + MCAuto<DataArrayInt> ret(self->findIdForEach(bg,bg+sz));
8021 + return ret.retn();
8024 PyObject *splitInBalancedSlices(int nbOfSlices) const throw(INTERP_KERNEL::Exception)
8026 std::vector< std::pair<int,int> > slcs(self->splitInBalancedSlices(nbOfSlices));
8027 @@ -3005,6 +2980,16 @@
8028 PyTuple_SetItem(ret,1,PyInt_FromLong(tmp));
8032 + PyObject *getMaxAbsValue(std::size_t& tupleId) const throw(INTERP_KERNEL::Exception)
8035 + int r1=self->getMaxAbsValue(tmp);
8036 + PyObject *ret=PyTuple_New(2);
8037 + PyTuple_SetItem(ret,0,PyInt_FromLong(r1));
8038 + PyTuple_SetItem(ret,1,PyInt_FromLong(tmp));
8042 PyObject *getMinValue() const throw(INTERP_KERNEL::Exception)
8044 @@ -4305,31 +4290,6 @@
8045 PyTuple_SetItem(pyRet,1,ret1Py);
8050 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
8052 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"DataArrayInt");
8055 - PyObject *__getnewargs__() throw(INTERP_KERNEL::Exception)
8058 - if(!self->isAllocated())
8059 - throw INTERP_KERNEL::Exception("PyWrap of DataArrayInt.__getnewargs__ : self is not allocated !");
8060 - PyObject *ret(PyTuple_New(1));
8061 - PyObject *ret0(PyDict_New());
8062 - PyObject *numpyArryObj(MEDCoupling_DataArrayInt_toNumPyArray(self));
8063 - {// create a dict to discriminite in __new__ if __init__ should be called. Not beautiful but not idea ...
8064 - PyObject *tmp1(PyInt_FromLong(0));
8065 - PyDict_SetItem(ret0,tmp1,numpyArryObj); Py_DECREF(tmp1); Py_DECREF(numpyArryObj);
8066 - PyTuple_SetItem(ret,0,ret0);
8070 - throw INTERP_KERNEL::Exception("PyWrap of DataArrayInt.__getnewargs__ : not implemented because numpy is not active in your configuration ! No serialization/unserialization available without numpy !");
8076 @@ -5096,31 +5056,6 @@
8081 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
8083 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"DataArrayByte");
8086 - PyObject *__getnewargs__() throw(INTERP_KERNEL::Exception)
8089 - if(!self->isAllocated())
8090 - throw INTERP_KERNEL::Exception("PyWrap of DataArrayByte.__getnewargs__ : self is not allocated !");
8091 - PyObject *ret(PyTuple_New(1));
8092 - PyObject *ret0(PyDict_New());
8093 - PyObject *numpyArryObj(MEDCoupling_DataArrayByte_toNumPyArray(self));
8094 - {// create a dict to discriminite in __new__ if __init__ should be called. Not beautiful but not idea ...
8095 - PyObject *tmp1(PyInt_FromLong(0));
8096 - PyDict_SetItem(ret0,tmp1,numpyArryObj); Py_DECREF(tmp1); Py_DECREF(numpyArryObj);
8097 - PyTuple_SetItem(ret,0,ret0);
8101 - throw INTERP_KERNEL::Exception("PyWrap of DataArrayByte.__getnewargs__ : not implemented because numpy is not active in your configuration ! No serialization/unserialization available without numpy !");
8105 DataArrayByte *__setitem__(PyObject *obj, PyObject *value) throw(INTERP_KERNEL::Exception)
8107 self->checkAllocated();
8108 @@ -5984,3 +5919,32 @@
8114 +def MEDCouplingStdReduceFunct(cls,params):
8116 + ret=object.__new__(cls)
8118 + ret.__setstate__(b)
8121 +def MEDCouplingDataArrayDoubleReduce(self):
8122 + if not MEDCouplingHasNumPyBindings():
8123 + raise InterpKernelException("PyWrap of DataArrayDouble.__reduce__ : not implemented because numpy is not active in your configuration ! No serialization/unserialization available without numpy !")
8124 + return MEDCouplingStdReduceFunct,(DataArrayDouble,((self.toNumPyArray(),),(self.__getstate__()),))
8126 +def MEDCouplingDataArrayIntReduce(self):
8127 + if not MEDCouplingHasNumPyBindings():
8128 + raise InterpKernelException("PyWrap of DataArrayInt.__reduce__ : not implemented because numpy is not active in your configuration ! No serialization/unserialization available without numpy !")
8129 + return MEDCouplingStdReduceFunct,(DataArrayInt,((self.toNumPyArray(),),(self.__getstate__()),))
8131 +def MEDCouplingDataArrayByteReduce(self):
8132 + if not MEDCouplingHasNumPyBindings():
8133 + raise InterpKernelException("PyWrap of DataArrayByte.__reduce__ : not implemented because numpy is not active in your configuration ! No serialization/unserialization available without numpy !")
8134 + return MEDCouplingStdReduceFunct,(DataArrayByte,((self.toNumPyArray(),),(self.__getstate__()),))
8136 +def MEDCouplingDataArrayFloatReduce(self):
8137 + if not MEDCouplingHasNumPyBindings():
8138 + raise InterpKernelException("PyWrap of DataArrayFloat.__reduce__ : not implemented because numpy is not active in your configuration ! No serialization/unserialization available without numpy !")
8139 + return MEDCouplingStdReduceFunct,(DataArrayFloat,((self.toNumPyArray(),),(self.__getstate__()),))
8141 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingNumPyTest.py MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingNumPyTest.py
8142 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingNumPyTest.py 2018-04-19 17:04:36.736222703 +0200
8143 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingNumPyTest.py 2018-04-19 17:25:17.292788561 +0200
8147 a=array(0,dtype=int32)
8151 self.assertEqual(getrefcount(a),2)
8156 a=array(0,dtype=float64)
8160 self.assertEqual(getrefcount(a),2)
8161 d=DataArrayDouble(a)
8164 @unittest.skipUnless(MEDCouplingHasNumPyBindings(),"requires numpy")
8166 - #tests that only DataArray*(npArray) contructor is available
8167 + #tests that only DataArray*(npArray) constructor is available
8168 a=array(0,dtype=int32)
8172 """Same as test20 with float32"""
8174 a=array(0,dtype=float32)
8178 self.assertEqual(getrefcount(a),2)
8180 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingPickleTest.py MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingPickleTest.py
8181 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingPickleTest.py 2018-04-19 17:04:36.736222703 +0200
8182 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingPickleTest.py 2018-04-19 17:25:17.282788363 +0200
8185 @unittest.skipUnless(MEDCouplingHasNumPyBindings(),"requires numpy")
8187 - """ Idem test3 except that here serialization/deserialization is done explicitely."""
8188 + """ Idem test3 except that here serialization/deserialization is done explicitly."""
8189 arr=DataArrayDouble(10) ; arr.iota()
8190 m=MEDCouplingCMesh() ; m.setCoords(arr,arr,arr)
8191 m=m.buildUnstructured()
8192 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingRefCountObject.i MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingRefCountObject.i
8193 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingRefCountObject.i 2018-04-19 17:04:36.736222703 +0200
8194 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingRefCountObject.i 2018-04-19 17:25:17.297788659 +0200
8196 int MEDCouplingSizeOfVoidStar();
8197 bool MEDCouplingByteOrder();
8198 const char *MEDCouplingByteOrderStr();
8200 + bool IsCXX11Compiled();
8202 class BigMemoryObject
8205 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingRemapperCommon.i MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingRemapperCommon.i
8206 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingRemapperCommon.i 1970-01-01 01:00:00.000000000 +0100
8207 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingRemapperCommon.i 2018-04-19 17:25:17.285788422 +0200
8209 +// Copyright (C) 2017 CEA/DEN, EDF R&D
8211 +// This library is free software; you can redistribute it and/or
8212 +// modify it under the terms of the GNU Lesser General Public
8213 +// License as published by the Free Software Foundation; either
8214 +// version 2.1 of the License, or (at your option) any later version.
8216 +// This library is distributed in the hope that it will be useful,
8217 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
8218 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
8219 +// Lesser General Public License for more details.
8221 +// You should have received a copy of the GNU Lesser General Public
8222 +// License along with this library; if not, write to the Free Software
8223 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
8225 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
8228 +#define MEDCOUPLING_EXPORT
8229 +#define INTERPKERNEL_EXPORT
8230 +#define MEDCOUPLINGREMAPPER_EXPORT
8232 +%newobject MEDCoupling::MEDCouplingRemapper::transferField;
8233 +%newobject MEDCoupling::MEDCouplingRemapper::reverseTransferField;
8236 +#include "MEDCouplingRemapper.hxx"
8239 +%include "InterpolationOptions.hxx"
8241 +namespace MEDCoupling
8245 + IK_ONLY_PREFERED = 0,
8246 + NOT_IK_ONLY_PREFERED = 1,
8247 + IK_ONLY_FORCED = 2,
8248 + NOT_IK_ONLY_FORCED =3
8249 + } InterpolationMatrixPolicy;
8251 + class MEDCouplingRemapper : public TimeLabel, public INTERP_KERNEL::InterpolationOptions
8254 + void updateTime() const;
8256 + MEDCouplingRemapper();
8257 + ~MEDCouplingRemapper();
8258 + int prepare(const MEDCouplingMesh *srcMesh, const MEDCouplingMesh *targetMesh, const std::string& method) throw(INTERP_KERNEL::Exception);
8259 + int prepareEx(const MEDCouplingFieldTemplate *src, const MEDCouplingFieldTemplate *target) throw(INTERP_KERNEL::Exception);
8260 + void transfer(const MEDCouplingFieldDouble *srcField, MEDCouplingFieldDouble *targetField, double dftValue) throw(INTERP_KERNEL::Exception);
8261 + void partialTransfer(const MEDCouplingFieldDouble *srcField, MEDCouplingFieldDouble *targetField) throw(INTERP_KERNEL::Exception);
8262 + void reverseTransfer(MEDCouplingFieldDouble *srcField, const MEDCouplingFieldDouble *targetField, double dftValue) throw(INTERP_KERNEL::Exception);
8263 + MEDCouplingFieldDouble *transferField(const MEDCouplingFieldDouble *srcField, double dftValue) throw(INTERP_KERNEL::Exception);
8264 + MEDCouplingFieldDouble *reverseTransferField(const MEDCouplingFieldDouble *targetField, double dftValue) throw(INTERP_KERNEL::Exception);
8265 + bool setOptionInt(const std::string& key, int value) throw(INTERP_KERNEL::Exception);
8266 + bool setOptionDouble(const std::string& key, double value) throw(INTERP_KERNEL::Exception);
8267 + bool setOptionString(const std::string& key, const std::string& value) throw(INTERP_KERNEL::Exception);
8268 + int getInterpolationMatrixPolicy() const throw(INTERP_KERNEL::Exception);
8269 + void setInterpolationMatrixPolicy(int newInterpMatPol) throw(INTERP_KERNEL::Exception);
8271 + int nullifiedTinyCoeffInCrudeMatrixAbs(double maxValAbs) throw(INTERP_KERNEL::Exception);
8272 + int nullifiedTinyCoeffInCrudeMatrix(double scaleFactor) throw(INTERP_KERNEL::Exception);
8273 + double getMaxValueInCrudeMatrix() const throw(INTERP_KERNEL::Exception);
8274 + int getNumberOfColsOfMatrix() const throw(INTERP_KERNEL::Exception);
8275 + static std::string BuildMethodFrom(const std::string& meth1, const std::string& meth2) throw(INTERP_KERNEL::Exception);
8278 + PyObject *getCrudeMatrix() const throw(INTERP_KERNEL::Exception)
8280 + const std::vector<std::map<int,double> >& m=self->getCrudeMatrix();
8281 + std::size_t sz=m.size();
8282 + PyObject *ret=PyList_New(sz);
8283 + for(std::size_t i=0;i<sz;i++)
8285 + const std::map<int,double>& row=m[i];
8286 + PyObject *ret0=PyDict_New();
8287 + for(std::map<int,double>::const_iterator it=row.begin();it!=row.end();it++)
8288 + PyDict_SetItem(ret0,PyInt_FromLong((*it).first),PyFloat_FromDouble((*it).second));
8289 + PyList_SetItem(ret,i,ret0);
8293 +#if defined(WITH_NUMPY) && defined(WITH_SCIPY)
8294 + PyObject *getCrudeCSRMatrix() const throw(INTERP_KERNEL::Exception)
8296 + return ToCSRMatrix(self->getCrudeMatrix(),self->getNumberOfColsOfMatrix());
8299 + void setCrudeMatrix(const MEDCouplingMesh *srcMesh, const MEDCouplingMesh *targetMesh, const std::string& method, PyObject *m) throw(INTERP_KERNEL::Exception)
8301 + std::vector<std::map<int,double> > mCpp;
8302 + if(isCSRMatrix(m))
8304 +#if defined(WITH_NUMPY) && defined(WITH_SCIPY)
8305 + PyObject *indptr(PyObject_GetAttrString(m,"indptr"));
8306 + PyObject *indices(PyObject_GetAttrString(m,"indices"));
8307 + PyObject *data(PyObject_GetAttrString(m,"data"));
8308 + MCAuto<DataArrayInt> indptrPtr(MEDCoupling_DataArrayInt_New__SWIG_1(indptr,NULL,NULL));
8309 + MCAuto<DataArrayInt> indicesPtr(MEDCoupling_DataArrayInt_New__SWIG_1(indices,NULL,NULL));
8310 + MCAuto<DataArrayDouble> dataPtr(MEDCoupling_DataArrayDouble_New__SWIG_1(data,NULL,NULL));
8311 + convertCSR_MCDataToVectMapIntDouble(indptrPtr,indicesPtr,dataPtr,mCpp);
8312 + Py_XDECREF(data); Py_XDECREF(indptr); Py_XDECREF(indices);
8314 + throw INTERP_KERNEL::Exception("pywrap of MEDCouplingRemapper::setCrudeMatrix : unexpected situation regarding numpy/scipy !");
8318 + convertToVectMapIntDouble(m,mCpp);
8319 + self->setCrudeMatrix(srcMesh,targetMesh,method,mCpp);
8322 + void setCrudeMatrixEx(const MEDCouplingFieldTemplate *src, const MEDCouplingFieldTemplate *target, PyObject *m) throw(INTERP_KERNEL::Exception)
8324 + std::vector<std::map<int,double> > mCpp;
8325 + convertToVectMapIntDouble(m,mCpp);
8326 + self->setCrudeMatrixEx(src,target,mCpp);
8332 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingRemapper.i MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingRemapper.i
8333 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingRemapper.i 2018-04-19 17:04:36.736222703 +0200
8334 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingRemapper.i 2018-04-19 17:25:17.298788679 +0200
8337 %module MEDCouplingRemapper
8339 -#define MEDCOUPLING_EXPORT
8340 -#define INTERPKERNEL_EXPORT
8341 -#define MEDCOUPLINGREMAPPER_EXPORT
8344 -#include "MEDCouplingMemArray.hxx"
8345 -#include "MEDCouplingUMesh.hxx"
8346 -#include "MEDCouplingField.hxx"
8347 -#include "MEDCouplingFieldDouble.hxx"
8348 -#include "MEDCouplingRemapper.hxx"
8350 -using namespace MEDCoupling;
8351 -using namespace INTERP_KERNEL;
8354 -%newobject MEDCoupling::MEDCouplingRemapper::transferField;
8355 -%newobject MEDCoupling::MEDCouplingRemapper::reverseTransferField;
8357 %include "MEDCouplingCommon.i"
8358 -%include "InterpolationOptions.hxx"
8360 -namespace MEDCoupling
8364 - IK_ONLY_PREFERED = 0,
8365 - NOT_IK_ONLY_PREFERED = 1,
8366 - IK_ONLY_FORCED = 2,
8367 - NOT_IK_ONLY_FORCED =3
8368 - } InterpolationMatrixPolicy;
8370 - class MEDCouplingRemapper : public TimeLabel, public INTERP_KERNEL::InterpolationOptions
8373 - void updateTime() const;
8375 - MEDCouplingRemapper();
8376 - ~MEDCouplingRemapper();
8377 - int prepare(const MEDCouplingMesh *srcMesh, const MEDCouplingMesh *targetMesh, const std::string& method) throw(INTERP_KERNEL::Exception);
8378 - int prepareEx(const MEDCouplingFieldTemplate *src, const MEDCouplingFieldTemplate *target) throw(INTERP_KERNEL::Exception);
8379 - void transfer(const MEDCouplingFieldDouble *srcField, MEDCouplingFieldDouble *targetField, double dftValue) throw(INTERP_KERNEL::Exception);
8380 - void partialTransfer(const MEDCouplingFieldDouble *srcField, MEDCouplingFieldDouble *targetField) throw(INTERP_KERNEL::Exception);
8381 - void reverseTransfer(MEDCouplingFieldDouble *srcField, const MEDCouplingFieldDouble *targetField, double dftValue) throw(INTERP_KERNEL::Exception);
8382 - MEDCouplingFieldDouble *transferField(const MEDCouplingFieldDouble *srcField, double dftValue) throw(INTERP_KERNEL::Exception);
8383 - MEDCouplingFieldDouble *reverseTransferField(const MEDCouplingFieldDouble *targetField, double dftValue) throw(INTERP_KERNEL::Exception);
8384 - bool setOptionInt(const std::string& key, int value) throw(INTERP_KERNEL::Exception);
8385 - bool setOptionDouble(const std::string& key, double value) throw(INTERP_KERNEL::Exception);
8386 - bool setOptionString(const std::string& key, const std::string& value) throw(INTERP_KERNEL::Exception);
8387 - int getInterpolationMatrixPolicy() const throw(INTERP_KERNEL::Exception);
8388 - void setInterpolationMatrixPolicy(int newInterpMatPol) throw(INTERP_KERNEL::Exception);
8390 - int nullifiedTinyCoeffInCrudeMatrixAbs(double maxValAbs) throw(INTERP_KERNEL::Exception);
8391 - int nullifiedTinyCoeffInCrudeMatrix(double scaleFactor) throw(INTERP_KERNEL::Exception);
8392 - double getMaxValueInCrudeMatrix() const throw(INTERP_KERNEL::Exception);
8393 - int getNumberOfColsOfMatrix() const throw(INTERP_KERNEL::Exception);
8394 - static std::string BuildMethodFrom(const std::string& meth1, const std::string& meth2) throw(INTERP_KERNEL::Exception);
8397 - PyObject *getCrudeMatrix() const throw(INTERP_KERNEL::Exception)
8399 - const std::vector<std::map<int,double> >& m=self->getCrudeMatrix();
8400 - std::size_t sz=m.size();
8401 - PyObject *ret=PyList_New(sz);
8402 - for(std::size_t i=0;i<sz;i++)
8404 - const std::map<int,double>& row=m[i];
8405 - PyObject *ret0=PyDict_New();
8406 - for(std::map<int,double>::const_iterator it=row.begin();it!=row.end();it++)
8407 - PyDict_SetItem(ret0,PyInt_FromLong((*it).first),PyFloat_FromDouble((*it).second));
8408 - PyList_SetItem(ret,i,ret0);
8412 -#if defined(WITH_NUMPY) && defined(WITH_SCIPY)
8413 - PyObject *getCrudeCSRMatrix() const throw(INTERP_KERNEL::Exception)
8415 - return ToCSRMatrix(self->getCrudeMatrix(),self->getNumberOfColsOfMatrix());
8421 +%include "MEDCouplingRemapperCommon.i"
8424 -def MEDCouplingDataArrayDoublenew(cls,*args):
8425 - import _MEDCouplingRemapper
8426 - return _MEDCouplingRemapper.DataArrayDouble____new___(cls,args)
8427 def MEDCouplingDataArrayDoubleIadd(self,*args):
8428 import _MEDCouplingRemapper
8429 return _MEDCouplingRemapper.DataArrayDouble____iadd___(self, self, *args)
8431 def MEDCouplingDataArrayDoubleIpow(self,*args):
8432 import _MEDCouplingRemapper
8433 return _MEDCouplingRemapper.DataArrayDouble____ipow___(self, self, *args)
8434 -def MEDCouplingFieldDoublenew(cls,*args):
8435 - import _MEDCouplingRemapper
8436 - return _MEDCouplingRemapper.MEDCouplingFieldDouble____new___(cls,args)
8437 def MEDCouplingFieldDoubleIadd(self,*args):
8438 import _MEDCouplingRemapper
8439 return _MEDCouplingRemapper.MEDCouplingFieldDouble____iadd___(self, self, *args)
8441 def MEDCouplingFieldDoubleIpow(self,*args):
8442 import _MEDCouplingRemapper
8443 return _MEDCouplingRemapper.MEDCouplingFieldDouble____ipow___(self, self, *args)
8444 -def MEDCouplingFieldIntnew(cls,*args):
8445 - import _MEDCouplingRemapper
8446 - return _MEDCouplingRemapper.MEDCouplingFieldInt____new___(cls,args)
8447 -def MEDCouplingFieldFloatnew(cls,*args):
8448 - import _MEDCouplingRemapper
8449 - return _MEDCouplingRemapper.MEDCouplingFieldFloat____new___(cls,args)
8450 -def MEDCouplingDataArrayBytenew(cls,*args):
8451 - import _MEDCouplingRemapper
8452 - return _MEDCouplingRemapper.DataArrayByte____new___(cls,args)
8453 -def MEDCouplingDataArrayFloatnew(cls,*args):
8454 - import _MEDCouplingRemapper
8455 - return _MEDCouplingRemapper.DataArrayFloat____new___(cls,args)
8456 def MEDCouplingDataArrayFloatIadd(self,*args):
8457 import _MEDCouplingRemapper
8458 return _MEDCouplingRemapper.DataArrayFloat____iadd___(self, self, *args)
8460 def MEDCouplingDataArrayFloatIdiv(self,*args):
8461 import _MEDCouplingRemapper
8462 return _MEDCouplingRemapper.DataArrayFloat____idiv___(self, self, *args)
8463 -def MEDCouplingDataArrayIntnew(cls,*args):
8464 - import _MEDCouplingRemapper
8465 - return _MEDCouplingRemapper.DataArrayInt____new___(cls,args)
8466 def MEDCouplingDataArrayIntIadd(self,*args):
8467 import _MEDCouplingRemapper
8468 return _MEDCouplingRemapper.DataArrayInt____iadd___(self, self, *args)
8469 @@ -211,33 +111,12 @@
8470 def MEDCouplingDataArrayIntTupleImod(self,*args):
8471 import _MEDCouplingRemapper
8472 return _MEDCouplingRemapper.DataArrayIntTuple____imod___(self, self, *args)
8473 -def ParaMEDMEMDenseMatrixIadd(self,*args):
8474 +def MEDCouplingDenseMatrixIadd(self,*args):
8475 import _MEDCouplingRemapper
8476 return _MEDCouplingRemapper.DenseMatrix____iadd___(self, self, *args)
8477 -def ParaMEDMEMDenseMatrixIsub(self,*args):
8478 +def MEDCouplingDenseMatrixIsub(self,*args):
8479 import _MEDCouplingRemapper
8480 return _MEDCouplingRemapper.DenseMatrix____isub___(self, self, *args)
8481 -def MEDCouplingUMeshnew(cls,*args):
8482 - import _MEDCouplingRemapper
8483 - return _MEDCouplingRemapper.MEDCouplingUMesh____new___(cls,args)
8484 -def MEDCoupling1DGTUMeshnew(cls,*args):
8485 - import _MEDCouplingRemapper
8486 - return _MEDCouplingRemapper.MEDCoupling1DGTUMesh____new___(cls,args)
8487 -def MEDCoupling1SGTUMeshnew(cls,*args):
8488 - import _MEDCouplingRemapper
8489 - return _MEDCouplingRemapper.MEDCoupling1SGTUMesh____new___(cls,args)
8490 -def MEDCouplingCurveLinearMeshnew(cls,*args):
8491 - import _MEDCouplingRemapper
8492 - return _MEDCouplingRemapper.MEDCouplingCurveLinearMesh____new___(cls,args)
8493 -def MEDCouplingCMeshnew(cls,*args):
8494 - import _MEDCouplingRemapper
8495 - return _MEDCouplingRemapper.MEDCouplingCMesh____new___(cls,args)
8496 -def MEDCouplingIMeshnew(cls,*args):
8497 - import _MEDCouplingRemapper
8498 - return _MEDCouplingRemapper.MEDCouplingIMesh____new___(cls,args)
8499 -def MEDCouplingExtrudedMeshnew(cls,*args):
8500 - import _MEDCouplingRemapper
8501 - return _MEDCouplingRemapper.MEDCouplingMappedExtrudedMesh____new___(cls,args)
8504 %include "MEDCouplingFinalize.i"
8505 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingRemapperTest.py MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingRemapperTest.py
8506 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingRemapperTest.py 2018-04-19 17:04:36.737222723 +0200
8507 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingRemapperTest.py 2018-04-19 17:25:17.258787888 +0200
8508 @@ -1108,7 +1108,7 @@
8511 def testP0P0WithHEXGP12(self):
8512 - """ Test that HEXGP12 are correclty remapped (elements with polygonal faces were not properly handled) """
8513 + """ Test that HEXGP12 are correctly remapped (elements with polygonal faces were not properly handled) """
8514 # From Astrid, two disjoint hexagonal prisms:
8515 coo1 = [-4.991193077144312, 8.644999999999998, 0.0, -9.982386154288623, 6.112246755425186e-16, 0.0, -4.991193077144315, -8.644999999999998, 0.0, 4.991193077144309, -8.645000000000005, 0.0, 9.982386154288626, 1.1651321638577316e-15, 0.0, 4.991193077144314, 8.645, 0.0, -4.991193077144312, 8.644999999999998, 7.561799999999991, -9.982386154288623, 6.112246755425186e-16, 7.561799999999991, -4.991193077144315, -8.644999999999998, 7.561799999999991, 4.991193077144309, -8.645000000000005, 7.561799999999991, 9.982386154288626, 1.1651321638577316e-15, 7.561799999999991, 4.991193077144314, 8.645, 7.561799999999991]
8516 coo2 = [-4.991193077144313, -8.645, 0.0, -9.982386154288626, -1.3992140779350848e-15, 0.0, -19.964772308577256, 0.0, 0.0, -24.95596538572157, -8.644999999999998, 0.0, -19.96477230857726, -17.289999999999996, 0.0, -9.982386154288626, -17.289999999999996, 0.0, -4.991193077144313, -8.645, 5.041200000000004, -9.982386154288626, -1.3992140779350848e-15, 5.041200000000004, -19.964772308577256, 0.0, 5.041200000000004, -24.95596538572157, -8.644999999999998, 5.041200000000004, -19.96477230857726, -17.289999999999996, 5.041200000000004, -9.982386154288626, -17.289999999999996, 5.041200000000004]
8517 @@ -1155,6 +1155,130 @@
8518 self.assertEqual(1, len(rmp.getCrudeMatrix()[0]))
8521 + @unittest.skipUnless(MEDCouplingHasNumPyBindings() and MEDCouplingHasSciPyBindings() and IsCXX11Compiled(),"requires numpy AND scipy AND C++11")
8522 + def testP1P1PL3DSpaceFrom1DTo0D(self):
8523 + from scipy.sparse import csr_matrix
8524 + from numpy import array
8526 + def generateTrg(eps):
8527 + trgArr=DataArrayDouble([(0.5,0.5,0.5),(0.2,0.2,0.2),(0.9,0.9,0.9),(0.7+eps*sqrt(3),0.7-eps*sqrt(3),0.7)])
8528 + trg=MEDCouplingUMesh("trg",0) ; trg.setCoords(trgArr)
8529 + trg.allocateCells()
8530 + RenumTrg=[2,3,0,1]
8531 + for rt in RenumTrg:
8532 + trg.insertNextCell(NORM_POINT1,[rt])
8535 + srcArr=DataArrayDouble([(0.,0.,1.),(0.,0.,0.),(1.,1.,1.)])
8536 + src=MEDCouplingUMesh("src",1) ; src.setCoords(srcArr)
8537 + src.allocateCells()
8538 + src.insertNextCell(NORM_SEG2,[1,2])
8540 + trg=generateTrg(1e-7)# trg point 3 of trg cell 1 is NOT closer enough to source edge #1 -> not intercepted
8542 + rem=MEDCouplingRemapper()
8543 + rem.setIntersectionType(PointLocator)
8544 + self.assertEqual(rem.prepare(src,trg,"P1P1"),1)
8545 + mat=rem.getCrudeCSRMatrix()
8546 + row=array([2,2, 0,0, 1,1]) # here no ref to point 3 !
8547 + col=array([1,2, 1,2, 1,2])
8548 + data=array([0.1,0.9, 0.5,0.5, 0.8,0.2])
8549 + mExp=csr_matrix((data,(row,col)),shape=(4,3))
8550 + delta=abs(mExp-mat)
8551 + self.assertAlmostEqual(delta.sum(),0.,14)
8553 + trg=generateTrg(1e-14) # trg point 3 of trg cell 1 is closer enough to source edge #1 -> intercepted
8554 + rem=MEDCouplingRemapper()
8555 + rem.setIntersectionType(PointLocator)
8556 + self.assertEqual(rem.prepare(src,trg,"P1P1"),1)
8557 + mat=rem.getCrudeCSRMatrix()
8558 + row=array([2,2, 3,3, 0,0, 1,1]) # here ref to target point 3
8559 + col=array([1,2, 1,2, 1,2, 1,2])
8560 + data=array([0.1,0.9, 0.3,0.7, 0.5,0.5, 0.8,0.2])
8561 + mExp2=csr_matrix((data,(row,col)),shape=(4,3))
8562 + delta2=abs(mExp2-mat)
8563 + self.assertAlmostEqual(delta2.sum(),0.,14)
8566 + def testSetMatrix1(self):
8567 + """ Remapper has now setCrudeMatrix method to reload matrix to skip prepare phase """
8568 + cooS=DataArrayDouble([1,1, 7,1, 7,2, 1,2],4,2)
8569 + cooT=DataArrayDouble([0,0, 3,0, 3,3, 0,3, 6,0, 12,0, 12,3, 6,3],8,2)
8570 + ms=MEDCouplingUMesh("source",2) ; ms.allocateCells(1) ; ms.insertNextCell(NORM_QUAD4,[0,1,2,3]) ; ms.setCoords(cooS)
8571 + mt=MEDCouplingUMesh("target",2) ; mt.allocateCells(2) ; mt.insertNextCell(NORM_QUAD4,[0,1,2,3]) ; mt.insertNextCell(NORM_QUAD4,[4,5,6,7]) ; mt.setCoords(cooT)
8572 + rem=MEDCouplingRemapper()
8573 + self.assertEqual(rem.prepare(ms,mt,"P0P0"),1) # [{0: 2.0}, {0: 1.0}]
8574 + fs=MEDCouplingFieldDouble(ON_CELLS)
8576 + fs.setArray(DataArrayDouble([10]))
8577 + fs.checkConsistencyLight()
8579 + fs.setNature(ExtensiveConservation)
8580 + self.assertTrue(rem.transferField(fs,1e300).getArray().isEqual(DataArrayDouble([20./3,10./3.]),1e-12))# sum is equal to 10. First value is twice than second value
8582 + fs.setNature(ExtensiveMaximum)
8583 + self.assertTrue(rem.transferField(fs,1e300).getArray().isEqual(DataArrayDouble([20./6.,10./6.]),1e-12))#sum is equal to 5 (10/2. because only half part on input cell is intercepted by the target cells). First value is twice than second value
8585 + fs.setNature(IntensiveConservation)
8586 + self.assertTrue(rem.transferField(fs,1e300).getArray().isEqual(DataArrayDouble([2./9.*10.,1./18.*10.]),1e-12))#
8588 + fs.setNature(IntensiveMaximum)
8589 + self.assertTrue(rem.transferField(fs,1e300).getArray().isEqual(DataArrayDouble([10.,10.]),1e-12))#
8591 + rem2=MEDCouplingRemapper()
8592 + rem2.setCrudeMatrix(ms,mt,"P0P0",rem.getCrudeMatrix())
8593 + fs.setNature(ExtensiveConservation)
8594 + self.assertTrue(rem2.transferField(fs,1e300).getArray().isEqual(DataArrayDouble([20./3,10./3.]),1e-12))
8596 + fs.setNature(ExtensiveMaximum)
8597 + self.assertTrue(rem2.transferField(fs,1e300).getArray().isEqual(DataArrayDouble([20./6.,10./6.]),1e-12))
8599 + fs.setNature(IntensiveConservation)
8600 + self.assertTrue(rem2.transferField(fs,1e300).getArray().isEqual(DataArrayDouble([2./9.*10.,1./18.*10.]),1e-12))
8602 + fs.setNature(IntensiveMaximum)
8603 + self.assertTrue(rem2.transferField(fs,1e300).getArray().isEqual(DataArrayDouble([10.,10.]),1e-12))
8605 + srcFt=MEDCouplingFieldTemplate.New(ON_CELLS);
8606 + trgFt=MEDCouplingFieldTemplate.New(ON_CELLS);
8607 + srcFt.setMesh(ms);
8608 + trgFt.setMesh(mt);
8609 + rem3=MEDCouplingRemapper()
8610 + rem3.setCrudeMatrixEx(srcFt,trgFt,rem.getCrudeMatrix())
8611 + fs.setNature(ExtensiveConservation)
8612 + self.assertTrue(rem3.transferField(fs,1e300).getArray().isEqual(DataArrayDouble([20./3,10./3.]),1e-12))
8615 + @unittest.skipUnless(MEDCouplingHasNumPyBindings() and MEDCouplingHasSciPyBindings(),"requires numpy AND scipy")
8616 + def testSetMatrix2(self):
8617 + """ Remapper has now setCrudeMatrix method to reload matrix to skip prepare phase. Same as testSetMatrix1 but with CSR scipy matrix """
8618 + arrx_s=DataArrayDouble(6) ; arrx_s.iota()
8619 + arry_s=DataArrayDouble(6) ; arry_s.iota()
8620 + ms=MEDCouplingCMesh() ; ms.setCoords(arrx_s,arry_s)
8621 + ms=ms.buildUnstructured()
8623 + arrx_t=DataArrayDouble([2.5,4.5,5.5])
8624 + arry_t=DataArrayDouble([2.5,3.5,5.5])
8625 + mt=MEDCouplingCMesh() ; mt.setCoords(arrx_t,arry_t)
8626 + mt=mt.buildUnstructured()
8628 + rem=MEDCouplingRemapper()
8629 + self.assertEqual(rem.prepare(ms,mt,"P0P0"),1)
8631 + fs=MEDCouplingFieldDouble(ON_CELLS)
8633 + arr=DataArrayDouble(25) ; arr.iota()
8635 + fs.checkConsistencyLight()
8637 + fs.setNature(ExtensiveConservation)
8638 + self.assertTrue(rem.transferField(fs,1e300).getArray().isEqual(DataArrayDouble([54.25,11.75,79.25,16.75]),1e-12))
8639 + mat=rem.getCrudeCSRMatrix()
8640 + rem2=MEDCouplingRemapper()
8641 + rem2.setCrudeMatrix(ms,mt,"P0P0",mat)
8642 + self.assertTrue(rem2.transferField(fs,1e300).getArray().isEqual(DataArrayDouble([54.25,11.75,79.25,16.75]),1e-12))
8645 def checkMatrix(self,mat1,mat2,nbCols,eps):
8646 self.assertEqual(len(mat1),len(mat2))
8647 for i in range(len(mat1)):
8648 diff -Naur MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingTypemaps.i MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingTypemaps.i
8649 --- MEDCOUPLING_old/src/MEDCoupling_Swig/MEDCouplingTypemaps.i 2018-04-19 17:04:36.737222723 +0200
8650 +++ MEDCOUPLING_new/src/MEDCoupling_Swig/MEDCouplingTypemaps.i 2018-04-19 17:25:17.296788640 +0200
8655 +static PyObject *convertField(MEDCoupling::MEDCouplingField *f, int owner)
8657 + PyObject *ret(NULL);
8660 + Py_XINCREF(Py_None);
8663 + if(dynamic_cast<MEDCoupling::MEDCouplingFieldDouble *>(f))
8664 + ret=SWIG_NewPointerObj(reinterpret_cast<void*>(f),SWIGTYPE_p_MEDCoupling__MEDCouplingFieldDouble,owner);
8665 + if(dynamic_cast<MEDCoupling::MEDCouplingFieldInt *>(f))
8666 + ret=SWIG_NewPointerObj(reinterpret_cast<void*>(f),SWIGTYPE_p_MEDCoupling__MEDCouplingFieldInt,owner);
8667 + if(dynamic_cast<MEDCoupling::MEDCouplingFieldFloat *>(f))
8668 + ret=SWIG_NewPointerObj(reinterpret_cast<void*>(f),SWIGTYPE_p_MEDCoupling__MEDCouplingFieldFloat,owner);
8670 + throw INTERP_KERNEL::Exception("Not recognized type of field on downcast !");
8674 static PyObject* convertMultiFields(MEDCoupling::MEDCouplingMultiFields *mfs, int owner)
8677 diff -Naur MEDCOUPLING_old/src/MEDLoader/CMakeLists.txt MEDCOUPLING_new/src/MEDLoader/CMakeLists.txt
8678 --- MEDCOUPLING_old/src/MEDLoader/CMakeLists.txt 2018-04-19 17:04:36.738222743 +0200
8679 +++ MEDCOUPLING_new/src/MEDLoader/CMakeLists.txt 2018-04-19 17:25:17.745797515 +0200
8684 + MEDFileFieldInternal.cxx
8685 + MEDFileFieldGlobs.cxx
8686 + MEDFileField1TS.cxx
8687 + MEDFileFieldMultiTS.cxx
8689 MEDFileEquivalence.cxx
8690 MEDFileParameter.cxx
8693 ADD_LIBRARY(medloader ${medloader_SOURCES})
8694 SET_TARGET_PROPERTIES(medloader PROPERTIES COMPILE_FLAGS "")
8695 -TARGET_LINK_LIBRARIES(medloader medcoupling ${MEDFILE_C_LIBRARIES} ${HDF5_LIBRARIES} ${MEDLOADER_XDR_LIBRARIES})
8696 +TARGET_LINK_LIBRARIES(medloader medcouplingcpp ${MEDFILE_C_LIBRARIES} ${HDF5_LIBRARIES} ${MEDLOADER_XDR_LIBRARIES})
8697 INSTALL(TARGETS medloader EXPORT ${PROJECT_NAME}TargetGroup DESTINATION ${MEDCOUPLING_INSTALL_LIBS})
8699 FILE(GLOB medloader_HEADERS_HXX "${CMAKE_CURRENT_SOURCE_DIR}/*.hxx")
8700 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileBlowStrEltUp.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileBlowStrEltUp.cxx
8701 --- MEDCOUPLING_old/src/MEDLoader/MEDFileBlowStrEltUp.cxx 2018-04-19 17:04:36.738222743 +0200
8702 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileBlowStrEltUp.cxx 2018-04-19 17:25:17.812798839 +0200
8704 #include "MEDFileFieldVisitor.hxx"
8705 #include "MEDCouplingPartDefinition.hxx"
8706 #include "MCAuto.txx"
8709 using namespace MEDCoupling;
8711 @@ -337,10 +338,13 @@
8712 void checkUniqueLoc(const std::string& loc) const;
8713 static MCAuto<DataArrayDouble> BuildMeshFromAngleVrille(INTERP_KERNEL::NormalizedCellType gt, const DataArrayDouble *angleDeVrille, const std::string& pfl, const MEDFileFieldLoc& loc, const MEDFileEltStruct4Mesh *zeStr, const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileFieldGlobsReal *globs);
8714 static MCAuto<DataArrayDouble> BuildMeshFromEpaisseur(INTERP_KERNEL::NormalizedCellType gt, const DataArrayDouble *thikness, const std::string& pfl, const MEDFileFieldLoc& loc, const MEDFileEltStruct4Mesh *zeStr, const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileFieldGlobsReal *globs);
8715 + static MCAuto<DataArrayDouble> BuildMeshPipeSEG3(const DataArrayDouble *angle, const DataArrayDouble *scale, const std::string& pfl, const MEDFileFieldLoc& loc, const MEDFileEltStruct4Mesh *zeStr, const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileFieldGlobsReal *globs);
8716 static MCAuto<MEDCouplingUMesh> BuildMeshCommon(INTERP_KERNEL::NormalizedCellType gt, const std::string& pfl, const MEDFileFieldLoc& loc, const MEDFileEltStruct4Mesh *zeStr, const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileFieldGlobsReal *globs, MCAuto<DataArrayDouble>& ptsForLoc);
8717 static MCAuto<DataArrayDouble> BuildMeshFromStructure(INTERP_KERNEL::NormalizedCellType gt, const std::string& pfl, const MEDFileFieldLoc& loc, const MEDFileEltStruct4Mesh *zeStr, const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileFieldGlobsReal *globs);
8719 static const char ANGLE_DE_VRILLE[];
8720 + static const char ANGLE[];
8721 + static const char SCALE[];
8722 static const char EPAISSEUR[];
8724 std::vector<std::string> _locs;
8725 @@ -350,6 +354,10 @@
8727 const char LocInfo::ANGLE_DE_VRILLE[]="ANGLE DE VRILLE";
8729 +const char LocInfo::ANGLE[]="ANGLE";
8731 +const char LocInfo::SCALE[]="SCALE";
8733 const char LocInfo::EPAISSEUR[]="EPAISSEUR";
8735 LocInfo::LocInfo(const std::vector<FieldWalker2>& fw)
8740 -MCAuto<MEDCouplingUMesh> LocInfo::BuildMeshCommon(INTERP_KERNEL::NormalizedCellType gt,const std::string& pfl, const MEDFileFieldLoc& loc, const MEDFileEltStruct4Mesh *zeStr, const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileFieldGlobsReal *globs, MCAuto<DataArrayDouble>& ptsForLoc)
8741 +MCAuto<MEDCouplingUMesh> LocInfo::BuildMeshCommon(INTERP_KERNEL::NormalizedCellType gt, const std::string& pfl, const MEDFileFieldLoc& loc, const MEDFileEltStruct4Mesh *zeStr, const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileFieldGlobsReal *globs, MCAuto<DataArrayDouble>& ptsForLoc)
8743 MCAuto<DataArrayInt> conn(zeStr->getConn());
8744 conn=conn->deepCopy(); conn->rearrange(1);
8747 MCAuto<DataArrayDouble> LocInfo::BuildMeshFromEpaisseur(INTERP_KERNEL::NormalizedCellType gt, const DataArrayDouble *thikness, const std::string& pfl, const MEDFileFieldLoc& loc, const MEDFileEltStruct4Mesh *zeStr, const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileFieldGlobsReal *globs)
8749 +#if __cplusplus >= 201103L
8750 MCAuto<DataArrayDouble> ptsForLoc;
8751 MCAuto<MEDCouplingUMesh> geoMesh(BuildMeshCommon(gt,pfl,loc,zeStr,mesh,section,globs,ptsForLoc));
8752 int nbSecPts(section->getNumberOfNodes()),nbCells(geoMesh->getNumberOfCells()),nbg(loc.getGaussWeights().size());
8756 const DataArrayInt *pflArr(globs->getProfile(pfl));
8757 - geoMesh=geoMesh->buildPartOfMySelf(pflArr->begin(),pflArr->end(),true);
8758 zeThikness=thikness->selectByTupleIdSafe(pflArr->begin(),pflArr->end());
8761 @@ -476,11 +484,14 @@
8762 std::vector< MCAuto<DataArrayDouble> > arrs(nbCells*nbg);
8763 for(int j=0;j<nbCells;j++)
8765 - double thck(zeThikness->getIJ(j,0));
8766 - MCAuto<DataArrayDouble> fact(DataArrayDouble::New()); fact->alloc(1,nbCompo);
8767 + double thck(zeThikness->getIJ(j,0)),eccentricity(zeThikness->getIJ(j,1));
8768 + MCAuto<DataArrayDouble> fact(DataArrayDouble::New()),fact2(DataArrayDouble::New()); fact->alloc(1,nbCompo); fact2->alloc(1,nbCompo);
8769 std::copy(orthoArr->begin()+j*nbCompo,orthoArr->begin()+(j+1)*nbCompo,fact->getPointer());
8770 - std::transform(fact->begin(),fact->end(),fact->getPointer(),std::bind2nd(std::multiplies<double>(),thck/2.));
8771 + std::copy(orthoArr->begin()+j*nbCompo,orthoArr->begin()+(j+1)*nbCompo,fact2->getPointer());
8772 + std::for_each(fact2->rwBegin(),fact2->rwEnd(),[eccentricity](double& val){ val*=eccentricity; });
8773 + std::transform(fact->begin(),fact->end(),fact->getPointer(),[thck](const double& val){ return val*thck/2.; });
8774 MCAuto<DataArrayDouble> p(DataArrayDouble::Multiply(secPts,fact));
8775 + p=DataArrayDouble::Add(p,fact2);
8776 for(int l=0;l<nbg;l++)
8778 MCAuto<DataArrayDouble> p2(p->deepCopy());
8779 @@ -492,24 +503,131 @@
8780 std::vector<const DataArrayDouble *> arrs2(VecAutoToVecOfCstPt(arrs));
8781 MCAuto<DataArrayDouble> resu(DataArrayDouble::Aggregate(arrs2));
8784 + throw INTERP_KERNEL::Exception("Broken news : 10% off for C++11 compiler :)");
8788 +MCAuto<DataArrayDouble> LocInfo::BuildMeshPipeSEG3(const DataArrayDouble *angle, const DataArrayDouble *scale, const std::string& pfl, const MEDFileFieldLoc& loc, const MEDFileEltStruct4Mesh *zeStr, const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileFieldGlobsReal *globs)
8790 +#if __cplusplus >= 201103L
8791 + static const char MSG1[]="BuildMeshPipeSEG3 : not recognized pattern ! Send mail to anthony.geay@edf.fr with corresponding MED file !";
8792 + MCAuto<DataArrayDouble> ptsForLoc;
8793 + MCAuto<MEDCouplingUMesh> geoMesh(BuildMeshCommon(INTERP_KERNEL::NORM_SEG3,pfl,loc,zeStr,mesh,section,globs,ptsForLoc));
8794 + int nbSecPts(section->getNumberOfNodes()),nbCells(geoMesh->getNumberOfCells()),nbg(loc.getGaussWeights().size());
8795 + MCConstAuto<DataArrayDouble> zeAngle,zeScale;
8798 + const DataArrayInt *pflArr(globs->getProfile(pfl));
8799 + zeAngle=angle->selectByTupleIdSafe(pflArr->begin(),pflArr->end());
8800 + zeScale=scale->selectByTupleIdSafe(pflArr->begin(),pflArr->end());
8804 + zeAngle.takeRef(angle);
8805 + zeScale.takeRef(scale);
8807 + if(zeAngle->getNumberOfComponents()!=3 || zeScale->getNumberOfComponents()!=2 || nbg!=3)
8808 + throw INTERP_KERNEL::Exception(MSG1);
8809 + MCAuto<MEDCouplingFieldDouble> dir;
8811 + MCAuto<MEDCouplingUMesh> geoMesh2(geoMesh->deepCopy());
8812 + geoMesh2->convertQuadraticCellsToLinear();
8813 + dir=geoMesh2->buildDirectionVectorField();
8815 + MCAuto<DataArrayDouble> rot(dir->getArray()->fromCartToSpher());
8816 + int nbCompo(ptsForLoc->getNumberOfComponents());
8817 + MCAuto<DataArrayDouble> secPts(section->getCoords()->changeNbOfComponents(nbCompo,0.));
8819 + const int TAB[3]={2,0,1};
8820 + std::vector<int> v(TAB,TAB+3);
8821 + secPts=secPts->keepSelectedComponents(v);
8823 + const double CENTER[3]={0.,0.,0.},AX0[3]={0.,0.,1.};
8824 + double AX1[3]; AX1[2]=0.;
8825 + std::vector< MCAuto<DataArrayDouble> > arrs(nbCells*nbg);
8826 + for(int j=0;j<nbCells;j++)
8828 + constexpr int DIM=3;
8829 + MCAuto<DataArrayDouble> p(secPts->deepCopy());
8830 + double ang0(rot->getIJ(j,2));
8831 + double rmin(zeScale->getIJ(j,0)),rmax(zeScale->getIJ(j,1));
8833 + auto pt(p->rwBegin());
8834 + for(int i=0;i<nbSecPts;i++)
8836 + auto nrm(sqrt(std::accumulate(pt,pt+DIM,0.,[](double sum, double v) { return sum+v*v; } )));
8837 + auto sca((rmin+2.*(nrm-0.5)*(rmax-rmin))/nrm);
8838 + std::for_each(pt,pt+3,[sca](double& val) { val*=sca; } );
8839 + std::advance(pt,DIM);
8842 + DataArrayDouble::Rotate3DAlg(CENTER,AX0,ang0,nbSecPts,p->begin(),p->getPointer());
8843 + AX1[0]=-sin(ang0); AX1[1]=cos(ang0);// rot Oy around OZ
8844 + double ang1(M_PI/2.-rot->getIJ(j,1));
8845 + DataArrayDouble::Rotate3DAlg(CENTER,AX1,-ang1,nbSecPts,p->begin(),p->getPointer());
8846 + for(int l=0;l<3;l++)
8848 + MCAuto<DataArrayDouble> p3(p->deepCopy());
8849 + DataArrayDouble::Rotate3DAlg(CENTER,dir->getArray()->begin()+j*3,zeAngle->getIJ(j,l),nbSecPts,p3->begin(),p3->getPointer());
8850 + MCAuto<DataArrayDouble> p2(p3->deepCopy());
8851 + for(int k=0;k<nbCompo;k++)
8852 + p2->applyLin(1.,ptsForLoc->getIJ(j*nbg+l,k),k);
8856 + std::vector<const DataArrayDouble *> arrs2(VecAutoToVecOfCstPt(arrs));
8857 + MCAuto<DataArrayDouble> resu(DataArrayDouble::Aggregate(arrs2));
8860 + throw INTERP_KERNEL::Exception("Broken news : 10% off for C++11 compiler :)");
8864 MCAuto<DataArrayDouble> LocInfo::BuildMeshFromStructure(INTERP_KERNEL::NormalizedCellType gt, const std::string& pfl, const MEDFileFieldLoc& loc, const MEDFileEltStruct4Mesh *zeStr, const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileFieldGlobsReal *globs)
8866 static const char MSG1[]="BuildMeshFromStructure : not recognized pattern ! Send mail to anthony.geay@edf.fr with corresponding MED file !";
8867 const std::vector< MCAuto<DataArray> >& vars(zeStr->getVars());
8868 - if(vars.size()!=1)
8869 - throw INTERP_KERNEL::Exception(MSG1);
8870 - MCAuto<DataArray> zeArr(vars[0]);
8871 - if(zeArr.isNull())
8872 - throw INTERP_KERNEL::Exception(MSG1);
8873 - MCAuto<DataArrayDouble> zeArr2(DynamicCast<DataArray,DataArrayDouble>(zeArr));
8874 - if(zeArr2.isNull())
8875 - throw INTERP_KERNEL::Exception(MSG1);
8876 - if(zeArr2->getName()==ANGLE_DE_VRILLE)
8877 - return BuildMeshFromAngleVrille(gt,zeArr2,pfl,loc,zeStr,mesh,section,globs);
8878 - if(zeArr2->getName()==EPAISSEUR)
8879 - return BuildMeshFromEpaisseur(gt,zeArr2,pfl,loc,zeStr,mesh,section,globs);
8880 + if(vars.size()==1)
8882 + MCAuto<DataArray> zeArr(vars[0]);
8883 + if(zeArr.isNull())
8884 + throw INTERP_KERNEL::Exception(MSG1);
8885 + MCAuto<DataArrayDouble> zeArr2(DynamicCast<DataArray,DataArrayDouble>(zeArr));
8886 + if(zeArr2.isNull())
8887 + throw INTERP_KERNEL::Exception(MSG1);
8888 + if(zeArr2->getName()==ANGLE_DE_VRILLE || zeArr2->getName()==ANGLE)
8889 + return BuildMeshFromAngleVrille(gt,zeArr2,pfl,loc,zeStr,mesh,section,globs);
8890 + if(zeArr2->getName()==EPAISSEUR || zeArr2->getName()==SCALE)
8891 + return BuildMeshFromEpaisseur(gt,zeArr2,pfl,loc,zeStr,mesh,section,globs);
8893 + if(vars.size()==2)
8895 + MCAuto<DataArray> zeArr0(vars[0]),zeArr1(vars[1]);
8896 + if(zeArr0.isNull() || zeArr1.isNull())
8897 + throw INTERP_KERNEL::Exception(MSG1);
8898 + MCAuto<DataArrayDouble> zeArr00(DynamicCastSafe<DataArray,DataArrayDouble>(zeArr0)),zeArr11(DynamicCastSafe<DataArray,DataArrayDouble>(zeArr1));
8901 + case INTERP_KERNEL::NORM_SEG3:
8903 + MCAuto<DataArrayDouble> angle,scale;
8904 + if(zeArr00->getName()==ANGLE)
8906 + if(zeArr00->getName()==SCALE)
8908 + if(zeArr11->getName()==ANGLE)
8910 + if(zeArr11->getName()==SCALE)
8912 + if(angle.isNull() || scale.isNull())
8913 + throw INTERP_KERNEL::Exception(MSG1);
8914 + return BuildMeshPipeSEG3(angle,scale,pfl,loc,zeStr,mesh,section,globs);
8917 + throw INTERP_KERNEL::Exception(MSG1);
8920 throw INTERP_KERNEL::Exception(MSG1);
8923 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileField1TS.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileField1TS.cxx
8924 --- MEDCOUPLING_old/src/MEDLoader/MEDFileField1TS.cxx 1970-01-01 01:00:00.000000000 +0100
8925 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileField1TS.cxx 2018-04-19 17:25:17.799798582 +0200
8927 +// Copyright (C) 2017 CEA/DEN, EDF R&D
8929 +// This library is free software; you can redistribute it and/or
8930 +// modify it under the terms of the GNU Lesser General Public
8931 +// License as published by the Free Software Foundation; either
8932 +// version 2.1 of the License, or (at your option) any later version.
8934 +// This library is distributed in the hope that it will be useful,
8935 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
8936 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
8937 +// Lesser General Public License for more details.
8939 +// You should have received a copy of the GNU Lesser General Public
8940 +// License along with this library; if not, write to the Free Software
8941 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
8943 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
8945 +// Author : Anthony Geay (EDF R&D)
8947 +#include "MEDFileField1TS.hxx"
8948 +#include "MEDFileFieldVisitor.hxx"
8949 +#include "MEDFileSafeCaller.txx"
8950 +#include "MEDLoaderBase.hxx"
8951 +#include "MEDFileField.txx"
8953 +#include "MEDCouplingFieldTemplate.hxx"
8954 +#include "MEDCouplingFieldDouble.hxx"
8956 +using namespace MEDCoupling;
8958 +extern INTERP_KERNEL::NormalizedCellType typmai2[MED_N_CELL_FIXED_GEO];
8960 +template class MEDCoupling::MEDFileField1TSTemplateWithoutSDA<int>;
8961 +template class MEDCoupling::MEDFileField1TSTemplateWithoutSDA<float>;
8962 +template class MEDCoupling::MEDFileField1TSTemplateWithoutSDA<double>;
8963 +template class MEDCoupling::MEDFileField1TSNDTemplateWithoutSDA<int>;
8964 +template class MEDCoupling::MEDFileField1TSNDTemplateWithoutSDA<float>;
8965 +template class MEDCoupling::MEDFileTemplateField1TS<int>;
8966 +template class MEDCoupling::MEDFileTemplateField1TS<float>;
8967 +template class MEDCoupling::MEDFileTemplateField1TS<double>;
8968 +template class MEDCoupling::MEDFileNDTemplateField1TS<int>;
8969 +template class MEDCoupling::MEDFileNDTemplateField1TS<float>;
8971 +const char MEDFileField1TSWithoutSDA::TYPE_STR[]="FLOAT64";
8972 +const char MEDFileIntField1TSWithoutSDA::TYPE_STR[]="INT32";
8973 +const char MEDFileFloatField1TSWithoutSDA::TYPE_STR[]="FLOAT32";
8975 +//= MEDFileAnyTypeField1TSWithoutSDA
8977 +void MEDFileAnyTypeField1TSWithoutSDA::deepCpyLeavesFrom(const MEDFileAnyTypeField1TSWithoutSDA& other)
8979 + _field_per_mesh.resize(other._field_per_mesh.size());
8981 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=other._field_per_mesh.begin();it!=other._field_per_mesh.end();it++,i++)
8983 + if((const MEDFileFieldPerMesh *)*it)
8984 + _field_per_mesh[i]=(*it)->deepCopy(this);
8988 +void MEDFileAnyTypeField1TSWithoutSDA::accept(MEDFileFieldVisitor& visitor) const
8990 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
8991 + if((*it).isNotNull())
8993 + visitor.newMeshEntry(*it);
8994 + (*it)->accept(visitor);
8995 + visitor.endMeshEntry(*it);
9000 + * Prints a string describing \a this field into a stream. This string is outputted
9001 + * by \c print Python command.
9002 + * \param [in] bkOffset - number of white spaces printed at the beginning of each line.
9003 + * \param [in,out] oss - the out stream.
9004 + * \param [in] f1tsId - the field index within a MED file. If \a f1tsId < 0, the tiny
9005 + * info id printed, else, not.
9007 +void MEDFileAnyTypeField1TSWithoutSDA::simpleRepr(int bkOffset, std::ostream& oss, int f1tsId) const
9009 + std::string startOfLine(bkOffset,' ');
9010 + oss << startOfLine << "Field ";
9012 + oss << "[Type=" << getTypeStr() << "] with name \"" << getName() << "\" ";
9013 + oss << "on one time Step ";
9015 + oss << "(" << f1tsId << ") ";
9016 + oss << "on iteration=" << _iteration << " order=" << _order << "." << std::endl;
9017 + oss << startOfLine << "Time attached is : " << _dt << " [" << _dt_unit << "]." << std::endl;
9018 + const DataArray *arr=getUndergroundDataArray();
9021 + const std::vector<std::string> &comps=arr->getInfoOnComponents();
9024 + oss << startOfLine << "Field has " << comps.size() << " components with the following infos :" << std::endl;
9025 + for(std::vector<std::string>::const_iterator it=comps.begin();it!=comps.end();it++)
9026 + oss << startOfLine << " - \"" << (*it) << "\"" << std::endl;
9028 + if(arr->isAllocated())
9030 + oss << startOfLine << "Whole field contains " << arr->getNumberOfTuples() << " tuples." << std::endl;
9033 + oss << startOfLine << "The array of the current field has not allocated yet !" << std::endl;
9037 + oss << startOfLine << "Field infos are empty ! Not defined yet !" << std::endl;
9039 + oss << startOfLine << "----------------------" << std::endl;
9040 + if(!_field_per_mesh.empty())
9043 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it2=_field_per_mesh.begin();it2!=_field_per_mesh.end();it2++,i++)
9045 + const MEDFileFieldPerMesh *cur=(*it2);
9047 + cur->simpleRepr(bkOffset,oss,i);
9049 + oss << startOfLine << "Field per mesh #" << i << " is not defined !" << std::endl;
9054 + oss << startOfLine << "Field is not defined on any meshes !" << std::endl;
9056 + oss << startOfLine << "----------------------" << std::endl;
9059 +std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > MEDFileAnyTypeField1TSWithoutSDA::splitComponents() const
9061 + const DataArray *arr(getUndergroundDataArray());
9063 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::splitComponents : no array defined !");
9064 + int nbOfCompo=arr->getNumberOfComponents();
9065 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret(nbOfCompo);
9066 + for(int i=0;i<nbOfCompo;i++)
9068 + ret[i]=deepCopy();
9069 + std::vector<int> v(1,i);
9070 + MCAuto<DataArray> arr2=arr->keepSelectedComponents(v);
9071 + ret[i]->setArray(arr2);
9076 +MEDFileAnyTypeField1TSWithoutSDA::MEDFileAnyTypeField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order):MEDFileFieldNameScope(fieldName,meshName),_iteration(iteration),_order(order),_csit(csit),_nb_of_tuples_to_be_allocated(-2)
9080 +MEDFileAnyTypeField1TSWithoutSDA::MEDFileAnyTypeField1TSWithoutSDA():_iteration(-1),_order(-1),_dt(0.),_csit(-1),_nb_of_tuples_to_be_allocated(-1)
9085 + * Returns the maximal dimension of supporting elements. Returns -2 if \a this is
9086 + * empty. Returns -1 if this in on nodes.
9087 + * \return int - the dimension of \a this.
9089 +int MEDFileAnyTypeField1TSWithoutSDA::getDimension() const
9092 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9093 + (*it)->getDimension(ret);
9097 +bool MEDFileAnyTypeField1TSWithoutSDA::changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab)
9100 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9102 + MEDFileFieldPerMesh *cur(*it);
9104 + ret=cur->changeMeshNames(modifTab) || ret;
9110 + * Returns the number of iteration of the state of underlying mesh.
9111 + * \return int - the iteration number.
9112 + * \throw If \c _field_per_mesh.empty()
9114 +int MEDFileAnyTypeField1TSWithoutSDA::getMeshIteration() const
9116 + if(_field_per_mesh.empty())
9117 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::getMeshIteration : No field set !");
9118 + return _field_per_mesh[0]->getMeshIteration();
9122 + * Returns the order number of iteration of the state of underlying mesh.
9123 + * \return int - the order number.
9124 + * \throw If \c _field_per_mesh.empty()
9126 +int MEDFileAnyTypeField1TSWithoutSDA::getMeshOrder() const
9128 + if(_field_per_mesh.empty())
9129 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::getMeshOrder : No field set !");
9130 + return _field_per_mesh[0]->getMeshOrder();
9134 + * Checks if \a this field is tagged by a given iteration number and a given
9135 + * iteration order number.
9136 + * \param [in] iteration - the iteration number of interest.
9137 + * \param [in] order - the iteration order number of interest.
9138 + * \return bool - \c true if \a this->getIteration() == \a iteration &&
9139 + * \a this->getOrder() == \a order.
9141 +bool MEDFileAnyTypeField1TSWithoutSDA::isDealingTS(int iteration, int order) const
9143 + return iteration==_iteration && order==_order;
9147 + * Returns number of iteration and order number of iteration when
9148 + * \a this field has been calculated.
9149 + * \return std::pair<int,int> - a pair of the iteration number and the iteration
9152 +std::pair<int,int> MEDFileAnyTypeField1TSWithoutSDA::getDtIt() const
9154 + std::pair<int,int> p;
9160 + * Returns number of iteration and order number of iteration when
9161 + * \a this field has been calculated.
9162 + * \param [in,out] p - a pair returning the iteration number and the iteration
9165 +void MEDFileAnyTypeField1TSWithoutSDA::fillIteration(std::pair<int,int>& p) const
9167 + p.first=_iteration;
9172 + * Returns all types of spatial discretization of \a this field.
9173 + * \param [in,out] types - a sequence of types of \a this field.
9175 +void MEDFileAnyTypeField1TSWithoutSDA::fillTypesOfFieldAvailable(std::vector<TypeOfField>& types) const
9177 + std::set<TypeOfField> types2;
9178 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9180 + (*it)->fillTypesOfFieldAvailable(types2);
9182 + std::back_insert_iterator< std::vector<TypeOfField> > bi(types);
9183 + std::copy(types2.begin(),types2.end(),bi);
9187 + * Returns all types of spatial discretization of \a this field.
9188 + * \return std::vector<TypeOfField> - a sequence of types of spatial discretization
9189 + * of \a this field.
9191 +std::vector<TypeOfField> MEDFileAnyTypeField1TSWithoutSDA::getTypesOfFieldAvailable() const
9193 + std::vector<TypeOfField> ret;
9194 + fillTypesOfFieldAvailable(ret);
9198 +std::vector<std::string> MEDFileAnyTypeField1TSWithoutSDA::getPflsReallyUsed2() const
9200 + std::vector<std::string> ret;
9201 + std::set<std::string> ret2;
9202 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9204 + std::vector<std::string> tmp=(*it)->getPflsReallyUsed();
9205 + for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
9206 + if(ret2.find(*it2)==ret2.end())
9208 + ret.push_back(*it2);
9209 + ret2.insert(*it2);
9215 +std::vector<std::string> MEDFileAnyTypeField1TSWithoutSDA::getLocsReallyUsed2() const
9217 + std::vector<std::string> ret;
9218 + std::set<std::string> ret2;
9219 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9221 + std::vector<std::string> tmp=(*it)->getLocsReallyUsed();
9222 + for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
9223 + if(ret2.find(*it2)==ret2.end())
9225 + ret.push_back(*it2);
9226 + ret2.insert(*it2);
9232 +std::vector<std::string> MEDFileAnyTypeField1TSWithoutSDA::getPflsReallyUsedMulti2() const
9234 + std::vector<std::string> ret;
9235 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9237 + std::vector<std::string> tmp=(*it)->getPflsReallyUsedMulti();
9238 + ret.insert(ret.end(),tmp.begin(),tmp.end());
9243 +std::vector<std::string> MEDFileAnyTypeField1TSWithoutSDA::getLocsReallyUsedMulti2() const
9245 + std::vector<std::string> ret;
9246 + std::set<std::string> ret2;
9247 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9249 + std::vector<std::string> tmp=(*it)->getLocsReallyUsedMulti();
9250 + ret.insert(ret.end(),tmp.begin(),tmp.end());
9255 +void MEDFileAnyTypeField1TSWithoutSDA::changePflsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
9257 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9258 + (*it)->changePflsRefsNamesGen(mapOfModif);
9261 +void MEDFileAnyTypeField1TSWithoutSDA::changeLocsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
9263 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9264 + (*it)->changeLocsRefsNamesGen(mapOfModif);
9268 + * Returns all attributes of parts of \a this field lying on a given mesh.
9269 + * Each part differs from other ones by a type of supporting mesh entity. The _i_-th
9270 + * item of every of returned sequences refers to the _i_-th part of \a this field.
9271 + * Thus all sequences returned by this method are of the same length equal to number
9272 + * of different types of supporting entities.<br>
9273 + * A field part can include sub-parts with several different spatial discretizations,
9274 + * \ref MEDCoupling::ON_CELLS "ON_CELLS" and \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT"
9275 + * for example. Hence, some of the returned sequences contains nested sequences, and an item
9276 + * of a nested sequence corresponds to a type of spatial discretization.<br>
9277 + * This method allows for iteration over MEDFile DataStructure without any overhead.
9278 + * \param [in] mname - a name of a mesh of interest. It can be \c NULL, which is valid
9279 + * for the case with only one underlying mesh. (Actually, the number of meshes is
9280 + * not checked if \a mname == \c NULL).
9281 + * \param [in,out] types - a sequence of types of underlying mesh entities. A type per
9282 + * a field part is returned.
9283 + * \param [in,out] typesF - a sequence of sequences of types of spatial discretizations.
9284 + * This sequence is of the same length as \a types.
9285 + * \param [in,out] pfls - a sequence returning a profile name per each type of spatial
9286 + * discretization. A profile name can be empty.
9287 + * Length of this and of nested sequences is the same as that of \a typesF.
9288 + * \param [in,out] locs - a sequence returning a localization name per each type of spatial
9289 + * discretization. A localization name can be empty.
9290 + * Length of this and of nested sequences is the same as that of \a typesF.
9291 + * \return std::vector< std::vector< std::pair<int,int> > > - a sequence holding a range
9292 + * of ids of tuples within the data array, per each type of spatial
9293 + * discretization within one mesh entity type.
9294 + * Length of this and of nested sequences is the same as that of \a typesF.
9295 + * \throw If no field is lying on \a mname.
9297 +std::vector< std::vector< std::pair<int,int> > > MEDFileAnyTypeField1TSWithoutSDA::getFieldSplitedByType(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
9299 + if(_field_per_mesh.empty())
9300 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getFieldSplitedByType : This is empty !");
9301 + return _field_per_mesh[0]->getFieldSplitedByType(types,typesF,pfls,locs);
9305 + * Returns dimensions of mesh elements \a this field lies on. The returned value is a
9306 + * maximal absolute dimension and values returned via the out parameter \a levs are
9307 + * dimensions relative to the maximal absolute dimension. <br>
9308 + * This method is designed for MEDFileField1TS instances that have a discretization
9309 + * \ref MEDCoupling::ON_CELLS "ON_CELLS",
9310 + * \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT",
9311 + * \ref MEDCoupling::ON_GAUSS_NE "ON_GAUSS_NE".
9312 + * Only these 3 discretizations will be taken into account here. If \a this is
9313 + * \ref MEDCoupling::ON_NODES "ON_NODES", -1 is returned and \a levs are empty.<br>
9314 + * This method is useful to make the link between the dimension of the underlying mesh
9315 + * and the levels of \a this, because it is possible that the highest dimension of \a this
9316 + * field is not equal to the dimension of the underlying mesh.
9318 + * Let's consider the following case:
9319 + * - mesh \a m1 has a meshDimension 3 and has non empty levels [0,-1,-2] with elements
9320 + * TETRA4, HEXA8, TRI3 and SEG2.
9321 + * - field \a f1 lies on \a m1 and is defined on 3D and 1D elements TETRA4 and SEG2.
9322 + * - field \a f2 lies on \a m1 and is defined on 2D and 1D elements TRI3 and SEG2.
9324 + * In this case \a f1->getNonEmptyLevels() returns (3,[0,-2]) and \a
9325 + * f2->getNonEmptyLevels() returns (2,[0,-1]). <br>
9326 + * The returned values can be used for example to retrieve a MEDCouplingFieldDouble lying
9327 + * on elements of a certain relative level by calling getFieldAtLevel(). \a meshDimRelToMax
9328 + * parameter of getFieldAtLevel() is computed basing on the returned values as this:
9329 + * <em> meshDimRelToMax = absDim - meshDim + relativeLev </em>.
9331 + * to retrieve the highest level of
9332 + * \a f1: <em>f1->getFieldAtLevel( ON_CELLS, 3-3+0 ); // absDim - meshDim + relativeLev</em><br>
9333 + * to retrieve the lowest level of \a f1: <em>f1->getFieldAtLevel( ON_CELLS, 3-3+(-2) );</em><br>
9334 + * to retrieve the highest level of \a f2: <em>f2->getFieldAtLevel( ON_CELLS, 2-3+0 );</em><br>
9335 + * to retrieve the lowest level of \a f2: <em>f2->getFieldAtLevel( ON_CELLS, 2-3+(-1) )</em>.
9336 + * \param [in] mname - a name of a mesh of interest. It can be \c NULL, which is valid
9337 + * for the case with only one underlying mesh. (Actually, the number of meshes is
9338 + * not checked if \a mname == \c NULL).
9339 + * \param [in,out] levs - a sequence returning the dimensions relative to the maximal
9340 + * absolute one. They are in decreasing order. This sequence is cleared before
9342 + * \return int - the maximal absolute dimension of elements \a this fields lies on.
9343 + * \throw If no field is lying on \a mname.
9345 +int MEDFileAnyTypeField1TSWithoutSDA::getNonEmptyLevels(const std::string& mname, std::vector<int>& levs) const
9348 + std::vector<INTERP_KERNEL::NormalizedCellType> types;
9349 + std::vector< std::vector<TypeOfField> > typesF;
9350 + std::vector< std::vector<std::string> > pfls, locs;
9351 + if(_field_per_mesh.empty())
9352 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::getNonEmptyLevels : This is empty !");
9353 + _field_per_mesh[0]->getFieldSplitedByType(types,typesF,pfls,locs);
9355 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getNonEmptyLevels : 'this' is empty !");
9356 + std::set<INTERP_KERNEL::NormalizedCellType> st(types.begin(),types.end());
9357 + if(st.size()==1 && (*st.begin())==INTERP_KERNEL::NORM_ERROR)
9359 + st.erase(INTERP_KERNEL::NORM_ERROR);
9360 + std::set<int> ret1;
9361 + for(std::set<INTERP_KERNEL::NormalizedCellType>::const_iterator it=st.begin();it!=st.end();it++)
9363 + const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(*it);
9364 + ret1.insert((int)cm.getDimension());
9366 + int ret=*std::max_element(ret1.begin(),ret1.end());
9367 + std::copy(ret1.rbegin(),ret1.rend(),std::back_insert_iterator<std::vector<int> >(levs));
9368 + std::transform(levs.begin(),levs.end(),levs.begin(),std::bind2nd(std::plus<int>(),-ret));
9372 +void MEDFileAnyTypeField1TSWithoutSDA::convertMedBallIntoClassic()
9374 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it<_field_per_mesh.end();it++)
9375 + if((*it).isNotNull())
9376 + (*it)->convertMedBallIntoClassic();
9379 +void MEDFileAnyTypeField1TSWithoutSDA::makeReduction(INTERP_KERNEL::NormalizedCellType ct, TypeOfField tof, const DataArrayInt *pfl)
9382 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : null pfl !");
9383 + std::string name(pfl->getName());
9384 + pfl->checkAllocated();
9385 + if(pfl->getNumberOfComponents()!=1)
9386 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : non mono compo array !");
9388 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : empty pfl name !");
9389 + if(_field_per_mesh.size()!=1)
9390 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : only single mesh supported !");
9391 + MCAuto<MEDFileFieldPerMesh> fpm(_field_per_mesh[0]);
9393 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : only single not null mesh supported !");
9394 + MEDFileFieldPerMeshPerTypePerDisc *disc(fpm->getLeafGivenTypeAndLocId(ct,0));
9395 + if(disc->getType()!=tof)
9396 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : error !");
9397 + int s(disc->getStart()),e(disc->getEnd()),nt(pfl->getNumberOfTuples());
9398 + DataArray *arr(getUndergroundDataArray());
9399 + int nt2(arr->getNumberOfTuples()),delta((e-s)-nt);
9401 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : internal error !");
9402 + MCAuto<DataArray> arr0(arr->selectByTupleIdSafeSlice(0,s,1)),arr1(arr->selectByTupleIdSafeSlice(s,e,1)),arr2(arr->selectByTupleIdSafeSlice(e,nt2,1));
9403 + MCAuto<DataArray> arr11(arr1->selectByTupleIdSafe(pfl->begin(),pfl->end()));
9404 + MCAuto<DataArray> arrOut(arr->buildNewEmptyInstance());
9405 + arrOut->alloc(nt2-delta,arr->getNumberOfComponents());
9406 + arrOut->copyStringInfoFrom(*arr);
9407 + arrOut->setContigPartOfSelectedValuesSlice(0,arr0,0,s,1);
9408 + arrOut->setContigPartOfSelectedValuesSlice(s,arr11,0,nt,1);
9409 + arrOut->setContigPartOfSelectedValuesSlice(e-delta,arr2,0,nt2-e,1);
9411 + disc->setEnd(e-delta);
9412 + disc->setProfile(name);
9416 + * \param [in] mName specifies the underlying mesh name. This value can be pointer 0 for users that do not deal with fields on multi mesh.
9417 + * \param [in] typ is for the geometric cell type (or INTERP_KERNEL::NORM_ERROR for node field) entry to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set.
9418 + * \param [in] locId is the localization id to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set. It corresponds to the position of
9419 + * \c pfls[std::distance(types.begin(),std::find(types.begin(),typ)] vector in MEDFileField1TSWithoutSDA::getFieldSplitedByType. For non gausspoints field users, the value is 0.
9421 +MEDFileFieldPerMeshPerTypePerDisc *MEDFileAnyTypeField1TSWithoutSDA::getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId)
9423 + if(_field_per_mesh.empty())
9424 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::getLeafGivenMeshAndTypeAndLocId : This is empty !");
9425 + return _field_per_mesh[0]->getLeafGivenTypeAndLocId(typ,locId);
9429 + * \param [in] mName specifies the underlying mesh name. This value can be pointer 0 for users that do not deal with fields on multi mesh.
9430 + * \param [in] typ is for the geometric cell type (or INTERP_KERNEL::NORM_ERROR for node field) entry to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set.
9431 + * \param [in] locId is the localization id to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set. It corresponds to the position of
9432 + * \c pfls[std::distance(types.begin(),std::find(types.begin(),typ)] vector in MEDFileField1TSWithoutSDA::getFieldSplitedByType. For non gausspoints field users, the value is 0.
9434 +const MEDFileFieldPerMeshPerTypePerDisc *MEDFileAnyTypeField1TSWithoutSDA::getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId) const
9436 + if(_field_per_mesh.empty())
9437 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::getLeafGivenMeshAndTypeAndLocId : This is empty !");
9438 + return _field_per_mesh[0]->getLeafGivenTypeAndLocId(typ,locId);
9442 + * \param [in] mName specifies the underlying mesh name. This value can be pointer 0 for users that do not deal with fields on multi mesh.
9444 +int MEDFileAnyTypeField1TSWithoutSDA::getMeshIdFromMeshName(const std::string& mName) const
9446 + if(_field_per_mesh.empty())
9447 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getMeshIdFromMeshName : No field set !");
9450 + std::string mName2(mName);
9452 + std::vector<std::string> msg;
9453 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++,ret++)
9454 + if(mName2==(*it)->getMeshName())
9457 + msg.push_back((*it)->getMeshName());
9458 + std::ostringstream oss; oss << "MEDFileField1TSWithoutSDA::getMeshIdFromMeshName : No such mesh \"" << mName2 << "\" as underlying mesh of field \"" << getName() << "\" !\n";
9459 + oss << "Possible meshes are : ";
9460 + for(std::vector<std::string>::const_iterator it2=msg.begin();it2!=msg.end();it2++)
9461 + oss << "\"" << (*it2) << "\" ";
9462 + throw INTERP_KERNEL::Exception(oss.str());
9465 +int MEDFileAnyTypeField1TSWithoutSDA::addNewEntryIfNecessary(const MEDCouplingMesh *mesh)
9468 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::addNewEntryIfNecessary : input mesh is NULL !");
9469 + std::string tmp(mesh->getName());
9471 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::addNewEntryIfNecessary : empty mesh name ! unsupported by MED file !");
9473 + std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();
9475 + for(;it!=_field_per_mesh.end();it++,i++)
9477 + if((*it)->getMeshName()==tmp)
9480 + int sz=_field_per_mesh.size();
9481 + _field_per_mesh.resize(sz+1);
9482 + _field_per_mesh[sz]=MEDFileFieldPerMesh::New(this,mesh);
9486 +bool MEDFileAnyTypeField1TSWithoutSDA::renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N,
9487 + MEDFileFieldGlobsReal& glob)
9490 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9492 + MEDFileFieldPerMesh *fpm(*it);
9494 + ret=fpm->renumberEntitiesLyingOnMesh(meshName,oldCode,newCode,renumO2N,glob) || ret;
9500 + * This method splits \a this into several sub-parts so that each sub parts have exactly one spatial discretization. This method implements the minimal
9501 + * splitting that leads to single spatial discretization of this.
9503 + * \sa splitMultiDiscrPerGeoTypes
9505 +std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > MEDFileAnyTypeField1TSWithoutSDA::splitDiscretizations() const
9507 + std::vector<INTERP_KERNEL::NormalizedCellType> types;
9508 + std::vector< std::vector<TypeOfField> > typesF;
9509 + std::vector< std::vector<std::string> > pfls,locs;
9510 + std::vector< std::vector<std::pair<int,int> > > bgEnd(getFieldSplitedByType(getMeshName().c_str(),types,typesF,pfls,locs));
9511 + std::set<TypeOfField> allEnt;
9512 + for(std::vector< std::vector<TypeOfField> >::const_iterator it1=typesF.begin();it1!=typesF.end();it1++)
9513 + for(std::vector<TypeOfField>::const_iterator it2=(*it1).begin();it2!=(*it1).end();it2++)
9514 + allEnt.insert(*it2);
9515 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret(allEnt.size());
9516 + std::set<TypeOfField>::const_iterator it3(allEnt.begin());
9517 + for(std::size_t i=0;i<allEnt.size();i++,it3++)
9519 + std::vector< std::pair<int,int> > its;
9520 + ret[i]=shallowCpy();
9521 + int newLgth(ret[i]->keepOnlySpatialDiscretization(*it3,its));
9522 + ret[i]->updateData(newLgth,its);
9528 + * This method performs a sub splitting as splitDiscretizations does but finer. This is the finest spliting level that can be done.
9529 + * This method implements the minimal splitting so that each returned elements are mono Gauss discretization per geometric type.
9531 + * \sa splitDiscretizations
9533 +std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > MEDFileAnyTypeField1TSWithoutSDA::splitMultiDiscrPerGeoTypes() const
9535 + std::vector<INTERP_KERNEL::NormalizedCellType> types;
9536 + std::vector< std::vector<TypeOfField> > typesF;
9537 + std::vector< std::vector<std::string> > pfls,locs;
9538 + std::vector< std::vector<std::pair<int,int> > > bgEnd(getFieldSplitedByType(getMeshName().c_str(),types,typesF,pfls,locs));
9539 + std::set<TypeOfField> allEnt;
9540 + std::size_t nbOfMDPGT(0),ii(0);
9541 + for(std::vector< std::vector<TypeOfField> >::const_iterator it1=typesF.begin();it1!=typesF.end();it1++,ii++)
9543 + nbOfMDPGT=std::max(nbOfMDPGT,locs[ii].size());
9544 + for(std::vector<TypeOfField>::const_iterator it2=(*it1).begin();it2!=(*it1).end();it2++)
9545 + allEnt.insert(*it2);
9547 + if(allEnt.size()!=1)
9548 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::splitMultiDiscrPerGeoTypes : this field is expected to be defined only on one spatial discretization !");
9550 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::splitMultiDiscrPerGeoTypes : empty field !");
9553 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret0(1);
9554 + ret0[0]=const_cast<MEDFileAnyTypeField1TSWithoutSDA *>(this); this->incrRef();
9557 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret(nbOfMDPGT);
9558 + for(std::size_t i=0;i<nbOfMDPGT;i++)
9560 + std::vector< std::pair<int,int> > its;
9561 + ret[i]=shallowCpy();
9562 + int newLgth(ret[i]->keepOnlyGaussDiscretization(i,its));
9563 + ret[i]->updateData(newLgth,its);
9568 +int MEDFileAnyTypeField1TSWithoutSDA::keepOnlySpatialDiscretization(TypeOfField tof, std::vector< std::pair<int,int> >& its)
9570 + int globalCounter(0);
9571 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9572 + (*it)->keepOnlySpatialDiscretization(tof,globalCounter,its);
9573 + return globalCounter;
9576 +int MEDFileAnyTypeField1TSWithoutSDA::keepOnlyGaussDiscretization(std::size_t idOfDisc, std::vector< std::pair<int,int> >& its)
9578 + int globalCounter(0);
9579 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9580 + (*it)->keepOnlyGaussDiscretization(idOfDisc,globalCounter,its);
9581 + return globalCounter;
9584 +void MEDFileAnyTypeField1TSWithoutSDA::updateData(int newLgth, const std::vector< std::pair<int,int> >& oldStartStops)
9586 + if(_nb_of_tuples_to_be_allocated>=0)
9588 + _nb_of_tuples_to_be_allocated=newLgth;
9589 + const DataArray *oldArr(getUndergroundDataArray());
9592 + MCAuto<DataArray> newArr(createNewEmptyDataArrayInstance());
9593 + newArr->setInfoAndChangeNbOfCompo(oldArr->getInfoOnComponents());
9595 + _nb_of_tuples_to_be_allocated=newLgth;//force the _nb_of_tuples_to_be_allocated because setArray has been used specialy
9599 + if(_nb_of_tuples_to_be_allocated==-1)
9601 + if(_nb_of_tuples_to_be_allocated==-2 || _nb_of_tuples_to_be_allocated==-3)
9603 + const DataArray *oldArr(getUndergroundDataArray());
9604 + if(!oldArr || !oldArr->isAllocated())
9605 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::updateData : internal error 1 !");
9606 + MCAuto<DataArray> newArr(createNewEmptyDataArrayInstance());
9607 + newArr->alloc(newLgth,getNumberOfComponents());
9609 + newArr->copyStringInfoFrom(*oldArr);
9611 + for(std::vector< std::pair<int,int> >::const_iterator it=oldStartStops.begin();it!=oldStartStops.end();it++)
9613 + if((*it).second<(*it).first)
9614 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::updateData : the range in the leaves was invalid !");
9615 + newArr->setContigPartOfSelectedValuesSlice(pos,oldArr,(*it).first,(*it).second,1);
9616 + pos+=(*it).second-(*it).first;
9621 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::updateData : internal error 2 !");
9624 +void MEDFileAnyTypeField1TSWithoutSDA::writeLL(med_idt fid, const MEDFileWritable& opts, const MEDFileFieldNameScope& nasc) const
9626 + if(_field_per_mesh.empty())
9627 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::writeLL : empty field !");
9628 + if(_field_per_mesh.size()>1)
9629 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::writeLL : In MED3.0 mode in writing mode only ONE underlying mesh supported !");
9630 + _field_per_mesh[0]->copyOptionsFrom(opts);
9631 + _field_per_mesh[0]->writeLL(fid,nasc);
9635 + * MED file does not support ' ' at the end of the field name. This method corrects the possibly invalid input \a nonCorrectFieldName to a correct one by right stripping input.
9637 +std::string MEDFileAnyTypeField1TSWithoutSDA::FieldNameToMEDFileConvention(const std::string& nonCorrectFieldName)
9639 + std::string::size_type pos0(nonCorrectFieldName.find_last_not_of(' '));
9640 + if(pos0==std::string::npos)
9641 + return nonCorrectFieldName;
9642 + if(pos0+1==nonCorrectFieldName.length())
9643 + return nonCorrectFieldName;
9644 + return nonCorrectFieldName.substr(0,pos0+1);
9648 + * This methods returns true is the allocation has been needed leading to a modification of state in \a this->_nb_of_tuples_to_be_allocated.
9649 + * If false is returned the memory allocation is not required.
9651 +bool MEDFileAnyTypeField1TSWithoutSDA::allocIfNecessaryTheArrayToReceiveDataFromFile()
9653 + if(_nb_of_tuples_to_be_allocated>=0)
9655 + getOrCreateAndGetArray()->alloc(_nb_of_tuples_to_be_allocated,getNumberOfComponents());
9656 + _nb_of_tuples_to_be_allocated=-2;
9659 + if(_nb_of_tuples_to_be_allocated==-2 || _nb_of_tuples_to_be_allocated==-3)
9661 + if(_nb_of_tuples_to_be_allocated==-1)
9662 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::allocIfNecessaryTheArrayToReceiveDataFromFile : trying to read from a file an empty instance ! Need to prepare the structure before !");
9663 + if(_nb_of_tuples_to_be_allocated<-3)
9664 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::allocIfNecessaryTheArrayToReceiveDataFromFile : internal error !");
9665 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::allocIfNecessaryTheArrayToReceiveDataFromFile : internal error !");
9668 +void MEDFileAnyTypeField1TSWithoutSDA::loadOnlyStructureOfDataRecursively(med_idt fid, const MEDFileFieldNameScope& nasc, const MEDFileMeshes *ms, const MEDFileEntities *entities)
9670 + med_int numdt,numit;
9672 + med_int meshnumdt,meshnumit;
9673 + MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,nasc.getName().c_str(),_csit,&numdt,&numit,&_dt));
9675 + med_bool localMesh;
9677 + INTERP_KERNEL::AutoPtr<char> meshName(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
9678 + MEDFILESAFECALLERRD0(MEDfield23ComputingStepMeshInfo,(fid,nasc.getName().c_str(),_csit,&numdt,&numit,&dt,&nmesh,meshName,&localMesh,&meshnumdt,&meshnumit)); // to check with Adrien for legacy MED files
9680 + //MEDFILESAFECALLERRD0(MEDfieldComputingStepMeshInfo,(fid,nasc.getName().c_str(),_csit,&numdt,&numit,&_dt,&meshnumdt,&meshnumit));
9681 + if(_iteration!=numdt || _order!=numit)
9682 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::loadBigArraysRecursively : unexpected exception internal error !");
9683 + _field_per_mesh.resize(1);
9685 + MEDFileMesh *mm(0);
9688 + mm=ms->getMeshWithName(getMeshName());
9691 + _field_per_mesh[0]=MEDFileFieldPerMesh::NewOnRead(fid,this,0,meshnumdt,meshnumit,nasc,mm,entities);
9692 + _nb_of_tuples_to_be_allocated=0;
9693 + _field_per_mesh[0]->loadOnlyStructureOfDataRecursively(fid,_nb_of_tuples_to_be_allocated,nasc);
9696 +void MEDFileAnyTypeField1TSWithoutSDA::loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc)
9698 + allocIfNecessaryTheArrayToReceiveDataFromFile();
9699 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9700 + (*it)->loadBigArraysRecursively(fid,nasc);
9703 +void MEDFileAnyTypeField1TSWithoutSDA::loadBigArraysRecursivelyIfNecessary(med_idt fid, const MEDFileFieldNameScope& nasc)
9705 + if(allocIfNecessaryTheArrayToReceiveDataFromFile())
9706 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9707 + (*it)->loadBigArraysRecursively(fid,nasc);
9710 +void MEDFileAnyTypeField1TSWithoutSDA::loadStructureAndBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc, const MEDFileMeshes *ms, const MEDFileEntities *entities)
9712 + loadOnlyStructureOfDataRecursively(fid,nasc,ms,entities);
9713 + loadBigArraysRecursively(fid,nasc);
9716 +void MEDFileAnyTypeField1TSWithoutSDA::unloadArrays()
9718 + DataArray *thisArr(getUndergroundDataArray());
9719 + if(thisArr && thisArr->isAllocated())
9721 + _nb_of_tuples_to_be_allocated=thisArr->getNumberOfTuples();
9722 + thisArr->desallocate();
9726 +std::size_t MEDFileAnyTypeField1TSWithoutSDA::getHeapMemorySizeWithoutChildren() const
9728 + return _mesh_name.capacity()+_dt_unit.capacity()+_field_per_mesh.capacity()*sizeof(MCAuto< MEDFileFieldPerMesh >);
9731 +std::vector<const BigMemoryObject *> MEDFileAnyTypeField1TSWithoutSDA::getDirectChildrenWithNull() const
9733 + std::vector<const BigMemoryObject *> ret;
9734 + if(getUndergroundDataArray())
9735 + ret.push_back(getUndergroundDataArray());
9736 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9737 + ret.push_back((const MEDFileFieldPerMesh *)*it);
9742 + * Adds a MEDCouplingFieldDouble to \a this. The underlying mesh of the given field is
9743 + * checked if its elements are sorted suitable for writing to MED file ("STB" stands for
9744 + * "Sort By Type"), if not, an exception is thrown.
9745 + * \param [in] field - the field to add to \a this. The array of field \a field is ignored
9746 + * \param [in] arr - the array of values.
9747 + * \param [in,out] glob - the global data where profiles and localization present in
9748 + * \a field, if any, are added.
9749 + * \throw If the name of \a field is empty.
9750 + * \throw If the data array of \a field is not set.
9751 + * \throw If \a this->_arr is already allocated but has different number of components
9753 + * \throw If the underlying mesh of \a field has no name.
9754 + * \throw If elements in the mesh are not in the order suitable for writing to the MED file.
9756 +void MEDFileAnyTypeField1TSWithoutSDA::setFieldNoProfileSBT(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
9758 + const MEDCouplingMesh *mesh(field->getMesh());
9760 + TypeOfField type(field->getTypeOfField());
9761 + std::vector<DataArrayInt *> dummy;
9763 + setMeshName(mesh->getName());
9764 + int start(copyTinyInfoFrom(th,field,arr));
9765 + int pos(addNewEntryIfNecessary(mesh));
9766 + if(type!=ON_NODES)
9768 + std::vector<int> code=MEDFileField1TSWithoutSDA::CheckSBTMesh(mesh);
9769 + _field_per_mesh[pos]->assignFieldNoProfileNoRenum(start,code,field,arr,glob,nasc);
9772 + _field_per_mesh[pos]->assignNodeFieldNoProfile(start,field,arr,glob);
9776 + * Adds a MEDCouplingFieldDouble to \a this. Specified entities of a given dimension
9777 + * of a given mesh are used as the support of the given field (a real support is not used).
9778 + * Elements of the given mesh must be sorted suitable for writing to MED file.
9779 + * Order of underlying mesh entities of the given field specified by \a profile parameter
9780 + * is not prescribed; this method permutes field values to have them sorted by element
9781 + * type as required for writing to MED file. A new profile is added only if no equal
9782 + * profile is missing.
9783 + * \param [in] field - the field to add to \a this. The field double values are ignored.
9784 + * \param [in] arrOfVals - the values of the field \a field used.
9785 + * \param [in] mesh - the supporting mesh of \a field.
9786 + * \param [in] meshDimRelToMax - a relative dimension of mesh entities \a field lies on.
9787 + * \param [in] profile - ids of mesh entities on which corresponding field values lie.
9788 + * \param [in,out] glob - the global data where profiles and localization present in
9789 + * \a field, if any, are added.
9790 + * \param [in] nasc - the name scope used to assign names. Depends on the caller on the top call stack
9791 + * \param [in] smartPflKiller - specifies if this method tries at most to avoid profiles
9792 + * \throw If either \a field or \a mesh or \a profile has an empty name.
9793 + * \throw If there are no mesh entities of \a meshDimRelToMax dimension in \a mesh.
9794 + * \throw If the data array of \a field is not set.
9795 + * \throw If \a this->_arr is already allocated but has different number of components
9797 + * \throw If elements in \a mesh are not in the order suitable for writing to the MED file.
9798 + * \sa setFieldNoProfileSBT()
9800 +void MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arrOfVals, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc, bool smartPflKiller)
9803 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile : input field is null !");
9804 + if(!arrOfVals || !arrOfVals->isAllocated())
9805 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile : input array is null or not allocated !");
9806 + TypeOfField type=field->getTypeOfField();
9807 + std::vector<DataArrayInt *> idsInPflPerType;
9808 + std::vector<DataArrayInt *> idsPerType;
9809 + std::vector<int> code,code2;
9810 + MCAuto<MEDCouplingMesh> m(mesh->getMeshAtLevel(meshDimRelToMax));
9811 + if(type!=ON_NODES)
9813 + m->splitProfilePerType(profile,code,idsInPflPerType,idsPerType,smartPflKiller);
9814 + std::vector< MCAuto<DataArrayInt> > idsInPflPerType2(idsInPflPerType.size()); std::copy(idsInPflPerType.begin(),idsInPflPerType.end(),idsInPflPerType2.begin());
9815 + std::vector< MCAuto<DataArrayInt> > idsPerType2(idsPerType.size()); std::copy(idsPerType.begin(),idsPerType.end(),idsPerType2.begin());
9816 + std::vector<const DataArrayInt *> idsPerType3(idsPerType.size()); std::copy(idsPerType.begin(),idsPerType.end(),idsPerType3.begin());
9818 + MCAuto<MEDCouplingFieldTemplate> field2=field->clone(false);
9819 + int nbOfTuplesExp=field2->getNumberOfTuplesExpectedRegardingCode(code,idsPerType3);
9820 + if(nbOfTuplesExp!=arrOfVals->getNumberOfTuples())
9822 + std::ostringstream oss; oss << "MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile : The array is expected to have " << nbOfTuplesExp << " tuples ! It has " << arrOfVals->getNumberOfTuples() << " !";
9823 + throw INTERP_KERNEL::Exception(oss.str());
9826 + int start(copyTinyInfoFrom(th,field,arrOfVals));
9827 + code2=m->getDistributionOfTypes();
9829 + int pos=addNewEntryIfNecessary(m);
9830 + _field_per_mesh[pos]->assignFieldProfile(start,profile,code,code2,idsInPflPerType,idsPerType,field,arrOfVals,m,glob,nasc);
9834 + if(!profile || !profile->isAllocated() || profile->getNumberOfComponents()!=1)
9835 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile : input profile is null, not allocated or with number of components != 1 !");
9836 + std::vector<int> v(3); v[0]=-1; v[1]=profile->getNumberOfTuples(); v[2]=0;
9837 + std::vector<const DataArrayInt *> idsPerType3(1); idsPerType3[0]=profile;
9838 + int nbOfTuplesExp=field->getNumberOfTuplesExpectedRegardingCode(v,idsPerType3);
9839 + if(nbOfTuplesExp!=arrOfVals->getNumberOfTuples())
9841 + std::ostringstream oss; oss << "MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile : For node field, the array is expected to have " << nbOfTuplesExp << " tuples ! It has " << arrOfVals->getNumberOfTuples() << " !";
9842 + throw INTERP_KERNEL::Exception(oss.str());
9844 + int start(copyTinyInfoFrom(th,field,arrOfVals));
9845 + int pos(addNewEntryIfNecessary(m));
9846 + _field_per_mesh[pos]->assignNodeFieldProfile(start,profile,field,arrOfVals,glob,nasc);
9851 + * \param [in] newNbOfTuples - The new nb of tuples to be allocated.
9853 +void MEDFileAnyTypeField1TSWithoutSDA::allocNotFromFile(int newNbOfTuples)
9855 + if(_nb_of_tuples_to_be_allocated>=0)
9856 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::allocNotFromFile : the object is expected to be appended to a data coming from a file but not loaded ! Load before appending data !");
9857 + DataArray *arr(getOrCreateAndGetArray());
9858 + arr->alloc(newNbOfTuples,arr->getNumberOfComponents());
9859 + _nb_of_tuples_to_be_allocated=-3;
9863 + * Copies tiny info and allocates \a this->_arr instance of DataArrayDouble to
9864 + * append data of a given MEDCouplingFieldDouble. So that the size of \a this->_arr becomes
9865 + * larger by the size of \a field. Returns an id of the first not filled
9866 + * tuple of \a this->_arr.
9867 + * \param [in] field - the field to copy the info on components and the name from.
9868 + * \return int - the id of first not initialized tuple of \a this->_arr.
9869 + * \throw If the name of \a field is empty.
9870 + * \throw If the data array of \a field is not set.
9871 + * \throw If \a this->_arr is already allocated but has different number of components
9874 +int MEDFileAnyTypeField1TSWithoutSDA::copyTinyInfoFrom(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr)
9877 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::copyTinyInfoFrom : input field is NULL !");
9878 + std::string name(field->getName());
9879 + setName(name.c_str());
9880 + if(field->getMesh())
9881 + setMeshName(field->getMesh()->getName());
9882 + setDtUnit(th->getTimeUnit());
9884 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::copyTinyInfoFrom : unsupported fields with no name in MED file !");
9886 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::copyTinyInfoFrom : no array set !");
9887 + if(!arr->isAllocated())
9888 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::copyTinyInfoFrom : array is not allocated !");
9889 + _dt=th->getTime(_iteration,_order);
9890 + getOrCreateAndGetArray()->setInfoAndChangeNbOfCompo(arr->getInfoOnComponents());
9891 + if(!getOrCreateAndGetArray()->isAllocated())
9893 + allocNotFromFile(arr->getNumberOfTuples());
9898 + int oldNbOfTuples=getOrCreateAndGetArray()->getNumberOfTuples();
9899 + int newNbOfTuples=oldNbOfTuples+arr->getNumberOfTuples();
9900 + getOrCreateAndGetArray()->reAlloc(newNbOfTuples);
9901 + _nb_of_tuples_to_be_allocated=-3;
9902 + return oldNbOfTuples;
9907 + * Returns number of components in \a this field
9908 + * \return int - the number of components.
9910 +int MEDFileAnyTypeField1TSWithoutSDA::getNumberOfComponents() const
9912 + return getOrCreateAndGetArray()->getNumberOfComponents();
9916 + * Change info on components in \a this.
9917 + * \throw If size of \a infos is not equal to the number of components already in \a this.
9919 +void MEDFileAnyTypeField1TSWithoutSDA::setInfo(const std::vector<std::string>& infos)
9921 + DataArray *arr=getOrCreateAndGetArray();
9922 + arr->setInfoOnComponents(infos);//will throw an exception if number of components mismatches
9926 + * Returns info on components of \a this field.
9927 + * \return const std::vector<std::string>& - a sequence of strings each being an
9928 + * information on _i_-th component.
9930 +const std::vector<std::string>& MEDFileAnyTypeField1TSWithoutSDA::getInfo() const
9932 + const DataArray *arr=getOrCreateAndGetArray();
9933 + return arr->getInfoOnComponents();
9937 + * Returns a mutable info on components of \a this field.
9938 + * \return std::vector<std::string>& - a sequence of strings each being an
9939 + * information on _i_-th component.
9941 +std::vector<std::string>& MEDFileAnyTypeField1TSWithoutSDA::getInfo()
9943 + DataArray *arr=getOrCreateAndGetArray();
9944 + return arr->getInfoOnComponents();
9947 +bool MEDFileAnyTypeField1TSWithoutSDA::presenceOfMultiDiscPerGeoType() const
9949 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9951 + const MEDFileFieldPerMesh *fpm(*it);
9954 + if(fpm->presenceOfMultiDiscPerGeoType())
9960 +bool MEDFileAnyTypeField1TSWithoutSDA::presenceOfStructureElements() const
9962 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9963 + if((*it).isNotNull())
9964 + if((*it)->presenceOfStructureElements())
9969 +bool MEDFileAnyTypeField1TSWithoutSDA::onlyStructureElements() const
9971 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9972 + if((*it).isNotNull())
9973 + if(!(*it)->onlyStructureElements())
9978 +void MEDFileAnyTypeField1TSWithoutSDA::killStructureElements()
9980 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9981 + if((*it).isNotNull())
9982 + (*it)->killStructureElements();
9985 +void MEDFileAnyTypeField1TSWithoutSDA::keepOnlyStructureElements()
9987 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9988 + if((*it).isNotNull())
9989 + (*it)->keepOnlyStructureElements();
9992 +void MEDFileAnyTypeField1TSWithoutSDA::keepOnlyOnSE(const std::string& seName)
9994 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
9995 + if((*it).isNotNull())
9996 + (*it)->keepOnlyOnSE(seName);
9999 +void MEDFileAnyTypeField1TSWithoutSDA::getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const
10001 + for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
10002 + if((*it).isNotNull())
10003 + (*it)->getMeshSENames(ps);
10006 +MEDCouplingFieldDouble *MEDFileAnyTypeField1TSWithoutSDA::fieldOnMesh(const MEDFileFieldGlobsReal *glob, const MEDFileMesh *mesh, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
10008 + static const char MSG0[]="MEDFileAnyTypeField1TSWithoutSDA::fieldOnMesh : the field is too complex to be able to be extracted with \"field\" method ! Call getFieldOnMeshAtLevel method instead to deal with complexity !";
10009 + if(_field_per_mesh.empty())
10010 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::fieldOnMesh : the field is empty ! Nothing to extract !");
10011 + if(_field_per_mesh.size()>1)
10012 + throw INTERP_KERNEL::Exception(MSG0);
10013 + if(_field_per_mesh[0].isNull())
10014 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::fieldOnMesh : the field is inconsistent !");
10015 + const MEDFileFieldPerMesh *pm(_field_per_mesh[0]);
10016 + std::set<TypeOfField> types;
10017 + pm->fillTypesOfFieldAvailable(types);
10018 + if(types.size()!=1)
10019 + throw INTERP_KERNEL::Exception(MSG0);
10020 + TypeOfField type(*types.begin());
10021 + int meshDimRelToMax(0);
10022 + if(type==ON_NODES)
10023 + meshDimRelToMax=0;
10026 + int myDim(std::numeric_limits<int>::max());
10027 + bool isUnique(pm->isUniqueLevel(myDim));
10029 + throw INTERP_KERNEL::Exception(MSG0);
10030 + meshDimRelToMax=myDim-mesh->getMeshDimension();
10031 + if(meshDimRelToMax>0)
10032 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::fieldOnMesh : the mesh attached to field is not compatible with the field !");
10034 + return MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(type,meshDimRelToMax,0/*renumPol*/,glob,mesh,arrOut,nasc);
10038 + * Returns a new MEDCouplingFieldDouble of given type lying on a given support.
10039 + * \param [in] type - a spatial discretization of the new field.
10040 + * \param [in] meshDimRelToMax - a relative dimension of the supporting mesh entities.
10041 + * \param [in] mName - a name of the supporting mesh.
10042 + * \param [in] renumPol - specifies how to permute values of the result field according to
10043 + * the optional numbers of cells and nodes, if any. The valid values are
10044 + * - 0 - do not permute.
10045 + * - 1 - permute cells.
10046 + * - 2 - permute nodes.
10047 + * - 3 - permute cells and nodes.
10049 + * \param [in] glob - the global data storing profiles and localization.
10050 + * \return MEDCouplingFieldDouble * - a new instance of MEDCouplingFieldDouble. The
10051 + * caller is to delete this field using decrRef() as it is no more needed.
10052 + * \throw If the MED file is not readable.
10053 + * \throw If there is no mesh named \a mName in the MED file.
10054 + * \throw If there are no mesh entities of \a meshDimRelToMax dimension in the mesh.
10055 + * \throw If no field of \a this is lying on the mesh \a mName.
10056 + * \throw If no field values of the given \a type or given \a meshDimRelToMax are available.
10058 +MEDCouplingFieldDouble *MEDFileAnyTypeField1TSWithoutSDA::getFieldAtLevel(TypeOfField type, int meshDimRelToMax, const std::string& mName, int renumPol, const MEDFileFieldGlobsReal *glob, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
10060 + MCAuto<MEDFileMesh> mm;
10061 + if(mName.empty())
10062 + mm=MEDFileMesh::New(glob->getFileName(),getMeshName().c_str(),getMeshIteration(),getMeshOrder());
10064 + mm=MEDFileMesh::New(glob->getFileName(),mName,getMeshIteration(),getMeshOrder());
10065 + return MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(type,meshDimRelToMax,renumPol,glob,mm,arrOut,nasc);
10069 + * Returns a new MEDCouplingFieldDouble of given type lying on a given support.
10070 + * \param [in] type - a spatial discretization of the new field.
10071 + * \param [in] meshDimRelToMax - a relative dimension of the supporting mesh entities.
10072 + * \param [in] renumPol - specifies how to permute values of the result field according to
10073 + * the optional numbers of cells and nodes, if any. The valid values are
10074 + * - 0 - do not permute.
10075 + * - 1 - permute cells.
10076 + * - 2 - permute nodes.
10077 + * - 3 - permute cells and nodes.
10079 + * \param [in] glob - the global data storing profiles and localization.
10080 + * \param [in] mesh - the supporting mesh.
10081 + * \return MEDCouplingFieldDouble * - a new instance of MEDCouplingFieldDouble. The
10082 + * caller is to delete this field using decrRef() as it is no more needed.
10083 + * \throw If the MED file is not readable.
10084 + * \throw If no field of \a this is lying on \a mesh.
10085 + * \throw If there are no mesh entities of \a meshDimRelToMax dimension in the mesh.
10086 + * \throw If no field values of the given \a type or given \a meshDimRelToMax are available.
10088 +MEDCouplingFieldDouble *MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(TypeOfField type, int meshDimRelToMax, int renumPol, const MEDFileFieldGlobsReal *glob, const MEDFileMesh *mesh, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
10090 + MCAuto<MEDCouplingMesh> m(mesh->getMeshAtLevel(meshDimRelToMax,false));
10091 + const DataArrayInt *d(mesh->getNumberFieldAtLevel(meshDimRelToMax)),*e(mesh->getNumberFieldAtLevel(1));
10092 + if(meshDimRelToMax==1)
10093 + (static_cast<MEDCouplingUMesh *>((MEDCouplingMesh *)m))->setMeshDimension(0);
10094 + return MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(type,renumPol,glob,m,d,e,arrOut,nasc);
10098 + * Returns a new MEDCouplingFieldDouble of a given type lying on the top level cells of a
10100 + * \param [in] type - a spatial discretization of the new field.
10101 + * \param [in] mName - a name of the supporting mesh.
10102 + * \param [in] renumPol - specifies how to permute values of the result field according to
10103 + * the optional numbers of cells and nodes, if any. The valid values are
10104 + * - 0 - do not permute.
10105 + * - 1 - permute cells.
10106 + * - 2 - permute nodes.
10107 + * - 3 - permute cells and nodes.
10109 + * \param [in] glob - the global data storing profiles and localization.
10110 + * \return MEDCouplingFieldDouble * - a new instance of MEDCouplingFieldDouble. The
10111 + * caller is to delete this field using decrRef() as it is no more needed.
10112 + * \throw If the MED file is not readable.
10113 + * \throw If there is no mesh named \a mName in the MED file.
10114 + * \throw If there are no mesh entities in the mesh.
10115 + * \throw If no field values of the given \a type are available.
10117 +MEDCouplingFieldDouble *MEDFileAnyTypeField1TSWithoutSDA::getFieldAtTopLevel(TypeOfField type, const std::string& mName, int renumPol, const MEDFileFieldGlobsReal *glob, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
10119 + MCAuto<MEDFileMesh> mm;
10120 + if(mName.empty())
10121 + mm=MEDFileMesh::New(glob->getFileName(),getMeshName().c_str(),getMeshIteration(),getMeshOrder());
10123 + mm=MEDFileMesh::New(glob->getFileName(),mName,getMeshIteration(),getMeshOrder());
10124 + int absDim=getDimension();
10125 + int meshDimRelToMax=absDim-mm->getMeshDimension();
10126 + return MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(type,meshDimRelToMax,renumPol,glob,mm,arrOut,nasc);
10130 + * Returns a new MEDCouplingFieldDouble of given type lying on a given support.
10131 + * \param [in] type - a spatial discretization of the new field.
10132 + * \param [in] renumPol - specifies how to permute values of the result field according to
10133 + * the optional numbers of cells and nodes, if any. The valid values are
10134 + * - 0 - do not permute.
10135 + * - 1 - permute cells.
10136 + * - 2 - permute nodes.
10137 + * - 3 - permute cells and nodes.
10139 + * \param [in] glob - the global data storing profiles and localization.
10140 + * \param [in] mesh - the supporting mesh.
10141 + * \param [in] cellRenum - the cell numbers array used for permutation of the result
10142 + * field according to \a renumPol.
10143 + * \param [in] nodeRenum - the node numbers array used for permutation of the result
10144 + * field according to \a renumPol.
10145 + * \return MEDCouplingFieldDouble * - a new instance of MEDCouplingFieldDouble. The
10146 + * caller is to delete this field using decrRef() as it is no more needed.
10147 + * \throw If there are no mesh entities of \a meshDimRelToMax dimension in the mesh.
10148 + * \throw If no field of \a this is lying on \a mesh.
10149 + * \throw If no field values of the given \a type or given \a meshDimRelToMax are available.
10151 +MEDCouplingFieldDouble *MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(TypeOfField type, int renumPol, const MEDFileFieldGlobsReal *glob, const MEDCouplingMesh *mesh, const DataArrayInt *cellRenum, const DataArrayInt *nodeRenum, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
10153 + static const char msg1[]="MEDFileField1TSWithoutSDA::getFieldOnMeshAtLevel : request for a renumbered field following mesh numbering whereas it is a profile field !";
10154 + bool isPfl=false;
10155 + MCAuto<MEDCouplingFieldDouble> ret=_field_per_mesh[0]->getFieldOnMeshAtLevel(type,glob,mesh,isPfl,arrOut,nasc);
10160 + //no need to test _field_per_mesh.empty() because geMeshName has already done it
10161 + return ret.retn();
10167 + throw INTERP_KERNEL::Exception(msg1);
10168 + //no need to test _field_per_mesh.empty() because geMeshName has already done it
10171 + if((int)cellRenum->getNbOfElems()!=mesh->getNumberOfCells())
10173 + std::ostringstream oss; oss << "MEDFileField1TSWithoutSDA::getFieldOnMeshAtLevel : Request of simple renumbering but it seems that underlying mesh \"" << mesh->getName() << "\" of requested field ";
10174 + oss << "\"" << getName() << "\" has partial renumbering (some geotype has no renumber) !";
10175 + throw INTERP_KERNEL::Exception(oss.str());
10177 + MEDCouplingFieldDiscretization *disc=ret->getDiscretization();
10178 + if(!disc) throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel : internal error, no discretization on field !");
10179 + std::vector<DataArray *> arrOut2(1,arrOut);
10180 + // 2 following lines replace ret->renumberCells(cellRenum->getConstPointer()) if not DataArrayDouble
10181 + disc->renumberArraysForCell(ret->getMesh(),arrOut2,cellRenum->getConstPointer(),true);
10182 + (const_cast<MEDCouplingMesh*>(ret->getMesh()))->renumberCells(cellRenum->getConstPointer(),true);
10185 + return ret.retn();
10189 + //no need to test _field_per_mesh.empty() because geMeshName has already done it
10191 + throw INTERP_KERNEL::Exception(msg1);
10194 + if((int)nodeRenum->getNbOfElems()!=mesh->getNumberOfNodes())
10196 + std::ostringstream oss; oss << "MEDFileField1TSWithoutSDA::getFieldOnMeshAtLevel : Request of simple renumbering but it seems that underlying mesh \"" << mesh->getName() << "\" of requested field ";
10197 + oss << "\"" << nasc.getName() << "\" not defined on all nodes !";
10198 + throw INTERP_KERNEL::Exception(oss.str());
10200 + MCAuto<DataArrayInt> nodeRenumSafe=nodeRenum->checkAndPreparePermutation();
10201 + if(!dynamic_cast<DataArrayDouble *>((DataArray *)arrOut))
10202 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getFieldOnMeshAtLevel : node renumbering not implemented for not double DataArrays !");
10203 + ret->renumberNodes(nodeRenumSafe->getConstPointer());
10205 + return ret.retn();
10208 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getFieldOnMeshAtLevel : unsupported renum policy ! Dealing with policy 0 1 2 and 3 !");
10213 + * Returns values and a profile of the field of a given type lying on a given support.
10214 + * \param [in] type - a spatial discretization of the field.
10215 + * \param [in] meshDimRelToMax - a relative dimension of the supporting mesh entities.
10216 + * \param [in] mesh - the supporting mesh.
10217 + * \param [out] pfl - a new instance of DataArrayInt holding ids of mesh entities the
10218 + * field of interest lies on. If the field lies on all entities of the given
10219 + * dimension, all ids in \a pfl are zero. The caller is to delete this array
10220 + * using decrRef() as it is no more needed.
10221 + * \param [in] glob - the global data storing profiles and localization.
10222 + * \return DataArrayDouble * - a new instance of DataArrayDouble holding values of the
10223 + * field. The caller is to delete this array using decrRef() as it is no more needed.
10224 + * \throw If there are no mesh entities of \a meshDimRelToMax dimension in \a mesh.
10225 + * \throw If no field of \a this is lying on \a mesh.
10226 + * \throw If no field values of the given \a type are available.
10228 +DataArray *MEDFileAnyTypeField1TSWithoutSDA::getFieldWithProfile(TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh, DataArrayInt *&pfl, const MEDFileFieldGlobsReal *glob, const MEDFileFieldNameScope& nasc) const
10230 + MCAuto<MEDCouplingMesh> m(mesh->getMeshAtLevel(meshDimRelToMax));
10231 + MCAuto<DataArray> ret=_field_per_mesh[0]->getFieldOnMeshAtLevelWithPfl(type,m,pfl,glob,nasc);
10232 + ret->setName(nasc.getName().c_str());
10233 + return ret.retn();
10236 +//= MEDFileField1TSWithoutSDA
10239 + * Throws if a given value is not a valid (non-extended) relative dimension.
10240 + * \param [in] meshDimRelToMax - the relative dimension value.
10241 + * \throw If \a meshDimRelToMax > 0.
10243 +void MEDFileField1TSWithoutSDA::CheckMeshDimRel(int meshDimRelToMax)
10245 + if(meshDimRelToMax>0)
10246 + throw INTERP_KERNEL::Exception("CheckMeshDimRel : This is a meshDimRel not a meshDimRelExt ! So value should be <=0 !");
10250 + * Checks if elements of a given mesh are in the order suitable for writing
10251 + * to the MED file. If this is not so, an exception is thrown. In a case of success, returns a
10252 + * vector describing types of elements and their number.
10253 + * \param [in] mesh - the mesh to check.
10254 + * \return std::vector<int> - a vector holding for each element type (1) item of
10255 + * INTERP_KERNEL::NormalizedCellType, (2) number of elements, (3) -1.
10256 + * These values are in full-interlace mode.
10257 + * \throw If elements in \a mesh are not in the order suitable for writing to the MED file.
10259 +std::vector<int> MEDFileField1TSWithoutSDA::CheckSBTMesh(const MEDCouplingMesh *mesh)
10262 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::CheckSBTMesh : input mesh is NULL !");
10263 + std::set<INTERP_KERNEL::NormalizedCellType> geoTypes=mesh->getAllGeoTypes();
10264 + int nbOfTypes=geoTypes.size();
10265 + std::vector<int> code(3*nbOfTypes);
10266 + MCAuto<DataArrayInt> arr1=DataArrayInt::New();
10267 + arr1->alloc(nbOfTypes,1);
10268 + int *arrPtr=arr1->getPointer();
10269 + std::set<INTERP_KERNEL::NormalizedCellType>::const_iterator it=geoTypes.begin();
10270 + for(int i=0;i<nbOfTypes;i++,it++)
10271 + arrPtr[i]=std::distance(typmai2,std::find(typmai2,typmai2+MED_N_CELL_FIXED_GEO,*it));
10272 + MCAuto<DataArrayInt> arr2=arr1->checkAndPreparePermutation();
10273 + const int *arrPtr2=arr2->getConstPointer();
10275 + for(it=geoTypes.begin();it!=geoTypes.end();it++,i++)
10277 + int pos=arrPtr2[i];
10278 + int nbCells=mesh->getNumberOfCellsWithType(*it);
10279 + code[3*pos]=(int)(*it);
10280 + code[3*pos+1]=nbCells;
10281 + code[3*pos+2]=-1;//no profiles
10283 + std::vector<const DataArrayInt *> idsPerType;//no profiles
10284 + DataArrayInt *da=mesh->checkTypeConsistencyAndContig(code,idsPerType);
10288 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::CheckSBTMesh : underlying mesh is not sorted by type as MED file expects !");
10293 +MEDFileField1TSWithoutSDA *MEDFileField1TSWithoutSDA::New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos)
10295 + return new MEDFileField1TSWithoutSDA(fieldName,meshName,csit,iteration,order,infos);
10299 + * Returns all attributes and values of parts of \a this field lying on a given mesh.
10300 + * Each part differs from other ones by a type of supporting mesh entity. The _i_-th
10301 + * item of every of returned sequences refers to the _i_-th part of \a this field.
10302 + * Thus all sequences returned by this method are of the same length equal to number
10303 + * of different types of supporting entities.<br>
10304 + * A field part can include sub-parts with several different spatial discretizations,
10305 + * \ref MEDCoupling::ON_CELLS "ON_CELLS" and \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT"
10306 + * for example. Hence, some of the returned sequences contains nested sequences, and an item
10307 + * of a nested sequence corresponds to a type of spatial discretization.<br>
10308 + * This method allows for iteration over MEDFile DataStructure with a reduced overhead.
10309 + * The overhead is due to selecting values into new instances of DataArrayDouble.
10310 + * \param [in] mname - a name of a mesh of interest. It can be \c NULL, which is valid
10311 + * for the case with only one underlying mesh. (Actually, the number of meshes is
10312 + * not checked if \a mname == \c NULL).
10313 + * \param [in,out] types - a sequence of types of underlying mesh entities. A type per
10314 + * a field part is returned.
10315 + * \param [in,out] typesF - a sequence of sequences of types of spatial discretizations.
10316 + * A field part can include sub-parts with several different spatial discretizations,
10317 + * \ref MEDCoupling::ON_CELLS "ON_CELLS" and
10318 + * \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT" for example.
10319 + * This sequence is of the same length as \a types.
10320 + * \param [in,out] pfls - a sequence returning a profile name per each type of spatial
10321 + * discretization. A profile name can be empty.
10322 + * Length of this and of nested sequences is the same as that of \a typesF.
10323 + * \param [in,out] locs - a sequence returning a localization name per each type of spatial
10324 + * discretization. A localization name can be empty.
10325 + * Length of this and of nested sequences is the same as that of \a typesF.
10326 + * \return std::vector< std::vector<DataArrayDouble *> > - a sequence holding arrays of values
10327 + * per each type of spatial discretization within one mesh entity type.
10328 + * The caller is to delete each DataArrayDouble using decrRef() as it is no more needed.
10329 + * Length of this and of nested sequences is the same as that of \a typesF.
10330 + * \throw If no field is lying on \a mname.
10332 +std::vector< std::vector<DataArrayDouble *> > MEDFileField1TSWithoutSDA::getFieldSplitedByType2(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
10334 + if(mname.empty())
10335 + if(_field_per_mesh.empty())
10336 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getFieldSplitedByType : This is empty !");
10337 + std::vector< std::vector< std::pair<int,int> > > ret0=_field_per_mesh[0]->getFieldSplitedByType(types,typesF,pfls,locs);
10338 + int nbOfRet=ret0.size();
10339 + std::vector< std::vector<DataArrayDouble *> > ret(nbOfRet);
10340 + for(int i=0;i<nbOfRet;i++)
10342 + const std::vector< std::pair<int,int> >& p=ret0[i];
10343 + int nbOfRet1=p.size();
10344 + ret[i].resize(nbOfRet1);
10345 + for(int j=0;j<nbOfRet1;j++)
10347 + DataArrayDouble *tmp=_arr->selectByTupleIdSafeSlice(p[j].first,p[j].second,1);
10354 +const char *MEDFileField1TSWithoutSDA::getTypeStr() const
10359 +MEDFileIntField1TSWithoutSDA *MEDFileField1TSWithoutSDA::convertToInt() const
10361 + MCAuto<MEDFileIntField1TSWithoutSDA> ret(new MEDFileIntField1TSWithoutSDA);
10362 + ret->MEDFileAnyTypeField1TSWithoutSDA::operator =(*this);
10363 + ret->deepCpyLeavesFrom(*this);
10364 + const DataArrayDouble *arr(_arr);
10367 + MCAuto<DataArrayInt> arr2(arr->convertToIntArr());
10368 + ret->setArray(arr2);
10370 + return ret.retn();
10374 + * Returns a pointer to the underground DataArrayDouble instance and a
10375 + * sequence describing parameters of a support of each part of \a this field. The
10376 + * caller should not decrRef() the returned DataArrayDouble. This method allows for a
10377 + * direct access to the field values. This method is intended for the field lying on one
10379 + * \param [in,out] entries - the sequence describing parameters of a support of each
10380 + * part of \a this field. Each item of this sequence consists of two parts. The
10381 + * first part describes a type of mesh entity and an id of discretization of a
10382 + * current field part. The second part describes a range of values [begin,end)
10383 + * within the returned array relating to the current field part.
10384 + * \return DataArrayDouble * - the pointer to the field values array.
10385 + * \throw If the number of underlying meshes is not equal to 1.
10386 + * \throw If no field values are available.
10387 + * \sa getUndergroundDataArray()
10389 +DataArray *MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
10391 + return getUndergroundDataArrayTemplateExt(entries);
10394 +MEDFileField1TSWithoutSDA::MEDFileField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos):MEDFileField1TSTemplateWithoutSDA<double>(fieldName,meshName,csit,iteration,order)
10396 + DataArrayDouble *arr(getOrCreateAndGetArrayTemplate());
10397 + arr->setInfoAndChangeNbOfCompo(infos);
10400 +MEDFileField1TSWithoutSDA::MEDFileField1TSWithoutSDA():MEDFileField1TSTemplateWithoutSDA<double>()
10404 +MEDFileField1TSWithoutSDA *MEDFileField1TSWithoutSDA::shallowCpy() const
10406 + MCAuto<MEDFileField1TSWithoutSDA> ret(new MEDFileField1TSWithoutSDA(*this));
10407 + ret->deepCpyLeavesFrom(*this);
10408 + return ret.retn();
10411 +MEDFileField1TSWithoutSDA *MEDFileField1TSWithoutSDA::deepCopy() const
10413 + MCAuto<MEDFileField1TSWithoutSDA> ret(shallowCpy());
10414 + if(_arr.isNotNull())
10415 + ret->_arr=_arr->deepCopy();
10416 + return ret.retn();
10419 +//= MEDFileIntField1TSWithoutSDA
10421 +MEDFileIntField1TSWithoutSDA *MEDFileIntField1TSWithoutSDA::New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos)
10423 + return new MEDFileIntField1TSWithoutSDA(fieldName,meshName,csit,iteration,order,infos);
10426 +MEDFileIntField1TSWithoutSDA::MEDFileIntField1TSWithoutSDA()
10430 +MEDFileIntField1TSWithoutSDA::MEDFileIntField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order,
10431 + const std::vector<std::string>& infos):MEDFileField1TSNDTemplateWithoutSDA<int>(fieldName,meshName,csit,iteration,order,infos)
10433 + DataArrayInt *arr(getOrCreateAndGetArrayTemplate());
10434 + arr->setInfoAndChangeNbOfCompo(infos);
10437 +const char *MEDFileIntField1TSWithoutSDA::getTypeStr() const
10443 + * Returns a pointer to the underground DataArrayInt instance and a
10444 + * sequence describing parameters of a support of each part of \a this field. The
10445 + * caller should not decrRef() the returned DataArrayInt. This method allows for a
10446 + * direct access to the field values. This method is intended for the field lying on one
10448 + * \param [in,out] entries - the sequence describing parameters of a support of each
10449 + * part of \a this field. Each item of this sequence consists of two parts. The
10450 + * first part describes a type of mesh entity and an id of discretization of a
10451 + * current field part. The second part describes a range of values [begin,end)
10452 + * within the returned array relating to the current field part.
10453 + * \return DataArrayInt * - the pointer to the field values array.
10454 + * \throw If the number of underlying meshes is not equal to 1.
10455 + * \throw If no field values are available.
10456 + * \sa getUndergroundDataArray()
10458 +DataArray *MEDFileIntField1TSWithoutSDA::getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
10460 + return getUndergroundDataArrayIntExt(entries);
10464 + * Returns a pointer to the underground DataArrayInt instance and a
10465 + * sequence describing parameters of a support of each part of \a this field. The
10466 + * caller should not decrRef() the returned DataArrayInt. This method allows for a
10467 + * direct access to the field values. This method is intended for the field lying on one
10469 + * \param [in,out] entries - the sequence describing parameters of a support of each
10470 + * part of \a this field. Each item of this sequence consists of two parts. The
10471 + * first part describes a type of mesh entity and an id of discretization of a
10472 + * current field part. The second part describes a range of values [begin,end)
10473 + * within the returned array relating to the current field part.
10474 + * \return DataArrayInt * - the pointer to the field values array.
10475 + * \throw If the number of underlying meshes is not equal to 1.
10476 + * \throw If no field values are available.
10477 + * \sa getUndergroundDataArray()
10479 +DataArrayInt *MEDFileIntField1TSWithoutSDA::getUndergroundDataArrayIntExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
10481 + if(_field_per_mesh.size()!=1)
10482 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt : field lies on several meshes, this method has no sense !");
10483 + if(_field_per_mesh[0]==0)
10484 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt : no field specified !");
10485 + _field_per_mesh[0]->getUndergroundDataArrayExt(entries);
10486 + return getUndergroundDataArrayTemplate();
10489 +MEDFileIntField1TSWithoutSDA *MEDFileIntField1TSWithoutSDA::shallowCpy() const
10491 + MCAuto<MEDFileIntField1TSWithoutSDA> ret(new MEDFileIntField1TSWithoutSDA(*this));
10492 + ret->deepCpyLeavesFrom(*this);
10493 + return ret.retn();
10496 +MEDFileIntField1TSWithoutSDA *MEDFileIntField1TSWithoutSDA::deepCopy() const
10498 + MCAuto<MEDFileIntField1TSWithoutSDA> ret(shallowCpy());
10499 + if(_arr.isNotNull())
10500 + ret->_arr=_arr->deepCopy();
10501 + return ret.retn();
10504 +//= MEDFileFloatField1TSWithoutSDA
10506 +MEDFileFloatField1TSWithoutSDA *MEDFileFloatField1TSWithoutSDA::New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos)
10508 + return new MEDFileFloatField1TSWithoutSDA(fieldName,meshName,csit,iteration,order,infos);
10511 +MEDFileFloatField1TSWithoutSDA::MEDFileFloatField1TSWithoutSDA()
10515 +MEDFileFloatField1TSWithoutSDA::MEDFileFloatField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order,
10516 + const std::vector<std::string>& infos):MEDFileField1TSNDTemplateWithoutSDA<float>(fieldName,meshName,csit,iteration,order,infos)
10518 + DataArrayFloat *arr(getOrCreateAndGetArrayTemplate());
10519 + arr->setInfoAndChangeNbOfCompo(infos);
10522 +const char *MEDFileFloatField1TSWithoutSDA::getTypeStr() const
10528 + * Returns a pointer to the underground DataArrayFloat instance and a
10529 + * sequence describing parameters of a support of each part of \a this field. The
10530 + * caller should not decrRef() the returned DataArrayFloat. This method allows for a
10531 + * direct access to the field values. This method is intended for the field lying on one
10533 + * \param [in,out] entries - the sequence describing parameters of a support of each
10534 + * part of \a this field. Each item of this sequence consists of two parts. The
10535 + * first part describes a type of mesh entity and an id of discretization of a
10536 + * current field part. The second part describes a range of values [begin,end)
10537 + * within the returned array relating to the current field part.
10538 + * \return DataArrayFloat * - the pointer to the field values array.
10539 + * \throw If the number of underlying meshes is not equal to 1.
10540 + * \throw If no field values are available.
10541 + * \sa getUndergroundDataArray()
10543 +DataArray *MEDFileFloatField1TSWithoutSDA::getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
10545 + return getUndergroundDataArrayFloatExt(entries);
10549 + * Returns a pointer to the underground DataArrayFloat instance and a
10550 + * sequence describing parameters of a support of each part of \a this field. The
10551 + * caller should not decrRef() the returned DataArrayFloat. This method allows for a
10552 + * direct access to the field values. This method is intended for the field lying on one
10554 + * \param [in,out] entries - the sequence describing parameters of a support of each
10555 + * part of \a this field. Each item of this sequence consists of two parts. The
10556 + * first part describes a type of mesh entity and an id of discretization of a
10557 + * current field part. The second part describes a range of values [begin,end)
10558 + * within the returned array relating to the current field part.
10559 + * \return DataArrayFloat * - the pointer to the field values array.
10560 + * \throw If the number of underlying meshes is not equal to 1.
10561 + * \throw If no field values are available.
10562 + * \sa getUndergroundDataArray()
10564 +DataArrayFloat *MEDFileFloatField1TSWithoutSDA::getUndergroundDataArrayFloatExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
10566 + if(_field_per_mesh.size()!=1)
10567 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt : field lies on several meshes, this method has no sense !");
10568 + if(_field_per_mesh[0]==0)
10569 + throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt : no field specified !");
10570 + _field_per_mesh[0]->getUndergroundDataArrayExt(entries);
10571 + return getUndergroundDataArrayTemplate();
10574 +MEDFileFloatField1TSWithoutSDA *MEDFileFloatField1TSWithoutSDA::shallowCpy() const
10576 + MCAuto<MEDFileFloatField1TSWithoutSDA> ret(new MEDFileFloatField1TSWithoutSDA(*this));
10577 + ret->deepCpyLeavesFrom(*this);
10578 + return ret.retn();
10581 +MEDFileFloatField1TSWithoutSDA *MEDFileFloatField1TSWithoutSDA::deepCopy() const
10583 + MCAuto<MEDFileFloatField1TSWithoutSDA> ret(shallowCpy());
10584 + if(_arr.isNotNull())
10585 + ret->_arr=_arr->deepCopy();
10586 + return ret.retn();
10589 +//= MEDFileAnyTypeField1TS
10591 +MEDFileAnyTypeField1TS::MEDFileAnyTypeField1TS()
10595 +MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeField1TS::BuildContentFrom(med_idt fid, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
10597 + med_field_type typcha;
10599 + std::vector<std::string> infos;
10600 + std::string dtunit,fieldName,meshName;
10601 + LocateField2(fid,0,true,fieldName,typcha,infos,dtunit,meshName);
10602 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> ret;
10605 + case MED_FLOAT64:
10607 + ret=MEDFileField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
10612 + ret=MEDFileIntField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
10615 + case MED_FLOAT32:
10617 + ret=MEDFileFloatField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
10622 + if(sizeof(med_int)==sizeof(int))
10624 + ret=MEDFileIntField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
10630 + std::ostringstream oss; oss << "MEDFileAnyTypeField1TS::BuildContentFrom(fid) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but the type of the first field is not in [MED_FLOAT64, MED_INT32] !";
10631 + throw INTERP_KERNEL::Exception(oss.str());
10634 + ret->setDtUnit(dtunit.c_str());
10635 + ret->getOrCreateAndGetArray()->setInfoAndChangeNbOfCompo(infos);
10637 + med_int numdt,numit;
10639 + MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,fieldName.c_str(),1,&numdt,&numit,&dt));
10640 + ret->setTime(numdt,numit,dt);
10643 + ret->loadStructureAndBigArraysRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
10645 + ret->loadOnlyStructureOfDataRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
10646 + return ret.retn();
10649 +MEDFileAnyTypeField1TS::MEDFileAnyTypeField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
10650 +try:MEDFileFieldGlobsReal(fid)
10652 + _content=BuildContentFrom(fid,loadAll,ms,entities);
10653 + loadGlobals(fid);
10655 +catch(INTERP_KERNEL::Exception& e)
10660 +MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeField1TS::BuildContentFrom(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
10662 + med_field_type typcha;
10663 + std::vector<std::string> infos;
10664 + std::string dtunit,meshName;
10668 + nbSteps=LocateField(fid,fieldName,iii,typcha,infos,dtunit,meshName);
10670 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> ret;
10673 + case MED_FLOAT64:
10675 + ret=MEDFileField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
10680 + ret=MEDFileIntField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
10683 + case MED_FLOAT32:
10685 + ret=MEDFileFloatField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
10690 + if(sizeof(med_int)==sizeof(int))
10692 + ret=MEDFileIntField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
10698 + std::ostringstream oss; oss << "MEDFileAnyTypeField1TS::BuildContentFrom(fid,fieldName) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but the type of field is not in [MED_FLOAT64, MED_INT32, MED_FLOAT32] !";
10699 + throw INTERP_KERNEL::Exception(oss.str());
10702 + ret->setMeshName(meshName);
10703 + ret->setDtUnit(dtunit.c_str());
10704 + ret->getOrCreateAndGetArray()->setInfoAndChangeNbOfCompo(infos);
10708 + std::ostringstream oss; oss << "MEDFileField1TS(fid,fieldName) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but there is no time steps on it !";
10709 + throw INTERP_KERNEL::Exception(oss.str());
10712 + med_int numdt,numit;
10714 + MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,fieldName.c_str(),1,&numdt,&numit,&dt));
10715 + ret->setTime(numdt,numit,dt);
10718 + ret->loadStructureAndBigArraysRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
10720 + ret->loadOnlyStructureOfDataRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
10721 + return ret.retn();
10724 +MEDFileAnyTypeField1TS::MEDFileAnyTypeField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
10725 +try:MEDFileFieldGlobsReal(fid)
10727 + _content=BuildContentFrom(fid,fieldName,loadAll,ms,entities);
10728 + loadGlobals(fid);
10730 +catch(INTERP_KERNEL::Exception& e)
10735 +MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::BuildNewInstanceFromContent(MEDFileAnyTypeField1TSWithoutSDA *c)
10738 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::BuildNewInstanceFromContent : empty content in input : unable to build a new instance !");
10739 + if(dynamic_cast<const MEDFileField1TSWithoutSDA *>(c))
10741 + MCAuto<MEDFileField1TS> ret(MEDFileField1TS::New());
10742 + ret->_content=c; c->incrRef();
10743 + return ret.retn();
10745 + if(dynamic_cast<const MEDFileIntField1TSWithoutSDA *>(c))
10747 + MCAuto<MEDFileIntField1TS> ret(MEDFileIntField1TS::New());
10748 + ret->_content=c; c->incrRef();
10749 + return ret.retn();
10751 + if(dynamic_cast<const MEDFileFloatField1TSWithoutSDA *>(c))
10753 + MCAuto<MEDFileFloatField1TS> ret(MEDFileFloatField1TS::New());
10754 + ret->_content=c; c->incrRef();
10755 + return ret.retn();
10757 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::BuildNewInstanceFromContent : internal error ! a content of type different from FLOAT64 FLOAT32 and INT32 has been built but not intercepted !");
10760 +MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::BuildNewInstanceFromContent(MEDFileAnyTypeField1TSWithoutSDA *c, med_idt fid)
10762 + MEDFileAnyTypeField1TS *ret(BuildNewInstanceFromContent(c));
10763 + ret->setFileName(FileNameFromFID(fid));
10767 +MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(const std::string& fileName, bool loadAll)
10769 + MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
10770 + return New(fid,loadAll);
10773 +MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(med_idt fid, bool loadAll)
10775 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> c(BuildContentFrom(fid,loadAll,0,0));
10776 + MCAuto<MEDFileAnyTypeField1TS> ret(BuildNewInstanceFromContent(c,fid));
10777 + ret->loadGlobals(fid);
10778 + return ret.retn();
10781 +MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(const std::string& fileName, const std::string& fieldName, bool loadAll)
10783 + MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
10784 + return New(fid,fieldName,loadAll);
10787 +MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(med_idt fid, const std::string& fieldName, bool loadAll)
10789 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> c(BuildContentFrom(fid,fieldName,loadAll,0,0));
10790 + MCAuto<MEDFileAnyTypeField1TS> ret(BuildNewInstanceFromContent(c,fid));
10791 + ret->loadGlobals(fid);
10792 + return ret.retn();
10795 +MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(const std::string& fileName, const std::string& fieldName, int iteration, int order, bool loadAll)
10797 + MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
10798 + return New(fid,fieldName,iteration,order,loadAll);
10801 +MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll)
10803 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> c(BuildContentFrom(fid,fieldName,iteration,order,loadAll,0,0));
10804 + MCAuto<MEDFileAnyTypeField1TS> ret(BuildNewInstanceFromContent(c,fid));
10805 + ret->loadGlobals(fid);
10806 + return ret.retn();
10809 +MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::NewAdv(const std::string& fileName, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileEntities *entities)
10811 + MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
10812 + return NewAdv(fid,fieldName,iteration,order,loadAll,entities);
10815 +MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::NewAdv(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileEntities *entities)
10817 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> c(BuildContentFrom(fid,fieldName,iteration,order,loadAll,0,entities));
10818 + MCAuto<MEDFileAnyTypeField1TS> ret(BuildNewInstanceFromContent(c,fid));
10819 + ret->loadGlobals(fid);
10820 + return ret.retn();
10823 +MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeField1TS::BuildContentFrom(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
10825 + med_field_type typcha;
10826 + std::vector<std::string> infos;
10827 + std::string dtunit,meshName;
10829 + int nbOfStep2(LocateField(fid,fieldName,iii,typcha,infos,dtunit,meshName));
10830 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> ret;
10833 + case MED_FLOAT64:
10835 + ret=MEDFileField1TSWithoutSDA::New(fieldName,meshName,-1,iteration,order,std::vector<std::string>());
10840 + ret=MEDFileIntField1TSWithoutSDA::New(fieldName,meshName,-1,iteration,order,std::vector<std::string>());
10843 + case MED_FLOAT32:
10845 + ret=MEDFileFloatField1TSWithoutSDA::New(fieldName,meshName,-1,iteration,order,std::vector<std::string>());
10850 + if(sizeof(med_int)==sizeof(int))
10852 + ret=MEDFileIntField1TSWithoutSDA::New(fieldName,meshName,-1,iteration,order,std::vector<std::string>());
10858 + std::ostringstream oss; oss << "MEDFileAnyTypeField1TS::BuildContentFrom(fid,fieldName,iteration,order) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but the type of field is not in [MED_FLOAT64, MED_INT32, MED_FLOAT32] !";
10859 + throw INTERP_KERNEL::Exception(oss.str());
10862 + ret->setDtUnit(dtunit.c_str());
10863 + ret->getOrCreateAndGetArray()->setInfoAndChangeNbOfCompo(infos);
10865 + bool found=false;
10866 + std::vector< std::pair<int,int> > dtits(nbOfStep2);
10867 + for(int i=0;i<nbOfStep2 && !found;i++)
10869 + med_int numdt,numit;
10871 + MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,fieldName.c_str(),i+1,&numdt,&numit,&dt));
10872 + if(numdt==iteration && numit==order)
10878 + dtits[i]=std::pair<int,int>(numdt,numit);
10882 + std::ostringstream oss; oss << "No such iteration (" << iteration << "," << order << ") in existing field '" << fieldName << "' in file '" << FileNameFromFID(fid) << "' ! Available iterations are : ";
10883 + for(std::vector< std::pair<int,int> >::const_iterator iter=dtits.begin();iter!=dtits.end();iter++)
10884 + oss << "(" << (*iter).first << "," << (*iter).second << "), ";
10885 + throw INTERP_KERNEL::Exception(oss.str());
10888 + ret->loadStructureAndBigArraysRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
10890 + ret->loadOnlyStructureOfDataRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
10891 + return ret.retn();
10894 +MEDFileAnyTypeField1TS::MEDFileAnyTypeField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
10895 +try:MEDFileFieldGlobsReal(fid)
10897 + _content=BuildContentFrom(fid,fieldName,iteration,order,loadAll,ms,entities);
10898 + loadGlobals(fid);
10900 +catch(INTERP_KERNEL::Exception& e)
10906 + * This constructor is a shallow copy constructor. If \a shallowCopyOfContent is true the content of \a other is shallow copied.
10907 + * If \a shallowCopyOfContent is false, \a other is taken to be the content of \a this.
10909 + * \warning this is a shallow copy constructor
10911 +MEDFileAnyTypeField1TS::MEDFileAnyTypeField1TS(const MEDFileAnyTypeField1TSWithoutSDA& other, bool shallowCopyOfContent)
10913 + if(!shallowCopyOfContent)
10915 + const MEDFileAnyTypeField1TSWithoutSDA *otherPtr(&other);
10916 + otherPtr->incrRef();
10917 + _content=const_cast<MEDFileAnyTypeField1TSWithoutSDA *>(otherPtr);
10921 + _content=other.shallowCpy();
10925 +int MEDFileAnyTypeField1TS::LocateField2(med_idt fid, int fieldIdCFormat, bool checkFieldId, std::string& fieldName, med_field_type& typcha, std::vector<std::string>& infos, std::string& dtunitOut, std::string& meshName)
10929 + int nbFields=MEDnField(fid);
10930 + if(fieldIdCFormat>=nbFields)
10932 + std::ostringstream oss; oss << "MEDFileAnyTypeField1TS::LocateField2(fileName) : in file \'" << FileNameFromFID(fid) << "\' number of fields is " << nbFields << " ! Trying to request for id " << fieldIdCFormat << " !";
10933 + throw INTERP_KERNEL::Exception(oss.str());
10936 + int ncomp(MEDfieldnComponent(fid,fieldIdCFormat+1));
10937 + INTERP_KERNEL::AutoPtr<char> comp(MEDLoaderBase::buildEmptyString(ncomp*MED_SNAME_SIZE));
10938 + INTERP_KERNEL::AutoPtr<char> unit(MEDLoaderBase::buildEmptyString(ncomp*MED_SNAME_SIZE));
10939 + INTERP_KERNEL::AutoPtr<char> dtunit(MEDLoaderBase::buildEmptyString(MED_LNAME_SIZE));
10940 + INTERP_KERNEL::AutoPtr<char> nomcha(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
10941 + INTERP_KERNEL::AutoPtr<char> nomMaa(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
10942 + med_bool localMesh;
10944 + MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,fieldIdCFormat+1,nomcha,nomMaa,&localMesh,&typcha,comp,unit,dtunit,&nbOfStep));
10945 + fieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE);
10946 + dtunitOut=MEDLoaderBase::buildStringFromFortran(dtunit,MED_LNAME_SIZE);
10947 + meshName=MEDLoaderBase::buildStringFromFortran(nomMaa,MED_NAME_SIZE);
10948 + infos.clear(); infos.resize(ncomp);
10949 + for(int j=0;j<ncomp;j++)
10950 + infos[j]=MEDLoaderBase::buildUnionUnit((char *)comp+j*MED_SNAME_SIZE,MED_SNAME_SIZE,(char *)unit+j*MED_SNAME_SIZE,MED_SNAME_SIZE);
10955 + * This method throws an INTERP_KERNEL::Exception if \a fieldName field is not in file pointed by \a fid and with name \a fileName.
10958 + * \return in case of success the number of time steps available for the field with name \a fieldName.
10960 +int MEDFileAnyTypeField1TS::LocateField(med_idt fid, const std::string& fieldName, int& posCFormat, med_field_type& typcha, std::vector<std::string>& infos, std::string& dtunitOut, std::string& meshName)
10962 + int nbFields=MEDnField(fid);
10963 + bool found=false;
10964 + std::vector<std::string> fns(nbFields);
10965 + int nbOfStep2(-1);
10966 + for(int i=0;i<nbFields && !found;i++)
10968 + std::string tmp,tmp2;
10969 + nbOfStep2=LocateField2(fid,i,false,tmp,typcha,infos,dtunitOut,tmp2);
10971 + found=(tmp==fieldName);
10980 + std::ostringstream oss; oss << "No such field '" << fieldName << "' in file '" << FileNameFromFID(fid) << "' ! Available fields are : ";
10981 + for(std::vector<std::string>::const_iterator it=fns.begin();it!=fns.end();it++)
10982 + oss << "\"" << *it << "\" ";
10983 + throw INTERP_KERNEL::Exception(oss.str());
10985 + return nbOfStep2;
10989 + * This method as MEDFileField1TSW::setLocNameOnLeaf, is dedicated for advanced user that a want a very fine control on their data structure
10990 + * without overhead. This method can be called only regarding information returned by MEDFileField1TSWithoutSDA::getFieldSplitedByType or MEDFileField1TSWithoutSDA::getFieldSplitedByType2.
10991 + * This method changes the attribute (here it's profile name) of the leaf datastructure (MEDFileFieldPerMeshPerTypePerDisc instance).
10992 + * It is the responsibility of the caller to invoke MEDFileFieldGlobs::appendProfile or MEDFileFieldGlobs::getProfile
10993 + * to keep a valid instance.
10994 + * If \b this do not have any leaf that correspond to the request of the input parameter (\b mName, \b typ, \b locId) an INTERP_KERNEL::Exception will be thrown.
10995 + * If \b newPflName profile name does not already exist the profile with old name will be renamed with name \b newPflName.
10996 + * If \b newPflName already exists and that \b forceRenameOnGlob is false (the default) an INTERP_KERNEL::Exception will be thrown to avoid big confusion. In this case the called should rename before the profile name with name \b newPflName.
10998 + * \param [in] mName specifies the underlying mesh name. This value can be pointer 0 for users that do not deal with fields on multi mesh.
10999 + * \param [in] typ is for the geometric cell type (or INTERP_KERNEL::NORM_ERROR for node field) entry to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set.
11000 + * \param [in] locId is the localization id to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set. It corresponds to the position of
11001 + * \c pfls[std::distance(types.begin(),std::find(types.begin(),typ)] vector in MEDFileField1TSWithoutSDA::getFieldSplitedByType. For non gausspoints field users, the value is 0.
11002 + * \param [in] newLocName is the new localization name.
11003 + * \param [in] forceRenameOnGlob specifies the behaviour in case of profile \b newPflName already exists. If true, the renaming is done without check. It can lead to major bug.
11004 + * If false, an exception will be thrown to force user to change previously the name of the profile with name \b newPflName
11006 +void MEDFileAnyTypeField1TS::setProfileNameOnLeaf(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId, const std::string& newPflName, bool forceRenameOnGlob)
11008 + MEDFileFieldPerMeshPerTypePerDisc *disc=getLeafGivenMeshAndTypeAndLocId(mName,typ,locId);
11009 + std::string oldPflName=disc->getProfile();
11010 + std::vector<std::string> vv=getPflsReallyUsedMulti();
11011 + int nbOfOcc=std::count(vv.begin(),vv.end(),oldPflName);
11012 + if(forceRenameOnGlob || (!existsPfl(newPflName) && nbOfOcc==1))
11014 + disc->setProfile(newPflName);
11015 + DataArrayInt *pfl=getProfile(oldPflName.c_str());
11016 + pfl->setName(newPflName);
11020 + std::ostringstream oss; oss << "MEDFileField1TS::setProfileNameOnLeaf : Profile \"" << newPflName << "\" already exists or referenced more than one !";
11021 + throw INTERP_KERNEL::Exception(oss.str());
11026 + * This method as MEDFileField1TSW::setProfileNameOnLeaf, is dedicated for advanced user that a want a very fine control on their data structure
11027 + * without overhead. This method can be called only regarding information returned by MEDFileField1TSWithoutSDA::getFieldSplitedByType or MEDFileField1TSWithoutSDA::getFieldSplitedByType2.
11028 + * This method changes the attribute (here it's localization name) of the leaf datastructure (MEDFileFieldPerMeshPerTypePerDisc instance).
11029 + * It is the responsibility of the caller to invoke MEDFileFieldGlobs::appendProfile or MEDFileFieldGlobs::getProfile
11030 + * to keep a valid instance.
11031 + * If \b this do not have any leaf that correspond to the request of the input parameter (\b mName, \b typ, \b locId) an INTERP_KERNEL::Exception will be thrown.
11032 + * This method is an extension of MEDFileField1TSWithoutSDA::setProfileNameOnLeafExt method because it performs a modification of global info.
11033 + * If \b newLocName profile name does not already exist the localization with old name will be renamed with name \b newLocName.
11034 + * If \b newLocName already exists an INTERP_KERNEL::Exception will be thrown to avoid big confusion. In this case the called should rename before the profile name with name \b newLocName.
11036 + * \param [in] mName specifies the underlying mesh name. This value can be pointer 0 for users that do not deal with fields on multi mesh.
11037 + * \param [in] typ is for the geometric cell type (or INTERP_KERNEL::NORM_ERROR for node field) entry to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set.
11038 + * \param [in] locId is the localization id to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set. It corresponds to the position of
11039 + * \c pfls[std::distance(types.begin(),std::find(types.begin(),typ)] vector in MEDFileField1TSWithoutSDA::getFieldSplitedByType. For non gausspoints field users, the value is 0.
11040 + * \param [in] newLocName is the new localization name.
11041 + * \param [in] forceRenameOnGlob specifies the behaviour in case of profile \b newLocName already exists. If true, the renaming is done without check. It can lead to major bug.
11042 + * If false, an exception will be thrown to force user to change previously the name of the profile with name \b newLocName
11044 +void MEDFileAnyTypeField1TS::setLocNameOnLeaf(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId, const std::string& newLocName, bool forceRenameOnGlob)
11046 + MEDFileFieldPerMeshPerTypePerDisc *disc=getLeafGivenMeshAndTypeAndLocId(mName,typ,locId);
11047 + std::string oldLocName=disc->getLocalization();
11048 + std::vector<std::string> vv=getLocsReallyUsedMulti();
11049 + int nbOfOcc=std::count(vv.begin(),vv.end(),oldLocName);
11050 + if(forceRenameOnGlob || (!existsLoc(newLocName) && nbOfOcc==1))
11052 + disc->setLocalization(newLocName);
11053 + MEDFileFieldLoc& loc=getLocalization(oldLocName.c_str());
11054 + loc.setName(newLocName);
11058 + std::ostringstream oss; oss << "MEDFileField1TS::setLocNameOnLeaf : Localization \"" << newLocName << "\" already exists or referenced more than one !";
11059 + throw INTERP_KERNEL::Exception(oss.str());
11063 +MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeField1TS::contentNotNullBase()
11065 + MEDFileAnyTypeField1TSWithoutSDA *ret=_content;
11067 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS : content is expected to be not null !");
11071 +const MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeField1TS::contentNotNullBase() const
11073 + const MEDFileAnyTypeField1TSWithoutSDA *ret=_content;
11075 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS : const content is expected to be not null !");
11080 + * This method alloc the arrays and load potentially huge arrays contained in this field.
11081 + * This method should be called when a MEDFileAnyTypeField1TS::New constructor has been with false as the last parameter.
11082 + * This method can be also called to refresh or reinit values from a file.
11084 + * \throw If the fileName is not set or points to a non readable MED file.
11085 + * \sa MEDFileAnyTypeField1TS::loadArraysIfNecessary
11087 +void MEDFileAnyTypeField1TS::loadArrays()
11089 + if(getFileName().empty())
11090 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::loadArrays : the structure does not come from a file !");
11091 + MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(getFileName()));
11092 + contentNotNullBase()->loadBigArraysRecursively(fid,*contentNotNullBase());
11096 + * This method behaves as MEDFileAnyTypeField1TS::loadArrays does, the first call, if \a this was built using a file without loading big arrays.
11097 + * But once data loaded once, this method does nothing. Contrary to MEDFileAnyTypeField1TS::loadArrays and MEDFileAnyTypeField1TS::unloadArrays
11098 + * this method does not throw if \a this does not come from file read.
11100 + * \sa MEDFileAnyTypeField1TS::loadArrays, MEDFileAnyTypeField1TS::unloadArrays
11102 +void MEDFileAnyTypeField1TS::loadArraysIfNecessary()
11104 + if(!getFileName().empty())
11106 + MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(getFileName()));
11107 + contentNotNullBase()->loadBigArraysRecursivelyIfNecessary(fid,*contentNotNullBase());
11112 + * This method releases potentially big data arrays and so returns to the same heap memory than status loaded with 'loadAll' parameter set to false.
11113 + * \b WARNING, this method does release arrays even if \a this does not come from a load of a MED file.
11114 + * So this method can lead to a loss of data. If you want to unload arrays safely call MEDFileAnyTypeField1TS::unloadArraysWithoutDataLoss instead.
11116 + * \sa MEDFileAnyTypeField1TS::loadArrays, MEDFileAnyTypeField1TS::loadArraysIfNecessary, MEDFileAnyTypeField1TS::unloadArraysWithoutDataLoss
11118 +void MEDFileAnyTypeField1TS::unloadArrays()
11120 + contentNotNullBase()->unloadArrays();
11124 + * This method potentially releases big data arrays if \a this is coming from a file. If \a this has been built from scratch this method will have no effect.
11125 + * This method is the symmetrical method of MEDFileAnyTypeField1TS::loadArraysIfNecessary.
11126 + * This method is useful to reduce \b safely amount of heap memory necessary for \a this by using MED file as database.
11128 + * \sa MEDFileAnyTypeField1TS::loadArraysIfNecessary
11130 +void MEDFileAnyTypeField1TS::unloadArraysWithoutDataLoss()
11132 + if(!getFileName().empty())
11133 + contentNotNullBase()->unloadArrays();
11136 +void MEDFileAnyTypeField1TS::writeLL(med_idt fid) const
11138 + int nbComp(getNumberOfComponents());
11139 + INTERP_KERNEL::AutoPtr<char> comp(MEDLoaderBase::buildEmptyString(nbComp*MED_SNAME_SIZE));
11140 + INTERP_KERNEL::AutoPtr<char> unit(MEDLoaderBase::buildEmptyString(nbComp*MED_SNAME_SIZE));
11141 + for(int i=0;i<nbComp;i++)
11143 + std::string info=getInfo()[i];
11145 + MEDLoaderBase::splitIntoNameAndUnit(info,c,u);
11146 + MEDLoaderBase::safeStrCpy2(c.c_str(),MED_SNAME_SIZE,comp+i*MED_SNAME_SIZE,_too_long_str);
11147 + MEDLoaderBase::safeStrCpy2(u.c_str(),MED_SNAME_SIZE,unit+i*MED_SNAME_SIZE,_too_long_str);
11149 + if(getName().empty())
11150 + throw INTERP_KERNEL::Exception("MEDFileField1TS::write : MED file does not accept field with empty name !");
11151 + MEDFILESAFECALLERWR0(MEDfieldCr,(fid,getName().c_str(),getMEDFileFieldType(),nbComp,comp,unit,getDtUnit().c_str(),getMeshName().c_str()));
11152 + writeGlobals(fid,*this);
11153 + contentNotNullBase()->writeLL(fid,*this,*contentNotNullBase());
11156 +std::size_t MEDFileAnyTypeField1TS::getHeapMemorySizeWithoutChildren() const
11158 + return MEDFileFieldGlobsReal::getHeapMemorySizeWithoutChildren();
11161 +std::vector<const BigMemoryObject *> MEDFileAnyTypeField1TS::getDirectChildrenWithNull() const
11163 + std::vector<const BigMemoryObject *> ret(MEDFileFieldGlobsReal::getDirectChildrenWithNull());
11164 + ret.push_back((const MEDFileAnyTypeField1TSWithoutSDA *)_content);
11169 + * Returns a string describing \a this field. This string is outputted
11170 + * by \c print Python command.
11172 +std::string MEDFileAnyTypeField1TS::simpleRepr() const
11174 + std::ostringstream oss;
11175 + contentNotNullBase()->simpleRepr(0,oss,-1);
11176 + simpleReprGlobs(oss);
11177 + return oss.str();
11181 + * This method returns all profiles whose name is non empty used.
11182 + * \b WARNING If profile is used several times it will be reported \b only \b once.
11183 + * To get non empty name profiles as time as they appear in \b this call MEDFileField1TS::getPflsReallyUsedMulti instead.
11185 +std::vector<std::string> MEDFileAnyTypeField1TS::getPflsReallyUsed() const
11187 + return contentNotNullBase()->getPflsReallyUsed2();
11191 + * This method returns all localizations whose name is non empty used.
11192 + * \b WARNING If localization is used several times it will be reported \b only \b once.
11194 +std::vector<std::string> MEDFileAnyTypeField1TS::getLocsReallyUsed() const
11196 + return contentNotNullBase()->getLocsReallyUsed2();
11200 + * This method returns all profiles whose name is non empty used.
11201 + * \b WARNING contrary to MEDFileField1TS::getPflsReallyUsed, if profile is used several times it will be reported as time as it appears.
11203 +std::vector<std::string> MEDFileAnyTypeField1TS::getPflsReallyUsedMulti() const
11205 + return contentNotNullBase()->getPflsReallyUsedMulti2();
11209 + * This method returns all localizations whose name is non empty used.
11210 + * \b WARNING contrary to MEDFileField1TS::getLocsReallyUsed if localization is used several times it will be reported as time as it appears.
11212 +std::vector<std::string> MEDFileAnyTypeField1TS::getLocsReallyUsedMulti() const
11214 + return contentNotNullBase()->getLocsReallyUsedMulti2();
11217 +void MEDFileAnyTypeField1TS::changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
11219 + contentNotNullBase()->changePflsRefsNamesGen2(mapOfModif);
11222 +void MEDFileAnyTypeField1TS::changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
11224 + contentNotNullBase()->changeLocsRefsNamesGen2(mapOfModif);
11227 +int MEDFileAnyTypeField1TS::getDimension() const
11229 + return contentNotNullBase()->getDimension();
11232 +int MEDFileAnyTypeField1TS::getIteration() const
11234 + return contentNotNullBase()->getIteration();
11237 +int MEDFileAnyTypeField1TS::getOrder() const
11239 + return contentNotNullBase()->getOrder();
11242 +double MEDFileAnyTypeField1TS::getTime(int& iteration, int& order) const
11244 + return contentNotNullBase()->getTime(iteration,order);
11247 +void MEDFileAnyTypeField1TS::setTime(int iteration, int order, double val)
11249 + contentNotNullBase()->setTime(iteration,order,val);
11252 +std::string MEDFileAnyTypeField1TS::getName() const
11254 + return contentNotNullBase()->getName();
11257 +void MEDFileAnyTypeField1TS::setName(const std::string& name)
11259 + contentNotNullBase()->setName(name);
11262 +void MEDFileAnyTypeField1TS::simpleRepr(int bkOffset, std::ostream& oss, int f1tsId) const
11264 + contentNotNullBase()->simpleRepr(bkOffset,oss,f1tsId);
11267 +std::string MEDFileAnyTypeField1TS::getDtUnit() const
11269 + return contentNotNullBase()->getDtUnit();
11272 +void MEDFileAnyTypeField1TS::setDtUnit(const std::string& dtUnit)
11274 + contentNotNullBase()->setDtUnit(dtUnit);
11277 +std::string MEDFileAnyTypeField1TS::getMeshName() const
11279 + return contentNotNullBase()->getMeshName();
11282 +void MEDFileAnyTypeField1TS::setMeshName(const std::string& newMeshName)
11284 + contentNotNullBase()->setMeshName(newMeshName);
11287 +bool MEDFileAnyTypeField1TS::changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab)
11289 + return contentNotNullBase()->changeMeshNames(modifTab);
11292 +int MEDFileAnyTypeField1TS::getMeshIteration() const
11294 + return contentNotNullBase()->getMeshIteration();
11297 +int MEDFileAnyTypeField1TS::getMeshOrder() const
11299 + return contentNotNullBase()->getMeshOrder();
11302 +int MEDFileAnyTypeField1TS::getNumberOfComponents() const
11304 + return contentNotNullBase()->getNumberOfComponents();
11307 +bool MEDFileAnyTypeField1TS::isDealingTS(int iteration, int order) const
11309 + return contentNotNullBase()->isDealingTS(iteration,order);
11312 +std::pair<int,int> MEDFileAnyTypeField1TS::getDtIt() const
11314 + return contentNotNullBase()->getDtIt();
11317 +void MEDFileAnyTypeField1TS::fillIteration(std::pair<int,int>& p) const
11319 + contentNotNullBase()->fillIteration(p);
11322 +void MEDFileAnyTypeField1TS::fillTypesOfFieldAvailable(std::vector<TypeOfField>& types) const
11324 + contentNotNullBase()->fillTypesOfFieldAvailable(types);
11327 +void MEDFileAnyTypeField1TS::setInfo(const std::vector<std::string>& infos)
11329 + contentNotNullBase()->setInfo(infos);
11332 +const std::vector<std::string>& MEDFileAnyTypeField1TS::getInfo() const
11334 + return contentNotNullBase()->getInfo();
11336 +std::vector<std::string>& MEDFileAnyTypeField1TS::getInfo()
11338 + return contentNotNullBase()->getInfo();
11341 +bool MEDFileAnyTypeField1TS::presenceOfMultiDiscPerGeoType() const
11343 + return contentNotNullBase()->presenceOfMultiDiscPerGeoType();
11346 +MEDFileFieldPerMeshPerTypePerDisc *MEDFileAnyTypeField1TS::getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId)
11348 + return contentNotNullBase()->getLeafGivenMeshAndTypeAndLocId(mName,typ,locId);
11351 +const MEDFileFieldPerMeshPerTypePerDisc *MEDFileAnyTypeField1TS::getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId) const
11353 + return contentNotNullBase()->getLeafGivenMeshAndTypeAndLocId(mName,typ,locId);
11356 +int MEDFileAnyTypeField1TS::getNonEmptyLevels(const std::string& mname, std::vector<int>& levs) const
11358 + return contentNotNullBase()->getNonEmptyLevels(mname,levs);
11361 +void MEDFileAnyTypeField1TS::convertMedBallIntoClassic()
11363 + return contentNotNullBase()->convertMedBallIntoClassic();
11366 +void MEDFileAnyTypeField1TS::makeReduction(INTERP_KERNEL::NormalizedCellType ct, TypeOfField tof, const DataArrayInt *pfl)
11368 + return contentNotNullBase()->makeReduction(ct,tof,pfl);
11371 +std::vector<TypeOfField> MEDFileAnyTypeField1TS::getTypesOfFieldAvailable() const
11373 + return contentNotNullBase()->getTypesOfFieldAvailable();
11376 +std::vector< std::vector<std::pair<int,int> > > MEDFileAnyTypeField1TS::getFieldSplitedByType(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF,
11377 + std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
11379 + return contentNotNullBase()->getFieldSplitedByType(mname,types,typesF,pfls,locs);
11383 + * This method returns as MEDFileAnyTypeField1TS new instances as number of components in \a this.
11384 + * The returned instances are deep copy of \a this except that for globals that are shared with those contained in \a this.
11385 + * ** WARNING ** do no forget to rename the output instances to avoid to write n-times in the same MED file field !
11387 +std::vector< MCAuto< MEDFileAnyTypeField1TS > > MEDFileAnyTypeField1TS::splitComponents() const
11389 + const MEDFileAnyTypeField1TSWithoutSDA *content(_content);
11391 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::splitComponents : no content in this ! Unable to split components !");
11392 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > contentsSplit=content->splitComponents();
11393 + std::size_t sz(contentsSplit.size());
11394 + std::vector< MCAuto< MEDFileAnyTypeField1TS > > ret(sz);
11395 + for(std::size_t i=0;i<sz;i++)
11397 + ret[i]=shallowCpy();
11398 + ret[i]->_content=contentsSplit[i];
11404 + * This method returns as MEDFileAnyTypeField1TS new instances as number of spatial discretizations in \a this.
11405 + * The returned instances are shallowed copied of \a this except that for globals that are shared with those contained in \a this.
11407 +std::vector< MCAuto< MEDFileAnyTypeField1TS > > MEDFileAnyTypeField1TS::splitDiscretizations() const
11409 + const MEDFileAnyTypeField1TSWithoutSDA *content(_content);
11411 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::splitDiscretizations : no content in this ! Unable to split discretization !");
11412 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > contentsSplit(content->splitDiscretizations());
11413 + std::size_t sz(contentsSplit.size());
11414 + std::vector< MCAuto< MEDFileAnyTypeField1TS > > ret(sz);
11415 + for(std::size_t i=0;i<sz;i++)
11417 + ret[i]=shallowCpy();
11418 + ret[i]->_content=contentsSplit[i];
11424 + * This method returns as MEDFileAnyTypeField1TS new instances as number of maximal number of discretization in \a this.
11425 + * The returned instances are shallowed copied of \a this except that for globals that are shared with those contained in \a this.
11427 +std::vector< MCAuto< MEDFileAnyTypeField1TS > > MEDFileAnyTypeField1TS::splitMultiDiscrPerGeoTypes() const
11429 + const MEDFileAnyTypeField1TSWithoutSDA *content(_content);
11431 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::splitMultiDiscrPerGeoTypes : no content in this ! Unable to split discretization !");
11432 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > contentsSplit(content->splitMultiDiscrPerGeoTypes());
11433 + std::size_t sz(contentsSplit.size());
11434 + std::vector< MCAuto< MEDFileAnyTypeField1TS > > ret(sz);
11435 + for(std::size_t i=0;i<sz;i++)
11437 + ret[i]=shallowCpy();
11438 + ret[i]->_content=contentsSplit[i];
11443 +MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::deepCopy() const
11445 + MCAuto<MEDFileAnyTypeField1TS> ret=shallowCpy();
11446 + if((const MEDFileAnyTypeField1TSWithoutSDA *)_content)
11447 + ret->_content=_content->deepCopy();
11448 + ret->deepCpyGlobs(*this);
11449 + return ret.retn();
11452 +int MEDFileAnyTypeField1TS::copyTinyInfoFrom(const MEDCouplingFieldDouble *field, const DataArray *arr)
11454 + MCAuto<MEDCouplingFieldTemplate> ft(MEDCouplingFieldTemplate::New(*field));
11455 + return copyTinyInfoFrom(field->timeDiscrSafe(),ft,arr);
11458 +int MEDFileAnyTypeField1TS::copyTinyInfoFrom(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr)
11460 + return contentNotNullBase()->copyTinyInfoFrom(th,field,arr);
11463 +//= MEDFileField1TS
11466 + * This method performs a copy with datatype modification ( float64->int32 ) of \a this. The globals information are copied
11467 + * following the given input policy.
11469 + * \param [in] isDeepCpyGlobs - a boolean that indicates the behaviour concerning globals (profiles and localizations)
11470 + * By default (true) the globals are deeply copied.
11471 + * \return MEDFileIntField1TS * - a new object that is the result of the conversion of \a this to int32 field.
11473 +MEDFileIntField1TS *MEDFileField1TS::convertToInt(bool isDeepCpyGlobs) const
11475 + MCAuto<MEDFileIntField1TS> ret;
11476 + const MEDFileAnyTypeField1TSWithoutSDA *content(_content);
11479 + const MEDFileField1TSWithoutSDA *contc=dynamic_cast<const MEDFileField1TSWithoutSDA *>(content);
11481 + throw INTERP_KERNEL::Exception("MEDFileField1TS::convertToInt : the content inside this is not FLOAT64 ! This is incoherent !");
11482 + MCAuto<MEDFileIntField1TSWithoutSDA> newc(contc->convertToInt());
11483 + ret=static_cast<MEDFileIntField1TS *>(MEDFileAnyTypeField1TS::BuildNewInstanceFromContent((MEDFileIntField1TSWithoutSDA *)newc));
11486 + ret=MEDFileIntField1TS::New();
11487 + if(isDeepCpyGlobs)
11488 + ret->deepCpyGlobs(*this);
11490 + ret->shallowCpyGlobs(*this);
11491 + return ret.retn();
11494 +MEDFileField1TS::MEDFileField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms)
11495 +try:MEDFileTemplateField1TS<double>(fid,loadAll,ms)
11498 +catch(INTERP_KERNEL::Exception& e)
11501 +MEDFileField1TS::MEDFileField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms)
11502 +try:MEDFileTemplateField1TS<double>(fid,fieldName,loadAll,ms)
11505 +catch(INTERP_KERNEL::Exception& e)
11508 +MEDFileField1TS::MEDFileField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms)
11509 +try:MEDFileTemplateField1TS<double>(fid,fieldName,iteration,order,loadAll,ms)
11512 +catch(INTERP_KERNEL::Exception& e)
11516 + * This constructor is a shallow copy constructor. If \a shallowCopyOfContent is true the content of \a other is shallow copied.
11517 + * If \a shallowCopyOfContent is false, \a other is taken to be the content of \a this.
11519 + * \warning this is a shallow copy constructor
11521 +MEDFileField1TS::MEDFileField1TS(const MEDFileField1TSWithoutSDA& other, bool shallowCopyOfContent)
11522 +try:MEDFileTemplateField1TS<double>(other,shallowCopyOfContent)
11525 +catch(INTERP_KERNEL::Exception& e)
11528 +MEDFileField1TS *MEDFileField1TS::shallowCpy() const
11530 + return new MEDFileField1TS(*this);
11533 +std::vector< std::vector<DataArrayDouble *> > MEDFileField1TS::getFieldSplitedByType2(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF,
11534 + std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
11536 + return contentNotNull()->getFieldSplitedByType2(mname,types,typesF,pfls,locs);
11539 +//= MEDFileIntField1TS
11541 +MCAuto<MEDCouplingFieldDouble> MEDFileIntField1TS::ConvertFieldIntToFieldDouble(const MEDCouplingFieldInt *f)
11544 + throw INTERP_KERNEL::Exception("MEDFileIntField1TS::ConvertFieldIntToFieldDouble : null input field !");
11546 + double t0(f->getTime(t1,t2));
11547 + std::string tu(f->getTimeUnit());
11548 + MCAuto<MEDCouplingFieldTemplate> ft(MEDCouplingFieldTemplate::New(*f));
11549 + MCAuto<MEDCouplingFieldDouble> ret(MEDCouplingFieldDouble::New(*ft));
11550 + ret->setTime(t0,t1,t2); ret->setTimeUnit(tu);
11554 +//= MEDFileFloatField1TS
11556 +//= MEDFileFloatField1TS
11557 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileField1TS.hxx MEDCOUPLING_new/src/MEDLoader/MEDFileField1TS.hxx
11558 --- MEDCOUPLING_old/src/MEDLoader/MEDFileField1TS.hxx 1970-01-01 01:00:00.000000000 +0100
11559 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileField1TS.hxx 2018-04-19 17:25:17.850799590 +0200
11561 +// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
11563 +// This library is free software; you can redistribute it and/or
11564 +// modify it under the terms of the GNU Lesser General Public
11565 +// License as published by the Free Software Foundation; either
11566 +// version 2.1 of the License, or (at your option) any later version.
11568 +// This library is distributed in the hope that it will be useful,
11569 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
11570 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
11571 +// Lesser General Public License for more details.
11573 +// You should have received a copy of the GNU Lesser General Public
11574 +// License along with this library; if not, write to the Free Software
11575 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
11577 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
11579 +// Author : Anthony Geay (EDF R&D)
11581 +#ifndef __MEDFILEFIELD1TS_HXX__
11582 +#define __MEDFILEFIELD1TS_HXX__
11584 +#include "MEDLoaderDefines.hxx"
11585 +#include "MEDFileFieldGlobs.hxx"
11586 +#include "MEDFileFieldInternal.hxx"
11587 +#include "MEDLoaderTraits.hxx"
11591 +namespace MEDCoupling
11593 + class TimeHolder;
11594 + class MEDFileMeshes;
11597 + * SDA is for Shared Data Arrays such as profiles.
11599 + class MEDFileAnyTypeField1TSWithoutSDA : public RefCountObject, public MEDFileFieldNameScope
11602 + MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA();
11603 + MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order);
11604 + MEDLOADER_EXPORT int getIteration() const { return _iteration; }
11605 + MEDLOADER_EXPORT int getOrder() const { return _order; }
11606 + MEDLOADER_EXPORT double getTime(int& iteration, int& order) const { iteration=_iteration; order=_order; return _dt; }
11607 + MEDLOADER_EXPORT void setTime(int iteration, int order, double val) { _dt=val; _iteration=iteration; _order=order; }
11608 + MEDLOADER_EXPORT int getDimension() const;
11609 + MEDLOADER_EXPORT bool changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab);
11610 + MEDLOADER_EXPORT int getMeshIteration() const;
11611 + MEDLOADER_EXPORT int getMeshOrder() const;
11612 + MEDLOADER_EXPORT bool isDealingTS(int iteration, int order) const;
11613 + MEDLOADER_EXPORT std::pair<int,int> getDtIt() const;
11614 + MEDLOADER_EXPORT void fillIteration(std::pair<int,int>& p) const;
11615 + MEDLOADER_EXPORT void fillTypesOfFieldAvailable(std::vector<TypeOfField>& types) const;
11616 + MEDLOADER_EXPORT std::vector<TypeOfField> getTypesOfFieldAvailable() const;
11618 + MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsed2() const;
11619 + MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsed2() const;
11620 + MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsedMulti2() const;
11621 + MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsedMulti2() const;
11622 + MEDLOADER_EXPORT void changePflsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
11623 + MEDLOADER_EXPORT void changeLocsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
11625 + MEDLOADER_EXPORT int getNonEmptyLevels(const std::string& mname, std::vector<int>& levs) const;
11626 + MEDLOADER_EXPORT void convertMedBallIntoClassic();
11627 + MEDLOADER_EXPORT void makeReduction(INTERP_KERNEL::NormalizedCellType ct, TypeOfField tof, const DataArrayInt *pfl);
11628 + MEDLOADER_EXPORT std::vector< std::vector<std::pair<int,int> > > getFieldSplitedByType(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
11630 + MEDLOADER_EXPORT MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId);
11631 + MEDLOADER_EXPORT const MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId) const;
11632 + MEDLOADER_EXPORT void deepCpyLeavesFrom(const MEDFileAnyTypeField1TSWithoutSDA& other);
11633 + MEDLOADER_EXPORT void accept(MEDFileFieldVisitor& visitor) const;
11635 + MEDLOADER_EXPORT int getNumberOfComponents() const;
11636 + MEDLOADER_EXPORT const std::vector<std::string>& getInfo() const;
11637 + MEDLOADER_EXPORT std::vector<std::string>& getInfo();
11638 + MEDLOADER_EXPORT bool presenceOfMultiDiscPerGeoType() const;
11639 + MEDLOADER_EXPORT bool presenceOfStructureElements() const;
11640 + MEDLOADER_EXPORT bool onlyStructureElements() const;
11641 + MEDLOADER_EXPORT void killStructureElements();
11642 + MEDLOADER_EXPORT void keepOnlyStructureElements();
11643 + MEDLOADER_EXPORT void keepOnlyOnSE(const std::string& seName);
11644 + MEDLOADER_EXPORT void getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const;
11645 + MEDLOADER_EXPORT void setInfo(const std::vector<std::string>& infos);
11646 + MEDLOADER_EXPORT std::size_t getHeapMemorySizeWithoutChildren() const;
11647 + MEDLOADER_EXPORT std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
11648 + MEDLOADER_EXPORT int copyTinyInfoFrom(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr);
11649 + MEDLOADER_EXPORT void setFieldNoProfileSBT(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
11650 + MEDLOADER_EXPORT void setFieldProfile(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arrOfVals, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc, bool smartPflKiller=true);
11651 + MEDLOADER_EXPORT virtual void simpleRepr(int bkOffset, std::ostream& oss, int f1tsId) const;
11652 + MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TSWithoutSDA *deepCopy() const = 0;
11653 + MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TSWithoutSDA *shallowCpy() const = 0;
11654 + MEDLOADER_EXPORT virtual std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > splitComponents() const;
11655 + MEDLOADER_EXPORT virtual const char *getTypeStr() const = 0;
11656 + MEDLOADER_EXPORT virtual DataArray *getUndergroundDataArray() const = 0;
11657 + MEDLOADER_EXPORT virtual DataArray *getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const = 0;
11658 + MEDLOADER_EXPORT virtual void setArray(DataArray *arr) = 0;
11659 + MEDLOADER_EXPORT virtual DataArray *createNewEmptyDataArrayInstance() const = 0;
11660 + MEDLOADER_EXPORT virtual DataArray *getOrCreateAndGetArray() = 0;
11661 + MEDLOADER_EXPORT virtual const DataArray *getOrCreateAndGetArray() const = 0;
11663 + MEDLOADER_EXPORT MEDCouplingFieldDouble *fieldOnMesh(const MEDFileFieldGlobsReal *glob, const MEDFileMesh *mesh, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const;
11664 + MEDLOADER_EXPORT MEDCouplingFieldDouble *getFieldAtLevel(TypeOfField type, int meshDimRelToMax, const std::string& mName, int renumPol, const MEDFileFieldGlobsReal *glob, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
11665 + MEDLOADER_EXPORT MEDCouplingFieldDouble *getFieldOnMeshAtLevel(TypeOfField type, int meshDimRelToMax, int renumPol, const MEDFileFieldGlobsReal *glob, const MEDFileMesh *mesh, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
11666 + MEDLOADER_EXPORT MEDCouplingFieldDouble *getFieldAtTopLevel(TypeOfField type, const std::string& mName, int renumPol, const MEDFileFieldGlobsReal *glob, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
11667 + MEDLOADER_EXPORT MEDCouplingFieldDouble *getFieldOnMeshAtLevel(TypeOfField type, int renumPol, const MEDFileFieldGlobsReal *glob, const MEDCouplingMesh *mesh, const DataArrayInt *cellRenum, const DataArrayInt *nodeRenum, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
11668 + DataArray *getFieldWithProfile(TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh, DataArrayInt *&pfl, const MEDFileFieldGlobsReal *glob, const MEDFileFieldNameScope& nasc) const;
11670 + MEDLOADER_EXPORT bool renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N, MEDFileFieldGlobsReal& glob);
11671 + MEDLOADER_EXPORT std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > splitDiscretizations() const;
11672 + MEDLOADER_EXPORT std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > splitMultiDiscrPerGeoTypes() const;
11673 + MEDLOADER_EXPORT int keepOnlySpatialDiscretization(TypeOfField tof, std::vector< std::pair<int,int> >& its);
11674 + MEDLOADER_EXPORT int keepOnlyGaussDiscretization(std::size_t idOfDisc, std::vector< std::pair<int,int> >& its);
11676 + MEDLOADER_EXPORT void allocNotFromFile(int newNbOfTuples);
11677 + MEDLOADER_EXPORT bool allocIfNecessaryTheArrayToReceiveDataFromFile();
11678 + MEDLOADER_EXPORT void loadOnlyStructureOfDataRecursively(med_idt fid, const MEDFileFieldNameScope& nasc, const MEDFileMeshes *ms, const MEDFileEntities *entities);
11679 + MEDLOADER_EXPORT void loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc);
11680 + MEDLOADER_EXPORT void loadBigArraysRecursivelyIfNecessary(med_idt fid, const MEDFileFieldNameScope& nasc);
11681 + MEDLOADER_EXPORT void loadStructureAndBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc, const MEDFileMeshes *ms, const MEDFileEntities *entities);
11682 + MEDLOADER_EXPORT void unloadArrays();
11683 + MEDLOADER_EXPORT void writeLL(med_idt fid, const MEDFileWritable& opts, const MEDFileFieldNameScope& nasc) const;
11684 + MEDLOADER_EXPORT static std::string FieldNameToMEDFileConvention(const std::string& nonCorrectFieldName);
11686 + int getMeshIdFromMeshName(const std::string& mName) const;
11687 + int addNewEntryIfNecessary(const MEDCouplingMesh *mesh);
11688 + void updateData(int newLgth, const std::vector< std::pair<int,int> >& oldStartStops);
11690 + std::vector< MCAuto< MEDFileFieldPerMesh > > _field_per_mesh;
11695 + //! only useable on reading
11696 + mutable int _csit;
11697 + // -3 means allocated and build from scratch
11698 + // -2 means allocated and read from a file
11699 + // -1 means not allocated and build from scratch
11700 + // >=0 means not allocated and read from a file
11701 + mutable int _nb_of_tuples_to_be_allocated;
11704 + class MEDFileIntField1TSWithoutSDA;
11706 + template<class T>
11707 + class MEDFileField1TSTemplateWithoutSDA : public MEDFileAnyTypeField1TSWithoutSDA
11710 + MEDFileField1TSTemplateWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order):MEDFileAnyTypeField1TSWithoutSDA(fieldName,meshName,csit,iteration,order) { }
11711 + MEDFileField1TSTemplateWithoutSDA() { }
11713 + MEDLOADER_EXPORT void setArray(DataArray *arr);
11714 + MEDLOADER_EXPORT DataArray *createNewEmptyDataArrayInstance() const;
11715 + MEDLOADER_EXPORT typename Traits<T>::ArrayType *getOrCreateAndGetArrayTemplate();
11716 + MEDLOADER_EXPORT typename Traits<T>::ArrayType const *getOrCreateAndGetArrayTemplate() const;
11717 + MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArrayTemplate() const;
11718 + MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArrayTemplateExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
11719 + MEDLOADER_EXPORT DataArray *getOrCreateAndGetArray();
11720 + MEDLOADER_EXPORT const DataArray *getOrCreateAndGetArray() const;
11721 + MEDLOADER_EXPORT DataArray *getUndergroundDataArray() const;
11722 + MEDLOADER_EXPORT void aggregate(const typename std::vector< typename MLFieldTraits<T>::F1TSWSDAType const * >& f1tss, const std::vector< std::vector< std::pair<int,int> > >& dts);
11723 + MEDLOADER_EXPORT void copyTimeInfoFrom(const typename Traits<T>::FieldType *mcf);
11725 + MCAuto< typename Traits<T>::ArrayType > _arr;
11729 + * SDA is for Shared Data Arrays such as profiles.
11731 + class MEDFileField1TSWithoutSDA : public MEDFileField1TSTemplateWithoutSDA<double>
11734 + MEDLOADER_EXPORT const char *getTypeStr() const;
11735 + MEDLOADER_EXPORT DataArray *getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
11736 + MEDLOADER_EXPORT std::vector< std::vector<DataArrayDouble *> > getFieldSplitedByType2(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
11737 + MEDLOADER_EXPORT static void CheckMeshDimRel(int meshDimRelToMax);
11738 + MEDLOADER_EXPORT static std::vector<int> CheckSBTMesh(const MEDCouplingMesh *mesh);
11739 + MEDLOADER_EXPORT static MEDFileField1TSWithoutSDA *New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
11741 + MEDLOADER_EXPORT MEDFileField1TSWithoutSDA();
11742 + MEDLOADER_EXPORT MEDFileField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
11743 + MEDLOADER_EXPORT MEDFileField1TSWithoutSDA *shallowCpy() const;
11744 + MEDLOADER_EXPORT MEDFileField1TSWithoutSDA *deepCopy() const;
11745 + MEDLOADER_EXPORT MEDFileIntField1TSWithoutSDA *convertToInt() const;
11747 + static const char TYPE_STR[];
11750 + template<class T>
11751 + class MEDFileField1TSNDTemplateWithoutSDA : public MEDFileField1TSTemplateWithoutSDA<T>
11754 + MEDLOADER_EXPORT MEDFileField1TSWithoutSDA *convertToDouble() const;
11756 + MEDFileField1TSNDTemplateWithoutSDA() { }
11757 + MEDFileField1TSNDTemplateWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos):MEDFileField1TSTemplateWithoutSDA<T>(fieldName,meshName,csit,iteration,order) { }
11761 + * SDA is for Shared Data Arrays such as profiles.
11763 + class MEDFileIntField1TSWithoutSDA : public MEDFileField1TSNDTemplateWithoutSDA<int>
11766 + MEDLOADER_EXPORT MEDFileIntField1TSWithoutSDA();
11767 + MEDLOADER_EXPORT static MEDFileIntField1TSWithoutSDA *New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
11768 + MEDLOADER_EXPORT MEDFileIntField1TSWithoutSDA *deepCopy() const;
11769 + MEDLOADER_EXPORT MEDFileIntField1TSWithoutSDA *shallowCpy() const;
11770 + MEDLOADER_EXPORT const char *getTypeStr() const;
11771 + MEDLOADER_EXPORT DataArray *getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
11772 + MEDLOADER_EXPORT DataArrayInt *getUndergroundDataArrayIntExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
11774 + MEDFileIntField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
11776 + MEDLOADER_EXPORT static const char TYPE_STR[];
11780 + * SDA is for Shared Data Arrays such as profiles.
11782 + class MEDFileFloatField1TSWithoutSDA : public MEDFileField1TSNDTemplateWithoutSDA<float>
11785 + MEDLOADER_EXPORT MEDFileFloatField1TSWithoutSDA();
11786 + MEDLOADER_EXPORT static MEDFileFloatField1TSWithoutSDA *New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
11787 + MEDLOADER_EXPORT MEDFileFloatField1TSWithoutSDA *deepCopy() const;
11788 + MEDLOADER_EXPORT MEDFileFloatField1TSWithoutSDA *shallowCpy() const;
11789 + MEDLOADER_EXPORT const char *getTypeStr() const;
11790 + MEDLOADER_EXPORT DataArray *getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
11791 + MEDLOADER_EXPORT DataArrayFloat *getUndergroundDataArrayFloatExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
11793 + MEDFileFloatField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
11795 + MEDLOADER_EXPORT static const char TYPE_STR[];
11801 + class MEDFileAnyTypeField1TS : public RefCountObject, public MEDFileWritableStandAlone, public MEDFileFieldGlobsReal
11804 + MEDLOADER_EXPORT MEDFileAnyTypeField1TS();
11805 + MEDLOADER_EXPORT MEDFileAnyTypeField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
11806 + MEDLOADER_EXPORT MEDFileAnyTypeField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
11807 + MEDLOADER_EXPORT MEDFileAnyTypeField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
11808 + MEDLOADER_EXPORT MEDFileAnyTypeField1TS(const MEDFileAnyTypeField1TSWithoutSDA& other, bool shallowCopyOfContent);
11809 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *BuildNewInstanceFromContent(MEDFileAnyTypeField1TSWithoutSDA *c);
11810 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *BuildNewInstanceFromContent(MEDFileAnyTypeField1TSWithoutSDA *c, med_idt fid);
11811 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TSWithoutSDA *BuildContentFrom(med_idt fid, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
11812 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TSWithoutSDA *BuildContentFrom(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
11813 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TSWithoutSDA *BuildContentFrom(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
11814 + MEDLOADER_EXPORT void writeLL(med_idt fid) const;
11815 + // direct forwarding to MEDFileAnyTypeField1TSWithoutSDA instance _content
11817 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(const std::string& fileName, bool loadAll=true);
11818 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(med_idt fid, bool loadAll=true);
11819 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(const std::string& fileName, const std::string& fieldName, bool loadAll=true);
11820 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(med_idt fid, const std::string& fieldName, bool loadAll=true);
11821 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(const std::string& fileName, const std::string& fieldName, int iteration, int order, bool loadAll=true);
11822 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll=true);
11823 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *NewAdv(const std::string& fileName, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileEntities *entities);
11824 + MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *NewAdv(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileEntities *entities);
11825 + MEDLOADER_EXPORT int getDimension() const;
11826 + MEDLOADER_EXPORT int getIteration() const;
11827 + MEDLOADER_EXPORT int getOrder() const;
11828 + MEDLOADER_EXPORT double getTime(int& iteration, int& order) const;
11829 + MEDLOADER_EXPORT void setTime(int iteration, int order, double val);
11830 + MEDLOADER_EXPORT std::string getName() const;
11831 + MEDLOADER_EXPORT void setName(const std::string& name);
11832 + MEDLOADER_EXPORT std::string simpleRepr() const;
11833 + MEDLOADER_EXPORT void simpleRepr(int bkOffset, std::ostream& oss, int f1tsId) const;
11834 + MEDLOADER_EXPORT std::string getDtUnit() const;
11835 + MEDLOADER_EXPORT void setDtUnit(const std::string& dtUnit);
11836 + MEDLOADER_EXPORT std::string getMeshName() const;
11837 + MEDLOADER_EXPORT void setMeshName(const std::string& newMeshName);
11838 + MEDLOADER_EXPORT bool changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab);
11839 + MEDLOADER_EXPORT int getMeshIteration() const;
11840 + MEDLOADER_EXPORT int getMeshOrder() const;
11841 + MEDLOADER_EXPORT int getNumberOfComponents() const;
11842 + MEDLOADER_EXPORT bool isDealingTS(int iteration, int order) const;
11843 + MEDLOADER_EXPORT std::pair<int,int> getDtIt() const;
11844 + MEDLOADER_EXPORT void fillIteration(std::pair<int,int>& p) const;
11845 + MEDLOADER_EXPORT void fillTypesOfFieldAvailable(std::vector<TypeOfField>& types) const;
11846 + MEDLOADER_EXPORT void setInfo(const std::vector<std::string>& infos);
11847 + MEDLOADER_EXPORT const std::vector<std::string>& getInfo() const;
11848 + MEDLOADER_EXPORT std::vector<std::string>& getInfo();
11849 + MEDLOADER_EXPORT bool presenceOfMultiDiscPerGeoType() const;
11850 + MEDLOADER_EXPORT std::vector<TypeOfField> getTypesOfFieldAvailable() const;
11851 + MEDLOADER_EXPORT std::vector< std::vector<std::pair<int,int> > > getFieldSplitedByType(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF,
11852 + std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
11853 + MEDLOADER_EXPORT MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId);
11854 + MEDLOADER_EXPORT const MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId) const;
11855 + MEDLOADER_EXPORT int getNonEmptyLevels(const std::string& mname, std::vector<int>& levs) const;
11856 + MEDLOADER_EXPORT void convertMedBallIntoClassic();
11857 + MEDLOADER_EXPORT void makeReduction(INTERP_KERNEL::NormalizedCellType ct, TypeOfField tof, const DataArrayInt *pfl);
11858 + MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TS *extractPart(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const = 0;
11859 + MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TS *shallowCpy() const = 0;
11861 + MEDLOADER_EXPORT void loadArrays();
11862 + MEDLOADER_EXPORT void loadArraysIfNecessary();
11863 + MEDLOADER_EXPORT void unloadArrays();
11864 + MEDLOADER_EXPORT void unloadArraysWithoutDataLoss();
11865 + MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeField1TS > > splitComponents() const;
11866 + MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeField1TS > > splitDiscretizations() const;
11867 + MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeField1TS > > splitMultiDiscrPerGeoTypes() const;
11868 + MEDLOADER_EXPORT MEDFileAnyTypeField1TS *deepCopy() const;
11869 + MEDLOADER_EXPORT int copyTinyInfoFrom(const MEDCouplingFieldDouble *field, const DataArray *arr);
11870 + MEDLOADER_EXPORT int copyTinyInfoFrom(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr);
11872 + //! underground method see MEDFileField1TSWithoutSDA::setProfileNameOnLeaf
11873 + MEDLOADER_EXPORT void setProfileNameOnLeaf(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId, const std::string& newPflName, bool forceRenameOnGlob=false);
11874 + //! underground method see MEDFileField1TSWithoutSDA::setLocNameOnLeaf
11875 + MEDLOADER_EXPORT void setLocNameOnLeaf(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId, const std::string& newLocName, bool forceRenameOnGlob=false);
11876 + MEDLOADER_EXPORT std::size_t getHeapMemorySizeWithoutChildren() const;
11877 + MEDLOADER_EXPORT std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
11878 + MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsed() const;
11879 + MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsed() const;
11880 + MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsedMulti() const;
11881 + MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsedMulti() const;
11882 + MEDLOADER_EXPORT void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
11883 + MEDLOADER_EXPORT void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
11885 + MEDLOADER_EXPORT static int LocateField2(med_idt fid, int fieldIdCFormat, bool checkFieldId, std::string& fieldName, med_field_type& typcha, std::vector<std::string>& infos, std::string& dtunitOut, std::string& meshName);
11886 + MEDLOADER_EXPORT static int LocateField(med_idt fid, const std::string& fieldName, int& posCFormat, med_field_type& typcha, std::vector<std::string>& infos, std::string& dtunitOut, std::string& meshName);
11888 + MEDLOADER_EXPORT virtual med_field_type getMEDFileFieldType() const = 0;
11889 + MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA *contentNotNullBase();
11890 + MEDLOADER_EXPORT const MEDFileAnyTypeField1TSWithoutSDA *contentNotNullBase() const;
11892 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> _content;
11895 + class MEDFileIntField1TS;
11897 + template<class T>
11898 + class MEDFileTemplateField1TS : public MEDFileAnyTypeField1TS
11901 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New();
11902 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(const std::string& fileName, bool loadAll=true);
11903 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(med_idt fid, bool loadAll=true);
11904 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(DataArrayByte *db) { return BuildFromMemoryChunk<typename MLFieldTraits<T>::F1TSType>(db); }
11905 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(const std::string& fileName, const std::string& fieldName, bool loadAll=true);
11906 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(med_idt fid, const std::string& fieldName, bool loadAll=true);
11907 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(const std::string& fileName, const std::string& fieldName, int iteration, int order, bool loadAll=true);
11908 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll=true);
11909 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(const typename MLFieldTraits<T>::F1TSWSDAType& other, bool shallowCopyOfContent);
11911 + MEDLOADER_EXPORT static typename Traits<T>::ArrayType *ReturnSafelyTypedDataArray(MCAuto<DataArray>& arr);
11912 + MEDLOADER_EXPORT typename Traits<T>::ArrayType *getFieldWithProfile(TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh, DataArrayInt *&pfl) const;
11913 + MEDLOADER_EXPORT void setArray(DataArray *arr);
11914 + MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArray() const;
11915 + MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
11916 + MEDLOADER_EXPORT static MCAuto<typename Traits<T>::FieldType> SetDataArrayInField(MEDCouplingFieldDouble *f, MCAuto<DataArray>& arr);
11917 + MEDLOADER_EXPORT static MCAuto<MEDCouplingFieldDouble> ToFieldTemplateWithTime(const typename Traits<T>::FieldType *f);
11919 + MEDLOADER_EXPORT void copyTimeInfoFrom(const typename Traits<T>::FieldType *mcf);
11920 + MEDLOADER_EXPORT typename Traits<T>::FieldType *field(const MEDFileMesh *mesh) const;
11921 + MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtLevel(TypeOfField type, int meshDimRelToMax, int renumPol=0) const;
11922 + MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtTopLevel(TypeOfField type, int renumPol=0) const;
11923 + MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldOnMeshAtLevel(TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh, int renumPol=0) const;
11924 + MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldOnMeshAtLevel(TypeOfField type, const MEDCouplingMesh *mesh, int renumPol=0) const;
11925 + MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtLevelOld(TypeOfField type, const std::string& mname, int meshDimRelToMax, int renumPol=0) const;
11926 + MEDLOADER_EXPORT void setFieldNoProfileSBT(const typename Traits<T>::FieldType *field);
11927 + MEDLOADER_EXPORT void setFieldProfile(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile);
11928 + MEDLOADER_EXPORT void setFieldProfileFlatly(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile);
11929 + MEDLOADER_EXPORT typename MLFieldTraits<T>::F1TSType *extractPartImpl(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const;
11930 + MEDLOADER_EXPORT MEDFileAnyTypeField1TS *extractPart(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const { return this->extractPartImpl(extractDef,mm); }
11932 + ~MEDFileTemplateField1TS() { }
11933 + MEDFileTemplateField1TS();
11934 + MEDFileTemplateField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileAnyTypeField1TS(fid,loadAll,ms) { }
11935 + MEDFileTemplateField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms):MEDFileAnyTypeField1TS(fid,fieldName,loadAll,ms) { }
11936 + MEDFileTemplateField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms):MEDFileAnyTypeField1TS(fid,fieldName,iteration,order,loadAll,ms) { }
11937 + MEDFileTemplateField1TS(const typename MLFieldTraits<T>::F1TSWSDAType& other, bool shallowCopyOfContent):MEDFileAnyTypeField1TS(other,shallowCopyOfContent) { }
11938 + const typename MLFieldTraits<T>::F1TSWSDAType *contentNotNull() const;
11939 + typename MLFieldTraits<T>::F1TSWSDAType *contentNotNull();
11940 + void setFieldProfileGeneral(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, bool smartPflKiller);
11946 + class MEDFileField1TS : public MEDFileTemplateField1TS<double>
11948 + friend class MEDFileTemplateField1TS<double>;
11950 + MEDLOADER_EXPORT MEDFileIntField1TS *convertToInt(bool isDeepCpyGlobs=true) const;
11952 + MEDLOADER_EXPORT MEDFileField1TS *shallowCpy() const;
11953 + MEDLOADER_EXPORT std::vector< std::vector<DataArrayDouble *> > getFieldSplitedByType2(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF,
11954 + std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
11957 + med_field_type getMEDFileFieldType() const { return MED_FLOAT64; }
11959 + ~MEDFileField1TS() { }
11960 + MEDFileField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms);
11961 + MEDFileField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms);
11962 + MEDFileField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms);
11963 + MEDFileField1TS(const MEDFileField1TSWithoutSDA& other, bool shallowCopyOfContent);
11964 + MEDFileField1TS() { }
11967 + template<class T>
11968 + class MEDFileNDTemplateField1TS : public MEDFileTemplateField1TS<T>
11971 + MEDLOADER_EXPORT MEDFileField1TS *convertToDouble(bool isDeepCpyGlobs=true) const;
11973 + ~MEDFileNDTemplateField1TS() { }
11974 + MEDFileNDTemplateField1TS() { }
11975 + MEDFileNDTemplateField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileTemplateField1TS<T>(fid,loadAll,ms) { }
11976 + MEDFileNDTemplateField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms):MEDFileTemplateField1TS<T>(fid,fieldName,loadAll,ms) { }
11977 + MEDFileNDTemplateField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms):MEDFileTemplateField1TS<T>(fid,fieldName,iteration,order,loadAll,ms) { }
11978 + MEDFileNDTemplateField1TS(const typename MLFieldTraits<T>::F1TSWSDAType& other, bool shallowCopyOfContent):MEDFileTemplateField1TS<T>(other,shallowCopyOfContent) { }
11981 + class MEDFileIntField1TS : public MEDFileNDTemplateField1TS<int>
11983 + friend class MEDFileTemplateField1TS<int>;
11985 + MEDLOADER_EXPORT MEDFileIntField1TS *shallowCpy() const { return new MEDFileIntField1TS(*this); }
11987 + MEDLOADER_EXPORT static MCAuto<MEDCouplingFieldDouble> ConvertFieldIntToFieldDouble(const MEDCouplingFieldInt *f);
11989 + med_field_type getMEDFileFieldType() const { return MED_INT32; }
11991 + ~MEDFileIntField1TS() { }
11992 + MEDFileIntField1TS() { }
11993 + MEDFileIntField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<int>(fid,loadAll,ms) { }
11994 + MEDFileIntField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<int>(fid,fieldName,loadAll,ms) { }
11995 + MEDFileIntField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<int>(fid,fieldName,iteration,order,loadAll,ms) { }
11997 + * This constructor is a shallow copy constructor. If \a shallowCopyOfContent is true the content of \a other is shallow copied.
11998 + * If \a shallowCopyOfContent is false, \a other is taken to be the content of \a this.
12000 + * \warning this is a shallow copy constructor
12002 + MEDFileIntField1TS(const MEDFileIntField1TSWithoutSDA& other, bool shallowCopyOfContent):MEDFileNDTemplateField1TS<int>(other,shallowCopyOfContent) { }
12005 + class MEDFileFloatField1TS : public MEDFileNDTemplateField1TS<float>
12007 + friend class MEDFileTemplateField1TS<float>;
12009 + med_field_type getMEDFileFieldType() const { return MED_FLOAT32; }
12010 + MEDLOADER_EXPORT MEDFileFloatField1TS *shallowCpy() const { return new MEDFileFloatField1TS(*this); }
12012 + ~MEDFileFloatField1TS() { }
12013 + MEDFileFloatField1TS() { }
12014 + MEDFileFloatField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<float>(fid,loadAll,ms) { }
12015 + MEDFileFloatField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<float>(fid,fieldName,loadAll,ms) { }
12016 + MEDFileFloatField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<float>(fid,fieldName,iteration,order,loadAll,ms) { }
12018 + * This constructor is a shallow copy constructor. If \a shallowCopyOfContent is true the content of \a other is shallow copied.
12019 + * If \a shallowCopyOfContent is false, \a other is taken to be the content of \a this.
12021 + * \warning this is a shallow copy constructor
12023 + MEDFileFloatField1TS(const MEDFileFloatField1TSWithoutSDA& other, bool shallowCopyOfContent):MEDFileNDTemplateField1TS<float>(other,shallowCopyOfContent) { }
12028 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileField.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileField.cxx
12029 --- MEDCOUPLING_old/src/MEDLoader/MEDFileField.cxx 2018-04-19 17:04:36.741222802 +0200
12030 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileField.cxx 2018-04-19 17:25:17.826799116 +0200
12033 // Author : Anthony Geay (EDF R&D)
12035 -#include "MEDFileField.txx"
12036 +#include "MEDFileField.hxx"
12037 #include "MEDFileMesh.hxx"
12038 #include "MEDLoaderBase.hxx"
12039 #include "MEDLoaderTraits.hxx"
12040 @@ -35,8923 +35,12 @@
12041 #include <algorithm>
12042 #include <iterator>
12044 -extern med_geometry_type typmai[MED_N_CELL_FIXED_GEO];
12045 extern INTERP_KERNEL::NormalizedCellType typmai2[MED_N_CELL_FIXED_GEO];
12046 extern med_geometry_type typmainoeud[1];
12047 extern med_geometry_type typmai3[34];
12049 using namespace MEDCoupling;
12051 -template class MEDCoupling::MEDFileField1TSTemplateWithoutSDA<int>;
12052 -template class MEDCoupling::MEDFileField1TSTemplateWithoutSDA<float>;
12053 -template class MEDCoupling::MEDFileField1TSTemplateWithoutSDA<double>;
12054 -template class MEDCoupling::MEDFileField1TSNDTemplateWithoutSDA<int>;
12055 -template class MEDCoupling::MEDFileField1TSNDTemplateWithoutSDA<float>;
12056 -template class MEDCoupling::MEDFileNDTemplateFieldMultiTSWithoutSDA<int>;
12057 -template class MEDCoupling::MEDFileNDTemplateFieldMultiTSWithoutSDA<float>;
12058 -template class MEDCoupling::MEDFileTemplateField1TS<int>;
12059 -template class MEDCoupling::MEDFileTemplateField1TS<float>;
12060 -template class MEDCoupling::MEDFileTemplateField1TS<double>;
12061 -template class MEDCoupling::MEDFileNDTemplateField1TS<int>;
12062 -template class MEDCoupling::MEDFileNDTemplateField1TS<float>;
12063 -template class MEDCoupling::MEDFileTemplateFieldMultiTS<int>;
12064 -template class MEDCoupling::MEDFileTemplateFieldMultiTS<float>;
12065 -template class MEDCoupling::MEDFileTemplateFieldMultiTS<double>;
12066 -template class MEDCoupling::MEDFileNDTemplateFieldMultiTS<int>;
12067 -template class MEDCoupling::MEDFileNDTemplateFieldMultiTS<float>;
12069 -const char MEDFileField1TSWithoutSDA::TYPE_STR[]="FLOAT64";
12070 -const char MEDFileIntField1TSWithoutSDA::TYPE_STR[]="INT32";
12071 -const char MEDFileFloatField1TSWithoutSDA::TYPE_STR[]="FLOAT32";
12073 -MEDFileGTKeeper::~MEDFileGTKeeper()
12077 -MEDFileGTKeeper *MEDFileGTKeeperSta::deepCopy() const
12079 - return new MEDFileGTKeeperSta(_geo_type);
12082 -INTERP_KERNEL::NormalizedCellType MEDFileGTKeeperSta::getGeoType() const
12084 - return _geo_type;
12087 -std::string MEDFileGTKeeperSta::getRepr() const
12089 - return INTERP_KERNEL::CellModel::GetCellModel(_geo_type).getRepr();
12092 -bool MEDFileGTKeeperSta::isEqual(const MEDFileGTKeeper *other) const
12094 - const MEDFileGTKeeperSta *otherC(dynamic_cast<const MEDFileGTKeeperSta *>(other));
12097 - return _geo_type==otherC->_geo_type;
12100 -MEDFileGTKeeperDyn::MEDFileGTKeeperDyn(const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileStructureElement *se):_mesh(mesh),_section(section),_se(se)
12105 - section->incrRef();
12108 - if(_mesh.isNull() || _section.isNull() || _se.isNull())
12109 - throw INTERP_KERNEL::Exception("MEDFileGTKeeperDyn constructor : null pointer not allowed !");
12112 -MEDFileGTKeeper *MEDFileGTKeeperDyn::deepCopy() const
12114 - return new MEDFileGTKeeperDyn(_mesh,_section,_se);
12117 -INTERP_KERNEL::NormalizedCellType MEDFileGTKeeperDyn::getGeoType() const
12119 - throw INTERP_KERNEL::Exception("MEDFileGTKeeperDyn::getGeoType : not valid !");
12122 -std::string MEDFileGTKeeperDyn::getRepr() const
12124 - std::ostringstream oss;
12125 - oss << _se->getDynGT();
12126 - return oss.str();
12129 -bool MEDFileGTKeeperDyn::isEqual(const MEDFileGTKeeper *other) const
12131 - const MEDFileGTKeeperDyn *otherC(dynamic_cast<const MEDFileGTKeeperDyn *>(other));
12134 - return this==otherC;
12137 -MEDFileFieldLoc *MEDFileFieldLoc::New(med_idt fid, const std::string& locName)
12139 - return new MEDFileFieldLoc(fid,locName);
12142 -MEDFileFieldLoc *MEDFileFieldLoc::New(med_idt fid, int id, const MEDFileEntities *entities)
12144 - return new MEDFileFieldLoc(fid,id,entities);
12147 -MEDFileFieldLoc *MEDFileFieldLoc::New(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w)
12149 - return new MEDFileFieldLoc(locName,geoType,refCoo,gsCoo,w);
12152 -MEDFileFieldLoc::MEDFileFieldLoc(med_idt fid, const std::string& locName):_name(locName)
12154 - med_geometry_type geotype;
12155 - med_geometry_type sectiongeotype;
12156 - int nsectionmeshcell;
12157 - INTERP_KERNEL::AutoPtr<char> geointerpname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
12158 - INTERP_KERNEL::AutoPtr<char> sectionmeshname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
12159 - MEDlocalizationInfoByName(fid,locName.c_str(),&geotype,&_dim,&_nb_gauss_pt,geointerpname,sectionmeshname,&nsectionmeshcell,§iongeotype);
12160 - _gt=new MEDFileGTKeeperSta((INTERP_KERNEL::NormalizedCellType)(std::distance(typmai3,std::find(typmai3,typmai3+34,geotype))));
12161 - const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(getGeoType()));
12162 - _nb_node_per_cell=cm.getNumberOfNodes();
12163 - _ref_coo.resize(_dim*_nb_node_per_cell);
12164 - _gs_coo.resize(_dim*_nb_gauss_pt);
12165 - _w.resize(_nb_gauss_pt);
12166 - MEDlocalizationRd(fid,locName.c_str(),MED_FULL_INTERLACE,&_ref_coo[0],&_gs_coo[0],&_w[0]);
12169 -MEDFileFieldLoc::MEDFileFieldLoc(med_idt fid, int id, const MEDFileEntities *entities)
12171 - med_geometry_type geotype;
12172 - med_geometry_type sectiongeotype;
12173 - int nsectionmeshcell;
12174 - INTERP_KERNEL::AutoPtr<char> locName(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
12175 - INTERP_KERNEL::AutoPtr<char> geointerpname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
12176 - INTERP_KERNEL::AutoPtr<char> sectionmeshname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
12177 - MEDlocalizationInfo(fid,id+1,locName,&geotype,&_dim,&_nb_gauss_pt,geointerpname,sectionmeshname,&nsectionmeshcell,§iongeotype);
12179 - std::string sectionName(MEDLoaderBase::buildStringFromFortran(sectionmeshname,MED_NAME_SIZE));
12180 - if(sectionName.empty())
12182 - _gt=new MEDFileGTKeeperSta((INTERP_KERNEL::NormalizedCellType)(std::distance(typmai3,std::find(typmai3,typmai3+34,geotype))));
12183 - const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(getGeoType()));
12184 - _nb_node_per_cell=cm.getNumberOfNodes();
12188 - const MEDFileAllStaticEntitiesPlusDyn *entities2(dynamic_cast<const MEDFileAllStaticEntitiesPlusDyn *>(entities));
12191 - std::ostringstream oss; oss << "MEDFileFieldLoc cstr : for loc \"" << _name << "\" presence of non static type ! Expect entities !";
12192 - throw INTERP_KERNEL::Exception(oss.str());
12194 - const MEDFileStructureElement *se(entities2->getWithGT(geotype));
12195 - const MEDFileUMesh *um(entities2->getSupMeshWithName(se->getMeshName()));
12196 - const MEDFileUMesh *section(entities2->getSupMeshWithName(sectionName));
12197 - _gt=new MEDFileGTKeeperDyn(um,section,se);
12200 - MEDFILESAFECALLERWR0(MEDmeshGeotypeParameter,(fid,geotype,&dummy,&_nb_node_per_cell));
12203 - _ref_coo.resize(_dim*_nb_node_per_cell);
12204 - _gs_coo.resize(_dim*_nb_gauss_pt);
12205 - _w.resize(_nb_gauss_pt);
12206 - MEDlocalizationRd(fid,locName,MED_FULL_INTERLACE,&_ref_coo[0],&_gs_coo[0],&_w[0]);
12209 -MEDFileFieldLoc::MEDFileFieldLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType,
12210 - const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w):_name(locName),_gt(new MEDFileGTKeeperSta(geoType)),_ref_coo(refCoo),_gs_coo(gsCoo),_w(w)
12212 - const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(getGeoType()));
12213 - _dim=cm.getDimension();
12214 - _nb_node_per_cell=cm.getNumberOfNodes();
12215 - _nb_gauss_pt=_w.size();
12219 -MEDFileFieldLoc::MEDFileFieldLoc(const MEDFileFieldLoc& other):_dim(other._dim),_nb_gauss_pt(other._nb_gauss_pt),_gt(other._gt->deepCopy()),_nb_node_per_cell(other._nb_node_per_cell),_name(other._name),_ref_coo(other._ref_coo),_gs_coo(other._gs_coo),_w(other._w)
12223 -MEDFileFieldLoc *MEDFileFieldLoc::deepCopy() const
12225 - return new MEDFileFieldLoc(*this);
12228 -bool MEDFileFieldLoc::isOnStructureElement() const
12230 - const MEDFileGTKeeper *gt(_gt);
12232 - throw INTERP_KERNEL::Exception("MEDFileFieldLoc::isOnStructureElement : null pointer !");
12233 - const MEDFileGTKeeperDyn *gt2(dynamic_cast<const MEDFileGTKeeperDyn *>(gt));
12234 - return gt2!=NULL;
12237 -std::size_t MEDFileFieldLoc::getHeapMemorySizeWithoutChildren() const
12239 - return (_ref_coo.capacity()+_gs_coo.capacity()+_w.capacity())*sizeof(double)+_name.capacity();
12242 -std::vector<const BigMemoryObject *> MEDFileFieldLoc::getDirectChildrenWithNull() const
12244 - return std::vector<const BigMemoryObject *>();
12247 -void MEDFileFieldLoc::simpleRepr(std::ostream& oss) const
12249 - static const char OFF7[]="\n ";
12250 - oss << "\"" << _name << "\"" << OFF7;
12251 - oss << "GeoType=" << _gt->getRepr() << OFF7;
12252 - oss << "Dimension=" << _dim << OFF7;
12253 - oss << "Number of Gauss points=" << _nb_gauss_pt << OFF7;
12254 - oss << "Number of nodes per cell=" << _nb_node_per_cell << OFF7;
12255 - oss << "RefCoords="; std::copy(_ref_coo.begin(),_ref_coo.end(),std::ostream_iterator<double>(oss," ")); oss << OFF7;
12256 - oss << "Weights="; std::copy(_w.begin(),_w.end(),std::ostream_iterator<double>(oss," ")); oss << OFF7;
12257 - oss << "GaussPtsCoords="; std::copy(_gs_coo.begin(),_gs_coo.end(),std::ostream_iterator<double>(oss," ")); oss << std::endl;
12260 -void MEDFileFieldLoc::setName(const std::string& name)
12265 -bool MEDFileFieldLoc::isEqual(const MEDFileFieldLoc& other, double eps) const
12267 - if(_name!=other._name)
12269 - if(_dim!=other._dim)
12271 - if(_nb_gauss_pt!=other._nb_gauss_pt)
12273 - if(_nb_node_per_cell!=other._nb_node_per_cell)
12275 - if(!_gt->isEqual(other._gt))
12277 - if(!MEDCouplingGaussLocalization::AreAlmostEqual(_ref_coo,other._ref_coo,eps))
12279 - if(!MEDCouplingGaussLocalization::AreAlmostEqual(_gs_coo,other._gs_coo,eps))
12281 - if(!MEDCouplingGaussLocalization::AreAlmostEqual(_w,other._w,eps))
12287 -void MEDFileFieldLoc::writeLL(med_idt fid) const
12289 - MEDlocalizationWr(fid,_name.c_str(),typmai3[(int)getGeoType()],_dim,&_ref_coo[0],MED_FULL_INTERLACE,_nb_gauss_pt,&_gs_coo[0],&_w[0],MED_NO_INTERPOLATION,MED_NO_MESH_SUPPORT);
12292 -std::string MEDFileFieldLoc::repr() const
12294 - std::ostringstream oss; oss.precision(15);
12295 - const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(getGeoType()));
12296 - oss << "Localization \"" << _name << "\" :\n" << " - Geometric Type : " << cm.getRepr();
12297 - oss << "\n - Dimension : " << _dim << "\n - Number of gauss points : ";
12298 - oss << _nb_gauss_pt << "\n - Number of nodes in cell : " << _nb_node_per_cell;
12299 - oss << "\n - Ref coords are : ";
12300 - int sz=_ref_coo.size();
12303 - int nbOfTuples=sz/_dim;
12304 - for(int i=0;i<nbOfTuples;i++)
12307 - for(int j=0;j<_dim;j++)
12308 - { oss << _ref_coo[i*_dim+j]; if(j!=_dim-1) oss << ", "; }
12313 - std::copy(_ref_coo.begin(),_ref_coo.end(),std::ostream_iterator<double>(oss," "));
12314 - oss << "\n - Gauss coords in reference element : ";
12315 - sz=_gs_coo.size();
12318 - int nbOfTuples=sz/_dim;
12319 - for(int i=0;i<nbOfTuples;i++)
12322 - for(int j=0;j<_dim;j++)
12323 - { oss << _gs_coo[i*_dim+j]; if(j!=_dim-1) oss << ", "; }
12328 - std::copy(_gs_coo.begin(),_gs_coo.end(),std::ostream_iterator<double>(oss," "));
12329 - oss << "\n - Weights of Gauss coords are : "; std::copy(_w.begin(),_w.end(),std::ostream_iterator<double>(oss," "));
12330 - return oss.str();
12333 -void MEDFileFieldPerMeshPerTypePerDisc::assignFieldNoProfile(int& start, int offset, int nbOfCells, const MEDCouplingFieldTemplate *field, const DataArray *arrr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
12335 - _type=field->getTypeOfField();
12341 - getOrCreateAndGetArray()->setContigPartOfSelectedValuesSlice(_start,arrr,offset,offset+nbOfCells,1);
12342 - _end=_start+nbOfCells;
12346 - case ON_GAUSS_NE:
12348 - MCAuto<DataArrayInt> arr=field->getDiscretization()->getOffsetArr(field->getMesh());
12349 - const int *arrPtr=arr->getConstPointer();
12350 - getOrCreateAndGetArray()->setContigPartOfSelectedValuesSlice(_start,arrr,arrPtr[offset],arrPtr[offset+nbOfCells],1);
12351 - _end=_start+(arrPtr[offset+nbOfCells]-arrPtr[offset]);
12355 - case ON_GAUSS_PT:
12357 - const MEDCouplingFieldDiscretization *disc(field->getDiscretization());
12358 - const MEDCouplingGaussLocalization& gsLoc(field->getGaussLocalization(_loc_id));
12359 - const MEDCouplingFieldDiscretizationGauss *disc2(dynamic_cast<const MEDCouplingFieldDiscretizationGauss *>(disc));
12361 - throw INTERP_KERNEL::Exception("assignFieldNoProfile : invalid call to this method ! Internal Error !");
12362 - const DataArrayInt *dai(disc2->getArrayOfDiscIds());
12363 - MCAuto<DataArrayInt> dai2(disc2->getOffsetArr(field->getMesh()));
12364 - const int *dai2Ptr(dai2->getConstPointer());
12365 - int nbi(gsLoc.getWeights().size());
12366 - MCAuto<DataArrayInt> da2(dai->selectByTupleIdSafeSlice(offset,offset+nbOfCells,1));
12367 - MCAuto<DataArrayInt> da3(da2->findIdsEqual(_loc_id));
12368 - const int *da3Ptr(da3->getConstPointer());
12369 - if(da3->getNumberOfTuples()!=nbOfCells)
12370 - {//profile : for gauss even in NoProfile !!!
12371 - std::ostringstream oss; oss << "Pfl_" << nasc.getName() << "_" << INTERP_KERNEL::CellModel::GetCellModel(getGeoType()).getRepr() << "_" << _loc_id;
12372 - _profile=oss.str();
12373 - da3->setName(_profile.c_str());
12374 - glob.appendProfile(da3);
12376 - MCAuto<DataArrayInt> da4(DataArrayInt::New());
12377 - _nval=da3->getNbOfElems();
12378 - da4->alloc(_nval*nbi,1);
12379 - int *da4Ptr(da4->getPointer());
12380 - for(int i=0;i<_nval;i++)
12382 - int ref=dai2Ptr[offset+da3Ptr[i]];
12383 - for(int j=0;j<nbi;j++)
12386 - std::ostringstream oss2; oss2 << "Loc_" << nasc.getName() << "_" << INTERP_KERNEL::CellModel::GetCellModel(getGeoType()).getRepr() << "_" << _loc_id;
12387 - _localization=oss2.str();
12388 - getOrCreateAndGetArray()->setContigPartOfSelectedValues(_start,arrr,da4);
12389 - _end=_start+_nval*nbi;
12390 - glob.appendLoc(_localization.c_str(),getGeoType(),gsLoc.getRefCoords(),gsLoc.getGaussCoords(),gsLoc.getWeights());
12394 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::assignFieldNoProfile : not implemented yet for such discretization type of field !");
12400 - * Leaf method of field with profile assignement. This method is the most general one. No optimization is done here.
12401 - * \param [in] pflName input containing name of profile if any. 0 if no profile (except for GAUSS_PT where a no profile can hide a profile when splitted by loc_id).
12402 - * \param [in] multiTypePfl is the end user profile specified in high level API
12403 - * \param [in] idsInPfl is the selection into the \a multiTypePfl whole profile that corresponds to the current geometric type.
12404 - * \param [in] locIds is the profile needed to be created for MED file format. It can be null if all cells of current geometric type are fetched in \a multiTypePfl.
12405 - * \b WARNING if not null the MED file profile can be subdivided again in case of Gauss points.
12406 - * \param [in] mesh is the mesh coming from the MEDFileMesh instance in correspondance with the MEDFileField. The mesh inside the \a field is simply ignored.
12408 -void MEDFileFieldPerMeshPerTypePerDisc::assignFieldProfile(bool isPflAlone, int& start, const DataArrayInt *multiTypePfl, const DataArrayInt *idsInPfl, DataArrayInt *locIds, int nbOfEltsInWholeMesh, const MEDCouplingFieldTemplate *field, const DataArray *arrr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
12410 - _profile.clear();
12411 - _type=field->getTypeOfField();
12412 - std::string pflName(multiTypePfl->getName());
12413 - std::ostringstream oss; oss << pflName;
12414 - if(_type!=ON_NODES)
12417 - { const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(getGeoType()); oss << "_" << cm.getRepr(); }
12420 - { oss << "_NODE"; }
12423 - if(pflName.empty())
12424 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::assignFieldProfile : existing profile with empty name !");
12425 - if(_type!=ON_GAUSS_PT)
12427 - locIds->setName(oss.str());
12428 - glob.appendProfile(locIds);
12429 - _profile=oss.str();
12437 - _nval=idsInPfl->getNumberOfTuples();
12438 - getOrCreateAndGetArray()->setContigPartOfSelectedValuesSlice(_start,arrr,0,arrr->getNumberOfTuples(),1);
12439 - _end=_start+_nval;
12444 - _nval=idsInPfl->getNumberOfTuples();
12445 - getOrCreateAndGetArray()->setContigPartOfSelectedValues(_start,arrr,idsInPfl);
12446 - _end=_start+_nval;
12449 - case ON_GAUSS_NE:
12451 - MCAuto<DataArrayInt> arr=field->getDiscretization()->getOffsetArr(mesh);
12452 - MCAuto<DataArrayInt> arr2=arr->deltaShiftIndex();
12453 - MCAuto<DataArrayInt> arr3=arr2->selectByTupleId(multiTypePfl->begin(),multiTypePfl->end());
12454 - arr3->computeOffsetsFull();
12455 - MCAuto<DataArrayInt> tmp=idsInPfl->buildExplicitArrByRanges(arr3);
12456 - int trueNval=tmp->getNumberOfTuples();
12457 - _nval=idsInPfl->getNumberOfTuples();
12458 - getOrCreateAndGetArray()->setContigPartOfSelectedValues(_start,arrr,tmp);
12459 - _end=_start+trueNval;
12462 - case ON_GAUSS_PT:
12464 - const MEDCouplingFieldDiscretizationGauss *disc2=dynamic_cast<const MEDCouplingFieldDiscretizationGauss *>(field->getDiscretization());
12466 - throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : invalid call to this method ! Internal Error !");
12467 - const DataArrayInt *da1=disc2->getArrayOfDiscIds();
12468 - const MEDCouplingGaussLocalization& gsLoc=field->getGaussLocalization(_loc_id);
12469 - MCAuto<DataArrayInt> da2=da1->selectByTupleId(idsInPfl->begin(),idsInPfl->end());
12470 - MCAuto<DataArrayInt> da3=da2->findIdsEqual(_loc_id);
12471 - MCAuto<DataArrayInt> da4=idsInPfl->selectByTupleId(da3->begin(),da3->end());
12473 - MCAuto<MEDCouplingMesh> mesh2=mesh->buildPart(multiTypePfl->begin(),multiTypePfl->end());
12474 - MCAuto<DataArrayInt> arr=disc2->getOffsetArr(mesh2);
12476 - MCAuto<DataArrayInt> tmp=DataArrayInt::New();
12478 - for(const int *pt=da4->begin();pt!=da4->end();pt++)
12479 - trueNval+=arr->getIJ(*pt+1,0)-arr->getIJ(*pt,0);
12480 - tmp->alloc(trueNval,1);
12481 - int *tmpPtr=tmp->getPointer();
12482 - for(const int *pt=da4->begin();pt!=da4->end();pt++)
12483 - for(int j=arr->getIJ(*pt,0);j<arr->getIJ(*pt+1,0);j++)
12486 - _nval=da4->getNumberOfTuples();
12487 - getOrCreateAndGetArray()->setContigPartOfSelectedValues(_start,arrr,tmp);
12488 - _end=_start+trueNval;
12489 - oss << "_loc_" << _loc_id;
12492 - MCAuto<DataArrayInt> da5=locIds->selectByTupleId(da3->begin(),da3->end());
12493 - da5->setName(oss.str());
12494 - glob.appendProfile(da5);
12495 - _profile=oss.str();
12499 - if(!da3->isIota(nbOfEltsInWholeMesh))
12501 - da3->setName(oss.str());
12502 - glob.appendProfile(da3);
12503 - _profile=oss.str();
12506 - std::ostringstream oss2; oss2 << "Loc_" << nasc.getName() << "_" << INTERP_KERNEL::CellModel::GetCellModel(getGeoType()).getRepr() << "_" << _loc_id;
12507 - _localization=oss2.str();
12508 - glob.appendLoc(_localization.c_str(),getGeoType(),gsLoc.getRefCoords(),gsLoc.getGaussCoords(),gsLoc.getWeights());
12512 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::assignFieldProfile : not implemented yet for such discretization type of field !");
12517 -void MEDFileFieldPerMeshPerTypePerDisc::assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arrr, MEDFileFieldGlobsReal& glob)
12520 - _nval=arrr->getNumberOfTuples();
12521 - getOrCreateAndGetArray()->setContigPartOfSelectedValuesSlice(_start,arrr,0,_nval,1);
12522 - _end=_start+_nval;
12526 -MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypePerDisc::NewOnRead(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int profileIt, const PartDefinition *pd)
12528 - return new MEDFileFieldPerMeshPerTypePerDisc(fath,type,profileIt,pd);
12531 -MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypePerDisc::New(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int locId)
12533 - return new MEDFileFieldPerMeshPerTypePerDisc(fath,type,locId,std::string());
12536 -MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypePerDisc::New(const MEDFileFieldPerMeshPerTypePerDisc& other)
12538 - return new MEDFileFieldPerMeshPerTypePerDisc(other);
12541 -std::size_t MEDFileFieldPerMeshPerTypePerDisc::getHeapMemorySizeWithoutChildren() const
12543 - return _profile.capacity()+_localization.capacity()+sizeof(MEDFileFieldPerMeshPerTypePerDisc);
12546 -std::vector<const BigMemoryObject *> MEDFileFieldPerMeshPerTypePerDisc::getDirectChildrenWithNull() const
12548 - std::vector<const BigMemoryObject *> ret(1);
12549 - ret[0]=(const PartDefinition*)_pd;
12553 -MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypePerDisc::deepCopy(MEDFileFieldPerMeshPerTypeCommon *father) const
12555 - MCAuto<MEDFileFieldPerMeshPerTypePerDisc> ret(new MEDFileFieldPerMeshPerTypePerDisc(*this));
12556 - ret->_father=father;
12557 - return ret.retn();
12560 -MEDFileFieldPerMeshPerTypePerDisc::MEDFileFieldPerMeshPerTypePerDisc(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField atype, int profileIt, const PartDefinition *pd)
12561 -try:_type(atype),_father(fath),_profile_it(profileIt),_pd(const_cast<PartDefinition *>(pd))
12566 -catch(INTERP_KERNEL::Exception& e)
12571 -MEDFileFieldPerMeshPerTypePerDisc::MEDFileFieldPerMeshPerTypePerDisc(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int locId, const std::string& dummy):_type(type),_father(fath),_loc_id(locId)
12575 -MEDFileFieldPerMeshPerTypePerDisc::MEDFileFieldPerMeshPerTypePerDisc(const MEDFileFieldPerMeshPerTypePerDisc& other):RefCountObject(other),_type(other._type),_father(0),_start(other._start),_end(other._end),_nval(other._nval),_profile(other._profile),_localization(other._localization),_loc_id(other._loc_id),_profile_it(other._profile_it),_pd(other._pd),_tmp_work1(other._tmp_work1)
12579 -MEDFileFieldPerMeshPerTypePerDisc::MEDFileFieldPerMeshPerTypePerDisc():_type(ON_CELLS),_father(0),_start(-std::numeric_limits<int>::max()),_end(-std::numeric_limits<int>::max()),
12580 - _nval(-std::numeric_limits<int>::max()),_loc_id(-std::numeric_limits<int>::max())
12584 -void MEDFileFieldPerMeshPerTypePerDisc::goReadZeValuesInFile(med_idt fid, const std::string& fieldName, int nbOfCompo, int iteration, int order, med_entity_type menti, med_geometry_type mgeoti, unsigned char *startFeedingPtr)
12586 - const PartDefinition *pd(_pd);
12589 - INTERP_KERNEL::AutoPtr<char> locname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
12591 - med_int nbValsInFile(MEDfieldnValueWithProfileByName(fid,fieldName.c_str(),iteration,order,menti,mgeoti,_profile.c_str(),MED_COMPACT_PFLMODE,&tmp1,locname,&nbi));
12592 - if(_end-_start!=nbValsInFile*nbi)
12594 - std::ostringstream oss; oss << "MEDFileFieldPerMeshPerTypePerDisc::goReadZeValuesInFile : The number of tuples to read is " << nbValsInFile << "*" << nbi << " (nb integration points) ! But in data structure it values " << _end-_start << " is expected !";
12595 - throw INTERP_KERNEL::Exception(oss.str());
12597 - MEDFILESAFECALLERRD0(MEDfieldValueWithProfileRd,(fid,fieldName.c_str(),iteration,order,menti,mgeoti,MED_COMPACT_PFLMODE,_profile.c_str(),MED_FULL_INTERLACE,MED_ALL_CONSTITUENT,startFeedingPtr));
12601 - if(!_profile.empty())
12602 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::goReadZeValuesInFile : not implemented !");
12603 - INTERP_KERNEL::AutoPtr<char> pflname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE)),locname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
12604 - int profilesize,nbi;
12605 - int overallNval(MEDfieldnValueWithProfile(fid,fieldName.c_str(),iteration,order,menti,mgeoti,_profile_it+1,MED_COMPACT_PFLMODE,pflname,&profilesize,locname,&nbi));
12606 - const SlicePartDefinition *spd(dynamic_cast<const SlicePartDefinition *>(pd));
12609 - int start,stop,step;
12610 - spd->getSlice(start,stop,step);
12611 - int nbOfEltsToLoad(DataArray::GetNumberOfItemGivenBES(start,stop,step,"MEDFileFieldPerMeshPerTypePerDisc::goReadZeValuesInFile"));
12612 - med_filter filter=MED_FILTER_INIT;
12613 - MEDfilterBlockOfEntityCr(fid,/*nentity*/overallNval,/*nvaluesperentity*/nbi,/*nconstituentpervalue*/nbOfCompo,
12614 - MED_ALL_CONSTITUENT,MED_FULL_INTERLACE,MED_COMPACT_STMODE,MED_NO_PROFILE,
12615 - /*start*/start+1,/*stride*/step,/*count*/1,/*blocksize*/nbOfEltsToLoad,
12616 - /*lastblocksize=useless because count=1*/0,&filter);
12617 - MEDFILESAFECALLERRD0(MEDfieldValueAdvancedRd,(fid,fieldName.c_str(),iteration,order,menti,mgeoti,&filter,startFeedingPtr));
12618 - MEDfilterClose(&filter);
12621 - const DataArrayPartDefinition *dpd(dynamic_cast<const DataArrayPartDefinition *>(pd));
12624 - dpd->checkConsistencyLight();
12625 - MCAuto<DataArrayInt> myIds(dpd->toDAI());
12626 - int a(myIds->getMinValueInArray()),b(myIds->getMaxValueInArray());
12627 - myIds=myIds->deepCopy();// WARNING deep copy here because _pd is modified by applyLin !!!
12628 - myIds->applyLin(1,-a);
12629 - int nbOfEltsToLoad(b-a+1);
12630 - med_filter filter=MED_FILTER_INIT;
12631 - {//TODO : manage int32 !
12632 - MCAuto<DataArrayDouble> tmp(DataArrayDouble::New());
12633 - tmp->alloc(nbOfEltsToLoad,nbOfCompo);
12634 - MEDfilterBlockOfEntityCr(fid,/*nentity*/overallNval,/*nvaluesperentity*/nbi,/*nconstituentpervalue*/nbOfCompo,
12635 - MED_ALL_CONSTITUENT,MED_FULL_INTERLACE,MED_COMPACT_STMODE,MED_NO_PROFILE,
12636 - /*start*/a+1,/*stride*/1,/*count*/1,/*blocksize*/nbOfEltsToLoad,
12637 - /*lastblocksize=useless because count=1*/0,&filter);
12638 - MEDFILESAFECALLERRD0(MEDfieldValueAdvancedRd,(fid,fieldName.c_str(),iteration,order,menti,mgeoti,&filter,reinterpret_cast<unsigned char *>(tmp->getPointer())));
12639 - MCAuto<DataArrayDouble> feeder(DataArrayDouble::New());
12640 - feeder->useExternalArrayWithRWAccess(reinterpret_cast<double *>(startFeedingPtr),_nval,nbOfCompo);
12641 - feeder->setContigPartOfSelectedValues(0,tmp,myIds);
12643 - MEDfilterClose(&filter);
12646 - throw INTERP_KERNEL::Exception("Not implemented yet for not slices!");
12650 -const MEDFileFieldPerMeshPerTypeCommon *MEDFileFieldPerMeshPerTypePerDisc::getFather() const
12655 -void MEDFileFieldPerMeshPerTypePerDisc::loadOnlyStructureOfDataRecursively(med_idt fid, int& start, const MEDFileFieldNameScope& nasc)
12657 - INTERP_KERNEL::AutoPtr<char> locname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
12658 - INTERP_KERNEL::AutoPtr<char> pflname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
12659 - std::string fieldName(nasc.getName()),meshName(getMeshName());
12660 - int iteration(getIteration()),order(getOrder()),profilesize,nbi;
12661 - TypeOfField type(getType());
12662 - med_geometry_type mgeoti;
12663 - med_entity_type menti;
12664 - _father->entriesForMEDfile(type,mgeoti,menti);
12665 - int zeNVal(MEDfieldnValueWithProfile(fid,fieldName.c_str(),iteration,order,menti,mgeoti,_profile_it+1,MED_COMPACT_PFLMODE,pflname,&profilesize,locname,&nbi));
12666 - _profile=MEDLoaderBase::buildStringFromFortran(pflname,MED_NAME_SIZE);
12667 - _localization=MEDLoaderBase::buildStringFromFortran(locname,MED_NAME_SIZE);
12668 - const PartDefinition *pd(_pd);
12675 - if(!_profile.empty())
12676 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::loadOnlyStructureOfDataRecursively : profiles are not managed yet with part of def !");
12677 - _nval=pd->getNumberOfElems();
12680 - _end=start+_nval*nbi;
12682 - if(type==ON_CELLS && !_localization.empty())
12684 - if(_localization!="MED_GAUSS_ELNO")//For compatibily with MED2.3
12685 - setType(ON_GAUSS_PT);
12688 - setType(ON_GAUSS_NE);
12689 - _localization.clear();
12694 -void MEDFileFieldPerMeshPerTypePerDisc::loadBigArray(med_idt fid, const MEDFileFieldNameScope& nasc)
12696 - std::string fieldName(nasc.getName()),meshName(getMeshName());
12697 - int iteration(getIteration()),order(getOrder());
12698 - TypeOfField type(getType());
12699 - med_geometry_type mgeoti;
12700 - med_entity_type menti;
12701 - _father->entriesForMEDfile(type,mgeoti,menti);
12703 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::loadBigArray : internal error in range !");
12706 - DataArray *arr(getOrCreateAndGetArray());//arr is not null due to the spec of getOrCreateAndGetArray
12707 - if(_start<0 || _start>=arr->getNumberOfTuples())
12709 - std::ostringstream oss; oss << "MEDFileFieldPerMeshPerTypePerDisc::loadBigArray : Invalid start ("<< _start << ") regarding admissible range of allocated array [0," << arr->getNumberOfTuples() << ") !";
12710 - throw INTERP_KERNEL::Exception(oss.str());
12712 - if(_end<0 || _end>arr->getNumberOfTuples())
12714 - std::ostringstream oss; oss << "MEDFileFieldPerMeshPerTypePerDisc::loadBigArray : Invalid start ("<< _start << ") regarding admissible range of allocated array [0," << arr->getNumberOfTuples() << "] !";
12715 - throw INTERP_KERNEL::Exception(oss.str());
12717 - int nbOfCompo(arr->getNumberOfComponents());
12718 - DataArrayDouble *arrD(dynamic_cast<DataArrayDouble *>(arr));
12721 - double *startFeeding(arrD->getPointer()+_start*nbOfCompo);
12722 - goReadZeValuesInFile(fid,fieldName,nbOfCompo,iteration,order,menti,mgeoti,reinterpret_cast<unsigned char*>(startFeeding));
12725 - DataArrayInt *arrI(dynamic_cast<DataArrayInt *>(arr));
12728 - int *startFeeding(arrI->getPointer()+_start*nbOfCompo);
12729 - goReadZeValuesInFile(fid,fieldName,nbOfCompo,iteration,order,menti,mgeoti,reinterpret_cast<unsigned char*>(startFeeding));
12732 - throw INTERP_KERNEL::Exception("Error on array reading ! Unrecognized type of field ! Should be in FLOAT64 or INT32 !");
12736 - * Set a \c this->_start **and** \c this->_end keeping the same delta between the two.
12738 -void MEDFileFieldPerMeshPerTypePerDisc::setNewStart(int newValueOfStart)
12740 - int delta=_end-_start;
12741 - _start=newValueOfStart;
12742 - _end=_start+delta;
12745 -int MEDFileFieldPerMeshPerTypePerDisc::getIteration() const
12747 - return _father->getIteration();
12750 -int MEDFileFieldPerMeshPerTypePerDisc::getOrder() const
12752 - return _father->getOrder();
12755 -double MEDFileFieldPerMeshPerTypePerDisc::getTime() const
12757 - return _father->getTime();
12760 -std::string MEDFileFieldPerMeshPerTypePerDisc::getMeshName() const
12762 - return _father->getMeshName();
12765 -void MEDFileFieldPerMeshPerTypePerDisc::simpleRepr(int bkOffset, std::ostream& oss, int id) const
12767 - const char startLine[]=" ## ";
12768 - std::string startLine2(bkOffset,' ');
12769 - startLine2+=startLine;
12770 - INTERP_KERNEL::AutoCppPtr<MEDCouplingFieldDiscretization> tmp(MEDCouplingFieldDiscretization::New(_type));
12771 - oss << startLine2 << "Localization #" << id << "." << std::endl;
12772 - oss << startLine2 << " Type=" << tmp->getRepr() << "." << std::endl;
12773 - oss << startLine2 << " This type discretization lies on profile : \"" << _profile << "\" and on the following localization : \"" << _localization << "\"." << std::endl;
12774 - oss << startLine2 << " This type discretization has " << _end-_start << " tuples (start=" << _start << ", end=" << _end << ")." << std::endl;
12775 - oss << startLine2 << " This type discretization has " << (_end-_start)/_nval << " integration points." << std::endl;
12778 -TypeOfField MEDFileFieldPerMeshPerTypePerDisc::getType() const
12783 -INTERP_KERNEL::NormalizedCellType MEDFileFieldPerMeshPerTypePerDisc::getGeoType() const
12785 - return _father->getGeoType();
12788 -void MEDFileFieldPerMeshPerTypePerDisc::fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const
12790 - types.insert(_type);
12793 -void MEDFileFieldPerMeshPerTypePerDisc::setType(TypeOfField newType)
12798 -int MEDFileFieldPerMeshPerTypePerDisc::getNumberOfComponents() const
12800 - return _father->getNumberOfComponents();
12803 -int MEDFileFieldPerMeshPerTypePerDisc::getNumberOfTuples() const
12805 - return _end-_start;
12808 -DataArray *MEDFileFieldPerMeshPerTypePerDisc::getOrCreateAndGetArray()
12810 - return _father->getOrCreateAndGetArray();
12813 -const DataArray *MEDFileFieldPerMeshPerTypePerDisc::getOrCreateAndGetArray() const
12815 - const MEDFileFieldPerMeshPerTypeCommon *fath=_father;
12816 - return fath->getOrCreateAndGetArray();
12819 -const std::vector<std::string>& MEDFileFieldPerMeshPerTypePerDisc::getInfo() const
12821 - return _father->getInfo();
12824 -std::string MEDFileFieldPerMeshPerTypePerDisc::getProfile() const
12829 -void MEDFileFieldPerMeshPerTypePerDisc::setProfile(const std::string& newPflName)
12831 - _profile=newPflName;
12834 -std::string MEDFileFieldPerMeshPerTypePerDisc::getLocalization() const
12836 - return _localization;
12839 -void MEDFileFieldPerMeshPerTypePerDisc::setLocalization(const std::string& newLocName)
12841 - _localization=newLocName;
12844 -void MEDFileFieldPerMeshPerTypePerDisc::changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
12846 - for(std::vector< std::pair<std::vector<std::string>, std::string > >::const_iterator it2=mapOfModif.begin();it2!=mapOfModif.end();it2++)
12848 - if(std::find((*it2).first.begin(),(*it2).first.end(),_profile)!=(*it2).first.end())
12850 - _profile=(*it2).second;
12856 -void MEDFileFieldPerMeshPerTypePerDisc::changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
12858 - for(std::vector< std::pair<std::vector<std::string>, std::string > >::const_iterator it2=mapOfModif.begin();it2!=mapOfModif.end();it2++)
12860 - if(std::find((*it2).first.begin(),(*it2).first.end(),_localization)!=(*it2).first.end())
12862 - _localization=(*it2).second;
12868 -void MEDFileFieldPerMeshPerTypePerDisc::getFieldAtLevel(TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const
12872 - dads.push_back(std::pair<int,int>(_start,_end));
12873 - geoTypes.push_back(getGeoType());
12874 - if(_profile.empty())
12875 - pfls.push_back(0);
12878 - pfls.push_back(glob->getProfile(_profile.c_str()));
12880 - if(_localization.empty())
12881 - locs.push_back(-1);
12884 - locs.push_back(glob->getLocalizationId(_localization.c_str()));
12888 -void MEDFileFieldPerMeshPerTypePerDisc::fillValues(int discId, int& startEntryId, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
12890 - entries[startEntryId]=std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int> ,std::pair<int,int> >(std::pair<INTERP_KERNEL::NormalizedCellType,int>(getGeoType(),discId),std::pair<int,int>(_start,_end));
12894 -void MEDFileFieldPerMeshPerTypePerDisc::writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const
12896 - TypeOfField type=getType();
12897 - INTERP_KERNEL::NormalizedCellType geoType(getGeoType());
12898 - med_geometry_type mgeoti;
12899 - med_entity_type menti;
12900 - _father->entriesForMEDfile(getType(),mgeoti,menti);
12901 - const DataArray *arr(getOrCreateAndGetArray());
12903 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::writeLL : no array set !");
12904 - if(!arr->isAllocated())
12905 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::writeLL : the array to be written is not allocated !");
12906 - const DataArrayDouble *arrD=dynamic_cast<const DataArrayDouble *>(arr);
12907 - const DataArrayInt *arrI=dynamic_cast<const DataArrayInt *>(arr);
12908 - const unsigned char *locToWrite=0;
12910 - locToWrite=reinterpret_cast<const unsigned char *>(arrD->getConstPointer()+_start*arr->getNumberOfComponents());
12912 - locToWrite=reinterpret_cast<const unsigned char *>(arrI->getConstPointer()+_start*arr->getNumberOfComponents());
12914 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::writeLL : not recognized type of values ! Supported are FLOAT64 and INT32 !");
12915 - MEDFILESAFECALLERWR0(MEDfieldValueWithProfileWr,(fid,nasc.getName().c_str(),getIteration(),getOrder(),getTime(),menti,mgeoti,
12916 - MED_COMPACT_PFLMODE,_profile.c_str(),_localization.c_str(),MED_FULL_INTERLACE,MED_ALL_CONSTITUENT,_nval,
12920 -void MEDFileFieldPerMeshPerTypePerDisc::getCoarseData(TypeOfField& type, std::pair<int,int>& dad, std::string& pfl, std::string& loc) const
12924 - loc=_localization;
12925 - dad.first=_start; dad.second=_end;
12929 - * \param [in] codeOfMesh is of format returned by MEDCouplingUMesh::getDistributionOfTypes. And for each *i* oldCode[3*i+2] gives the position (MEDFileUMesh::PutInThirdComponentOfCodeOffset).
12930 - * This code corresponds to the distribution of types in the corresponding mesh.
12931 - * \param [out] ptToFill memory zone where the output will be stored.
12932 - * \return the size of data pushed into output param \a ptToFill
12934 -int MEDFileFieldPerMeshPerTypePerDisc::fillEltIdsFromCode(int offset, const std::vector<int>& codeOfMesh, const MEDFileFieldGlobsReal& glob, int *ptToFill) const
12937 - std::ostringstream oss;
12938 - std::size_t nbOfType=codeOfMesh.size()/3;
12940 - for(std::size_t i=0;i<nbOfType && found==-1;i++)
12941 - if(getGeoType()==(INTERP_KERNEL::NormalizedCellType)codeOfMesh[3*i])
12945 - const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(getGeoType());
12946 - oss << "MEDFileFieldPerMeshPerTypePerDisc::fillEltIdsFromCode : not found geometric type " << cm.getRepr() << " in the referenced mesh of field !";
12947 - throw INTERP_KERNEL::Exception(oss.str());
12949 - int *work=ptToFill;
12950 - if(_profile.empty())
12952 - if(_nval!=codeOfMesh[3*found+1])
12954 - const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(getGeoType());
12955 - oss << "MEDFileFieldPerMeshPerTypePerDisc::fillEltIdsFromCode : for geometric type " << cm.getRepr() << " number of elt ids in mesh is equal to " << _nval;
12956 - oss << " whereas mesh has " << codeOfMesh[3*found+1] << " for this geometric type !";
12957 - throw INTERP_KERNEL::Exception(oss.str());
12959 - for(int ii=codeOfMesh[3*found+2];ii<codeOfMesh[3*found+2]+_nval;ii++)
12964 - const DataArrayInt *pfl=glob.getProfile(_profile.c_str());
12965 - if(pfl->getNumberOfTuples()!=_nval)
12967 - const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(getGeoType());
12968 - oss << "MEDFileFieldPerMeshPerTypePerDisc::fillEltIdsFromCode : for geometric type " << cm.getRepr() << ", field is defined on profile \"" << _profile << "\" and size of profile is ";
12970 - oss << pfl->getNumberOfTuples() << " whereas the number of ids is set to " << _nval << " for this geometric type !";
12971 - throw INTERP_KERNEL::Exception(oss.str());
12973 - int offset2=codeOfMesh[3*found+2];
12974 - for(const int *pflId=pfl->begin();pflId!=pfl->end();pflId++)
12976 - if(*pflId<codeOfMesh[3*found+1])
12977 - *work++=offset2+*pflId;
12983 -int MEDFileFieldPerMeshPerTypePerDisc::fillTupleIds(int *ptToFill) const
12985 - for(int i=_start;i<_end;i++)
12987 - return _end-_start;
12990 -int MEDFileFieldPerMeshPerTypePerDisc::ConvertType(TypeOfField type, int locId)
12996 - case ON_GAUSS_NE:
12998 - case ON_GAUSS_PT:
13001 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::ConvertType : not managed type of field !");
13005 -std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> > MEDFileFieldPerMeshPerTypePerDisc::SplitPerDiscretization(const std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>& entries)
13008 - std::map<std::pair<std::string,TypeOfField>,int> m;
13009 - std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> > ret;
13010 - for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=entries.begin();it!=entries.end();it++)
13011 - if(m.find(std::pair<std::string,TypeOfField>((*it)->getLocalization(),(*it)->getType()))==m.end())
13012 - m[std::pair<std::string,TypeOfField>((*it)->getLocalization(),(*it)->getType())]=id++;
13014 - for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=entries.begin();it!=entries.end();it++)
13015 - ret[m[std::pair<std::string,TypeOfField>((*it)->getLocalization(),(*it)->getType())]].push_back(*it);
13020 - * - \c this->_loc_id mutable attribute is used for elt id in mesh offsets.
13022 - * \param [in] offset the offset id used to take into account that \a result is not compulsary empty in input
13023 - * \param [in] entriesOnSameDisc some entries **on same localization** if not the result can be invalid. The _start and _end on them are relative to \a arr parameter.
13024 - * \param [in] explicitIdsInMesh ids in mesh of the considered chunk.
13025 - * \param [in] newCode one of the input parameter to explicit the new geo type dispatch (in classical format same than those asked by MEDFileFields::renumberEntitiesLyingOnMesh)
13026 - * \param [in,out] glob if necessary by the method, new profiles can be added to it
13027 - * \param [in,out] arr after the call of this method \a arr is renumbered to be compliant with added entries to \a result.
13028 - * \param [out] result All new entries will be appended on it.
13029 - * \return false if the configuration of renumbering leads to an unnecessary resplit of input \a entriesOnSameDisc. If not true is returned (the most general case !)
13031 -bool MEDFileFieldPerMeshPerTypePerDisc::RenumberChunks(int offset, const std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>& entriesOnSameDisc,
13032 - const DataArrayInt *explicitIdsInMesh,
13033 - const std::vector<int>& newCode,
13034 - MEDFileFieldGlobsReal& glob, DataArrayDouble *arr,
13035 - std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >& result)
13037 - if(entriesOnSameDisc.empty())
13039 - TypeOfField type=entriesOnSameDisc[0]->getType();
13040 - int szEntities=0,szTuples=0;
13041 - for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=entriesOnSameDisc.begin();it!=entriesOnSameDisc.end();it++)
13042 - { szEntities+=(*it)->_nval; szTuples+=(*it)->_end-(*it)->_start; }
13043 - int nbi=szTuples/szEntities;
13044 - if(szTuples%szEntities!=0)
13045 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::RenumberChunks : internal error the splitting into same dicretization failed !");
13046 - MCAuto<DataArrayInt> renumTuples=DataArrayInt::New(); renumTuples->alloc(szTuples,1);
13047 - MCAuto<DataArrayInt> ranges=MEDCouplingUMesh::ComputeRangesFromTypeDistribution(newCode);
13048 - std::vector< MCAuto<DataArrayInt> > newGeoTypesPerChunk(entriesOnSameDisc.size());
13049 - std::vector< const DataArrayInt * > newGeoTypesPerChunk2(entriesOnSameDisc.size());
13050 - std::vector< MCAuto<DataArrayInt> > newGeoTypesPerChunk_bis(entriesOnSameDisc.size());
13051 - std::vector< const DataArrayInt * > newGeoTypesPerChunk3(entriesOnSameDisc.size());
13052 - MCAuto<DataArrayInt> newGeoTypesPerChunk4=DataArrayInt::New(); newGeoTypesPerChunk4->alloc(szEntities,nbi);
13054 - for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=entriesOnSameDisc.begin();it!=entriesOnSameDisc.end();it++,id++)
13056 - int startOfEltIdOfChunk=(*it)->_start;
13057 - MCAuto<DataArrayInt> newEltIds=explicitIdsInMesh->subArray(startOfEltIdOfChunk,startOfEltIdOfChunk+(*it)->_nval);
13058 - MCAuto<DataArrayInt> rangeIdsForChunk=newEltIds->findRangeIdForEachTuple(ranges);
13059 - MCAuto<DataArrayInt> idsInRrangeForChunk=newEltIds->findIdInRangeForEachTuple(ranges);
13061 - MCAuto<DataArrayInt> tmp=rangeIdsForChunk->duplicateEachTupleNTimes(nbi); rangeIdsForChunk->rearrange(nbi);
13062 - newGeoTypesPerChunk4->setPartOfValues1(tmp,(*it)->_tmp_work1-offset,(*it)->_tmp_work1+(*it)->_nval*nbi-offset,1,0,nbi,1);
13064 - newGeoTypesPerChunk[id]=rangeIdsForChunk; newGeoTypesPerChunk2[id]=rangeIdsForChunk;
13065 - newGeoTypesPerChunk_bis[id]=idsInRrangeForChunk; newGeoTypesPerChunk3[id]=idsInRrangeForChunk;
13067 - MCAuto<DataArrayInt> newGeoTypesEltIdsAllGather=DataArrayInt::Aggregate(newGeoTypesPerChunk2); newGeoTypesPerChunk.clear(); newGeoTypesPerChunk2.clear();
13068 - MCAuto<DataArrayInt> newGeoTypesEltIdsAllGather2=DataArrayInt::Aggregate(newGeoTypesPerChunk3); newGeoTypesPerChunk_bis.clear(); newGeoTypesPerChunk3.clear();
13069 - MCAuto<DataArrayInt> diffVals=newGeoTypesEltIdsAllGather->getDifferentValues();
13070 - MCAuto<DataArrayInt> renumEltIds=newGeoTypesEltIdsAllGather->buildPermArrPerLevel();
13072 - MCAuto<DataArrayInt> renumTupleIds=newGeoTypesPerChunk4->buildPermArrPerLevel();
13074 - MCAuto<DataArrayDouble> arrPart=arr->subArray(offset,offset+szTuples);
13075 - arrPart->renumberInPlace(renumTupleIds->begin());
13076 - arr->setPartOfValues1(arrPart,offset,offset+szTuples,1,0,arrPart->getNumberOfComponents(),1);
13078 - const int *idIt=diffVals->begin();
13079 - std::list<const MEDFileFieldPerMeshPerTypePerDisc *> li(entriesOnSameDisc.begin(),entriesOnSameDisc.end());
13081 - for(int i=0;i<diffVals->getNumberOfTuples();i++,idIt++)
13083 - MCAuto<DataArrayInt> ids=newGeoTypesEltIdsAllGather->findIdsEqual(*idIt);
13084 - MCAuto<DataArrayInt> subIds=newGeoTypesEltIdsAllGather2->selectByTupleId(ids->begin(),ids->end());
13085 - int nbEntityElts=subIds->getNumberOfTuples();
13087 - MCAuto<MEDFileFieldPerMeshPerTypePerDisc> eltToAdd=MEDFileFieldPerMeshPerTypePerDisc::
13088 - NewObjectOnSameDiscThanPool(type,(INTERP_KERNEL::NormalizedCellType)newCode[3*(*idIt)],subIds,!subIds->isIota(newCode[3*(*idIt)+1]),nbi,
13092 - result.push_back(eltToAdd);
13093 - offset2+=nbEntityElts*nbi;
13095 - ret=ret || li.empty();
13100 - * \param [in] typeF type of field of new chunk
13101 - * \param [in] geoType the geometric type of the chunk
13102 - * \param [in] idsOfMeshElt the entity ids of mesh (cells or nodes) of the new chunk.
13103 - * \param [in] isPfl specifies if a profile is requested regarding size of \a idsOfMeshElt and the number of such entities regarding underlying mesh.
13104 - * \param [in] nbi number of integration points
13105 - * \param [in] offset The offset in the **global array of data**.
13106 - * \param [in,out] entriesOnSameDisc the pool **on the same discretization** inside which it will be attempted to find an existing entry corresponding exactly
13107 - * to the new chunk to create.
13108 - * \param [in,out] glob the global shared info that will be requested for existing profiles or to append a new profile if needed.
13109 - * \param [out] notInExisting If false the return newly allocated entry is not coming from \a entriesOnSameDisc. If true the output comes from copy of \a entriesOnSameDisc
13110 - * and corresponding entry erased from \a entriesOnSameDisc.
13111 - * \return a newly allocated chunk
13113 -MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypePerDisc::NewObjectOnSameDiscThanPool(TypeOfField typeF, INTERP_KERNEL::NormalizedCellType geoType, DataArrayInt *idsOfMeshElt,
13114 - bool isPfl, int nbi, int offset,
13115 - std::list< const MEDFileFieldPerMeshPerTypePerDisc *>& entriesOnSameDisc,
13116 - MEDFileFieldGlobsReal& glob,
13117 - bool ¬InExisting)
13119 - int nbMeshEntities=idsOfMeshElt->getNumberOfTuples();
13120 - std::list< const MEDFileFieldPerMeshPerTypePerDisc *>::iterator it=entriesOnSameDisc.begin();
13121 - for(;it!=entriesOnSameDisc.end();it++)
13123 - if(((INTERP_KERNEL::NormalizedCellType)(*it)->_loc_id)==geoType && (*it)->_nval==nbMeshEntities)
13127 - if((*it)->_profile.empty())
13130 - if(!(*it)->_profile.empty())
13132 - const DataArrayInt *pfl=glob.getProfile((*it)->_profile.c_str());
13133 - if(pfl->isEqualWithoutConsideringStr(*idsOfMeshElt))
13139 - if(it==entriesOnSameDisc.end())
13141 - notInExisting=true;
13142 - MEDFileFieldPerMeshPerTypePerDisc *ret=new MEDFileFieldPerMeshPerTypePerDisc;
13143 - ret->_type=typeF;
13144 - ret->_loc_id=(int)geoType;
13145 - ret->_nval=nbMeshEntities;
13146 - ret->_start=offset;
13147 - ret->_end=ret->_start+ret->_nval*nbi;
13150 - idsOfMeshElt->setName(glob.createNewNameOfPfl().c_str());
13151 - glob.appendProfile(idsOfMeshElt);
13152 - ret->_profile=idsOfMeshElt->getName();
13154 - //tony treatment of localization
13159 - notInExisting=false;
13160 - MEDFileFieldPerMeshPerTypePerDisc *ret=MEDFileFieldPerMeshPerTypePerDisc::New(*(*it));
13161 - ret->_loc_id=(int)geoType;
13162 - ret->setNewStart(offset);
13163 - entriesOnSameDisc.erase(it);
13169 -////////////////////////////////////
13171 -MEDFileFieldPerMeshPerTypeCommon::~MEDFileFieldPerMeshPerTypeCommon()
13175 -void MEDFileFieldPerMeshPerTypeCommon::setFather(MEDFileFieldPerMesh *father)
13180 -void MEDFileFieldPerMeshPerTypeCommon::accept(MEDFileFieldVisitor& visitor) const
13182 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
13183 - if((*it).isNotNull())
13185 - visitor.newPerMeshPerTypePerDisc(*it);
13189 -void MEDFileFieldPerMeshPerTypeCommon::deepCopyElements()
13192 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++,i++)
13194 - if((const MEDFileFieldPerMeshPerTypePerDisc *)*it)
13195 - _field_pm_pt_pd[i]=(*it)->deepCopy(this);
13199 -std::size_t MEDFileFieldPerMeshPerTypeCommon::getHeapMemorySizeWithoutChildren() const
13201 - return _field_pm_pt_pd.capacity()*sizeof(MCAuto<MEDFileFieldPerMeshPerTypePerDisc>);
13204 -std::vector<const BigMemoryObject *> MEDFileFieldPerMeshPerTypeCommon::getDirectChildrenWithNull() const
13206 - std::vector<const BigMemoryObject *> ret;
13207 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
13208 - ret.push_back((const MEDFileFieldPerMeshPerTypePerDisc *)*it);
13212 -void MEDFileFieldPerMeshPerTypeCommon::assignFieldNoProfile(int& start, int offset, int nbOfCells, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
13214 - std::vector<int> pos=addNewEntryIfNecessary(field,offset,nbOfCells);
13215 - for(std::vector<int>::const_iterator it=pos.begin();it!=pos.end();it++)
13216 - _field_pm_pt_pd[*it]->assignFieldNoProfile(start,offset,nbOfCells,field,arr,glob,nasc);
13220 - * This method is the most general one. No optimization is done here.
13221 - * \param [in] multiTypePfl is the end user profile specified in high level API
13222 - * \param [in] idsInPfl is the selection into the \a multiTypePfl whole profile that corresponds to the current geometric type.
13223 - * \param [in] locIds is the profile needed to be created for MED file format. It can be null if all cells of current geometric type are fetched in \a multiTypePfl.
13224 - * \b WARNING if not null the MED file profile can be subdivided again in case of Gauss points.
13225 - * \param [in] nbOfEltsInWholeMesh nb of elts of type \a this->_geo_type in \b WHOLE mesh
13226 - * \param [in] mesh is the mesh coming from the MEDFileMesh instance in correspondance with the MEDFileField. The mesh inside the \a field is simply ignored.
13228 -void MEDFileFieldPerMeshPerTypeCommon::assignFieldProfile(bool isPflAlone, int& start, const DataArrayInt *multiTypePfl, const DataArrayInt *idsInPfl, DataArrayInt *locIds, int nbOfEltsInWholeMesh, const MEDCouplingFieldTemplate *field, const DataArray *arr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
13230 - std::vector<int> pos=addNewEntryIfNecessary(field,idsInPfl);
13231 - for(std::vector<int>::const_iterator it=pos.begin();it!=pos.end();it++)
13232 - _field_pm_pt_pd[*it]->assignFieldProfile(isPflAlone,start,multiTypePfl,idsInPfl,locIds,nbOfEltsInWholeMesh,field,arr,mesh,glob,nasc);
13235 -void MEDFileFieldPerMeshPerTypeCommon::assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob)
13237 - _field_pm_pt_pd.resize(1);
13238 - _field_pm_pt_pd[0]=MEDFileFieldPerMeshPerTypePerDisc::New(this,ON_NODES,-3);
13239 - _field_pm_pt_pd[0]->assignNodeFieldNoProfile(start,field,arr,glob);
13242 -void MEDFileFieldPerMeshPerTypeCommon::assignNodeFieldProfile(int& start, const DataArrayInt *pfl, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
13244 - MCAuto<DataArrayInt> pfl2=pfl->deepCopy();
13245 - if(!arr || !arr->isAllocated())
13246 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypeCommon::assignNodeFieldProfile : input array is null, or not allocated !");
13247 - _field_pm_pt_pd.resize(1);
13248 - _field_pm_pt_pd[0]=MEDFileFieldPerMeshPerTypePerDisc::New(this,ON_NODES,-3);
13249 - _field_pm_pt_pd[0]->assignFieldProfile(true,start,pfl,pfl2,pfl2,-1,field,arr,0,glob,nasc);//mesh is not requested so 0 is send.
13252 -std::vector<int> MEDFileFieldPerMeshPerTypeCommon::addNewEntryIfNecessary(const MEDCouplingFieldTemplate *field, int offset, int nbOfCells)
13254 - TypeOfField type=field->getTypeOfField();
13255 - if(type!=ON_GAUSS_PT)
13257 - int locIdToFind=MEDFileFieldPerMeshPerTypePerDisc::ConvertType(type,0);
13258 - int sz=_field_pm_pt_pd.size();
13259 - bool found=false;
13260 - for(int j=0;j<sz && !found;j++)
13262 - if(_field_pm_pt_pd[j]->getLocId()==locIdToFind)
13264 - _field_pm_pt_pd[j]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
13270 - _field_pm_pt_pd.resize(sz+1);
13271 - _field_pm_pt_pd[sz]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
13273 - std::vector<int> ret(1,(int)sz);
13278 - std::vector<int> ret2=addNewEntryIfNecessaryGauss(field,offset,nbOfCells);
13279 - int sz2=ret2.size();
13280 - std::vector<int> ret3(sz2);
13282 - for(int i=0;i<sz2;i++)
13284 - int sz=_field_pm_pt_pd.size();
13285 - int locIdToFind=ret2[i];
13286 - bool found=false;
13287 - for(int j=0;j<sz && !found;j++)
13289 - if(_field_pm_pt_pd[j]->getLocId()==locIdToFind)
13291 - _field_pm_pt_pd[j]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
13298 - _field_pm_pt_pd.resize(sz+1);
13299 - _field_pm_pt_pd[sz]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
13307 -std::vector<int> MEDFileFieldPerMeshPerTypeCommon::addNewEntryIfNecessaryGauss(const MEDCouplingFieldTemplate *field, int offset, int nbOfCells)
13309 - const MEDCouplingFieldDiscretization *disc=field->getDiscretization();
13310 - const MEDCouplingFieldDiscretizationGauss *disc2=dynamic_cast<const MEDCouplingFieldDiscretizationGauss *>(disc);
13312 - throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : invalid call to this method ! Internal Error !");
13313 - const DataArrayInt *da=disc2->getArrayOfDiscIds();
13315 - throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss (no profile) : no localization ids per cell array available ! The input Gauss node field is maybe invalid !");
13316 - MCAuto<DataArrayInt> da2=da->selectByTupleIdSafeSlice(offset,offset+nbOfCells,1);
13317 - MCAuto<DataArrayInt> retTmp=da2->getDifferentValues();
13318 - if(retTmp->presenceOfValue(-1))
13319 - throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : some cells have no dicretization description !");
13320 - std::vector<int> ret(retTmp->begin(),retTmp->end());
13324 -std::vector<int> MEDFileFieldPerMeshPerTypeCommon::addNewEntryIfNecessary(const MEDCouplingFieldTemplate *field, const DataArrayInt *subCells)
13326 - TypeOfField type=field->getTypeOfField();
13327 - if(type!=ON_GAUSS_PT)
13329 - int locIdToFind=MEDFileFieldPerMeshPerTypePerDisc::ConvertType(type,0);
13330 - int sz=_field_pm_pt_pd.size();
13331 - bool found=false;
13332 - for(int j=0;j<sz && !found;j++)
13334 - if(_field_pm_pt_pd[j]->getLocId()==locIdToFind)
13336 - _field_pm_pt_pd[j]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
13342 - _field_pm_pt_pd.resize(sz+1);
13343 - _field_pm_pt_pd[sz]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
13345 - std::vector<int> ret(1,0);
13350 - std::vector<int> ret2=addNewEntryIfNecessaryGauss(field,subCells);
13351 - int sz2=ret2.size();
13352 - std::vector<int> ret3(sz2);
13354 - for(int i=0;i<sz2;i++)
13356 - int sz=_field_pm_pt_pd.size();
13357 - int locIdToFind=ret2[i];
13358 - bool found=false;
13359 - for(int j=0;j<sz && !found;j++)
13361 - if(_field_pm_pt_pd[j]->getLocId()==locIdToFind)
13363 - _field_pm_pt_pd[j]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
13370 - _field_pm_pt_pd.resize(sz+1);
13371 - _field_pm_pt_pd[sz]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
13379 -std::vector<int> MEDFileFieldPerMeshPerTypeCommon::addNewEntryIfNecessaryGauss(const MEDCouplingFieldTemplate *field, const DataArrayInt *subCells)
13381 - const MEDCouplingFieldDiscretization *disc=field->getDiscretization();
13382 - const MEDCouplingFieldDiscretizationGauss *disc2=dynamic_cast<const MEDCouplingFieldDiscretizationGauss *>(disc);
13384 - throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : invalid call to this method ! Internal Error !");
13385 - const DataArrayInt *da=disc2->getArrayOfDiscIds();
13387 - throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : no localization ids per cell array available ! The input Gauss node field is maybe invalid !");
13388 - MCAuto<DataArrayInt> da2=da->selectByTupleIdSafe(subCells->getConstPointer(),subCells->getConstPointer()+subCells->getNumberOfTuples());
13389 - MCAuto<DataArrayInt> retTmp=da2->getDifferentValues();
13390 - if(retTmp->presenceOfValue(-1))
13391 - throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : some cells have no dicretization description !");
13392 - std::vector<int> ret(retTmp->begin(),retTmp->end());
13396 -const MEDFileFieldPerMesh *MEDFileFieldPerMeshPerTypeCommon::getFather() const
13401 -bool MEDFileFieldPerMeshPerTypeCommon::isUniqueLevel(int& dim) const
13403 - const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(getGeoType()));
13404 - int curDim((int)cm.getDimension());
13405 - if(dim!=std::numeric_limits<int>::max())
13415 -void MEDFileFieldPerMeshPerTypeCommon::fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const
13417 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
13419 - (*it)->fillTypesOfFieldAvailable(types);
13423 -void MEDFileFieldPerMeshPerTypeCommon::fillFieldSplitedByType(std::vector< std::pair<int,int> >& dads, std::vector<TypeOfField>& types, std::vector<std::string>& pfls, std::vector<std::string>& locs) const
13425 - int sz=_field_pm_pt_pd.size();
13426 - dads.resize(sz); types.resize(sz); pfls.resize(sz); locs.resize(sz);
13427 - for(int i=0;i<sz;i++)
13429 - _field_pm_pt_pd[i]->getCoarseData(types[i],dads[i],pfls[i],locs[i]);
13433 -int MEDFileFieldPerMeshPerTypeCommon::getIteration() const
13435 - return _father->getIteration();
13438 -int MEDFileFieldPerMeshPerTypeCommon::getOrder() const
13440 - return _father->getOrder();
13443 -double MEDFileFieldPerMeshPerTypeCommon::getTime() const
13445 - return _father->getTime();
13448 -std::string MEDFileFieldPerMeshPerTypeCommon::getMeshName() const
13450 - return _father->getMeshName();
13453 -void MEDFileFieldPerMeshPerTypeCommon::getSizes(int& globalSz, int& nbOfEntries) const
13455 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
13457 - globalSz+=(*it)->getNumberOfTuples();
13459 - nbOfEntries+=(int)_field_pm_pt_pd.size();
13462 -int MEDFileFieldPerMeshPerTypeCommon::getNumberOfComponents() const
13464 - return _father->getNumberOfComponents();
13467 -bool MEDFileFieldPerMeshPerTypeCommon::presenceOfMultiDiscPerGeoType() const
13469 - std::size_t nb(0);
13470 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
13472 - const MEDFileFieldPerMeshPerTypePerDisc *fmtd(*it);
13479 -void MEDFileFieldPerMeshPerTypeCommon::pushDiscretization(MEDFileFieldPerMeshPerTypePerDisc *disc)
13481 - MCAuto<MEDFileFieldPerMeshPerTypePerDisc> elt;
13482 - elt.takeRef(disc);
13483 - _field_pm_pt_pd.push_back(elt);
13486 -DataArray *MEDFileFieldPerMeshPerTypeCommon::getOrCreateAndGetArray()
13488 - return _father->getOrCreateAndGetArray();
13491 -const DataArray *MEDFileFieldPerMeshPerTypeCommon::getOrCreateAndGetArray() const
13493 - const MEDFileFieldPerMesh *fath=_father;
13494 - return fath->getOrCreateAndGetArray();
13497 -const std::vector<std::string>& MEDFileFieldPerMeshPerTypeCommon::getInfo() const
13499 - return _father->getInfo();
13502 -std::vector<std::string> MEDFileFieldPerMeshPerTypeCommon::getPflsReallyUsed() const
13504 - std::vector<std::string> ret;
13505 - std::set<std::string> ret2;
13506 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
13508 - std::string tmp=(*it1)->getProfile();
13510 - if(ret2.find(tmp)==ret2.end())
13512 - ret.push_back(tmp);
13513 - ret2.insert(tmp);
13519 -std::vector<std::string> MEDFileFieldPerMeshPerTypeCommon::getLocsReallyUsed() const
13521 - std::vector<std::string> ret;
13522 - std::set<std::string> ret2;
13523 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
13525 - std::string tmp=(*it1)->getLocalization();
13526 - if(!tmp.empty() && tmp!=MED_GAUSS_ELNO)
13527 - if(ret2.find(tmp)==ret2.end())
13529 - ret.push_back(tmp);
13530 - ret2.insert(tmp);
13536 -std::vector<std::string> MEDFileFieldPerMeshPerTypeCommon::getPflsReallyUsedMulti() const
13538 - std::vector<std::string> ret;
13539 - std::set<std::string> ret2;
13540 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
13542 - std::string tmp=(*it1)->getProfile();
13544 - ret.push_back(tmp);
13549 -std::vector<std::string> MEDFileFieldPerMeshPerTypeCommon::getLocsReallyUsedMulti() const
13551 - std::vector<std::string> ret;
13552 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
13554 - std::string tmp=(*it1)->getLocalization();
13555 - if(!tmp.empty() && tmp!=MED_GAUSS_ELNO)
13556 - ret.push_back(tmp);
13561 -void MEDFileFieldPerMeshPerTypeCommon::changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
13563 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
13564 - (*it1)->changePflsRefsNamesGen(mapOfModif);
13567 -void MEDFileFieldPerMeshPerTypeCommon::changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
13569 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
13570 - (*it1)->changeLocsRefsNamesGen(mapOfModif);
13573 -MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId(int locId)
13575 - if(_field_pm_pt_pd.empty())
13577 - std::ostringstream oss; oss << "MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId : no localizations for geotype \"" << getGeoTypeRepr() << "\" !";
13578 - throw INTERP_KERNEL::Exception(oss.str());
13580 - if(locId>=0 && locId<(int)_field_pm_pt_pd.size())
13581 - return _field_pm_pt_pd[locId];
13582 - std::ostringstream oss2; oss2 << "MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId : no such locId available (" << locId;
13583 - oss2 << ") for geometric type \"" << getGeoTypeRepr() << "\" It should be in [0," << _field_pm_pt_pd.size() << ") !";
13584 - throw INTERP_KERNEL::Exception(oss2.str().c_str());
13585 - return static_cast<MEDFileFieldPerMeshPerTypePerDisc*>(0);
13588 -const MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId(int locId) const
13590 - if(_field_pm_pt_pd.empty())
13592 - std::ostringstream oss; oss << "MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId : no localizations for geotype \"" << getGeoTypeRepr() << "\" !";
13593 - throw INTERP_KERNEL::Exception(oss.str());
13595 - if(locId>=0 && locId<(int)_field_pm_pt_pd.size())
13596 - return _field_pm_pt_pd[locId];
13597 - std::ostringstream oss2; oss2 << "MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId : no such locId available (" << locId;
13598 - oss2 << ") for geometric type \"" << getGeoTypeRepr() << "\" It should be in [0," << _field_pm_pt_pd.size() << ") !";
13599 - throw INTERP_KERNEL::Exception(oss2.str().c_str());
13600 - return static_cast<const MEDFileFieldPerMeshPerTypePerDisc*>(0);
13603 -void MEDFileFieldPerMeshPerTypeCommon::fillValues(int& startEntryId, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
13606 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++,i++)
13608 - (*it)->fillValues(i,startEntryId,entries);
13612 -void MEDFileFieldPerMeshPerTypeCommon::setLeaves(const std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc > >& leaves)
13614 - _field_pm_pt_pd=leaves;
13615 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
13616 - (*it)->setFather(this);
13620 - * \param [in,out] globalNum a global numbering counter for the renumbering.
13621 - * \param [out] its - list of pair (start,stop) kept
13622 - * \return bool - false if the type of field \a tof is not contained in \a this.
13624 -bool MEDFileFieldPerMeshPerTypeCommon::keepOnlySpatialDiscretization(TypeOfField tof, int &globalNum, std::vector< std::pair<int,int> >& its)
13627 - std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> > newPmPtPd;
13628 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
13629 - if((*it)->getType()==tof)
13631 - newPmPtPd.push_back(*it);
13632 - std::pair<int,int> bgEnd; bgEnd.first=(*it)->getStart(); bgEnd.second=(*it)->getEnd();
13633 - (*it)->setNewStart(globalNum);
13634 - globalNum=(*it)->getEnd();
13635 - its.push_back(bgEnd);
13639 - _field_pm_pt_pd=newPmPtPd;
13644 - * \param [in,out] globalNum a global numbering counter for the renumbering.
13645 - * \param [out] its - list of pair (start,stop) kept
13646 - * \return bool - false if the type of field \a tof is not contained in \a this.
13648 -bool MEDFileFieldPerMeshPerTypeCommon::keepOnlyGaussDiscretization(std::size_t idOfDisc, int &globalNum, std::vector< std::pair<int,int> >& its)
13650 - if(_field_pm_pt_pd.size()<=idOfDisc)
13652 - MCAuto<MEDFileFieldPerMeshPerTypePerDisc> elt(_field_pm_pt_pd[idOfDisc]);
13653 - std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> > newPmPtPd(1,elt);
13654 - std::pair<int,int> bgEnd; bgEnd.first=_field_pm_pt_pd[idOfDisc]->getStart(); bgEnd.second=_field_pm_pt_pd[idOfDisc]->getEnd();
13655 - elt->setNewStart(globalNum);
13656 - globalNum=elt->getEnd();
13657 - its.push_back(bgEnd);
13658 - _field_pm_pt_pd=newPmPtPd;
13662 -void MEDFileFieldPerMeshPerTypeCommon::loadOnlyStructureOfDataRecursively(med_idt fid, int &start, const MEDFileFieldNameScope& nasc)
13664 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
13665 - (*it)->loadOnlyStructureOfDataRecursively(fid,start,nasc);
13668 -void MEDFileFieldPerMeshPerTypeCommon::loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc)
13670 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
13671 - (*it)->loadBigArray(fid,nasc);
13674 -void MEDFileFieldPerMeshPerTypeCommon::writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const
13676 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
13678 - (*it)->copyOptionsFrom(*this);
13679 - (*it)->writeLL(fid,nasc);
13683 -med_entity_type MEDFileFieldPerMeshPerTypeCommon::ConvertIntoMEDFileType(TypeOfField ikType, INTERP_KERNEL::NormalizedCellType ikGeoType, med_geometry_type& medfGeoType)
13688 - medfGeoType=typmai3[(int)ikGeoType];
13691 - medfGeoType=MED_NONE;
13693 - case ON_GAUSS_NE:
13694 - medfGeoType=typmai3[(int)ikGeoType];
13695 - return MED_NODE_ELEMENT;
13696 - case ON_GAUSS_PT:
13697 - medfGeoType=typmai3[(int)ikGeoType];
13700 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypeCommon::ConvertIntoMEDFileType : unexpected entity type ! internal error");
13702 - return MED_UNDEF_ENTITY_TYPE;
13705 -//////////////////////////////////////////////////
13707 -MEDFileFieldPerMeshPerType *MEDFileFieldPerMeshPerType::NewOnRead(med_idt fid, MEDFileFieldPerMesh *fath, TypeOfField type, INTERP_KERNEL::NormalizedCellType geoType, const MEDFileFieldNameScope& nasc, const PartDefinition *pd)
13709 - return new MEDFileFieldPerMeshPerType(fid,fath,type,geoType,nasc,pd);
13712 -MEDFileFieldPerMeshPerType *MEDFileFieldPerMeshPerType::New(MEDFileFieldPerMesh *fath, INTERP_KERNEL::NormalizedCellType geoType)
13714 - return new MEDFileFieldPerMeshPerType(fath,geoType);
13717 -MEDFileFieldPerMeshPerType *MEDFileFieldPerMeshPerType::deepCopy(MEDFileFieldPerMesh *father) const
13719 - MCAuto<MEDFileFieldPerMeshPerType> ret=new MEDFileFieldPerMeshPerType(*this);
13720 - ret->setFather(father);
13721 - ret->deepCopyElements();
13722 - return ret.retn();
13725 -void MEDFileFieldPerMeshPerType::getFieldAtLevel(int meshDim, TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const
13727 - if(_geo_type!=INTERP_KERNEL::NORM_ERROR)
13729 - const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(_geo_type);
13730 - if(meshDim!=(int)cm.getDimension())
13733 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
13734 - (*it)->getFieldAtLevel(type,glob,dads,pfls,locs,geoTypes);
13737 -INTERP_KERNEL::NormalizedCellType MEDFileFieldPerMeshPerType::getGeoType() const
13739 - return _geo_type;
13742 -void MEDFileFieldPerMeshPerType::entriesForMEDfile(TypeOfField mct, med_geometry_type& gt, med_entity_type& ent) const
13744 - ent=MEDFileFieldPerMeshPerTypeCommon::ConvertIntoMEDFileType(mct,_geo_type,gt);
13747 -void MEDFileFieldPerMeshPerType::getDimension(int& dim) const
13749 - const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(_geo_type));
13750 - int curDim((int)cm.getDimension());
13751 - dim=std::max(dim,curDim);
13754 -void MEDFileFieldPerMeshPerType::simpleRepr(int bkOffset, std::ostream& oss, int id) const
13756 - const char startLine[]=" ## ";
13757 - std::string startLine2(bkOffset,' ');
13758 - std::string startLine3(startLine2);
13759 - startLine3+=startLine;
13760 - if(_geo_type!=INTERP_KERNEL::NORM_ERROR)
13762 - const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(_geo_type);
13763 - oss << startLine3 << "Entry geometry type #" << id << " is lying on geometry types " << cm.getRepr() << "." << std::endl;
13766 - oss << startLine3 << "Entry geometry type #" << id << " is lying on NODES." << std::endl;
13767 - oss << startLine3 << "Entry is defined on " << _field_pm_pt_pd.size() << " localizations." << std::endl;
13769 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++,i++)
13771 - const MEDFileFieldPerMeshPerTypePerDisc *cur=(*it);
13773 - cur->simpleRepr(bkOffset,oss,i);
13776 - oss << startLine2 << " ## " << "Localization #" << i << " is empty !" << std::endl;
13781 -std::string MEDFileFieldPerMeshPerType::getGeoTypeRepr() const
13783 - const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(_geo_type));
13784 - return std::string(cm.getRepr());
13787 -MEDFileFieldPerMeshPerType::MEDFileFieldPerMeshPerType(MEDFileFieldPerMesh *father, INTERP_KERNEL::NormalizedCellType gt):MEDFileFieldPerMeshPerTypeCommon(father),_geo_type(gt)
13791 -MEDFileFieldPerMeshPerType::MEDFileFieldPerMeshPerType(med_idt fid, MEDFileFieldPerMesh *fath, TypeOfField type, INTERP_KERNEL::NormalizedCellType geoType, const MEDFileFieldNameScope& nasc, const PartDefinition *pd):MEDFileFieldPerMeshPerTypeCommon(fath),_geo_type(geoType)
13793 - INTERP_KERNEL::AutoPtr<char> pflName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
13794 - INTERP_KERNEL::AutoPtr<char> locName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
13795 - med_geometry_type mgeoti;
13796 - med_entity_type menti(ConvertIntoMEDFileType(type,geoType,mgeoti));
13797 - int nbProfiles(MEDfieldnProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),menti,mgeoti,pflName,locName));
13798 - _field_pm_pt_pd.resize(nbProfiles);
13799 - for(int i=0;i<nbProfiles;i++)
13801 - _field_pm_pt_pd[i]=MEDFileFieldPerMeshPerTypePerDisc::NewOnRead(this,type,i,pd);
13803 - if(type==ON_CELLS)
13805 - int nbProfiles2(MEDfieldnProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_NODE_ELEMENT,mgeoti,pflName,locName));
13806 - for(int i=0;i<nbProfiles2;i++)
13807 - _field_pm_pt_pd.push_back(MEDFileFieldPerMeshPerTypePerDisc::NewOnRead(this,ON_GAUSS_NE,i,pd));
13811 -MCAuto<MEDFileFieldPerMeshPerType> MEDFileFieldPerMeshPerType::Aggregate(int &start, const std::vector<std::pair<int,const MEDFileFieldPerMeshPerType *> >& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, INTERP_KERNEL::NormalizedCellType gt, MEDFileFieldPerMesh *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo)
13813 - MCAuto<MEDFileFieldPerMeshPerType> ret(MEDFileFieldPerMeshPerType::New(father,gt));
13814 - std::map<TypeOfField, std::vector< std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc * > > > m;
13815 - for(std::vector<std::pair<int,const MEDFileFieldPerMeshPerType *> >::const_iterator it=pms.begin();it!=pms.end();it++)
13817 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it2=(*it).second->_field_pm_pt_pd.begin();it2!=(*it).second->_field_pm_pt_pd.end();it2++)
13818 - m[(*it2)->getType()].push_back(std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc * >((*it).first,*it2));
13820 - for(std::map<TypeOfField, std::vector< std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc * > > >::const_iterator it=m.begin();it!=m.end();it++)
13822 - MCAuto<MEDFileFieldPerMeshPerTypePerDisc> agg(MEDFileFieldPerMeshPerTypePerDisc::Aggregate(start,(*it).second,dts,(*it).first,ret,extractInfo));
13823 - ret->_field_pm_pt_pd.push_back(agg);
13828 -//////////////////////////////////////////////////
13830 -MEDFileFieldPerMeshPerTypeDyn *MEDFileFieldPerMeshPerTypeDyn::NewOnRead(med_idt fid, MEDFileFieldPerMesh *fath, const MEDFileEntities *entities, int idGT, const MEDFileFieldNameScope& nasc)
13833 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypeDyn::NewOnRead : null pointer !");
13834 - const MEDFileAllStaticEntitiesPlusDyn *entities2(dynamic_cast<const MEDFileAllStaticEntitiesPlusDyn *>(entities));
13836 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypeDyn::NewOnRead : invalid type of entities !");
13837 - const MEDFileStructureElement *se(entities2->getWithGT(idGT));
13838 - return new MEDFileFieldPerMeshPerTypeDyn(fid,fath,se,nasc);
13841 -MEDFileFieldPerMeshPerTypeDyn::MEDFileFieldPerMeshPerTypeDyn(med_idt fid, MEDFileFieldPerMesh *fath, const MEDFileStructureElement *se, const MEDFileFieldNameScope& nasc):MEDFileFieldPerMeshPerTypeCommon(fath)
13844 - INTERP_KERNEL::AutoPtr<char> pflName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
13845 - INTERP_KERNEL::AutoPtr<char> locName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
13846 - int nbProfiles(MEDfieldnProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_STRUCT_ELEMENT,_se->getDynGT(),pflName,locName));
13847 - _field_pm_pt_pd.resize(nbProfiles);
13848 - for(int i=0;i<nbProfiles;i++)
13850 - _field_pm_pt_pd[i]=MEDFileFieldPerMeshPerTypePerDisc::NewOnRead(this,_se->getEntity(),i,NULL);
13854 -int MEDFileFieldPerMeshPerTypeDyn::getDynGT() const
13856 - return _se->getDynGT();
13859 -std::string MEDFileFieldPerMeshPerTypeDyn::getModelName() const
13861 - return _se->getName();
13864 -void MEDFileFieldPerMeshPerTypeDyn::getDimension(int& dim) const
13866 - throw INTERP_KERNEL::Exception("not implemented yet !");
13869 -void MEDFileFieldPerMeshPerTypeDyn::entriesForMEDfile(TypeOfField mct, med_geometry_type& gt, med_entity_type& ent) const
13872 - ent=MED_STRUCT_ELEMENT;
13875 -INTERP_KERNEL::NormalizedCellType MEDFileFieldPerMeshPerTypeDyn::getGeoType() const
13877 - throw INTERP_KERNEL::Exception("not implemented yet !");
13880 -void MEDFileFieldPerMeshPerTypeDyn::simpleRepr(int bkOffset, std::ostream& oss, int id) const
13882 - const char startLine[]=" ## ";
13883 - std::string startLine2(bkOffset,' ');
13884 - std::string startLine3(startLine2);
13885 - startLine3+=startLine;
13886 - oss << startLine3 << "Entry geometry type #" << id << " is lying on geometry STRUCTURE_ELEMENT type " << getDynGT() << "." << std::endl;
13887 - oss << startLine3 << "Entry is defined on " << _field_pm_pt_pd.size() << " localizations." << std::endl;
13889 - for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++,i++)
13891 - if((*it).isNotNull())
13892 - (*it)->simpleRepr(bkOffset,oss,i);
13895 - oss << startLine2 << " ## " << "Localization #" << i << " is empty !" << std::endl;
13900 -std::string MEDFileFieldPerMeshPerTypeDyn::getGeoTypeRepr() const
13902 - throw INTERP_KERNEL::Exception("not implemented yet !");
13905 -MEDFileFieldPerMeshPerTypeDyn *MEDFileFieldPerMeshPerTypeDyn::deepCopy(MEDFileFieldPerMesh *father) const
13907 - MCAuto<MEDFileFieldPerMeshPerTypeDyn> ret(new MEDFileFieldPerMeshPerTypeDyn(*this));
13908 - ret->setFather(father);
13909 - ret->deepCopyElements();
13910 - return ret.retn();
13913 -void MEDFileFieldPerMeshPerTypeDyn::getFieldAtLevel(int meshDim, TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const
13915 - throw INTERP_KERNEL::Exception("not implemented yet !");
13918 -//////////////////////////////////////////////////
13920 -MEDFileFieldPerMesh *MEDFileFieldPerMesh::NewOnRead(med_idt fid, MEDFileAnyTypeField1TSWithoutSDA *fath, int meshCsit, int meshIteration, int meshOrder, const MEDFileFieldNameScope& nasc, const MEDFileMesh *mm, const MEDFileEntities *entities)
13922 - return new MEDFileFieldPerMesh(fid,fath,meshCsit,meshIteration,meshOrder,nasc,mm,entities);
13925 -MEDFileFieldPerMesh *MEDFileFieldPerMesh::New(MEDFileAnyTypeField1TSWithoutSDA *fath, const MEDCouplingMesh *mesh)
13927 - return new MEDFileFieldPerMesh(fath,mesh);
13930 -std::size_t MEDFileFieldPerMesh::getHeapMemorySizeWithoutChildren() const
13932 - return _field_pm_pt.capacity()*sizeof(MCAuto< MEDFileFieldPerMeshPerType >);
13935 -std::vector<const BigMemoryObject *> MEDFileFieldPerMesh::getDirectChildrenWithNull() const
13937 - std::vector<const BigMemoryObject *> ret;
13938 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
13939 - ret.push_back(*it);
13943 -MEDFileFieldPerMesh *MEDFileFieldPerMesh::deepCopy(MEDFileAnyTypeField1TSWithoutSDA *father) const
13945 - MCAuto< MEDFileFieldPerMesh > ret=new MEDFileFieldPerMesh(*this);
13946 - ret->_father=father;
13948 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++,i++)
13950 - if((*it).isNotNull())
13951 - ret->_field_pm_pt[i]=(*it)->deepCopy((MEDFileFieldPerMesh *)(ret));
13953 - return ret.retn();
13956 -void MEDFileFieldPerMesh::simpleRepr(int bkOffset, std::ostream& oss, int id) const
13958 - std::string startLine(bkOffset,' ');
13959 - oss << startLine << "## Field part (" << id << ") lying on mesh \"" << getMeshName() << "\", Mesh iteration=" << _mesh_iteration << ". Mesh order=" << _mesh_order << "." << std::endl;
13960 - oss << startLine << "## Field is defined on " << _field_pm_pt.size() << " types." << std::endl;
13962 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++,i++)
13964 - if((*it).isNotNull())
13965 - (*it)->simpleRepr(bkOffset,oss,i);
13968 - oss << startLine << " ## Entry geometry type #" << i << " is empty !" << std::endl;
13973 -void MEDFileFieldPerMesh::copyTinyInfoFrom(const MEDCouplingMesh *mesh)
13975 - mesh->getTime(_mesh_iteration,_mesh_order);
13978 -void MEDFileFieldPerMesh::assignFieldNoProfileNoRenum(int& start, const std::vector<int>& code, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
13980 - int nbOfTypes=code.size()/3;
13982 - for(int i=0;i<nbOfTypes;i++)
13984 - INTERP_KERNEL::NormalizedCellType type=(INTERP_KERNEL::NormalizedCellType)code[3*i];
13985 - int nbOfCells=code[3*i+1];
13986 - int pos=addNewEntryIfNecessary(type);
13987 - _field_pm_pt[pos]->assignFieldNoProfile(start,offset,nbOfCells,field,arr,glob,nasc);
13988 - offset+=nbOfCells;
13993 - * This method is the most general one. No optimization is done here.
13994 - * \param [in] multiTypePfl is the end user profile specified in high level API
13995 - * \param [in] code is the code of \a mesh[multiTypePfl] mesh. It is of size of number of different geometric types into \a mesh[multiTypePfl].
13996 - * \param [in] code2 is the code of the \b WHOLE mesh on the same level. So all types in \a code are in \a code2.
13997 - * \param [in] idsInPflPerType is the selection into the \a multiTypePfl whole profile that corresponds to the given geometric type. This vector is always 3 times smaller than \a code.
13998 - * \param [in] idsPerType is a vector containing the profiles needed to be created for MED file format. \b WARNING these processed MED file profiles can be subdivided again in case of Gauss points.
13999 - * \param [in] mesh is the mesh coming from the MEDFileMesh instance in correspondance with the MEDFileField. The mesh inside the \a field is simply ignored.
14001 -void MEDFileFieldPerMesh::assignFieldProfile(int& start, const DataArrayInt *multiTypePfl, const std::vector<int>& code, const std::vector<int>& code2, const std::vector<DataArrayInt *>& idsInPflPerType, const std::vector<DataArrayInt *>& idsPerType, const MEDCouplingFieldTemplate *field, const DataArray *arr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
14003 - int nbOfTypes(code.size()/3);
14004 - for(int i=0;i<nbOfTypes;i++)
14006 - INTERP_KERNEL::NormalizedCellType type=(INTERP_KERNEL::NormalizedCellType)code[3*i];
14007 - int pos=addNewEntryIfNecessary(type);
14008 - DataArrayInt *pfl=0;
14009 - if(code[3*i+2]!=-1)
14010 - pfl=idsPerType[code[3*i+2]];
14011 - int nbOfTupes2=code2.size()/3;
14013 - for(;found<nbOfTupes2;found++)
14014 - if(code[3*i]==code2[3*found])
14016 - if(found==nbOfTupes2)
14017 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::assignFieldProfile : internal problem ! Should never happen ! Please report bug to anthony.geay@cea.fr !");
14018 - _field_pm_pt[pos]->assignFieldProfile(nbOfTypes==1,start,multiTypePfl,idsInPflPerType[i],pfl,code2[3*found+1],field,arr,mesh,glob,nasc);
14022 -void MEDFileFieldPerMesh::assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob)
14024 - int pos=addNewEntryIfNecessary(INTERP_KERNEL::NORM_ERROR);
14025 - _field_pm_pt[pos]->assignNodeFieldNoProfile(start,field,arr,glob);
14028 -void MEDFileFieldPerMesh::assignNodeFieldProfile(int& start, const DataArrayInt *pfl, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
14030 - int pos=addNewEntryIfNecessary(INTERP_KERNEL::NORM_ERROR);
14031 - _field_pm_pt[pos]->assignNodeFieldProfile(start,pfl,field,arr,glob,nasc);
14034 -void MEDFileFieldPerMesh::loadOnlyStructureOfDataRecursively(med_idt fid, int& start, const MEDFileFieldNameScope& nasc)
14036 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14037 - (*it)->loadOnlyStructureOfDataRecursively(fid,start,nasc);
14040 -void MEDFileFieldPerMesh::loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc)
14042 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14043 - (*it)->loadBigArraysRecursively(fid,nasc);
14046 -void MEDFileFieldPerMesh::writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const
14048 - int nbOfTypes=_field_pm_pt.size();
14049 - for(int i=0;i<nbOfTypes;i++)
14051 - _field_pm_pt[i]->copyOptionsFrom(*this);
14052 - _field_pm_pt[i]->writeLL(fid,nasc);
14056 -void MEDFileFieldPerMesh::getDimension(int& dim) const
14058 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14059 - (*it)->getDimension(dim);
14062 -bool MEDFileFieldPerMesh::isUniqueLevel(int& dim) const
14064 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14065 - if(!(*it)->isUniqueLevel(dim))
14070 -void MEDFileFieldPerMesh::fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const
14072 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14073 - (*it)->fillTypesOfFieldAvailable(types);
14076 -std::vector< std::vector< std::pair<int,int> > > MEDFileFieldPerMesh::getFieldSplitedByType(std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> > & locs) const
14078 - int sz=_field_pm_pt.size();
14079 - std::vector< std::vector<std::pair<int,int> > > ret(sz);
14080 - types.resize(sz); typesF.resize(sz); pfls.resize(sz); locs.resize(sz);
14081 - for(int i=0;i<sz;i++)
14083 - types[i]=_field_pm_pt[i]->getGeoType();
14084 - _field_pm_pt[i]->fillFieldSplitedByType(ret[i],typesF[i],pfls[i],locs[i]);
14089 -double MEDFileFieldPerMesh::getTime() const
14092 - return _father->getTime(tmp1,tmp2);
14095 -int MEDFileFieldPerMesh::getIteration() const
14097 - return _father->getIteration();
14100 -int MEDFileFieldPerMesh::getOrder() const
14102 - return _father->getOrder();
14105 -int MEDFileFieldPerMesh::getNumberOfComponents() const
14107 - return _father->getNumberOfComponents();
14110 -std::string MEDFileFieldPerMesh::getMeshName() const
14112 - return _father->getMeshName();
14115 -void MEDFileFieldPerMesh::setMeshName(const std::string& meshName)
14117 - _father->setMeshName(meshName);
14120 -bool MEDFileFieldPerMesh::presenceOfMultiDiscPerGeoType() const
14122 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14124 - if((*it).isNull())
14126 - if((*it)->presenceOfMultiDiscPerGeoType())
14132 -bool MEDFileFieldPerMesh::presenceOfStructureElements() const
14134 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14135 - if((*it).isNotNull())
14137 - const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
14144 -bool MEDFileFieldPerMesh::onlyStructureElements() const
14146 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14147 - if((*it).isNotNull())
14149 - const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
14156 -void MEDFileFieldPerMesh::killStructureElements()
14158 - std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > res;
14159 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14161 - if((*it).isNotNull())
14163 - const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
14165 - res.push_back(*it);
14168 - _field_pm_pt=res;
14171 -void MEDFileFieldPerMesh::keepOnlyStructureElements()
14173 - std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > res;
14174 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14176 - if((*it).isNotNull())
14178 - const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
14180 - res.push_back(*it);
14183 - _field_pm_pt=res;
14186 -void MEDFileFieldPerMesh::keepOnlyOnSE(const std::string& seName)
14188 - std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > res;
14189 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14191 - if((*it).isNotNull())
14193 - const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
14195 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::keepOnlyOnSE : presence of non SE !");
14196 - if(pt->getModelName()==seName)
14197 - res.push_back(*it);
14200 - _field_pm_pt=res;
14203 -void MEDFileFieldPerMesh::getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const
14205 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14207 - if((*it).isNotNull())
14209 - const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
14212 - ps.push_back(std::pair<std::string,std::string>(getMeshName(),pt->getModelName()));
14215 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getMeshSENames : presence of a non structure element part !");
14220 -DataArray *MEDFileFieldPerMesh::getOrCreateAndGetArray()
14223 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getOrCreateAndGetArray : no father ! internal error !");
14224 - return _father->getOrCreateAndGetArray();
14227 -const DataArray *MEDFileFieldPerMesh::getOrCreateAndGetArray() const
14230 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getOrCreateAndGetArray : no father ! internal error !");
14231 - return _father->getOrCreateAndGetArray();
14234 -const std::vector<std::string>& MEDFileFieldPerMesh::getInfo() const
14236 - return _father->getInfo();
14240 - * type,geoTypes,dads,pfls,locs are input parameters. They should have the same size.
14241 - * Before the call of this method 'geoTypes','dads','pfls','locs' must be reorganized so that types in geoTypes are contiguous and ordered following typmai2 array.
14242 - * It returns 2 output vectors :
14243 - * - 'code' of size 3*sz where sz is the number of different values into 'geoTypes'
14244 - * - 'notNullPfls' contains sz2 values that are extracted from 'pfls' in which null profiles have been removed.
14245 - * 'code' and 'notNullPfls' are in MEDCouplingUMesh::checkTypeConsistencyAndContig format.
14247 -void MEDFileFieldPerMesh::SortArraysPerType(const MEDFileFieldGlobsReal *glob, TypeOfField type, const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes, const std::vector< std::pair<int,int> >& dads, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& locs, std::vector<int>& code, std::vector<DataArrayInt *>& notNullPfls)
14249 - int notNullPflsSz=0;
14250 - int nbOfArrs=geoTypes.size();
14251 - for(int i=0;i<nbOfArrs;i++)
14254 - std::set<INTERP_KERNEL::NormalizedCellType> geoTypes3(geoTypes.begin(),geoTypes.end());
14255 - int nbOfDiffGeoTypes=geoTypes3.size();
14256 - code.resize(3*nbOfDiffGeoTypes);
14257 - notNullPfls.resize(notNullPflsSz);
14260 - for(int i=0;i<nbOfDiffGeoTypes;i++)
14263 - INTERP_KERNEL::NormalizedCellType refType=geoTypes[j];
14264 - std::vector<const DataArrayInt *> notNullTmp;
14266 - notNullTmp.push_back(pfls[j]);
14268 - for(;j<nbOfArrs;j++)
14269 - if(geoTypes[j]==refType)
14272 - notNullTmp.push_back(pfls[j]);
14276 - std::vector< std::pair<int,int> > tmpDads(dads.begin()+startZone,dads.begin()+j);
14277 - std::vector<const DataArrayInt *> tmpPfls(pfls.begin()+startZone,pfls.begin()+j);
14278 - std::vector<int> tmpLocs(locs.begin()+startZone,locs.begin()+j);
14279 - code[3*i]=(int)refType;
14280 - std::vector<INTERP_KERNEL::NormalizedCellType> refType2(1,refType);
14281 - code[3*i+1]=ComputeNbOfElems(glob,type,refType2,tmpDads,tmpLocs);
14282 - if(notNullTmp.empty())
14286 - notNullPfls[notNullPflsSz]=DataArrayInt::Aggregate(notNullTmp);
14287 - code[3*i+2]=notNullPflsSz++;
14293 - * 'dads' 'geoTypes' and 'locs' are input parameters that should have same size sz. sz should be >=1.
14295 -int MEDFileFieldPerMesh::ComputeNbOfElems(const MEDFileFieldGlobsReal *glob, TypeOfField type, const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes, const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs)
14297 - int sz=dads.size();
14299 - for(int i=0;i<sz;i++)
14303 - if(type!=ON_GAUSS_NE)
14304 - ret+=dads[i].second-dads[i].first;
14307 - const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(geoTypes[i]);
14308 - ret+=(dads[i].second-dads[i].first)/cm.getNumberOfNodes();
14313 - int nbOfGaussPtPerCell=glob->getNbOfGaussPtPerCell(locs[i]);
14314 - ret+=(dads[i].second-dads[i].first)/nbOfGaussPtPerCell;
14320 -std::vector<std::string> MEDFileFieldPerMesh::getPflsReallyUsed() const
14322 - std::vector<std::string> ret;
14323 - std::set<std::string> ret2;
14324 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14326 - std::vector<std::string> tmp=(*it)->getPflsReallyUsed();
14327 - for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
14328 - if(ret2.find(*it2)==ret2.end())
14330 - ret.push_back(*it2);
14331 - ret2.insert(*it2);
14337 -std::vector<std::string> MEDFileFieldPerMesh::getPflsReallyUsedMulti() const
14339 - std::vector<std::string> ret;
14340 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14342 - std::vector<std::string> tmp=(*it)->getPflsReallyUsedMulti();
14343 - ret.insert(ret.end(),tmp.begin(),tmp.end());
14348 -std::vector<std::string> MEDFileFieldPerMesh::getLocsReallyUsed() const
14350 - std::vector<std::string> ret;
14351 - std::set<std::string> ret2;
14352 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14354 - std::vector<std::string> tmp=(*it)->getLocsReallyUsed();
14355 - for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
14356 - if(ret2.find(*it2)==ret2.end())
14358 - ret.push_back(*it2);
14359 - ret2.insert(*it2);
14365 -std::vector<std::string> MEDFileFieldPerMesh::getLocsReallyUsedMulti() const
14367 - std::vector<std::string> ret;
14368 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14370 - std::vector<std::string> tmp=(*it)->getLocsReallyUsedMulti();
14371 - ret.insert(ret.end(),tmp.begin(),tmp.end());
14376 -bool MEDFileFieldPerMesh::changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab)
14378 - for(std::vector< std::pair<std::string,std::string> >::const_iterator it=modifTab.begin();it!=modifTab.end();it++)
14380 - if((*it).first==getMeshName())
14382 - setMeshName((*it).second);
14389 -void MEDFileFieldPerMesh::convertMedBallIntoClassic()
14391 - if(_field_pm_pt.size()!=1)
14392 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::convertMedBallIntoClassic : Only managed for single mesh !");
14393 - if(_field_pm_pt[0].isNull())
14394 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::convertMedBallIntoClassic : null pointer !");
14395 - MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<MEDFileFieldPerMeshPerTypeDyn *>((MEDFileFieldPerMeshPerTypeCommon *)_field_pm_pt[0]));
14397 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::convertMedBallIntoClassic : this is expected to be marked as structure element !");
14398 - if(pt->getNumberOfLoc()!=1)
14399 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::convertMedBallIntoClassic : only one loc managed !");
14400 - const MEDFileFieldPerMeshPerTypePerDisc *disc(pt->getLeafGivenLocId(0));
14402 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::convertMedBallIntoClassic : internal error !");
14403 - MCAuto<MEDFileFieldPerMeshPerTypePerDisc> disc2(MEDFileFieldPerMeshPerTypePerDisc::New(*disc));
14404 - disc2->setType(ON_NODES);
14405 - MCAuto<MEDFileFieldPerMeshPerType> pt2(MEDFileFieldPerMeshPerType::New(this,INTERP_KERNEL::NORM_ERROR));
14406 - disc2->setFather(pt2);
14407 - pt2->setFather(this);
14408 - pt2->pushDiscretization(disc2);
14409 - _field_pm_pt[0]=DynamicCast<MEDFileFieldPerMeshPerType,MEDFileFieldPerMeshPerTypeCommon>(pt2);
14412 -bool MEDFileFieldPerMesh::renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N,
14413 - MEDFileFieldGlobsReal& glob)
14415 - if(getMeshName()!=meshName)
14417 - std::set<INTERP_KERNEL::NormalizedCellType> typesToKeep;
14418 - for(std::size_t i=0;i<oldCode.size()/3;i++) typesToKeep.insert((INTERP_KERNEL::NormalizedCellType)oldCode[3*i]);
14419 - std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > > entries;
14420 - std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> entriesKept;
14421 - std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> otherEntries;
14422 - getUndergroundDataArrayExt(entries);
14423 - DataArray *arr0(getOrCreateAndGetArray());//tony
14425 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::renumberEntitiesLyingOnMesh : DataArray storing values of field is null !");
14426 - DataArrayDouble *arr(dynamic_cast<DataArrayDouble *>(arr0));//tony
14428 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::renumberEntitiesLyingOnMesh : DataArray storing values is double ! Not managed for the moment !");
14431 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::renumberEntitiesLyingOnMesh : DataArrayDouble storing values of field is null !");
14432 - for(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >::const_iterator it=entries.begin();it!=entries.end();it++)
14434 - if(typesToKeep.find((*it).first.first)!=typesToKeep.end())
14436 - entriesKept.push_back(getLeafGivenTypeAndLocId((*it).first.first,(*it).first.second));
14437 - sz+=(*it).second.second-(*it).second.first;
14440 - otherEntries.push_back(getLeafGivenTypeAndLocId((*it).first.first,(*it).first.second));
14442 - MCAuto<DataArrayInt> renumDefrag=DataArrayInt::New(); renumDefrag->alloc(arr->getNumberOfTuples(),1); renumDefrag->fillWithZero();
14443 - ////////////////////
14444 - MCAuto<DataArrayInt> explicitIdsOldInMesh=DataArrayInt::New(); explicitIdsOldInMesh->alloc(sz,1);//sz is a majorant of the real size. A realloc will be done after
14445 - int *workI2=explicitIdsOldInMesh->getPointer();
14446 - int sz1=0,sz2=0,sid=1;
14447 - std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> > entriesKeptML=MEDFileFieldPerMeshPerTypePerDisc::SplitPerDiscretization(entriesKept);
14448 - // std::vector<int> tupleIdOfStartOfNewChuncksV(entriesKeptML.size());
14449 - for(std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> >::const_iterator itL1=entriesKeptML.begin();itL1!=entriesKeptML.end();itL1++,sid++)
14451 - // tupleIdOfStartOfNewChuncksV[sid-1]=sz2;
14452 - MCAuto<DataArrayInt> explicitIdsOldInArr=DataArrayInt::New(); explicitIdsOldInArr->alloc(sz,1);
14453 - int *workI=explicitIdsOldInArr->getPointer();
14454 - for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator itL2=(*itL1).begin();itL2!=(*itL1).end();itL2++)
14456 - int delta1=(*itL2)->fillTupleIds(workI); workI+=delta1; sz1+=delta1;
14457 - (*itL2)->setLocId(sz2);
14458 - (*itL2)->_tmp_work1=(*itL2)->getStart();
14459 - int delta2=(*itL2)->fillEltIdsFromCode(sz2,oldCode,glob,workI2); workI2+=delta2; sz2+=delta2;
14461 - renumDefrag->setPartOfValuesSimple3(sid,explicitIdsOldInArr->begin(),explicitIdsOldInArr->end(),0,1,1);
14463 - explicitIdsOldInMesh->reAlloc(sz2);
14464 - int tupleIdOfStartOfNewChuncks=arr->getNumberOfTuples()-sz2;
14465 - ////////////////////
14466 - MCAuto<DataArrayInt> permArrDefrag=renumDefrag->buildPermArrPerLevel(); renumDefrag=0;
14467 - // perform redispatching of non concerned MEDFileFieldPerMeshPerTypePerDisc
14468 - std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> > otherEntriesNew;
14469 - for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=otherEntries.begin();it!=otherEntries.end();it++)
14471 - otherEntriesNew.push_back(MEDFileFieldPerMeshPerTypePerDisc::New(*(*it)));
14472 - otherEntriesNew.back()->setNewStart(permArrDefrag->getIJ((*it)->getStart(),0));
14473 - otherEntriesNew.back()->setLocId((*it)->getGeoType());
14475 - std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> > entriesKeptNew;
14476 - std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> entriesKeptNew2;
14477 - for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=entriesKept.begin();it!=entriesKept.end();it++)
14479 - MCAuto<MEDFileFieldPerMeshPerTypePerDisc> elt=MEDFileFieldPerMeshPerTypePerDisc::New(*(*it));
14480 - int newStart=elt->getLocId();
14481 - elt->setLocId((*it)->getGeoType());
14482 - elt->setNewStart(newStart);
14483 - elt->_tmp_work1=permArrDefrag->getIJ(elt->_tmp_work1,0);
14484 - entriesKeptNew.push_back(elt);
14485 - entriesKeptNew2.push_back(elt);
14487 - MCAuto<DataArrayDouble> arr2=arr->renumber(permArrDefrag->getConstPointer());
14488 - // perform redispatching of concerned MEDFileFieldPerMeshPerTypePerDisc -> values are in arr2
14489 - MCAuto<DataArrayInt> explicitIdsNewInMesh=renumO2N->selectByTupleId(explicitIdsOldInMesh->begin(),explicitIdsOldInMesh->end());
14490 - std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> > entriesKeptPerDisc=MEDFileFieldPerMeshPerTypePerDisc::SplitPerDiscretization(entriesKeptNew2);
14492 - for(std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> >::const_iterator it4=entriesKeptPerDisc.begin();it4!=entriesKeptPerDisc.end();it4++)
14495 - /*for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator itL2=(*it4).begin();itL2!=(*it4).end();itL2++)
14497 - MEDFileFieldPerMeshPerTypePerDisc *curNC=const_cast<MEDFileFieldPerMeshPerTypePerDisc *>(*itL2);
14498 - curNC->setNewStart(permArrDefrag->getIJ((*itL2)->getStart(),0)-tupleIdOfStartOfNewChuncks+tupleIdOfStartOfNewChuncksV[sid]);
14500 - ret=MEDFileFieldPerMeshPerTypePerDisc::RenumberChunks(tupleIdOfStartOfNewChuncks,*it4,explicitIdsNewInMesh,newCode,
14501 - glob,arr2,otherEntriesNew) || ret;
14505 - // Assign new dispatching
14506 - assignNewLeaves(otherEntriesNew);
14507 - arr->deepCopyFrom(*arr2);
14512 - * \param [in,out] globalNum a global numbering counter for the renumbering.
14513 - * \param [out] its - list of pair (start,stop) kept
14515 -void MEDFileFieldPerMesh::keepOnlySpatialDiscretization(TypeOfField tof, int &globalNum, std::vector< std::pair<int,int> >& its)
14517 - std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > ret;
14518 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14520 - std::vector< std::pair<int,int> > its2;
14521 - if((*it)->keepOnlySpatialDiscretization(tof,globalNum,its2))
14523 - ret.push_back(*it);
14524 - its.insert(its.end(),its2.begin(),its2.end());
14527 - _field_pm_pt=ret;
14531 - * \param [in,out] globalNum a global numbering counter for the renumbering.
14532 - * \param [out] its - list of pair (start,stop) kept
14534 -void MEDFileFieldPerMesh::keepOnlyGaussDiscretization(std::size_t idOfDisc, int &globalNum, std::vector< std::pair<int,int> >& its)
14536 - std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > ret;
14537 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14539 - std::vector< std::pair<int,int> > its2;
14540 - if((*it)->keepOnlyGaussDiscretization(idOfDisc,globalNum,its2))
14542 - ret.push_back(*it);
14543 - its.insert(its.end(),its2.begin(),its2.end());
14546 - _field_pm_pt=ret;
14549 -void MEDFileFieldPerMesh::assignNewLeaves(const std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc > >& leaves)
14551 - std::map<INTERP_KERNEL::NormalizedCellType,std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc> > > types;
14552 - for( std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc > >::const_iterator it=leaves.begin();it!=leaves.end();it++)
14553 - types[(INTERP_KERNEL::NormalizedCellType)(*it)->getLocId()].push_back(*it);
14555 - std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > fieldPmPt(types.size());
14556 - std::map<INTERP_KERNEL::NormalizedCellType,std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc> > >::const_iterator it1=types.begin();
14557 - std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it2=fieldPmPt.begin();
14558 - for(;it1!=types.end();it1++,it2++)
14560 - MCAuto<MEDFileFieldPerMeshPerType> elt=MEDFileFieldPerMeshPerType::New(this,(INTERP_KERNEL::NormalizedCellType)((*it1).second[0]->getLocId()));
14561 - elt->setLeaves((*it1).second);
14562 - MCAuto<MEDFileFieldPerMeshPerTypeCommon> elt2(DynamicCast<MEDFileFieldPerMeshPerType,MEDFileFieldPerMeshPerTypeCommon>(elt));
14565 - _field_pm_pt=fieldPmPt;
14568 -void MEDFileFieldPerMesh::changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
14570 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14571 - (*it)->changePflsRefsNamesGen(mapOfModif);
14574 -void MEDFileFieldPerMesh::changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
14576 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14577 - (*it)->changeLocsRefsNamesGen(mapOfModif);
14581 - * \param [in] mesh is the whole mesh
14583 -MEDCouplingFieldDouble *MEDFileFieldPerMesh::getFieldOnMeshAtLevel(TypeOfField type, const MEDFileFieldGlobsReal *glob, const MEDCouplingMesh *mesh, bool& isPfl, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
14585 - if(_field_pm_pt.empty())
14586 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getFieldOnMeshAtLevel : no types field set !");
14588 - std::vector< std::pair<int,int> > dads;
14589 - std::vector<const DataArrayInt *> pfls;
14590 - std::vector<DataArrayInt *> notNullPflsPerGeoType;
14591 - std::vector<int> locs,code;
14592 - std::vector<INTERP_KERNEL::NormalizedCellType> geoTypes;
14593 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14594 - (*it)->getFieldAtLevel(mesh->getMeshDimension(),type,glob,dads,pfls,locs,geoTypes);
14596 - SortArraysPerType(glob,type,geoTypes,dads,pfls,locs,code,notNullPflsPerGeoType);
14599 - std::ostringstream oss; oss << "MEDFileFieldPerMesh::getFieldOnMeshAtLevel : " << "The field \"" << nasc.getName() << "\" exists but not with such spatial discretization or such dimension specified !";
14600 - throw INTERP_KERNEL::Exception(oss.str());
14603 - std::vector< MCAuto<DataArrayInt> > notNullPflsPerGeoType2(notNullPflsPerGeoType.begin(),notNullPflsPerGeoType.end());
14604 - std::vector< const DataArrayInt *> notNullPflsPerGeoType3(notNullPflsPerGeoType.begin(),notNullPflsPerGeoType.end());
14605 - if(type!=ON_NODES)
14607 - DataArrayInt *arr=mesh->checkTypeConsistencyAndContig(code,notNullPflsPerGeoType3);
14609 - return finishField(type,glob,dads,locs,mesh,isPfl,arrOut,nasc);
14612 - MCAuto<DataArrayInt> arr2(arr);
14613 - return finishField2(type,glob,dads,locs,geoTypes,mesh,arr,isPfl,arrOut,nasc);
14618 - if(code.size()!=3)
14619 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getFieldOnMeshAtLevel : internal error #1 !");
14623 - if(nb!=mesh->getNumberOfNodes())
14625 - std::ostringstream oss; oss << "MEDFileFieldPerMesh::getFieldOnMeshAtLevel : There is a problem there is " << nb << " nodes in field whereas there is " << mesh->getNumberOfNodes();
14626 - oss << " nodes in mesh !";
14627 - throw INTERP_KERNEL::Exception(oss.str());
14629 - return finishField(type,glob,dads,locs,mesh,isPfl,arrOut,nasc);
14632 - return finishFieldNode2(glob,dads,locs,mesh,notNullPflsPerGeoType3[0],isPfl,arrOut,nasc);
14636 -DataArray *MEDFileFieldPerMesh::getFieldOnMeshAtLevelWithPfl(TypeOfField type, const MEDCouplingMesh *mesh, DataArrayInt *&pfl, const MEDFileFieldGlobsReal *glob, const MEDFileFieldNameScope& nasc) const
14638 - if(_field_pm_pt.empty())
14639 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getFieldOnMeshAtLevel : no types field set !");
14641 - std::vector<std::pair<int,int> > dads;
14642 - std::vector<const DataArrayInt *> pfls;
14643 - std::vector<DataArrayInt *> notNullPflsPerGeoType;
14644 - std::vector<int> locs,code;
14645 - std::vector<INTERP_KERNEL::NormalizedCellType> geoTypes;
14646 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14647 - (*it)->getFieldAtLevel(mesh->getMeshDimension(),type,glob,dads,pfls,locs,geoTypes);
14649 - SortArraysPerType(glob,type,geoTypes,dads,pfls,locs,code,notNullPflsPerGeoType);
14652 - std::ostringstream oss; oss << "MEDFileFieldPerMesh::getFieldOnMeshAtLevelWithPfl : " << "The field \"" << nasc.getName() << "\" exists but not with such spatial discretization or such dimension specified !";
14653 - throw INTERP_KERNEL::Exception(oss.str());
14655 - std::vector< MCAuto<DataArrayInt> > notNullPflsPerGeoType2(notNullPflsPerGeoType.begin(),notNullPflsPerGeoType.end());
14656 - std::vector< const DataArrayInt *> notNullPflsPerGeoType3(notNullPflsPerGeoType.begin(),notNullPflsPerGeoType.end());
14657 - if(type!=ON_NODES)
14659 - MCAuto<DataArrayInt> arr=mesh->checkTypeConsistencyAndContig(code,notNullPflsPerGeoType3);
14660 - return finishField4(dads,arr,mesh->getNumberOfCells(),pfl);
14664 - if(code.size()!=3)
14665 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getFieldOnMeshAtLevel : internal error #1 !");
14669 - if(nb!=mesh->getNumberOfNodes())
14671 - std::ostringstream oss; oss << "MEDFileFieldPerMesh::getFieldOnMeshAtLevel : There is a problem there is " << nb << " nodes in field whereas there is " << mesh->getNumberOfNodes();
14672 - oss << " nodes in mesh !";
14673 - throw INTERP_KERNEL::Exception(oss.str());
14676 - return finishField4(dads,code[2]==-1?0:notNullPflsPerGeoType3[0],mesh->getNumberOfNodes(),pfl);
14682 -void MEDFileFieldPerMesh::accept(MEDFileFieldVisitor& visitor) const
14684 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14685 - if((*it).isNotNull())
14687 - visitor.newPerMeshPerTypeEntry(*it);
14688 - (*it)->accept(visitor);
14689 - visitor.endPerMeshPerTypeEntry(*it);
14693 -void MEDFileFieldPerMesh::getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
14696 - int nbOfEntries=0;
14697 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14699 - (*it)->getSizes(globalSz,nbOfEntries);
14701 - entries.resize(nbOfEntries);
14703 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14705 - (*it)->fillValues(nbOfEntries,entries);
14709 -MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMesh::getLeafGivenTypeAndLocId(INTERP_KERNEL::NormalizedCellType typ, int locId)
14711 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14713 - if((*it)->getGeoType()==typ)
14714 - return (*it)->getLeafGivenLocId(locId);
14716 - const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(typ);
14717 - std::ostringstream oss; oss << "MEDFileFieldPerMesh::getLeafGivenTypeAndLocId : no such geometric type \"" << cm.getRepr() << "\" in this !" << std::endl;
14718 - oss << "Possiblities are : ";
14719 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14721 - const INTERP_KERNEL::CellModel& cm2=INTERP_KERNEL::CellModel::GetCellModel((*it)->getGeoType());
14722 - oss << "\"" << cm2.getRepr() << "\", ";
14724 - throw INTERP_KERNEL::Exception(oss.str());
14727 -const MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMesh::getLeafGivenTypeAndLocId(INTERP_KERNEL::NormalizedCellType typ, int locId) const
14729 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14731 - if((*it)->getGeoType()==typ)
14732 - return (*it)->getLeafGivenLocId(locId);
14734 - const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(typ);
14735 - std::ostringstream oss; oss << "MEDFileFieldPerMesh::getLeafGivenTypeAndLocId : no such geometric type \"" << cm.getRepr() << "\" in this !" << std::endl;
14736 - oss << "Possiblities are : ";
14737 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
14739 - const INTERP_KERNEL::CellModel& cm2=INTERP_KERNEL::CellModel::GetCellModel((*it)->getGeoType());
14740 - oss << "\"" << cm2.getRepr() << "\", ";
14742 - throw INTERP_KERNEL::Exception(oss.str());
14746 - * \param [in,out] start - Integer that gives the current position in the final aggregated array
14747 - * \param [in] pms - list of elements to aggregate. integer gives the mesh id
14748 - * \param [in] dts - (Distribution of types) = level 1 : meshes to aggregate. Level 2 : all geo type. Level 3 pair specifying geo type and number of elem in geotype.
14749 - * \param [out] extractInfo - Gives information about the where the data comes from. It is a vector of triplet. First element in the triplet the mesh pos. The 2nd one the start pos. The 3rd the end pos.
14751 -MCAuto<MEDFileFieldPerMeshPerTypePerDisc> MEDFileFieldPerMeshPerTypePerDisc::Aggregate(int &start, const std::vector< std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc *> >& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, TypeOfField tof, MEDFileFieldPerMeshPerType *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo)
14753 - MCAuto<MEDFileFieldPerMeshPerTypePerDisc> ret(new MEDFileFieldPerMeshPerTypePerDisc(father,tof));
14755 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : empty input vector !");
14756 - for(std::vector<std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc *> >::const_iterator it=pms.begin();it!=pms.end();it++)
14758 - if(!(*it).second)
14759 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : presence of null pointer !");
14760 - if(!(*it).second->getProfile().empty())
14761 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : not implemented yet for profiles !");
14762 - if(!(*it).second->getLocalization().empty())
14763 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : not implemented yet for gauss pts !");
14765 - INTERP_KERNEL::NormalizedCellType gt(pms[0].second->getGeoType());
14766 - std::size_t i(0);
14767 - std::vector< std::pair<int,int> > filteredDTS;
14768 - for(std::vector< std::vector< std::pair<int,int> > >::const_iterator it=dts.begin();it!=dts.end();it++,i++)
14769 - for(std::vector< std::pair<int,int> >::const_iterator it2=(*it).begin();it2!=(*it).end();it2++)
14770 - if((*it2).first==gt)
14771 - filteredDTS.push_back(std::pair<int,int>(i,(*it2).second));
14772 - if(pms.size()!=filteredDTS.size())
14773 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : not implemented yet for generated profiles !");
14774 - std::vector<std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc *> >::const_iterator it1(pms.begin());
14775 - std::vector< std::pair<int,int> >::const_iterator it2(filteredDTS.begin());
14776 - int zeStart(start),nval(0);
14777 - for(;it1!=pms.end();it1++,it2++)
14779 - if((*it1).first!=(*it2).first)
14780 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : not implemented yet for generated profiles 2 !");
14781 - int s1((*it1).second->getStart()),e1((*it1).second->getEnd());
14782 - extractInfo.push_back(std::pair<int, std::pair<int,int> >((*it1).first,std::pair<int,int>(s1,e1)));
14784 - nval+=((*it1).second)->getNumberOfVals();
14786 - ret->_start=zeStart; ret->_end=start; ret->_nval=nval;
14790 -MCAuto<MEDFileFieldPerMesh> MEDFileFieldPerMesh::Aggregate(int &start, const std::vector<const MEDFileFieldPerMesh *>& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, MEDFileAnyTypeField1TSWithoutSDA *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo)
14792 - MCAuto<MEDFileFieldPerMesh> ret(new MEDFileFieldPerMesh(father,pms[0]->getMeshName(),pms[0]->getMeshIteration(),pms[0]->getMeshOrder()));
14793 - std::map<INTERP_KERNEL::NormalizedCellType, std::vector< std::pair<int,const MEDFileFieldPerMeshPerType *> > > m;
14794 - std::size_t i(0);
14795 - for(std::vector<const MEDFileFieldPerMesh *>::const_iterator it=pms.begin();it!=pms.end();it++,i++)
14797 - const std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >& v((*it)->_field_pm_pt);
14798 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it2=v.begin();it2!=v.end();it2++)
14800 - INTERP_KERNEL::NormalizedCellType gt((*it2)->getGeoType());
14801 - const MEDFileFieldPerMeshPerType *elt(dynamic_cast<const MEDFileFieldPerMeshPerType *>((const MEDFileFieldPerMeshPerTypeCommon *)(*it2)));
14803 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::Aggregate : not managed for structelement !");
14804 - m[gt].push_back(std::pair<int,const MEDFileFieldPerMeshPerType *>(i,elt));
14807 - for(std::map<INTERP_KERNEL::NormalizedCellType, std::vector< std::pair<int,const MEDFileFieldPerMeshPerType *> > >::const_iterator it=m.begin();it!=m.end();it++)
14809 - MCAuto<MEDFileFieldPerMeshPerType> agg(MEDFileFieldPerMeshPerType::Aggregate(start,(*it).second,dts,(*it).first,ret,extractInfo));
14810 - MCAuto<MEDFileFieldPerMeshPerTypeCommon> agg2(DynamicCast<MEDFileFieldPerMeshPerType,MEDFileFieldPerMeshPerTypeCommon>(agg));
14811 - ret->_field_pm_pt.push_back(agg2);
14816 -int MEDFileFieldPerMesh::addNewEntryIfNecessary(INTERP_KERNEL::NormalizedCellType type)
14819 - int pos=std::distance(typmai2,std::find(typmai2,typmai2+MED_N_CELL_FIXED_GEO,type));
14820 - std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it2=_field_pm_pt.begin();
14821 - for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++,i++)
14823 - INTERP_KERNEL::NormalizedCellType curType=(*it)->getGeoType();
14824 - if(type==curType)
14828 - int pos2=std::distance(typmai2,std::find(typmai2,typmai2+MED_N_CELL_FIXED_GEO,curType));
14833 - int ret=std::distance(_field_pm_pt.begin(),it2);
14834 - _field_pm_pt.insert(it2,MEDFileFieldPerMeshPerType::New(this,type));
14839 - * 'dads' and 'locs' input parameters have the same number of elements
14840 - * \param [in] mesh is \b NOT the global mesh, but the possibly reduced mesh. \a mesh parameter will be directly aggregated in the returned field
14842 -MEDCouplingFieldDouble *MEDFileFieldPerMesh::finishField(TypeOfField type, const MEDFileFieldGlobsReal *glob,
14843 - const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs,
14844 - const MEDCouplingMesh *mesh, bool& isPfl, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
14847 - MCAuto<MEDCouplingFieldDouble> ret=MEDCouplingFieldDouble::New(type,ONE_TIME);
14848 - ret->setMesh(mesh); ret->setName(nasc.getName().c_str()); ret->setTime(getTime(),getIteration(),getOrder()); ret->setTimeUnit(nasc.getDtUnit().c_str());
14849 - MCAuto<DataArray> da=getOrCreateAndGetArray()->selectByTupleRanges(dads);
14850 - const std::vector<std::string>& infos=getInfo();
14851 - da->setInfoOnComponents(infos);
14853 - if(type==ON_GAUSS_PT)
14856 - int nbOfArrs=dads.size();
14857 - for(int i=0;i<nbOfArrs;i++)
14859 - std::vector<std::pair<int,int> > dads2(1,dads[i]); const std::vector<int> locs2(1,locs[i]);
14860 - const std::vector<INTERP_KERNEL::NormalizedCellType> geoTypes2(1,INTERP_KERNEL::NORM_ERROR);
14861 - int nbOfElems=ComputeNbOfElems(glob,type,geoTypes2,dads2,locs2);
14862 - MCAuto<DataArrayInt> di=DataArrayInt::New();
14863 - di->alloc(nbOfElems,1);
14864 - di->iota(offset);
14865 - const MEDFileFieldLoc& fl=glob->getLocalizationFromId(locs[i]);
14866 - ret->setGaussLocalizationOnCells(di->getConstPointer(),di->getConstPointer()+nbOfElems,fl.getRefCoords(),fl.getGaussCoords(),fl.getGaussWeights());
14867 - offset+=nbOfElems;
14871 - return ret.retn();
14875 - * This method is an extension of MEDFileFieldPerMesh::finishField method. It deals with profiles. This method should be called when type is different from ON_NODES.
14876 - * 'dads', 'locs' and 'geoTypes' input parameters have the same number of elements.
14877 - * No check of this is performed. 'da' array contains an array in old2New style to be applyied to mesh to obtain the right support.
14878 - * The order of cells in the returned field is those imposed by the profile.
14879 - * \param [in] mesh is the global mesh.
14881 -MEDCouplingFieldDouble *MEDFileFieldPerMesh::finishField2(TypeOfField type, const MEDFileFieldGlobsReal *glob,
14882 - const std::vector<std::pair<int,int> >& dads, const std::vector<int>& locs,
14883 - const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes,
14884 - const MEDCouplingMesh *mesh, const DataArrayInt *da, bool& isPfl, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
14886 - if(da->isIota(mesh->getNumberOfCells()))
14887 - return finishField(type,glob,dads,locs,mesh,isPfl,arrOut,nasc);
14888 - MCAuto<MEDCouplingMesh> m2=mesh->buildPart(da->getConstPointer(),da->getConstPointer()+da->getNbOfElems());
14889 - m2->setName(mesh->getName().c_str());
14890 - MCAuto<MEDCouplingFieldDouble> ret=finishField(type,glob,dads,locs,m2,isPfl,arrOut,nasc);
14892 - return ret.retn();
14896 - * This method is the complement of MEDFileFieldPerMesh::finishField2 method except that this method works for node profiles.
14898 -MEDCouplingFieldDouble *MEDFileFieldPerMesh::finishFieldNode2(const MEDFileFieldGlobsReal *glob,
14899 - const std::vector<std::pair<int,int> >& dads, const std::vector<int>& locs,
14900 - const MEDCouplingMesh *mesh, const DataArrayInt *da, bool& isPfl, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
14902 - if(da->isIota(mesh->getNumberOfNodes()))
14903 - return finishField(ON_NODES,glob,dads,locs,mesh,isPfl,arrOut,nasc);
14904 - // Treatment of particular case where nodal field on pfl is requested with a meshDimRelToMax=1.
14905 - const MEDCouplingUMesh *meshu=dynamic_cast<const MEDCouplingUMesh *>(mesh);
14908 - if(meshu->getNodalConnectivity()==0)
14910 - MCAuto<MEDCouplingFieldDouble> ret=finishField(ON_CELLS,glob,dads,locs,mesh,isPfl,arrOut,nasc);
14911 - int nb=da->getNbOfElems();
14912 - const int *ptr=da->getConstPointer();
14913 - MEDCouplingUMesh *meshuc=const_cast<MEDCouplingUMesh *>(meshu);
14914 - meshuc->allocateCells(nb);
14915 - for(int i=0;i<nb;i++)
14916 - meshuc->insertNextCell(INTERP_KERNEL::NORM_POINT1,1,ptr+i);
14917 - meshuc->finishInsertingCells();
14918 - ret->setMesh(meshuc);
14919 - const MEDCouplingFieldDiscretization *disc=ret->getDiscretization();
14920 - if(!disc) throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::finishFieldNode2 : internal error, no discretization on field !");
14921 - disc->checkCoherencyBetween(meshuc,arrOut);
14922 - return ret.retn();
14926 - MCAuto<MEDCouplingFieldDouble> ret=finishField(ON_NODES,glob,dads,locs,mesh,isPfl,arrOut,nasc);
14928 - DataArrayInt *arr2=0;
14929 - MCAuto<DataArrayInt> cellIds=mesh->getCellIdsFullyIncludedInNodeIds(da->getConstPointer(),da->getConstPointer()+da->getNbOfElems());
14930 - MCAuto<MEDCouplingMesh> mesh2=mesh->buildPartAndReduceNodes(cellIds->getConstPointer(),cellIds->getConstPointer()+cellIds->getNbOfElems(),arr2);
14931 - MCAuto<DataArrayInt> arr3(arr2);
14932 - int nnodes=mesh2->getNumberOfNodes();
14933 - if(nnodes==(int)da->getNbOfElems())
14935 - MCAuto<DataArrayInt> da3=da->transformWithIndArrR(arr2->begin(),arr2->end());
14936 - arrOut->renumberInPlace(da3->getConstPointer());
14937 - mesh2->setName(mesh->getName().c_str());
14938 - ret->setMesh(mesh2);
14939 - return ret.retn();
14943 - std::ostringstream oss; oss << "MEDFileFieldPerMesh::finishFieldNode2 : The field on nodes lies on a node profile so that it is impossible to find a submesh having exactly the same nodes of that profile !!!";
14944 - oss << "So it is impossible to return a well definied MEDCouplingFieldDouble instance on specified mesh on a specified meshDim !" << std::endl;
14945 - oss << "To retrieve correctly such a field you have 3 possibilities :" << std::endl;
14946 - oss << " - use an another meshDim compatible with the field on nodes (MED file does not have such information)" << std::endl;
14947 - oss << " - use an another a meshDimRelToMax equal to 1 -> it will return a mesh with artificial cell POINT1 containing the profile !" << std::endl;
14948 - oss << " - if definitely the node profile has no link with mesh connectivity use MEDFileField1TS::getFieldWithProfile or MEDFileFieldMultiTS::getFieldWithProfile methods instead !";
14949 - throw INTERP_KERNEL::Exception(oss.str());
14955 - * This method is the most light method of field retrieving.
14957 -DataArray *MEDFileFieldPerMesh::finishField4(const std::vector<std::pair<int,int> >& dads, const DataArrayInt *pflIn, int nbOfElems, DataArrayInt *&pflOut) const
14961 - pflOut=DataArrayInt::New();
14962 - pflOut->alloc(nbOfElems,1);
14967 - pflOut=const_cast<DataArrayInt*>(pflIn);
14968 - pflOut->incrRef();
14970 - MCAuto<DataArrayInt> safePfl(pflOut);
14971 - MCAuto<DataArray> da=getOrCreateAndGetArray()->selectByTupleRanges(dads);
14972 - const std::vector<std::string>& infos=getInfo();
14973 - int nbOfComp=infos.size();
14974 - for(int i=0;i<nbOfComp;i++)
14975 - da->setInfoOnComponent(i,infos[i].c_str());
14976 - safePfl->incrRef();
14977 - return da.retn();
14981 -/// @cond INTERNAL
14986 - static MFFPMIter *NewCell(const MEDFileEntities *entities);
14987 - static bool IsPresenceOfNode(const MEDFileEntities *entities);
14988 - virtual ~MFFPMIter() { }
14989 - virtual void begin() = 0;
14990 - virtual bool finished() const = 0;
14991 - virtual void next() = 0;
14992 - virtual int current() const = 0;
14995 -class MFFPMIterSimple : public MFFPMIter
14998 - MFFPMIterSimple():_pos(0) { }
14999 - void begin() { _pos=0; }
15000 - bool finished() const { return _pos>=MED_N_CELL_FIXED_GEO; }
15001 - void next() { _pos++; }
15002 - int current() const { return _pos; }
15007 -class MFFPMIter2 : public MFFPMIter
15010 - MFFPMIter2(const std::vector<INTERP_KERNEL::NormalizedCellType>& cts);
15011 - void begin() { _it=_ids.begin(); }
15012 - bool finished() const { return _it==_ids.end(); }
15013 - void next() { _it++; }
15014 - int current() const { return *_it; }
15016 - std::vector<int> _ids;
15017 - std::vector<int>::const_iterator _it;
15020 -MFFPMIter *MFFPMIter::NewCell(const MEDFileEntities *entities)
15023 - return new MFFPMIterSimple;
15026 - const MEDFileStaticEntities *entities2(dynamic_cast<const MEDFileStaticEntities *>(entities));
15029 - std::vector<INTERP_KERNEL::NormalizedCellType> tmp;
15030 - const std::vector< std::pair<TypeOfField,INTERP_KERNEL::NormalizedCellType> >& myEnt(entities2->getEntries());
15031 - for(std::vector< std::pair<TypeOfField,INTERP_KERNEL::NormalizedCellType> >::const_iterator it=myEnt.begin();it!=myEnt.end();it++)
15033 - if((*it).first==ON_CELLS || (*it).first==ON_GAUSS_NE || (*it).first==ON_GAUSS_PT)
15034 - tmp.push_back((*it).second);
15036 - return new MFFPMIter2(tmp);
15038 - return new MFFPMIterSimple;// for MEDFileAllStaticEntites and MEDFileAllStaticEntitiesPlusDyn cells are in
15042 -bool MFFPMIter::IsPresenceOfNode(const MEDFileEntities *entities)
15048 - const MEDFileStaticEntities *entities2(dynamic_cast<const MEDFileStaticEntities *>(entities));
15051 - const std::vector< std::pair<TypeOfField,INTERP_KERNEL::NormalizedCellType> >& myEnt(entities2->getEntries());
15052 - for(std::vector< std::pair<TypeOfField,INTERP_KERNEL::NormalizedCellType> >::const_iterator it=myEnt.begin();it!=myEnt.end();it++)
15053 - if((*it).first==ON_NODES)
15057 - return true;// for MEDFileAllStaticEntites and MEDFileAllStaticEntitiesPlusDyn nodes are in
15061 -MFFPMIter2::MFFPMIter2(const std::vector<INTERP_KERNEL::NormalizedCellType>& cts)
15063 - std::size_t sz(cts.size());
15065 - for(std::size_t i=0;i<sz;i++)
15067 - INTERP_KERNEL::NormalizedCellType *loc(std::find(typmai2,typmai2+MED_N_CELL_FIXED_GEO,cts[i]));
15068 - if(loc!=typmai2+MED_N_CELL_FIXED_GEO)
15069 - _ids[i]=(int)std::distance(typmai2,loc);
15071 - throw INTERP_KERNEL::Exception("MFFPMIter2 : The specified geo type does not exists !");
15077 -MEDFileFieldPerMesh::MEDFileFieldPerMesh(med_idt fid, MEDFileAnyTypeField1TSWithoutSDA *fath, int meshCsit, int meshIteration, int meshOrder, const MEDFileFieldNameScope& nasc, const MEDFileMesh *mm, const MEDFileEntities *entities):_mesh_iteration(meshIteration),_mesh_order(meshOrder),
15080 - INTERP_KERNEL::AutoPtr<char> meshName(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
15081 - INTERP_KERNEL::AutoPtr<char> pflName(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
15082 - INTERP_KERNEL::AutoPtr<char> locName(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
15083 - const MEDFileUMesh *mmu(dynamic_cast<const MEDFileUMesh *>(mm));
15084 - INTERP_KERNEL::AutoCppPtr<MFFPMIter> iter0(MFFPMIter::NewCell(entities));
15085 - for(iter0->begin();!iter0->finished();iter0->next())
15087 - int nbProfile (MEDfield23nProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_CELL ,typmai[iter0->current()],meshCsit+1,meshName,pflName,locName));
15088 - std::string name0(MEDLoaderBase::buildStringFromFortran(meshName,MED_NAME_SIZE+1));
15089 - int nbProfile2(MEDfield23nProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_NODE_ELEMENT,typmai[iter0->current()],meshCsit+1,meshName,pflName,locName));
15090 - std::string name1(MEDLoaderBase::buildStringFromFortran(meshName,MED_NAME_SIZE+1));
15091 - if(nbProfile>0 || nbProfile2>0)
15093 - const PartDefinition *pd(0);
15095 - pd=mmu->getPartDefAtLevel(mmu->getRelativeLevOnGeoType(typmai2[iter0->current()]),typmai2[iter0->current()]);
15096 - _field_pm_pt.push_back(MEDFileFieldPerMeshPerType::NewOnRead(fid,this,ON_CELLS,typmai2[iter0->current()],nasc,pd));
15098 - setMeshName(name0);
15100 - setMeshName(name1);
15103 - if(MFFPMIter::IsPresenceOfNode(entities))
15105 - int nbProfile(MEDfield23nProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_NODE,MED_NONE,meshCsit+1,meshName,pflName,locName));
15108 - const PartDefinition *pd(0);
15110 - pd=mmu->getPartDefAtLevel(1,INTERP_KERNEL::NORM_ERROR);
15111 - _field_pm_pt.push_back(MEDFileFieldPerMeshPerType::NewOnRead(fid,this,ON_NODES,INTERP_KERNEL::NORM_ERROR,nasc,pd));
15112 - setMeshName(MEDLoaderBase::buildStringFromFortran(meshName,MED_NAME_SIZE));
15117 - std::vector<int> dynGT(entities->getDynGTAvail());
15118 - for(std::vector<int>::const_iterator it=dynGT.begin();it!=dynGT.end();it++)
15120 - int nbPfl(MEDfieldnProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_STRUCT_ELEMENT,*it,pflName,locName));
15123 - _field_pm_pt.push_back(MEDFileFieldPerMeshPerTypeDyn::NewOnRead(fid,this,entities,*it,nasc));
15124 - setMeshName(MEDLoaderBase::buildStringFromFortran(meshName,MED_NAME_SIZE));
15129 -MEDFileFieldPerMesh::MEDFileFieldPerMesh(MEDFileAnyTypeField1TSWithoutSDA *fath, const MEDCouplingMesh *mesh):_father(fath)
15131 - copyTinyInfoFrom(mesh);
15134 -void MEDFileFieldGlobs::loadProfileInFile(med_idt fid, int id, const std::string& pflName)
15136 - if(id>=(int)_pfls.size())
15137 - _pfls.resize(id+1);
15138 - _pfls[id]=DataArrayInt::New();
15139 - int lgth(MEDprofileSizeByName(fid,pflName.c_str()));
15140 - _pfls[id]->setName(pflName);
15141 - _pfls[id]->alloc(lgth,1);
15142 - MEDFILESAFECALLERRD0(MEDprofileRd,(fid,pflName.c_str(),_pfls[id]->getPointer()));
15143 - _pfls[id]->applyLin(1,-1,0);//Converting into C format
15146 -void MEDFileFieldGlobs::loadProfileInFile(med_idt fid, int i)
15148 - INTERP_KERNEL::AutoPtr<char> pflName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
15150 - MEDFILESAFECALLERRD0(MEDprofileInfo,(fid,i+1,pflName,&sz));
15151 - std::string pflCpp=MEDLoaderBase::buildStringFromFortran(pflName,MED_NAME_SIZE);
15152 - if(i>=(int)_pfls.size())
15153 - _pfls.resize(i+1);
15154 - _pfls[i]=DataArrayInt::New();
15155 - _pfls[i]->alloc(sz,1);
15156 - _pfls[i]->setName(pflCpp.c_str());
15157 - MEDFILESAFECALLERRD0(MEDprofileRd,(fid,pflName,_pfls[i]->getPointer()));
15158 - _pfls[i]->applyLin(1,-1,0);//Converting into C format
15161 -void MEDFileFieldGlobs::writeGlobals(med_idt fid, const MEDFileWritable& opt) const
15163 - int nbOfPfls=_pfls.size();
15164 - for(int i=0;i<nbOfPfls;i++)
15166 - MCAuto<DataArrayInt> cpy=_pfls[i]->deepCopy();
15167 - cpy->applyLin(1,1,0);
15168 - INTERP_KERNEL::AutoPtr<char> pflName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
15169 - MEDLoaderBase::safeStrCpy(_pfls[i]->getName().c_str(),MED_NAME_SIZE,pflName,opt.getTooLongStrPolicy());
15170 - MEDFILESAFECALLERWR0(MEDprofileWr,(fid,pflName,_pfls[i]->getNumberOfTuples(),cpy->getConstPointer()));
15173 - int nbOfLocs=_locs.size();
15174 - for(int i=0;i<nbOfLocs;i++)
15175 - _locs[i]->writeLL(fid);
15178 -void MEDFileFieldGlobs::appendGlobs(const MEDFileFieldGlobs& other, double eps)
15180 - std::vector<std::string> pfls=getPfls();
15181 - for(std::vector< MCAuto<DataArrayInt> >::const_iterator it=other._pfls.begin();it!=other._pfls.end();it++)
15183 - std::vector<std::string>::iterator it2=std::find(pfls.begin(),pfls.end(),(*it)->getName());
15184 - if(it2==pfls.end())
15186 - _pfls.push_back(*it);
15190 - int id=std::distance(pfls.begin(),it2);
15191 - if(!(*it)->isEqual(*_pfls[id]))
15193 - std::ostringstream oss; oss << "MEDFileFieldGlobs::appendGlobs : Profile \"" << (*it)->getName() << "\" already exists and is different from those expecting to be append !";
15194 - throw INTERP_KERNEL::Exception(oss.str());
15198 - std::vector<std::string> locs=getLocs();
15199 - for(std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=other._locs.begin();it!=other._locs.end();it++)
15201 - std::vector<std::string>::iterator it2=std::find(locs.begin(),locs.end(),(*it)->getName());
15202 - if(it2==locs.end())
15204 - _locs.push_back(*it);
15208 - int id=std::distance(locs.begin(),it2);
15209 - if(!(*it)->isEqual(*_locs[id],eps))
15211 - std::ostringstream oss; oss << "MEDFileFieldGlobs::appendGlobs : Localization \"" << (*it)->getName() << "\" already exists and is different from those expecting to be append !";
15212 - throw INTERP_KERNEL::Exception(oss.str());
15218 -void MEDFileFieldGlobs::checkGlobsPflsPartCoherency(const std::vector<std::string>& pflsUsed) const
15220 - for(std::vector<std::string>::const_iterator it=pflsUsed.begin();it!=pflsUsed.end();it++)
15221 - getProfile((*it).c_str());
15224 -void MEDFileFieldGlobs::checkGlobsLocsPartCoherency(const std::vector<std::string>& locsUsed) const
15226 - for(std::vector<std::string>::const_iterator it=locsUsed.begin();it!=locsUsed.end();it++)
15227 - getLocalization((*it).c_str());
15230 -void MEDFileFieldGlobs::loadGlobals(med_idt fid, const MEDFileFieldGlobsReal& real)
15232 - std::vector<std::string> profiles=real.getPflsReallyUsed();
15233 - int sz=profiles.size();
15234 - _pfls.resize(sz);
15235 - for(int i=0;i<sz;i++)
15236 - loadProfileInFile(fid,i,profiles[i].c_str());
15238 - std::vector<std::string> locs=real.getLocsReallyUsed();
15240 - _locs.resize(sz);
15241 - for(int i=0;i<sz;i++)
15242 - _locs[i]=MEDFileFieldLoc::New(fid,locs[i].c_str());
15245 -void MEDFileFieldGlobs::loadAllGlobals(med_idt fid, const MEDFileEntities *entities)
15247 - int nProfil=MEDnProfile(fid);
15248 - for(int i=0;i<nProfil;i++)
15249 - loadProfileInFile(fid,i);
15250 - int sz=MEDnLocalization(fid);
15251 - _locs.resize(sz);
15252 - for(int i=0;i<sz;i++)
15254 - _locs[i]=MEDFileFieldLoc::New(fid,i,entities);
15258 -MEDFileFieldGlobs *MEDFileFieldGlobs::New(med_idt fid)
15260 - return new MEDFileFieldGlobs(fid);
15263 -MEDFileFieldGlobs *MEDFileFieldGlobs::New()
15265 - return new MEDFileFieldGlobs;
15268 -std::size_t MEDFileFieldGlobs::getHeapMemorySizeWithoutChildren() const
15270 - return _file_name.capacity()+_pfls.capacity()*sizeof(MCAuto<DataArrayInt>)+_locs.capacity()*sizeof(MCAuto<MEDFileFieldLoc>);
15273 -std::vector<const BigMemoryObject *> MEDFileFieldGlobs::getDirectChildrenWithNull() const
15275 - std::vector<const BigMemoryObject *> ret;
15276 - for(std::vector< MCAuto< DataArrayInt > >::const_iterator it=_pfls.begin();it!=_pfls.end();it++)
15277 - ret.push_back((const DataArrayInt *)*it);
15278 - for(std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=_locs.begin();it!=_locs.end();it++)
15279 - ret.push_back((const MEDFileFieldLoc *)*it);
15283 -MEDFileFieldGlobs *MEDFileFieldGlobs::deepCopy() const
15285 - MCAuto<MEDFileFieldGlobs> ret=new MEDFileFieldGlobs(*this);
15287 - for(std::vector< MCAuto<DataArrayInt> >::const_iterator it=_pfls.begin();it!=_pfls.end();it++,i++)
15289 - if((const DataArrayInt *)*it)
15290 - ret->_pfls[i]=(*it)->deepCopy();
15293 - for(std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=_locs.begin();it!=_locs.end();it++,i++)
15295 - if((const MEDFileFieldLoc*)*it)
15296 - ret->_locs[i]=(*it)->deepCopy();
15298 - return ret.retn();
15302 - * \throw if a profile in \a pfls in not in \a this.
15303 - * \throw if a localization in \a locs in not in \a this.
15304 - * \sa MEDFileFieldGlobs::deepCpyPart
15306 -MEDFileFieldGlobs *MEDFileFieldGlobs::shallowCpyPart(const std::vector<std::string>& pfls, const std::vector<std::string>& locs) const
15308 - MCAuto<MEDFileFieldGlobs> ret=MEDFileFieldGlobs::New();
15309 - for(std::vector<std::string>::const_iterator it1=pfls.begin();it1!=pfls.end();it1++)
15311 - DataArrayInt *pfl=const_cast<DataArrayInt *>(getProfile((*it1).c_str()));
15313 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::shallowCpyPart : internal error ! pfl null !");
15315 - MCAuto<DataArrayInt> pfl2(pfl);
15316 - ret->_pfls.push_back(pfl2);
15318 - for(std::vector<std::string>::const_iterator it2=locs.begin();it2!=locs.end();it2++)
15320 - MEDFileFieldLoc *loc=const_cast<MEDFileFieldLoc *>(&getLocalization((*it2).c_str()));
15322 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::shallowCpyPart : internal error ! loc null !");
15324 - MCAuto<MEDFileFieldLoc> loc2(loc);
15325 - ret->_locs.push_back(loc2);
15327 - ret->setFileName(getFileName());
15328 - return ret.retn();
15332 - * \throw if a profile in \a pfls in not in \a this.
15333 - * \throw if a localization in \a locs in not in \a this.
15334 - * \sa MEDFileFieldGlobs::shallowCpyPart
15336 -MEDFileFieldGlobs *MEDFileFieldGlobs::deepCpyPart(const std::vector<std::string>& pfls, const std::vector<std::string>& locs) const
15338 - MCAuto<MEDFileFieldGlobs> ret=MEDFileFieldGlobs::New();
15339 - for(std::vector<std::string>::const_iterator it1=pfls.begin();it1!=pfls.end();it1++)
15341 - DataArrayInt *pfl=const_cast<DataArrayInt *>(getProfile((*it1).c_str()));
15343 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::deepCpyPart : internal error ! pfl null !");
15344 - ret->_pfls.push_back(pfl->deepCopy());
15346 - for(std::vector<std::string>::const_iterator it2=locs.begin();it2!=locs.end();it2++)
15348 - MEDFileFieldLoc *loc=const_cast<MEDFileFieldLoc *>(&getLocalization((*it2).c_str()));
15350 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::deepCpyPart : internal error ! loc null !");
15351 - ret->_locs.push_back(loc->deepCopy());
15353 - ret->setFileName(getFileName());
15354 - return ret.retn();
15357 -MEDFileFieldGlobs::MEDFileFieldGlobs(med_idt fid):_file_name(MEDFileWritable::FileNameFromFID(fid))
15361 -MEDFileFieldGlobs::MEDFileFieldGlobs()
15365 -MEDFileFieldGlobs::~MEDFileFieldGlobs()
15369 -void MEDFileFieldGlobs::simpleRepr(std::ostream& oss) const
15371 - oss << "Profiles :\n";
15372 - std::size_t n=_pfls.size();
15373 - for(std::size_t i=0;i<n;i++)
15375 - oss << " - #" << i << " ";
15376 - const DataArrayInt *pfl=_pfls[i];
15378 - oss << "\"" << pfl->getName() << "\"\n";
15380 - oss << "EMPTY !\n";
15383 - oss << "Localizations :\n";
15384 - for(std::size_t i=0;i<n;i++)
15386 - oss << " - #" << i << " ";
15387 - const MEDFileFieldLoc *loc=_locs[i];
15389 - loc->simpleRepr(oss);
15391 - oss<< "EMPTY !\n";
15395 -void MEDFileFieldGlobs::changePflsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
15397 - for(std::vector< MCAuto<DataArrayInt> >::iterator it=_pfls.begin();it!=_pfls.end();it++)
15399 - DataArrayInt *elt(*it);
15402 - std::string name(elt->getName());
15403 - for(std::vector< std::pair<std::vector<std::string>, std::string > >::const_iterator it2=mapOfModif.begin();it2!=mapOfModif.end();it2++)
15405 - if(std::find((*it2).first.begin(),(*it2).first.end(),name)!=(*it2).first.end())
15407 - elt->setName((*it2).second.c_str());
15415 -void MEDFileFieldGlobs::changeLocsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
15417 - for(std::vector< MCAuto<MEDFileFieldLoc> >::iterator it=_locs.begin();it!=_locs.end();it++)
15419 - MEDFileFieldLoc *elt(*it);
15422 - std::string name(elt->getName());
15423 - for(std::vector< std::pair<std::vector<std::string>, std::string > >::const_iterator it2=mapOfModif.begin();it2!=mapOfModif.end();it2++)
15425 - if(std::find((*it2).first.begin(),(*it2).first.end(),name)!=(*it2).first.end())
15427 - elt->setName((*it2).second.c_str());
15435 -int MEDFileFieldGlobs::getNbOfGaussPtPerCell(int locId) const
15437 - if(locId<0 || locId>=(int)_locs.size())
15438 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::getNbOfGaussPtPerCell : Invalid localization id !");
15439 - return _locs[locId]->getNbOfGaussPtPerCell();
15442 -const MEDFileFieldLoc& MEDFileFieldGlobs::getLocalization(const std::string& locName) const
15444 - return getLocalizationFromId(getLocalizationId(locName));
15447 -const MEDFileFieldLoc& MEDFileFieldGlobs::getLocalizationFromId(int locId) const
15449 - if(locId<0 || locId>=(int)_locs.size())
15450 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::getLocalizationFromId : Invalid localization id !");
15451 - return *_locs[locId];
15454 -/// @cond INTERNAL
15455 -namespace MEDCouplingImpl
15460 - LocFinder(const std::string& loc):_loc(loc) { }
15461 - bool operator() (const MCAuto<MEDFileFieldLoc>& loc) { return loc->isName(_loc); }
15463 - const std::string &_loc;
15469 - PflFinder(const std::string& pfl):_pfl(pfl) { }
15470 - bool operator() (const MCAuto<DataArrayInt>& pfl) { return _pfl==pfl->getName(); }
15472 - const std::string& _pfl;
15477 -int MEDFileFieldGlobs::getLocalizationId(const std::string& loc) const
15479 - std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=std::find_if(_locs.begin(),_locs.end(),MEDCouplingImpl::LocFinder(loc));
15480 - if(it==_locs.end())
15482 - std::ostringstream oss; oss << "MEDFileFieldGlobs::getLocalisationId : no such localisation name : \"" << loc << "\" Possible localizations are : ";
15483 - for(it=_locs.begin();it!=_locs.end();it++)
15484 - oss << "\"" << (*it)->getName() << "\", ";
15485 - throw INTERP_KERNEL::Exception(oss.str());
15487 - return std::distance(_locs.begin(),it);
15491 - * The returned value is never null.
15493 -const DataArrayInt *MEDFileFieldGlobs::getProfile(const std::string& pflName) const
15495 - std::string pflNameCpp(pflName);
15496 - std::vector< MCAuto<DataArrayInt> >::const_iterator it=std::find_if(_pfls.begin(),_pfls.end(),MEDCouplingImpl::PflFinder(pflNameCpp));
15497 - if(it==_pfls.end())
15499 - std::ostringstream oss; oss << "MEDFileFieldGlobs::getProfile: no such profile name : \"" << pflNameCpp << "\" Possible profiles are : ";
15500 - for(it=_pfls.begin();it!=_pfls.end();it++)
15501 - oss << "\"" << (*it)->getName() << "\", ";
15502 - throw INTERP_KERNEL::Exception(oss.str());
15507 -const DataArrayInt *MEDFileFieldGlobs::getProfileFromId(int pflId) const
15509 - if(pflId<0 || pflId>=(int)_pfls.size())
15510 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::getProfileFromId : Invalid profile id !");
15511 - return _pfls[pflId];
15514 -MEDFileFieldLoc& MEDFileFieldGlobs::getLocalizationFromId(int locId)
15516 - if(locId<0 || locId>=(int)_locs.size())
15517 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::getLocalizationFromId : Invalid localization id !");
15518 - return *_locs[locId];
15521 -MEDFileFieldLoc& MEDFileFieldGlobs::getLocalization(const std::string& locName)
15523 - return getLocalizationFromId(getLocalizationId(locName));
15527 - * The returned value is never null.
15529 -DataArrayInt *MEDFileFieldGlobs::getProfile(const std::string& pflName)
15531 - std::string pflNameCpp(pflName);
15532 - std::vector< MCAuto<DataArrayInt> >::iterator it=std::find_if(_pfls.begin(),_pfls.end(),MEDCouplingImpl::PflFinder(pflNameCpp));
15533 - if(it==_pfls.end())
15535 - std::ostringstream oss; oss << "MEDFileFieldGlobs::getProfile: no such profile name : \"" << pflNameCpp << "\" Possible profiles are : ";
15536 - for(it=_pfls.begin();it!=_pfls.end();it++)
15537 - oss << "\"" << (*it)->getName() << "\", ";
15538 - throw INTERP_KERNEL::Exception(oss.str());
15543 -DataArrayInt *MEDFileFieldGlobs::getProfileFromId(int pflId)
15545 - if(pflId<0 || pflId>=(int)_pfls.size())
15546 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::getProfileFromId : Invalid profile id !");
15547 - return _pfls[pflId];
15550 -void MEDFileFieldGlobs::killProfileIds(const std::vector<int>& pflIds)
15552 - std::vector< MCAuto<DataArrayInt> > newPfls;
15554 - for(std::vector< MCAuto<DataArrayInt> >::const_iterator it=_pfls.begin();it!=_pfls.end();it++,i++)
15556 - if(std::find(pflIds.begin(),pflIds.end(),i)==pflIds.end())
15557 - newPfls.push_back(*it);
15562 -void MEDFileFieldGlobs::killLocalizationIds(const std::vector<int>& locIds)
15564 - std::vector< MCAuto<MEDFileFieldLoc> > newLocs;
15566 - for(std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=_locs.begin();it!=_locs.end();it++,i++)
15568 - if(std::find(locIds.begin(),locIds.end(),i)==locIds.end())
15569 - newLocs.push_back(*it);
15574 -void MEDFileFieldGlobs::killStructureElementsInGlobs()
15576 - std::vector< MCAuto<MEDFileFieldLoc> > newLocs;
15577 - for(std::vector< MCAuto<MEDFileFieldLoc> >::iterator it=_locs.begin();it!=_locs.end();it++)
15579 - if((*it).isNull())
15581 - if(!(*it)->isOnStructureElement())
15582 - newLocs.push_back(*it);
15587 -std::vector<std::string> MEDFileFieldGlobs::getPfls() const
15589 - int sz=_pfls.size();
15590 - std::vector<std::string> ret(sz);
15591 - for(int i=0;i<sz;i++)
15592 - ret[i]=_pfls[i]->getName();
15596 -std::vector<std::string> MEDFileFieldGlobs::getLocs() const
15598 - int sz=_locs.size();
15599 - std::vector<std::string> ret(sz);
15600 - for(int i=0;i<sz;i++)
15601 - ret[i]=_locs[i]->getName();
15605 -bool MEDFileFieldGlobs::existsPfl(const std::string& pflName) const
15607 - std::vector<std::string> v=getPfls();
15608 - std::string s(pflName);
15609 - return std::find(v.begin(),v.end(),s)!=v.end();
15612 -bool MEDFileFieldGlobs::existsLoc(const std::string& locName) const
15614 - std::vector<std::string> v=getLocs();
15615 - std::string s(locName);
15616 - return std::find(v.begin(),v.end(),s)!=v.end();
15619 -std::vector< std::vector<int> > MEDFileFieldGlobs::whichAreEqualProfiles() const
15621 - std::map<int,std::vector<int> > m;
15623 - for(std::vector< MCAuto<DataArrayInt> >::const_iterator it=_pfls.begin();it!=_pfls.end();it++,i++)
15625 - const DataArrayInt *tmp=(*it);
15628 - m[tmp->getHashCode()].push_back(i);
15631 - std::vector< std::vector<int> > ret;
15632 - for(std::map<int,std::vector<int> >::const_iterator it2=m.begin();it2!=m.end();it2++)
15634 - if((*it2).second.size()>1)
15636 - std::vector<int> ret0;
15637 - bool equalityOrNot=false;
15638 - for(std::vector<int>::const_iterator it3=(*it2).second.begin();it3!=(*it2).second.end();it3++)
15640 - std::vector<int>::const_iterator it4=it3; it4++;
15641 - for(;it4!=(*it2).second.end();it4++)
15643 - if(_pfls[*it3]->isEqualWithoutConsideringStr(*_pfls[*it4]))
15645 - if(!equalityOrNot)
15646 - ret0.push_back(*it3);
15647 - ret0.push_back(*it4);
15648 - equalityOrNot=true;
15652 - if(!ret0.empty())
15653 - ret.push_back(ret0);
15659 -std::vector< std::vector<int> > MEDFileFieldGlobs::whichAreEqualLocs(double eps) const
15661 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::whichAreEqualLocs : no implemented yet ! Sorry !");
15664 -void MEDFileFieldGlobs::appendProfile(DataArrayInt *pfl)
15666 - std::string name(pfl->getName());
15668 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::appendProfile : unsupported profiles with no name !");
15669 - for(std::vector< MCAuto<DataArrayInt> >::const_iterator it=_pfls.begin();it!=_pfls.end();it++)
15670 - if(name==(*it)->getName())
15672 - if(!pfl->isEqual(*(*it)))
15674 - std::ostringstream oss; oss << "MEDFileFieldGlobs::appendProfile : profile \"" << name << "\" already exists and is different from existing !";
15675 - throw INTERP_KERNEL::Exception(oss.str());
15679 - _pfls.push_back(pfl);
15682 -void MEDFileFieldGlobs::appendLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w)
15684 - std::string name(locName);
15686 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::appendLoc : unsupported localizations with no name !");
15687 - MCAuto<MEDFileFieldLoc> obj=MEDFileFieldLoc::New(locName,geoType,refCoo,gsCoo,w);
15688 - for(std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=_locs.begin();it!=_locs.end();it++)
15689 - if((*it)->isName(locName))
15691 - if(!(*it)->isEqual(*obj,1e-12))
15693 - std::ostringstream oss; oss << "MEDFileFieldGlobs::appendLoc : localization \"" << name << "\" already exists and is different from existing !";
15694 - throw INTERP_KERNEL::Exception(oss.str());
15697 - _locs.push_back(obj);
15700 -std::string MEDFileFieldGlobs::createNewNameOfPfl() const
15702 - std::vector<std::string> names=getPfls();
15703 - return CreateNewNameNotIn("NewPfl_",names);
15706 -std::string MEDFileFieldGlobs::createNewNameOfLoc() const
15708 - std::vector<std::string> names=getLocs();
15709 - return CreateNewNameNotIn("NewLoc_",names);
15712 -std::string MEDFileFieldGlobs::CreateNewNameNotIn(const std::string& prefix, const std::vector<std::string>& namesToAvoid)
15714 - for(std::size_t sz=0;sz<100000;sz++)
15716 - std::ostringstream tryName;
15717 - tryName << prefix << sz;
15718 - if(std::find(namesToAvoid.begin(),namesToAvoid.end(),tryName.str())==namesToAvoid.end())
15719 - return tryName.str();
15721 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::CreateNewNameNotIn : impossible to create an additional profile limit of 100000 profiles reached !");
15725 - * Creates a MEDFileFieldGlobsReal on a given file name. Nothing is read here.
15726 - * \param [in] fname - the file name.
15728 -MEDFileFieldGlobsReal::MEDFileFieldGlobsReal(med_idt fid):_globals(MEDFileFieldGlobs::New(fid))
15733 - * Creates an empty MEDFileFieldGlobsReal.
15735 -MEDFileFieldGlobsReal::MEDFileFieldGlobsReal():_globals(MEDFileFieldGlobs::New())
15739 -std::size_t MEDFileFieldGlobsReal::getHeapMemorySizeWithoutChildren() const
15744 -std::vector<const BigMemoryObject *> MEDFileFieldGlobsReal::getDirectChildrenWithNull() const
15746 - std::vector<const BigMemoryObject *> ret;
15747 - ret.push_back((const MEDFileFieldGlobs *)_globals);
15752 - * Returns a string describing profiles and Gauss points held in \a this.
15753 - * \return std::string - the description string.
15755 -void MEDFileFieldGlobsReal::simpleReprGlobs(std::ostream& oss) const
15757 - const MEDFileFieldGlobs *glob=_globals;
15758 - std::ostringstream oss2; oss2 << glob;
15759 - std::string stars(oss2.str().length(),'*');
15760 - oss << "Globals information on fields (at " << oss2.str() << "):" << "\n************************************" << stars << "\n\n";
15762 - glob->simpleRepr(oss);
15764 - oss << "NO GLOBAL INFORMATION !\n";
15767 -void MEDFileFieldGlobsReal::resetContent()
15769 - _globals=MEDFileFieldGlobs::New();
15772 -void MEDFileFieldGlobsReal::killStructureElementsInGlobs()
15774 - contentNotNull()->killStructureElementsInGlobs();
15777 -MEDFileFieldGlobsReal::~MEDFileFieldGlobsReal()
15782 - * Copies references to profiles and Gauss points from another MEDFileFieldGlobsReal.
15783 - * \param [in] other - the other MEDFileFieldGlobsReal to copy data from.
15785 -void MEDFileFieldGlobsReal::shallowCpyGlobs(const MEDFileFieldGlobsReal& other)
15787 - _globals=other._globals;
15791 - * Copies references to ** only used ** by \a this, profiles and Gauss points from another MEDFileFieldGlobsReal.
15792 - * \param [in] other - the other MEDFileFieldGlobsReal to copy data from.
15794 -void MEDFileFieldGlobsReal::shallowCpyOnlyUsedGlobs(const MEDFileFieldGlobsReal& other)
15796 - const MEDFileFieldGlobs *otherg(other._globals);
15799 - _globals=otherg->shallowCpyPart(getPflsReallyUsed(),getLocsReallyUsed());
15803 - * Copies deeply to ** only used ** by \a this, profiles and Gauss points from another MEDFileFieldGlobsReal.
15804 - * \param [in] other - the other MEDFileFieldGlobsReal to copy data from.
15806 -void MEDFileFieldGlobsReal::deepCpyOnlyUsedGlobs(const MEDFileFieldGlobsReal& other)
15808 - const MEDFileFieldGlobs *otherg(other._globals);
15811 - _globals=otherg->deepCpyPart(getPflsReallyUsed(),getLocsReallyUsed());
15814 -void MEDFileFieldGlobsReal::deepCpyGlobs(const MEDFileFieldGlobsReal& other)
15816 - _globals=other._globals;
15817 - if((const MEDFileFieldGlobs *)_globals)
15818 - _globals=other._globals->deepCopy();
15822 - * Adds profiles and Gauss points held by another MEDFileFieldGlobsReal to \a this one.
15823 - * \param [in] other - the MEDFileFieldGlobsReal to copy data from.
15824 - * \param [in] eps - a precision used to compare Gauss points with same name held by
15825 - * \a this and \a other MEDFileFieldGlobsReal.
15826 - * \throw If \a this and \a other hold profiles with equal names but different ids.
15827 - * \throw If \a this and \a other hold different Gauss points with equal names.
15829 -void MEDFileFieldGlobsReal::appendGlobs(const MEDFileFieldGlobsReal& other, double eps)
15831 - const MEDFileFieldGlobs *thisGlobals(_globals),*otherGlobals(other._globals);
15832 - if(thisGlobals==otherGlobals)
15836 - _globals=other._globals;
15839 - _globals->appendGlobs(*other._globals,eps);
15842 -void MEDFileFieldGlobsReal::checkGlobsCoherency() const
15844 - checkGlobsPflsPartCoherency();
15845 - checkGlobsLocsPartCoherency();
15848 -void MEDFileFieldGlobsReal::checkGlobsPflsPartCoherency() const
15850 - contentNotNull()->checkGlobsPflsPartCoherency(getPflsReallyUsed());
15853 -void MEDFileFieldGlobsReal::checkGlobsLocsPartCoherency() const
15855 - contentNotNull()->checkGlobsLocsPartCoherency(getLocsReallyUsed());
15858 -void MEDFileFieldGlobsReal::loadProfileInFile(med_idt fid, int id, const std::string& pflName)
15860 - contentNotNull()->loadProfileInFile(fid,id,pflName);
15863 -void MEDFileFieldGlobsReal::loadProfileInFile(med_idt fid, int id)
15865 - contentNotNull()->loadProfileInFile(fid,id);
15868 -void MEDFileFieldGlobsReal::loadGlobals(med_idt fid)
15870 - contentNotNull()->loadGlobals(fid,*this);
15873 -void MEDFileFieldGlobsReal::loadAllGlobals(med_idt fid, const MEDFileEntities *entities)
15875 - contentNotNull()->loadAllGlobals(fid,entities);
15878 -void MEDFileFieldGlobsReal::writeGlobals(med_idt fid, const MEDFileWritable& opt) const
15880 - contentNotNull()->writeGlobals(fid,opt);
15884 - * Returns names of all profiles. To get only used profiles call getPflsReallyUsed()
15885 - * or getPflsReallyUsedMulti().
15886 - * \return std::vector<std::string> - a sequence of names of all profiles.
15888 -std::vector<std::string> MEDFileFieldGlobsReal::getPfls() const
15890 - return contentNotNull()->getPfls();
15894 - * Returns names of all localizations. To get only used localizations call getLocsReallyUsed()
15895 - * or getLocsReallyUsedMulti().
15896 - * \return std::vector<std::string> - a sequence of names of all localizations.
15898 -std::vector<std::string> MEDFileFieldGlobsReal::getLocs() const
15900 - return contentNotNull()->getLocs();
15904 - * Checks if the profile with a given name exists.
15905 - * \param [in] pflName - the profile name of interest.
15906 - * \return bool - \c true if the profile named \a pflName exists.
15908 -bool MEDFileFieldGlobsReal::existsPfl(const std::string& pflName) const
15910 - return contentNotNull()->existsPfl(pflName);
15914 - * Checks if the localization with a given name exists.
15915 - * \param [in] locName - the localization name of interest.
15916 - * \return bool - \c true if the localization named \a locName exists.
15918 -bool MEDFileFieldGlobsReal::existsLoc(const std::string& locName) const
15920 - return contentNotNull()->existsLoc(locName);
15923 -std::string MEDFileFieldGlobsReal::createNewNameOfPfl() const
15925 - return contentNotNull()->createNewNameOfPfl();
15928 -std::string MEDFileFieldGlobsReal::createNewNameOfLoc() const
15930 - return contentNotNull()->createNewNameOfLoc();
15934 - * Sets the name of a MED file.
15935 - * \param [inout] fileName - the file name.
15937 -void MEDFileFieldGlobsReal::setFileName(const std::string& fileName)
15939 - contentNotNull()->setFileName(fileName);
15943 - * Finds equal profiles. Two profiles are considered equal if they contain the same ids
15944 - * in the same order.
15945 - * \return std::vector< std::vector<int> > - a sequence of groups of equal profiles.
15946 - * Each item of this sequence is a vector containing ids of equal profiles.
15948 -std::vector< std::vector<int> > MEDFileFieldGlobsReal::whichAreEqualProfiles() const
15950 - return contentNotNull()->whichAreEqualProfiles();
15954 - * Finds equal localizations.
15955 - * \param [in] eps - a precision used to compare real values of the localizations.
15956 - * \return std::vector< std::vector<int> > - a sequence of groups of equal localizations.
15957 - * Each item of this sequence is a vector containing ids of equal localizations.
15959 -std::vector< std::vector<int> > MEDFileFieldGlobsReal::whichAreEqualLocs(double eps) const
15961 - return contentNotNull()->whichAreEqualLocs(eps);
15965 - * Renames the profiles. References to profiles (a reference is a profile name) are not changed.
15966 - * \param [in] mapOfModif - a sequence describing required renaming. Each element of
15967 - * this sequence is a pair whose
15968 - * - the first item is a vector of profile names to replace by the second item,
15969 - * - the second item is a profile name to replace every profile name of the first item.
15971 -void MEDFileFieldGlobsReal::changePflsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
15973 - contentNotNull()->changePflsNamesInStruct(mapOfModif);
15977 - * Renames the localizations. References to localizations (a reference is a localization name) are not changed.
15978 - * \param [in] mapOfModif - a sequence describing required renaming. Each element of
15979 - * this sequence is a pair whose
15980 - * - the first item is a vector of localization names to replace by the second item,
15981 - * - the second item is a localization name to replace every localization name of the first item.
15983 -void MEDFileFieldGlobsReal::changeLocsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
15985 - contentNotNull()->changeLocsNamesInStruct(mapOfModif);
15989 - * Replaces references to some profiles (a reference is a profile name) by references
15990 - * to other profiles and, contrary to changePflsRefsNamesGen(), renames the profiles
15991 - * them-selves accordingly. <br>
15992 - * This method is a generalization of changePflName().
15993 - * \param [in] mapOfModif - a sequence describing required replacements. Each element of
15994 - * this sequence is a pair whose
15995 - * - the first item is a vector of profile names to replace by the second item,
15996 - * - the second item is a profile name to replace every profile of the first item.
15997 - * \sa changePflsRefsNamesGen()
15998 - * \sa changePflName()
16000 -void MEDFileFieldGlobsReal::changePflsNames(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
16002 - changePflsRefsNamesGen(mapOfModif);
16003 - changePflsNamesInStruct(mapOfModif);
16007 - * Replaces references to some localizations (a reference is a localization name) by references
16008 - * to other localizations and, contrary to changeLocsRefsNamesGen(), renames the localizations
16009 - * them-selves accordingly. <br>
16010 - * This method is a generalization of changeLocName().
16011 - * \param [in] mapOfModif - a sequence describing required replacements. Each element of
16012 - * this sequence is a pair whose
16013 - * - the first item is a vector of localization names to replace by the second item,
16014 - * - the second item is a localization name to replace every localization of the first item.
16015 - * \sa changeLocsRefsNamesGen()
16016 - * \sa changeLocName()
16018 -void MEDFileFieldGlobsReal::changeLocsNames(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
16020 - changeLocsRefsNamesGen(mapOfModif);
16021 - changeLocsNamesInStruct(mapOfModif);
16025 - * Renames the profile having a given name and updates references to this profile.
16026 - * \param [in] oldName - the name of the profile to rename.
16027 - * \param [in] newName - a new name of the profile.
16028 - * \sa changePflsNames().
16030 -void MEDFileFieldGlobsReal::changePflName(const std::string& oldName, const std::string& newName)
16032 - std::vector< std::pair<std::vector<std::string>, std::string > > mapOfModif(1);
16033 - std::pair<std::vector<std::string>, std::string > p(std::vector<std::string>(1,std::string(oldName)),std::string(newName));
16035 - changePflsNames(mapOfModif);
16039 - * Renames the localization having a given name and updates references to this localization.
16040 - * \param [in] oldName - the name of the localization to rename.
16041 - * \param [in] newName - a new name of the localization.
16042 - * \sa changeLocsNames().
16044 -void MEDFileFieldGlobsReal::changeLocName(const std::string& oldName, const std::string& newName)
16046 - std::vector< std::pair<std::vector<std::string>, std::string > > mapOfModif(1);
16047 - std::pair<std::vector<std::string>, std::string > p(std::vector<std::string>(1,std::string(oldName)),std::string(newName));
16049 - changeLocsNames(mapOfModif);
16053 - * Removes duplicated profiles. Returns a map used to update references to removed
16054 - * profiles via changePflsRefsNamesGen().
16055 - * Equal profiles are found using whichAreEqualProfiles().
16056 - * \return std::vector< std::pair<std::vector<std::string>, std::string > > -
16057 - * a sequence describing the performed replacements of profiles. Each element of
16058 - * this sequence is a pair whose
16059 - * - the first item is a vector of profile names replaced by the second item,
16060 - * - the second item is a profile name replacing every profile of the first item.
16062 -std::vector< std::pair<std::vector<std::string>, std::string > > MEDFileFieldGlobsReal::zipPflsNames()
16064 - std::vector< std::vector<int> > pseudoRet=whichAreEqualProfiles();
16065 - std::vector< std::pair<std::vector<std::string>, std::string > > ret(pseudoRet.size());
16067 - for(std::vector< std::vector<int> >::const_iterator it=pseudoRet.begin();it!=pseudoRet.end();it++,i++)
16069 - std::vector< std::string > tmp((*it).size());
16071 - for(std::vector<int>::const_iterator it2=(*it).begin();it2!=(*it).end();it2++,j++)
16072 - tmp[j]=std::string(getProfileFromId(*it2)->getName());
16073 - std::pair<std::vector<std::string>, std::string > p(tmp,tmp.front());
16075 - std::vector<int> tmp2((*it).begin()+1,(*it).end());
16076 - killProfileIds(tmp2);
16078 - changePflsRefsNamesGen(ret);
16083 - * Removes duplicated localizations. Returns a map used to update references to removed
16084 - * localizations via changeLocsRefsNamesGen().
16085 - * Equal localizations are found using whichAreEqualLocs().
16086 - * \param [in] eps - a precision used to compare real values of the localizations.
16087 - * \return std::vector< std::pair<std::vector<std::string>, std::string > > -
16088 - * a sequence describing the performed replacements of localizations. Each element of
16089 - * this sequence is a pair whose
16090 - * - the first item is a vector of localization names replaced by the second item,
16091 - * - the second item is a localization name replacing every localization of the first item.
16093 -std::vector< std::pair<std::vector<std::string>, std::string > > MEDFileFieldGlobsReal::zipLocsNames(double eps)
16095 - std::vector< std::vector<int> > pseudoRet=whichAreEqualLocs(eps);
16096 - std::vector< std::pair<std::vector<std::string>, std::string > > ret(pseudoRet.size());
16098 - for(std::vector< std::vector<int> >::const_iterator it=pseudoRet.begin();it!=pseudoRet.end();it++,i++)
16100 - std::vector< std::string > tmp((*it).size());
16102 - for(std::vector<int>::const_iterator it2=(*it).begin();it2!=(*it).end();it2++,j++)
16103 - tmp[j]=std::string(getLocalizationFromId(*it2).getName());
16104 - std::pair<std::vector<std::string>, std::string > p(tmp,tmp.front());
16106 - std::vector<int> tmp2((*it).begin()+1,(*it).end());
16107 - killLocalizationIds(tmp2);
16109 - changeLocsRefsNamesGen(ret);
16114 - * Returns number of Gauss points per cell in a given localization.
16115 - * \param [in] locId - an id of the localization of interest.
16116 - * \return int - the number of the Gauss points per cell.
16118 -int MEDFileFieldGlobsReal::getNbOfGaussPtPerCell(int locId) const
16120 - return contentNotNull()->getNbOfGaussPtPerCell(locId);
16124 - * Returns an id of a localization by its name.
16125 - * \param [in] loc - the localization name of interest.
16126 - * \return int - the id of the localization.
16127 - * \throw If there is no a localization named \a loc.
16129 -int MEDFileFieldGlobsReal::getLocalizationId(const std::string& loc) const
16131 - return contentNotNull()->getLocalizationId(loc);
16135 - * Returns the name of the MED file.
16136 - * \return const std::string& - the MED file name.
16138 -std::string MEDFileFieldGlobsReal::getFileName() const
16140 - return contentNotNull()->getFileName();
16144 - * Returns a localization object by its name.
16145 - * \param [in] locName - the name of the localization of interest.
16146 - * \return const MEDFileFieldLoc& - the localization object having the name \a locName.
16147 - * \throw If there is no a localization named \a locName.
16149 -const MEDFileFieldLoc& MEDFileFieldGlobsReal::getLocalization(const std::string& locName) const
16151 - return contentNotNull()->getLocalization(locName);
16155 - * Returns a localization object by its id.
16156 - * \param [in] locId - the id of the localization of interest.
16157 - * \return const MEDFileFieldLoc& - the localization object having the id \a locId.
16158 - * \throw If there is no a localization with id \a locId.
16160 -const MEDFileFieldLoc& MEDFileFieldGlobsReal::getLocalizationFromId(int locId) const
16162 - return contentNotNull()->getLocalizationFromId(locId);
16166 - * Returns a profile array by its name.
16167 - * \param [in] pflName - the name of the profile of interest.
16168 - * \return const DataArrayInt * - the profile array having the name \a pflName.
16169 - * \throw If there is no a profile named \a pflName.
16171 -const DataArrayInt *MEDFileFieldGlobsReal::getProfile(const std::string& pflName) const
16173 - return contentNotNull()->getProfile(pflName);
16177 - * Returns a profile array by its id.
16178 - * \param [in] pflId - the id of the profile of interest.
16179 - * \return const DataArrayInt * - the profile array having the id \a pflId.
16180 - * \throw If there is no a profile with id \a pflId.
16182 -const DataArrayInt *MEDFileFieldGlobsReal::getProfileFromId(int pflId) const
16184 - return contentNotNull()->getProfileFromId(pflId);
16188 - * Returns a localization object, apt for modification, by its id.
16189 - * \param [in] locId - the id of the localization of interest.
16190 - * \return MEDFileFieldLoc& - a non-const reference to the localization object
16191 - * having the id \a locId.
16192 - * \throw If there is no a localization with id \a locId.
16194 -MEDFileFieldLoc& MEDFileFieldGlobsReal::getLocalizationFromId(int locId)
16196 - return contentNotNull()->getLocalizationFromId(locId);
16200 - * Returns a localization object, apt for modification, by its name.
16201 - * \param [in] locName - the name of the localization of interest.
16202 - * \return MEDFileFieldLoc& - a non-const reference to the localization object
16203 - * having the name \a locName.
16204 - * \throw If there is no a localization named \a locName.
16206 -MEDFileFieldLoc& MEDFileFieldGlobsReal::getLocalization(const std::string& locName)
16208 - return contentNotNull()->getLocalization(locName);
16212 - * Returns a profile array, apt for modification, by its name.
16213 - * \param [in] pflName - the name of the profile of interest.
16214 - * \return DataArrayInt * - a non-const pointer to the profile array having the name \a pflName.
16215 - * \throw If there is no a profile named \a pflName.
16217 -DataArrayInt *MEDFileFieldGlobsReal::getProfile(const std::string& pflName)
16219 - return contentNotNull()->getProfile(pflName);
16223 - * Returns a profile array, apt for modification, by its id.
16224 - * \param [in] pflId - the id of the profile of interest.
16225 - * \return DataArrayInt * - a non-const pointer to the profile array having the id \a pflId.
16226 - * \throw If there is no a profile with id \a pflId.
16228 -DataArrayInt *MEDFileFieldGlobsReal::getProfileFromId(int pflId)
16230 - return contentNotNull()->getProfileFromId(pflId);
16234 - * Removes profiles given by their ids. No data is updated to track this removal.
16235 - * \param [in] pflIds - a sequence of ids of the profiles to remove.
16237 -void MEDFileFieldGlobsReal::killProfileIds(const std::vector<int>& pflIds)
16239 - contentNotNull()->killProfileIds(pflIds);
16243 - * Removes localizations given by their ids. No data is updated to track this removal.
16244 - * \param [in] locIds - a sequence of ids of the localizations to remove.
16246 -void MEDFileFieldGlobsReal::killLocalizationIds(const std::vector<int>& locIds)
16248 - contentNotNull()->killLocalizationIds(locIds);
16252 - * Stores a profile array.
16253 - * \param [in] pfl - the profile array to store.
16254 - * \throw If the name of \a pfl is empty.
16255 - * \throw If a profile with the same name as that of \a pfl already exists but contains
16258 -void MEDFileFieldGlobsReal::appendProfile(DataArrayInt *pfl)
16260 - contentNotNull()->appendProfile(pfl);
16264 - * Adds a new localization of Gauss points.
16265 - * \param [in] locName - the name of the new localization.
16266 - * \param [in] geoType - a geometrical type of the reference cell.
16267 - * \param [in] refCoo - coordinates of points of the reference cell. Size of this vector
16268 - * must be \c nbOfNodesPerCell * \c dimOfType.
16269 - * \param [in] gsCoo - coordinates of Gauss points on the reference cell. Size of this vector
16270 - * must be _wg_.size() * \c dimOfType.
16271 - * \param [in] w - the weights of Gauss points.
16272 - * \throw If \a locName is empty.
16273 - * \throw If a localization with the name \a locName already exists but is
16274 - * different form the new one.
16276 -void MEDFileFieldGlobsReal::appendLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w)
16278 - contentNotNull()->appendLoc(locName,geoType,refCoo,gsCoo,w);
16281 -MEDFileFieldGlobs *MEDFileFieldGlobsReal::contentNotNull()
16283 - MEDFileFieldGlobs *g(_globals);
16285 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobsReal::contentNotNull : no content in not const !");
16289 -const MEDFileFieldGlobs *MEDFileFieldGlobsReal::contentNotNull() const
16291 - const MEDFileFieldGlobs *g(_globals);
16293 - throw INTERP_KERNEL::Exception("MEDFileFieldGlobsReal::contentNotNull : no content in const !");
16297 -//= MEDFileFieldNameScope
16299 -MEDFileFieldNameScope::MEDFileFieldNameScope()
16303 -MEDFileFieldNameScope::MEDFileFieldNameScope(const std::string& fieldName, const std::string& meshName):_name(fieldName),_mesh_name(meshName)
16308 - * Returns the name of \a this field.
16309 - * \return std::string - a string containing the field name.
16311 -std::string MEDFileFieldNameScope::getName() const
16317 - * Sets name of \a this field
16318 - * \param [in] name - the new field name.
16320 -void MEDFileFieldNameScope::setName(const std::string& fieldName)
16325 -std::string MEDFileFieldNameScope::getDtUnit() const
16330 -void MEDFileFieldNameScope::setDtUnit(const std::string& dtUnit)
16335 -void MEDFileFieldNameScope::copyNameScope(const MEDFileFieldNameScope& other)
16337 - _name=other._name;
16338 - _mesh_name=other._mesh_name;
16339 - _dt_unit=other._dt_unit;
16343 - * Returns the mesh name.
16344 - * \return std::string - a string holding the mesh name.
16345 - * \throw If \c _field_per_mesh.empty()
16347 -std::string MEDFileFieldNameScope::getMeshName() const
16349 - return _mesh_name;
16352 -void MEDFileFieldNameScope::setMeshName(const std::string& meshName)
16354 - _mesh_name=meshName;
16357 -//= MEDFileAnyTypeField1TSWithoutSDA
16359 -void MEDFileAnyTypeField1TSWithoutSDA::deepCpyLeavesFrom(const MEDFileAnyTypeField1TSWithoutSDA& other)
16361 - _field_per_mesh.resize(other._field_per_mesh.size());
16363 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=other._field_per_mesh.begin();it!=other._field_per_mesh.end();it++,i++)
16365 - if((const MEDFileFieldPerMesh *)*it)
16366 - _field_per_mesh[i]=(*it)->deepCopy(this);
16370 -void MEDFileAnyTypeField1TSWithoutSDA::accept(MEDFileFieldVisitor& visitor) const
16372 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16373 - if((*it).isNotNull())
16375 - visitor.newMeshEntry(*it);
16376 - (*it)->accept(visitor);
16377 - visitor.endMeshEntry(*it);
16382 - * Prints a string describing \a this field into a stream. This string is outputted
16383 - * by \c print Python command.
16384 - * \param [in] bkOffset - number of white spaces printed at the beginning of each line.
16385 - * \param [in,out] oss - the out stream.
16386 - * \param [in] f1tsId - the field index within a MED file. If \a f1tsId < 0, the tiny
16387 - * info id printed, else, not.
16389 -void MEDFileAnyTypeField1TSWithoutSDA::simpleRepr(int bkOffset, std::ostream& oss, int f1tsId) const
16391 - std::string startOfLine(bkOffset,' ');
16392 - oss << startOfLine << "Field ";
16394 - oss << "[Type=" << getTypeStr() << "] with name \"" << getName() << "\" ";
16395 - oss << "on one time Step ";
16397 - oss << "(" << f1tsId << ") ";
16398 - oss << "on iteration=" << _iteration << " order=" << _order << "." << std::endl;
16399 - oss << startOfLine << "Time attached is : " << _dt << " [" << _dt_unit << "]." << std::endl;
16400 - const DataArray *arr=getUndergroundDataArray();
16403 - const std::vector<std::string> &comps=arr->getInfoOnComponents();
16406 - oss << startOfLine << "Field has " << comps.size() << " components with the following infos :" << std::endl;
16407 - for(std::vector<std::string>::const_iterator it=comps.begin();it!=comps.end();it++)
16408 - oss << startOfLine << " - \"" << (*it) << "\"" << std::endl;
16410 - if(arr->isAllocated())
16412 - oss << startOfLine << "Whole field contains " << arr->getNumberOfTuples() << " tuples." << std::endl;
16415 - oss << startOfLine << "The array of the current field has not allocated yet !" << std::endl;
16419 - oss << startOfLine << "Field infos are empty ! Not defined yet !" << std::endl;
16421 - oss << startOfLine << "----------------------" << std::endl;
16422 - if(!_field_per_mesh.empty())
16425 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it2=_field_per_mesh.begin();it2!=_field_per_mesh.end();it2++,i++)
16427 - const MEDFileFieldPerMesh *cur=(*it2);
16429 - cur->simpleRepr(bkOffset,oss,i);
16431 - oss << startOfLine << "Field per mesh #" << i << " is not defined !" << std::endl;
16436 - oss << startOfLine << "Field is not defined on any meshes !" << std::endl;
16438 - oss << startOfLine << "----------------------" << std::endl;
16441 -std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > MEDFileAnyTypeField1TSWithoutSDA::splitComponents() const
16443 - const DataArray *arr(getUndergroundDataArray());
16445 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::splitComponents : no array defined !");
16446 - int nbOfCompo=arr->getNumberOfComponents();
16447 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret(nbOfCompo);
16448 - for(int i=0;i<nbOfCompo;i++)
16450 - ret[i]=deepCopy();
16451 - std::vector<int> v(1,i);
16452 - MCAuto<DataArray> arr2=arr->keepSelectedComponents(v);
16453 - ret[i]->setArray(arr2);
16458 -MEDFileAnyTypeField1TSWithoutSDA::MEDFileAnyTypeField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order):MEDFileFieldNameScope(fieldName,meshName),_iteration(iteration),_order(order),_csit(csit),_nb_of_tuples_to_be_allocated(-2)
16462 -MEDFileAnyTypeField1TSWithoutSDA::MEDFileAnyTypeField1TSWithoutSDA():_iteration(-1),_order(-1),_dt(0.),_csit(-1),_nb_of_tuples_to_be_allocated(-1)
16467 - * Returns the maximal dimension of supporting elements. Returns -2 if \a this is
16468 - * empty. Returns -1 if this in on nodes.
16469 - * \return int - the dimension of \a this.
16471 -int MEDFileAnyTypeField1TSWithoutSDA::getDimension() const
16474 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16475 - (*it)->getDimension(ret);
16479 -bool MEDFileAnyTypeField1TSWithoutSDA::changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab)
16482 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16484 - MEDFileFieldPerMesh *cur(*it);
16486 - ret=cur->changeMeshNames(modifTab) || ret;
16492 - * Returns the number of iteration of the state of underlying mesh.
16493 - * \return int - the iteration number.
16494 - * \throw If \c _field_per_mesh.empty()
16496 -int MEDFileAnyTypeField1TSWithoutSDA::getMeshIteration() const
16498 - if(_field_per_mesh.empty())
16499 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::getMeshIteration : No field set !");
16500 - return _field_per_mesh[0]->getMeshIteration();
16504 - * Returns the order number of iteration of the state of underlying mesh.
16505 - * \return int - the order number.
16506 - * \throw If \c _field_per_mesh.empty()
16508 -int MEDFileAnyTypeField1TSWithoutSDA::getMeshOrder() const
16510 - if(_field_per_mesh.empty())
16511 - throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::getMeshOrder : No field set !");
16512 - return _field_per_mesh[0]->getMeshOrder();
16516 - * Checks if \a this field is tagged by a given iteration number and a given
16517 - * iteration order number.
16518 - * \param [in] iteration - the iteration number of interest.
16519 - * \param [in] order - the iteration order number of interest.
16520 - * \return bool - \c true if \a this->getIteration() == \a iteration &&
16521 - * \a this->getOrder() == \a order.
16523 -bool MEDFileAnyTypeField1TSWithoutSDA::isDealingTS(int iteration, int order) const
16525 - return iteration==_iteration && order==_order;
16529 - * Returns number of iteration and order number of iteration when
16530 - * \a this field has been calculated.
16531 - * \return std::pair<int,int> - a pair of the iteration number and the iteration
16534 -std::pair<int,int> MEDFileAnyTypeField1TSWithoutSDA::getDtIt() const
16536 - std::pair<int,int> p;
16537 - fillIteration(p);
16542 - * Returns number of iteration and order number of iteration when
16543 - * \a this field has been calculated.
16544 - * \param [in,out] p - a pair returning the iteration number and the iteration
16547 -void MEDFileAnyTypeField1TSWithoutSDA::fillIteration(std::pair<int,int>& p) const
16549 - p.first=_iteration;
16554 - * Returns all types of spatial discretization of \a this field.
16555 - * \param [in,out] types - a sequence of types of \a this field.
16557 -void MEDFileAnyTypeField1TSWithoutSDA::fillTypesOfFieldAvailable(std::vector<TypeOfField>& types) const
16559 - std::set<TypeOfField> types2;
16560 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16562 - (*it)->fillTypesOfFieldAvailable(types2);
16564 - std::back_insert_iterator< std::vector<TypeOfField> > bi(types);
16565 - std::copy(types2.begin(),types2.end(),bi);
16569 - * Returns all types of spatial discretization of \a this field.
16570 - * \return std::vector<TypeOfField> - a sequence of types of spatial discretization
16571 - * of \a this field.
16573 -std::vector<TypeOfField> MEDFileAnyTypeField1TSWithoutSDA::getTypesOfFieldAvailable() const
16575 - std::vector<TypeOfField> ret;
16576 - fillTypesOfFieldAvailable(ret);
16580 -std::vector<std::string> MEDFileAnyTypeField1TSWithoutSDA::getPflsReallyUsed2() const
16582 - std::vector<std::string> ret;
16583 - std::set<std::string> ret2;
16584 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16586 - std::vector<std::string> tmp=(*it)->getPflsReallyUsed();
16587 - for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
16588 - if(ret2.find(*it2)==ret2.end())
16590 - ret.push_back(*it2);
16591 - ret2.insert(*it2);
16597 -std::vector<std::string> MEDFileAnyTypeField1TSWithoutSDA::getLocsReallyUsed2() const
16599 - std::vector<std::string> ret;
16600 - std::set<std::string> ret2;
16601 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16603 - std::vector<std::string> tmp=(*it)->getLocsReallyUsed();
16604 - for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
16605 - if(ret2.find(*it2)==ret2.end())
16607 - ret.push_back(*it2);
16608 - ret2.insert(*it2);
16614 -std::vector<std::string> MEDFileAnyTypeField1TSWithoutSDA::getPflsReallyUsedMulti2() const
16616 - std::vector<std::string> ret;
16617 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16619 - std::vector<std::string> tmp=(*it)->getPflsReallyUsedMulti();
16620 - ret.insert(ret.end(),tmp.begin(),tmp.end());
16625 -std::vector<std::string> MEDFileAnyTypeField1TSWithoutSDA::getLocsReallyUsedMulti2() const
16627 - std::vector<std::string> ret;
16628 - std::set<std::string> ret2;
16629 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16631 - std::vector<std::string> tmp=(*it)->getLocsReallyUsedMulti();
16632 - ret.insert(ret.end(),tmp.begin(),tmp.end());
16637 -void MEDFileAnyTypeField1TSWithoutSDA::changePflsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
16639 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16640 - (*it)->changePflsRefsNamesGen(mapOfModif);
16643 -void MEDFileAnyTypeField1TSWithoutSDA::changeLocsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
16645 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16646 - (*it)->changeLocsRefsNamesGen(mapOfModif);
16650 - * Returns all attributes of parts of \a this field lying on a given mesh.
16651 - * Each part differs from other ones by a type of supporting mesh entity. The _i_-th
16652 - * item of every of returned sequences refers to the _i_-th part of \a this field.
16653 - * Thus all sequences returned by this method are of the same length equal to number
16654 - * of different types of supporting entities.<br>
16655 - * A field part can include sub-parts with several different spatial discretizations,
16656 - * \ref MEDCoupling::ON_CELLS "ON_CELLS" and \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT"
16657 - * for example. Hence, some of the returned sequences contains nested sequences, and an item
16658 - * of a nested sequence corresponds to a type of spatial discretization.<br>
16659 - * This method allows for iteration over MEDFile DataStructure without any overhead.
16660 - * \param [in] mname - a name of a mesh of interest. It can be \c NULL, which is valid
16661 - * for the case with only one underlying mesh. (Actually, the number of meshes is
16662 - * not checked if \a mname == \c NULL).
16663 - * \param [in,out] types - a sequence of types of underlying mesh entities. A type per
16664 - * a field part is returned.
16665 - * \param [in,out] typesF - a sequence of sequences of types of spatial discretizations.
16666 - * This sequence is of the same length as \a types.
16667 - * \param [in,out] pfls - a sequence returning a profile name per each type of spatial
16668 - * discretization. A profile name can be empty.
16669 - * Length of this and of nested sequences is the same as that of \a typesF.
16670 - * \param [in,out] locs - a sequence returning a localization name per each type of spatial
16671 - * discretization. A localization name can be empty.
16672 - * Length of this and of nested sequences is the same as that of \a typesF.
16673 - * \return std::vector< std::vector< std::pair<int,int> > > - a sequence holding a range
16674 - * of ids of tuples within the data array, per each type of spatial
16675 - * discretization within one mesh entity type.
16676 - * Length of this and of nested sequences is the same as that of \a typesF.
16677 - * \throw If no field is lying on \a mname.
16679 -std::vector< std::vector< std::pair<int,int> > > MEDFileAnyTypeField1TSWithoutSDA::getFieldSplitedByType(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
16681 - if(_field_per_mesh.empty())
16682 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getFieldSplitedByType : This is empty !");
16683 - return _field_per_mesh[0]->getFieldSplitedByType(types,typesF,pfls,locs);
16687 - * Returns dimensions of mesh elements \a this field lies on. The returned value is a
16688 - * maximal absolute dimension and values returned via the out parameter \a levs are
16689 - * dimensions relative to the maximal absolute dimension. <br>
16690 - * This method is designed for MEDFileField1TS instances that have a discretization
16691 - * \ref MEDCoupling::ON_CELLS "ON_CELLS",
16692 - * \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT",
16693 - * \ref MEDCoupling::ON_GAUSS_NE "ON_GAUSS_NE".
16694 - * Only these 3 discretizations will be taken into account here. If \a this is
16695 - * \ref MEDCoupling::ON_NODES "ON_NODES", -1 is returned and \a levs are empty.<br>
16696 - * This method is useful to make the link between the dimension of the underlying mesh
16697 - * and the levels of \a this, because it is possible that the highest dimension of \a this
16698 - * field is not equal to the dimension of the underlying mesh.
16700 - * Let's consider the following case:
16701 - * - mesh \a m1 has a meshDimension 3 and has non empty levels [0,-1,-2] with elements
16702 - * TETRA4, HEXA8, TRI3 and SEG2.
16703 - * - field \a f1 lies on \a m1 and is defined on 3D and 1D elements TETRA4 and SEG2.
16704 - * - field \a f2 lies on \a m1 and is defined on 2D and 1D elements TRI3 and SEG2.
16706 - * In this case \a f1->getNonEmptyLevels() returns (3,[0,-2]) and \a
16707 - * f2->getNonEmptyLevels() returns (2,[0,-1]). <br>
16708 - * The returned values can be used for example to retrieve a MEDCouplingFieldDouble lying
16709 - * on elements of a certain relative level by calling getFieldAtLevel(). \a meshDimRelToMax
16710 - * parameter of getFieldAtLevel() is computed basing on the returned values as this:
16711 - * <em> meshDimRelToMax = absDim - meshDim + relativeLev </em>.
16712 - * For example<br>
16713 - * to retrieve the highest level of
16714 - * \a f1: <em>f1->getFieldAtLevel( ON_CELLS, 3-3+0 ); // absDim - meshDim + relativeLev</em><br>
16715 - * to retrieve the lowest level of \a f1: <em>f1->getFieldAtLevel( ON_CELLS, 3-3+(-2) );</em><br>
16716 - * to retrieve the highest level of \a f2: <em>f2->getFieldAtLevel( ON_CELLS, 2-3+0 );</em><br>
16717 - * to retrieve the lowest level of \a f2: <em>f2->getFieldAtLevel( ON_CELLS, 2-3+(-1) )</em>.
16718 - * \param [in] mname - a name of a mesh of interest. It can be \c NULL, which is valid
16719 - * for the case with only one underlying mesh. (Actually, the number of meshes is
16720 - * not checked if \a mname == \c NULL).
16721 - * \param [in,out] levs - a sequence returning the dimensions relative to the maximal
16722 - * absolute one. They are in decreasing order. This sequence is cleared before
16724 - * \return int - the maximal absolute dimension of elements \a this fields lies on.
16725 - * \throw If no field is lying on \a mname.
16727 -int MEDFileAnyTypeField1TSWithoutSDA::getNonEmptyLevels(const std::string& mname, std::vector<int>& levs) const
16730 - std::vector<INTERP_KERNEL::NormalizedCellType> types;
16731 - std::vector< std::vector<TypeOfField> > typesF;
16732 - std::vector< std::vector<std::string> > pfls, locs;
16733 - if(_field_per_mesh.empty())
16734 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::getNonEmptyLevels : This is empty !");
16735 - _field_per_mesh[0]->getFieldSplitedByType(types,typesF,pfls,locs);
16736 - if(types.empty())
16737 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getNonEmptyLevels : 'this' is empty !");
16738 - std::set<INTERP_KERNEL::NormalizedCellType> st(types.begin(),types.end());
16739 - if(st.size()==1 && (*st.begin())==INTERP_KERNEL::NORM_ERROR)
16741 - st.erase(INTERP_KERNEL::NORM_ERROR);
16742 - std::set<int> ret1;
16743 - for(std::set<INTERP_KERNEL::NormalizedCellType>::const_iterator it=st.begin();it!=st.end();it++)
16745 - const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(*it);
16746 - ret1.insert((int)cm.getDimension());
16748 - int ret=*std::max_element(ret1.begin(),ret1.end());
16749 - std::copy(ret1.rbegin(),ret1.rend(),std::back_insert_iterator<std::vector<int> >(levs));
16750 - std::transform(levs.begin(),levs.end(),levs.begin(),std::bind2nd(std::plus<int>(),-ret));
16754 -void MEDFileAnyTypeField1TSWithoutSDA::convertMedBallIntoClassic()
16756 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it<_field_per_mesh.end();it++)
16757 - if((*it).isNotNull())
16758 - (*it)->convertMedBallIntoClassic();
16761 -void MEDFileAnyTypeField1TSWithoutSDA::makeReduction(INTERP_KERNEL::NormalizedCellType ct, TypeOfField tof, const DataArrayInt *pfl)
16764 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : null pfl !");
16765 - std::string name(pfl->getName());
16766 - pfl->checkAllocated();
16767 - if(pfl->getNumberOfComponents()!=1)
16768 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : non mono compo array !");
16770 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : empty pfl name !");
16771 - if(_field_per_mesh.size()!=1)
16772 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : only single mesh supported !");
16773 - MCAuto<MEDFileFieldPerMesh> fpm(_field_per_mesh[0]);
16775 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : only single not null mesh supported !");
16776 - MEDFileFieldPerMeshPerTypePerDisc *disc(fpm->getLeafGivenTypeAndLocId(ct,0));
16777 - if(disc->getType()!=tof)
16778 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : error !");
16779 - int s(disc->getStart()),e(disc->getEnd()),nt(pfl->getNumberOfTuples());
16780 - DataArray *arr(getUndergroundDataArray());
16781 - int nt2(arr->getNumberOfTuples()),delta((e-s)-nt);
16783 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::makeReduction : internal error !");
16784 - MCAuto<DataArray> arr0(arr->selectByTupleIdSafeSlice(0,s,1)),arr1(arr->selectByTupleIdSafeSlice(s,e,1)),arr2(arr->selectByTupleIdSafeSlice(e,nt2,1));
16785 - MCAuto<DataArray> arr11(arr1->selectByTupleIdSafe(pfl->begin(),pfl->end()));
16786 - MCAuto<DataArray> arrOut(arr->buildNewEmptyInstance());
16787 - arrOut->alloc(nt2-delta,arr->getNumberOfComponents());
16788 - arrOut->copyStringInfoFrom(*arr);
16789 - arrOut->setContigPartOfSelectedValuesSlice(0,arr0,0,s,1);
16790 - arrOut->setContigPartOfSelectedValuesSlice(s,arr11,0,nt,1);
16791 - arrOut->setContigPartOfSelectedValuesSlice(e-delta,arr2,0,nt2-e,1);
16792 - setArray(arrOut);
16793 - disc->setEnd(e-delta);
16794 - disc->setProfile(name);
16798 - * \param [in] mName specifies the underlying mesh name. This value can be pointer 0 for users that do not deal with fields on multi mesh.
16799 - * \param [in] typ is for the geometric cell type (or INTERP_KERNEL::NORM_ERROR for node field) entry to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set.
16800 - * \param [in] locId is the localization id to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set. It corresponds to the position of
16801 - * \c pfls[std::distance(types.begin(),std::find(types.begin(),typ)] vector in MEDFileField1TSWithoutSDA::getFieldSplitedByType. For non gausspoints field users, the value is 0.
16803 -MEDFileFieldPerMeshPerTypePerDisc *MEDFileAnyTypeField1TSWithoutSDA::getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId)
16805 - if(_field_per_mesh.empty())
16806 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::getLeafGivenMeshAndTypeAndLocId : This is empty !");
16807 - return _field_per_mesh[0]->getLeafGivenTypeAndLocId(typ,locId);
16811 - * \param [in] mName specifies the underlying mesh name. This value can be pointer 0 for users that do not deal with fields on multi mesh.
16812 - * \param [in] typ is for the geometric cell type (or INTERP_KERNEL::NORM_ERROR for node field) entry to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set.
16813 - * \param [in] locId is the localization id to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set. It corresponds to the position of
16814 - * \c pfls[std::distance(types.begin(),std::find(types.begin(),typ)] vector in MEDFileField1TSWithoutSDA::getFieldSplitedByType. For non gausspoints field users, the value is 0.
16816 -const MEDFileFieldPerMeshPerTypePerDisc *MEDFileAnyTypeField1TSWithoutSDA::getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId) const
16818 - if(_field_per_mesh.empty())
16819 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::getLeafGivenMeshAndTypeAndLocId : This is empty !");
16820 - return _field_per_mesh[0]->getLeafGivenTypeAndLocId(typ,locId);
16824 - * \param [in] mName specifies the underlying mesh name. This value can be pointer 0 for users that do not deal with fields on multi mesh.
16826 -int MEDFileAnyTypeField1TSWithoutSDA::getMeshIdFromMeshName(const std::string& mName) const
16828 - if(_field_per_mesh.empty())
16829 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getMeshIdFromMeshName : No field set !");
16830 - if(mName.empty())
16832 - std::string mName2(mName);
16834 - std::vector<std::string> msg;
16835 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++,ret++)
16836 - if(mName2==(*it)->getMeshName())
16839 - msg.push_back((*it)->getMeshName());
16840 - std::ostringstream oss; oss << "MEDFileField1TSWithoutSDA::getMeshIdFromMeshName : No such mesh \"" << mName2 << "\" as underlying mesh of field \"" << getName() << "\" !\n";
16841 - oss << "Possible meshes are : ";
16842 - for(std::vector<std::string>::const_iterator it2=msg.begin();it2!=msg.end();it2++)
16843 - oss << "\"" << (*it2) << "\" ";
16844 - throw INTERP_KERNEL::Exception(oss.str());
16847 -int MEDFileAnyTypeField1TSWithoutSDA::addNewEntryIfNecessary(const MEDCouplingMesh *mesh)
16850 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::addNewEntryIfNecessary : input mesh is NULL !");
16851 - std::string tmp(mesh->getName());
16853 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::addNewEntryIfNecessary : empty mesh name ! unsupported by MED file !");
16854 - setMeshName(tmp);
16855 - std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();
16857 - for(;it!=_field_per_mesh.end();it++,i++)
16859 - if((*it)->getMeshName()==tmp)
16862 - int sz=_field_per_mesh.size();
16863 - _field_per_mesh.resize(sz+1);
16864 - _field_per_mesh[sz]=MEDFileFieldPerMesh::New(this,mesh);
16868 -bool MEDFileAnyTypeField1TSWithoutSDA::renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N,
16869 - MEDFileFieldGlobsReal& glob)
16872 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16874 - MEDFileFieldPerMesh *fpm(*it);
16876 - ret=fpm->renumberEntitiesLyingOnMesh(meshName,oldCode,newCode,renumO2N,glob) || ret;
16882 - * This method splits \a this into several sub-parts so that each sub parts have exactly one spatial discretization. This method implements the minimal
16883 - * splitting that leads to single spatial discretization of this.
16885 - * \sa splitMultiDiscrPerGeoTypes
16887 -std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > MEDFileAnyTypeField1TSWithoutSDA::splitDiscretizations() const
16889 - std::vector<INTERP_KERNEL::NormalizedCellType> types;
16890 - std::vector< std::vector<TypeOfField> > typesF;
16891 - std::vector< std::vector<std::string> > pfls,locs;
16892 - std::vector< std::vector<std::pair<int,int> > > bgEnd(getFieldSplitedByType(getMeshName().c_str(),types,typesF,pfls,locs));
16893 - std::set<TypeOfField> allEnt;
16894 - for(std::vector< std::vector<TypeOfField> >::const_iterator it1=typesF.begin();it1!=typesF.end();it1++)
16895 - for(std::vector<TypeOfField>::const_iterator it2=(*it1).begin();it2!=(*it1).end();it2++)
16896 - allEnt.insert(*it2);
16897 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret(allEnt.size());
16898 - std::set<TypeOfField>::const_iterator it3(allEnt.begin());
16899 - for(std::size_t i=0;i<allEnt.size();i++,it3++)
16901 - std::vector< std::pair<int,int> > its;
16902 - ret[i]=shallowCpy();
16903 - int newLgth(ret[i]->keepOnlySpatialDiscretization(*it3,its));
16904 - ret[i]->updateData(newLgth,its);
16910 - * This method performs a sub splitting as splitDiscretizations does but finer. This is the finest spliting level that can be done.
16911 - * This method implements the minimal splitting so that each returned elements are mono Gauss discretization per geometric type.
16913 - * \sa splitDiscretizations
16915 -std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > MEDFileAnyTypeField1TSWithoutSDA::splitMultiDiscrPerGeoTypes() const
16917 - std::vector<INTERP_KERNEL::NormalizedCellType> types;
16918 - std::vector< std::vector<TypeOfField> > typesF;
16919 - std::vector< std::vector<std::string> > pfls,locs;
16920 - std::vector< std::vector<std::pair<int,int> > > bgEnd(getFieldSplitedByType(getMeshName().c_str(),types,typesF,pfls,locs));
16921 - std::set<TypeOfField> allEnt;
16922 - std::size_t nbOfMDPGT(0),ii(0);
16923 - for(std::vector< std::vector<TypeOfField> >::const_iterator it1=typesF.begin();it1!=typesF.end();it1++,ii++)
16925 - nbOfMDPGT=std::max(nbOfMDPGT,locs[ii].size());
16926 - for(std::vector<TypeOfField>::const_iterator it2=(*it1).begin();it2!=(*it1).end();it2++)
16927 - allEnt.insert(*it2);
16929 - if(allEnt.size()!=1)
16930 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::splitMultiDiscrPerGeoTypes : this field is expected to be defined only on one spatial discretization !");
16932 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::splitMultiDiscrPerGeoTypes : empty field !");
16935 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret0(1);
16936 - ret0[0]=const_cast<MEDFileAnyTypeField1TSWithoutSDA *>(this); this->incrRef();
16939 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret(nbOfMDPGT);
16940 - for(std::size_t i=0;i<nbOfMDPGT;i++)
16942 - std::vector< std::pair<int,int> > its;
16943 - ret[i]=shallowCpy();
16944 - int newLgth(ret[i]->keepOnlyGaussDiscretization(i,its));
16945 - ret[i]->updateData(newLgth,its);
16950 -int MEDFileAnyTypeField1TSWithoutSDA::keepOnlySpatialDiscretization(TypeOfField tof, std::vector< std::pair<int,int> >& its)
16952 - int globalCounter(0);
16953 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16954 - (*it)->keepOnlySpatialDiscretization(tof,globalCounter,its);
16955 - return globalCounter;
16958 -int MEDFileAnyTypeField1TSWithoutSDA::keepOnlyGaussDiscretization(std::size_t idOfDisc, std::vector< std::pair<int,int> >& its)
16960 - int globalCounter(0);
16961 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
16962 - (*it)->keepOnlyGaussDiscretization(idOfDisc,globalCounter,its);
16963 - return globalCounter;
16966 -void MEDFileAnyTypeField1TSWithoutSDA::updateData(int newLgth, const std::vector< std::pair<int,int> >& oldStartStops)
16968 - if(_nb_of_tuples_to_be_allocated>=0)
16970 - _nb_of_tuples_to_be_allocated=newLgth;
16971 - const DataArray *oldArr(getUndergroundDataArray());
16974 - MCAuto<DataArray> newArr(createNewEmptyDataArrayInstance());
16975 - newArr->setInfoAndChangeNbOfCompo(oldArr->getInfoOnComponents());
16976 - setArray(newArr);
16977 - _nb_of_tuples_to_be_allocated=newLgth;//force the _nb_of_tuples_to_be_allocated because setArray has been used specialy
16981 - if(_nb_of_tuples_to_be_allocated==-1)
16983 - if(_nb_of_tuples_to_be_allocated==-2 || _nb_of_tuples_to_be_allocated==-3)
16985 - const DataArray *oldArr(getUndergroundDataArray());
16986 - if(!oldArr || !oldArr->isAllocated())
16987 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::updateData : internal error 1 !");
16988 - MCAuto<DataArray> newArr(createNewEmptyDataArrayInstance());
16989 - newArr->alloc(newLgth,getNumberOfComponents());
16991 - newArr->copyStringInfoFrom(*oldArr);
16993 - for(std::vector< std::pair<int,int> >::const_iterator it=oldStartStops.begin();it!=oldStartStops.end();it++)
16995 - if((*it).second<(*it).first)
16996 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::updateData : the range in the leaves was invalid !");
16997 - newArr->setContigPartOfSelectedValuesSlice(pos,oldArr,(*it).first,(*it).second,1);
16998 - pos+=(*it).second-(*it).first;
17000 - setArray(newArr);
17003 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::updateData : internal error 2 !");
17006 -void MEDFileAnyTypeField1TSWithoutSDA::writeLL(med_idt fid, const MEDFileWritable& opts, const MEDFileFieldNameScope& nasc) const
17008 - if(_field_per_mesh.empty())
17009 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::writeLL : empty field !");
17010 - if(_field_per_mesh.size()>1)
17011 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::writeLL : In MED3.0 mode in writting mode only ONE underlying mesh supported !");
17012 - _field_per_mesh[0]->copyOptionsFrom(opts);
17013 - _field_per_mesh[0]->writeLL(fid,nasc);
17017 - * This methods returns true is the allocation has been needed leading to a modification of state in \a this->_nb_of_tuples_to_be_allocated.
17018 - * If false is returned the memory allocation is not required.
17020 -bool MEDFileAnyTypeField1TSWithoutSDA::allocIfNecessaryTheArrayToReceiveDataFromFile()
17022 - if(_nb_of_tuples_to_be_allocated>=0)
17024 - getOrCreateAndGetArray()->alloc(_nb_of_tuples_to_be_allocated,getNumberOfComponents());
17025 - _nb_of_tuples_to_be_allocated=-2;
17028 - if(_nb_of_tuples_to_be_allocated==-2 || _nb_of_tuples_to_be_allocated==-3)
17030 - if(_nb_of_tuples_to_be_allocated==-1)
17031 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::allocIfNecessaryTheArrayToReceiveDataFromFile : trying to read from a file an empty instance ! Need to prepare the structure before !");
17032 - if(_nb_of_tuples_to_be_allocated<-3)
17033 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::allocIfNecessaryTheArrayToReceiveDataFromFile : internal error !");
17034 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::allocIfNecessaryTheArrayToReceiveDataFromFile : internal error !");
17037 -void MEDFileAnyTypeField1TSWithoutSDA::loadOnlyStructureOfDataRecursively(med_idt fid, const MEDFileFieldNameScope& nasc, const MEDFileMeshes *ms, const MEDFileEntities *entities)
17039 - med_int numdt,numit;
17041 - med_int meshnumdt,meshnumit;
17042 - MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,nasc.getName().c_str(),_csit,&numdt,&numit,&_dt));
17044 - med_bool localMesh;
17046 - INTERP_KERNEL::AutoPtr<char> meshName(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
17047 - MEDFILESAFECALLERRD0(MEDfield23ComputingStepMeshInfo,(fid,nasc.getName().c_str(),_csit,&numdt,&numit,&dt,&nmesh,meshName,&localMesh,&meshnumdt,&meshnumit)); // to check with Adrien for legacy MED files
17049 - //MEDFILESAFECALLERRD0(MEDfieldComputingStepMeshInfo,(fid,nasc.getName().c_str(),_csit,&numdt,&numit,&_dt,&meshnumdt,&meshnumit));
17050 - if(_iteration!=numdt || _order!=numit)
17051 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::loadBigArraysRecursively : unexpected exception internal error !");
17052 - _field_per_mesh.resize(1);
17054 - MEDFileMesh *mm(0);
17057 - mm=ms->getMeshWithName(getMeshName());
17060 - _field_per_mesh[0]=MEDFileFieldPerMesh::NewOnRead(fid,this,0,meshnumdt,meshnumit,nasc,mm,entities);
17061 - _nb_of_tuples_to_be_allocated=0;
17062 - _field_per_mesh[0]->loadOnlyStructureOfDataRecursively(fid,_nb_of_tuples_to_be_allocated,nasc);
17065 -void MEDFileAnyTypeField1TSWithoutSDA::loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc)
17067 - allocIfNecessaryTheArrayToReceiveDataFromFile();
17068 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
17069 - (*it)->loadBigArraysRecursively(fid,nasc);
17072 -void MEDFileAnyTypeField1TSWithoutSDA::loadBigArraysRecursivelyIfNecessary(med_idt fid, const MEDFileFieldNameScope& nasc)
17074 - if(allocIfNecessaryTheArrayToReceiveDataFromFile())
17075 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
17076 - (*it)->loadBigArraysRecursively(fid,nasc);
17079 -void MEDFileAnyTypeField1TSWithoutSDA::loadStructureAndBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc, const MEDFileMeshes *ms, const MEDFileEntities *entities)
17081 - loadOnlyStructureOfDataRecursively(fid,nasc,ms,entities);
17082 - loadBigArraysRecursively(fid,nasc);
17085 -void MEDFileAnyTypeField1TSWithoutSDA::unloadArrays()
17087 - DataArray *thisArr(getUndergroundDataArray());
17088 - if(thisArr && thisArr->isAllocated())
17090 - _nb_of_tuples_to_be_allocated=thisArr->getNumberOfTuples();
17091 - thisArr->desallocate();
17095 -std::size_t MEDFileAnyTypeField1TSWithoutSDA::getHeapMemorySizeWithoutChildren() const
17097 - return _mesh_name.capacity()+_dt_unit.capacity()+_field_per_mesh.capacity()*sizeof(MCAuto< MEDFileFieldPerMesh >);
17100 -std::vector<const BigMemoryObject *> MEDFileAnyTypeField1TSWithoutSDA::getDirectChildrenWithNull() const
17102 - std::vector<const BigMemoryObject *> ret;
17103 - if(getUndergroundDataArray())
17104 - ret.push_back(getUndergroundDataArray());
17105 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
17106 - ret.push_back((const MEDFileFieldPerMesh *)*it);
17111 - * Adds a MEDCouplingFieldDouble to \a this. The underlying mesh of the given field is
17112 - * checked if its elements are sorted suitable for writing to MED file ("STB" stands for
17113 - * "Sort By Type"), if not, an exception is thrown.
17114 - * \param [in] field - the field to add to \a this. The array of field \a field is ignored
17115 - * \param [in] arr - the array of values.
17116 - * \param [in,out] glob - the global data where profiles and localization present in
17117 - * \a field, if any, are added.
17118 - * \throw If the name of \a field is empty.
17119 - * \throw If the data array of \a field is not set.
17120 - * \throw If \a this->_arr is already allocated but has different number of components
17122 - * \throw If the underlying mesh of \a field has no name.
17123 - * \throw If elements in the mesh are not in the order suitable for writing to the MED file.
17125 -void MEDFileAnyTypeField1TSWithoutSDA::setFieldNoProfileSBT(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
17127 - const MEDCouplingMesh *mesh(field->getMesh());
17129 - TypeOfField type(field->getTypeOfField());
17130 - std::vector<DataArrayInt *> dummy;
17132 - setMeshName(mesh->getName());
17133 - int start(copyTinyInfoFrom(th,field,arr));
17134 - int pos(addNewEntryIfNecessary(mesh));
17135 - if(type!=ON_NODES)
17137 - std::vector<int> code=MEDFileField1TSWithoutSDA::CheckSBTMesh(mesh);
17138 - _field_per_mesh[pos]->assignFieldNoProfileNoRenum(start,code,field,arr,glob,nasc);
17141 - _field_per_mesh[pos]->assignNodeFieldNoProfile(start,field,arr,glob);
17145 - * Adds a MEDCouplingFieldDouble to \a this. Specified entities of a given dimension
17146 - * of a given mesh are used as the support of the given field (a real support is not used).
17147 - * Elements of the given mesh must be sorted suitable for writing to MED file.
17148 - * Order of underlying mesh entities of the given field specified by \a profile parameter
17149 - * is not prescribed; this method permutes field values to have them sorted by element
17150 - * type as required for writing to MED file. A new profile is added only if no equal
17151 - * profile is missing.
17152 - * \param [in] field - the field to add to \a this. The field double values are ignored.
17153 - * \param [in] arrOfVals - the values of the field \a field used.
17154 - * \param [in] mesh - the supporting mesh of \a field.
17155 - * \param [in] meshDimRelToMax - a relative dimension of mesh entities \a field lies on.
17156 - * \param [in] profile - ids of mesh entities on which corresponding field values lie.
17157 - * \param [in,out] glob - the global data where profiles and localization present in
17158 - * \a field, if any, are added.
17159 - * \throw If either \a field or \a mesh or \a profile has an empty name.
17160 - * \throw If there are no mesh entities of \a meshDimRelToMax dimension in \a mesh.
17161 - * \throw If the data array of \a field is not set.
17162 - * \throw If \a this->_arr is already allocated but has different number of components
17164 - * \throw If elements in \a mesh are not in the order suitable for writing to the MED file.
17165 - * \sa setFieldNoProfileSBT()
17167 -void MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arrOfVals, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
17170 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile : input field is null !");
17171 - if(!arrOfVals || !arrOfVals->isAllocated())
17172 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile : input array is null or not allocated !");
17173 - TypeOfField type=field->getTypeOfField();
17174 - std::vector<DataArrayInt *> idsInPflPerType;
17175 - std::vector<DataArrayInt *> idsPerType;
17176 - std::vector<int> code,code2;
17177 - MCAuto<MEDCouplingMesh> m(mesh->getMeshAtLevel(meshDimRelToMax));
17178 - if(type!=ON_NODES)
17180 - m->splitProfilePerType(profile,code,idsInPflPerType,idsPerType);
17181 - std::vector< MCAuto<DataArrayInt> > idsInPflPerType2(idsInPflPerType.size()); std::copy(idsInPflPerType.begin(),idsInPflPerType.end(),idsInPflPerType2.begin());
17182 - std::vector< MCAuto<DataArrayInt> > idsPerType2(idsPerType.size()); std::copy(idsPerType.begin(),idsPerType.end(),idsPerType2.begin());
17183 - std::vector<const DataArrayInt *> idsPerType3(idsPerType.size()); std::copy(idsPerType.begin(),idsPerType.end(),idsPerType3.begin());
17184 - // start of check
17185 - MCAuto<MEDCouplingFieldTemplate> field2=field->clone(false);
17186 - int nbOfTuplesExp=field2->getNumberOfTuplesExpectedRegardingCode(code,idsPerType3);
17187 - if(nbOfTuplesExp!=arrOfVals->getNumberOfTuples())
17189 - std::ostringstream oss; oss << "MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile : The array is expected to have " << nbOfTuplesExp << " tuples ! It has " << arrOfVals->getNumberOfTuples() << " !";
17190 - throw INTERP_KERNEL::Exception(oss.str());
17193 - int start(copyTinyInfoFrom(th,field,arrOfVals));
17194 - code2=m->getDistributionOfTypes();
17196 - int pos=addNewEntryIfNecessary(m);
17197 - _field_per_mesh[pos]->assignFieldProfile(start,profile,code,code2,idsInPflPerType,idsPerType,field,arrOfVals,m,glob,nasc);
17201 - if(!profile || !profile->isAllocated() || profile->getNumberOfComponents()!=1)
17202 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile : input profile is null, not allocated or with number of components != 1 !");
17203 - std::vector<int> v(3); v[0]=-1; v[1]=profile->getNumberOfTuples(); v[2]=0;
17204 - std::vector<const DataArrayInt *> idsPerType3(1); idsPerType3[0]=profile;
17205 - int nbOfTuplesExp=field->getNumberOfTuplesExpectedRegardingCode(v,idsPerType3);
17206 - if(nbOfTuplesExp!=arrOfVals->getNumberOfTuples())
17208 - std::ostringstream oss; oss << "MEDFileAnyTypeField1TSWithoutSDA::setFieldProfile : For node field, the array is expected to have " << nbOfTuplesExp << " tuples ! It has " << arrOfVals->getNumberOfTuples() << " !";
17209 - throw INTERP_KERNEL::Exception(oss.str());
17211 - int start(copyTinyInfoFrom(th,field,arrOfVals));
17212 - int pos(addNewEntryIfNecessary(m));
17213 - _field_per_mesh[pos]->assignNodeFieldProfile(start,profile,field,arrOfVals,glob,nasc);
17218 - * \param [in] newNbOfTuples - The new nb of tuples to be allocated.
17220 -void MEDFileAnyTypeField1TSWithoutSDA::allocNotFromFile(int newNbOfTuples)
17222 - if(_nb_of_tuples_to_be_allocated>=0)
17223 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::allocNotFromFile : the object is expected to be appended to a data coming from a file but not loaded ! Load before appending data !");
17224 - DataArray *arr(getOrCreateAndGetArray());
17225 - arr->alloc(newNbOfTuples,arr->getNumberOfComponents());
17226 - _nb_of_tuples_to_be_allocated=-3;
17230 - * Copies tiny info and allocates \a this->_arr instance of DataArrayDouble to
17231 - * append data of a given MEDCouplingFieldDouble. So that the size of \a this->_arr becomes
17232 - * larger by the size of \a field. Returns an id of the first not filled
17233 - * tuple of \a this->_arr.
17234 - * \param [in] field - the field to copy the info on components and the name from.
17235 - * \return int - the id of first not initialized tuple of \a this->_arr.
17236 - * \throw If the name of \a field is empty.
17237 - * \throw If the data array of \a field is not set.
17238 - * \throw If \a this->_arr is already allocated but has different number of components
17241 -int MEDFileAnyTypeField1TSWithoutSDA::copyTinyInfoFrom(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr)
17244 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::copyTinyInfoFrom : input field is NULL !");
17245 - std::string name(field->getName());
17246 - setName(name.c_str());
17247 - if(field->getMesh())
17248 - setMeshName(field->getMesh()->getName());
17249 - setDtUnit(th->getTimeUnit());
17251 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::copyTinyInfoFrom : unsupported fields with no name in MED file !");
17253 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::copyTinyInfoFrom : no array set !");
17254 - if(!arr->isAllocated())
17255 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::copyTinyInfoFrom : array is not allocated !");
17256 - _dt=th->getTime(_iteration,_order);
17257 - getOrCreateAndGetArray()->setInfoAndChangeNbOfCompo(arr->getInfoOnComponents());
17258 - if(!getOrCreateAndGetArray()->isAllocated())
17260 - allocNotFromFile(arr->getNumberOfTuples());
17265 - int oldNbOfTuples=getOrCreateAndGetArray()->getNumberOfTuples();
17266 - int newNbOfTuples=oldNbOfTuples+arr->getNumberOfTuples();
17267 - getOrCreateAndGetArray()->reAlloc(newNbOfTuples);
17268 - _nb_of_tuples_to_be_allocated=-3;
17269 - return oldNbOfTuples;
17274 - * Returns number of components in \a this field
17275 - * \return int - the number of components.
17277 -int MEDFileAnyTypeField1TSWithoutSDA::getNumberOfComponents() const
17279 - return getOrCreateAndGetArray()->getNumberOfComponents();
17283 - * Change info on components in \a this.
17284 - * \throw If size of \a infos is not equal to the number of components already in \a this.
17286 -void MEDFileAnyTypeField1TSWithoutSDA::setInfo(const std::vector<std::string>& infos)
17288 - DataArray *arr=getOrCreateAndGetArray();
17289 - arr->setInfoOnComponents(infos);//will throw an exception if number of components mimatches
17293 - * Returns info on components of \a this field.
17294 - * \return const std::vector<std::string>& - a sequence of strings each being an
17295 - * information on _i_-th component.
17297 -const std::vector<std::string>& MEDFileAnyTypeField1TSWithoutSDA::getInfo() const
17299 - const DataArray *arr=getOrCreateAndGetArray();
17300 - return arr->getInfoOnComponents();
17304 - * Returns a mutable info on components of \a this field.
17305 - * \return std::vector<std::string>& - a sequence of strings each being an
17306 - * information on _i_-th component.
17308 -std::vector<std::string>& MEDFileAnyTypeField1TSWithoutSDA::getInfo()
17310 - DataArray *arr=getOrCreateAndGetArray();
17311 - return arr->getInfoOnComponents();
17314 -bool MEDFileAnyTypeField1TSWithoutSDA::presenceOfMultiDiscPerGeoType() const
17316 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
17318 - const MEDFileFieldPerMesh *fpm(*it);
17321 - if(fpm->presenceOfMultiDiscPerGeoType())
17327 -bool MEDFileAnyTypeField1TSWithoutSDA::presenceOfStructureElements() const
17329 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
17330 - if((*it).isNotNull())
17331 - if((*it)->presenceOfStructureElements())
17336 -bool MEDFileAnyTypeField1TSWithoutSDA::onlyStructureElements() const
17338 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
17339 - if((*it).isNotNull())
17340 - if(!(*it)->onlyStructureElements())
17345 -void MEDFileAnyTypeField1TSWithoutSDA::killStructureElements()
17347 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
17348 - if((*it).isNotNull())
17349 - (*it)->killStructureElements();
17352 -void MEDFileAnyTypeField1TSWithoutSDA::keepOnlyStructureElements()
17354 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
17355 - if((*it).isNotNull())
17356 - (*it)->keepOnlyStructureElements();
17359 -void MEDFileAnyTypeField1TSWithoutSDA::keepOnlyOnSE(const std::string& seName)
17361 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
17362 - if((*it).isNotNull())
17363 - (*it)->keepOnlyOnSE(seName);
17366 -void MEDFileAnyTypeField1TSWithoutSDA::getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const
17368 - for(std::vector< MCAuto< MEDFileFieldPerMesh > >::const_iterator it=_field_per_mesh.begin();it!=_field_per_mesh.end();it++)
17369 - if((*it).isNotNull())
17370 - (*it)->getMeshSENames(ps);
17373 -MEDCouplingFieldDouble *MEDFileAnyTypeField1TSWithoutSDA::fieldOnMesh(const MEDFileFieldGlobsReal *glob, const MEDFileMesh *mesh, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
17375 - static const char MSG0[]="MEDFileAnyTypeField1TSWithoutSDA::fieldOnMesh : the field is too complex to be able to be extracted with \"field\" method ! Call getFieldOnMeshAtLevel method instead to deal with complexity !";
17376 - if(_field_per_mesh.empty())
17377 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::fieldOnMesh : the field is empty ! Nothing to extract !");
17378 - if(_field_per_mesh.size()>1)
17379 - throw INTERP_KERNEL::Exception(MSG0);
17380 - if(_field_per_mesh[0].isNull())
17381 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::fieldOnMesh : the field is inconsistent !");
17382 - const MEDFileFieldPerMesh *pm(_field_per_mesh[0]);
17383 - std::set<TypeOfField> types;
17384 - pm->fillTypesOfFieldAvailable(types);
17385 - if(types.size()!=1)
17386 - throw INTERP_KERNEL::Exception(MSG0);
17387 - TypeOfField type(*types.begin());
17388 - int meshDimRelToMax(0);
17389 - if(type==ON_NODES)
17390 - meshDimRelToMax=0;
17393 - int myDim(std::numeric_limits<int>::max());
17394 - bool isUnique(pm->isUniqueLevel(myDim));
17396 - throw INTERP_KERNEL::Exception(MSG0);
17397 - meshDimRelToMax=myDim-mesh->getMeshDimension();
17398 - if(meshDimRelToMax>0)
17399 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::fieldOnMesh : the mesh attached to field is not compatible with the field !");
17401 - return MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(type,meshDimRelToMax,0/*renumPol*/,glob,mesh,arrOut,nasc);
17405 - * Returns a new MEDCouplingFieldDouble of given type lying on a given support.
17406 - * \param [in] type - a spatial discretization of the new field.
17407 - * \param [in] meshDimRelToMax - a relative dimension of the supporting mesh entities.
17408 - * \param [in] mName - a name of the supporting mesh.
17409 - * \param [in] renumPol - specifies how to permute values of the result field according to
17410 - * the optional numbers of cells and nodes, if any. The valid values are
17411 - * - 0 - do not permute.
17412 - * - 1 - permute cells.
17413 - * - 2 - permute nodes.
17414 - * - 3 - permute cells and nodes.
17416 - * \param [in] glob - the global data storing profiles and localization.
17417 - * \return MEDCouplingFieldDouble * - a new instance of MEDCouplingFieldDouble. The
17418 - * caller is to delete this field using decrRef() as it is no more needed.
17419 - * \throw If the MED file is not readable.
17420 - * \throw If there is no mesh named \a mName in the MED file.
17421 - * \throw If there are no mesh entities of \a meshDimRelToMax dimension in the mesh.
17422 - * \throw If no field of \a this is lying on the mesh \a mName.
17423 - * \throw If no field values of the given \a type or given \a meshDimRelToMax are available.
17425 -MEDCouplingFieldDouble *MEDFileAnyTypeField1TSWithoutSDA::getFieldAtLevel(TypeOfField type, int meshDimRelToMax, const std::string& mName, int renumPol, const MEDFileFieldGlobsReal *glob, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
17427 - MCAuto<MEDFileMesh> mm;
17428 - if(mName.empty())
17429 - mm=MEDFileMesh::New(glob->getFileName(),getMeshName().c_str(),getMeshIteration(),getMeshOrder());
17431 - mm=MEDFileMesh::New(glob->getFileName(),mName,getMeshIteration(),getMeshOrder());
17432 - return MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(type,meshDimRelToMax,renumPol,glob,mm,arrOut,nasc);
17436 - * Returns a new MEDCouplingFieldDouble of given type lying on a given support.
17437 - * \param [in] type - a spatial discretization of the new field.
17438 - * \param [in] meshDimRelToMax - a relative dimension of the supporting mesh entities.
17439 - * \param [in] renumPol - specifies how to permute values of the result field according to
17440 - * the optional numbers of cells and nodes, if any. The valid values are
17441 - * - 0 - do not permute.
17442 - * - 1 - permute cells.
17443 - * - 2 - permute nodes.
17444 - * - 3 - permute cells and nodes.
17446 - * \param [in] glob - the global data storing profiles and localization.
17447 - * \param [in] mesh - the supporting mesh.
17448 - * \return MEDCouplingFieldDouble * - a new instance of MEDCouplingFieldDouble. The
17449 - * caller is to delete this field using decrRef() as it is no more needed.
17450 - * \throw If the MED file is not readable.
17451 - * \throw If no field of \a this is lying on \a mesh.
17452 - * \throw If there are no mesh entities of \a meshDimRelToMax dimension in the mesh.
17453 - * \throw If no field values of the given \a type or given \a meshDimRelToMax are available.
17455 -MEDCouplingFieldDouble *MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(TypeOfField type, int meshDimRelToMax, int renumPol, const MEDFileFieldGlobsReal *glob, const MEDFileMesh *mesh, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
17457 - MCAuto<MEDCouplingMesh> m(mesh->getMeshAtLevel(meshDimRelToMax,false));
17458 - const DataArrayInt *d(mesh->getNumberFieldAtLevel(meshDimRelToMax)),*e(mesh->getNumberFieldAtLevel(1));
17459 - if(meshDimRelToMax==1)
17460 - (static_cast<MEDCouplingUMesh *>((MEDCouplingMesh *)m))->setMeshDimension(0);
17461 - return MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(type,renumPol,glob,m,d,e,arrOut,nasc);
17465 - * Returns a new MEDCouplingFieldDouble of a given type lying on the top level cells of a
17467 - * \param [in] type - a spatial discretization of the new field.
17468 - * \param [in] mName - a name of the supporting mesh.
17469 - * \param [in] renumPol - specifies how to permute values of the result field according to
17470 - * the optional numbers of cells and nodes, if any. The valid values are
17471 - * - 0 - do not permute.
17472 - * - 1 - permute cells.
17473 - * - 2 - permute nodes.
17474 - * - 3 - permute cells and nodes.
17476 - * \param [in] glob - the global data storing profiles and localization.
17477 - * \return MEDCouplingFieldDouble * - a new instance of MEDCouplingFieldDouble. The
17478 - * caller is to delete this field using decrRef() as it is no more needed.
17479 - * \throw If the MED file is not readable.
17480 - * \throw If there is no mesh named \a mName in the MED file.
17481 - * \throw If there are no mesh entities in the mesh.
17482 - * \throw If no field values of the given \a type are available.
17484 -MEDCouplingFieldDouble *MEDFileAnyTypeField1TSWithoutSDA::getFieldAtTopLevel(TypeOfField type, const std::string& mName, int renumPol, const MEDFileFieldGlobsReal *glob, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
17486 - MCAuto<MEDFileMesh> mm;
17487 - if(mName.empty())
17488 - mm=MEDFileMesh::New(glob->getFileName(),getMeshName().c_str(),getMeshIteration(),getMeshOrder());
17490 - mm=MEDFileMesh::New(glob->getFileName(),mName,getMeshIteration(),getMeshOrder());
17491 - int absDim=getDimension();
17492 - int meshDimRelToMax=absDim-mm->getMeshDimension();
17493 - return MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(type,meshDimRelToMax,renumPol,glob,mm,arrOut,nasc);
17497 - * Returns a new MEDCouplingFieldDouble of given type lying on a given support.
17498 - * \param [in] type - a spatial discretization of the new field.
17499 - * \param [in] renumPol - specifies how to permute values of the result field according to
17500 - * the optional numbers of cells and nodes, if any. The valid values are
17501 - * - 0 - do not permute.
17502 - * - 1 - permute cells.
17503 - * - 2 - permute nodes.
17504 - * - 3 - permute cells and nodes.
17506 - * \param [in] glob - the global data storing profiles and localization.
17507 - * \param [in] mesh - the supporting mesh.
17508 - * \param [in] cellRenum - the cell numbers array used for permutation of the result
17509 - * field according to \a renumPol.
17510 - * \param [in] nodeRenum - the node numbers array used for permutation of the result
17511 - * field according to \a renumPol.
17512 - * \return MEDCouplingFieldDouble * - a new instance of MEDCouplingFieldDouble. The
17513 - * caller is to delete this field using decrRef() as it is no more needed.
17514 - * \throw If there are no mesh entities of \a meshDimRelToMax dimension in the mesh.
17515 - * \throw If no field of \a this is lying on \a mesh.
17516 - * \throw If no field values of the given \a type or given \a meshDimRelToMax are available.
17518 -MEDCouplingFieldDouble *MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel(TypeOfField type, int renumPol, const MEDFileFieldGlobsReal *glob, const MEDCouplingMesh *mesh, const DataArrayInt *cellRenum, const DataArrayInt *nodeRenum, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
17520 - static const char msg1[]="MEDFileField1TSWithoutSDA::getFieldOnMeshAtLevel : request for a renumbered field following mesh numbering whereas it is a profile field !";
17521 - bool isPfl=false;
17522 - MCAuto<MEDCouplingFieldDouble> ret=_field_per_mesh[0]->getFieldOnMeshAtLevel(type,glob,mesh,isPfl,arrOut,nasc);
17527 - //no need to test _field_per_mesh.empty() because geMeshName has already done it
17528 - return ret.retn();
17534 - throw INTERP_KERNEL::Exception(msg1);
17535 - //no need to test _field_per_mesh.empty() because geMeshName has already done it
17538 - if((int)cellRenum->getNbOfElems()!=mesh->getNumberOfCells())
17540 - std::ostringstream oss; oss << "MEDFileField1TSWithoutSDA::getFieldOnMeshAtLevel : Request of simple renumbering but it seems that underlying mesh \"" << mesh->getName() << "\" of requested field ";
17541 - oss << "\"" << getName() << "\" has partial renumbering (some geotype has no renumber) !";
17542 - throw INTERP_KERNEL::Exception(oss.str());
17544 - MEDCouplingFieldDiscretization *disc=ret->getDiscretization();
17545 - if(!disc) throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TSWithoutSDA::getFieldOnMeshAtLevel : internal error, no discretization on field !");
17546 - std::vector<DataArray *> arrOut2(1,arrOut);
17547 - // 2 following lines replace ret->renumberCells(cellRenum->getConstPointer()) if not DataArrayDouble
17548 - disc->renumberArraysForCell(ret->getMesh(),arrOut2,cellRenum->getConstPointer(),true);
17549 - (const_cast<MEDCouplingMesh*>(ret->getMesh()))->renumberCells(cellRenum->getConstPointer(),true);
17552 - return ret.retn();
17556 - //no need to test _field_per_mesh.empty() because geMeshName has already done it
17558 - throw INTERP_KERNEL::Exception(msg1);
17561 - if((int)nodeRenum->getNbOfElems()!=mesh->getNumberOfNodes())
17563 - std::ostringstream oss; oss << "MEDFileField1TSWithoutSDA::getFieldOnMeshAtLevel : Request of simple renumbering but it seems that underlying mesh \"" << mesh->getName() << "\" of requested field ";
17564 - oss << "\"" << nasc.getName() << "\" not defined on all nodes !";
17565 - throw INTERP_KERNEL::Exception(oss.str());
17567 - MCAuto<DataArrayInt> nodeRenumSafe=nodeRenum->checkAndPreparePermutation();
17568 - if(!dynamic_cast<DataArrayDouble *>((DataArray *)arrOut))
17569 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getFieldOnMeshAtLevel : node renumbering not implemented for not double DataArrays !");
17570 - ret->renumberNodes(nodeRenumSafe->getConstPointer());
17572 - return ret.retn();
17575 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getFieldOnMeshAtLevel : unsupported renum policy ! Dealing with policy 0 1 2 and 3 !");
17580 - * Returns values and a profile of the field of a given type lying on a given support.
17581 - * \param [in] type - a spatial discretization of the field.
17582 - * \param [in] meshDimRelToMax - a relative dimension of the supporting mesh entities.
17583 - * \param [in] mesh - the supporting mesh.
17584 - * \param [out] pfl - a new instance of DataArrayInt holding ids of mesh entities the
17585 - * field of interest lies on. If the field lies on all entities of the given
17586 - * dimension, all ids in \a pfl are zero. The caller is to delete this array
17587 - * using decrRef() as it is no more needed.
17588 - * \param [in] glob - the global data storing profiles and localization.
17589 - * \return DataArrayDouble * - a new instance of DataArrayDouble holding values of the
17590 - * field. The caller is to delete this array using decrRef() as it is no more needed.
17591 - * \throw If there are no mesh entities of \a meshDimRelToMax dimension in \a mesh.
17592 - * \throw If no field of \a this is lying on \a mesh.
17593 - * \throw If no field values of the given \a type are available.
17595 -DataArray *MEDFileAnyTypeField1TSWithoutSDA::getFieldWithProfile(TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh, DataArrayInt *&pfl, const MEDFileFieldGlobsReal *glob, const MEDFileFieldNameScope& nasc) const
17597 - MCAuto<MEDCouplingMesh> m(mesh->getMeshAtLevel(meshDimRelToMax));
17598 - MCAuto<DataArray> ret=_field_per_mesh[0]->getFieldOnMeshAtLevelWithPfl(type,m,pfl,glob,nasc);
17599 - ret->setName(nasc.getName().c_str());
17600 - return ret.retn();
17603 -//= MEDFileField1TSWithoutSDA
17606 - * Throws if a given value is not a valid (non-extended) relative dimension.
17607 - * \param [in] meshDimRelToMax - the relative dimension value.
17608 - * \throw If \a meshDimRelToMax > 0.
17610 -void MEDFileField1TSWithoutSDA::CheckMeshDimRel(int meshDimRelToMax)
17612 - if(meshDimRelToMax>0)
17613 - throw INTERP_KERNEL::Exception("CheckMeshDimRel : This is a meshDimRel not a meshDimRelExt ! So value should be <=0 !");
17617 - * Checks if elements of a given mesh are in the order suitable for writing
17618 - * to the MED file. If this is not so, an exception is thrown. In a case of success, returns a
17619 - * vector describing types of elements and their number.
17620 - * \param [in] mesh - the mesh to check.
17621 - * \return std::vector<int> - a vector holding for each element type (1) item of
17622 - * INTERP_KERNEL::NormalizedCellType, (2) number of elements, (3) -1.
17623 - * These values are in full-interlace mode.
17624 - * \throw If elements in \a mesh are not in the order suitable for writing to the MED file.
17626 -std::vector<int> MEDFileField1TSWithoutSDA::CheckSBTMesh(const MEDCouplingMesh *mesh)
17629 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::CheckSBTMesh : input mesh is NULL !");
17630 - std::set<INTERP_KERNEL::NormalizedCellType> geoTypes=mesh->getAllGeoTypes();
17631 - int nbOfTypes=geoTypes.size();
17632 - std::vector<int> code(3*nbOfTypes);
17633 - MCAuto<DataArrayInt> arr1=DataArrayInt::New();
17634 - arr1->alloc(nbOfTypes,1);
17635 - int *arrPtr=arr1->getPointer();
17636 - std::set<INTERP_KERNEL::NormalizedCellType>::const_iterator it=geoTypes.begin();
17637 - for(int i=0;i<nbOfTypes;i++,it++)
17638 - arrPtr[i]=std::distance(typmai2,std::find(typmai2,typmai2+MED_N_CELL_FIXED_GEO,*it));
17639 - MCAuto<DataArrayInt> arr2=arr1->checkAndPreparePermutation();
17640 - const int *arrPtr2=arr2->getConstPointer();
17642 - for(it=geoTypes.begin();it!=geoTypes.end();it++,i++)
17644 - int pos=arrPtr2[i];
17645 - int nbCells=mesh->getNumberOfCellsWithType(*it);
17646 - code[3*pos]=(int)(*it);
17647 - code[3*pos+1]=nbCells;
17648 - code[3*pos+2]=-1;//no profiles
17650 - std::vector<const DataArrayInt *> idsPerType;//no profiles
17651 - DataArrayInt *da=mesh->checkTypeConsistencyAndContig(code,idsPerType);
17655 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::CheckSBTMesh : underlying mesh is not sorted by type as MED file expects !");
17660 -MEDFileField1TSWithoutSDA *MEDFileField1TSWithoutSDA::New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos)
17662 - return new MEDFileField1TSWithoutSDA(fieldName,meshName,csit,iteration,order,infos);
17666 - * Returns all attributes and values of parts of \a this field lying on a given mesh.
17667 - * Each part differs from other ones by a type of supporting mesh entity. The _i_-th
17668 - * item of every of returned sequences refers to the _i_-th part of \a this field.
17669 - * Thus all sequences returned by this method are of the same length equal to number
17670 - * of different types of supporting entities.<br>
17671 - * A field part can include sub-parts with several different spatial discretizations,
17672 - * \ref MEDCoupling::ON_CELLS "ON_CELLS" and \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT"
17673 - * for example. Hence, some of the returned sequences contains nested sequences, and an item
17674 - * of a nested sequence corresponds to a type of spatial discretization.<br>
17675 - * This method allows for iteration over MEDFile DataStructure with a reduced overhead.
17676 - * The overhead is due to selecting values into new instances of DataArrayDouble.
17677 - * \param [in] mname - a name of a mesh of interest. It can be \c NULL, which is valid
17678 - * for the case with only one underlying mesh. (Actually, the number of meshes is
17679 - * not checked if \a mname == \c NULL).
17680 - * \param [in,out] types - a sequence of types of underlying mesh entities. A type per
17681 - * a field part is returned.
17682 - * \param [in,out] typesF - a sequence of sequences of types of spatial discretizations.
17683 - * A field part can include sub-parts with several different spatial discretizations,
17684 - * \ref MEDCoupling::ON_CELLS "ON_CELLS" and
17685 - * \ref MEDCoupling::ON_GAUSS_PT "ON_GAUSS_PT" for example.
17686 - * This sequence is of the same length as \a types.
17687 - * \param [in,out] pfls - a sequence returning a profile name per each type of spatial
17688 - * discretization. A profile name can be empty.
17689 - * Length of this and of nested sequences is the same as that of \a typesF.
17690 - * \param [in,out] locs - a sequence returning a localization name per each type of spatial
17691 - * discretization. A localization name can be empty.
17692 - * Length of this and of nested sequences is the same as that of \a typesF.
17693 - * \return std::vector< std::vector<DataArrayDouble *> > - a sequence holding arrays of values
17694 - * per each type of spatial discretization within one mesh entity type.
17695 - * The caller is to delete each DataArrayDouble using decrRef() as it is no more needed.
17696 - * Length of this and of nested sequences is the same as that of \a typesF.
17697 - * \throw If no field is lying on \a mname.
17699 -std::vector< std::vector<DataArrayDouble *> > MEDFileField1TSWithoutSDA::getFieldSplitedByType2(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
17701 - if(mname.empty())
17702 - if(_field_per_mesh.empty())
17703 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getFieldSplitedByType : This is empty !");
17704 - std::vector< std::vector< std::pair<int,int> > > ret0=_field_per_mesh[0]->getFieldSplitedByType(types,typesF,pfls,locs);
17705 - int nbOfRet=ret0.size();
17706 - std::vector< std::vector<DataArrayDouble *> > ret(nbOfRet);
17707 - for(int i=0;i<nbOfRet;i++)
17709 - const std::vector< std::pair<int,int> >& p=ret0[i];
17710 - int nbOfRet1=p.size();
17711 - ret[i].resize(nbOfRet1);
17712 - for(int j=0;j<nbOfRet1;j++)
17714 - DataArrayDouble *tmp=_arr->selectByTupleIdSafeSlice(p[j].first,p[j].second,1);
17721 -const char *MEDFileField1TSWithoutSDA::getTypeStr() const
17726 -MEDFileIntField1TSWithoutSDA *MEDFileField1TSWithoutSDA::convertToInt() const
17728 - MCAuto<MEDFileIntField1TSWithoutSDA> ret(new MEDFileIntField1TSWithoutSDA);
17729 - ret->MEDFileAnyTypeField1TSWithoutSDA::operator =(*this);
17730 - ret->deepCpyLeavesFrom(*this);
17731 - const DataArrayDouble *arr(_arr);
17734 - MCAuto<DataArrayInt> arr2(arr->convertToIntArr());
17735 - ret->setArray(arr2);
17737 - return ret.retn();
17741 - * Returns a pointer to the underground DataArrayDouble instance and a
17742 - * sequence describing parameters of a support of each part of \a this field. The
17743 - * caller should not decrRef() the returned DataArrayDouble. This method allows for a
17744 - * direct access to the field values. This method is intended for the field lying on one
17746 - * \param [in,out] entries - the sequence describing parameters of a support of each
17747 - * part of \a this field. Each item of this sequence consists of two parts. The
17748 - * first part describes a type of mesh entity and an id of discretization of a
17749 - * current field part. The second part describes a range of values [begin,end)
17750 - * within the returned array relating to the current field part.
17751 - * \return DataArrayDouble * - the pointer to the field values array.
17752 - * \throw If the number of underlying meshes is not equal to 1.
17753 - * \throw If no field values are available.
17754 - * \sa getUndergroundDataArray()
17756 -DataArray *MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
17758 - return getUndergroundDataArrayTemplateExt(entries);
17761 -MEDFileField1TSWithoutSDA::MEDFileField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos):MEDFileField1TSTemplateWithoutSDA<double>(fieldName,meshName,csit,iteration,order)
17763 - DataArrayDouble *arr(getOrCreateAndGetArrayTemplate());
17764 - arr->setInfoAndChangeNbOfCompo(infos);
17767 -MEDFileField1TSWithoutSDA::MEDFileField1TSWithoutSDA():MEDFileField1TSTemplateWithoutSDA<double>()
17771 -MEDFileField1TSWithoutSDA *MEDFileField1TSWithoutSDA::shallowCpy() const
17773 - MCAuto<MEDFileField1TSWithoutSDA> ret(new MEDFileField1TSWithoutSDA(*this));
17774 - ret->deepCpyLeavesFrom(*this);
17775 - return ret.retn();
17778 -MEDFileField1TSWithoutSDA *MEDFileField1TSWithoutSDA::deepCopy() const
17780 - MCAuto<MEDFileField1TSWithoutSDA> ret(shallowCpy());
17781 - if(_arr.isNotNull())
17782 - ret->_arr=_arr->deepCopy();
17783 - return ret.retn();
17786 -//= MEDFileIntField1TSWithoutSDA
17788 -MEDFileIntField1TSWithoutSDA *MEDFileIntField1TSWithoutSDA::New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos)
17790 - return new MEDFileIntField1TSWithoutSDA(fieldName,meshName,csit,iteration,order,infos);
17793 -MEDFileIntField1TSWithoutSDA::MEDFileIntField1TSWithoutSDA()
17797 -MEDFileIntField1TSWithoutSDA::MEDFileIntField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order,
17798 - const std::vector<std::string>& infos):MEDFileField1TSNDTemplateWithoutSDA<int>(fieldName,meshName,csit,iteration,order,infos)
17800 - DataArrayInt *arr(getOrCreateAndGetArrayTemplate());
17801 - arr->setInfoAndChangeNbOfCompo(infos);
17804 -const char *MEDFileIntField1TSWithoutSDA::getTypeStr() const
17810 - * Returns a pointer to the underground DataArrayInt instance and a
17811 - * sequence describing parameters of a support of each part of \a this field. The
17812 - * caller should not decrRef() the returned DataArrayInt. This method allows for a
17813 - * direct access to the field values. This method is intended for the field lying on one
17815 - * \param [in,out] entries - the sequence describing parameters of a support of each
17816 - * part of \a this field. Each item of this sequence consists of two parts. The
17817 - * first part describes a type of mesh entity and an id of discretization of a
17818 - * current field part. The second part describes a range of values [begin,end)
17819 - * within the returned array relating to the current field part.
17820 - * \return DataArrayInt * - the pointer to the field values array.
17821 - * \throw If the number of underlying meshes is not equal to 1.
17822 - * \throw If no field values are available.
17823 - * \sa getUndergroundDataArray()
17825 -DataArray *MEDFileIntField1TSWithoutSDA::getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
17827 - return getUndergroundDataArrayIntExt(entries);
17831 - * Returns a pointer to the underground DataArrayInt instance and a
17832 - * sequence describing parameters of a support of each part of \a this field. The
17833 - * caller should not decrRef() the returned DataArrayInt. This method allows for a
17834 - * direct access to the field values. This method is intended for the field lying on one
17836 - * \param [in,out] entries - the sequence describing parameters of a support of each
17837 - * part of \a this field. Each item of this sequence consists of two parts. The
17838 - * first part describes a type of mesh entity and an id of discretization of a
17839 - * current field part. The second part describes a range of values [begin,end)
17840 - * within the returned array relating to the current field part.
17841 - * \return DataArrayInt * - the pointer to the field values array.
17842 - * \throw If the number of underlying meshes is not equal to 1.
17843 - * \throw If no field values are available.
17844 - * \sa getUndergroundDataArray()
17846 -DataArrayInt *MEDFileIntField1TSWithoutSDA::getUndergroundDataArrayIntExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
17848 - if(_field_per_mesh.size()!=1)
17849 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt : field lies on several meshes, this method has no sense !");
17850 - if(_field_per_mesh[0]==0)
17851 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt : no field specified !");
17852 - _field_per_mesh[0]->getUndergroundDataArrayExt(entries);
17853 - return getUndergroundDataArrayTemplate();
17856 -MEDFileIntField1TSWithoutSDA *MEDFileIntField1TSWithoutSDA::shallowCpy() const
17858 - MCAuto<MEDFileIntField1TSWithoutSDA> ret(new MEDFileIntField1TSWithoutSDA(*this));
17859 - ret->deepCpyLeavesFrom(*this);
17860 - return ret.retn();
17863 -MEDFileIntField1TSWithoutSDA *MEDFileIntField1TSWithoutSDA::deepCopy() const
17865 - MCAuto<MEDFileIntField1TSWithoutSDA> ret(shallowCpy());
17866 - if(_arr.isNotNull())
17867 - ret->_arr=_arr->deepCopy();
17868 - return ret.retn();
17871 -//= MEDFileFloatField1TSWithoutSDA
17873 -MEDFileFloatField1TSWithoutSDA *MEDFileFloatField1TSWithoutSDA::New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos)
17875 - return new MEDFileFloatField1TSWithoutSDA(fieldName,meshName,csit,iteration,order,infos);
17878 -MEDFileFloatField1TSWithoutSDA::MEDFileFloatField1TSWithoutSDA()
17882 -MEDFileFloatField1TSWithoutSDA::MEDFileFloatField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order,
17883 - const std::vector<std::string>& infos):MEDFileField1TSNDTemplateWithoutSDA<float>(fieldName,meshName,csit,iteration,order,infos)
17885 - DataArrayFloat *arr(getOrCreateAndGetArrayTemplate());
17886 - arr->setInfoAndChangeNbOfCompo(infos);
17889 -const char *MEDFileFloatField1TSWithoutSDA::getTypeStr() const
17895 - * Returns a pointer to the underground DataArrayFloat instance and a
17896 - * sequence describing parameters of a support of each part of \a this field. The
17897 - * caller should not decrRef() the returned DataArrayFloat. This method allows for a
17898 - * direct access to the field values. This method is intended for the field lying on one
17900 - * \param [in,out] entries - the sequence describing parameters of a support of each
17901 - * part of \a this field. Each item of this sequence consists of two parts. The
17902 - * first part describes a type of mesh entity and an id of discretization of a
17903 - * current field part. The second part describes a range of values [begin,end)
17904 - * within the returned array relating to the current field part.
17905 - * \return DataArrayFloat * - the pointer to the field values array.
17906 - * \throw If the number of underlying meshes is not equal to 1.
17907 - * \throw If no field values are available.
17908 - * \sa getUndergroundDataArray()
17910 -DataArray *MEDFileFloatField1TSWithoutSDA::getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
17912 - return getUndergroundDataArrayFloatExt(entries);
17916 - * Returns a pointer to the underground DataArrayFloat instance and a
17917 - * sequence describing parameters of a support of each part of \a this field. The
17918 - * caller should not decrRef() the returned DataArrayFloat. This method allows for a
17919 - * direct access to the field values. This method is intended for the field lying on one
17921 - * \param [in,out] entries - the sequence describing parameters of a support of each
17922 - * part of \a this field. Each item of this sequence consists of two parts. The
17923 - * first part describes a type of mesh entity and an id of discretization of a
17924 - * current field part. The second part describes a range of values [begin,end)
17925 - * within the returned array relating to the current field part.
17926 - * \return DataArrayFloat * - the pointer to the field values array.
17927 - * \throw If the number of underlying meshes is not equal to 1.
17928 - * \throw If no field values are available.
17929 - * \sa getUndergroundDataArray()
17931 -DataArrayFloat *MEDFileFloatField1TSWithoutSDA::getUndergroundDataArrayFloatExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
17933 - if(_field_per_mesh.size()!=1)
17934 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt : field lies on several meshes, this method has no sense !");
17935 - if(_field_per_mesh[0]==0)
17936 - throw INTERP_KERNEL::Exception("MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt : no field specified !");
17937 - _field_per_mesh[0]->getUndergroundDataArrayExt(entries);
17938 - return getUndergroundDataArrayTemplate();
17941 -MEDFileFloatField1TSWithoutSDA *MEDFileFloatField1TSWithoutSDA::shallowCpy() const
17943 - MCAuto<MEDFileFloatField1TSWithoutSDA> ret(new MEDFileFloatField1TSWithoutSDA(*this));
17944 - ret->deepCpyLeavesFrom(*this);
17945 - return ret.retn();
17948 -MEDFileFloatField1TSWithoutSDA *MEDFileFloatField1TSWithoutSDA::deepCopy() const
17950 - MCAuto<MEDFileFloatField1TSWithoutSDA> ret(shallowCpy());
17951 - if(_arr.isNotNull())
17952 - ret->_arr=_arr->deepCopy();
17953 - return ret.retn();
17956 -//= MEDFileAnyTypeField1TS
17958 -MEDFileAnyTypeField1TS::MEDFileAnyTypeField1TS()
17962 -MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeField1TS::BuildContentFrom(med_idt fid, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
17964 - med_field_type typcha;
17966 - std::vector<std::string> infos;
17967 - std::string dtunit,fieldName,meshName;
17968 - LocateField2(fid,0,true,fieldName,typcha,infos,dtunit,meshName);
17969 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> ret;
17972 - case MED_FLOAT64:
17974 - ret=MEDFileField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
17979 - ret=MEDFileIntField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
17982 - case MED_NODE://6432
17984 - ret=MEDFileFloatField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
17989 - std::ostringstream oss; oss << "MEDFileAnyTypeField1TS::BuildContentFrom(fid) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but the type of the first field is not in [MED_FLOAT64, MED_INT32] !";
17990 - throw INTERP_KERNEL::Exception(oss.str());
17993 - ret->setDtUnit(dtunit.c_str());
17994 - ret->getOrCreateAndGetArray()->setInfoAndChangeNbOfCompo(infos);
17996 - med_int numdt,numit;
17998 - MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,fieldName.c_str(),1,&numdt,&numit,&dt));
17999 - ret->setTime(numdt,numit,dt);
18002 - ret->loadStructureAndBigArraysRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
18004 - ret->loadOnlyStructureOfDataRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
18005 - return ret.retn();
18008 -MEDFileAnyTypeField1TS::MEDFileAnyTypeField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
18009 -try:MEDFileFieldGlobsReal(fid)
18011 - _content=BuildContentFrom(fid,loadAll,ms,entities);
18012 - loadGlobals(fid);
18014 -catch(INTERP_KERNEL::Exception& e)
18019 -MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeField1TS::BuildContentFrom(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
18021 - med_field_type typcha;
18022 - std::vector<std::string> infos;
18023 - std::string dtunit,meshName;
18027 - nbSteps=LocateField(fid,fieldName,iii,typcha,infos,dtunit,meshName);
18029 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> ret;
18032 - case MED_FLOAT64:
18034 - ret=MEDFileField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
18039 - ret=MEDFileIntField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
18042 - case MED_NODE://6432
18044 - ret=MEDFileFloatField1TSWithoutSDA::New(fieldName,meshName,-1,-1/*iteration*/,-1/*order*/,std::vector<std::string>());
18049 - std::ostringstream oss; oss << "MEDFileAnyTypeField1TS::BuildContentFrom(fid,fieldName) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but the type of field is not in [MED_FLOAT64, MED_INT32, MED_FLOAT32] !";
18050 - throw INTERP_KERNEL::Exception(oss.str());
18053 - ret->setMeshName(meshName);
18054 - ret->setDtUnit(dtunit.c_str());
18055 - ret->getOrCreateAndGetArray()->setInfoAndChangeNbOfCompo(infos);
18059 - std::ostringstream oss; oss << "MEDFileField1TS(fid,fieldName) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but there is no time steps on it !";
18060 - throw INTERP_KERNEL::Exception(oss.str());
18063 - med_int numdt,numit;
18065 - MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,fieldName.c_str(),1,&numdt,&numit,&dt));
18066 - ret->setTime(numdt,numit,dt);
18069 - ret->loadStructureAndBigArraysRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
18071 - ret->loadOnlyStructureOfDataRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
18072 - return ret.retn();
18075 -MEDFileAnyTypeField1TS::MEDFileAnyTypeField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
18076 -try:MEDFileFieldGlobsReal(fid)
18078 - _content=BuildContentFrom(fid,fieldName,loadAll,ms,entities);
18079 - loadGlobals(fid);
18081 -catch(INTERP_KERNEL::Exception& e)
18086 -MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::BuildNewInstanceFromContent(MEDFileAnyTypeField1TSWithoutSDA *c)
18089 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::BuildNewInstanceFromContent : empty content in input : unable to build a new instance !");
18090 - if(dynamic_cast<const MEDFileField1TSWithoutSDA *>(c))
18092 - MCAuto<MEDFileField1TS> ret(MEDFileField1TS::New());
18093 - ret->_content=c; c->incrRef();
18094 - return ret.retn();
18096 - if(dynamic_cast<const MEDFileIntField1TSWithoutSDA *>(c))
18098 - MCAuto<MEDFileIntField1TS> ret(MEDFileIntField1TS::New());
18099 - ret->_content=c; c->incrRef();
18100 - return ret.retn();
18102 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::BuildNewInstanceFromContent : internal error ! a content of type different from FLOAT64 and INT32 has been built but not intercepted !");
18105 -MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::BuildNewInstanceFromContent(MEDFileAnyTypeField1TSWithoutSDA *c, med_idt fid)
18107 - MEDFileAnyTypeField1TS *ret(BuildNewInstanceFromContent(c));
18108 - ret->setFileName(FileNameFromFID(fid));
18112 -MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(const std::string& fileName, bool loadAll)
18114 - MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
18115 - return New(fid,loadAll);
18118 -MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(med_idt fid, bool loadAll)
18120 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> c(BuildContentFrom(fid,loadAll,0,0));
18121 - MCAuto<MEDFileAnyTypeField1TS> ret(BuildNewInstanceFromContent(c,fid));
18122 - ret->loadGlobals(fid);
18123 - return ret.retn();
18126 -MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(const std::string& fileName, const std::string& fieldName, bool loadAll)
18128 - MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
18129 - return New(fid,fieldName,loadAll);
18132 -MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(med_idt fid, const std::string& fieldName, bool loadAll)
18134 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> c(BuildContentFrom(fid,fieldName,loadAll,0,0));
18135 - MCAuto<MEDFileAnyTypeField1TS> ret(BuildNewInstanceFromContent(c,fid));
18136 - ret->loadGlobals(fid);
18137 - return ret.retn();
18140 -MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(const std::string& fileName, const std::string& fieldName, int iteration, int order, bool loadAll)
18142 - MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
18143 - return New(fid,fieldName,iteration,order,loadAll);
18146 -MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::New(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll)
18148 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> c(BuildContentFrom(fid,fieldName,iteration,order,loadAll,0,0));
18149 - MCAuto<MEDFileAnyTypeField1TS> ret(BuildNewInstanceFromContent(c,fid));
18150 - ret->loadGlobals(fid);
18151 - return ret.retn();
18154 -MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::NewAdv(const std::string& fileName, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileEntities *entities)
18156 - MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
18157 - return NewAdv(fid,fieldName,iteration,order,loadAll,entities);
18160 -MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::NewAdv(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileEntities *entities)
18162 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> c(BuildContentFrom(fid,fieldName,iteration,order,loadAll,0,entities));
18163 - MCAuto<MEDFileAnyTypeField1TS> ret(BuildNewInstanceFromContent(c,fid));
18164 - ret->loadGlobals(fid);
18165 - return ret.retn();
18168 -MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeField1TS::BuildContentFrom(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
18170 - med_field_type typcha;
18171 - std::vector<std::string> infos;
18172 - std::string dtunit,meshName;
18174 - int nbOfStep2(LocateField(fid,fieldName,iii,typcha,infos,dtunit,meshName));
18175 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> ret;
18178 - case MED_FLOAT64:
18180 - ret=MEDFileField1TSWithoutSDA::New(fieldName,meshName,-1,iteration,order,std::vector<std::string>());
18185 - ret=MEDFileIntField1TSWithoutSDA::New(fieldName,meshName,-1,iteration,order,std::vector<std::string>());
18188 - case MED_NODE://6432
18190 - ret=MEDFileFloatField1TSWithoutSDA::New(fieldName,meshName,-1,iteration,order,std::vector<std::string>());
18195 - std::ostringstream oss; oss << "MEDFileAnyTypeField1TS::BuildContentFrom(fid,fieldName,iteration,order) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but the type of field is not in [MED_FLOAT64, MED_INT32, MED_FLOAT32] !";
18196 - throw INTERP_KERNEL::Exception(oss.str());
18199 - ret->setDtUnit(dtunit.c_str());
18200 - ret->getOrCreateAndGetArray()->setInfoAndChangeNbOfCompo(infos);
18202 - bool found=false;
18203 - std::vector< std::pair<int,int> > dtits(nbOfStep2);
18204 - for(int i=0;i<nbOfStep2 && !found;i++)
18206 - med_int numdt,numit;
18208 - MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,fieldName.c_str(),i+1,&numdt,&numit,&dt));
18209 - if(numdt==iteration && numit==order)
18215 - dtits[i]=std::pair<int,int>(numdt,numit);
18219 - std::ostringstream oss; oss << "No such iteration (" << iteration << "," << order << ") in existing field '" << fieldName << "' in file '" << FileNameFromFID(fid) << "' ! Available iterations are : ";
18220 - for(std::vector< std::pair<int,int> >::const_iterator iter=dtits.begin();iter!=dtits.end();iter++)
18221 - oss << "(" << (*iter).first << "," << (*iter).second << "), ";
18222 - throw INTERP_KERNEL::Exception(oss.str());
18225 - ret->loadStructureAndBigArraysRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
18227 - ret->loadOnlyStructureOfDataRecursively(fid,*((const MEDFileAnyTypeField1TSWithoutSDA*)ret),ms,entities);
18228 - return ret.retn();
18231 -MEDFileAnyTypeField1TS::MEDFileAnyTypeField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
18232 -try:MEDFileFieldGlobsReal(fid)
18234 - _content=BuildContentFrom(fid,fieldName,iteration,order,loadAll,ms,entities);
18235 - loadGlobals(fid);
18237 -catch(INTERP_KERNEL::Exception& e)
18243 - * This constructor is a shallow copy constructor. If \a shallowCopyOfContent is true the content of \a other is shallow copied.
18244 - * If \a shallowCopyOfContent is false, \a other is taken to be the content of \a this.
18246 - * \warning this is a shallow copy constructor
18248 -MEDFileAnyTypeField1TS::MEDFileAnyTypeField1TS(const MEDFileAnyTypeField1TSWithoutSDA& other, bool shallowCopyOfContent)
18250 - if(!shallowCopyOfContent)
18252 - const MEDFileAnyTypeField1TSWithoutSDA *otherPtr(&other);
18253 - otherPtr->incrRef();
18254 - _content=const_cast<MEDFileAnyTypeField1TSWithoutSDA *>(otherPtr);
18258 - _content=other.shallowCpy();
18262 -int MEDFileAnyTypeField1TS::LocateField2(med_idt fid, int fieldIdCFormat, bool checkFieldId, std::string& fieldName, med_field_type& typcha, std::vector<std::string>& infos, std::string& dtunitOut, std::string& meshName)
18266 - int nbFields=MEDnField(fid);
18267 - if(fieldIdCFormat>=nbFields)
18269 - std::ostringstream oss; oss << "MEDFileAnyTypeField1TS::LocateField2(fileName) : in file \'" << FileNameFromFID(fid) << "\' number of fields is " << nbFields << " ! Trying to request for id " << fieldIdCFormat << " !";
18270 - throw INTERP_KERNEL::Exception(oss.str());
18273 - int ncomp(MEDfieldnComponent(fid,fieldIdCFormat+1));
18274 - INTERP_KERNEL::AutoPtr<char> comp(MEDLoaderBase::buildEmptyString(ncomp*MED_SNAME_SIZE));
18275 - INTERP_KERNEL::AutoPtr<char> unit(MEDLoaderBase::buildEmptyString(ncomp*MED_SNAME_SIZE));
18276 - INTERP_KERNEL::AutoPtr<char> dtunit(MEDLoaderBase::buildEmptyString(MED_LNAME_SIZE));
18277 - INTERP_KERNEL::AutoPtr<char> nomcha(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
18278 - INTERP_KERNEL::AutoPtr<char> nomMaa(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
18279 - med_bool localMesh;
18281 - MEDFILESAFECALLERRD0(MEDfieldInfo,(fid,fieldIdCFormat+1,nomcha,nomMaa,&localMesh,&typcha,comp,unit,dtunit,&nbOfStep));
18282 - fieldName=MEDLoaderBase::buildStringFromFortran(nomcha,MED_NAME_SIZE);
18283 - dtunitOut=MEDLoaderBase::buildStringFromFortran(dtunit,MED_LNAME_SIZE);
18284 - meshName=MEDLoaderBase::buildStringFromFortran(nomMaa,MED_NAME_SIZE);
18285 - infos.clear(); infos.resize(ncomp);
18286 - for(int j=0;j<ncomp;j++)
18287 - infos[j]=MEDLoaderBase::buildUnionUnit((char *)comp+j*MED_SNAME_SIZE,MED_SNAME_SIZE,(char *)unit+j*MED_SNAME_SIZE,MED_SNAME_SIZE);
18292 - * This method throws an INTERP_KERNEL::Exception if \a fieldName field is not in file pointed by \a fid and with name \a fileName.
18295 - * \return in case of success the number of time steps available for the field with name \a fieldName.
18297 -int MEDFileAnyTypeField1TS::LocateField(med_idt fid, const std::string& fieldName, int& posCFormat, med_field_type& typcha, std::vector<std::string>& infos, std::string& dtunitOut, std::string& meshName)
18299 - int nbFields=MEDnField(fid);
18300 - bool found=false;
18301 - std::vector<std::string> fns(nbFields);
18302 - int nbOfStep2(-1);
18303 - for(int i=0;i<nbFields && !found;i++)
18305 - std::string tmp,tmp2;
18306 - nbOfStep2=LocateField2(fid,i,false,tmp,typcha,infos,dtunitOut,tmp2);
18308 - found=(tmp==fieldName);
18317 - std::ostringstream oss; oss << "No such field '" << fieldName << "' in file '" << FileNameFromFID(fid) << "' ! Available fields are : ";
18318 - for(std::vector<std::string>::const_iterator it=fns.begin();it!=fns.end();it++)
18319 - oss << "\"" << *it << "\" ";
18320 - throw INTERP_KERNEL::Exception(oss.str());
18322 - return nbOfStep2;
18326 - * This method as MEDFileField1TSW::setLocNameOnLeaf, is dedicated for advanced user that a want a very fine control on their data structure
18327 - * without overhead. This method can be called only regarding information returned by MEDFileField1TSWithoutSDA::getFieldSplitedByType or MEDFileField1TSWithoutSDA::getFieldSplitedByType2.
18328 - * This method changes the attribute (here it's profile name) of the leaf datastructure (MEDFileFieldPerMeshPerTypePerDisc instance).
18329 - * It is the responsability of the caller to invoke MEDFileFieldGlobs::appendProfile or MEDFileFieldGlobs::getProfile
18330 - * to keep a valid instance.
18331 - * If \b this do not have any leaf that correspond to the request of the input parameter (\b mName, \b typ, \b locId) an INTERP_KERNEL::Exception will be thrown.
18332 - * If \b newPflName profile name does not already exist the profile with old name will be renamed with name \b newPflName.
18333 - * If \b newPflName already exists and that \b forceRenameOnGlob is false (the default) an INTERP_KERNEL::Exception will be thrown to avoid big confusion. In this case the called should rename before the profile name with name \b newPflName.
18335 - * \param [in] mName specifies the underlying mesh name. This value can be pointer 0 for users that do not deal with fields on multi mesh.
18336 - * \param [in] typ is for the geometric cell type (or INTERP_KERNEL::NORM_ERROR for node field) entry to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set.
18337 - * \param [in] locId is the localization id to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set. It corresponds to the position of
18338 - * \c pfls[std::distance(types.begin(),std::find(types.begin(),typ)] vector in MEDFileField1TSWithoutSDA::getFieldSplitedByType. For non gausspoints field users, the value is 0.
18339 - * \param [in] newLocName is the new localization name.
18340 - * \param [in] forceRenameOnGlob specifies the behaviour in case of profile \b newPflName already exists. If true, the renaming is done without check. It can lead to major bug.
18341 - * If false, an exception will be thrown to force user to change previously the name of the profile with name \b newPflName
18343 -void MEDFileAnyTypeField1TS::setProfileNameOnLeaf(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId, const std::string& newPflName, bool forceRenameOnGlob)
18345 - MEDFileFieldPerMeshPerTypePerDisc *disc=getLeafGivenMeshAndTypeAndLocId(mName,typ,locId);
18346 - std::string oldPflName=disc->getProfile();
18347 - std::vector<std::string> vv=getPflsReallyUsedMulti();
18348 - int nbOfOcc=std::count(vv.begin(),vv.end(),oldPflName);
18349 - if(forceRenameOnGlob || (!existsPfl(newPflName) && nbOfOcc==1))
18351 - disc->setProfile(newPflName);
18352 - DataArrayInt *pfl=getProfile(oldPflName.c_str());
18353 - pfl->setName(newPflName);
18357 - std::ostringstream oss; oss << "MEDFileField1TS::setProfileNameOnLeaf : Profile \"" << newPflName << "\" already exists or referenced more than one !";
18358 - throw INTERP_KERNEL::Exception(oss.str());
18363 - * This method as MEDFileField1TSW::setProfileNameOnLeaf, is dedicated for advanced user that a want a very fine control on their data structure
18364 - * without overhead. This method can be called only regarding information returned by MEDFileField1TSWithoutSDA::getFieldSplitedByType or MEDFileField1TSWithoutSDA::getFieldSplitedByType2.
18365 - * This method changes the attribute (here it's localization name) of the leaf datastructure (MEDFileFieldPerMeshPerTypePerDisc instance).
18366 - * It is the responsability of the caller to invoke MEDFileFieldGlobs::appendProfile or MEDFileFieldGlobs::getProfile
18367 - * to keep a valid instance.
18368 - * If \b this do not have any leaf that correspond to the request of the input parameter (\b mName, \b typ, \b locId) an INTERP_KERNEL::Exception will be thrown.
18369 - * This method is an extension of MEDFileField1TSWithoutSDA::setProfileNameOnLeafExt method because it performs a modification of global info.
18370 - * If \b newLocName profile name does not already exist the localization with old name will be renamed with name \b newLocName.
18371 - * If \b newLocName already exists an INTERP_KERNEL::Exception will be thrown to avoid big confusion. In this case the called should rename before the profile name with name \b newLocName.
18373 - * \param [in] mName specifies the underlying mesh name. This value can be pointer 0 for users that do not deal with fields on multi mesh.
18374 - * \param [in] typ is for the geometric cell type (or INTERP_KERNEL::NORM_ERROR for node field) entry to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set.
18375 - * \param [in] locId is the localization id to find the right MEDFileFieldPerMeshPerTypePerDisc instance to set. It corresponds to the position of
18376 - * \c pfls[std::distance(types.begin(),std::find(types.begin(),typ)] vector in MEDFileField1TSWithoutSDA::getFieldSplitedByType. For non gausspoints field users, the value is 0.
18377 - * \param [in] newLocName is the new localization name.
18378 - * \param [in] forceRenameOnGlob specifies the behaviour in case of profile \b newLocName already exists. If true, the renaming is done without check. It can lead to major bug.
18379 - * If false, an exception will be thrown to force user to change previously the name of the profile with name \b newLocName
18381 -void MEDFileAnyTypeField1TS::setLocNameOnLeaf(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId, const std::string& newLocName, bool forceRenameOnGlob)
18383 - MEDFileFieldPerMeshPerTypePerDisc *disc=getLeafGivenMeshAndTypeAndLocId(mName,typ,locId);
18384 - std::string oldLocName=disc->getLocalization();
18385 - std::vector<std::string> vv=getLocsReallyUsedMulti();
18386 - int nbOfOcc=std::count(vv.begin(),vv.end(),oldLocName);
18387 - if(forceRenameOnGlob || (!existsLoc(newLocName) && nbOfOcc==1))
18389 - disc->setLocalization(newLocName);
18390 - MEDFileFieldLoc& loc=getLocalization(oldLocName.c_str());
18391 - loc.setName(newLocName);
18395 - std::ostringstream oss; oss << "MEDFileField1TS::setLocNameOnLeaf : Localization \"" << newLocName << "\" already exists or referenced more than one !";
18396 - throw INTERP_KERNEL::Exception(oss.str());
18400 -MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeField1TS::contentNotNullBase()
18402 - MEDFileAnyTypeField1TSWithoutSDA *ret=_content;
18404 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS : content is expected to be not null !");
18408 -const MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeField1TS::contentNotNullBase() const
18410 - const MEDFileAnyTypeField1TSWithoutSDA *ret=_content;
18412 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS : const content is expected to be not null !");
18417 - * This method alloc the arrays and load potentially huge arrays contained in this field.
18418 - * This method should be called when a MEDFileAnyTypeField1TS::New constructor has been with false as the last parameter.
18419 - * This method can be also called to refresh or reinit values from a file.
18421 - * \throw If the fileName is not set or points to a non readable MED file.
18422 - * \sa MEDFileAnyTypeField1TS::loadArraysIfNecessary
18424 -void MEDFileAnyTypeField1TS::loadArrays()
18426 - if(getFileName().empty())
18427 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::loadArrays : the structure does not come from a file !");
18428 - MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(getFileName()));
18429 - contentNotNullBase()->loadBigArraysRecursively(fid,*contentNotNullBase());
18433 - * This method behaves as MEDFileAnyTypeField1TS::loadArrays does, the first call, if \a this was built using a file without loading big arrays.
18434 - * But once data loaded once, this method does nothing. Contrary to MEDFileAnyTypeField1TS::loadArrays and MEDFileAnyTypeField1TS::unloadArrays
18435 - * this method does not throw if \a this does not come from file read.
18437 - * \sa MEDFileAnyTypeField1TS::loadArrays, MEDFileAnyTypeField1TS::unloadArrays
18439 -void MEDFileAnyTypeField1TS::loadArraysIfNecessary()
18441 - if(!getFileName().empty())
18443 - MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(getFileName()));
18444 - contentNotNullBase()->loadBigArraysRecursivelyIfNecessary(fid,*contentNotNullBase());
18449 - * This method releases potentially big data arrays and so returns to the same heap memory than status loaded with 'loadAll' parameter set to false.
18450 - * \b WARNING, this method does release arrays even if \a this does not come from a load of a MED file.
18451 - * So this method can lead to a loss of data. If you want to unload arrays safely call MEDFileAnyTypeField1TS::unloadArraysWithoutDataLoss instead.
18453 - * \sa MEDFileAnyTypeField1TS::loadArrays, MEDFileAnyTypeField1TS::loadArraysIfNecessary, MEDFileAnyTypeField1TS::unloadArraysWithoutDataLoss
18455 -void MEDFileAnyTypeField1TS::unloadArrays()
18457 - contentNotNullBase()->unloadArrays();
18461 - * This method potentially releases big data arrays if \a this is coming from a file. If \a this has been built from scratch this method will have no effect.
18462 - * This method is the symetrical method of MEDFileAnyTypeField1TS::loadArraysIfNecessary.
18463 - * This method is useful to reduce \b safely amount of heap memory necessary for \a this by using MED file as database.
18465 - * \sa MEDFileAnyTypeField1TS::loadArraysIfNecessary
18467 -void MEDFileAnyTypeField1TS::unloadArraysWithoutDataLoss()
18469 - if(!getFileName().empty())
18470 - contentNotNullBase()->unloadArrays();
18473 -void MEDFileAnyTypeField1TS::writeLL(med_idt fid) const
18475 - int nbComp(getNumberOfComponents());
18476 - INTERP_KERNEL::AutoPtr<char> comp(MEDLoaderBase::buildEmptyString(nbComp*MED_SNAME_SIZE));
18477 - INTERP_KERNEL::AutoPtr<char> unit(MEDLoaderBase::buildEmptyString(nbComp*MED_SNAME_SIZE));
18478 - for(int i=0;i<nbComp;i++)
18480 - std::string info=getInfo()[i];
18482 - MEDLoaderBase::splitIntoNameAndUnit(info,c,u);
18483 - MEDLoaderBase::safeStrCpy2(c.c_str(),MED_SNAME_SIZE,comp+i*MED_SNAME_SIZE,_too_long_str);
18484 - MEDLoaderBase::safeStrCpy2(u.c_str(),MED_SNAME_SIZE,unit+i*MED_SNAME_SIZE,_too_long_str);
18486 - if(getName().empty())
18487 - throw INTERP_KERNEL::Exception("MEDFileField1TS::write : MED file does not accept field with empty name !");
18488 - MEDFILESAFECALLERWR0(MEDfieldCr,(fid,getName().c_str(),getMEDFileFieldType(),nbComp,comp,unit,getDtUnit().c_str(),getMeshName().c_str()));
18489 - writeGlobals(fid,*this);
18490 - contentNotNullBase()->writeLL(fid,*this,*contentNotNullBase());
18493 -std::size_t MEDFileAnyTypeField1TS::getHeapMemorySizeWithoutChildren() const
18495 - return MEDFileFieldGlobsReal::getHeapMemorySizeWithoutChildren();
18498 -std::vector<const BigMemoryObject *> MEDFileAnyTypeField1TS::getDirectChildrenWithNull() const
18500 - std::vector<const BigMemoryObject *> ret(MEDFileFieldGlobsReal::getDirectChildrenWithNull());
18501 - ret.push_back((const MEDFileAnyTypeField1TSWithoutSDA *)_content);
18506 - * Returns a string describing \a this field. This string is outputted
18507 - * by \c print Python command.
18509 -std::string MEDFileAnyTypeField1TS::simpleRepr() const
18511 - std::ostringstream oss;
18512 - contentNotNullBase()->simpleRepr(0,oss,-1);
18513 - simpleReprGlobs(oss);
18514 - return oss.str();
18518 - * This method returns all profiles whose name is non empty used.
18519 - * \b WARNING If profile is used several times it will be reported \b only \b once.
18520 - * To get non empty name profiles as time as they appear in \b this call MEDFileField1TS::getPflsReallyUsedMulti instead.
18522 -std::vector<std::string> MEDFileAnyTypeField1TS::getPflsReallyUsed() const
18524 - return contentNotNullBase()->getPflsReallyUsed2();
18528 - * This method returns all localizations whose name is non empty used.
18529 - * \b WARNING If localization is used several times it will be reported \b only \b once.
18531 -std::vector<std::string> MEDFileAnyTypeField1TS::getLocsReallyUsed() const
18533 - return contentNotNullBase()->getLocsReallyUsed2();
18537 - * This method returns all profiles whose name is non empty used.
18538 - * \b WARNING contrary to MEDFileField1TS::getPflsReallyUsed, if profile is used several times it will be reported as time as it appears.
18540 -std::vector<std::string> MEDFileAnyTypeField1TS::getPflsReallyUsedMulti() const
18542 - return contentNotNullBase()->getPflsReallyUsedMulti2();
18546 - * This method returns all localizations whose name is non empty used.
18547 - * \b WARNING contrary to MEDFileField1TS::getLocsReallyUsed if localization is used several times it will be reported as time as it appears.
18549 -std::vector<std::string> MEDFileAnyTypeField1TS::getLocsReallyUsedMulti() const
18551 - return contentNotNullBase()->getLocsReallyUsedMulti2();
18554 -void MEDFileAnyTypeField1TS::changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
18556 - contentNotNullBase()->changePflsRefsNamesGen2(mapOfModif);
18559 -void MEDFileAnyTypeField1TS::changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
18561 - contentNotNullBase()->changeLocsRefsNamesGen2(mapOfModif);
18564 -int MEDFileAnyTypeField1TS::getDimension() const
18566 - return contentNotNullBase()->getDimension();
18569 -int MEDFileAnyTypeField1TS::getIteration() const
18571 - return contentNotNullBase()->getIteration();
18574 -int MEDFileAnyTypeField1TS::getOrder() const
18576 - return contentNotNullBase()->getOrder();
18579 -double MEDFileAnyTypeField1TS::getTime(int& iteration, int& order) const
18581 - return contentNotNullBase()->getTime(iteration,order);
18584 -void MEDFileAnyTypeField1TS::setTime(int iteration, int order, double val)
18586 - contentNotNullBase()->setTime(iteration,order,val);
18589 -std::string MEDFileAnyTypeField1TS::getName() const
18591 - return contentNotNullBase()->getName();
18594 -void MEDFileAnyTypeField1TS::setName(const std::string& name)
18596 - contentNotNullBase()->setName(name);
18599 -void MEDFileAnyTypeField1TS::simpleRepr(int bkOffset, std::ostream& oss, int f1tsId) const
18601 - contentNotNullBase()->simpleRepr(bkOffset,oss,f1tsId);
18604 -std::string MEDFileAnyTypeField1TS::getDtUnit() const
18606 - return contentNotNullBase()->getDtUnit();
18609 -void MEDFileAnyTypeField1TS::setDtUnit(const std::string& dtUnit)
18611 - contentNotNullBase()->setDtUnit(dtUnit);
18614 -std::string MEDFileAnyTypeField1TS::getMeshName() const
18616 - return contentNotNullBase()->getMeshName();
18619 -void MEDFileAnyTypeField1TS::setMeshName(const std::string& newMeshName)
18621 - contentNotNullBase()->setMeshName(newMeshName);
18624 -bool MEDFileAnyTypeField1TS::changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab)
18626 - return contentNotNullBase()->changeMeshNames(modifTab);
18629 -int MEDFileAnyTypeField1TS::getMeshIteration() const
18631 - return contentNotNullBase()->getMeshIteration();
18634 -int MEDFileAnyTypeField1TS::getMeshOrder() const
18636 - return contentNotNullBase()->getMeshOrder();
18639 -int MEDFileAnyTypeField1TS::getNumberOfComponents() const
18641 - return contentNotNullBase()->getNumberOfComponents();
18644 -bool MEDFileAnyTypeField1TS::isDealingTS(int iteration, int order) const
18646 - return contentNotNullBase()->isDealingTS(iteration,order);
18649 -std::pair<int,int> MEDFileAnyTypeField1TS::getDtIt() const
18651 - return contentNotNullBase()->getDtIt();
18654 -void MEDFileAnyTypeField1TS::fillIteration(std::pair<int,int>& p) const
18656 - contentNotNullBase()->fillIteration(p);
18659 -void MEDFileAnyTypeField1TS::fillTypesOfFieldAvailable(std::vector<TypeOfField>& types) const
18661 - contentNotNullBase()->fillTypesOfFieldAvailable(types);
18664 -void MEDFileAnyTypeField1TS::setInfo(const std::vector<std::string>& infos)
18666 - contentNotNullBase()->setInfo(infos);
18669 -const std::vector<std::string>& MEDFileAnyTypeField1TS::getInfo() const
18671 - return contentNotNullBase()->getInfo();
18673 -std::vector<std::string>& MEDFileAnyTypeField1TS::getInfo()
18675 - return contentNotNullBase()->getInfo();
18678 -bool MEDFileAnyTypeField1TS::presenceOfMultiDiscPerGeoType() const
18680 - return contentNotNullBase()->presenceOfMultiDiscPerGeoType();
18683 -MEDFileFieldPerMeshPerTypePerDisc *MEDFileAnyTypeField1TS::getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId)
18685 - return contentNotNullBase()->getLeafGivenMeshAndTypeAndLocId(mName,typ,locId);
18688 -const MEDFileFieldPerMeshPerTypePerDisc *MEDFileAnyTypeField1TS::getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId) const
18690 - return contentNotNullBase()->getLeafGivenMeshAndTypeAndLocId(mName,typ,locId);
18693 -int MEDFileAnyTypeField1TS::getNonEmptyLevels(const std::string& mname, std::vector<int>& levs) const
18695 - return contentNotNullBase()->getNonEmptyLevels(mname,levs);
18698 -void MEDFileAnyTypeField1TS::convertMedBallIntoClassic()
18700 - return contentNotNullBase()->convertMedBallIntoClassic();
18703 -void MEDFileAnyTypeField1TS::makeReduction(INTERP_KERNEL::NormalizedCellType ct, TypeOfField tof, const DataArrayInt *pfl)
18705 - return contentNotNullBase()->makeReduction(ct,tof,pfl);
18708 -std::vector<TypeOfField> MEDFileAnyTypeField1TS::getTypesOfFieldAvailable() const
18710 - return contentNotNullBase()->getTypesOfFieldAvailable();
18713 -std::vector< std::vector<std::pair<int,int> > > MEDFileAnyTypeField1TS::getFieldSplitedByType(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF,
18714 - std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
18716 - return contentNotNullBase()->getFieldSplitedByType(mname,types,typesF,pfls,locs);
18720 - * This method returns as MEDFileAnyTypeField1TS new instances as number of components in \a this.
18721 - * The returned instances are deep copy of \a this except that for globals that are share with those contained in \a this.
18722 - * ** WARNING ** do no forget to rename the ouput instances to avoid to write n-times in the same MED file field !
18724 -std::vector< MCAuto< MEDFileAnyTypeField1TS > > MEDFileAnyTypeField1TS::splitComponents() const
18726 - const MEDFileAnyTypeField1TSWithoutSDA *content(_content);
18728 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::splitComponents : no content in this ! Unable to split components !");
18729 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > contentsSplit=content->splitComponents();
18730 - std::size_t sz(contentsSplit.size());
18731 - std::vector< MCAuto< MEDFileAnyTypeField1TS > > ret(sz);
18732 - for(std::size_t i=0;i<sz;i++)
18734 - ret[i]=shallowCpy();
18735 - ret[i]->_content=contentsSplit[i];
18741 - * This method returns as MEDFileAnyTypeField1TS new instances as number of spatial discretizations in \a this.
18742 - * The returned instances are shallowed copied of \a this except that for globals that are share with those contained in \a this.
18744 -std::vector< MCAuto< MEDFileAnyTypeField1TS > > MEDFileAnyTypeField1TS::splitDiscretizations() const
18746 - const MEDFileAnyTypeField1TSWithoutSDA *content(_content);
18748 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::splitDiscretizations : no content in this ! Unable to split discretization !");
18749 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > contentsSplit(content->splitDiscretizations());
18750 - std::size_t sz(contentsSplit.size());
18751 - std::vector< MCAuto< MEDFileAnyTypeField1TS > > ret(sz);
18752 - for(std::size_t i=0;i<sz;i++)
18754 - ret[i]=shallowCpy();
18755 - ret[i]->_content=contentsSplit[i];
18761 - * This method returns as MEDFileAnyTypeField1TS new instances as number of maximal number of discretization in \a this.
18762 - * The returned instances are shallowed copied of \a this except that for globals that are share with those contained in \a this.
18764 -std::vector< MCAuto< MEDFileAnyTypeField1TS > > MEDFileAnyTypeField1TS::splitMultiDiscrPerGeoTypes() const
18766 - const MEDFileAnyTypeField1TSWithoutSDA *content(_content);
18768 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeField1TS::splitMultiDiscrPerGeoTypes : no content in this ! Unable to split discretization !");
18769 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > contentsSplit(content->splitMultiDiscrPerGeoTypes());
18770 - std::size_t sz(contentsSplit.size());
18771 - std::vector< MCAuto< MEDFileAnyTypeField1TS > > ret(sz);
18772 - for(std::size_t i=0;i<sz;i++)
18774 - ret[i]=shallowCpy();
18775 - ret[i]->_content=contentsSplit[i];
18780 -MEDFileAnyTypeField1TS *MEDFileAnyTypeField1TS::deepCopy() const
18782 - MCAuto<MEDFileAnyTypeField1TS> ret=shallowCpy();
18783 - if((const MEDFileAnyTypeField1TSWithoutSDA *)_content)
18784 - ret->_content=_content->deepCopy();
18785 - ret->deepCpyGlobs(*this);
18786 - return ret.retn();
18789 -int MEDFileAnyTypeField1TS::copyTinyInfoFrom(const MEDCouplingFieldDouble *field, const DataArray *arr)
18791 - MCAuto<MEDCouplingFieldTemplate> ft(MEDCouplingFieldTemplate::New(*field));
18792 - return copyTinyInfoFrom(field->timeDiscrSafe(),ft,arr);
18795 -int MEDFileAnyTypeField1TS::copyTinyInfoFrom(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr)
18797 - return contentNotNullBase()->copyTinyInfoFrom(th,field,arr);
18800 -//= MEDFileField1TS
18803 - * This method performs a copy with datatype modification ( float64->int32 ) of \a this. The globals information are copied
18804 - * following the given input policy.
18806 - * \param [in] isDeepCpyGlobs - a boolean that indicates the behaviour concerning globals (profiles and localizations)
18807 - * By default (true) the globals are deeply copied.
18808 - * \return MEDFileIntField1TS * - a new object that is the result of the conversion of \a this to int32 field.
18810 -MEDFileIntField1TS *MEDFileField1TS::convertToInt(bool isDeepCpyGlobs) const
18812 - MCAuto<MEDFileIntField1TS> ret;
18813 - const MEDFileAnyTypeField1TSWithoutSDA *content(_content);
18816 - const MEDFileField1TSWithoutSDA *contc=dynamic_cast<const MEDFileField1TSWithoutSDA *>(content);
18818 - throw INTERP_KERNEL::Exception("MEDFileField1TS::convertToInt : the content inside this is not FLOAT64 ! This is incoherent !");
18819 - MCAuto<MEDFileIntField1TSWithoutSDA> newc(contc->convertToInt());
18820 - ret=static_cast<MEDFileIntField1TS *>(MEDFileAnyTypeField1TS::BuildNewInstanceFromContent((MEDFileIntField1TSWithoutSDA *)newc));
18823 - ret=MEDFileIntField1TS::New();
18824 - if(isDeepCpyGlobs)
18825 - ret->deepCpyGlobs(*this);
18827 - ret->shallowCpyGlobs(*this);
18828 - return ret.retn();
18831 -MEDFileField1TS::MEDFileField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms)
18832 -try:MEDFileTemplateField1TS<double>(fid,loadAll,ms)
18835 -catch(INTERP_KERNEL::Exception& e)
18838 -MEDFileField1TS::MEDFileField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms)
18839 -try:MEDFileTemplateField1TS<double>(fid,fieldName,loadAll,ms)
18842 -catch(INTERP_KERNEL::Exception& e)
18845 -MEDFileField1TS::MEDFileField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms)
18846 -try:MEDFileTemplateField1TS<double>(fid,fieldName,iteration,order,loadAll,ms)
18849 -catch(INTERP_KERNEL::Exception& e)
18853 - * This constructor is a shallow copy constructor. If \a shallowCopyOfContent is true the content of \a other is shallow copied.
18854 - * If \a shallowCopyOfContent is false, \a other is taken to be the content of \a this.
18856 - * \warning this is a shallow copy constructor
18858 -MEDFileField1TS::MEDFileField1TS(const MEDFileField1TSWithoutSDA& other, bool shallowCopyOfContent)
18859 -try:MEDFileTemplateField1TS<double>(other,shallowCopyOfContent)
18862 -catch(INTERP_KERNEL::Exception& e)
18865 -MEDFileField1TS *MEDFileField1TS::shallowCpy() const
18867 - return new MEDFileField1TS(*this);
18870 -std::vector< std::vector<DataArrayDouble *> > MEDFileField1TS::getFieldSplitedByType2(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF,
18871 - std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
18873 - return contentNotNull()->getFieldSplitedByType2(mname,types,typesF,pfls,locs);
18876 -//= MEDFileIntField1TS
18878 -MCAuto<MEDCouplingFieldDouble> MEDFileIntField1TS::ConvertFieldIntToFieldDouble(const MEDCouplingFieldInt *f)
18881 - throw INTERP_KERNEL::Exception("MEDFileIntField1TS::ConvertFieldIntToFieldDouble : null input field !");
18883 - double t0(f->getTime(t1,t2));
18884 - std::string tu(f->getTimeUnit());
18885 - MCAuto<MEDCouplingFieldTemplate> ft(MEDCouplingFieldTemplate::New(*f));
18886 - MCAuto<MEDCouplingFieldDouble> ret(MEDCouplingFieldDouble::New(*ft));
18887 - ret->setTime(t0,t1,t2); ret->setTimeUnit(tu);
18891 -//= MEDFileFloatField1TS
18893 -//= MEDFileFloatField1TS
18895 -//= MEDFileAnyTypeFieldMultiTSWithoutSDA
18897 -MEDFileAnyTypeFieldMultiTSWithoutSDA::MEDFileAnyTypeFieldMultiTSWithoutSDA()
18901 -MEDFileAnyTypeFieldMultiTSWithoutSDA::MEDFileAnyTypeFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileFieldNameScope(fieldName,meshName)
18906 - * \param [in] fieldId field id in C mode
18908 -MEDFileAnyTypeFieldMultiTSWithoutSDA::MEDFileAnyTypeFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
18910 - med_field_type typcha;
18911 - std::string dtunitOut,meshName;
18912 - int nbOfStep(MEDFileAnyTypeField1TS::LocateField2(fid,fieldId,false,_name,typcha,_infos,dtunitOut,meshName));
18913 - setMeshName(meshName);
18914 - setDtUnit(dtunitOut.c_str());
18915 - loadStructureOrStructureAndBigArraysRecursively(fid,nbOfStep,typcha,loadAll,ms,entities);
18918 -MEDFileAnyTypeFieldMultiTSWithoutSDA::MEDFileAnyTypeFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
18919 -try:MEDFileFieldNameScope(fieldName,meshName),_infos(infos)
18921 - setDtUnit(dtunit.c_str());
18922 - loadStructureOrStructureAndBigArraysRecursively(fid,nbOfStep,fieldTyp,loadAll,ms,entities);
18924 -catch(INTERP_KERNEL::Exception& e)
18929 -std::size_t MEDFileAnyTypeFieldMultiTSWithoutSDA::getHeapMemorySizeWithoutChildren() const
18931 - std::size_t ret(_mesh_name.capacity()+_name.capacity()+_infos.capacity()*sizeof(std::string)+_time_steps.capacity()*sizeof(MCAuto<MEDFileField1TSWithoutSDA>));
18932 - for(std::vector<std::string>::const_iterator it=_infos.begin();it!=_infos.end();it++)
18933 - ret+=(*it).capacity();
18937 -std::vector<const BigMemoryObject *> MEDFileAnyTypeFieldMultiTSWithoutSDA::getDirectChildrenWithNull() const
18939 - std::vector<const BigMemoryObject *> ret;
18940 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
18941 - ret.push_back((const MEDFileAnyTypeField1TSWithoutSDA *)*it);
18946 - * If one of the id in [ \a startIds , \a endIds ) points to a null element, there is not throw. Simply, this empty element is added as if it were not
18949 -MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::buildFromTimeStepIds(const int *startIds, const int *endIds) const
18951 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> ret=createNew();
18952 - ret->setInfo(_infos);
18953 - int sz=(int)_time_steps.size();
18954 - for(const int *id=startIds;id!=endIds;id++)
18956 - if(*id>=0 && *id<sz)
18958 - const MEDFileAnyTypeField1TSWithoutSDA *tse=_time_steps[*id];
18959 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> tse2;
18963 - tse2=(const_cast<MEDFileAnyTypeField1TSWithoutSDA *>(tse));
18965 - ret->pushBackTimeStep(tse2);
18969 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::buildFromTimeStepIds : At pos #" << std::distance(startIds,id) << " value is " << *id;
18970 - oss << " ! Should be in [0," << sz << ") !";
18971 - throw INTERP_KERNEL::Exception(oss.str());
18974 - if(ret->getNumberOfTS()>0)
18975 - ret->synchronizeNameScope();
18976 - ret->copyNameScope(*this);
18977 - return ret.retn();
18981 - * If one of the id in the input range points to a null element, there is not throw. Simply, this empty element is added as if it were not
18984 -MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::buildFromTimeStepIds2(int bg, int end, int step) const
18986 - static const char msg[]="MEDFileAnyTypeFieldMultiTSWithoutSDA::buildFromTimeStepIds2";
18987 - int nbOfEntriesToKeep=DataArrayInt::GetNumberOfItemGivenBESRelative(bg,end,step,msg);
18988 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> ret=createNew();
18989 - ret->setInfo(_infos);
18990 - int sz=(int)_time_steps.size();
18992 - for(int i=0;i<nbOfEntriesToKeep;i++,j+=step)
18996 - const MEDFileAnyTypeField1TSWithoutSDA *tse=_time_steps[j];
18997 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> tse2;
19001 - tse2=(const_cast<MEDFileAnyTypeField1TSWithoutSDA *>(tse));
19003 - ret->pushBackTimeStep(tse2);
19007 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::buildFromTimeStepIds : At pos #" << i << " value is " << j;
19008 - oss << " ! Should be in [0," << sz << ") !";
19009 - throw INTERP_KERNEL::Exception(oss.str());
19012 - if(ret->getNumberOfTS()>0)
19013 - ret->synchronizeNameScope();
19014 - ret->copyNameScope(*this);
19015 - return ret.retn();
19018 -MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::partOfThisLyingOnSpecifiedTimeSteps(const std::vector< std::pair<int,int> >& timeSteps) const
19021 - MCAuto<DataArrayInt> ids=DataArrayInt::New(); ids->alloc(0,1);
19022 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,id++)
19024 - const MEDFileAnyTypeField1TSWithoutSDA *cur(*it);
19027 - std::pair<int,int> p(cur->getIteration(),cur->getOrder());
19028 - if(std::find(timeSteps.begin(),timeSteps.end(),p)!=timeSteps.end())
19029 - ids->pushBackSilent(id);
19031 - return buildFromTimeStepIds(ids->begin(),ids->end());
19034 -MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::partOfThisNotLyingOnSpecifiedTimeSteps(const std::vector< std::pair<int,int> >& timeSteps) const
19037 - MCAuto<DataArrayInt> ids=DataArrayInt::New(); ids->alloc(0,1);
19038 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,id++)
19040 - const MEDFileAnyTypeField1TSWithoutSDA *cur(*it);
19043 - std::pair<int,int> p(cur->getIteration(),cur->getOrder());
19044 - if(std::find(timeSteps.begin(),timeSteps.end(),p)==timeSteps.end())
19045 - ids->pushBackSilent(id);
19047 - return buildFromTimeStepIds(ids->begin(),ids->end());
19050 -bool MEDFileAnyTypeFieldMultiTSWithoutSDA::presenceOfStructureElements() const
19052 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19053 - if((*it).isNotNull())
19054 - if((*it)->presenceOfStructureElements())
19059 -bool MEDFileAnyTypeFieldMultiTSWithoutSDA::onlyStructureElements() const
19061 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19062 - if((*it).isNotNull())
19063 - if(!(*it)->onlyStructureElements())
19068 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::killStructureElements()
19070 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret;
19071 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19072 - if((*it).isNotNull())
19074 - if((*it)->presenceOfStructureElements())
19076 - if(!(*it)->onlyStructureElements())
19078 - (*it)->killStructureElements();
19079 - ret.push_back(*it);
19084 - ret.push_back(*it);
19090 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::keepOnlyStructureElements()
19092 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret;
19093 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19094 - if((*it).isNotNull())
19096 - if((*it)->presenceOfStructureElements())
19098 - if(!(*it)->onlyStructureElements())
19099 - (*it)->keepOnlyStructureElements();
19100 - ret.push_back(*it);
19106 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::keepOnlyOnSE(const std::string& seName)
19108 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret;
19109 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19110 - if((*it).isNotNull())
19111 - (*it)->keepOnlyOnSE(seName);
19114 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const
19116 - std::vector< std::pair<std::string,std::string> > ps2;
19117 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19118 - if((*it).isNotNull())
19120 - (*it)->getMeshSENames(ps2);
19124 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::getMeshSENames : this appears to not contain SE only !");
19125 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19126 - if((*it).isNotNull())
19128 - std::vector< std::pair<std::string,std::string> > ps3;
19129 - (*it)->getMeshSENames(ps3);
19131 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::getMeshSENames : For the moment only homogeneous SE def through time managed !");
19133 - for(std::vector< std::pair<std::string,std::string> >::const_iterator it=ps2.begin();it!=ps2.end();it++)
19135 - std::vector< std::pair<std::string,std::string> >::iterator it2(std::find(ps.begin(),ps.end(),*it));
19136 - if(it2==ps.end())
19137 - ps.push_back(*it);
19141 -bool MEDFileAnyTypeFieldMultiTSWithoutSDA::presenceOfMultiDiscPerGeoType() const
19143 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19145 - const MEDFileAnyTypeField1TSWithoutSDA *cur(*it);
19148 - if(cur->presenceOfMultiDiscPerGeoType())
19154 -const std::vector<std::string>& MEDFileAnyTypeFieldMultiTSWithoutSDA::getInfo() const
19159 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::setInfo(const std::vector<std::string>& info)
19164 -int MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepPos(int iteration, int order) const
19167 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,ret++)
19169 - const MEDFileAnyTypeField1TSWithoutSDA *pt(*it);
19170 - if(pt->isDealingTS(iteration,order))
19173 - std::ostringstream oss; oss << "MEDFileFieldMultiTS::getTimeStepPos : Muli timestep field on time (" << iteration << "," << order << ") does not exist ! Available (iteration,order) are :\n";
19174 - std::vector< std::pair<int,int> > vp=getIterations();
19175 - for(std::vector< std::pair<int,int> >::const_iterator it2=vp.begin();it2!=vp.end();it2++)
19176 - oss << "(" << (*it2).first << "," << (*it2).second << ") ";
19177 - throw INTERP_KERNEL::Exception(oss.str());
19180 -const MEDFileAnyTypeField1TSWithoutSDA& MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepEntry(int iteration, int order) const
19182 - return *_time_steps[getTimeStepPos(iteration,order)];
19185 -MEDFileAnyTypeField1TSWithoutSDA& MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepEntry(int iteration, int order)
19187 - return *_time_steps[getTimeStepPos(iteration,order)];
19190 -bool MEDFileAnyTypeFieldMultiTSWithoutSDA::changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab)
19193 - for(std::vector< std::pair<std::string,std::string> >::const_iterator it=modifTab.begin();it!=modifTab.end();it++)
19195 - if((*it).first==getMeshName())
19197 - setMeshName((*it).second);
19201 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19203 - MEDFileAnyTypeField1TSWithoutSDA *cur(*it);
19205 - ret=cur->changeMeshNames(modifTab) || ret;
19211 - * See doc at MEDFileField1TSWithoutSDA::getUndergroundDataArray
19213 -DataArray *MEDFileAnyTypeFieldMultiTSWithoutSDA::getUndergroundDataArray(int iteration, int order) const
19215 - return getTimeStepEntry(iteration,order).getUndergroundDataArray();
19219 - * See doc at MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt
19221 -DataArray *MEDFileAnyTypeFieldMultiTSWithoutSDA::getUndergroundDataArrayExt(int iteration, int order, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
19223 - return getTimeStepEntry(iteration,order).getUndergroundDataArrayExt(entries);
19226 -bool MEDFileAnyTypeFieldMultiTSWithoutSDA::renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N,
19227 - MEDFileFieldGlobsReal& glob)
19230 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19232 - MEDFileAnyTypeField1TSWithoutSDA *f1ts(*it);
19234 - ret=f1ts->renumberEntitiesLyingOnMesh(meshName,oldCode,newCode,renumO2N,glob) || ret;
19239 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::accept(MEDFileFieldVisitor& visitor) const
19241 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19242 - if((*it).isNotNull())
19244 - visitor.newTimeStepEntry(*it);
19245 - (*it)->accept(visitor);
19246 - visitor.endTimeStepEntry(*it);
19250 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::simpleRepr(int bkOffset, std::ostream& oss, int fmtsId) const
19252 - std::string startLine(bkOffset,' ');
19253 - oss << startLine << "Field multi time steps [Type=" << getTypeStr() << "]";
19255 - oss << " (" << fmtsId << ")";
19256 - oss << " has the following name: \"" << _name << "\"." << std::endl;
19257 - oss << startLine << "Field multi time steps has " << _infos.size() << " components with the following infos :" << std::endl;
19258 - for(std::vector<std::string>::const_iterator it=_infos.begin();it!=_infos.end();it++)
19260 - oss << startLine << " - \"" << *it << "\"" << std::endl;
19263 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,i++)
19265 - std::string chapter(17,'0'+i);
19266 - oss << startLine << chapter << std::endl;
19267 - const MEDFileAnyTypeField1TSWithoutSDA *cur=(*it);
19269 - cur->simpleRepr(bkOffset+2,oss,i);
19271 - oss << startLine << " Field on one time step #" << i << " is not defined !" << std::endl;
19272 - oss << startLine << chapter << std::endl;
19276 -std::vector< std::pair<int,int> > MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeSteps(std::vector<double>& ret1) const
19278 - std::size_t sz=_time_steps.size();
19279 - std::vector< std::pair<int,int> > ret(sz);
19281 - for(std::size_t i=0;i<sz;i++)
19283 - const MEDFileAnyTypeField1TSWithoutSDA *f1ts=_time_steps[i];
19286 - ret1[i]=f1ts->getTime(ret[i].first,ret[i].second);
19290 - std::ostringstream oss; oss << "MEDFileFieldMultiTSWithoutSDA::getTimeSteps : At rank #" << i << " time step is not defined. Invoke eraseEmptyTS method !";
19291 - throw INTERP_KERNEL::Exception(oss.str());
19297 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::pushBackTimeStep(MCAuto<MEDFileAnyTypeField1TSWithoutSDA>& tse)
19299 - MEDFileAnyTypeField1TSWithoutSDA *tse2(tse);
19301 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::pushBackTimeStep : input content object is null !");
19302 - checkCoherencyOfType(tse2);
19303 - if(_time_steps.empty())
19305 - setName(tse2->getName());
19306 - setMeshName(tse2->getMeshName());
19307 - setInfo(tse2->getInfo());
19309 - checkThatComponentsMatch(tse2->getInfo());
19310 - if(getDtUnit().empty() && !tse->getDtUnit().empty())
19311 - setDtUnit(tse->getDtUnit());
19312 - _time_steps.push_back(tse);
19315 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::synchronizeNameScope()
19317 - std::size_t nbOfCompo=_infos.size();
19318 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19320 - MEDFileAnyTypeField1TSWithoutSDA *cur=(*it);
19323 - if((cur->getInfo()).size()!=nbOfCompo)
19325 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::synchronizeNameScope : Mismatch in the number of components of parts ! Should be " << nbOfCompo;
19326 - oss << " ! but the field at iteration=" << cur->getIteration() << " order=" << cur->getOrder() << " has " << (cur->getInfo()).size() << " components !";
19327 - throw INTERP_KERNEL::Exception(oss.str());
19329 - cur->copyNameScope(*this);
19334 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::loadStructureOrStructureAndBigArraysRecursively(med_idt fid, int nbPdt, med_field_type fieldTyp, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
19336 - _time_steps.resize(nbPdt);
19337 - for(int i=0;i<nbPdt;i++)
19339 - std::vector< std::pair<int,int> > ts;
19340 - med_int numdt=0,numo=0;
19341 - med_float dt=0.0;
19342 - MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,_name.c_str(),i+1,&numdt,&numo,&dt));
19345 - case MED_FLOAT64:
19347 - _time_steps[i]=MEDFileField1TSWithoutSDA::New(getName(),getMeshName(),i+1,numdt,numo,_infos);
19352 - _time_steps[i]=MEDFileIntField1TSWithoutSDA::New(getName(),getMeshName(),i+1,numdt,numo,_infos);
19355 - case MED_NODE://6432
19357 - _time_steps[i]=MEDFileFloatField1TSWithoutSDA::New(getName(),getMeshName(),i+1,numdt,numo,_infos);
19361 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::loadStructureOrStructureAndBigArraysRecursively : managed field type are : FLOAT64, INT32, FLOAT32 !");
19364 - _time_steps[i]->loadStructureAndBigArraysRecursively(fid,*this,ms,entities);
19366 - _time_steps[i]->loadOnlyStructureOfDataRecursively(fid,*this,ms,entities);
19367 - synchronizeNameScope();
19371 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::writeLL(med_idt fid, const MEDFileWritable& opts) const
19373 - if(_time_steps.empty())
19374 - throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::writeLL : no time steps set !");
19375 - checkThatNbOfCompoOfTSMatchThis();
19376 - std::vector<std::string> infos(getInfo());
19377 - int nbComp=infos.size();
19378 - INTERP_KERNEL::AutoPtr<char> comp=MEDLoaderBase::buildEmptyString(nbComp*MED_SNAME_SIZE);
19379 - INTERP_KERNEL::AutoPtr<char> unit=MEDLoaderBase::buildEmptyString(nbComp*MED_SNAME_SIZE);
19380 - for(int i=0;i<nbComp;i++)
19382 - std::string info=infos[i];
19384 - MEDLoaderBase::splitIntoNameAndUnit(info,c,u);
19385 - MEDLoaderBase::safeStrCpy2(c.c_str(),MED_SNAME_SIZE,comp+i*MED_SNAME_SIZE,opts.getTooLongStrPolicy());
19386 - MEDLoaderBase::safeStrCpy2(u.c_str(),MED_SNAME_SIZE,unit+i*MED_SNAME_SIZE,opts.getTooLongStrPolicy());
19388 - if(_name.empty())
19389 - throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::write : MED file does not accept field with empty name !");
19390 - MEDFILESAFECALLERWR0(MEDfieldCr,(fid,_name.c_str(),getMEDFileFieldType(),nbComp,comp,unit,getDtUnit().c_str(),getMeshName().c_str()));
19391 - int nbOfTS=_time_steps.size();
19392 - for(int i=0;i<nbOfTS;i++)
19393 - _time_steps[i]->writeLL(fid,opts,*this);
19396 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc)
19398 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19400 - MEDFileAnyTypeField1TSWithoutSDA *elt(*it);
19402 - elt->loadBigArraysRecursively(fid,nasc);
19406 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::loadBigArraysRecursivelyIfNecessary(med_idt fid, const MEDFileFieldNameScope& nasc)
19408 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19410 - MEDFileAnyTypeField1TSWithoutSDA *elt(*it);
19412 - elt->loadBigArraysRecursivelyIfNecessary(fid,nasc);
19416 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::unloadArrays()
19418 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19420 - MEDFileAnyTypeField1TSWithoutSDA *elt(*it);
19422 - elt->unloadArrays();
19426 -int MEDFileAnyTypeFieldMultiTSWithoutSDA::getNumberOfTS() const
19428 - return _time_steps.size();
19431 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::eraseEmptyTS()
19433 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > newTS;
19434 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19436 - const MEDFileAnyTypeField1TSWithoutSDA *tmp=(*it);
19438 - newTS.push_back(*it);
19440 - _time_steps=newTS;
19443 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::eraseTimeStepIds(const int *startIds, const int *endIds)
19445 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > newTS;
19446 - int maxId=(int)_time_steps.size();
19448 - std::set<int> idsToDel;
19449 - for(const int *id=startIds;id!=endIds;id++,ii++)
19451 - if(*id>=0 && *id<maxId)
19453 - idsToDel.insert(*id);
19457 - std::ostringstream oss; oss << "MEDFileFieldMultiTSWithoutSDA::eraseTimeStepIds : At pos #" << ii << " request for id=" << *id << " not in [0," << maxId << ") !";
19458 - throw INTERP_KERNEL::Exception(oss.str());
19461 - for(int iii=0;iii<maxId;iii++)
19462 - if(idsToDel.find(iii)==idsToDel.end())
19463 - newTS.push_back(_time_steps[iii]);
19464 - _time_steps=newTS;
19467 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::eraseTimeStepIds2(int bg, int end, int step)
19469 - static const char msg[]="MEDFileAnyTypeFieldMultiTSWithoutSDA::eraseTimeStepIds2";
19470 - int nbOfEntriesToKill=DataArrayInt::GetNumberOfItemGivenBESRelative(bg,end,step,msg);
19471 - if(nbOfEntriesToKill==0)
19473 - std::size_t sz=_time_steps.size();
19474 - std::vector<bool> b(sz,true);
19476 - for(int i=0;i<nbOfEntriesToKill;i++,j+=step)
19478 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > newTS;
19479 - for(std::size_t i=0;i<sz;i++)
19481 - newTS.push_back(_time_steps[i]);
19482 - _time_steps=newTS;
19485 -int MEDFileAnyTypeFieldMultiTSWithoutSDA::getPosOfTimeStep(int iteration, int order) const
19488 - std::ostringstream oss; oss << "MEDFileFieldMultiTSWithoutSDA::getPosOfTimeStep : No such time step (" << iteration << "," << order << ") !\nPossibilities are : ";
19489 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,ret++)
19491 - const MEDFileAnyTypeField1TSWithoutSDA *tmp(*it);
19495 - tmp->getTime(it2,ord);
19496 - if(it2==iteration && order==ord)
19499 - oss << "(" << it2 << "," << ord << "), ";
19502 - throw INTERP_KERNEL::Exception(oss.str());
19505 -int MEDFileAnyTypeFieldMultiTSWithoutSDA::getPosGivenTime(double time, double eps) const
19508 - std::ostringstream oss; oss << "MEDFileFieldMultiTSWithoutSDA::getPosGivenTime : No such time step " << time << "! \nPossibilities are : ";
19509 - oss.precision(15);
19510 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,ret++)
19512 - const MEDFileAnyTypeField1TSWithoutSDA *tmp(*it);
19516 - double ti=tmp->getTime(it2,ord);
19517 - if(fabs(time-ti)<eps)
19520 - oss << ti << ", ";
19523 - throw INTERP_KERNEL::Exception(oss.str());
19526 -std::vector< std::pair<int,int> > MEDFileAnyTypeFieldMultiTSWithoutSDA::getIterations() const
19528 - int lgth=_time_steps.size();
19529 - std::vector< std::pair<int,int> > ret(lgth);
19530 - for(int i=0;i<lgth;i++)
19531 - _time_steps[i]->fillIteration(ret[i]);
19536 - * This method has 3 inputs 'iteration' 'order' 'mname'. 'mname' can be null if the user is the general case where there is only one meshName lying on 'this'
19537 - * This method returns two things.
19538 - * - The absolute dimension of 'this' in first parameter.
19539 - * - The available ext levels relative to the absolute dimension returned in first parameter. These relative levels are relative
19540 - * to the first output parameter. The values in 'levs' will be returned in decreasing order.
19542 - * This method is designed for MEDFileFieldMultiTS instances that have a discritization ON_CELLS, ON_GAUSS_NE and ON_GAUSS.
19543 - * Only these 3 discretizations will be taken into account here.
19545 - * If 'this' is empty this method will throw an INTERP_KERNEL::Exception.
19546 - * If there is \b only node fields defined in 'this' -1 is returned and 'levs' output parameter will be empty. In this
19547 - * case the caller has to know the underlying mesh it refers to. By defaut it is the level 0 of the corresponding mesh.
19549 - * This method is usefull to make the link between meshDimension of the underlying mesh in 'this' and the levels on 'this'.
19550 - * It is possible (even if it is not common) that the highest level in 'this' were not equal to the meshDimension of the underlying mesh in 'this'.
19552 - * Let's consider the typical following case :
19553 - * - a mesh 'm1' has a meshDimension 3 and has the following non empty levels
19554 - * [0,-1,-2] for example 'm1' lies on TETRA4, HEXA8 TRI3 and SEG2
19555 - * - 'f1' lies on 'm1' and is defined on 3D and 1D cells for example
19556 - * TETRA4 and SEG2
19557 - * - 'f2' lies on 'm1' too and is defined on 2D and 1D cells for example TRI3 and SEG2
19559 - * In this case f1->getNonEmptyLevelsExt will return (3,[0,-2]) and f2->getNonEmptyLevelsExt will return (2,[0,-1])
19561 - * To retrieve the highest level of f1 it should be done, f1->getFieldAtLevel(ON_CELLS,3-3+0);//absDim-meshDim+relativeLev
19562 - * To retrieve the lowest level of f1 it should be done, f1->getFieldAtLevel(ON_CELLS,3-3+(-2));//absDim-meshDim+relativeLev
19563 - * To retrieve the highest level of f2 it should be done, f1->getFieldAtLevel(ON_CELLS,2-3+0);//absDim-meshDim+relativeLev
19564 - * To retrieve the lowest level of f2 it should be done, f1->getFieldAtLevel(ON_CELLS,2-3+(-1));//absDim-meshDim+relativeLev
19566 -int MEDFileAnyTypeFieldMultiTSWithoutSDA::getNonEmptyLevels(int iteration, int order, const std::string& mname, std::vector<int>& levs) const
19568 - return getTimeStepEntry(iteration,order).getNonEmptyLevels(mname,levs);
19571 -const MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2(int pos) const
19573 - if(pos<0 || pos>=(int)_time_steps.size())
19575 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2 : request for pos #" << pos << " whereas should be in [0," << _time_steps.size() << ") !";
19576 - throw INTERP_KERNEL::Exception(oss.str());
19578 - const MEDFileAnyTypeField1TSWithoutSDA *item=_time_steps[pos];
19581 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2 : request for pos #" << pos << ", this pos id exists but the underlying Field1TS is null !";
19582 - oss << "\nTry to use following method eraseEmptyTS !";
19583 - throw INTERP_KERNEL::Exception(oss.str());
19588 -MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2(int pos)
19590 - if(pos<0 || pos>=(int)_time_steps.size())
19592 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2 : request for pos #" << pos << " whereas should be in [0," << _time_steps.size() << ") !";
19593 - throw INTERP_KERNEL::Exception(oss.str());
19595 - MEDFileAnyTypeField1TSWithoutSDA *item=_time_steps[pos];
19598 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2 : request for pos #" << pos << ", this pos id exists but the underlying Field1TS is null !";
19599 - oss << "\nTry to use following method eraseEmptyTS !";
19600 - throw INTERP_KERNEL::Exception(oss.str());
19605 -std::vector<std::string> MEDFileAnyTypeFieldMultiTSWithoutSDA::getPflsReallyUsed2() const
19607 - std::vector<std::string> ret;
19608 - std::set<std::string> ret2;
19609 - for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19611 - std::vector<std::string> tmp=(*it)->getPflsReallyUsed2();
19612 - for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
19613 - if(ret2.find(*it2)==ret2.end())
19615 - ret.push_back(*it2);
19616 - ret2.insert(*it2);
19622 -std::vector<std::string> MEDFileAnyTypeFieldMultiTSWithoutSDA::getLocsReallyUsed2() const
19624 - std::vector<std::string> ret;
19625 - std::set<std::string> ret2;
19626 - for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19628 - std::vector<std::string> tmp=(*it)->getLocsReallyUsed2();
19629 - for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
19630 - if(ret2.find(*it2)==ret2.end())
19632 - ret.push_back(*it2);
19633 - ret2.insert(*it2);
19639 -std::vector<std::string> MEDFileAnyTypeFieldMultiTSWithoutSDA::getPflsReallyUsedMulti2() const
19641 - std::vector<std::string> ret;
19642 - for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19644 - std::vector<std::string> tmp=(*it)->getPflsReallyUsedMulti2();
19645 - ret.insert(ret.end(),tmp.begin(),tmp.end());
19650 -std::vector<std::string> MEDFileAnyTypeFieldMultiTSWithoutSDA::getLocsReallyUsedMulti2() const
19652 - std::vector<std::string> ret;
19653 - for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19655 - std::vector<std::string> tmp=(*it)->getLocsReallyUsedMulti2();
19656 - ret.insert(ret.end(),tmp.begin(),tmp.end());
19661 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::changePflsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
19663 - for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19664 - (*it)->changePflsRefsNamesGen2(mapOfModif);
19667 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::changeLocsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
19669 - for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
19670 - (*it)->changeLocsRefsNamesGen2(mapOfModif);
19673 -std::vector< std::vector<TypeOfField> > MEDFileAnyTypeFieldMultiTSWithoutSDA::getTypesOfFieldAvailable() const
19675 - int lgth=_time_steps.size();
19676 - std::vector< std::vector<TypeOfField> > ret(lgth);
19677 - for(int i=0;i<lgth;i++)
19678 - _time_steps[i]->fillTypesOfFieldAvailable(ret[i]);
19683 - * entry point for users that want to iterate into MEDFile DataStructure without any overhead.
19685 -std::vector< std::vector< std::pair<int,int> > > MEDFileAnyTypeFieldMultiTSWithoutSDA::getFieldSplitedByType(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
19687 - return getTimeStepEntry(iteration,order).getFieldSplitedByType(mname,types,typesF,pfls,locs);
19690 -MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::deepCopy() const
19692 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> ret=shallowCpy();
19694 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,i++)
19696 - if((const MEDFileAnyTypeField1TSWithoutSDA *)*it)
19697 - ret->_time_steps[i]=(*it)->deepCopy();
19699 - return ret.retn();
19702 -std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > MEDFileAnyTypeFieldMultiTSWithoutSDA::splitComponents() const
19704 - std::size_t sz(_infos.size()),sz2(_time_steps.size());
19705 - std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > ret(sz);
19706 - std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > > ts(sz2);
19707 - for(std::size_t i=0;i<sz;i++)
19709 - ret[i]=shallowCpy();
19710 - ret[i]->_infos.resize(1); ret[i]->_infos[0]=_infos[i];
19712 - for(std::size_t i=0;i<sz2;i++)
19714 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret1=_time_steps[i]->splitComponents();
19715 - if(ret1.size()!=sz)
19717 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::splitComponents : At rank #" << i << " number of components is " << ret1.size() << " whereas it should be for all time steps " << sz << " !";
19718 - throw INTERP_KERNEL::Exception(oss.str());
19722 - for(std::size_t i=0;i<sz;i++)
19723 - for(std::size_t j=0;j<sz2;j++)
19724 - ret[i]->_time_steps[j]=ts[j][i];
19729 - * This method splits into discretization each time steps in \a this.
19730 - * ** WARNING ** the returned instances are not compulsary defined on the same time steps series !
19732 -std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > MEDFileAnyTypeFieldMultiTSWithoutSDA::splitDiscretizations() const
19734 - std::size_t sz(_time_steps.size());
19735 - std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > > items(sz);
19736 - for(std::size_t i=0;i<sz;i++)
19738 - const MEDFileAnyTypeField1TSWithoutSDA *timeStep(_time_steps[i]);
19741 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::splitDiscretizations : time step #" << i << " is null !";
19742 - throw INTERP_KERNEL::Exception(oss.str());
19744 - items[i]=timeStep->splitDiscretizations();
19747 - std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > ret;
19748 - std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > > ret2;
19749 - std::vector< TypeOfField > types;
19750 - for(std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > >::const_iterator it0=items.begin();it0!=items.end();it0++)
19751 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it1=(*it0).begin();it1!=(*it0).end();it1++)
19753 - std::vector<TypeOfField> ts=(*it1)->getTypesOfFieldAvailable();
19755 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::splitDiscretizations : it appears that the splitting of MEDFileAnyTypeField1TSWithoutSDA::splitDiscretizations has returned invalid result !");
19756 - std::vector< TypeOfField >::iterator it2=std::find(types.begin(),types.end(),ts[0]);
19757 - if(it2==types.end())
19758 - types.push_back(ts[0]);
19760 - ret.resize(types.size()); ret2.resize(types.size());
19761 - for(std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > >::const_iterator it0=items.begin();it0!=items.end();it0++)
19762 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it1=(*it0).begin();it1!=(*it0).end();it1++)
19764 - TypeOfField typ=(*it1)->getTypesOfFieldAvailable()[0];
19765 - std::size_t pos=std::distance(types.begin(),std::find(types.begin(),types.end(),typ));
19766 - ret2[pos].push_back(*it1);
19768 - for(std::size_t i=0;i<types.size();i++)
19770 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> elt(createNew());
19771 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it1=ret2[i].begin();it1!=ret2[i].end();it1++)
19772 - elt->pushBackTimeStep(*it1);//also updates infos in elt
19774 - elt->MEDFileFieldNameScope::operator=(*this);
19780 - * Contrary to splitDiscretizations method this method makes the hypothesis that the times series are **NOT** impacted by the splitting of multi discretization.
19782 -std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > MEDFileAnyTypeFieldMultiTSWithoutSDA::splitMultiDiscrPerGeoTypes() const
19784 - std::size_t sz(_time_steps.size());
19785 - std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > > items(sz);
19786 - std::size_t szOut(std::numeric_limits<std::size_t>::max());
19787 - for(std::size_t i=0;i<sz;i++)
19789 - const MEDFileAnyTypeField1TSWithoutSDA *timeStep(_time_steps[i]);
19792 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::splitMultiDiscrPerGeoTypes : time step #" << i << " is null !";
19793 - throw INTERP_KERNEL::Exception(oss.str());
19795 - items[i]=timeStep->splitMultiDiscrPerGeoTypes();
19796 - if(szOut==std::numeric_limits<std::size_t>::max())
19797 - szOut=items[i].size();
19799 - if(items[i].size()!=szOut)
19800 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::splitMultiDiscrPerGeoTypes : The splitting per discretization is expected to be same among time steps !");
19802 - if(szOut==std::numeric_limits<std::size_t>::max())
19803 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::splitMultiDiscrPerGeoTypes : empty field !");
19804 - std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > ret(szOut);
19805 - for(std::size_t i=0;i<szOut;i++)
19807 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> elt(createNew());
19808 - for(std::size_t j=0;j<sz;j++)
19809 - elt->pushBackTimeStep(items[j][i]);
19811 - elt->MEDFileFieldNameScope::operator=(*this);
19816 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::copyTinyInfoFrom(const MEDCouplingFieldDouble *field, const DataArray *arr)
19818 - setName(field->getName());
19819 - if(field->getMesh())
19820 - setMeshName(field->getMesh()->getName());
19821 - if(_name.empty())
19822 - throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::copyTinyInfoFrom : unsupported fields with no name in MED file !");
19824 - throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::copyTinyInfoFrom : no array set !");
19825 - _infos=arr->getInfoOnComponents();
19828 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::checkCoherencyOfTinyInfo(const MEDCouplingFieldDouble *field, const DataArray *arr) const
19830 - static const char MSG[]="MEDFileFieldMultiTSWithoutSDA::checkCoherencyOfTinyInfo : invalid ";
19831 - if(_name!=field->getName())
19833 - std::ostringstream oss; oss << MSG << "name ! should be \"" << _name;
19834 - oss << "\" and it is set in input field to \"" << field->getName() << "\" !";
19835 - throw INTERP_KERNEL::Exception(oss.str());
19838 - throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::checkCoherencyOfTinyInfo : no array set !");
19839 - checkThatComponentsMatch(arr->getInfoOnComponents());
19842 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::checkThatComponentsMatch(const std::vector<std::string>& compos) const
19844 - static const char MSG[]="MEDFileFieldMultiTSWithoutSDA::checkThatComponentsMatch : ";
19845 - if(getInfo().size()!=compos.size())
19847 - std::ostringstream oss; oss << MSG << "mismatch of number of components between this (" << getInfo().size() << ") and ";
19848 - oss << " number of components of element to append (" << compos.size() << ") !";
19849 - throw INTERP_KERNEL::Exception(oss.str());
19851 - if(_infos!=compos)
19853 - std::ostringstream oss; oss << MSG << "components have same size but are different ! should be \"";
19854 - std::copy(_infos.begin(),_infos.end(),std::ostream_iterator<std::string>(oss,", "));
19855 - oss << " But compo in input fields are : ";
19856 - std::copy(compos.begin(),compos.end(),std::ostream_iterator<std::string>(oss,", "));
19858 - throw INTERP_KERNEL::Exception(oss.str());
19862 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::checkThatNbOfCompoOfTSMatchThis() const
19864 - std::size_t sz=_infos.size();
19866 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,j++)
19868 - const MEDFileAnyTypeField1TSWithoutSDA *elt(*it);
19870 - if(elt->getInfo().size()!=sz)
19872 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::checkThatNbOfCompoOfTSMatchThis : At pos #" << j << " the number of components is equal to ";
19873 - oss << elt->getInfo().size() << " whereas it is expected to be equal to " << sz << " !";
19874 - throw INTERP_KERNEL::Exception(oss.str());
19879 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::appendFieldNoProfileSBT(const MEDCouplingFieldDouble *field, const DataArray *arr, MEDFileFieldGlobsReal& glob)
19882 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::appendFieldNoProfileSBT : input field is NULL !");
19883 - if(!_time_steps.empty())
19884 - checkCoherencyOfTinyInfo(field,arr);
19885 - MEDFileAnyTypeField1TSWithoutSDA *objC(createNew1TSWithoutSDAEmptyInstance());
19886 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> obj(objC);
19888 - MCAuto<MEDCouplingFieldTemplate> ft(MEDCouplingFieldTemplate::New(*field));
19889 - objC->setFieldNoProfileSBT(field->timeDiscrSafe(),ft,arr,glob,*this);
19891 - copyTinyInfoFrom(field,arr);
19892 - _time_steps.push_back(obj);
19895 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::appendFieldProfile(const MEDCouplingFieldDouble *field, const DataArray *arr, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, MEDFileFieldGlobsReal& glob)
19898 - throw INTERP_KERNEL::Exception("MEDFileIntFieldMultiTSWithoutSDA::appendFieldNoProfileSBT : input field is NULL !");
19899 - if(!_time_steps.empty())
19900 - checkCoherencyOfTinyInfo(field,arr);
19901 - MEDFileAnyTypeField1TSWithoutSDA *objC=createNew1TSWithoutSDAEmptyInstance();
19902 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> obj(objC);
19904 - MCAuto<MEDCouplingFieldTemplate> ft(MEDCouplingFieldTemplate::NewWithoutCheck(*field));
19905 - objC->setFieldProfile(field->timeDiscrSafe(),ft,arr,mesh,meshDimRelToMax,profile,glob,*this);
19907 - copyTinyInfoFrom(field,arr);
19908 - setMeshName(objC->getMeshName());
19909 - _time_steps.push_back(obj);
19912 -void MEDFileAnyTypeFieldMultiTSWithoutSDA::setIteration(int i, MCAuto<MEDFileAnyTypeField1TSWithoutSDA> ts)
19914 - int sz=(int)_time_steps.size();
19917 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::setIteration : trying to set element at place #" << i << " should be in [0," << sz << ") !";
19918 - throw INTERP_KERNEL::Exception(oss.str());
19920 - const MEDFileAnyTypeField1TSWithoutSDA *tsPtr(ts);
19923 - if(tsPtr->getNumberOfComponents()!=(int)_infos.size())
19925 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::setIteration : trying to set element with " << tsPtr->getNumberOfComponents() << " components ! Should be " << _infos.size() << " !";
19926 - throw INTERP_KERNEL::Exception(oss.str());
19929 - _time_steps[i]=ts;
19932 -//= MEDFileFieldMultiTSWithoutSDA
19935 - * entry point for users that want to iterate into MEDFile DataStructure with a reduced overhead because output arrays are extracted (created) specially
19936 - * for the call of this method. That's why the DataArrayDouble instance in returned vector of vector should be dealed by the caller.
19938 -std::vector< std::vector<DataArrayDouble *> > MEDFileFieldMultiTSWithoutSDA::getFieldSplitedByType2(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
19940 - const MEDFileAnyTypeField1TSWithoutSDA& myF1TS=getTimeStepEntry(iteration,order);
19941 - const MEDFileField1TSWithoutSDA *myF1TSC=dynamic_cast<const MEDFileField1TSWithoutSDA *>(&myF1TS);
19943 - throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::getFieldSplitedByType2 : mismatch of type of field expecting FLOAT64 !");
19944 - return myF1TSC->getFieldSplitedByType2(mname,types,typesF,pfls,locs);
19947 -MEDFileIntFieldMultiTSWithoutSDA *MEDFileFieldMultiTSWithoutSDA::convertToInt() const
19949 - MCAuto<MEDFileIntFieldMultiTSWithoutSDA> ret(new MEDFileIntFieldMultiTSWithoutSDA);
19950 - ret->MEDFileAnyTypeFieldMultiTSWithoutSDA::operator =(*this);
19952 - for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,i++)
19954 - const MEDFileAnyTypeField1TSWithoutSDA *eltToConv(*it);
19957 - const MEDFileField1TSWithoutSDA *eltToConvC=dynamic_cast<const MEDFileField1TSWithoutSDA *>(eltToConv);
19959 - throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::convertToInt : presence of an invalid 1TS type ! Should be of type FLOAT64 !");
19960 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> elt=eltToConvC->convertToInt();
19961 - ret->setIteration(i,elt);
19964 - return ret.retn();
19967 -//= MEDFileAnyTypeFieldMultiTS
19969 -MEDFileAnyTypeFieldMultiTS::MEDFileAnyTypeFieldMultiTS()
19973 -MEDFileAnyTypeFieldMultiTS::MEDFileAnyTypeFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms)
19974 -try:MEDFileFieldGlobsReal(fid)
19976 - _content=BuildContentFrom(fid,loadAll,ms);
19977 - loadGlobals(fid);
19979 -catch(INTERP_KERNEL::Exception& e)
19984 -MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTS::BuildContentFrom(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
19986 - med_field_type typcha;
19987 - std::vector<std::string> infos;
19988 - std::string dtunit;
19989 - std::string meshName;
19991 - MEDFileAnyTypeField1TS::LocateField(fid,fieldName,i,typcha,infos,dtunit,meshName);
19992 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> ret;
19995 - case MED_FLOAT64:
19997 - ret=new MEDFileFieldMultiTSWithoutSDA(fid,i,loadAll,ms,entities);
20002 - ret=new MEDFileIntFieldMultiTSWithoutSDA(fid,i,loadAll,ms,entities);
20005 - case MED_NODE://6432
20007 - ret=new MEDFileFloatFieldMultiTSWithoutSDA(fid,i,loadAll,ms,entities);
20012 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::BuildContentFrom(fid,fieldName) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but the type of field is not in [MED_FLOAT64, MED_INT32, MED_FLOAT32] !";
20013 - throw INTERP_KERNEL::Exception(oss.str());
20016 - ret->setMeshName(meshName);
20017 - ret->setDtUnit(dtunit.c_str());
20018 - return ret.retn();
20021 -MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTS::BuildContentFrom(med_idt fid, bool loadAll, const MEDFileMeshes *ms)
20023 - med_field_type typcha;
20025 - std::vector<std::string> infos;
20026 - std::string dtunit,fieldName,meshName;
20027 - MEDFileAnyTypeField1TS::LocateField2(fid,0,true,fieldName,typcha,infos,dtunit,meshName);
20028 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> ret;
20031 - case MED_FLOAT64:
20033 - ret=new MEDFileFieldMultiTSWithoutSDA(fid,0,loadAll,ms,0);
20038 - ret=new MEDFileIntFieldMultiTSWithoutSDA(fid,0,loadAll,ms,0);
20041 - case MED_NODE://6432
20043 - ret=new MEDFileFloatFieldMultiTSWithoutSDA(fid,0,loadAll,ms,0);
20048 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::BuildContentFrom(fid) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but the type of the first field is not in [MED_FLOAT64, MED_INT32, MED_FLOAT32] !";
20049 - throw INTERP_KERNEL::Exception(oss.str());
20052 - ret->setMeshName(meshName);
20053 - ret->setDtUnit(dtunit.c_str());
20054 - return ret.retn();
20057 -MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::BuildNewInstanceFromContent(MEDFileAnyTypeFieldMultiTSWithoutSDA *c)
20060 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::BuildNewInstanceFromContent : empty content in input : unable to build a new instance !");
20061 - if(dynamic_cast<const MEDFileFieldMultiTSWithoutSDA *>(c))
20063 - MCAuto<MEDFileFieldMultiTS> ret(MEDFileFieldMultiTS::New());
20064 - ret->_content=c; c->incrRef();
20065 - return ret.retn();
20067 - if(dynamic_cast<const MEDFileIntFieldMultiTSWithoutSDA *>(c))
20069 - MCAuto<MEDFileIntFieldMultiTS> ret(MEDFileIntFieldMultiTS::New());
20070 - ret->_content=c; c->incrRef();
20071 - return ret.retn();
20073 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::BuildNewInstanceFromContent : internal error ! a content of type different from FLOAT64 and INT32 has been built but not intercepted !");
20076 -MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::BuildNewInstanceFromContent(MEDFileAnyTypeFieldMultiTSWithoutSDA *c, med_idt fid)
20078 - MEDFileAnyTypeFieldMultiTS *ret(BuildNewInstanceFromContent(c));
20079 - std::string fileName(FileNameFromFID(fid));
20080 - ret->setFileName(fileName);
20084 -MEDFileAnyTypeFieldMultiTS::MEDFileAnyTypeFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
20085 -try:MEDFileFieldGlobsReal(fid)
20087 - _content=BuildContentFrom(fid,fieldName,loadAll,ms,entities);
20088 - loadGlobals(fid);
20090 -catch(INTERP_KERNEL::Exception& e)
20095 -//= MEDFileAnyTypeFieldMultiTS
20098 - * Returns a new instance of MEDFileFieldMultiTS or MEDFileIntFieldMultiTS holding data of the first field
20099 - * that has been read from a specified MED file.
20100 - * \param [in] fileName - the name of the MED file to read.
20101 - * \return MEDFileFieldMultiTS * - a new instance of MEDFileFieldMultiTS or MEDFileIntFieldMultiTS. The caller
20102 - * is to delete this field using decrRef() as it is no more needed.
20103 - * \throw If reading the file fails.
20105 -MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::New(const std::string& fileName, bool loadAll)
20107 - MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
20108 - return New(fid,loadAll);
20111 -MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::New(med_idt fid, bool loadAll)
20113 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> c(BuildContentFrom(fid,loadAll,0));
20114 - MCAuto<MEDFileAnyTypeFieldMultiTS> ret(BuildNewInstanceFromContent(c,fid));
20115 - ret->loadGlobals(fid);
20116 - return ret.retn();
20120 - * Returns a new instance of MEDFileFieldMultiTS or MEDFileIntFieldMultiTS holding data of a given field
20121 - * that has been read from a specified MED file.
20122 - * \param [in] fileName - the name of the MED file to read.
20123 - * \param [in] fieldName - the name of the field to read.
20124 - * \return MEDFileFieldMultiTS * - a new instance of MEDFileFieldMultiTS or MEDFileIntFieldMultiTS. The caller
20125 - * is to delete this field using decrRef() as it is no more needed.
20126 - * \throw If reading the file fails.
20127 - * \throw If there is no field named \a fieldName in the file.
20129 -MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::New(const std::string& fileName, const std::string& fieldName, bool loadAll)
20131 - MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
20132 - return New(fid,fieldName,loadAll);
20135 -MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::New(med_idt fid, const std::string& fieldName, bool loadAll)
20137 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> c(BuildContentFrom(fid,fieldName,loadAll,0,0));
20138 - MCAuto<MEDFileAnyTypeFieldMultiTS> ret(BuildNewInstanceFromContent(c,fid));
20139 - ret->loadGlobals(fid);
20140 - return ret.retn();
20144 - * This constructor is a shallow copy constructor. If \a shallowCopyOfContent is true the content of \a other is shallow copied.
20145 - * If \a shallowCopyOfContent is false, \a other is taken to be the content of \a this.
20147 - * \warning this is a shallow copy constructor
20149 -MEDFileAnyTypeFieldMultiTS::MEDFileAnyTypeFieldMultiTS(const MEDFileAnyTypeFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent)
20151 - if(!shallowCopyOfContent)
20153 - const MEDFileAnyTypeFieldMultiTSWithoutSDA *otherPtr(&other);
20154 - otherPtr->incrRef();
20155 - _content=const_cast<MEDFileAnyTypeFieldMultiTSWithoutSDA *>(otherPtr);
20159 - _content=other.shallowCpy();
20163 -MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTS::contentNotNullBase()
20165 - MEDFileAnyTypeFieldMultiTSWithoutSDA *ret=_content;
20167 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS : content is expected to be not null !");
20171 -const MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTS::contentNotNullBase() const
20173 - const MEDFileAnyTypeFieldMultiTSWithoutSDA *ret=_content;
20175 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS : const content is expected to be not null !");
20179 -std::vector<std::string> MEDFileAnyTypeFieldMultiTS::getPflsReallyUsed() const
20181 - return contentNotNullBase()->getPflsReallyUsed2();
20184 -std::vector<std::string> MEDFileAnyTypeFieldMultiTS::getLocsReallyUsed() const
20186 - return contentNotNullBase()->getLocsReallyUsed2();
20189 -std::vector<std::string> MEDFileAnyTypeFieldMultiTS::getPflsReallyUsedMulti() const
20191 - return contentNotNullBase()->getPflsReallyUsedMulti2();
20194 -std::vector<std::string> MEDFileAnyTypeFieldMultiTS::getLocsReallyUsedMulti() const
20196 - return contentNotNullBase()->getLocsReallyUsedMulti2();
20199 -void MEDFileAnyTypeFieldMultiTS::changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
20201 - contentNotNullBase()->changePflsRefsNamesGen2(mapOfModif);
20204 -void MEDFileAnyTypeFieldMultiTS::changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
20206 - contentNotNullBase()->changeLocsRefsNamesGen2(mapOfModif);
20209 -int MEDFileAnyTypeFieldMultiTS::getNumberOfTS() const
20211 - return contentNotNullBase()->getNumberOfTS();
20214 -void MEDFileAnyTypeFieldMultiTS::eraseEmptyTS()
20216 - contentNotNullBase()->eraseEmptyTS();
20219 -void MEDFileAnyTypeFieldMultiTS::eraseTimeStepIds(const int *startIds, const int *endIds)
20221 - contentNotNullBase()->eraseTimeStepIds(startIds,endIds);
20224 -void MEDFileAnyTypeFieldMultiTS::eraseTimeStepIds2(int bg, int end, int step)
20226 - contentNotNullBase()->eraseTimeStepIds2(bg,end,step);
20229 -MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::buildSubPart(const int *startIds, const int *endIds) const
20231 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> c=contentNotNullBase()->buildFromTimeStepIds(startIds,endIds);
20232 - MCAuto<MEDFileAnyTypeFieldMultiTS> ret=shallowCpy();
20234 - return ret.retn();
20237 -MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::buildSubPartSlice(int bg, int end, int step) const
20239 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> c=contentNotNullBase()->buildFromTimeStepIds2(bg,end,step);
20240 - MCAuto<MEDFileAnyTypeFieldMultiTS> ret=shallowCpy();
20242 - return ret.retn();
20245 -std::vector< std::pair<int,int> > MEDFileAnyTypeFieldMultiTS::getIterations() const
20247 - return contentNotNullBase()->getIterations();
20250 -void MEDFileAnyTypeFieldMultiTS::pushBackTimeSteps(const std::vector<MEDFileAnyTypeField1TS *>& f1ts)
20252 - for(std::vector<MEDFileAnyTypeField1TS *>::const_iterator it=f1ts.begin();it!=f1ts.end();it++)
20253 - pushBackTimeStep(*it);
20256 -void MEDFileAnyTypeFieldMultiTS::pushBackTimeSteps(MEDFileAnyTypeFieldMultiTS *fmts)
20259 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::pushBackTimeSteps : Input fmts is NULL !");
20260 - int nbOfTS(fmts->getNumberOfTS());
20261 - for(int i=0;i<nbOfTS;i++)
20263 - MCAuto<MEDFileAnyTypeField1TS> elt(fmts->getTimeStepAtPos(i));
20264 - pushBackTimeStep(elt);
20268 -void MEDFileAnyTypeFieldMultiTS::pushBackTimeStep(MEDFileAnyTypeField1TS *f1ts)
20271 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::pushBackTimeStep : input pointer is NULL !");
20272 - checkCoherencyOfType(f1ts);
20274 - MCAuto<MEDFileAnyTypeField1TS> f1tsSafe(f1ts);
20275 - MEDFileAnyTypeField1TSWithoutSDA *c=f1ts->contentNotNullBase();
20277 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> cSafe(c);
20278 - if(!((MEDFileAnyTypeFieldMultiTSWithoutSDA *)_content))
20279 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::pushBackTimeStep : no content in this !");
20280 - _content->pushBackTimeStep(cSafe);
20281 - appendGlobs(*f1ts,1e-12);
20284 -void MEDFileAnyTypeFieldMultiTS::synchronizeNameScope()
20286 - contentNotNullBase()->synchronizeNameScope();
20289 -int MEDFileAnyTypeFieldMultiTS::getPosOfTimeStep(int iteration, int order) const
20291 - return contentNotNullBase()->getPosOfTimeStep(iteration,order);
20294 -int MEDFileAnyTypeFieldMultiTS::getPosGivenTime(double time, double eps) const
20296 - return contentNotNullBase()->getPosGivenTime(time,eps);
20299 -int MEDFileAnyTypeFieldMultiTS::getNonEmptyLevels(int iteration, int order, const std::string& mname, std::vector<int>& levs) const
20301 - return contentNotNullBase()->getNonEmptyLevels(iteration,order,mname,levs);
20304 -std::vector< std::vector<TypeOfField> > MEDFileAnyTypeFieldMultiTS::getTypesOfFieldAvailable() const
20306 - return contentNotNullBase()->getTypesOfFieldAvailable();
20309 -std::vector< std::vector< std::pair<int,int> > > MEDFileAnyTypeFieldMultiTS::getFieldSplitedByType(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
20311 - return contentNotNullBase()->getFieldSplitedByType(iteration,order,mname,types,typesF,pfls,locs);
20314 -std::string MEDFileAnyTypeFieldMultiTS::getName() const
20316 - return contentNotNullBase()->getName();
20319 -void MEDFileAnyTypeFieldMultiTS::setName(const std::string& name)
20321 - contentNotNullBase()->setName(name);
20324 -std::string MEDFileAnyTypeFieldMultiTS::getDtUnit() const
20326 - return contentNotNullBase()->getDtUnit();
20329 -void MEDFileAnyTypeFieldMultiTS::setDtUnit(const std::string& dtUnit)
20331 - contentNotNullBase()->setDtUnit(dtUnit);
20334 -void MEDFileAnyTypeFieldMultiTS::simpleRepr(int bkOffset, std::ostream& oss, int fmtsId) const
20336 - contentNotNullBase()->simpleRepr(bkOffset,oss,fmtsId);
20339 -std::vector< std::pair<int,int> > MEDFileAnyTypeFieldMultiTS::getTimeSteps(std::vector<double>& ret1) const
20341 - return contentNotNullBase()->getTimeSteps(ret1);
20344 -std::string MEDFileAnyTypeFieldMultiTS::getMeshName() const
20346 - return contentNotNullBase()->getMeshName();
20349 -void MEDFileAnyTypeFieldMultiTS::setMeshName(const std::string& newMeshName)
20351 - contentNotNullBase()->setMeshName(newMeshName);
20354 -bool MEDFileAnyTypeFieldMultiTS::changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab)
20356 - return contentNotNullBase()->changeMeshNames(modifTab);
20359 -const std::vector<std::string>& MEDFileAnyTypeFieldMultiTS::getInfo() const
20361 - return contentNotNullBase()->getInfo();
20364 -bool MEDFileAnyTypeFieldMultiTS::presenceOfMultiDiscPerGeoType() const
20366 - return contentNotNullBase()->presenceOfMultiDiscPerGeoType();
20369 -void MEDFileAnyTypeFieldMultiTS::setInfo(const std::vector<std::string>& info)
20371 - return contentNotNullBase()->setInfo(info);
20374 -int MEDFileAnyTypeFieldMultiTS::getNumberOfComponents() const
20376 - const std::vector<std::string> ret=getInfo();
20377 - return (int)ret.size();
20380 -void MEDFileAnyTypeFieldMultiTS::writeLL(med_idt fid) const
20382 - writeGlobals(fid,*this);
20383 - contentNotNullBase()->writeLL(fid,*this);
20387 - * This method alloc the arrays and load potentially huge arrays contained in this field.
20388 - * This method should be called when a MEDFileAnyTypeFieldMultiTS::New constructor has been with false as the last parameter.
20389 - * This method can be also called to refresh or reinit values from a file.
20391 - * \throw If the fileName is not set or points to a non readable MED file.
20393 -void MEDFileAnyTypeFieldMultiTS::loadArrays()
20395 - if(getFileName().empty())
20396 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::loadArrays : the structure does not come from a file !");
20397 - MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(getFileName()));
20398 - contentNotNullBase()->loadBigArraysRecursively(fid,*contentNotNullBase());
20402 - * This method behaves as MEDFileAnyTypeFieldMultiTS::loadArrays does, the first call, if \a this was built using a file without loading big arrays.
20403 - * But once data loaded once, this method does nothing.
20405 - * \throw If the fileName is not set or points to a non readable MED file.
20406 - * \sa MEDFileAnyTypeFieldMultiTS::loadArrays, MEDFileAnyTypeFieldMultiTS::unloadArrays
20408 -void MEDFileAnyTypeFieldMultiTS::loadArraysIfNecessary()
20410 - if(!getFileName().empty())
20412 - MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(getFileName()));
20413 - contentNotNullBase()->loadBigArraysRecursivelyIfNecessary(fid,*contentNotNullBase());
20418 - * This method releases potentially big data arrays and so returns to the same heap memory than status loaded with 'loadAll' parameter set to false.
20419 - * \b WARNING, this method does release arrays even if \a this does not come from a load of a MED file.
20420 - * So this method can lead to a loss of data. If you want to unload arrays safely call MEDFileAnyTypeFieldMultiTS::unloadArraysWithoutDataLoss instead.
20422 - * \sa MEDFileAnyTypeFieldMultiTS::loadArrays, MEDFileAnyTypeFieldMultiTS::loadArraysIfNecessary, MEDFileAnyTypeFieldMultiTS::unloadArraysWithoutDataLoss
20424 -void MEDFileAnyTypeFieldMultiTS::unloadArrays()
20426 - contentNotNullBase()->unloadArrays();
20430 - * This method potentially releases big data arrays if \a this is coming from a file. If \a this has been built from scratch this method will have no effect.
20431 - * This method is the symetrical method of MEDFileAnyTypeFieldMultiTS::loadArraysIfNecessary.
20432 - * This method is useful to reduce \b safely amount of heap memory necessary for \a this by using MED file as database.
20434 - * \sa MEDFileAnyTypeFieldMultiTS::loadArraysIfNecessary
20436 -void MEDFileAnyTypeFieldMultiTS::unloadArraysWithoutDataLoss()
20438 - if(!getFileName().empty())
20439 - contentNotNullBase()->unloadArrays();
20442 -std::string MEDFileAnyTypeFieldMultiTS::simpleRepr() const
20444 - std::ostringstream oss;
20445 - contentNotNullBase()->simpleRepr(0,oss,-1);
20446 - simpleReprGlobs(oss);
20447 - return oss.str();
20450 -std::size_t MEDFileAnyTypeFieldMultiTS::getHeapMemorySizeWithoutChildren() const
20452 - return MEDFileFieldGlobsReal::getHeapMemorySizeWithoutChildren();
20455 -std::vector<const BigMemoryObject *> MEDFileAnyTypeFieldMultiTS::getDirectChildrenWithNull() const
20457 - std::vector<const BigMemoryObject *> ret(MEDFileFieldGlobsReal::getDirectChildrenWithNull());
20458 - ret.push_back((const MEDFileAnyTypeFieldMultiTSWithoutSDA *)_content);
20463 - * This method returns as MEDFileAnyTypeFieldMultiTS new instances as number of components in \a this.
20464 - * The returned instances are deep copy of \a this except that for globals that are share with those contained in \a this.
20465 - * ** WARNING ** do no forget to rename the ouput instances to avoid to write n-times in the same MED file field !
20467 -std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > MEDFileAnyTypeFieldMultiTS::splitComponents() const
20469 - const MEDFileAnyTypeFieldMultiTSWithoutSDA *content(_content);
20471 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::splitComponents : no content in this ! Unable to split components !");
20472 - std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > contentsSplit=content->splitComponents();
20473 - std::size_t sz(contentsSplit.size());
20474 - std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > ret(sz);
20475 - for(std::size_t i=0;i<sz;i++)
20477 - ret[i]=shallowCpy();
20478 - ret[i]->_content=contentsSplit[i];
20484 - * This method returns as MEDFileAnyTypeFieldMultiTS new instances as number of discretizations over time steps in \a this.
20485 - * The returned instances are shallow copied of \a this included globals that are share with those contained in \a this.
20487 -std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > MEDFileAnyTypeFieldMultiTS::splitDiscretizations() const
20489 - const MEDFileAnyTypeFieldMultiTSWithoutSDA *content(_content);
20491 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::splitDiscretizations : no content in this ! Unable to split discretizations !");
20492 - std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > contentsSplit(content->splitDiscretizations());
20493 - std::size_t sz(contentsSplit.size());
20494 - std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > ret(sz);
20495 - for(std::size_t i=0;i<sz;i++)
20497 - ret[i]=shallowCpy();
20498 - ret[i]->_content=contentsSplit[i];
20504 - * This method returns as MEDFileAnyTypeFieldMultiTS new instances as number of sub-discretizations over time steps in \a this.
20505 - * The returned instances are shallow copied of \a this included globals that are share with those contained in \a this.
20507 -std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > MEDFileAnyTypeFieldMultiTS::splitMultiDiscrPerGeoTypes() const
20509 - const MEDFileAnyTypeFieldMultiTSWithoutSDA *content(_content);
20511 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::splitMultiDiscrPerGeoTypes : no content in this ! Unable to split discretizations !");
20512 - std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > contentsSplit(content->splitMultiDiscrPerGeoTypes());
20513 - std::size_t sz(contentsSplit.size());
20514 - std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > ret(sz);
20515 - for(std::size_t i=0;i<sz;i++)
20517 - ret[i]=shallowCpy();
20518 - ret[i]->_content=contentsSplit[i];
20523 -MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::deepCopy() const
20525 - MCAuto<MEDFileAnyTypeFieldMultiTS> ret=shallowCpy();
20526 - if((const MEDFileAnyTypeFieldMultiTSWithoutSDA *)_content)
20527 - ret->_content=_content->deepCopy();
20528 - ret->deepCpyGlobs(*this);
20529 - return ret.retn();
20532 -MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> MEDFileAnyTypeFieldMultiTS::getContent()
20538 - * Returns a new MEDFileField1TS or MEDFileIntField1TS holding data of a given time step of \a this field.
20539 - * \param [in] iteration - the iteration number of a required time step.
20540 - * \param [in] order - the iteration order number of required time step.
20541 - * \return MEDFileField1TS * or MEDFileIntField1TS *- a new instance of MEDFileField1TS or MEDFileIntField1TS. The caller is to
20542 - * delete this field using decrRef() as it is no more needed.
20543 - * \throw If there is no required time step in \a this field.
20545 -MEDFileAnyTypeField1TS *MEDFileAnyTypeFieldMultiTS::getTimeStep(int iteration, int order) const
20547 - int pos=getPosOfTimeStep(iteration,order);
20548 - return getTimeStepAtPos(pos);
20552 - * Returns a new MEDFileField1TS or MEDFileIntField1TS holding data of a given time step of \a this field.
20553 - * \param [in] time - the time of the time step of interest.
20554 - * \param [in] eps - a precision used to compare time values.
20555 - * \return MEDFileField1TS * - a new instance of MEDFileField1TS. The caller is to
20556 - * delete this field using decrRef() as it is no more needed.
20557 - * \throw If there is no required time step in \a this field.
20559 -MEDFileAnyTypeField1TS *MEDFileAnyTypeFieldMultiTS::getTimeStepGivenTime(double time, double eps) const
20561 - int pos=getPosGivenTime(time,eps);
20562 - return getTimeStepAtPos(pos);
20566 - * This method groups not null items in \a vectFMTS per time step series. Two time series are considered equal if the list of their pair of integers iteration,order are equal.
20567 - * The float64 value of time attached to the pair of integers are not considered here.
20568 - * WARNING the returned pointers are not incremented. The caller is \b not responsible to deallocate them ! This method only reorganizes entries in \a vectFMTS.
20570 - * \param [in] vectFMTS - vector of not null fields defined on a same global data pointer.
20571 - * \throw If there is a null pointer in \a vectFMTS.
20573 -std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > MEDFileAnyTypeFieldMultiTS::SplitIntoCommonTimeSeries(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS)
20575 - static const char msg[]="MEDFileAnyTypeFieldMultiTS::SplitIntoCommonTimeSeries : presence of null instance in input vector !";
20576 - std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > ret;
20577 - std::list<MEDFileAnyTypeFieldMultiTS *> lstFMTS(vectFMTS.begin(),vectFMTS.end());
20578 - while(!lstFMTS.empty())
20580 - std::list<MEDFileAnyTypeFieldMultiTS *>::iterator it(lstFMTS.begin());
20581 - MEDFileAnyTypeFieldMultiTS *curIt(*it);
20583 - throw INTERP_KERNEL::Exception(msg);
20584 - std::vector< std::pair<int,int> > refIts=curIt->getIterations();
20585 - std::vector<MEDFileAnyTypeFieldMultiTS *> elt;
20586 - elt.push_back(curIt); it=lstFMTS.erase(it);
20587 - while(it!=lstFMTS.end())
20591 - throw INTERP_KERNEL::Exception(msg);
20592 - std::vector< std::pair<int,int> > curIts=curIt->getIterations();
20593 - if(refIts==curIts)
20594 - { elt.push_back(curIt); it=lstFMTS.erase(it); }
20598 - ret.push_back(elt);
20604 - * This method splits the input list \a vectFMTS considering the aspect of the geometrical support over time.
20605 - * All returned instances in a subvector can be safely loaded, rendered along time
20606 - * All items must be defined on the same time step ids ( see MEDFileAnyTypeFieldMultiTS::SplitIntoCommonTimeSeries method ).
20607 - * Each item in \a vectFMTS is expected to have one and exactly one spatial discretization along time.
20608 - * All items in \a vectFMTS must lie on the mesh (located by meshname and time step) and compatible with the input mesh \a mesh (having the same name than those in items).
20609 - * All items in \a vectFMTS whose spatial discretization is not ON_NODES will appear once.
20610 - * For items in \a vectFMTS that are ON_NODES it is possible to appear several times (more than once or once) in the returned vector.
20612 - * \param [in] vectFMTS - list of multi times step part all defined each on a same spatial discretization along time and pointing to a mesh whose name is equal to \c mesh->getName().
20613 - * \param [in] mesh - the mesh shared by all items in \a vectFMTS across time.
20614 - * \param [out] fsc - A vector having same size than returned vector. It specifies the support comporator of the corresponding vector of MEDFileAnyTypeFieldMultiTS in returned vector of vector.
20615 - * \return - A vector of vector of objects that contains the same pointers (objects) than thoose in \a vectFMTS except that there are organized differently. So pointers included in returned vector of vector should \b not been dealt by the caller.
20617 - * \throw If an element in \a vectFMTS has not only one spatial discretization set.
20618 - * \throw If an element in \a vectFMTS change of spatial discretization along time.
20619 - * \throw If an element in \a vectFMTS lies on a mesh with meshname different from those in \a mesh.
20620 - * \thorw If some elements in \a vectFMTS do not have the same times steps.
20621 - * \throw If mesh is null.
20622 - * \throw If an element in \a vectFMTS is null.
20623 - * \sa MEDFileAnyTypeFieldMultiTS::AreOnSameSupportAcrossTime
20625 -std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS, const MEDFileMesh *mesh, std::vector< MCAuto<MEDFileFastCellSupportComparator> >& fsc)
20627 - static const char msg[]="MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport : presence of a null instance in the input vector !";
20629 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport : input mesh is null !");
20630 - std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > ret;
20631 - if(vectFMTS.empty())
20633 - std::vector<MEDFileAnyTypeFieldMultiTS *>::const_iterator it(vectFMTS.begin());
20634 - MEDFileAnyTypeFieldMultiTS *frstElt(*it);
20636 - throw INTERP_KERNEL::Exception(msg);
20638 - std::vector<MEDFileAnyTypeFieldMultiTS *> vectFMTSNotNodes;
20639 - std::vector<MEDFileAnyTypeFieldMultiTS *> vectFMTSNodes;
20640 - for(;it!=vectFMTS.end();it++,i++)
20643 - throw INTERP_KERNEL::Exception(msg);
20644 - TypeOfField tof0,tof1;
20645 - if(CheckSupportAcrossTime(frstElt,*it,mesh,tof0,tof1)>0)
20647 - if(tof1!=ON_NODES)
20648 - vectFMTSNotNodes.push_back(*it);
20650 - vectFMTSNodes.push_back(*it);
20653 - vectFMTSNotNodes.push_back(*it);
20655 - std::vector< MCAuto<MEDFileFastCellSupportComparator> > cmps;
20656 - std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > retCell=SplitPerCommonSupportNotNodesAlg(vectFMTSNotNodes,mesh,cmps);
20658 - for(std::vector<MEDFileAnyTypeFieldMultiTS *>::const_iterator it2=vectFMTSNodes.begin();it2!=vectFMTSNodes.end();it2++)
20661 - bool isFetched(false);
20662 - for(std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> >::const_iterator it0=retCell.begin();it0!=retCell.end();it0++,i++)
20664 - if((*it0).empty())
20665 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport : internal error !");
20666 - if(cmps[i]->isCompatibleWithNodesDiscr(*it2))
20667 - { ret[i].push_back(*it2); isFetched=true; }
20671 - std::vector<MEDFileAnyTypeFieldMultiTS *> tmp(1,*it2);
20672 - MCAuto<MEDFileMeshStruct> tmp2(MEDFileMeshStruct::New(mesh));
20673 - ret.push_back(tmp); retCell.push_back(tmp); cmps.push_back(MEDFileFastCellSupportComparator::New(tmp2,*it2));
20681 - * WARNING no check here. The caller must be sure that all items in vectFMTS are coherent each other in time steps, only one same spatial discretization and not ON_NODES.
20682 - * \param [out] cmps - same size than the returned vector.
20684 -std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupportNotNodesAlg(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS, const MEDFileMesh *mesh, std::vector< MCAuto<MEDFileFastCellSupportComparator> >& cmps)
20686 - std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > ret;
20687 - std::list<MEDFileAnyTypeFieldMultiTS *> lstFMTS(vectFMTS.begin(),vectFMTS.end());
20688 - while(!lstFMTS.empty())
20690 - std::list<MEDFileAnyTypeFieldMultiTS *>::iterator it(lstFMTS.begin());
20691 - MEDFileAnyTypeFieldMultiTS *ref(*it);
20692 - std::vector<MEDFileAnyTypeFieldMultiTS *> elt;
20693 - elt.push_back(ref); it=lstFMTS.erase(it);
20694 - MCAuto<MEDFileMeshStruct> mst(MEDFileMeshStruct::New(mesh));
20695 - MCAuto<MEDFileFastCellSupportComparator> cmp(MEDFileFastCellSupportComparator::New(mst,ref));
20696 - while(it!=lstFMTS.end())
20698 - MEDFileAnyTypeFieldMultiTS *curIt(*it);
20699 - if(cmp->isEqual(curIt))
20700 - { elt.push_back(curIt); it=lstFMTS.erase(it); }
20704 - ret.push_back(elt); cmps.push_back(cmp);
20710 - * This method scan the two main structs along time of \a f0 and \a f1 to see if there are all lying on the same mesh along time than those in \a mesh.
20711 - * \a f0 and \a f1 must be defined each only on a same spatial discretization even if this can be different each other.
20713 - * \throw If \a f0 or \a f1 has not only one spatial discretization set.
20714 - * \throw If \a f0 or \a f1 change of spatial discretization along time.
20715 - * \throw If \a f0 or \a f1 on a mesh with meshname different from those in \a mesh.
20716 - * \thorw If \a f0 and \a f1 do not have the same times steps.
20717 - * \throw If mesh is null.
20718 - * \throw If \a f0 or \a f1 is null.
20719 - * \sa MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport
20721 -int MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime(MEDFileAnyTypeFieldMultiTS *f0, MEDFileAnyTypeFieldMultiTS *f1, const MEDFileMesh *mesh, TypeOfField& tof0, TypeOfField& tof1)
20724 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : input mesh is null !");
20726 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : presence of null instance in fields over time !");
20727 - if(f0->getMeshName()!=mesh->getName())
20729 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : first field points to mesh \""<< f0->getMeshName() << "\" and input mesh to compare has name \"" << mesh->getName() << "\" !";
20730 - throw INTERP_KERNEL::Exception(oss.str());
20732 - if(f1->getMeshName()!=mesh->getName())
20734 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : second field points to mesh \""<< f1->getMeshName() << "\" and input mesh to compare has name \"" << mesh->getName() << "\" !";
20735 - throw INTERP_KERNEL::Exception(oss.str());
20737 - int nts=f0->getNumberOfTS();
20738 - if(nts!=f1->getNumberOfTS())
20739 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : number of time steps are not the same !");
20742 - for(int i=0;i<nts;i++)
20744 - MCAuto<MEDFileAnyTypeField1TS> f0cur=f0->getTimeStepAtPos(i);
20745 - MCAuto<MEDFileAnyTypeField1TS> f1cur=f1->getTimeStepAtPos(i);
20746 - std::vector<TypeOfField> tofs0(f0cur->getTypesOfFieldAvailable()),tofs1(f1cur->getTypesOfFieldAvailable());
20747 - if(tofs0.size()!=1 || tofs1.size()!=1)
20748 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : All time steps must be defined on only one spatial discretization !");
20751 - if(tof0!=tofs0[0] || tof1!=tofs1[0])
20752 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : Across times steps MEDFileAnyTypeFieldMultiTS instances have to keep the same unique spatial discretization !");
20755 - { tof0=tofs0[0]; tof1=tofs1[0]; }
20756 - if(f0cur->getMeshIteration()!=mesh->getIteration() || f0cur->getMeshOrder()!=mesh->getOrder())
20758 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : first field points to mesh time step (" << f0cur->getMeshIteration() << ","<< f0cur->getMeshOrder() << ") whereas input mesh points to time step (" << mesh->getIteration() << "," << mesh->getOrder() << ") !";
20759 - throw INTERP_KERNEL::Exception(oss.str());
20761 - if(f1cur->getMeshIteration()!=mesh->getIteration() || f1cur->getMeshOrder()!=mesh->getOrder())
20763 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : second field points to mesh time step (" << f1cur->getMeshIteration() << ","<< f1cur->getMeshOrder() << ") whereas input mesh points to time step (" << mesh->getIteration() << "," << mesh->getOrder() << ") !";
20764 - throw INTERP_KERNEL::Exception(oss.str());
20766 - if(f0cur->getIteration()!=f1cur->getIteration() || f0cur->getOrder()!=f1cur->getOrder())
20768 - std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : all the time steps must be the same ! it is not the case (" << f0cur->getIteration() << "," << f0cur->getOrder() << ")!=(" << f1cur->getIteration() << "," << f1cur->getOrder() << ") !";
20769 - throw INTERP_KERNEL::Exception(oss.str());
20776 -MCAuto<MEDFileAnyTypeField1TS> AggregateHelperF1TS(const std::vector< typename MLFieldTraits<T>::F1TSType const *>& f1tss, const std::vector< std::vector< std::pair<int,int> > >& dts)
20778 - MCAuto< typename MLFieldTraits<T>::F1TSType > ret(MLFieldTraits<T>::F1TSType::New());
20779 - if(f1tss.empty())
20780 - throw INTERP_KERNEL::Exception("AggregateHelperF1TS : empty vector !");
20781 - std::size_t sz(f1tss.size()),i(0);
20782 - std::vector< typename MLFieldTraits<T>::F1TSWSDAType const *> f1tsw(sz);
20783 - for(typename std::vector< typename MLFieldTraits<T>::F1TSType const *>::const_iterator it=f1tss.begin();it!=f1tss.end();it++,i++)
20785 - typename MLFieldTraits<T>::F1TSType const *elt(*it);
20787 - throw INTERP_KERNEL::Exception("AggregateHelperF1TS : presence of a null pointer !");
20788 - f1tsw[i]=dynamic_cast<typename MLFieldTraits<T>::F1TSWSDAType const *>(elt->contentNotNullBase());
20790 - typename MLFieldTraits<T>::F1TSWSDAType *retc(dynamic_cast<typename MLFieldTraits<T>::F1TSWSDAType *>(ret->contentNotNullBase()));
20792 - throw INTERP_KERNEL::Exception("AggregateHelperF1TS : internal error 1 !");
20793 - retc->aggregate(f1tsw,dts);
20794 - ret->setDtUnit(f1tss[0]->getDtUnit());
20795 - return DynamicCast<typename MLFieldTraits<T>::F1TSType , MEDFileAnyTypeField1TS>(ret);
20799 -MCAuto< MEDFileAnyTypeFieldMultiTS > AggregateHelperFMTS(const std::vector< typename MLFieldTraits<T>::FMTSType const *>& fmtss, const std::vector< std::vector< std::pair<int,int> > >& dts)
20801 - MCAuto< typename MLFieldTraits<T>::FMTSType > ret(MLFieldTraits<T>::FMTSType::New());
20802 - if(fmtss.empty())
20803 - throw INTERP_KERNEL::Exception("AggregateHelperFMTS : empty vector !");
20804 - std::size_t sz(fmtss.size());
20805 - for(typename std::vector< typename MLFieldTraits<T>::FMTSType const *>::const_iterator it=fmtss.begin();it!=fmtss.end();it++)
20807 - typename MLFieldTraits<T>::FMTSType const *elt(*it);
20809 - throw INTERP_KERNEL::Exception("AggregateHelperFMTS : presence of null pointer !");
20811 - int nbTS(fmtss[0]->getNumberOfTS());
20812 - for(typename std::vector< typename MLFieldTraits<T>::FMTSType const *>::const_iterator it=fmtss.begin();it!=fmtss.end();it++)
20813 - if((*it)->getNumberOfTS()!=nbTS)
20814 - throw INTERP_KERNEL::Exception("AggregateHelperFMTS : all fields must have the same number of TS !");
20815 - for(int iterTS=0;iterTS<nbTS;iterTS++)
20817 - std::size_t i(0);
20818 - std::vector< typename MLFieldTraits<T>::F1TSType const *> f1tss(sz);
20819 - std::vector< MCAuto<typename MLFieldTraits<T>::F1TSType> > f1tss2(sz);
20820 - for(typename std::vector< typename MLFieldTraits<T>::FMTSType const *>::const_iterator it=fmtss.begin();it!=fmtss.end();it++,i++)
20821 - { f1tss2[i]=(*it)->getTimeStepAtPos(iterTS); f1tss[i]=f1tss2[i]; }
20822 - MCAuto<MEDFileAnyTypeField1TS> f1ts(AggregateHelperF1TS<T>(f1tss,dts));
20823 - ret->pushBackTimeStep(f1ts);
20824 - ret->setDtUnit(f1ts->getDtUnit());
20826 - return DynamicCast<typename MLFieldTraits<T>::FMTSType , MEDFileAnyTypeFieldMultiTS>(ret);
20830 - * \a dts and \a ftmss are expected to have same size.
20832 -MCAuto<MEDFileAnyTypeFieldMultiTS> MEDFileAnyTypeFieldMultiTS::Aggregate(const std::vector<const MEDFileAnyTypeFieldMultiTS *>& fmtss, const std::vector< std::vector< std::pair<int,int> > >& dts)
20834 - if(fmtss.empty())
20835 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::Aggregate : input vector is empty !");
20836 - std::size_t sz(fmtss.size());
20837 - std::vector<const MEDFileFieldMultiTS *> fmtss1;
20838 - std::vector<const MEDFileIntFieldMultiTS *> fmtss2;
20839 - for(std::vector<const MEDFileAnyTypeFieldMultiTS *>::const_iterator it=fmtss.begin();it!=fmtss.end();it++)
20842 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::Aggregate : presence of null instance in input vector !");
20843 - const MEDFileFieldMultiTS *elt1(dynamic_cast<const MEDFileFieldMultiTS *>(*it));
20846 - fmtss1.push_back(elt1);
20849 - const MEDFileIntFieldMultiTS *elt2(dynamic_cast<const MEDFileIntFieldMultiTS *>(*it));
20852 - fmtss2.push_back(elt2);
20855 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::Aggregate : not recognized type !");
20857 - if(fmtss1.size()!=sz && fmtss2.size()!=sz)
20858 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::Aggregate : type of data is not homogeneous !");
20859 - if(fmtss1.size()==sz)
20860 - return AggregateHelperFMTS<double>(fmtss1,dts);
20861 - if(fmtss2.size()!=sz)
20862 - return AggregateHelperFMTS<int>(fmtss2,dts);
20863 - throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::Aggregate : not implemented yet !");
20866 -MEDFileAnyTypeFieldMultiTSIterator *MEDFileAnyTypeFieldMultiTS::iterator()
20868 - return new MEDFileAnyTypeFieldMultiTSIterator(this);
20871 -//= MEDFileFieldMultiTS
20873 -MEDFileAnyTypeFieldMultiTS *MEDFileFieldMultiTS::shallowCpy() const
20875 - return new MEDFileFieldMultiTS(*this);
20879 - * This method performs a copy with datatype modification ( float64->int32 ) of \a this. The globals information are copied
20880 - * following the given input policy.
20882 - * \param [in] isDeepCpyGlobs - a boolean that indicates the behaviour concerning globals (profiles and localizations)
20883 - * By default (true) the globals are deeply copied.
20884 - * \return MEDFileIntFieldMultiTS * - a new object that is the result of the conversion of \a this to int32 field.
20886 -MEDFileIntFieldMultiTS *MEDFileFieldMultiTS::convertToInt(bool isDeepCpyGlobs) const
20888 - MCAuto<MEDFileIntFieldMultiTS> ret;
20889 - const MEDFileAnyTypeFieldMultiTSWithoutSDA *content(_content);
20892 - const MEDFileFieldMultiTSWithoutSDA *contc=dynamic_cast<const MEDFileFieldMultiTSWithoutSDA *>(content);
20894 - throw INTERP_KERNEL::Exception("MEDFileFieldMultiTS::convertToInt : the content inside this is not FLOAT64 ! This is incoherent !");
20895 - MCAuto<MEDFileIntFieldMultiTSWithoutSDA> newc(contc->convertToInt());
20896 - ret=static_cast<MEDFileIntFieldMultiTS *>(MEDFileAnyTypeFieldMultiTS::BuildNewInstanceFromContent((MEDFileIntFieldMultiTSWithoutSDA *)newc));
20899 - ret=MEDFileIntFieldMultiTS::New();
20900 - if(isDeepCpyGlobs)
20901 - ret->deepCpyGlobs(*this);
20903 - ret->shallowCpyGlobs(*this);
20904 - return ret.retn();
20907 -MEDFileFieldMultiTS::MEDFileFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms)
20908 -try:MEDFileTemplateFieldMultiTS<double>(fid,loadAll,ms)
20911 -catch(INTERP_KERNEL::Exception& e)
20914 -MEDFileFieldMultiTS::MEDFileFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
20915 -try:MEDFileTemplateFieldMultiTS<double>(fid,fieldName,loadAll,ms,entities)
20918 -catch(INTERP_KERNEL::Exception& e)
20921 -MEDFileFieldMultiTS::MEDFileFieldMultiTS(const MEDFileFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent):MEDFileTemplateFieldMultiTS<double>(other,shallowCopyOfContent)
20925 -std::vector< std::vector<DataArrayDouble *> > MEDFileFieldMultiTS::getFieldSplitedByType2(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
20927 - return contentNotNull()->getFieldSplitedByType2(iteration,order,mname,types,typesF,pfls,locs);
20930 -//= MEDFileAnyTypeFieldMultiTSIterator
20932 -MEDFileAnyTypeFieldMultiTSIterator::MEDFileAnyTypeFieldMultiTSIterator(MEDFileAnyTypeFieldMultiTS *fmts):_fmts(fmts),_iter_id(0),_nb_iter(0)
20937 - _nb_iter=fmts->getNumberOfTS();
20941 -MEDFileAnyTypeFieldMultiTSIterator::~MEDFileAnyTypeFieldMultiTSIterator()
20945 -MEDFileAnyTypeField1TS *MEDFileAnyTypeFieldMultiTSIterator::nextt()
20947 - if(_iter_id<_nb_iter)
20949 - MEDFileAnyTypeFieldMultiTS *fmts(_fmts);
20951 - return fmts->getTimeStepAtPos(_iter_id++);
20959 -//= MEDFileIntFieldMultiTS
20963 MEDFileFields *MEDFileFields::New()
20964 @@ -9187,11 +276,19 @@
20965 _fields[i]=MEDFileIntFieldMultiTSWithoutSDA::New(fid,fieldName,meshName,typcha,infos,nbOfStep,dtunit,loadAll,ms,entities);
20968 - case MED_NODE://6432
20969 + case MED_FLOAT32:
20971 _fields[i]=MEDFileFloatFieldMultiTSWithoutSDA::New(fid,fieldName,meshName,typcha,infos,nbOfStep,dtunit,loadAll,ms,entities);
20976 + if(sizeof(med_int)==sizeof(int))
20978 + _fields[i]=MEDFileIntFieldMultiTSWithoutSDA::New(fid,fieldName,meshName,typcha,infos,nbOfStep,dtunit,loadAll,ms,entities);
20984 std::ostringstream oss; oss << "constructor MEDFileFields(fileName) : file \'" << FileNameFromFID(fid) << "\' at pos #" << i << " field has name \'" << fieldName << "\' but the type of field is not in [MED_FLOAT64, MED_INT32, MED_FLOAT32] !";
20985 @@ -9282,7 +379,7 @@
20988 * This method potentially releases big data arrays if \a this is coming from a file. If \a this has been built from scratch this method will have no effect.
20989 - * This method is the symetrical method of MEDFileFields::loadArraysIfNecessary.
20990 + * This method is the symmetrical method of MEDFileFields::loadArraysIfNecessary.
20991 * This method is useful to reduce \b safely amount of heap memory necessary for \a this by using MED file as database.
20993 * \sa MEDFileFields::loadArraysIfNecessary
20994 @@ -9456,7 +553,7 @@
20995 * This code corresponds to the distribution of types in the corresponding mesh.
20996 * \param [in] newCode idem to param \a oldCode except that here the new distribution is given.
20997 * \param [in] renumO2N the old to new renumber array.
20998 - * \return If true a renumbering has been performed. The structure in \a this has been modified. If false, nothing has been done: it is typically the case if \a meshName is not refered by any
20999 + * \return If true a renumbering has been performed. The structure in \a this has been modified. If false, nothing has been done: it is typically the case if \a meshName is not referred by any
21000 * field in \a this.
21002 bool MEDFileFields::renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N)
21003 @@ -9510,6 +607,235 @@
21010 + PFLData():_add_pts_in_pfl(0) { }
21011 + PFLData(const MCAuto<DataArrayInt>& mat, const MCAuto<DataArrayInt>& pfl, int nbOfNewPts):_matrix(mat),_pfl(pfl),_add_pts_in_pfl(nbOfNewPts) { }
21012 + std::string getPflName() const { if(_pfl.isNull()) { return std::string(); } else { return _pfl->getName(); } }
21013 + int getNbOfAddPtsInPfl() const { return _add_pts_in_pfl; }
21014 + MCAuto<DataArrayInt> getProfile() const { return _pfl; }
21015 + MCAuto<DataArrayInt> getMatrix() const { return _matrix; }
21017 + MCAuto<DataArrayInt> _matrix;
21018 + MCAuto<DataArrayInt> _pfl;
21019 + int _add_pts_in_pfl;
21022 +class MEDFileFieldLin2QuadVisitor : public MEDFileFieldVisitor
21025 + MEDFileFieldLin2QuadVisitor(const MEDFileUMesh *lin, const MEDFileUMesh *quad, const MEDFileFieldGlobsReal *linGlobs, MEDFileFields* outFs):_lin(lin),_quad(quad),_lin_globs(linGlobs),_out_fs(outFs),_gt(INTERP_KERNEL::NORM_ERROR),_1ts_update_requested(false) { }
21026 + void newFieldEntry(const MEDFileAnyTypeFieldMultiTSWithoutSDA *field) { if(field->getMeshName()!=_lin->getName()) return; _cur_fmts=MEDFileFieldMultiTS::New(); }
21027 + void endFieldEntry(const MEDFileAnyTypeFieldMultiTSWithoutSDA *field) { if(_cur_fmts.isNotNull()) { if(_cur_fmts->getNumberOfTS()>0) _out_fs->pushField(_cur_fmts); } }
21029 + void newTimeStepEntry(const MEDFileAnyTypeField1TSWithoutSDA *ts);
21030 + void endTimeStepEntry(const MEDFileAnyTypeField1TSWithoutSDA *ts);
21032 + void newMeshEntry(const MEDFileFieldPerMesh *fpm);
21033 + void endMeshEntry(const MEDFileFieldPerMesh *fpm) { }
21035 + void newPerMeshPerTypeEntry(const MEDFileFieldPerMeshPerTypeCommon *pmpt);
21036 + void endPerMeshPerTypeEntry(const MEDFileFieldPerMeshPerTypeCommon *pmpt) { }
21038 + void newPerMeshPerTypePerDisc(const MEDFileFieldPerMeshPerTypePerDisc *pmptpd);
21040 + void updateData(MEDFileFieldPerMeshPerTypePerDisc *pmtd, int deltaNbNodes);
21042 + const MEDFileUMesh *_lin;
21043 + const MEDFileUMesh *_quad;
21044 + const MEDFileFieldGlobsReal *_lin_globs;
21045 + MEDFileFields *_out_fs;
21046 + MCAuto<MEDFileFieldMultiTS> _cur_fmts;
21047 + MCAuto<MEDFileField1TS> _cur_f1ts;
21048 + INTERP_KERNEL::NormalizedCellType _gt;
21049 + // Info on 1TS modification
21050 + bool _1ts_update_requested;
21051 + // Cache of matrix to compute faster the values on newly created points
21052 + std::map< std::string, PFLData > _cache;
21053 + std::vector<std::string> _pfls_to_be_updated;
21056 +void MEDFileFieldLin2QuadVisitor::newPerMeshPerTypePerDisc(const MEDFileFieldPerMeshPerTypePerDisc *pmptpd)
21058 + if(_cur_f1ts.isNull())
21060 + if(pmptpd->getType()!=ON_NODES)
21061 + throw INTERP_KERNEL::Exception("Not managed yet for ON_CELLS ON_GAUSS_NE and ON_GAUSS_PT");
21062 + _1ts_update_requested=true;
21063 + MEDFileAnyTypeField1TSWithoutSDA *ct(_cur_f1ts->contentNotNullBase());
21064 + int locId(pmptpd->getFather()->locIdOfLeaf(pmptpd));
21065 + MEDFileFieldPerMeshPerTypePerDisc *pmtdToModify(ct->getLeafGivenMeshAndTypeAndLocId(_lin->getName(),_gt,locId));
21066 + std::string pflName(pmptpd->getProfile());
21067 + _pfls_to_be_updated.push_back(pflName);
21068 + std::map< std::string, PFLData >::iterator itCache(_cache.find(pflName));
21069 + if(itCache!=_cache.end())
21071 + updateData(pmtdToModify,(*itCache).second.getNbOfAddPtsInPfl());
21074 + MCAuto<DataArrayInt> pfl;
21075 + if(pflName.empty())
21076 + pfl=DataArrayInt::Range(0,pmptpd->getNumberOfVals(),1);
21078 + pfl=_lin_globs->getProfile(pflName)->deepCopy();
21080 + MCAuto<MEDCouplingUMesh> mesh3D(_lin->getMeshAtLevel(0)),mesh3DQuadratic(_quad->getMeshAtLevel(0));
21081 + MCAuto<DataArrayInt> cellIds(mesh3D->getCellIdsLyingOnNodes(pfl->begin(),pfl->end(),true));
21082 + MCAuto<MEDCouplingUMesh> mesh3DQuadraticRestricted(mesh3DQuadratic->buildPartOfMySelf(cellIds->begin(),cellIds->end(),true));
21083 + MCAuto<DataArrayInt> mesh3DQuadraticRestrictedNodeIds(mesh3DQuadraticRestricted->computeFetchedNodeIds());
21084 + mesh3DQuadraticRestrictedNodeIds->checkMonotonic(true);
21085 + MCAuto<DataArrayInt> newPtsIds(mesh3DQuadraticRestrictedNodeIds->buildSubstraction(pfl));
21086 + MCAuto<MEDCoupling1SGTUMesh> allSeg3;
21088 + MCAuto<DataArrayInt> a,b,c,d;
21089 + MCAuto<MEDCouplingUMesh> seg3Tmp(mesh3DQuadraticRestricted->explodeIntoEdges(a,b,c,d));
21090 + allSeg3=MEDCoupling1SGTUMesh::New(seg3Tmp);
21092 + if(allSeg3->getCellModelEnum()!=INTERP_KERNEL::NORM_SEG3)
21093 + throw INTERP_KERNEL::Exception("MEDFileFieldLin2QuadVisitor::newPerMeshPerTypePerDisc : invalid situation where SEG3 expected !");
21094 + MCAuto<DataArrayInt> midPts,cellSeg3Ids,matrix;
21096 + DataArrayInt *nodeConn(allSeg3->getNodalConnectivity());
21097 + nodeConn->rearrange(3);
21099 + std::vector<int> v(1,2);
21100 + midPts=nodeConn->keepSelectedComponents(v);
21102 + cellSeg3Ids=DataArrayInt::FindPermutationFromFirstToSecond(midPts,newPtsIds);
21104 + std::vector<int> v(2); v[0]=0; v[1]=1;
21105 + MCAuto<DataArrayInt> tmp(nodeConn->keepSelectedComponents(v));
21106 + matrix=tmp->selectByTupleId(cellSeg3Ids->begin(),cellSeg3Ids->end());
21108 + nodeConn->rearrange(1);
21110 + MCAuto<DataArrayInt> pflq;
21111 + if(!pflName.empty())
21113 + std::vector<const DataArrayInt *> vs(2);
21114 + vs[0]=pfl; vs[1]=newPtsIds;
21115 + pflq=DataArrayInt::Aggregate(vs);
21116 + pflq->setName(pflName);
21118 + PFLData pdata(matrix,pflq,newPtsIds->getNumberOfTuples());
21119 + _cache[pflName]=pdata;
21120 + updateData(pmtdToModify,pdata.getNbOfAddPtsInPfl());
21123 +void MEDFileFieldLin2QuadVisitor::updateData(MEDFileFieldPerMeshPerTypePerDisc *pmtd, int deltaNbNodes)
21125 + pmtd->incrementNbOfVals(deltaNbNodes);
21128 +void MEDFileFieldLin2QuadVisitor::newPerMeshPerTypeEntry(const MEDFileFieldPerMeshPerTypeCommon *pmpt)
21130 + const MEDFileFieldPerMeshPerType *pmpt2(dynamic_cast<const MEDFileFieldPerMeshPerType *>(pmpt));
21132 + throw INTERP_KERNEL::Exception("MEDFileFieldLin2QuadVisitor::newPerMeshPerTypeEntry : not managed for structure elements !");
21133 + if(pmpt2->getNumberOfLoc()!=1)
21134 + throw INTERP_KERNEL::Exception("MEDFileFieldLin2QuadVisitor::newPerMeshPerTypeEntry : not managed for multi discr per timestep !");
21135 + _gt=pmpt->getGeoType();
21138 +void MEDFileFieldLin2QuadVisitor::newMeshEntry(const MEDFileFieldPerMesh *fpm)
21140 + if(fpm->getMeshName()!=_lin->getName())
21141 + throw INTERP_KERNEL::Exception("MEDFileFieldLin2QuadVisitor::newMeshEntry : mismatch into meshName !");
21144 +void MEDFileFieldLin2QuadVisitor::newTimeStepEntry(const MEDFileAnyTypeField1TSWithoutSDA *ts)
21146 + _1ts_update_requested=false; _pfls_to_be_updated.clear();
21149 + const MEDFileField1TSWithoutSDA *tsd(dynamic_cast<const MEDFileField1TSWithoutSDA *>(ts));
21152 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> contentCpy(ts->deepCopy());
21153 + MCAuto<MEDFileField1TSWithoutSDA> contentCpy2(DynamicCastSafe<MEDFileAnyTypeField1TSWithoutSDA,MEDFileField1TSWithoutSDA>(contentCpy));
21154 + if(contentCpy2.isNull())
21156 + _cur_f1ts=MEDFileField1TS::New(*contentCpy2,true);
21157 + _cur_f1ts->deepCpyGlobs(*_lin_globs);
21160 +void MEDFileFieldLin2QuadVisitor::endTimeStepEntry(const MEDFileAnyTypeField1TSWithoutSDA *ts)
21162 + if(_cur_f1ts.isNull())
21164 + if(_1ts_update_requested)
21166 + MCAuto<DataArrayInt> matrix,oldPfl;
21167 + for(std::vector<std::string>::const_iterator it=_pfls_to_be_updated.begin();it!=_pfls_to_be_updated.end();it++)
21169 + std::map< std::string, PFLData >::const_iterator it2(_cache.find(*it));
21170 + if(it2==_cache.end())
21171 + throw INTERP_KERNEL::Exception("MEDFileFieldLin2QuadVisitor::endTimeStepEntry : invalid situation !");
21172 + matrix=(*it2).second.getMatrix();
21173 + if((*it).empty())
21175 + int locId(_cur_f1ts->getProfileId(*it));
21176 + oldPfl.takeRef(_cur_f1ts->getProfile(*it));
21178 + std::vector<int> locToKill(1,locId);
21179 + _cur_f1ts->killProfileIds(locToKill);
21181 + _cur_f1ts->appendProfile((*it2).second.getProfile());
21183 + DataArrayDouble *arr(_cur_f1ts->getUndergroundDataArray());
21184 + MCAuto<DataArrayDouble> res;
21186 + std::vector<int> v(1,0),v2(1,1);
21187 + MCAuto<DataArrayInt> pts0(matrix->keepSelectedComponents(v));
21188 + MCAuto<DataArrayInt> pts1(matrix->keepSelectedComponents(v2));
21189 + if(oldPfl.isNotNull())
21191 + pts0=oldPfl->findIdForEach(pts0->begin(),pts0->end());
21192 + pts1=oldPfl->findIdForEach(pts1->begin(),pts1->end());
21194 + MCAuto<DataArrayDouble> part0(arr->selectByTupleId(*pts0));
21195 + MCAuto<DataArrayDouble> part1(arr->selectByTupleId(*pts1));
21196 + res=DataArrayDouble::Add(part0,part1);
21197 + res->applyLin(0.5,0.);
21199 + res=DataArrayDouble::Aggregate(arr,res);
21200 + _cur_f1ts->setArray(res);
21202 + if(_cur_fmts.isNotNull())
21203 + { _cur_fmts->pushBackTimeStep(_cur_f1ts); }
21204 + _1ts_update_requested=false;
21208 + * \a newQuad is expected to be the result of MEDFileUMesh::linearToQuadratic of \a oldLin
21210 +MCAuto<MEDFileFields> MEDFileFields::linearToQuadratic(const MEDFileMeshes *oldLin, const MEDFileMeshes *newQuad) const
21212 + if(!oldLin || !newQuad)
21213 + throw INTERP_KERNEL::Exception("MEDFileFields::linearToQuadratic : input meshes must be non NULL !");
21214 + MCAuto<MEDFileFields> ret(MEDFileFields::New());
21215 + for(int i=0;i<oldLin->getNumberOfMeshes();i++)
21217 + MEDFileMesh *mm(oldLin->getMeshAtPos(i));
21220 + MEDFileUMesh *mmu(dynamic_cast<MEDFileUMesh *>(mm));
21223 + MEDFileMesh *mmq(newQuad->getMeshWithName(mmu->getName()));
21224 + MEDFileUMesh *mmqu(dynamic_cast<MEDFileUMesh *>(mmq));
21227 + std::ostringstream oss; oss << "MEDFileFields::linearToQuadratic : mismatch of name between input meshes for name \"" << mmu->getName() << "\"";
21228 + throw INTERP_KERNEL::Exception(oss.str());
21230 + MEDFileFieldLin2QuadVisitor vis(mmu,mmqu,this,ret);
21236 MEDFileAnyTypeFieldMultiTS *MEDFileFields::getFieldAtPos(int i) const
21238 if(i<0 || i>=(int)_fields.size())
21239 @@ -9523,13 +849,16 @@
21240 MCAuto<MEDFileAnyTypeFieldMultiTS> ret;
21241 const MEDFileFieldMultiTSWithoutSDA *fmtsC(dynamic_cast<const MEDFileFieldMultiTSWithoutSDA *>(fmts));
21242 const MEDFileIntFieldMultiTSWithoutSDA *fmtsC2(dynamic_cast<const MEDFileIntFieldMultiTSWithoutSDA *>(fmts));
21243 + const MEDFileFloatFieldMultiTSWithoutSDA *fmtsC3(dynamic_cast<const MEDFileFloatFieldMultiTSWithoutSDA *>(fmts));
21245 ret=MEDFileFieldMultiTS::New(*fmtsC,false);
21247 ret=MEDFileIntFieldMultiTS::New(*fmtsC2,false);
21249 + ret=MEDFileFloatFieldMultiTS::New(*fmtsC3,false);
21252 - std::ostringstream oss; oss << "MEDFileFields::getFieldAtPos : At pos #" << i << " field is neither double (FLOAT64) nor integer (INT32) !";
21253 + std::ostringstream oss; oss << "MEDFileFields::getFieldAtPos : At pos #" << i << " field is neither double (FLOAT64) nor float (FLOAT32) nor integer (INT32) !";
21254 throw INTERP_KERNEL::Exception(oss.str());
21256 ret->shallowCpyGlobs(*this);
21257 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileFieldGlobs.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileFieldGlobs.cxx
21258 --- MEDCOUPLING_old/src/MEDLoader/MEDFileFieldGlobs.cxx 1970-01-01 01:00:00.000000000 +0100
21259 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileFieldGlobs.cxx 2018-04-19 17:25:17.743797475 +0200
21261 +// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
21263 +// This library is free software; you can redistribute it and/or
21264 +// modify it under the terms of the GNU Lesser General Public
21265 +// License as published by the Free Software Foundation; either
21266 +// version 2.1 of the License, or (at your option) any later version.
21268 +// This library is distributed in the hope that it will be useful,
21269 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
21270 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
21271 +// Lesser General Public License for more details.
21273 +// You should have received a copy of the GNU Lesser General Public
21274 +// License along with this library; if not, write to the Free Software
21275 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
21277 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
21279 +// Author : Anthony Geay (EDF R&D)
21281 +#include "MEDFileFieldGlobs.hxx"
21282 +#include "MEDFileField.txx"
21283 +#include "MEDFileMesh.hxx"
21284 +#include "MEDLoaderBase.hxx"
21285 +#include "MEDLoaderTraits.hxx"
21286 +#include "MEDFileSafeCaller.txx"
21287 +#include "MEDFileFieldOverView.hxx"
21288 +#include "MEDFileBlowStrEltUp.hxx"
21289 +#include "MEDFileFieldVisitor.hxx"
21291 +#include "MEDCouplingFieldDiscretization.hxx"
21292 +#include "MCType.hxx"
21294 +#include "InterpKernelAutoPtr.hxx"
21295 +#include "CellModel.hxx"
21297 +#include <algorithm>
21298 +#include <iterator>
21300 +using namespace MEDCoupling;
21302 +void MEDFileFieldGlobs::loadProfileInFile(med_idt fid, int id, const std::string& pflName)
21304 + if(id>=(int)_pfls.size())
21305 + _pfls.resize(id+1);
21306 + _pfls[id]=DataArrayInt::New();
21307 + int lgth(MEDprofileSizeByName(fid,pflName.c_str()));
21308 + _pfls[id]->setName(pflName);
21309 + _pfls[id]->alloc(lgth,1);
21310 + MEDFILESAFECALLERRD0(MEDprofileRd,(fid,pflName.c_str(),_pfls[id]->getPointer()));
21311 + _pfls[id]->applyLin(1,-1,0);//Converting into C format
21314 +void MEDFileFieldGlobs::loadProfileInFile(med_idt fid, int i)
21316 + INTERP_KERNEL::AutoPtr<char> pflName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
21318 + MEDFILESAFECALLERRD0(MEDprofileInfo,(fid,i+1,pflName,&sz));
21319 + std::string pflCpp=MEDLoaderBase::buildStringFromFortran(pflName,MED_NAME_SIZE);
21320 + if(i>=(int)_pfls.size())
21321 + _pfls.resize(i+1);
21322 + _pfls[i]=DataArrayInt::New();
21323 + _pfls[i]->alloc(sz,1);
21324 + _pfls[i]->setName(pflCpp.c_str());
21325 + MEDFILESAFECALLERRD0(MEDprofileRd,(fid,pflName,_pfls[i]->getPointer()));
21326 + _pfls[i]->applyLin(1,-1,0);//Converting into C format
21329 +void MEDFileFieldGlobs::writeGlobals(med_idt fid, const MEDFileWritable& opt) const
21331 + int nbOfPfls=_pfls.size();
21332 + for(int i=0;i<nbOfPfls;i++)
21334 + MCAuto<DataArrayInt> cpy=_pfls[i]->deepCopy();
21335 + cpy->applyLin(1,1,0);
21336 + INTERP_KERNEL::AutoPtr<char> pflName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
21337 + MEDLoaderBase::safeStrCpy(_pfls[i]->getName().c_str(),MED_NAME_SIZE,pflName,opt.getTooLongStrPolicy());
21338 + MEDFILESAFECALLERWR0(MEDprofileWr,(fid,pflName,_pfls[i]->getNumberOfTuples(),cpy->getConstPointer()));
21341 + int nbOfLocs=_locs.size();
21342 + for(int i=0;i<nbOfLocs;i++)
21343 + _locs[i]->writeLL(fid);
21346 +void MEDFileFieldGlobs::appendGlobs(const MEDFileFieldGlobs& other, double eps)
21348 + std::vector<std::string> pfls=getPfls();
21349 + for(std::vector< MCAuto<DataArrayInt> >::const_iterator it=other._pfls.begin();it!=other._pfls.end();it++)
21351 + std::vector<std::string>::iterator it2=std::find(pfls.begin(),pfls.end(),(*it)->getName());
21352 + if(it2==pfls.end())
21354 + _pfls.push_back(*it);
21358 + int id=std::distance(pfls.begin(),it2);
21359 + if(!(*it)->isEqual(*_pfls[id]))
21361 + std::ostringstream oss; oss << "MEDFileFieldGlobs::appendGlobs : Profile \"" << (*it)->getName() << "\" already exists and is different from those expecting to be append !";
21362 + throw INTERP_KERNEL::Exception(oss.str());
21366 + std::vector<std::string> locs=getLocs();
21367 + for(std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=other._locs.begin();it!=other._locs.end();it++)
21369 + std::vector<std::string>::iterator it2=std::find(locs.begin(),locs.end(),(*it)->getName());
21370 + if(it2==locs.end())
21372 + _locs.push_back(*it);
21376 + int id=std::distance(locs.begin(),it2);
21377 + if(!(*it)->isEqual(*_locs[id],eps))
21379 + std::ostringstream oss; oss << "MEDFileFieldGlobs::appendGlobs : Localization \"" << (*it)->getName() << "\" already exists and is different from those expecting to be append !";
21380 + throw INTERP_KERNEL::Exception(oss.str());
21386 +void MEDFileFieldGlobs::checkGlobsPflsPartCoherency(const std::vector<std::string>& pflsUsed) const
21388 + for(std::vector<std::string>::const_iterator it=pflsUsed.begin();it!=pflsUsed.end();it++)
21389 + getProfile((*it).c_str());
21392 +void MEDFileFieldGlobs::checkGlobsLocsPartCoherency(const std::vector<std::string>& locsUsed) const
21394 + for(std::vector<std::string>::const_iterator it=locsUsed.begin();it!=locsUsed.end();it++)
21395 + getLocalization((*it).c_str());
21398 +void MEDFileFieldGlobs::loadGlobals(med_idt fid, const MEDFileFieldGlobsReal& real)
21400 + std::vector<std::string> profiles=real.getPflsReallyUsed();
21401 + int sz=profiles.size();
21402 + _pfls.resize(sz);
21403 + for(int i=0;i<sz;i++)
21404 + loadProfileInFile(fid,i,profiles[i].c_str());
21406 + std::vector<std::string> locs=real.getLocsReallyUsed();
21408 + _locs.resize(sz);
21409 + for(int i=0;i<sz;i++)
21410 + _locs[i]=MEDFileFieldLoc::New(fid,locs[i].c_str());
21413 +void MEDFileFieldGlobs::loadAllGlobals(med_idt fid, const MEDFileEntities *entities)
21415 + int nProfil=MEDnProfile(fid);
21416 + for(int i=0;i<nProfil;i++)
21417 + loadProfileInFile(fid,i);
21418 + int sz=MEDnLocalization(fid);
21419 + _locs.resize(sz);
21420 + for(int i=0;i<sz;i++)
21422 + _locs[i]=MEDFileFieldLoc::New(fid,i,entities);
21426 +MEDFileFieldGlobs *MEDFileFieldGlobs::New(med_idt fid)
21428 + return new MEDFileFieldGlobs(fid);
21431 +MEDFileFieldGlobs *MEDFileFieldGlobs::New()
21433 + return new MEDFileFieldGlobs;
21436 +std::size_t MEDFileFieldGlobs::getHeapMemorySizeWithoutChildren() const
21438 + return _file_name.capacity()+_pfls.capacity()*sizeof(MCAuto<DataArrayInt>)+_locs.capacity()*sizeof(MCAuto<MEDFileFieldLoc>);
21441 +std::vector<const BigMemoryObject *> MEDFileFieldGlobs::getDirectChildrenWithNull() const
21443 + std::vector<const BigMemoryObject *> ret;
21444 + for(std::vector< MCAuto< DataArrayInt > >::const_iterator it=_pfls.begin();it!=_pfls.end();it++)
21445 + ret.push_back((const DataArrayInt *)*it);
21446 + for(std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=_locs.begin();it!=_locs.end();it++)
21447 + ret.push_back((const MEDFileFieldLoc *)*it);
21451 +MEDFileFieldGlobs *MEDFileFieldGlobs::deepCopy() const
21453 + MCAuto<MEDFileFieldGlobs> ret=new MEDFileFieldGlobs(*this);
21455 + for(std::vector< MCAuto<DataArrayInt> >::const_iterator it=_pfls.begin();it!=_pfls.end();it++,i++)
21457 + if((const DataArrayInt *)*it)
21458 + ret->_pfls[i]=(*it)->deepCopy();
21461 + for(std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=_locs.begin();it!=_locs.end();it++,i++)
21463 + if((const MEDFileFieldLoc*)*it)
21464 + ret->_locs[i]=(*it)->deepCopy();
21466 + return ret.retn();
21470 + * \throw if a profile in \a pfls in not in \a this.
21471 + * \throw if a localization in \a locs in not in \a this.
21472 + * \sa MEDFileFieldGlobs::deepCpyPart
21474 +MEDFileFieldGlobs *MEDFileFieldGlobs::shallowCpyPart(const std::vector<std::string>& pfls, const std::vector<std::string>& locs) const
21476 + MCAuto<MEDFileFieldGlobs> ret=MEDFileFieldGlobs::New();
21477 + for(std::vector<std::string>::const_iterator it1=pfls.begin();it1!=pfls.end();it1++)
21479 + DataArrayInt *pfl=const_cast<DataArrayInt *>(getProfile((*it1).c_str()));
21481 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::shallowCpyPart : internal error ! pfl null !");
21483 + MCAuto<DataArrayInt> pfl2(pfl);
21484 + ret->_pfls.push_back(pfl2);
21486 + for(std::vector<std::string>::const_iterator it2=locs.begin();it2!=locs.end();it2++)
21488 + MEDFileFieldLoc *loc=const_cast<MEDFileFieldLoc *>(&getLocalization((*it2).c_str()));
21490 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::shallowCpyPart : internal error ! loc null !");
21492 + MCAuto<MEDFileFieldLoc> loc2(loc);
21493 + ret->_locs.push_back(loc2);
21495 + ret->setFileName(getFileName());
21496 + return ret.retn();
21500 + * \throw if a profile in \a pfls in not in \a this.
21501 + * \throw if a localization in \a locs in not in \a this.
21502 + * \sa MEDFileFieldGlobs::shallowCpyPart
21504 +MEDFileFieldGlobs *MEDFileFieldGlobs::deepCpyPart(const std::vector<std::string>& pfls, const std::vector<std::string>& locs) const
21506 + MCAuto<MEDFileFieldGlobs> ret=MEDFileFieldGlobs::New();
21507 + for(std::vector<std::string>::const_iterator it1=pfls.begin();it1!=pfls.end();it1++)
21509 + DataArrayInt *pfl=const_cast<DataArrayInt *>(getProfile((*it1).c_str()));
21511 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::deepCpyPart : internal error ! pfl null !");
21512 + ret->_pfls.push_back(pfl->deepCopy());
21514 + for(std::vector<std::string>::const_iterator it2=locs.begin();it2!=locs.end();it2++)
21516 + MEDFileFieldLoc *loc=const_cast<MEDFileFieldLoc *>(&getLocalization((*it2).c_str()));
21518 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::deepCpyPart : internal error ! loc null !");
21519 + ret->_locs.push_back(loc->deepCopy());
21521 + ret->setFileName(getFileName());
21522 + return ret.retn();
21525 +MEDFileFieldGlobs::MEDFileFieldGlobs(med_idt fid):_file_name(MEDFileWritable::FileNameFromFID(fid))
21529 +MEDFileFieldGlobs::MEDFileFieldGlobs()
21533 +MEDFileFieldGlobs::~MEDFileFieldGlobs()
21537 +void MEDFileFieldGlobs::simpleRepr(std::ostream& oss) const
21539 + oss << "Profiles :\n";
21540 + std::size_t n=_pfls.size();
21541 + for(std::size_t i=0;i<n;i++)
21543 + oss << " - #" << i << " ";
21544 + const DataArrayInt *pfl=_pfls[i];
21546 + oss << "\"" << pfl->getName() << "\"\n";
21548 + oss << "EMPTY !\n";
21551 + oss << "Localizations :\n";
21552 + for(std::size_t i=0;i<n;i++)
21554 + oss << " - #" << i << " ";
21555 + const MEDFileFieldLoc *loc=_locs[i];
21557 + loc->simpleRepr(oss);
21559 + oss<< "EMPTY !\n";
21563 +void MEDFileFieldGlobs::changePflsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
21565 + for(std::vector< MCAuto<DataArrayInt> >::iterator it=_pfls.begin();it!=_pfls.end();it++)
21567 + DataArrayInt *elt(*it);
21570 + std::string name(elt->getName());
21571 + for(std::vector< std::pair<std::vector<std::string>, std::string > >::const_iterator it2=mapOfModif.begin();it2!=mapOfModif.end();it2++)
21573 + if(std::find((*it2).first.begin(),(*it2).first.end(),name)!=(*it2).first.end())
21575 + elt->setName((*it2).second.c_str());
21583 +void MEDFileFieldGlobs::changeLocsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
21585 + for(std::vector< MCAuto<MEDFileFieldLoc> >::iterator it=_locs.begin();it!=_locs.end();it++)
21587 + MEDFileFieldLoc *elt(*it);
21590 + std::string name(elt->getName());
21591 + for(std::vector< std::pair<std::vector<std::string>, std::string > >::const_iterator it2=mapOfModif.begin();it2!=mapOfModif.end();it2++)
21593 + if(std::find((*it2).first.begin(),(*it2).first.end(),name)!=(*it2).first.end())
21595 + elt->setName((*it2).second.c_str());
21603 +int MEDFileFieldGlobs::getNbOfGaussPtPerCell(int locId) const
21605 + if(locId<0 || locId>=(int)_locs.size())
21606 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::getNbOfGaussPtPerCell : Invalid localization id !");
21607 + return _locs[locId]->getNbOfGaussPtPerCell();
21610 +const MEDFileFieldLoc& MEDFileFieldGlobs::getLocalization(const std::string& locName) const
21612 + return getLocalizationFromId(getLocalizationId(locName));
21615 +const MEDFileFieldLoc& MEDFileFieldGlobs::getLocalizationFromId(int locId) const
21617 + if(locId<0 || locId>=(int)_locs.size())
21618 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::getLocalizationFromId : Invalid localization id !");
21619 + return *_locs[locId];
21622 +/// @cond INTERNAL
21623 +namespace MEDCouplingImpl
21628 + LocFinder(const std::string& loc):_loc(loc) { }
21629 + bool operator() (const MCAuto<MEDFileFieldLoc>& loc) { return loc->isName(_loc); }
21631 + const std::string &_loc;
21637 + PflFinder(const std::string& pfl):_pfl(pfl) { }
21638 + bool operator() (const MCAuto<DataArrayInt>& loc) { return loc->getName()==_pfl; }
21640 + const std::string _pfl;
21645 +int MEDFileFieldGlobs::getLocalizationId(const std::string& loc) const
21647 + std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=std::find_if(_locs.begin(),_locs.end(),MEDCouplingImpl::LocFinder(loc));
21648 + if(it==_locs.end())
21650 + std::ostringstream oss; oss << "MEDFileFieldGlobs::getLocalisationId : no such localisation name : \"" << loc << "\" Possible localizations are : ";
21651 + for(it=_locs.begin();it!=_locs.end();it++)
21652 + oss << "\"" << (*it)->getName() << "\", ";
21653 + throw INTERP_KERNEL::Exception(oss.str());
21655 + return std::distance(_locs.begin(),it);
21658 +int MEDFileFieldGlobs::getProfileId(const std::string& pfl) const
21660 + std::vector< MCAuto<DataArrayInt> >::const_iterator it=std::find_if(_pfls.begin(),_pfls.end(),MEDCouplingImpl::PflFinder(pfl));
21661 + if(it==_pfls.end())
21663 + std::ostringstream oss; oss << "MEDFileFieldGlobs::getProfileId : no such profile name : \"" << pfl << "\" Possible localizations are : ";
21664 + for(it=_pfls.begin();it!=_pfls.end();it++)
21665 + oss << "\"" << (*it)->getName() << "\", ";
21666 + throw INTERP_KERNEL::Exception(oss.str());
21668 + return std::distance(_pfls.begin(),it);
21672 + * The returned value is never null.
21674 +const DataArrayInt *MEDFileFieldGlobs::getProfile(const std::string& pflName) const
21676 + return getProfileFromId(getProfileId(pflName));
21679 +const DataArrayInt *MEDFileFieldGlobs::getProfileFromId(int pflId) const
21681 + if(pflId<0 || pflId>=(int)_pfls.size())
21682 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::getProfileFromId : Invalid profile id !");
21683 + return _pfls[pflId];
21686 +MEDFileFieldLoc& MEDFileFieldGlobs::getLocalizationFromId(int locId)
21688 + if(locId<0 || locId>=(int)_locs.size())
21689 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::getLocalizationFromId : Invalid localization id !");
21690 + return *_locs[locId];
21693 +MEDFileFieldLoc& MEDFileFieldGlobs::getLocalization(const std::string& locName)
21695 + return getLocalizationFromId(getLocalizationId(locName));
21699 + * The returned value is never null. Borrowed reference returned.
21701 +DataArrayInt *MEDFileFieldGlobs::getProfile(const std::string& pflName)
21703 + std::string pflNameCpp(pflName);
21704 + std::vector< MCAuto<DataArrayInt> >::iterator it=std::find_if(_pfls.begin(),_pfls.end(),MEDCouplingImpl::PflFinder(pflNameCpp));
21705 + if(it==_pfls.end())
21707 + std::ostringstream oss; oss << "MEDFileFieldGlobs::getProfile: no such profile name : \"" << pflNameCpp << "\" Possible profiles are : ";
21708 + for(it=_pfls.begin();it!=_pfls.end();it++)
21709 + oss << "\"" << (*it)->getName() << "\", ";
21710 + throw INTERP_KERNEL::Exception(oss.str());
21715 +DataArrayInt *MEDFileFieldGlobs::getProfileFromId(int pflId)
21717 + if(pflId<0 || pflId>=(int)_pfls.size())
21718 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::getProfileFromId : Invalid profile id !");
21719 + return _pfls[pflId];
21722 +void MEDFileFieldGlobs::killProfileIds(const std::vector<int>& pflIds)
21724 + std::vector< MCAuto<DataArrayInt> > newPfls;
21726 + for(std::vector< MCAuto<DataArrayInt> >::const_iterator it=_pfls.begin();it!=_pfls.end();it++,i++)
21728 + if(std::find(pflIds.begin(),pflIds.end(),i)==pflIds.end())
21729 + newPfls.push_back(*it);
21734 +void MEDFileFieldGlobs::killLocalizationIds(const std::vector<int>& locIds)
21736 + std::vector< MCAuto<MEDFileFieldLoc> > newLocs;
21738 + for(std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=_locs.begin();it!=_locs.end();it++,i++)
21740 + if(std::find(locIds.begin(),locIds.end(),i)==locIds.end())
21741 + newLocs.push_back(*it);
21746 +void MEDFileFieldGlobs::killStructureElementsInGlobs()
21748 + std::vector< MCAuto<MEDFileFieldLoc> > newLocs;
21749 + for(std::vector< MCAuto<MEDFileFieldLoc> >::iterator it=_locs.begin();it!=_locs.end();it++)
21751 + if((*it).isNull())
21753 + if(!(*it)->isOnStructureElement())
21754 + newLocs.push_back(*it);
21759 +std::vector<std::string> MEDFileFieldGlobs::getPfls() const
21761 + int sz=_pfls.size();
21762 + std::vector<std::string> ret(sz);
21763 + for(int i=0;i<sz;i++)
21764 + ret[i]=_pfls[i]->getName();
21768 +std::vector<std::string> MEDFileFieldGlobs::getLocs() const
21770 + int sz=_locs.size();
21771 + std::vector<std::string> ret(sz);
21772 + for(int i=0;i<sz;i++)
21773 + ret[i]=_locs[i]->getName();
21777 +bool MEDFileFieldGlobs::existsPfl(const std::string& pflName) const
21779 + std::vector<std::string> v=getPfls();
21780 + std::string s(pflName);
21781 + return std::find(v.begin(),v.end(),s)!=v.end();
21784 +bool MEDFileFieldGlobs::existsLoc(const std::string& locName) const
21786 + std::vector<std::string> v=getLocs();
21787 + std::string s(locName);
21788 + return std::find(v.begin(),v.end(),s)!=v.end();
21791 +std::vector< std::vector<int> > MEDFileFieldGlobs::whichAreEqualProfiles() const
21793 + std::map<int,std::vector<int> > m;
21795 + for(std::vector< MCAuto<DataArrayInt> >::const_iterator it=_pfls.begin();it!=_pfls.end();it++,i++)
21797 + const DataArrayInt *tmp=(*it);
21800 + m[tmp->getHashCode()].push_back(i);
21803 + std::vector< std::vector<int> > ret;
21804 + for(std::map<int,std::vector<int> >::const_iterator it2=m.begin();it2!=m.end();it2++)
21806 + if((*it2).second.size()>1)
21808 + std::vector<int> ret0;
21809 + bool equalityOrNot=false;
21810 + for(std::vector<int>::const_iterator it3=(*it2).second.begin();it3!=(*it2).second.end();it3++)
21812 + std::vector<int>::const_iterator it4=it3; it4++;
21813 + for(;it4!=(*it2).second.end();it4++)
21815 + if(_pfls[*it3]->isEqualWithoutConsideringStr(*_pfls[*it4]))
21817 + if(!equalityOrNot)
21818 + ret0.push_back(*it3);
21819 + ret0.push_back(*it4);
21820 + equalityOrNot=true;
21824 + if(!ret0.empty())
21825 + ret.push_back(ret0);
21831 +std::vector< std::vector<int> > MEDFileFieldGlobs::whichAreEqualLocs(double eps) const
21833 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::whichAreEqualLocs : no implemented yet ! Sorry !");
21836 +void MEDFileFieldGlobs::appendProfile(DataArrayInt *pfl)
21838 + std::string name(pfl->getName());
21840 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::appendProfile : unsupported profiles with no name !");
21841 + for(std::vector< MCAuto<DataArrayInt> >::const_iterator it=_pfls.begin();it!=_pfls.end();it++)
21842 + if(name==(*it)->getName())
21844 + if(!pfl->isEqual(*(*it)))
21846 + std::ostringstream oss; oss << "MEDFileFieldGlobs::appendProfile : profile \"" << name << "\" already exists and is different from existing !";
21847 + throw INTERP_KERNEL::Exception(oss.str());
21851 + _pfls.push_back(pfl);
21854 +void MEDFileFieldGlobs::appendLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w)
21856 + std::string name(locName);
21858 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::appendLoc : unsupported localizations with no name !");
21859 + MCAuto<MEDFileFieldLoc> obj=MEDFileFieldLoc::New(locName,geoType,refCoo,gsCoo,w);
21860 + for(std::vector< MCAuto<MEDFileFieldLoc> >::const_iterator it=_locs.begin();it!=_locs.end();it++)
21861 + if((*it)->isName(locName))
21863 + if(!(*it)->isEqual(*obj,1e-12))
21865 + std::ostringstream oss; oss << "MEDFileFieldGlobs::appendLoc : localization \"" << name << "\" already exists and is different from existing !";
21866 + throw INTERP_KERNEL::Exception(oss.str());
21869 + _locs.push_back(obj);
21872 +std::string MEDFileFieldGlobs::createNewNameOfPfl() const
21874 + std::vector<std::string> names=getPfls();
21875 + return CreateNewNameNotIn("NewPfl_",names);
21878 +std::string MEDFileFieldGlobs::createNewNameOfLoc() const
21880 + std::vector<std::string> names=getLocs();
21881 + return CreateNewNameNotIn("NewLoc_",names);
21884 +std::string MEDFileFieldGlobs::CreateNewNameNotIn(const std::string& prefix, const std::vector<std::string>& namesToAvoid)
21886 + for(std::size_t sz=0;sz<100000;sz++)
21888 + std::ostringstream tryName;
21889 + tryName << prefix << sz;
21890 + if(std::find(namesToAvoid.begin(),namesToAvoid.end(),tryName.str())==namesToAvoid.end())
21891 + return tryName.str();
21893 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobs::CreateNewNameNotIn : impossible to create an additional profile limit of 100000 profiles reached !");
21897 + * Creates a MEDFileFieldGlobsReal on a given file name. Nothing is read here.
21898 + * \param [in] fname - the file name.
21900 +MEDFileFieldGlobsReal::MEDFileFieldGlobsReal(med_idt fid):_globals(MEDFileFieldGlobs::New(fid))
21905 + * Creates an empty MEDFileFieldGlobsReal.
21907 +MEDFileFieldGlobsReal::MEDFileFieldGlobsReal():_globals(MEDFileFieldGlobs::New())
21911 +std::size_t MEDFileFieldGlobsReal::getHeapMemorySizeWithoutChildren() const
21916 +std::vector<const BigMemoryObject *> MEDFileFieldGlobsReal::getDirectChildrenWithNull() const
21918 + std::vector<const BigMemoryObject *> ret;
21919 + ret.push_back((const MEDFileFieldGlobs *)_globals);
21924 + * Returns a string describing profiles and Gauss points held in \a this.
21925 + * \return std::string - the description string.
21927 +void MEDFileFieldGlobsReal::simpleReprGlobs(std::ostream& oss) const
21929 + const MEDFileFieldGlobs *glob=_globals;
21930 + std::ostringstream oss2; oss2 << glob;
21931 + std::string stars(oss2.str().length(),'*');
21932 + oss << "Globals information on fields (at " << oss2.str() << "):" << "\n************************************" << stars << "\n\n";
21934 + glob->simpleRepr(oss);
21936 + oss << "NO GLOBAL INFORMATION !\n";
21939 +void MEDFileFieldGlobsReal::resetContent()
21941 + _globals=MEDFileFieldGlobs::New();
21944 +void MEDFileFieldGlobsReal::killStructureElementsInGlobs()
21946 + contentNotNull()->killStructureElementsInGlobs();
21949 +MEDFileFieldGlobsReal::~MEDFileFieldGlobsReal()
21954 + * Copies references to profiles and Gauss points from another MEDFileFieldGlobsReal.
21955 + * \param [in] other - the other MEDFileFieldGlobsReal to copy data from.
21957 +void MEDFileFieldGlobsReal::shallowCpyGlobs(const MEDFileFieldGlobsReal& other)
21959 + _globals=other._globals;
21963 + * Copies references to ** only used ** by \a this, profiles and Gauss points from another MEDFileFieldGlobsReal.
21964 + * \param [in] other - the other MEDFileFieldGlobsReal to copy data from.
21966 +void MEDFileFieldGlobsReal::shallowCpyOnlyUsedGlobs(const MEDFileFieldGlobsReal& other)
21968 + const MEDFileFieldGlobs *otherg(other._globals);
21971 + _globals=otherg->shallowCpyPart(getPflsReallyUsed(),getLocsReallyUsed());
21975 + * Copies deeply to ** only used ** by \a this, profiles and Gauss points from another MEDFileFieldGlobsReal.
21976 + * \param [in] other - the other MEDFileFieldGlobsReal to copy data from.
21978 +void MEDFileFieldGlobsReal::deepCpyOnlyUsedGlobs(const MEDFileFieldGlobsReal& other)
21980 + const MEDFileFieldGlobs *otherg(other._globals);
21983 + _globals=otherg->deepCpyPart(getPflsReallyUsed(),getLocsReallyUsed());
21986 +void MEDFileFieldGlobsReal::deepCpyGlobs(const MEDFileFieldGlobsReal& other)
21988 + _globals=other._globals;
21989 + if((const MEDFileFieldGlobs *)_globals)
21990 + _globals=other._globals->deepCopy();
21994 + * Adds profiles and Gauss points held by another MEDFileFieldGlobsReal to \a this one.
21995 + * \param [in] other - the MEDFileFieldGlobsReal to copy data from.
21996 + * \param [in] eps - a precision used to compare Gauss points with same name held by
21997 + * \a this and \a other MEDFileFieldGlobsReal.
21998 + * \throw If \a this and \a other hold profiles with equal names but different ids.
21999 + * \throw If \a this and \a other hold different Gauss points with equal names.
22001 +void MEDFileFieldGlobsReal::appendGlobs(const MEDFileFieldGlobsReal& other, double eps)
22003 + const MEDFileFieldGlobs *thisGlobals(_globals),*otherGlobals(other._globals);
22004 + if(thisGlobals==otherGlobals)
22008 + _globals=other._globals;
22011 + _globals->appendGlobs(*other._globals,eps);
22014 +void MEDFileFieldGlobsReal::checkGlobsCoherency() const
22016 + checkGlobsPflsPartCoherency();
22017 + checkGlobsLocsPartCoherency();
22020 +void MEDFileFieldGlobsReal::checkGlobsPflsPartCoherency() const
22022 + contentNotNull()->checkGlobsPflsPartCoherency(getPflsReallyUsed());
22025 +void MEDFileFieldGlobsReal::checkGlobsLocsPartCoherency() const
22027 + contentNotNull()->checkGlobsLocsPartCoherency(getLocsReallyUsed());
22030 +void MEDFileFieldGlobsReal::loadProfileInFile(med_idt fid, int id, const std::string& pflName)
22032 + contentNotNull()->loadProfileInFile(fid,id,pflName);
22035 +void MEDFileFieldGlobsReal::loadProfileInFile(med_idt fid, int id)
22037 + contentNotNull()->loadProfileInFile(fid,id);
22040 +void MEDFileFieldGlobsReal::loadGlobals(med_idt fid)
22042 + contentNotNull()->loadGlobals(fid,*this);
22045 +void MEDFileFieldGlobsReal::loadAllGlobals(med_idt fid, const MEDFileEntities *entities)
22047 + contentNotNull()->loadAllGlobals(fid,entities);
22050 +void MEDFileFieldGlobsReal::writeGlobals(med_idt fid, const MEDFileWritable& opt) const
22052 + contentNotNull()->writeGlobals(fid,opt);
22056 + * Returns names of all profiles. To get only used profiles call getPflsReallyUsed()
22057 + * or getPflsReallyUsedMulti().
22058 + * \return std::vector<std::string> - a sequence of names of all profiles.
22060 +std::vector<std::string> MEDFileFieldGlobsReal::getPfls() const
22062 + return contentNotNull()->getPfls();
22066 + * Returns names of all localizations. To get only used localizations call getLocsReallyUsed()
22067 + * or getLocsReallyUsedMulti().
22068 + * \return std::vector<std::string> - a sequence of names of all localizations.
22070 +std::vector<std::string> MEDFileFieldGlobsReal::getLocs() const
22072 + return contentNotNull()->getLocs();
22076 + * Checks if the profile with a given name exists.
22077 + * \param [in] pflName - the profile name of interest.
22078 + * \return bool - \c true if the profile named \a pflName exists.
22080 +bool MEDFileFieldGlobsReal::existsPfl(const std::string& pflName) const
22082 + return contentNotNull()->existsPfl(pflName);
22086 + * Checks if the localization with a given name exists.
22087 + * \param [in] locName - the localization name of interest.
22088 + * \return bool - \c true if the localization named \a locName exists.
22090 +bool MEDFileFieldGlobsReal::existsLoc(const std::string& locName) const
22092 + return contentNotNull()->existsLoc(locName);
22095 +std::string MEDFileFieldGlobsReal::createNewNameOfPfl() const
22097 + return contentNotNull()->createNewNameOfPfl();
22100 +std::string MEDFileFieldGlobsReal::createNewNameOfLoc() const
22102 + return contentNotNull()->createNewNameOfLoc();
22106 + * Sets the name of a MED file.
22107 + * \param [inout] fileName - the file name.
22109 +void MEDFileFieldGlobsReal::setFileName(const std::string& fileName)
22111 + contentNotNull()->setFileName(fileName);
22115 + * Finds equal profiles. Two profiles are considered equal if they contain the same ids
22116 + * in the same order.
22117 + * \return std::vector< std::vector<int> > - a sequence of groups of equal profiles.
22118 + * Each item of this sequence is a vector containing ids of equal profiles.
22120 +std::vector< std::vector<int> > MEDFileFieldGlobsReal::whichAreEqualProfiles() const
22122 + return contentNotNull()->whichAreEqualProfiles();
22126 + * Finds equal localizations.
22127 + * \param [in] eps - a precision used to compare real values of the localizations.
22128 + * \return std::vector< std::vector<int> > - a sequence of groups of equal localizations.
22129 + * Each item of this sequence is a vector containing ids of equal localizations.
22131 +std::vector< std::vector<int> > MEDFileFieldGlobsReal::whichAreEqualLocs(double eps) const
22133 + return contentNotNull()->whichAreEqualLocs(eps);
22137 + * Renames the profiles. References to profiles (a reference is a profile name) are not changed.
22138 + * \param [in] mapOfModif - a sequence describing required renaming. Each element of
22139 + * this sequence is a pair whose
22140 + * - the first item is a vector of profile names to replace by the second item,
22141 + * - the second item is a profile name to replace every profile name of the first item.
22143 +void MEDFileFieldGlobsReal::changePflsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
22145 + contentNotNull()->changePflsNamesInStruct(mapOfModif);
22149 + * Renames the localizations. References to localizations (a reference is a localization name) are not changed.
22150 + * \param [in] mapOfModif - a sequence describing required renaming. Each element of
22151 + * this sequence is a pair whose
22152 + * - the first item is a vector of localization names to replace by the second item,
22153 + * - the second item is a localization name to replace every localization name of the first item.
22155 +void MEDFileFieldGlobsReal::changeLocsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
22157 + contentNotNull()->changeLocsNamesInStruct(mapOfModif);
22161 + * Replaces references to some profiles (a reference is a profile name) by references
22162 + * to other profiles and, contrary to changePflsRefsNamesGen(), renames the profiles
22163 + * them-selves accordingly. <br>
22164 + * This method is a generalization of changePflName().
22165 + * \param [in] mapOfModif - a sequence describing required replacements. Each element of
22166 + * this sequence is a pair whose
22167 + * - the first item is a vector of profile names to replace by the second item,
22168 + * - the second item is a profile name to replace every profile of the first item.
22169 + * \sa changePflsRefsNamesGen()
22170 + * \sa changePflName()
22172 +void MEDFileFieldGlobsReal::changePflsNames(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
22174 + changePflsRefsNamesGen(mapOfModif);
22175 + changePflsNamesInStruct(mapOfModif);
22179 + * Replaces references to some localizations (a reference is a localization name) by references
22180 + * to other localizations and, contrary to changeLocsRefsNamesGen(), renames the localizations
22181 + * them-selves accordingly. <br>
22182 + * This method is a generalization of changeLocName().
22183 + * \param [in] mapOfModif - a sequence describing required replacements. Each element of
22184 + * this sequence is a pair whose
22185 + * - the first item is a vector of localization names to replace by the second item,
22186 + * - the second item is a localization name to replace every localization of the first item.
22187 + * \sa changeLocsRefsNamesGen()
22188 + * \sa changeLocName()
22190 +void MEDFileFieldGlobsReal::changeLocsNames(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
22192 + changeLocsRefsNamesGen(mapOfModif);
22193 + changeLocsNamesInStruct(mapOfModif);
22197 + * Renames the profile having a given name and updates references to this profile.
22198 + * \param [in] oldName - the name of the profile to rename.
22199 + * \param [in] newName - a new name of the profile.
22200 + * \sa changePflsNames().
22202 +void MEDFileFieldGlobsReal::changePflName(const std::string& oldName, const std::string& newName)
22204 + std::vector< std::pair<std::vector<std::string>, std::string > > mapOfModif(1);
22205 + std::pair<std::vector<std::string>, std::string > p(std::vector<std::string>(1,std::string(oldName)),std::string(newName));
22207 + changePflsNames(mapOfModif);
22211 + * Renames the localization having a given name and updates references to this localization.
22212 + * \param [in] oldName - the name of the localization to rename.
22213 + * \param [in] newName - a new name of the localization.
22214 + * \sa changeLocsNames().
22216 +void MEDFileFieldGlobsReal::changeLocName(const std::string& oldName, const std::string& newName)
22218 + std::vector< std::pair<std::vector<std::string>, std::string > > mapOfModif(1);
22219 + std::pair<std::vector<std::string>, std::string > p(std::vector<std::string>(1,std::string(oldName)),std::string(newName));
22221 + changeLocsNames(mapOfModif);
22225 + * Removes duplicated profiles. Returns a map used to update references to removed
22226 + * profiles via changePflsRefsNamesGen().
22227 + * Equal profiles are found using whichAreEqualProfiles().
22228 + * \return std::vector< std::pair<std::vector<std::string>, std::string > > -
22229 + * a sequence describing the performed replacements of profiles. Each element of
22230 + * this sequence is a pair whose
22231 + * - the first item is a vector of profile names replaced by the second item,
22232 + * - the second item is a profile name replacing every profile of the first item.
22234 +std::vector< std::pair<std::vector<std::string>, std::string > > MEDFileFieldGlobsReal::zipPflsNames()
22236 + std::vector< std::vector<int> > pseudoRet=whichAreEqualProfiles();
22237 + std::vector< std::pair<std::vector<std::string>, std::string > > ret(pseudoRet.size());
22239 + for(std::vector< std::vector<int> >::const_iterator it=pseudoRet.begin();it!=pseudoRet.end();it++,i++)
22241 + std::vector< std::string > tmp((*it).size());
22243 + for(std::vector<int>::const_iterator it2=(*it).begin();it2!=(*it).end();it2++,j++)
22244 + tmp[j]=std::string(getProfileFromId(*it2)->getName());
22245 + std::pair<std::vector<std::string>, std::string > p(tmp,tmp.front());
22247 + std::vector<int> tmp2((*it).begin()+1,(*it).end());
22248 + killProfileIds(tmp2);
22250 + changePflsRefsNamesGen(ret);
22255 + * Removes duplicated localizations. Returns a map used to update references to removed
22256 + * localizations via changeLocsRefsNamesGen().
22257 + * Equal localizations are found using whichAreEqualLocs().
22258 + * \param [in] eps - a precision used to compare real values of the localizations.
22259 + * \return std::vector< std::pair<std::vector<std::string>, std::string > > -
22260 + * a sequence describing the performed replacements of localizations. Each element of
22261 + * this sequence is a pair whose
22262 + * - the first item is a vector of localization names replaced by the second item,
22263 + * - the second item is a localization name replacing every localization of the first item.
22265 +std::vector< std::pair<std::vector<std::string>, std::string > > MEDFileFieldGlobsReal::zipLocsNames(double eps)
22267 + std::vector< std::vector<int> > pseudoRet=whichAreEqualLocs(eps);
22268 + std::vector< std::pair<std::vector<std::string>, std::string > > ret(pseudoRet.size());
22270 + for(std::vector< std::vector<int> >::const_iterator it=pseudoRet.begin();it!=pseudoRet.end();it++,i++)
22272 + std::vector< std::string > tmp((*it).size());
22274 + for(std::vector<int>::const_iterator it2=(*it).begin();it2!=(*it).end();it2++,j++)
22275 + tmp[j]=std::string(getLocalizationFromId(*it2).getName());
22276 + std::pair<std::vector<std::string>, std::string > p(tmp,tmp.front());
22278 + std::vector<int> tmp2((*it).begin()+1,(*it).end());
22279 + killLocalizationIds(tmp2);
22281 + changeLocsRefsNamesGen(ret);
22286 + * Returns number of Gauss points per cell in a given localization.
22287 + * \param [in] locId - an id of the localization of interest.
22288 + * \return int - the number of the Gauss points per cell.
22290 +int MEDFileFieldGlobsReal::getNbOfGaussPtPerCell(int locId) const
22292 + return contentNotNull()->getNbOfGaussPtPerCell(locId);
22296 + * Returns an id of a localization by its name.
22297 + * \param [in] loc - the localization name of interest.
22298 + * \return int - the id of the localization.
22299 + * \throw If there is no a localization named \a loc.
22301 +int MEDFileFieldGlobsReal::getLocalizationId(const std::string& loc) const
22303 + return contentNotNull()->getLocalizationId(loc);
22307 + * Returns an id of a profile by its name.
22308 + * \param [in] loc - the profile name of interest.
22309 + * \return int - the id of the profile.
22310 + * \throw If there is no a profile named \a loc.
22312 +int MEDFileFieldGlobsReal::getProfileId(const std::string& pfl) const
22314 + return contentNotNull()->getProfileId(pfl);
22318 + * Returns the name of the MED file.
22319 + * \return const std::string& - the MED file name.
22321 +std::string MEDFileFieldGlobsReal::getFileName() const
22323 + return contentNotNull()->getFileName();
22327 + * Returns a localization object by its name.
22328 + * \param [in] locName - the name of the localization of interest.
22329 + * \return const MEDFileFieldLoc& - the localization object having the name \a locName.
22330 + * \throw If there is no a localization named \a locName.
22332 +const MEDFileFieldLoc& MEDFileFieldGlobsReal::getLocalization(const std::string& locName) const
22334 + return contentNotNull()->getLocalization(locName);
22338 + * Returns a localization object by its id.
22339 + * \param [in] locId - the id of the localization of interest.
22340 + * \return const MEDFileFieldLoc& - the localization object having the id \a locId.
22341 + * \throw If there is no a localization with id \a locId.
22343 +const MEDFileFieldLoc& MEDFileFieldGlobsReal::getLocalizationFromId(int locId) const
22345 + return contentNotNull()->getLocalizationFromId(locId);
22349 + * Returns a profile array by its name.
22350 + * \param [in] pflName - the name of the profile of interest.
22351 + * \return const DataArrayInt * - the profile array having the name \a pflName.
22352 + * \throw If there is no a profile named \a pflName.
22354 +const DataArrayInt *MEDFileFieldGlobsReal::getProfile(const std::string& pflName) const
22356 + return contentNotNull()->getProfile(pflName);
22360 + * Returns a profile array by its id.
22361 + * \param [in] pflId - the id of the profile of interest.
22362 + * \return const DataArrayInt * - the profile array having the id \a pflId.
22363 + * \throw If there is no a profile with id \a pflId.
22365 +const DataArrayInt *MEDFileFieldGlobsReal::getProfileFromId(int pflId) const
22367 + return contentNotNull()->getProfileFromId(pflId);
22371 + * Returns a localization object, apt for modification, by its id.
22372 + * \param [in] locId - the id of the localization of interest.
22373 + * \return MEDFileFieldLoc& - a non-const reference to the localization object
22374 + * having the id \a locId.
22375 + * \throw If there is no a localization with id \a locId.
22377 +MEDFileFieldLoc& MEDFileFieldGlobsReal::getLocalizationFromId(int locId)
22379 + return contentNotNull()->getLocalizationFromId(locId);
22383 + * Returns a localization object, apt for modification, by its name.
22384 + * \param [in] locName - the name of the localization of interest.
22385 + * \return MEDFileFieldLoc& - a non-const reference to the localization object
22386 + * having the name \a locName.
22387 + * \throw If there is no a localization named \a locName.
22389 +MEDFileFieldLoc& MEDFileFieldGlobsReal::getLocalization(const std::string& locName)
22391 + return contentNotNull()->getLocalization(locName);
22395 + * Returns a profile array, apt for modification, by its name.
22396 + * \param [in] pflName - the name of the profile of interest.
22397 + * \return DataArrayInt * - Borrowed reference - a non-const pointer to the profile array having the name \a pflName.
22398 + * \throw If there is no a profile named \a pflName.
22400 +DataArrayInt *MEDFileFieldGlobsReal::getProfile(const std::string& pflName)
22402 + return contentNotNull()->getProfile(pflName);
22406 + * Returns a profile array, apt for modification, by its id.
22407 + * \param [in] pflId - the id of the profile of interest.
22408 + * \return DataArrayInt * - Borrowed reference - a non-const pointer to the profile array having the id \a pflId.
22409 + * \throw If there is no a profile with id \a pflId.
22411 +DataArrayInt *MEDFileFieldGlobsReal::getProfileFromId(int pflId)
22413 + return contentNotNull()->getProfileFromId(pflId);
22417 + * Removes profiles given by their ids. No data is updated to track this removal.
22418 + * \param [in] pflIds - a sequence of ids of the profiles to remove.
22420 +void MEDFileFieldGlobsReal::killProfileIds(const std::vector<int>& pflIds)
22422 + contentNotNull()->killProfileIds(pflIds);
22426 + * Removes localizations given by their ids. No data is updated to track this removal.
22427 + * \param [in] locIds - a sequence of ids of the localizations to remove.
22429 +void MEDFileFieldGlobsReal::killLocalizationIds(const std::vector<int>& locIds)
22431 + contentNotNull()->killLocalizationIds(locIds);
22435 + * Stores a profile array.
22436 + * \param [in] pfl - the profile array to store.
22437 + * \throw If the name of \a pfl is empty.
22438 + * \throw If a profile with the same name as that of \a pfl already exists but contains
22441 +void MEDFileFieldGlobsReal::appendProfile(DataArrayInt *pfl)
22443 + contentNotNull()->appendProfile(pfl);
22447 + * Adds a new localization of Gauss points.
22448 + * \param [in] locName - the name of the new localization.
22449 + * \param [in] geoType - a geometrical type of the reference cell.
22450 + * \param [in] refCoo - coordinates of points of the reference cell. Size of this vector
22451 + * must be \c nbOfNodesPerCell * \c dimOfType.
22452 + * \param [in] gsCoo - coordinates of Gauss points on the reference cell. Size of this vector
22453 + * must be _wg_.size() * \c dimOfType.
22454 + * \param [in] w - the weights of Gauss points.
22455 + * \throw If \a locName is empty.
22456 + * \throw If a localization with the name \a locName already exists but is
22457 + * different form the new one.
22459 +void MEDFileFieldGlobsReal::appendLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w)
22461 + contentNotNull()->appendLoc(locName,geoType,refCoo,gsCoo,w);
22464 +MEDFileFieldGlobs *MEDFileFieldGlobsReal::contentNotNull()
22466 + MEDFileFieldGlobs *g(_globals);
22468 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobsReal::contentNotNull : no content in not const !");
22472 +const MEDFileFieldGlobs *MEDFileFieldGlobsReal::contentNotNull() const
22474 + const MEDFileFieldGlobs *g(_globals);
22476 + throw INTERP_KERNEL::Exception("MEDFileFieldGlobsReal::contentNotNull : no content in const !");
22480 +//= MEDFileFieldNameScope
22482 +MEDFileFieldNameScope::MEDFileFieldNameScope()
22486 +MEDFileFieldNameScope::MEDFileFieldNameScope(const std::string& fieldName, const std::string& meshName):_name(fieldName),_mesh_name(meshName)
22491 + * Returns the name of \a this field.
22492 + * \return std::string - a string containing the field name.
22494 +std::string MEDFileFieldNameScope::getName() const
22500 + * Sets name of \a this field
22501 + * \param [in] name - the new field name.
22503 +void MEDFileFieldNameScope::setName(const std::string& fieldName)
22508 +std::string MEDFileFieldNameScope::getDtUnit() const
22513 +void MEDFileFieldNameScope::setDtUnit(const std::string& dtUnit)
22518 +void MEDFileFieldNameScope::copyNameScope(const MEDFileFieldNameScope& other)
22520 + _name=other._name;
22521 + _mesh_name=other._mesh_name;
22522 + _dt_unit=other._dt_unit;
22526 + * Returns the mesh name.
22527 + * \return std::string - a string holding the mesh name.
22528 + * \throw If \c _field_per_mesh.empty()
22530 +std::string MEDFileFieldNameScope::getMeshName() const
22532 + return _mesh_name;
22535 +void MEDFileFieldNameScope::setMeshName(const std::string& meshName)
22537 + _mesh_name=meshName;
22540 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileFieldGlobs.hxx MEDCOUPLING_new/src/MEDLoader/MEDFileFieldGlobs.hxx
22541 --- MEDCOUPLING_old/src/MEDLoader/MEDFileFieldGlobs.hxx 1970-01-01 01:00:00.000000000 +0100
22542 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileFieldGlobs.hxx 2018-04-19 17:25:17.835799294 +0200
22544 +// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
22546 +// This library is free software; you can redistribute it and/or
22547 +// modify it under the terms of the GNU Lesser General Public
22548 +// License as published by the Free Software Foundation; either
22549 +// version 2.1 of the License, or (at your option) any later version.
22551 +// This library is distributed in the hope that it will be useful,
22552 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
22553 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
22554 +// Lesser General Public License for more details.
22556 +// You should have received a copy of the GNU Lesser General Public
22557 +// License along with this library; if not, write to the Free Software
22558 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
22560 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
22562 +// Author : Anthony Geay (EDF R&D)
22564 +#ifndef __MEDFILEFIELDGLOBS_HXX__
22565 +#define __MEDFILEFIELDGLOBS_HXX__
22567 +#include "MEDLoaderDefines.hxx"
22569 +#include "NormalizedGeometricTypes"
22570 +#include "MEDCouplingMemArray.hxx"
22571 +#include "MCAuto.hxx"
22575 +namespace MEDCoupling
22577 + class MEDFileFieldGlobsReal;
22578 + class MEDFileEntities;
22579 + class MEDFileWritable;
22580 + class MEDFileFieldLoc;
22582 + class MEDFileFieldGlobs : public RefCountObject
22585 + static MEDFileFieldGlobs *New(med_idt fid);
22586 + static MEDFileFieldGlobs *New();
22587 + std::size_t getHeapMemorySizeWithoutChildren() const;
22588 + std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
22589 + MEDFileFieldGlobs *deepCopy() const;
22590 + MEDFileFieldGlobs *shallowCpyPart(const std::vector<std::string>& pfls, const std::vector<std::string>& locs) const;
22591 + MEDFileFieldGlobs *deepCpyPart(const std::vector<std::string>& pfls, const std::vector<std::string>& locs) const;
22592 + void simpleRepr(std::ostream& oss) const;
22593 + void appendGlobs(const MEDFileFieldGlobs& other, double eps);
22594 + void checkGlobsPflsPartCoherency(const std::vector<std::string>& pflsUsed) const;
22595 + void checkGlobsLocsPartCoherency(const std::vector<std::string>& locsUsed) const;
22596 + void loadProfileInFile(med_idt fid, int id, const std::string& pflName);
22597 + void loadProfileInFile(med_idt fid, int id);
22598 + void loadGlobals(med_idt fid, const MEDFileFieldGlobsReal& real);
22599 + void loadAllGlobals(med_idt fid, const MEDFileEntities *entities);
22600 + void writeGlobals(med_idt fid, const MEDFileWritable& opt) const;
22601 + std::vector<std::string> getPfls() const;
22602 + std::vector<std::string> getLocs() const;
22603 + bool existsPfl(const std::string& pflName) const;
22604 + bool existsLoc(const std::string& locName) const;
22605 + std::string createNewNameOfPfl() const;
22606 + std::string createNewNameOfLoc() const;
22607 + std::vector< std::vector<int> > whichAreEqualProfiles() const;
22608 + std::vector< std::vector<int> > whichAreEqualLocs(double eps) const;
22609 + void setFileName(const std::string& fileName) { _file_name=fileName; }
22610 + void changePflsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
22611 + void changeLocsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
22612 + int getNbOfGaussPtPerCell(int locId) const;
22613 + int getLocalizationId(const std::string& loc) const;
22614 + int getProfileId(const std::string& pfl) const;
22615 + std::string getFileName() const { return _file_name; }
22616 + const MEDFileFieldLoc& getLocalizationFromId(int locId) const;
22617 + const MEDFileFieldLoc& getLocalization(const std::string& locName) const;
22618 + const DataArrayInt *getProfileFromId(int pflId) const;
22619 + const DataArrayInt *getProfile(const std::string& pflName) const;
22620 + MEDFileFieldLoc& getLocalizationFromId(int locId);
22621 + MEDFileFieldLoc& getLocalization(const std::string& locName);
22622 + DataArrayInt *getProfile(const std::string& pflName);
22623 + DataArrayInt *getProfileFromId(int pflId);
22624 + void killProfileIds(const std::vector<int>& pflIds);
22625 + void killLocalizationIds(const std::vector<int>& locIds);
22626 + void killStructureElementsInGlobs();
22628 + void appendProfile(DataArrayInt *pfl);
22629 + void appendLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w);
22631 + static std::string CreateNewNameNotIn(const std::string& prefix, const std::vector<std::string>& namesToAvoid);
22633 + MEDFileFieldGlobs(med_idt fid);
22634 + MEDFileFieldGlobs();
22635 + ~MEDFileFieldGlobs();
22637 + std::vector< MCAuto<DataArrayInt> > _pfls;
22638 + std::vector< MCAuto<MEDFileFieldLoc> > _locs;
22639 + std::string _file_name;
22642 + /// @endcond INTERNAL
22644 + class MEDFileFieldGlobsReal
22647 + MEDLOADER_EXPORT MEDFileFieldGlobsReal(med_idt fid);
22648 + MEDLOADER_EXPORT MEDFileFieldGlobsReal();
22649 + MEDLOADER_EXPORT std::size_t getHeapMemorySizeWithoutChildren() const;
22650 + MEDLOADER_EXPORT std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
22651 + MEDLOADER_EXPORT void simpleReprGlobs(std::ostream& oss) const;
22652 + MEDLOADER_EXPORT void resetContent();
22653 + MEDLOADER_EXPORT void killStructureElementsInGlobs();
22654 + MEDLOADER_EXPORT void shallowCpyGlobs(const MEDFileFieldGlobsReal& other);
22655 + MEDLOADER_EXPORT void deepCpyGlobs(const MEDFileFieldGlobsReal& other);
22656 + MEDLOADER_EXPORT void shallowCpyOnlyUsedGlobs(const MEDFileFieldGlobsReal& other);
22657 + MEDLOADER_EXPORT void deepCpyOnlyUsedGlobs(const MEDFileFieldGlobsReal& other);
22658 + MEDLOADER_EXPORT void appendGlobs(const MEDFileFieldGlobsReal& other, double eps);
22659 + MEDLOADER_EXPORT void checkGlobsCoherency() const;
22660 + MEDLOADER_EXPORT void checkGlobsPflsPartCoherency() const;
22661 + MEDLOADER_EXPORT void checkGlobsLocsPartCoherency() const;
22662 + MEDLOADER_EXPORT virtual std::vector<std::string> getPflsReallyUsed() const = 0;
22663 + MEDLOADER_EXPORT virtual std::vector<std::string> getLocsReallyUsed() const = 0;
22664 + MEDLOADER_EXPORT virtual std::vector<std::string> getPflsReallyUsedMulti() const = 0;
22665 + MEDLOADER_EXPORT virtual std::vector<std::string> getLocsReallyUsedMulti() const = 0;
22666 + MEDLOADER_EXPORT virtual void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif) = 0;
22667 + MEDLOADER_EXPORT virtual void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif) = 0;
22668 + MEDLOADER_EXPORT virtual ~MEDFileFieldGlobsReal();
22670 + MEDLOADER_EXPORT void loadProfileInFile(med_idt fid, int id, const std::string& pflName);
22671 + MEDLOADER_EXPORT void loadProfileInFile(med_idt fid, int id);
22672 + MEDLOADER_EXPORT void loadGlobals(med_idt fid);
22673 + MEDLOADER_EXPORT void loadAllGlobals(med_idt fid, const MEDFileEntities *entities=0);
22674 + MEDLOADER_EXPORT void writeGlobals(med_idt fid, const MEDFileWritable& opt) const;
22675 + MEDLOADER_EXPORT std::vector<std::string> getPfls() const;
22676 + MEDLOADER_EXPORT std::vector<std::string> getLocs() const;
22677 + MEDLOADER_EXPORT bool existsPfl(const std::string& pflName) const;
22678 + MEDLOADER_EXPORT bool existsLoc(const std::string& locName) const;
22679 + MEDLOADER_EXPORT std::string createNewNameOfPfl() const;
22680 + MEDLOADER_EXPORT std::string createNewNameOfLoc() const;
22681 + MEDLOADER_EXPORT std::vector< std::vector<int> > whichAreEqualProfiles() const;
22682 + MEDLOADER_EXPORT std::vector< std::vector<int> > whichAreEqualLocs(double eps) const;
22683 + MEDLOADER_EXPORT void setFileName(const std::string& fileName);
22684 + MEDLOADER_EXPORT void changePflsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
22685 + MEDLOADER_EXPORT void changeLocsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
22686 + MEDLOADER_EXPORT void changePflsNames(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
22687 + MEDLOADER_EXPORT void changeLocsNames(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
22688 + MEDLOADER_EXPORT void changePflName(const std::string& oldName, const std::string& newName);
22689 + MEDLOADER_EXPORT void changeLocName(const std::string& oldName, const std::string& newName);
22690 + MEDLOADER_EXPORT std::vector< std::pair<std::vector<std::string>, std::string > > zipPflsNames();
22691 + MEDLOADER_EXPORT std::vector< std::pair<std::vector<std::string>, std::string > > zipLocsNames(double eps);
22692 + MEDLOADER_EXPORT int getNbOfGaussPtPerCell(int locId) const;
22693 + MEDLOADER_EXPORT int getLocalizationId(const std::string& loc) const;
22694 + MEDLOADER_EXPORT int getProfileId(const std::string& pfl) const;
22695 + MEDLOADER_EXPORT std::string getFileName() const;
22696 + MEDLOADER_EXPORT const MEDFileFieldLoc& getLocalizationFromId(int locId) const;
22697 + MEDLOADER_EXPORT const MEDFileFieldLoc& getLocalization(const std::string& locName) const;
22698 + MEDLOADER_EXPORT MEDFileFieldLoc& getLocalizationFromId(int locId);
22699 + MEDLOADER_EXPORT MEDFileFieldLoc& getLocalization(const std::string& locName);
22700 + MEDLOADER_EXPORT const DataArrayInt *getProfile(const std::string& pflName) const;
22701 + MEDLOADER_EXPORT const DataArrayInt *getProfileFromId(int pflId) const;
22702 + MEDLOADER_EXPORT DataArrayInt *getProfile(const std::string& pflName);
22703 + MEDLOADER_EXPORT DataArrayInt *getProfileFromId(int pflId);
22704 + MEDLOADER_EXPORT void killProfileIds(const std::vector<int>& pflIds);
22705 + MEDLOADER_EXPORT void killLocalizationIds(const std::vector<int>& locIds);
22707 + MEDLOADER_EXPORT void appendProfile(DataArrayInt *pfl);
22708 + MEDLOADER_EXPORT void appendLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w);
22710 + MEDFileFieldGlobs *contentNotNull();
22711 + const MEDFileFieldGlobs *contentNotNull() const;
22713 + MCAuto< MEDFileFieldGlobs > _globals;
22716 + class MEDFileFieldNameScope
22719 + MEDLOADER_EXPORT MEDFileFieldNameScope();
22720 + MEDLOADER_EXPORT MEDFileFieldNameScope(const std::string& fieldName, const std::string& meshName);
22721 + MEDLOADER_EXPORT std::string getName() const;
22722 + MEDLOADER_EXPORT void setName(const std::string& fieldName);
22723 + MEDLOADER_EXPORT std::string getDtUnit() const;
22724 + MEDLOADER_EXPORT void setDtUnit(const std::string& dtUnit);
22725 + MEDLOADER_EXPORT void copyNameScope(const MEDFileFieldNameScope& other);
22726 + MEDLOADER_EXPORT std::string getMeshName() const;
22727 + MEDLOADER_EXPORT void setMeshName(const std::string& meshName);
22729 + std::string _name;
22730 + std::string _dt_unit;
22731 + std::string _mesh_name;
22736 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileField.hxx MEDCOUPLING_new/src/MEDLoader/MEDFileField.hxx
22737 --- MEDCOUPLING_old/src/MEDLoader/MEDFileField.hxx 2018-04-19 17:04:36.757223122 +0200
22738 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileField.hxx 2018-04-19 17:25:17.821799017 +0200
22741 #include "MEDLoaderDefines.hxx"
22743 +#include "MEDFileFieldInternal.hxx"
22744 +#include "MEDFileFieldGlobs.hxx"
22745 +#include "MEDFileField1TS.hxx"
22746 +#include "MEDFileFieldMultiTS.hxx"
22748 #include "MEDFileFieldOverView.hxx"
22749 #include "MEDFileUtilities.txx"
22750 #include "MEDFileEntities.hxx"
22751 @@ -53,1326 +58,8 @@
22753 class MEDFileFieldVisitor;
22755 - class MEDFileGTKeeper
22758 - virtual MEDFileGTKeeper *deepCopy() const = 0;
22759 - virtual INTERP_KERNEL::NormalizedCellType getGeoType() const = 0;
22760 - virtual std::string getRepr() const = 0;
22761 - virtual bool isEqual(const MEDFileGTKeeper *other) const = 0;
22762 - virtual ~MEDFileGTKeeper();
22765 - class MEDFileGTKeeperSta : public MEDFileGTKeeper
22768 - MEDFileGTKeeperSta(INTERP_KERNEL::NormalizedCellType gt):_geo_type(gt) { }
22769 - MEDFileGTKeeper *deepCopy() const;
22770 - INTERP_KERNEL::NormalizedCellType getGeoType() const;
22771 - std::string getRepr() const;
22772 - bool isEqual(const MEDFileGTKeeper *other) const;
22774 - INTERP_KERNEL::NormalizedCellType _geo_type;
22778 - class MEDFileGTKeeperDyn : public MEDFileGTKeeper
22781 - MEDFileGTKeeperDyn(const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileStructureElement *se);
22782 - MEDFileGTKeeper *deepCopy() const;
22783 - INTERP_KERNEL::NormalizedCellType getGeoType() const;
22784 - std::string getRepr() const;
22785 - bool isEqual(const MEDFileGTKeeper *other) const;
22786 - const MEDFileUMesh *getMesh() const { return _mesh; }
22787 - const MEDFileUMesh *getSection() const { return _section; }
22788 - const MEDFileStructureElement *getSE() const { return _se; }
22790 - MCConstAuto<MEDFileUMesh> _mesh;
22791 - MCConstAuto<MEDFileUMesh> _section;
22792 - MCConstAuto<MEDFileStructureElement> _se;
22795 - class MEDFileFieldLoc : public RefCountObject
22798 - MEDLOADER_EXPORT void simpleRepr(std::ostream& oss) const;
22799 - MEDLOADER_EXPORT std::string getName() const { return _name; }
22800 - MEDLOADER_EXPORT void setName(const std::string& name);
22801 - static MEDFileFieldLoc *New(med_idt fid, const std::string& locName);
22802 - static MEDFileFieldLoc *New(med_idt fid, int i, const MEDFileEntities *entities);
22803 - static MEDFileFieldLoc *New(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w);
22804 - std::size_t getHeapMemorySizeWithoutChildren() const;
22805 - std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
22806 - MEDFileFieldLoc *deepCopy() const;
22807 - bool isOnStructureElement() const;
22808 - const MEDFileGTKeeper *getUndergroundGTKeeper() const { return _gt; }
22809 - MEDLOADER_EXPORT int getNbOfGaussPtPerCell() const { return _nb_gauss_pt; }
22810 - MEDLOADER_EXPORT void writeLL(med_idt fid) const;
22811 - MEDLOADER_EXPORT std::string repr() const;
22812 - MEDLOADER_EXPORT bool isName(const std::string& name) const { return _name==name; }
22813 - MEDLOADER_EXPORT int getDimension() const { return _dim; }
22814 - MEDLOADER_EXPORT int getNumberOfGaussPoints() const { return _nb_gauss_pt; }
22815 - MEDLOADER_EXPORT int getNumberOfPointsInCells() const { return _nb_node_per_cell; }
22816 - MEDLOADER_EXPORT const std::vector<double>& getRefCoords() const { return _ref_coo; }
22817 - MEDLOADER_EXPORT const std::vector<double>& getGaussCoords() const { return _gs_coo; }
22818 - MEDLOADER_EXPORT const std::vector<double>& getGaussWeights() const { return _w; }
22819 - MEDLOADER_EXPORT INTERP_KERNEL::NormalizedCellType getGeoType() const { return _gt->getGeoType(); }
22820 - MEDLOADER_EXPORT bool isEqual(const MEDFileFieldLoc& other, double eps) const;
22822 - MEDFileFieldLoc(const MEDFileFieldLoc& other);
22823 - MEDFileFieldLoc(med_idt fid, const std::string& locName);
22824 - MEDFileFieldLoc(med_idt fid, int id, const MEDFileEntities *entities);
22825 - MEDFileFieldLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w);
22828 - int _nb_gauss_pt;
22829 - INTERP_KERNEL::AutoCppPtr<MEDFileGTKeeper> _gt;
22830 - int _nb_node_per_cell;
22831 - std::string _name;
22832 - std::vector<double> _ref_coo;
22833 - std::vector<double> _gs_coo;
22834 - std::vector<double> _w;
22837 - /// @cond INTERNAL
22838 - class MEDFileAnyTypeField1TSWithoutSDA;
22839 - class MEDFileFieldPerMeshPerTypeCommon;
22840 - class MEDFileFieldPerMeshPerType;
22841 - class MEDFileField1TSWithoutSDA;
22842 - class MEDFileFieldNameScope;
22843 - class MEDFileFieldGlobsReal;
22844 - class MEDFileFieldPerMesh;
22846 - class MEDFileFieldPerMeshPerTypePerDisc : public RefCountObject, public MEDFileWritable
22849 - static MEDFileFieldPerMeshPerTypePerDisc *NewOnRead(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int profileIt, const PartDefinition *pd);
22850 - static MEDFileFieldPerMeshPerTypePerDisc *New(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int locId);
22851 - static MEDFileFieldPerMeshPerTypePerDisc *New(const MEDFileFieldPerMeshPerTypePerDisc& other);
22852 - std::size_t getHeapMemorySizeWithoutChildren() const;
22853 - std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
22854 - MEDFileFieldPerMeshPerTypePerDisc *deepCopy(MEDFileFieldPerMeshPerTypeCommon *father) const;
22855 - void assignFieldNoProfile(int& start, int offset, int nbOfCells, const MEDCouplingFieldTemplate *field, const DataArray *arrr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
22856 - void assignFieldProfile(bool isPflAlone, int& start, const DataArrayInt *multiTypePfl, const DataArrayInt *idsInPfl, DataArrayInt *locIds, int nbOfEltsInWholeMesh, const MEDCouplingFieldTemplate *field, const DataArray *arrr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
22857 - void assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arrr, MEDFileFieldGlobsReal& glob);
22858 - void getCoarseData(TypeOfField& type, std::pair<int,int>& dad, std::string& pfl, std::string& loc) const;
22859 - void writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const;
22860 - const MEDFileFieldPerMeshPerTypeCommon *getFather() const;
22861 - void loadOnlyStructureOfDataRecursively(med_idt fid, int& start, const MEDFileFieldNameScope& nasc);
22862 - void loadBigArray(med_idt fid, const MEDFileFieldNameScope& nasc);
22863 - void setNewStart(int newValueOfStart);
22864 - int getIteration() const;
22865 - int getOrder() const;
22866 - double getTime() const;
22867 - std::string getMeshName() const;
22868 - TypeOfField getType() const;
22869 - void simpleRepr(int bkOffset, std::ostream& oss, int id) const;
22870 - void fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const;
22871 - void setType(TypeOfField newType);
22872 - INTERP_KERNEL::NormalizedCellType getGeoType() const;
22873 - int getNumberOfComponents() const;
22874 - int getNumberOfTuples() const;
22875 - int getStart() const { return _start; }
22876 - int getEnd() const { return _end; }
22877 - void setEnd(int endd) { _end=endd; }
22878 - int getNumberOfVals() const { return _nval; }
22879 - DataArray *getOrCreateAndGetArray();
22880 - const DataArray *getOrCreateAndGetArray() const;
22881 - const std::vector<std::string>& getInfo() const;
22882 - std::string getProfile() const;
22883 - void setProfile(const std::string& newPflName);
22884 - std::string getLocalization() const;
22885 - void setLocalization(const std::string& newLocName);
22886 - int getLocId() const { return _loc_id; }
22887 - void setLocId(int newId) const { _loc_id=newId; }
22888 - void setFather(MEDFileFieldPerMeshPerTypeCommon *newFather) { _father=newFather; }
22889 - void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
22890 - void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
22891 - void getFieldAtLevel(TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs,
22892 - std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const;
22893 - void fillValues(int discId, int& startEntryId, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
22894 - int fillEltIdsFromCode(int offset, const std::vector<int>& codeOfMesh, const MEDFileFieldGlobsReal& glob, int *ptToFill) const;
22895 - int fillTupleIds(int *ptToFill) const;
22896 - static int ConvertType(TypeOfField type, int locId);
22897 - static std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> > SplitPerDiscretization(const std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>& entries);
22898 - static bool RenumberChunks(int offset, const std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>& entriesOnSameDisc,
22899 - const DataArrayInt *explicitIdsInMesh, const std::vector<int>& newCode,
22900 - MEDFileFieldGlobsReal& glob, DataArrayDouble *arr, std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >& result);
22901 - static MEDFileFieldPerMeshPerTypePerDisc *NewObjectOnSameDiscThanPool(TypeOfField typeF, INTERP_KERNEL::NormalizedCellType geoType, DataArrayInt *idsOfMeshElt,
22902 - bool isPfl, int nbi, int offset, std::list< const MEDFileFieldPerMeshPerTypePerDisc *>& entriesOnSameDisc,
22903 - MEDFileFieldGlobsReal& glob, bool ¬InExisting);
22904 - static MCAuto<MEDFileFieldPerMeshPerTypePerDisc> Aggregate(int &start, const std::vector<std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc *> >& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, TypeOfField tof, MEDFileFieldPerMeshPerType *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo);
22905 - MEDFileFieldPerMeshPerTypePerDisc(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type):_type(type),_father(fath),_start(-1),_end(-1),_nval(-1),_loc_id(-5),_profile_it(-1) { }
22907 - MEDFileFieldPerMeshPerTypePerDisc(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int profileIt, const PartDefinition *pd);
22908 - MEDFileFieldPerMeshPerTypePerDisc(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int profileIt, const std::string& dummy);
22909 - MEDFileFieldPerMeshPerTypePerDisc(const MEDFileFieldPerMeshPerTypePerDisc& other);
22910 - MEDFileFieldPerMeshPerTypePerDisc();
22912 - void goReadZeValuesInFile(med_idt fid, const std::string& fieldName, int nbOfCompo, int iteration, int order, med_entity_type menti, med_geometry_type mgeoti, unsigned char *startFeedingPtr);
22914 - TypeOfField _type;
22915 - MEDFileFieldPerMeshPerTypeCommon *_father;
22918 - //! _nval is different than end-start in case of ON_GAUSS_PT and ON_GAUSS_NE ! (_nval=(_end-_start)/nbi)
22920 - std::string _profile;
22921 - std::string _localization;
22922 - //! only on assignement -3 : ON_NODES, -2 : ON_CELLS, -1 : ON_GAUSS_NE, 0..* : ON_GAUSS_PT
22923 - mutable int _loc_id;
22924 - mutable int _profile_it;
22925 - MCAuto<PartDefinition> _pd;
22927 - mutable int _tmp_work1;
22930 - class MEDFileFieldPerMeshPerTypeCommon : public RefCountObject, public MEDFileWritable
22933 - std::size_t getHeapMemorySizeWithoutChildren() const;
22934 - std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
22935 - void assignFieldNoProfile(int& start, int offset, int nbOfCells, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
22936 - void assignFieldProfile(bool isPflAlone, int& start, const DataArrayInt *multiTypePfl, const DataArrayInt *idsInPfl, DataArrayInt *locIds, int nbOfEltsInWholeMesh, const MEDCouplingFieldTemplate *field, const DataArray *arr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
22937 - void assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob);
22938 - void assignNodeFieldProfile(int& start, const DataArrayInt *pfl, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
22939 - const MEDFileFieldPerMesh *getFather() const;
22940 - void loadOnlyStructureOfDataRecursively(med_idt fid, int &start, const MEDFileFieldNameScope& nasc);
22941 - void loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc);
22942 - void writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const;
22943 - bool isUniqueLevel(int& dim) const;
22944 - void fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const;
22945 - void fillFieldSplitedByType(std::vector< std::pair<int,int> >& dads, std::vector<TypeOfField>& types, std::vector<std::string>& pfls, std::vector<std::string>& locs) const;
22946 - int getIteration() const;
22947 - int getOrder() const;
22948 - double getTime() const;
22949 - std::string getMeshName() const;
22950 - void getSizes(int& globalSz, int& nbOfEntries) const;
22951 - int getNumberOfComponents() const;
22952 - bool presenceOfMultiDiscPerGeoType() const;
22953 - void pushDiscretization(MEDFileFieldPerMeshPerTypePerDisc *disc);
22954 - DataArray *getOrCreateAndGetArray();
22955 - const DataArray *getOrCreateAndGetArray() const;
22956 - const std::vector<std::string>& getInfo() const;
22957 - std::vector<std::string> getPflsReallyUsed() const;
22958 - std::vector<std::string> getLocsReallyUsed() const;
22959 - std::vector<std::string> getPflsReallyUsedMulti() const;
22960 - std::vector<std::string> getLocsReallyUsedMulti() const;
22961 - void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
22962 - void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
22963 - MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenLocId(int locId);
22964 - const MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenLocId(int locId) const;
22965 - int getNumberOfLoc() const { return _field_pm_pt_pd.size(); }
22966 - void fillValues(int& startEntryId, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
22967 - void setLeaves(const std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc > >& leaves);
22968 - bool keepOnlySpatialDiscretization(TypeOfField tof, int &globalNum, std::vector< std::pair<int,int> >& its);
22969 - bool keepOnlyGaussDiscretization(std::size_t idOfDisc, int &globalNum, std::vector< std::pair<int,int> >& its);
22970 - static med_entity_type ConvertIntoMEDFileType(TypeOfField ikType, INTERP_KERNEL::NormalizedCellType ikGeoType, med_geometry_type& medfGeoType);
22971 - MEDFileFieldPerMeshPerTypeCommon(MEDFileFieldPerMesh *father):_father(father) { }
22972 - void setFather(MEDFileFieldPerMesh *father);
22973 - void accept(MEDFileFieldVisitor& visitor) const;
22975 - virtual ~MEDFileFieldPerMeshPerTypeCommon();
22976 - virtual void getDimension(int& dim) const = 0;
22977 - virtual INTERP_KERNEL::NormalizedCellType getGeoType() const = 0;
22978 - virtual void entriesForMEDfile(TypeOfField mct, med_geometry_type& gt, med_entity_type& ent) const = 0;
22979 - virtual void simpleRepr(int bkOffset, std::ostream& oss, int id) const = 0;
22980 - virtual std::string getGeoTypeRepr() const = 0;
22981 - virtual MEDFileFieldPerMeshPerTypeCommon *deepCopy(MEDFileFieldPerMesh *father) const = 0;
22982 - virtual void getFieldAtLevel(int meshDim, TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const = 0;
22984 - void deepCopyElements();
22985 - std::vector<int> addNewEntryIfNecessary(const MEDCouplingFieldTemplate *field, int offset, int nbOfCells);
22986 - std::vector<int> addNewEntryIfNecessaryGauss(const MEDCouplingFieldTemplate *field, int offset, int nbOfCells);
22987 - std::vector<int> addNewEntryIfNecessary(const MEDCouplingFieldTemplate *field, const DataArrayInt *subCells);
22988 - std::vector<int> addNewEntryIfNecessaryGauss(const MEDCouplingFieldTemplate *field, const DataArrayInt *subCells);
22990 - MEDFileFieldPerMesh *_father;
22992 - std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> > _field_pm_pt_pd;
22995 - class MEDFileFieldPerMeshPerType : public MEDFileFieldPerMeshPerTypeCommon
22998 - static MEDFileFieldPerMeshPerType *New(MEDFileFieldPerMesh *fath, INTERP_KERNEL::NormalizedCellType geoType);
22999 - static MEDFileFieldPerMeshPerType *NewOnRead(med_idt fid, MEDFileFieldPerMesh *fath, TypeOfField type, INTERP_KERNEL::NormalizedCellType geoType, const MEDFileFieldNameScope& nasc, const PartDefinition *pd);
23000 - static MCAuto<MEDFileFieldPerMeshPerType> Aggregate(int &start, const std::vector< std::pair<int,const MEDFileFieldPerMeshPerType *> >& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, INTERP_KERNEL::NormalizedCellType gt, MEDFileFieldPerMesh *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo);
23001 - public:// overload of abstract methods
23002 - void getDimension(int& dim) const;
23003 - INTERP_KERNEL::NormalizedCellType getGeoType() const;
23004 - void entriesForMEDfile(TypeOfField mct, med_geometry_type& gt, med_entity_type& ent) const;
23005 - void simpleRepr(int bkOffset, std::ostream& oss, int id) const;
23006 - std::string getGeoTypeRepr() const;
23007 - MEDFileFieldPerMeshPerType *deepCopy(MEDFileFieldPerMesh *father) const;
23008 - void getFieldAtLevel(int meshDim, TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const;
23010 - MEDFileFieldPerMeshPerType(med_idt fid, MEDFileFieldPerMesh *fath, TypeOfField type, INTERP_KERNEL::NormalizedCellType geoType, const MEDFileFieldNameScope& nasc, const PartDefinition *pd);
23011 - MEDFileFieldPerMeshPerType(MEDFileFieldPerMesh *father, INTERP_KERNEL::NormalizedCellType gt);
23013 - INTERP_KERNEL::NormalizedCellType _geo_type;
23016 - class MEDFileFieldPerMeshPerTypeDyn : public MEDFileFieldPerMeshPerTypeCommon
23019 - static MEDFileFieldPerMeshPerTypeDyn *NewOnRead(med_idt fid, MEDFileFieldPerMesh *fath, const MEDFileEntities *entities, int idGT, const MEDFileFieldNameScope& nasc);
23020 - int getDynGT() const;
23021 - std::string getModelName() const;
23023 - void getDimension(int& dim) const;
23024 - INTERP_KERNEL::NormalizedCellType getGeoType() const;
23025 - void entriesForMEDfile(TypeOfField mct, med_geometry_type& gt, med_entity_type& ent) const;
23026 - void simpleRepr(int bkOffset, std::ostream& oss, int id) const;
23027 - std::string getGeoTypeRepr() const;
23028 - MEDFileFieldPerMeshPerTypeDyn *deepCopy(MEDFileFieldPerMesh *father) const;
23029 - void getFieldAtLevel(int meshDim, TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const;
23031 - MEDFileFieldPerMeshPerTypeDyn(med_idt fid, MEDFileFieldPerMesh *fath, const MEDFileStructureElement *se, const MEDFileFieldNameScope& nasc);
23033 - MCConstAuto<MEDFileStructureElement> _se;
23036 - class MEDFileMesh;
23038 - class MEDFileFieldPerMesh : public RefCountObject, public MEDFileWritable
23041 - static MEDFileFieldPerMesh *New(MEDFileAnyTypeField1TSWithoutSDA *fath, const MEDCouplingMesh *mesh);
23042 - static MEDFileFieldPerMesh *NewOnRead(med_idt fid, MEDFileAnyTypeField1TSWithoutSDA *fath, int meshCsit, int meshIteration, int meshOrder, const MEDFileFieldNameScope& nasc, const MEDFileMesh *mm, const MEDFileEntities *entities);
23043 - std::size_t getHeapMemorySizeWithoutChildren() const;
23044 - std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
23045 - MEDFileFieldPerMesh *deepCopy(MEDFileAnyTypeField1TSWithoutSDA *father) const;
23046 - void simpleRepr(int bkOffset,std::ostream& oss, int id) const;
23047 - void copyTinyInfoFrom(const MEDCouplingMesh *mesh);
23048 - void assignFieldProfile(int& start, const DataArrayInt *multiTypePfl, const std::vector<int>& code, const std::vector<int>& code2, const std::vector<DataArrayInt *>& idsInPflPerType, const std::vector<DataArrayInt *>& idsPerType, const MEDCouplingFieldTemplate *field, const DataArray *arr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
23049 - void assignFieldNoProfileNoRenum(int& start, const std::vector<int>& code, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
23050 - void assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob);
23051 - void assignNodeFieldProfile(int& start, const DataArrayInt *pfl, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
23052 - void loadOnlyStructureOfDataRecursively(med_idt fid, int &start, const MEDFileFieldNameScope& nasc);
23053 - void loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc);
23054 - void writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const;
23055 - void fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const;
23056 - std::vector< std::vector< std::pair<int,int> > > getFieldSplitedByType(std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
23057 - void accept(MEDFileFieldVisitor& visitor) const;
23058 - void getDimension(int& dim) const;
23059 - bool isUniqueLevel(int& dim) const;
23060 - double getTime() const;
23061 - int getIteration() const;
23062 - int getOrder() const;
23063 - int getMeshIteration() const { return _mesh_iteration; }
23064 - int getMeshOrder() const { return _mesh_order; }
23065 - std::string getMeshName() const;
23066 - void setMeshName(const std::string& meshName);
23067 - int getNumberOfComponents() const;
23068 - bool presenceOfMultiDiscPerGeoType() const;
23069 - bool presenceOfStructureElements() const;
23070 - bool onlyStructureElements() const;
23071 - void killStructureElements();
23072 - void keepOnlyStructureElements();
23073 - void keepOnlyOnSE(const std::string& seName);
23074 - void getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const;
23075 - DataArray *getOrCreateAndGetArray();
23076 - const DataArray *getOrCreateAndGetArray() const;
23077 - const std::vector<std::string>& getInfo() const;
23078 - std::vector<std::string> getPflsReallyUsed() const;
23079 - std::vector<std::string> getLocsReallyUsed() const;
23080 - std::vector<std::string> getPflsReallyUsedMulti() const;
23081 - std::vector<std::string> getLocsReallyUsedMulti() const;
23082 - void convertMedBallIntoClassic();
23083 - bool changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab);
23084 - bool renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N, MEDFileFieldGlobsReal& glob);
23085 - void keepOnlySpatialDiscretization(TypeOfField tof, int &globalNum, std::vector< std::pair<int,int> >& its);
23086 - void keepOnlyGaussDiscretization(std::size_t idOfDisc, int &globalNum, std::vector< std::pair<int,int> >& its);
23087 - void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23088 - void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23089 - MEDCouplingFieldDouble *getFieldOnMeshAtLevel(TypeOfField type, const MEDFileFieldGlobsReal *glob, const MEDCouplingMesh *mesh, bool& isPfl, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
23090 - DataArray *getFieldOnMeshAtLevelWithPfl(TypeOfField type, const MEDCouplingMesh *mesh, DataArrayInt *&pfl, const MEDFileFieldGlobsReal *glob, const MEDFileFieldNameScope& nasc) const;
23091 - void getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
23092 - MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenTypeAndLocId(INTERP_KERNEL::NormalizedCellType typ, int locId);
23093 - const MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenTypeAndLocId(INTERP_KERNEL::NormalizedCellType typ, int locId) const;
23094 - static MCAuto<MEDFileFieldPerMesh> Aggregate(int &start, const std::vector<const MEDFileFieldPerMesh *>& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, MEDFileAnyTypeField1TSWithoutSDA *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo);
23096 - int addNewEntryIfNecessary(INTERP_KERNEL::NormalizedCellType type);
23097 - MEDCouplingFieldDouble *finishField(TypeOfField type, const MEDFileFieldGlobsReal *glob,
23098 - const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs, const MEDCouplingMesh *mesh, bool& isPfl, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
23099 - MEDCouplingFieldDouble *finishField2(TypeOfField type, const MEDFileFieldGlobsReal *glob,
23100 - const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs,
23101 - const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes,
23102 - const MEDCouplingMesh *mesh, const DataArrayInt *da, bool& isPfl, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
23103 - MEDCouplingFieldDouble *finishFieldNode2(const MEDFileFieldGlobsReal *glob,
23104 - const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs,
23105 - const MEDCouplingMesh *mesh, const DataArrayInt *da, bool& isPfl, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
23106 - DataArray *finishField4(const std::vector< std::pair<int,int> >& dads, const DataArrayInt *pflIn, int nbOfElems, DataArrayInt *&pflOut) const;
23107 - void assignNewLeaves(const std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc > >& leaves);
23108 - static void SortArraysPerType(const MEDFileFieldGlobsReal *glob, TypeOfField type,
23109 - const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes, const std::vector< std::pair<int,int> >& dads, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& locs,
23110 - std::vector<int>& code, std::vector<DataArrayInt *>& notNullPfls);
23111 - static int ComputeNbOfElems(const MEDFileFieldGlobsReal *glob, TypeOfField type, const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes, const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs);
23112 - MEDFileFieldPerMesh(med_idt fid, MEDFileAnyTypeField1TSWithoutSDA *fath, int meshCsit, int meshIteration, int meshOrder, const MEDFileFieldNameScope& nasc, const MEDFileMesh *mm, const MEDFileEntities *entities);
23113 - MEDFileFieldPerMesh(MEDFileAnyTypeField1TSWithoutSDA *fath, const MEDCouplingMesh *mesh);
23114 - MEDFileFieldPerMesh(MEDFileAnyTypeField1TSWithoutSDA *fath, const std::string& meshName, int meshIt, int meshOrd):_father(fath),_mesh_iteration(meshIt),_mesh_order(meshOrd) { }
23116 - int _mesh_iteration;
23118 - MEDFileAnyTypeField1TSWithoutSDA *_father;
23119 - std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > _field_pm_pt;
23122 - class MEDFileFieldGlobsReal;
23124 - class MEDFileFieldGlobs : public RefCountObject
23127 - static MEDFileFieldGlobs *New(med_idt fid);
23128 - static MEDFileFieldGlobs *New();
23129 - std::size_t getHeapMemorySizeWithoutChildren() const;
23130 - std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
23131 - MEDFileFieldGlobs *deepCopy() const;
23132 - MEDFileFieldGlobs *shallowCpyPart(const std::vector<std::string>& pfls, const std::vector<std::string>& locs) const;
23133 - MEDFileFieldGlobs *deepCpyPart(const std::vector<std::string>& pfls, const std::vector<std::string>& locs) const;
23134 - void simpleRepr(std::ostream& oss) const;
23135 - void appendGlobs(const MEDFileFieldGlobs& other, double eps);
23136 - void checkGlobsPflsPartCoherency(const std::vector<std::string>& pflsUsed) const;
23137 - void checkGlobsLocsPartCoherency(const std::vector<std::string>& locsUsed) const;
23138 - void loadProfileInFile(med_idt fid, int id, const std::string& pflName);
23139 - void loadProfileInFile(med_idt fid, int id);
23140 - void loadGlobals(med_idt fid, const MEDFileFieldGlobsReal& real);
23141 - void loadAllGlobals(med_idt fid, const MEDFileEntities *entities);
23142 - void writeGlobals(med_idt fid, const MEDFileWritable& opt) const;
23143 - std::vector<std::string> getPfls() const;
23144 - std::vector<std::string> getLocs() const;
23145 - bool existsPfl(const std::string& pflName) const;
23146 - bool existsLoc(const std::string& locName) const;
23147 - std::string createNewNameOfPfl() const;
23148 - std::string createNewNameOfLoc() const;
23149 - std::vector< std::vector<int> > whichAreEqualProfiles() const;
23150 - std::vector< std::vector<int> > whichAreEqualLocs(double eps) const;
23151 - void setFileName(const std::string& fileName) { _file_name=fileName; }
23152 - void changePflsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23153 - void changeLocsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23154 - int getNbOfGaussPtPerCell(int locId) const;
23155 - int getLocalizationId(const std::string& loc) const;
23156 - std::string getFileName() const { return _file_name; }
23157 - const MEDFileFieldLoc& getLocalizationFromId(int locId) const;
23158 - const MEDFileFieldLoc& getLocalization(const std::string& locName) const;
23159 - const DataArrayInt *getProfileFromId(int pflId) const;
23160 - const DataArrayInt *getProfile(const std::string& pflName) const;
23161 - MEDFileFieldLoc& getLocalizationFromId(int locId);
23162 - MEDFileFieldLoc& getLocalization(const std::string& locName);
23163 - DataArrayInt *getProfile(const std::string& pflName);
23164 - DataArrayInt *getProfileFromId(int pflId);
23165 - void killProfileIds(const std::vector<int>& pflIds);
23166 - void killLocalizationIds(const std::vector<int>& locIds);
23167 - void killStructureElementsInGlobs();
23169 - void appendProfile(DataArrayInt *pfl);
23170 - void appendLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w);
23172 - static std::string CreateNewNameNotIn(const std::string& prefix, const std::vector<std::string>& namesToAvoid);
23174 - MEDFileFieldGlobs(med_idt fid);
23175 - MEDFileFieldGlobs();
23176 - ~MEDFileFieldGlobs();
23178 - std::vector< MCAuto<DataArrayInt> > _pfls;
23179 - std::vector< MCAuto<MEDFileFieldLoc> > _locs;
23180 - std::string _file_name;
23183 - /// @endcond INTERNAL
23185 - class MEDFileFieldGlobsReal
23188 - MEDLOADER_EXPORT MEDFileFieldGlobsReal(med_idt fid);
23189 - MEDLOADER_EXPORT MEDFileFieldGlobsReal();
23190 - MEDLOADER_EXPORT std::size_t getHeapMemorySizeWithoutChildren() const;
23191 - MEDLOADER_EXPORT std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
23192 - MEDLOADER_EXPORT void simpleReprGlobs(std::ostream& oss) const;
23193 - MEDLOADER_EXPORT void resetContent();
23194 - MEDLOADER_EXPORT void killStructureElementsInGlobs();
23195 - MEDLOADER_EXPORT void shallowCpyGlobs(const MEDFileFieldGlobsReal& other);
23196 - MEDLOADER_EXPORT void deepCpyGlobs(const MEDFileFieldGlobsReal& other);
23197 - MEDLOADER_EXPORT void shallowCpyOnlyUsedGlobs(const MEDFileFieldGlobsReal& other);
23198 - MEDLOADER_EXPORT void deepCpyOnlyUsedGlobs(const MEDFileFieldGlobsReal& other);
23199 - MEDLOADER_EXPORT void appendGlobs(const MEDFileFieldGlobsReal& other, double eps);
23200 - MEDLOADER_EXPORT void checkGlobsCoherency() const;
23201 - MEDLOADER_EXPORT void checkGlobsPflsPartCoherency() const;
23202 - MEDLOADER_EXPORT void checkGlobsLocsPartCoherency() const;
23203 - MEDLOADER_EXPORT virtual std::vector<std::string> getPflsReallyUsed() const = 0;
23204 - MEDLOADER_EXPORT virtual std::vector<std::string> getLocsReallyUsed() const = 0;
23205 - MEDLOADER_EXPORT virtual std::vector<std::string> getPflsReallyUsedMulti() const = 0;
23206 - MEDLOADER_EXPORT virtual std::vector<std::string> getLocsReallyUsedMulti() const = 0;
23207 - MEDLOADER_EXPORT virtual void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif) = 0;
23208 - MEDLOADER_EXPORT virtual void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif) = 0;
23209 - MEDLOADER_EXPORT virtual ~MEDFileFieldGlobsReal();
23211 - MEDLOADER_EXPORT void loadProfileInFile(med_idt fid, int id, const std::string& pflName);
23212 - MEDLOADER_EXPORT void loadProfileInFile(med_idt fid, int id);
23213 - MEDLOADER_EXPORT void loadGlobals(med_idt fid);
23214 - MEDLOADER_EXPORT void loadAllGlobals(med_idt fid, const MEDFileEntities *entities=0);
23215 - MEDLOADER_EXPORT void writeGlobals(med_idt fid, const MEDFileWritable& opt) const;
23216 - MEDLOADER_EXPORT std::vector<std::string> getPfls() const;
23217 - MEDLOADER_EXPORT std::vector<std::string> getLocs() const;
23218 - MEDLOADER_EXPORT bool existsPfl(const std::string& pflName) const;
23219 - MEDLOADER_EXPORT bool existsLoc(const std::string& locName) const;
23220 - MEDLOADER_EXPORT std::string createNewNameOfPfl() const;
23221 - MEDLOADER_EXPORT std::string createNewNameOfLoc() const;
23222 - MEDLOADER_EXPORT std::vector< std::vector<int> > whichAreEqualProfiles() const;
23223 - MEDLOADER_EXPORT std::vector< std::vector<int> > whichAreEqualLocs(double eps) const;
23224 - MEDLOADER_EXPORT void setFileName(const std::string& fileName);
23225 - MEDLOADER_EXPORT void changePflsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23226 - MEDLOADER_EXPORT void changeLocsNamesInStruct(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23227 - MEDLOADER_EXPORT void changePflsNames(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23228 - MEDLOADER_EXPORT void changeLocsNames(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23229 - MEDLOADER_EXPORT void changePflName(const std::string& oldName, const std::string& newName);
23230 - MEDLOADER_EXPORT void changeLocName(const std::string& oldName, const std::string& newName);
23231 - MEDLOADER_EXPORT std::vector< std::pair<std::vector<std::string>, std::string > > zipPflsNames();
23232 - MEDLOADER_EXPORT std::vector< std::pair<std::vector<std::string>, std::string > > zipLocsNames(double eps);
23233 - MEDLOADER_EXPORT int getNbOfGaussPtPerCell(int locId) const;
23234 - MEDLOADER_EXPORT int getLocalizationId(const std::string& loc) const;
23235 - MEDLOADER_EXPORT std::string getFileName() const;
23236 - MEDLOADER_EXPORT const MEDFileFieldLoc& getLocalizationFromId(int locId) const;
23237 - MEDLOADER_EXPORT const MEDFileFieldLoc& getLocalization(const std::string& locName) const;
23238 - MEDLOADER_EXPORT MEDFileFieldLoc& getLocalizationFromId(int locId);
23239 - MEDLOADER_EXPORT MEDFileFieldLoc& getLocalization(const std::string& locName);
23240 - MEDLOADER_EXPORT const DataArrayInt *getProfile(const std::string& pflName) const;
23241 - MEDLOADER_EXPORT const DataArrayInt *getProfileFromId(int pflId) const;
23242 - MEDLOADER_EXPORT DataArrayInt *getProfile(const std::string& pflName);
23243 - MEDLOADER_EXPORT DataArrayInt *getProfileFromId(int pflId);
23244 - MEDLOADER_EXPORT void killProfileIds(const std::vector<int>& pflIds);
23245 - MEDLOADER_EXPORT void killLocalizationIds(const std::vector<int>& locIds);
23247 - MEDLOADER_EXPORT void appendProfile(DataArrayInt *pfl);
23248 - MEDLOADER_EXPORT void appendLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w);
23250 - MEDFileFieldGlobs *contentNotNull();
23251 - const MEDFileFieldGlobs *contentNotNull() const;
23253 - MCAuto< MEDFileFieldGlobs > _globals;
23256 - class MEDFileFieldNameScope
23259 - MEDLOADER_EXPORT MEDFileFieldNameScope();
23260 - MEDLOADER_EXPORT MEDFileFieldNameScope(const std::string& fieldName, const std::string& meshName);
23261 - MEDLOADER_EXPORT std::string getName() const;
23262 - MEDLOADER_EXPORT void setName(const std::string& fieldName);
23263 - MEDLOADER_EXPORT std::string getDtUnit() const;
23264 - MEDLOADER_EXPORT void setDtUnit(const std::string& dtUnit);
23265 - MEDLOADER_EXPORT void copyNameScope(const MEDFileFieldNameScope& other);
23266 - MEDLOADER_EXPORT std::string getMeshName() const;
23267 - MEDLOADER_EXPORT void setMeshName(const std::string& meshName);
23269 - std::string _name;
23270 - std::string _dt_unit;
23271 - std::string _mesh_name;
23274 class MEDFileMeshes;
23277 - * SDA is for Shared Data Arrays such as profiles.
23279 - class MEDFileAnyTypeField1TSWithoutSDA : public RefCountObject, public MEDFileFieldNameScope
23282 - MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA();
23283 - MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order);
23284 - MEDLOADER_EXPORT int getIteration() const { return _iteration; }
23285 - MEDLOADER_EXPORT int getOrder() const { return _order; }
23286 - MEDLOADER_EXPORT double getTime(int& iteration, int& order) const { iteration=_iteration; order=_order; return _dt; }
23287 - MEDLOADER_EXPORT void setTime(int iteration, int order, double val) { _dt=val; _iteration=iteration; _order=order; }
23288 - MEDLOADER_EXPORT int getDimension() const;
23289 - MEDLOADER_EXPORT bool changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab);
23290 - MEDLOADER_EXPORT int getMeshIteration() const;
23291 - MEDLOADER_EXPORT int getMeshOrder() const;
23292 - MEDLOADER_EXPORT bool isDealingTS(int iteration, int order) const;
23293 - MEDLOADER_EXPORT std::pair<int,int> getDtIt() const;
23294 - MEDLOADER_EXPORT void fillIteration(std::pair<int,int>& p) const;
23295 - MEDLOADER_EXPORT void fillTypesOfFieldAvailable(std::vector<TypeOfField>& types) const;
23296 - MEDLOADER_EXPORT std::vector<TypeOfField> getTypesOfFieldAvailable() const;
23298 - MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsed2() const;
23299 - MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsed2() const;
23300 - MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsedMulti2() const;
23301 - MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsedMulti2() const;
23302 - MEDLOADER_EXPORT void changePflsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23303 - MEDLOADER_EXPORT void changeLocsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23305 - MEDLOADER_EXPORT int getNonEmptyLevels(const std::string& mname, std::vector<int>& levs) const;
23306 - MEDLOADER_EXPORT void convertMedBallIntoClassic();
23307 - MEDLOADER_EXPORT void makeReduction(INTERP_KERNEL::NormalizedCellType ct, TypeOfField tof, const DataArrayInt *pfl);
23308 - MEDLOADER_EXPORT std::vector< std::vector<std::pair<int,int> > > getFieldSplitedByType(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
23310 - MEDLOADER_EXPORT MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId);
23311 - MEDLOADER_EXPORT const MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId) const;
23312 - MEDLOADER_EXPORT void deepCpyLeavesFrom(const MEDFileAnyTypeField1TSWithoutSDA& other);
23313 - MEDLOADER_EXPORT void accept(MEDFileFieldVisitor& visitor) const;
23315 - MEDLOADER_EXPORT int getNumberOfComponents() const;
23316 - MEDLOADER_EXPORT const std::vector<std::string>& getInfo() const;
23317 - MEDLOADER_EXPORT std::vector<std::string>& getInfo();
23318 - MEDLOADER_EXPORT bool presenceOfMultiDiscPerGeoType() const;
23319 - MEDLOADER_EXPORT bool presenceOfStructureElements() const;
23320 - MEDLOADER_EXPORT bool onlyStructureElements() const;
23321 - MEDLOADER_EXPORT void killStructureElements();
23322 - MEDLOADER_EXPORT void keepOnlyStructureElements();
23323 - MEDLOADER_EXPORT void keepOnlyOnSE(const std::string& seName);
23324 - MEDLOADER_EXPORT void getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const;
23325 - MEDLOADER_EXPORT void setInfo(const std::vector<std::string>& infos);
23326 - MEDLOADER_EXPORT std::size_t getHeapMemorySizeWithoutChildren() const;
23327 - MEDLOADER_EXPORT std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
23328 - MEDLOADER_EXPORT int copyTinyInfoFrom(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr);
23329 - MEDLOADER_EXPORT void setFieldNoProfileSBT(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
23330 - MEDLOADER_EXPORT void setFieldProfile(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arrOfVals, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
23331 - MEDLOADER_EXPORT virtual void simpleRepr(int bkOffset, std::ostream& oss, int f1tsId) const;
23332 - MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TSWithoutSDA *deepCopy() const = 0;
23333 - MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TSWithoutSDA *shallowCpy() const = 0;
23334 - MEDLOADER_EXPORT virtual std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > splitComponents() const;
23335 - MEDLOADER_EXPORT virtual const char *getTypeStr() const = 0;
23336 - MEDLOADER_EXPORT virtual DataArray *getUndergroundDataArray() const = 0;
23337 - MEDLOADER_EXPORT virtual DataArray *getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const = 0;
23338 - MEDLOADER_EXPORT virtual void setArray(DataArray *arr) = 0;
23339 - MEDLOADER_EXPORT virtual DataArray *createNewEmptyDataArrayInstance() const = 0;
23340 - MEDLOADER_EXPORT virtual DataArray *getOrCreateAndGetArray() = 0;
23341 - MEDLOADER_EXPORT virtual const DataArray *getOrCreateAndGetArray() const = 0;
23343 - MEDLOADER_EXPORT MEDCouplingFieldDouble *fieldOnMesh(const MEDFileFieldGlobsReal *glob, const MEDFileMesh *mesh, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const;
23344 - MEDLOADER_EXPORT MEDCouplingFieldDouble *getFieldAtLevel(TypeOfField type, int meshDimRelToMax, const std::string& mName, int renumPol, const MEDFileFieldGlobsReal *glob, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
23345 - MEDLOADER_EXPORT MEDCouplingFieldDouble *getFieldOnMeshAtLevel(TypeOfField type, int meshDimRelToMax, int renumPol, const MEDFileFieldGlobsReal *glob, const MEDFileMesh *mesh, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
23346 - MEDLOADER_EXPORT MEDCouplingFieldDouble *getFieldAtTopLevel(TypeOfField type, const std::string& mName, int renumPol, const MEDFileFieldGlobsReal *glob, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
23347 - MEDLOADER_EXPORT MEDCouplingFieldDouble *getFieldOnMeshAtLevel(TypeOfField type, int renumPol, const MEDFileFieldGlobsReal *glob, const MEDCouplingMesh *mesh, const DataArrayInt *cellRenum, const DataArrayInt *nodeRenum, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
23348 - DataArray *getFieldWithProfile(TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh, DataArrayInt *&pfl, const MEDFileFieldGlobsReal *glob, const MEDFileFieldNameScope& nasc) const;
23350 - MEDLOADER_EXPORT bool renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N, MEDFileFieldGlobsReal& glob);
23351 - MEDLOADER_EXPORT std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > splitDiscretizations() const;
23352 - MEDLOADER_EXPORT std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > splitMultiDiscrPerGeoTypes() const;
23353 - MEDLOADER_EXPORT int keepOnlySpatialDiscretization(TypeOfField tof, std::vector< std::pair<int,int> >& its);
23354 - MEDLOADER_EXPORT int keepOnlyGaussDiscretization(std::size_t idOfDisc, std::vector< std::pair<int,int> >& its);
23356 - MEDLOADER_EXPORT void allocNotFromFile(int newNbOfTuples);
23357 - MEDLOADER_EXPORT bool allocIfNecessaryTheArrayToReceiveDataFromFile();
23358 - MEDLOADER_EXPORT void loadOnlyStructureOfDataRecursively(med_idt fid, const MEDFileFieldNameScope& nasc, const MEDFileMeshes *ms, const MEDFileEntities *entities);
23359 - MEDLOADER_EXPORT void loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc);
23360 - MEDLOADER_EXPORT void loadBigArraysRecursivelyIfNecessary(med_idt fid, const MEDFileFieldNameScope& nasc);
23361 - MEDLOADER_EXPORT void loadStructureAndBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc, const MEDFileMeshes *ms, const MEDFileEntities *entities);
23362 - MEDLOADER_EXPORT void unloadArrays();
23363 - MEDLOADER_EXPORT void writeLL(med_idt fid, const MEDFileWritable& opts, const MEDFileFieldNameScope& nasc) const;
23365 - int getMeshIdFromMeshName(const std::string& mName) const;
23366 - int addNewEntryIfNecessary(const MEDCouplingMesh *mesh);
23367 - void updateData(int newLgth, const std::vector< std::pair<int,int> >& oldStartStops);
23369 - std::vector< MCAuto< MEDFileFieldPerMesh > > _field_per_mesh;
23374 - //! only useable on reading
23375 - mutable int _csit;
23376 - // -3 means allocated and build from scratch
23377 - // -2 means allocated and read from a file
23378 - // -1 means not allocated and build from scratch
23379 - // >=0 means not allocated and read from a file
23380 - mutable int _nb_of_tuples_to_be_allocated;
23383 - class MEDFileIntField1TSWithoutSDA;
23385 - template<class T>
23386 - class MEDFileField1TSTemplateWithoutSDA : public MEDFileAnyTypeField1TSWithoutSDA
23389 - MEDFileField1TSTemplateWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order):MEDFileAnyTypeField1TSWithoutSDA(fieldName,meshName,csit,iteration,order) { }
23390 - MEDFileField1TSTemplateWithoutSDA() { }
23392 - MEDLOADER_EXPORT void setArray(DataArray *arr);
23393 - MEDLOADER_EXPORT DataArray *createNewEmptyDataArrayInstance() const;
23394 - MEDLOADER_EXPORT typename Traits<T>::ArrayType *getOrCreateAndGetArrayTemplate();
23395 - MEDLOADER_EXPORT typename Traits<T>::ArrayType const *getOrCreateAndGetArrayTemplate() const;
23396 - MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArrayTemplate() const;
23397 - MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArrayTemplateExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
23398 - MEDLOADER_EXPORT DataArray *getOrCreateAndGetArray();
23399 - MEDLOADER_EXPORT const DataArray *getOrCreateAndGetArray() const;
23400 - MEDLOADER_EXPORT DataArray *getUndergroundDataArray() const;
23401 - MEDLOADER_EXPORT void aggregate(const typename std::vector< typename MLFieldTraits<T>::F1TSWSDAType const * >& f1tss, const std::vector< std::vector< std::pair<int,int> > >& dts);
23403 - MCAuto< typename Traits<T>::ArrayType > _arr;
23407 - * SDA is for Shared Data Arrays such as profiles.
23409 - class MEDFileField1TSWithoutSDA : public MEDFileField1TSTemplateWithoutSDA<double>
23412 - MEDLOADER_EXPORT const char *getTypeStr() const;
23413 - MEDLOADER_EXPORT DataArray *getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
23414 - MEDLOADER_EXPORT std::vector< std::vector<DataArrayDouble *> > getFieldSplitedByType2(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
23415 - MEDLOADER_EXPORT static void CheckMeshDimRel(int meshDimRelToMax);
23416 - MEDLOADER_EXPORT static std::vector<int> CheckSBTMesh(const MEDCouplingMesh *mesh);
23417 - MEDLOADER_EXPORT static MEDFileField1TSWithoutSDA *New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
23419 - MEDLOADER_EXPORT MEDFileField1TSWithoutSDA();
23420 - MEDLOADER_EXPORT MEDFileField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
23421 - MEDLOADER_EXPORT MEDFileField1TSWithoutSDA *shallowCpy() const;
23422 - MEDLOADER_EXPORT MEDFileField1TSWithoutSDA *deepCopy() const;
23423 - MEDLOADER_EXPORT MEDFileIntField1TSWithoutSDA *convertToInt() const;
23425 - static const char TYPE_STR[];
23428 - template<class T>
23429 - class MEDFileField1TSNDTemplateWithoutSDA : public MEDFileField1TSTemplateWithoutSDA<T>
23432 - MEDLOADER_EXPORT MEDFileField1TSWithoutSDA *convertToDouble() const;
23434 - MEDFileField1TSNDTemplateWithoutSDA() { }
23435 - MEDFileField1TSNDTemplateWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos):MEDFileField1TSTemplateWithoutSDA<T>(fieldName,meshName,csit,iteration,order) { }
23439 - * SDA is for Shared Data Arrays such as profiles.
23441 - class MEDFileIntField1TSWithoutSDA : public MEDFileField1TSNDTemplateWithoutSDA<int>
23444 - MEDLOADER_EXPORT MEDFileIntField1TSWithoutSDA();
23445 - MEDLOADER_EXPORT static MEDFileIntField1TSWithoutSDA *New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
23446 - MEDLOADER_EXPORT MEDFileIntField1TSWithoutSDA *deepCopy() const;
23447 - MEDLOADER_EXPORT MEDFileIntField1TSWithoutSDA *shallowCpy() const;
23448 - MEDLOADER_EXPORT const char *getTypeStr() const;
23449 - MEDLOADER_EXPORT DataArray *getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
23450 - MEDLOADER_EXPORT DataArrayInt *getUndergroundDataArrayIntExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
23452 - MEDFileIntField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
23454 - MEDLOADER_EXPORT static const char TYPE_STR[];
23458 - * SDA is for Shared Data Arrays such as profiles.
23460 - class MEDFileFloatField1TSWithoutSDA : public MEDFileField1TSNDTemplateWithoutSDA<float>
23463 - MEDLOADER_EXPORT MEDFileFloatField1TSWithoutSDA();
23464 - MEDLOADER_EXPORT static MEDFileFloatField1TSWithoutSDA *New(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
23465 - MEDLOADER_EXPORT MEDFileFloatField1TSWithoutSDA *deepCopy() const;
23466 - MEDLOADER_EXPORT MEDFileFloatField1TSWithoutSDA *shallowCpy() const;
23467 - MEDLOADER_EXPORT const char *getTypeStr() const;
23468 - MEDLOADER_EXPORT DataArray *getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
23469 - MEDLOADER_EXPORT DataArrayFloat *getUndergroundDataArrayFloatExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
23471 - MEDFileFloatField1TSWithoutSDA(const std::string& fieldName, const std::string& meshName, int csit, int iteration, int order, const std::vector<std::string>& infos);
23473 - MEDLOADER_EXPORT static const char TYPE_STR[];
23479 - class MEDFileAnyTypeField1TS : public RefCountObject, public MEDFileWritableStandAlone, public MEDFileFieldGlobsReal
23482 - MEDLOADER_EXPORT MEDFileAnyTypeField1TS();
23483 - MEDLOADER_EXPORT MEDFileAnyTypeField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
23484 - MEDLOADER_EXPORT MEDFileAnyTypeField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
23485 - MEDLOADER_EXPORT MEDFileAnyTypeField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
23486 - MEDLOADER_EXPORT MEDFileAnyTypeField1TS(const MEDFileAnyTypeField1TSWithoutSDA& other, bool shallowCopyOfContent);
23487 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *BuildNewInstanceFromContent(MEDFileAnyTypeField1TSWithoutSDA *c);
23488 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *BuildNewInstanceFromContent(MEDFileAnyTypeField1TSWithoutSDA *c, med_idt fid);
23489 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TSWithoutSDA *BuildContentFrom(med_idt fid, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
23490 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TSWithoutSDA *BuildContentFrom(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
23491 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TSWithoutSDA *BuildContentFrom(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
23492 - MEDLOADER_EXPORT void writeLL(med_idt fid) const;
23493 - // direct forwarding to MEDFileAnyTypeField1TSWithoutSDA instance _content
23495 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(const std::string& fileName, bool loadAll=true);
23496 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(med_idt fid, bool loadAll=true);
23497 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(const std::string& fileName, const std::string& fieldName, bool loadAll=true);
23498 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(med_idt fid, const std::string& fieldName, bool loadAll=true);
23499 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(const std::string& fileName, const std::string& fieldName, int iteration, int order, bool loadAll=true);
23500 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *New(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll=true);
23501 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *NewAdv(const std::string& fileName, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileEntities *entities);
23502 - MEDLOADER_EXPORT static MEDFileAnyTypeField1TS *NewAdv(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileEntities *entities);
23503 - MEDLOADER_EXPORT int getDimension() const;
23504 - MEDLOADER_EXPORT int getIteration() const;
23505 - MEDLOADER_EXPORT int getOrder() const;
23506 - MEDLOADER_EXPORT double getTime(int& iteration, int& order) const;
23507 - MEDLOADER_EXPORT void setTime(int iteration, int order, double val);
23508 - MEDLOADER_EXPORT std::string getName() const;
23509 - MEDLOADER_EXPORT void setName(const std::string& name);
23510 - MEDLOADER_EXPORT std::string simpleRepr() const;
23511 - MEDLOADER_EXPORT void simpleRepr(int bkOffset, std::ostream& oss, int f1tsId) const;
23512 - MEDLOADER_EXPORT std::string getDtUnit() const;
23513 - MEDLOADER_EXPORT void setDtUnit(const std::string& dtUnit);
23514 - MEDLOADER_EXPORT std::string getMeshName() const;
23515 - MEDLOADER_EXPORT void setMeshName(const std::string& newMeshName);
23516 - MEDLOADER_EXPORT bool changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab);
23517 - MEDLOADER_EXPORT int getMeshIteration() const;
23518 - MEDLOADER_EXPORT int getMeshOrder() const;
23519 - MEDLOADER_EXPORT int getNumberOfComponents() const;
23520 - MEDLOADER_EXPORT bool isDealingTS(int iteration, int order) const;
23521 - MEDLOADER_EXPORT std::pair<int,int> getDtIt() const;
23522 - MEDLOADER_EXPORT void fillIteration(std::pair<int,int>& p) const;
23523 - MEDLOADER_EXPORT void fillTypesOfFieldAvailable(std::vector<TypeOfField>& types) const;
23524 - MEDLOADER_EXPORT void setInfo(const std::vector<std::string>& infos);
23525 - MEDLOADER_EXPORT const std::vector<std::string>& getInfo() const;
23526 - MEDLOADER_EXPORT std::vector<std::string>& getInfo();
23527 - MEDLOADER_EXPORT bool presenceOfMultiDiscPerGeoType() const;
23528 - MEDLOADER_EXPORT std::vector<TypeOfField> getTypesOfFieldAvailable() const;
23529 - MEDLOADER_EXPORT std::vector< std::vector<std::pair<int,int> > > getFieldSplitedByType(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF,
23530 - std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
23531 - MEDLOADER_EXPORT MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId);
23532 - MEDLOADER_EXPORT const MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenMeshAndTypeAndLocId(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId) const;
23533 - MEDLOADER_EXPORT int getNonEmptyLevels(const std::string& mname, std::vector<int>& levs) const;
23534 - MEDLOADER_EXPORT void convertMedBallIntoClassic();
23535 - MEDLOADER_EXPORT void makeReduction(INTERP_KERNEL::NormalizedCellType ct, TypeOfField tof, const DataArrayInt *pfl);
23536 - MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TS *extractPart(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const = 0;
23537 - MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TS *shallowCpy() const = 0;
23539 - MEDLOADER_EXPORT void loadArrays();
23540 - MEDLOADER_EXPORT void loadArraysIfNecessary();
23541 - MEDLOADER_EXPORT void unloadArrays();
23542 - MEDLOADER_EXPORT void unloadArraysWithoutDataLoss();
23543 - MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeField1TS > > splitComponents() const;
23544 - MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeField1TS > > splitDiscretizations() const;
23545 - MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeField1TS > > splitMultiDiscrPerGeoTypes() const;
23546 - MEDLOADER_EXPORT MEDFileAnyTypeField1TS *deepCopy() const;
23547 - MEDLOADER_EXPORT int copyTinyInfoFrom(const MEDCouplingFieldDouble *field, const DataArray *arr);
23548 - MEDLOADER_EXPORT int copyTinyInfoFrom(const TimeHolder *th, const MEDCouplingFieldTemplate *field, const DataArray *arr);
23550 - //! underground method see MEDFileField1TSWithoutSDA::setProfileNameOnLeaf
23551 - MEDLOADER_EXPORT void setProfileNameOnLeaf(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId, const std::string& newPflName, bool forceRenameOnGlob=false);
23552 - //! underground method see MEDFileField1TSWithoutSDA::setLocNameOnLeaf
23553 - MEDLOADER_EXPORT void setLocNameOnLeaf(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId, const std::string& newLocName, bool forceRenameOnGlob=false);
23554 - MEDLOADER_EXPORT std::size_t getHeapMemorySizeWithoutChildren() const;
23555 - MEDLOADER_EXPORT std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
23556 - MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsed() const;
23557 - MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsed() const;
23558 - MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsedMulti() const;
23559 - MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsedMulti() const;
23560 - MEDLOADER_EXPORT void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23561 - MEDLOADER_EXPORT void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23563 - MEDLOADER_EXPORT static int LocateField2(med_idt fid, int fieldIdCFormat, bool checkFieldId, std::string& fieldName, med_field_type& typcha, std::vector<std::string>& infos, std::string& dtunitOut, std::string& meshName);
23564 - MEDLOADER_EXPORT static int LocateField(med_idt fid, const std::string& fieldName, int& posCFormat, med_field_type& typcha, std::vector<std::string>& infos, std::string& dtunitOut, std::string& meshName);
23566 - MEDLOADER_EXPORT virtual med_field_type getMEDFileFieldType() const = 0;
23567 - MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA *contentNotNullBase();
23568 - MEDLOADER_EXPORT const MEDFileAnyTypeField1TSWithoutSDA *contentNotNullBase() const;
23570 - MCAuto<MEDFileAnyTypeField1TSWithoutSDA> _content;
23573 - class MEDFileIntField1TS;
23575 - template<class T>
23576 - class MEDFileTemplateField1TS : public MEDFileAnyTypeField1TS
23579 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New();
23580 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(const std::string& fileName, bool loadAll=true);
23581 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(med_idt fid, bool loadAll=true);
23582 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(DataArrayByte *db) { return BuildFromMemoryChunk<typename MLFieldTraits<T>::F1TSType>(db); }
23583 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(const std::string& fileName, const std::string& fieldName, bool loadAll=true);
23584 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(med_idt fid, const std::string& fieldName, bool loadAll=true);
23585 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(const std::string& fileName, const std::string& fieldName, int iteration, int order, bool loadAll=true);
23586 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll=true);
23587 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::F1TSType *New(const typename MLFieldTraits<T>::F1TSWSDAType& other, bool shallowCopyOfContent);
23589 - MEDLOADER_EXPORT static typename Traits<T>::ArrayType *ReturnSafelyTypedDataArray(MCAuto<DataArray>& arr);
23590 - MEDLOADER_EXPORT typename Traits<T>::ArrayType *getFieldWithProfile(TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh, DataArrayInt *&pfl) const;
23591 - MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArray() const;
23592 - MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
23593 - MEDLOADER_EXPORT static MCAuto<typename Traits<T>::FieldType> SetDataArrayInField(MEDCouplingFieldDouble *f, MCAuto<DataArray>& arr);
23594 - MEDLOADER_EXPORT static MCAuto<MEDCouplingFieldDouble> ToFieldTemplateWithTime(const typename Traits<T>::FieldType *f);
23596 - MEDLOADER_EXPORT typename Traits<T>::FieldType *field(const MEDFileMesh *mesh) const;
23597 - MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtLevel(TypeOfField type, int meshDimRelToMax, int renumPol=0) const;
23598 - MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtTopLevel(TypeOfField type, int renumPol=0) const;
23599 - MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldOnMeshAtLevel(TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh, int renumPol=0) const;
23600 - MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldOnMeshAtLevel(TypeOfField type, const MEDCouplingMesh *mesh, int renumPol=0) const;
23601 - MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtLevelOld(TypeOfField type, const std::string& mname, int meshDimRelToMax, int renumPol=0) const;
23602 - MEDLOADER_EXPORT void setFieldNoProfileSBT(const typename Traits<T>::FieldType *field);
23603 - MEDLOADER_EXPORT void setFieldProfile(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile);
23604 - MEDLOADER_EXPORT typename MLFieldTraits<T>::F1TSType *extractPartImpl(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const;
23605 - MEDLOADER_EXPORT MEDFileAnyTypeField1TS *extractPart(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const { return this->extractPartImpl(extractDef,mm); }
23607 - ~MEDFileTemplateField1TS() { }
23608 - MEDFileTemplateField1TS();
23609 - MEDFileTemplateField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileAnyTypeField1TS(fid,loadAll,ms) { }
23610 - MEDFileTemplateField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms):MEDFileAnyTypeField1TS(fid,fieldName,loadAll,ms) { }
23611 - MEDFileTemplateField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms):MEDFileAnyTypeField1TS(fid,fieldName,iteration,order,loadAll,ms) { }
23612 - MEDFileTemplateField1TS(const typename MLFieldTraits<T>::F1TSWSDAType& other, bool shallowCopyOfContent):MEDFileAnyTypeField1TS(other,shallowCopyOfContent) { }
23613 - const typename MLFieldTraits<T>::F1TSWSDAType *contentNotNull() const;
23614 - typename MLFieldTraits<T>::F1TSWSDAType *contentNotNull();
23620 - class MEDFileField1TS : public MEDFileTemplateField1TS<double>
23622 - friend class MEDFileTemplateField1TS<double>;
23624 - MEDLOADER_EXPORT MEDFileIntField1TS *convertToInt(bool isDeepCpyGlobs=true) const;
23626 - MEDLOADER_EXPORT MEDFileField1TS *shallowCpy() const;
23627 - MEDLOADER_EXPORT std::vector< std::vector<DataArrayDouble *> > getFieldSplitedByType2(const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF,
23628 - std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
23631 - med_field_type getMEDFileFieldType() const { return MED_FLOAT64; }
23633 - ~MEDFileField1TS() { }
23634 - MEDFileField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms);
23635 - MEDFileField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms);
23636 - MEDFileField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms);
23637 - MEDFileField1TS(const MEDFileField1TSWithoutSDA& other, bool shallowCopyOfContent);
23638 - MEDFileField1TS() { }
23641 - template<class T>
23642 - class MEDFileNDTemplateField1TS : public MEDFileTemplateField1TS<T>
23645 - MEDLOADER_EXPORT MEDFileField1TS *convertToDouble(bool isDeepCpyGlobs=true) const;
23647 - ~MEDFileNDTemplateField1TS() { }
23648 - MEDFileNDTemplateField1TS() { }
23649 - MEDFileNDTemplateField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileTemplateField1TS<T>(fid,loadAll,ms) { }
23650 - MEDFileNDTemplateField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms):MEDFileTemplateField1TS<T>(fid,fieldName,loadAll,ms) { }
23651 - MEDFileNDTemplateField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms):MEDFileTemplateField1TS<T>(fid,fieldName,iteration,order,loadAll,ms) { }
23652 - MEDFileNDTemplateField1TS(const typename MLFieldTraits<T>::F1TSWSDAType& other, bool shallowCopyOfContent):MEDFileTemplateField1TS<T>(other,shallowCopyOfContent) { }
23655 - class MEDFileIntField1TS : public MEDFileNDTemplateField1TS<int>
23657 - friend class MEDFileTemplateField1TS<int>;
23659 - MEDLOADER_EXPORT MEDFileIntField1TS *shallowCpy() const { return new MEDFileIntField1TS(*this); }
23661 - MEDLOADER_EXPORT static MCAuto<MEDCouplingFieldDouble> ConvertFieldIntToFieldDouble(const MEDCouplingFieldInt *f);
23663 - med_field_type getMEDFileFieldType() const { return MED_INT32; }
23665 - ~MEDFileIntField1TS() { }
23666 - MEDFileIntField1TS() { }
23667 - MEDFileIntField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<int>(fid,loadAll,ms) { }
23668 - MEDFileIntField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<int>(fid,fieldName,loadAll,ms) { }
23669 - MEDFileIntField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<int>(fid,fieldName,iteration,order,loadAll,ms) { }
23671 - * This constructor is a shallow copy constructor. If \a shallowCopyOfContent is true the content of \a other is shallow copied.
23672 - * If \a shallowCopyOfContent is false, \a other is taken to be the content of \a this.
23674 - * \warning this is a shallow copy constructor
23676 - MEDFileIntField1TS(const MEDFileIntField1TSWithoutSDA& other, bool shallowCopyOfContent):MEDFileNDTemplateField1TS<int>(other,shallowCopyOfContent) { }
23679 - class MEDFileFloatField1TS : public MEDFileNDTemplateField1TS<float>
23681 - friend class MEDFileTemplateField1TS<float>;
23683 - med_field_type getMEDFileFieldType() const { return MED_INT32; }//6432
23684 - MEDLOADER_EXPORT MEDFileFloatField1TS *shallowCpy() const { return new MEDFileFloatField1TS(*this); }
23686 - ~MEDFileFloatField1TS() { }
23687 - MEDFileFloatField1TS() { }
23688 - MEDFileFloatField1TS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<float>(fid,loadAll,ms) { }
23689 - MEDFileFloatField1TS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<float>(fid,fieldName,loadAll,ms) { }
23690 - MEDFileFloatField1TS(med_idt fid, const std::string& fieldName, int iteration, int order, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateField1TS<float>(fid,fieldName,iteration,order,loadAll,ms) { }
23692 - * This constructor is a shallow copy constructor. If \a shallowCopyOfContent is true the content of \a other is shallow copied.
23693 - * If \a shallowCopyOfContent is false, \a other is taken to be the content of \a this.
23695 - * \warning this is a shallow copy constructor
23697 - MEDFileFloatField1TS(const MEDFileFloatField1TSWithoutSDA& other, bool shallowCopyOfContent):MEDFileNDTemplateField1TS<float>(other,shallowCopyOfContent) { }
23700 - class MEDFileAnyTypeFieldMultiTSWithoutSDA : public RefCountObject, public MEDFileFieldNameScope
23703 - MEDFileAnyTypeFieldMultiTSWithoutSDA();
23704 - MEDFileAnyTypeFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName);
23705 - MEDFileAnyTypeFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
23706 - MEDFileAnyTypeFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
23708 - MEDLOADER_EXPORT std::size_t getHeapMemorySizeWithoutChildren() const;
23709 - MEDLOADER_EXPORT std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
23710 - MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTSWithoutSDA *deepCopy() const;
23711 - MEDLOADER_EXPORT virtual std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > splitComponents() const;
23712 - MEDLOADER_EXPORT virtual std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > splitDiscretizations() const;
23713 - MEDLOADER_EXPORT virtual std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > splitMultiDiscrPerGeoTypes() const;
23714 - MEDLOADER_EXPORT virtual const char *getTypeStr() const = 0;
23715 - MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTSWithoutSDA *shallowCpy() const = 0;
23716 - MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTSWithoutSDA *createNew() const = 0;
23717 - MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TSWithoutSDA *createNew1TSWithoutSDAEmptyInstance() const = 0;
23718 - MEDLOADER_EXPORT virtual void checkCoherencyOfType(const MEDFileAnyTypeField1TSWithoutSDA *f1ts) const = 0;
23719 - MEDLOADER_EXPORT const std::vector<std::string>& getInfo() const;
23720 - MEDLOADER_EXPORT bool presenceOfMultiDiscPerGeoType() const;
23721 - MEDLOADER_EXPORT void setInfo(const std::vector<std::string>& info);
23722 - MEDLOADER_EXPORT int getTimeStepPos(int iteration, int order) const;
23723 - MEDLOADER_EXPORT const MEDFileAnyTypeField1TSWithoutSDA& getTimeStepEntry(int iteration, int order) const;
23724 - MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA& getTimeStepEntry(int iteration, int order);
23725 - MEDLOADER_EXPORT bool changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab);
23726 - MEDLOADER_EXPORT int getNumberOfTS() const;
23727 - MEDLOADER_EXPORT void eraseEmptyTS();
23728 - MEDLOADER_EXPORT void eraseTimeStepIds(const int *startIds, const int *endIds);
23729 - MEDLOADER_EXPORT void eraseTimeStepIds2(int bg, int end, int step);
23730 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *buildFromTimeStepIds(const int *startIds, const int *endIds) const;
23731 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *buildFromTimeStepIds2(int bg, int end, int step) const;
23732 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *partOfThisLyingOnSpecifiedTimeSteps(const std::vector< std::pair<int,int> >& timeSteps) const;
23733 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *partOfThisNotLyingOnSpecifiedTimeSteps(const std::vector< std::pair<int,int> >& timeSteps) const;
23734 - MEDLOADER_EXPORT bool presenceOfStructureElements() const;
23735 - MEDLOADER_EXPORT bool onlyStructureElements() const;
23736 - MEDLOADER_EXPORT void killStructureElements();
23737 - MEDLOADER_EXPORT void keepOnlyStructureElements();
23738 - MEDLOADER_EXPORT void keepOnlyOnSE(const std::string& seName);
23739 - MEDLOADER_EXPORT void getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const;
23740 - MEDLOADER_EXPORT int getPosOfTimeStep(int iteration, int order) const;
23741 - MEDLOADER_EXPORT int getPosGivenTime(double time, double eps=1e-8) const;
23742 - MEDLOADER_EXPORT std::vector< std::pair<int,int> > getIterations() const;
23743 - MEDLOADER_EXPORT std::vector< std::pair<int,int> > getTimeSteps(std::vector<double>& ret1) const;
23744 - MEDLOADER_EXPORT void pushBackTimeStep(MCAuto<MEDFileAnyTypeField1TSWithoutSDA>& tse);
23745 - MEDLOADER_EXPORT void synchronizeNameScope();
23746 - MEDLOADER_EXPORT void simpleRepr(int bkOffset, std::ostream& oss, int fmtsId) const;
23747 - MEDLOADER_EXPORT int getNonEmptyLevels(int iteration, int order, const std::string& mname, std::vector<int>& levs) const;
23748 - MEDLOADER_EXPORT void appendFieldNoProfileSBT(const MEDCouplingFieldDouble *field, const DataArray *arr, MEDFileFieldGlobsReal& glob);
23749 - MEDLOADER_EXPORT void appendFieldProfile(const MEDCouplingFieldDouble *field, const DataArray *arr, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, MEDFileFieldGlobsReal& glob);
23750 - MEDLOADER_EXPORT std::vector< std::vector< std::pair<int,int> > > getFieldSplitedByType(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
23751 - MEDLOADER_EXPORT std::vector< std::vector<TypeOfField> > getTypesOfFieldAvailable() const;
23752 - MEDLOADER_EXPORT DataArray *getUndergroundDataArray(int iteration, int order) const;
23753 - MEDLOADER_EXPORT DataArray *getUndergroundDataArrayExt(int iteration, int order, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
23754 - MEDLOADER_EXPORT bool renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N, MEDFileFieldGlobsReal& glob);
23755 - MEDLOADER_EXPORT void accept(MEDFileFieldVisitor& visitor) const;
23756 - MEDLOADER_EXPORT void loadStructureOrStructureAndBigArraysRecursively(med_idt fid, int nbPdt, med_field_type fieldTyp, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
23757 - MEDLOADER_EXPORT void writeLL(med_idt fid, const MEDFileWritable& opts) const;
23758 - MEDLOADER_EXPORT void loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc);
23759 - MEDLOADER_EXPORT void loadBigArraysRecursivelyIfNecessary(med_idt fid, const MEDFileFieldNameScope& nasc);
23760 - MEDLOADER_EXPORT void unloadArrays();
23762 - MEDLOADER_EXPORT const MEDFileAnyTypeField1TSWithoutSDA *getTimeStepAtPos2(int pos) const;
23763 - MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA *getTimeStepAtPos2(int pos);
23764 - MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsed2() const;
23765 - MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsed2() const;
23766 - MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsedMulti2() const;
23767 - MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsedMulti2() const;
23768 - MEDLOADER_EXPORT void changePflsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23769 - MEDLOADER_EXPORT void changeLocsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23770 - MEDLOADER_EXPORT void setIteration(int i, MCAuto<MEDFileAnyTypeField1TSWithoutSDA> ts);
23772 - virtual med_field_type getMEDFileFieldType() const = 0;
23773 - void copyTinyInfoFrom(const MEDCouplingFieldDouble *field, const DataArray *arr);
23774 - void checkCoherencyOfTinyInfo(const MEDCouplingFieldDouble *field, const DataArray *arr) const;
23775 - void checkThatComponentsMatch(const std::vector<std::string>& compos) const;
23776 - void checkThatNbOfCompoOfTSMatchThis() const;
23778 - std::vector<std::string> _infos;
23779 - std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > _time_steps;
23782 - class MEDFileIntFieldMultiTSWithoutSDA;
23784 - template<class T>
23785 - class MEDFileTemplateFieldMultiTSWithoutSDA : public MEDFileAnyTypeFieldMultiTSWithoutSDA
23788 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSWSDAType *New(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
23789 - MEDLOADER_EXPORT const char *getTypeStr() const;
23790 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *createNew() const;
23791 - MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA *createNew1TSWithoutSDAEmptyInstance() const;
23793 - MEDFileTemplateFieldMultiTSWithoutSDA() { }
23794 - MEDFileTemplateFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileAnyTypeFieldMultiTSWithoutSDA(fieldName,meshName) { }
23795 - /** \param [in] fieldId field id in C mode */
23796 - MEDFileTemplateFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileAnyTypeFieldMultiTSWithoutSDA(fid,fieldId,loadAll,ms,entities) { }
23797 - MEDFileTemplateFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileAnyTypeFieldMultiTSWithoutSDA(fid,fieldName,meshName,fieldTyp,infos,nbOfStep,dtunit,loadAll,ms,entities) { }
23798 - void checkCoherencyOfType(const MEDFileAnyTypeField1TSWithoutSDA *f1ts) const;
23801 - class MEDFileFieldMultiTSWithoutSDA : public MEDFileTemplateFieldMultiTSWithoutSDA<double>
23803 - friend class MEDFileTemplateFieldMultiTSWithoutSDA<double>;
23805 - MEDLOADER_EXPORT MEDFileFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileTemplateFieldMultiTSWithoutSDA<double>(fid,fieldId,loadAll,ms,entities) { }
23806 - MEDLOADER_EXPORT std::vector< std::vector<DataArrayDouble *> > getFieldSplitedByType2(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
23807 - MEDLOADER_EXPORT MEDFileIntFieldMultiTSWithoutSDA *convertToInt() const;
23808 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *shallowCpy() const { return new MEDFileFieldMultiTSWithoutSDA(*this); }
23810 - MEDFileFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileTemplateFieldMultiTSWithoutSDA<double>(fieldName,meshName) { }
23811 - MEDFileFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileTemplateFieldMultiTSWithoutSDA<double>(fid,fieldName,meshName,fieldTyp,infos,nbOfStep,dtunit,loadAll,ms,entities) { }
23812 - med_field_type getMEDFileFieldType() const { return MED_FLOAT64; }
23814 - MEDLOADER_EXPORT MEDFileFieldMultiTSWithoutSDA() { }
23817 - template<class T>
23818 - class MEDFileNDTemplateFieldMultiTSWithoutSDA : public MEDFileTemplateFieldMultiTSWithoutSDA<T>
23821 - MEDLOADER_EXPORT MEDFileFieldMultiTSWithoutSDA *convertToDouble() const;
23823 - MEDFileNDTemplateFieldMultiTSWithoutSDA() { }
23824 - MEDFileNDTemplateFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileTemplateFieldMultiTSWithoutSDA<T>(fid,fieldId,loadAll,ms,entities) { }
23825 - MEDFileNDTemplateFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileTemplateFieldMultiTSWithoutSDA<T>(fieldName,meshName) { }
23826 - MEDFileNDTemplateFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileTemplateFieldMultiTSWithoutSDA<T>(fid,fieldName,meshName,fieldTyp,infos,nbOfStep,dtunit,loadAll,ms,entities) { }
23829 - class MEDFileIntFieldMultiTSWithoutSDA : public MEDFileNDTemplateFieldMultiTSWithoutSDA<int>
23831 - friend class MEDFileTemplateFieldMultiTSWithoutSDA<int>;
23833 - MEDLOADER_EXPORT MEDFileIntFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileNDTemplateFieldMultiTSWithoutSDA<int>(fid,fieldId,loadAll,ms,entities) { }
23834 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *shallowCpy() const { return new MEDFileIntFieldMultiTSWithoutSDA(*this); }
23836 - MEDFileIntFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileNDTemplateFieldMultiTSWithoutSDA<int>(fieldName,meshName) { }
23837 - MEDFileIntFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileNDTemplateFieldMultiTSWithoutSDA<int>(fid,fieldName,meshName,fieldTyp,infos,nbOfStep,dtunit,loadAll,ms,entities) { }
23838 - med_field_type getMEDFileFieldType() const { return MED_INT32; }
23840 - MEDLOADER_EXPORT MEDFileIntFieldMultiTSWithoutSDA() { }
23843 - class MEDFileFloatFieldMultiTSWithoutSDA : public MEDFileNDTemplateFieldMultiTSWithoutSDA<float>
23845 - friend class MEDFileTemplateFieldMultiTSWithoutSDA<float>;
23847 - MEDLOADER_EXPORT MEDFileFloatFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileNDTemplateFieldMultiTSWithoutSDA<float>(fid,fieldId,loadAll,ms,entities) { }
23848 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *shallowCpy() const { return new MEDFileFloatFieldMultiTSWithoutSDA(*this); }
23850 - MEDFileFloatFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileNDTemplateFieldMultiTSWithoutSDA<float>(fieldName,meshName) { }
23851 - MEDFileFloatFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileNDTemplateFieldMultiTSWithoutSDA<float>(fid,fieldName,meshName,fieldTyp,infos,nbOfStep,dtunit,loadAll,ms,entities) { }
23852 - med_field_type getMEDFileFieldType() const { return MED_INT32; }//6432
23854 - MEDLOADER_EXPORT MEDFileFloatFieldMultiTSWithoutSDA() { }
23857 - class MEDFileAnyTypeFieldMultiTSIterator;
23858 - class MEDFileFastCellSupportComparator;
23862 - class MEDFileAnyTypeFieldMultiTS : public RefCountObject, public MEDFileWritableStandAlone, public MEDFileFieldGlobsReal
23865 - MEDFileAnyTypeFieldMultiTS();
23866 - MEDFileAnyTypeFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms);
23867 - MEDFileAnyTypeFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
23868 - MEDFileAnyTypeFieldMultiTS(const MEDFileAnyTypeFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent);
23869 - static MEDFileAnyTypeFieldMultiTS *BuildNewInstanceFromContent(MEDFileAnyTypeFieldMultiTSWithoutSDA *c, med_idt fid);
23870 - static MEDFileAnyTypeFieldMultiTSWithoutSDA *BuildContentFrom(med_idt fid, bool loadAll, const MEDFileMeshes *ms);
23871 - static MEDFileAnyTypeFieldMultiTSWithoutSDA *BuildContentFrom(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
23873 - MEDLOADER_EXPORT static MEDFileAnyTypeFieldMultiTS *New(const std::string& fileName, bool loadAll=true);
23874 - MEDLOADER_EXPORT static MEDFileAnyTypeFieldMultiTS *New(med_idt fid, bool loadAll=true);
23875 - MEDLOADER_EXPORT static MEDFileAnyTypeFieldMultiTS *New(const std::string& fileName, const std::string& fieldName, bool loadAll=true);
23876 - MEDLOADER_EXPORT static MEDFileAnyTypeFieldMultiTS *New(med_idt fid, const std::string& fieldName, bool loadAll=true);
23877 - MEDLOADER_EXPORT static MEDFileAnyTypeFieldMultiTS *BuildNewInstanceFromContent(MEDFileAnyTypeFieldMultiTSWithoutSDA *c);
23878 - MEDLOADER_EXPORT void loadArrays();
23879 - MEDLOADER_EXPORT void loadArraysIfNecessary();
23880 - MEDLOADER_EXPORT void unloadArrays();
23881 - MEDLOADER_EXPORT void unloadArraysWithoutDataLoss();
23882 - MEDLOADER_EXPORT void writeLL(med_idt fid) const;
23883 - MEDLOADER_EXPORT std::size_t getHeapMemorySizeWithoutChildren() const;
23884 - MEDLOADER_EXPORT std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
23885 - MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTS *deepCopy() const;
23886 - MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > splitComponents() const;
23887 - MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > splitDiscretizations() const;
23888 - MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > splitMultiDiscrPerGeoTypes() const;
23889 - MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTS *shallowCpy() const = 0;
23890 - MEDLOADER_EXPORT virtual void checkCoherencyOfType(const MEDFileAnyTypeField1TS *f1ts) const = 0;
23892 - MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TS *getTimeStepAtPos(int pos) const = 0;
23893 - MEDLOADER_EXPORT MEDFileAnyTypeField1TS *getTimeStep(int iteration, int order) const;
23894 - MEDLOADER_EXPORT MEDFileAnyTypeField1TS *getTimeStepGivenTime(double time, double eps=1e-8) const;
23895 - MEDLOADER_EXPORT static std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > SplitIntoCommonTimeSeries(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS);
23896 - MEDLOADER_EXPORT static std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > SplitPerCommonSupport(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS, const MEDFileMesh *mesh, std::vector< MCAuto<MEDFileFastCellSupportComparator> >& fsc);
23897 - MEDLOADER_EXPORT static int CheckSupportAcrossTime(MEDFileAnyTypeFieldMultiTS *f0, MEDFileAnyTypeFieldMultiTS *f1, const MEDFileMesh *mesh, TypeOfField& tof0, TypeOfField& tof1);
23898 - public:// direct forwarding to MEDFileField1TSWithoutSDA instance _content
23899 - MEDLOADER_EXPORT std::string getName() const;
23900 - MEDLOADER_EXPORT void setName(const std::string& name);
23901 - MEDLOADER_EXPORT std::string getDtUnit() const;
23902 - MEDLOADER_EXPORT void setDtUnit(const std::string& dtUnit);
23903 - MEDLOADER_EXPORT std::string getMeshName() const;
23904 - MEDLOADER_EXPORT void setMeshName(const std::string& newMeshName);
23905 - MEDLOADER_EXPORT std::string simpleRepr() const;
23906 - MEDLOADER_EXPORT void simpleRepr(int bkOffset, std::ostream& oss, int fmtsId) const;
23907 - MEDLOADER_EXPORT int getNumberOfTS() const;
23908 - MEDLOADER_EXPORT void eraseEmptyTS();
23909 - MEDLOADER_EXPORT void eraseTimeStepIds(const int *startIds, const int *endIds);
23910 - MEDLOADER_EXPORT void eraseTimeStepIds2(int bg, int end, int step);
23911 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *buildSubPart(const int *startIds, const int *endIds) const;
23912 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *buildSubPartSlice(int bg, int end, int step) const;
23913 - MEDLOADER_EXPORT std::vector< std::pair<int,int> > getTimeSteps(std::vector<double>& ret1) const;
23914 - MEDLOADER_EXPORT std::vector< std::pair<int,int> > getIterations() const;
23915 - MEDLOADER_EXPORT void pushBackTimeSteps(const std::vector<MEDFileAnyTypeField1TS *>& f1ts);
23916 - MEDLOADER_EXPORT void pushBackTimeSteps(MEDFileAnyTypeFieldMultiTS *fmts);
23917 - MEDLOADER_EXPORT void pushBackTimeStep(MEDFileAnyTypeField1TS *f1ts);
23918 - MEDLOADER_EXPORT void synchronizeNameScope();
23919 - MEDLOADER_EXPORT int getPosOfTimeStep(int iteration, int order) const;
23920 - MEDLOADER_EXPORT int getPosGivenTime(double time, double eps=1e-8) const;
23921 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSIterator *iterator();
23922 - MEDLOADER_EXPORT bool changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab);
23923 - MEDLOADER_EXPORT const std::vector<std::string>& getInfo() const;
23924 - MEDLOADER_EXPORT bool presenceOfMultiDiscPerGeoType() const;
23925 - MEDLOADER_EXPORT void setInfo(const std::vector<std::string>& info);
23926 - MEDLOADER_EXPORT int getNumberOfComponents() const;
23927 - MEDLOADER_EXPORT int getNonEmptyLevels(int iteration, int order, const std::string& mname, std::vector<int>& levs) const;
23928 - MEDLOADER_EXPORT std::vector< std::vector<TypeOfField> > getTypesOfFieldAvailable() const;
23929 - MEDLOADER_EXPORT std::vector< std::vector< std::pair<int,int> > > getFieldSplitedByType(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
23930 - MEDLOADER_EXPORT MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> getContent();
23932 - MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTS *buildNewEmpty() const = 0;
23933 - MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTS *extractPart(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const = 0;
23934 - MEDLOADER_EXPORT static MCAuto<MEDFileAnyTypeFieldMultiTS> Aggregate(const std::vector<const MEDFileAnyTypeFieldMultiTS *>& fmtss, const std::vector< std::vector< std::pair<int,int> > >& dts);
23936 - MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsed() const;
23937 - MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsed() const;
23938 - MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsedMulti() const;
23939 - MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsedMulti() const;
23940 - MEDLOADER_EXPORT void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23941 - MEDLOADER_EXPORT void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
23943 - MEDFileAnyTypeFieldMultiTSWithoutSDA *contentNotNullBase();
23944 - const MEDFileAnyTypeFieldMultiTSWithoutSDA *contentNotNullBase() const;
23946 - static std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > SplitPerCommonSupportNotNodesAlg(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS, const MEDFileMesh *mesh, std::vector< MCAuto<MEDFileFastCellSupportComparator> >& cmps);
23948 - MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> _content;
23951 - template<class T>
23952 - class MEDFileTemplateFieldMultiTS : public MEDFileAnyTypeFieldMultiTS
23955 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New();
23956 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(const std::string& fileName, bool loadAll=true);
23957 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(med_idt fid, bool loadAll=true);
23958 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(DataArrayByte *db) { return BuildFromMemoryChunk<typename MLFieldTraits<T>::FMTSType>(db); }
23959 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(const std::string& fileName, const std::string& fieldName, bool loadAll=true);
23960 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(med_idt fid, const std::string& fieldName, bool loadAll=true);
23961 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(const typename MLFieldTraits<T>::FMTSWSDAType& other, bool shallowCopyOfContent);
23962 - MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *LoadSpecificEntities(const std::string& fileName, const std::string& fieldName, const std::vector< std::pair<TypeOfField,INTERP_KERNEL::NormalizedCellType> >& entities, bool loadAll=true);
23963 - MEDLOADER_EXPORT typename MLFieldTraits<T>::FMTSType *extractPartImpl(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const;
23964 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *extractPart(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const { return this->extractPartImpl(extractDef,mm); }
23966 - MEDLOADER_EXPORT typename Traits<T>::FieldType *field(int iteration, int order, const MEDFileMesh *mesh) const;
23967 - MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtLevel(TypeOfField type, int iteration, int order, int meshDimRelToMax, int renumPol=0) const;
23968 - MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtTopLevel(TypeOfField type, int iteration, int order, int renumPol=0) const;
23969 - MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldOnMeshAtLevel(TypeOfField type, int iteration, int order, int meshDimRelToMax, const MEDFileMesh *mesh, int renumPol=0) const;
23970 - MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldOnMeshAtLevel(TypeOfField type, int iteration, int order, const MEDCouplingMesh *mesh, int renumPol=0) const;
23971 - MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtLevelOld(TypeOfField type, int iteration, int order, const std::string& mname, int meshDimRelToMax, int renumPol=0) const;
23972 - MEDLOADER_EXPORT typename Traits<T>::ArrayType *getFieldWithProfile(TypeOfField type, int iteration, int order, int meshDimRelToMax, const MEDFileMesh *mesh, DataArrayInt *&pfl) const;
23974 - MEDLOADER_EXPORT void appendFieldNoProfileSBT(const typename Traits<T>::FieldType *field);
23975 - MEDLOADER_EXPORT void appendFieldProfile(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile);
23977 - MEDLOADER_EXPORT typename MLFieldTraits<T>::F1TSType *getTimeStepAtPos(int pos) const;
23978 - MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArray(int iteration, int order) const;
23979 - MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArrayExt(int iteration, int order, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
23980 - MEDLOADER_EXPORT typename MLFieldTraits<T>::FMTSType *buildNewEmptyImpl() const;
23981 - MEDLOADER_EXPORT void checkCoherencyOfType(const MEDFileAnyTypeField1TS *f1ts) const;
23983 - const typename MLFieldTraits<T>::FMTSWSDAType *contentNotNull() const;
23984 - typename MLFieldTraits<T>::FMTSWSDAType *contentNotNull();
23986 - ~MEDFileTemplateFieldMultiTS() { }
23987 - MEDFileTemplateFieldMultiTS();
23988 - MEDFileTemplateFieldMultiTS(const typename MLFieldTraits<T>::FMTSWSDAType& other, bool shallowCopyOfContent);
23989 - MEDFileTemplateFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms);
23990 - MEDFileTemplateFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
23993 - class MEDFileIntFieldMultiTS;
23998 - class MEDFileFieldMultiTS : public MEDFileTemplateFieldMultiTS<double>
24000 - friend class MEDFileTemplateFieldMultiTS<double>;
24002 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *shallowCpy() const;
24003 - MEDLOADER_EXPORT MEDFileIntFieldMultiTS *convertToInt(bool isDeepCpyGlobs=true) const;
24005 - MEDLOADER_EXPORT std::vector< std::vector<DataArrayDouble *> > getFieldSplitedByType2(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
24006 - MEDLOADER_EXPORT MEDFileFieldMultiTS *buildNewEmpty() const { return buildNewEmptyImpl(); }
24009 - ~MEDFileFieldMultiTS() { }
24010 - MEDFileFieldMultiTS() { }
24011 - MEDFileFieldMultiTS(const MEDFileFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent);
24012 - MEDFileFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms);
24013 - MEDFileFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
24016 - template<class T>
24017 - class MEDFileNDTemplateFieldMultiTS : public MEDFileTemplateFieldMultiTS<T>
24020 - MEDLOADER_EXPORT MEDFileFieldMultiTS *convertToDouble(bool isDeepCpyGlobs=true) const;
24022 - ~MEDFileNDTemplateFieldMultiTS() { }
24023 - MEDFileNDTemplateFieldMultiTS() { }
24024 - MEDFileNDTemplateFieldMultiTS(const typename MLFieldTraits<T>::FMTSWSDAType& other, bool shallowCopyOfContent):MEDFileTemplateFieldMultiTS<T>(other,shallowCopyOfContent) { }
24025 - MEDFileNDTemplateFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileTemplateFieldMultiTS<T>(fid,loadAll,ms) { }
24026 - MEDFileNDTemplateFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileTemplateFieldMultiTS<T>(fid,fieldName,loadAll,ms,entities) { }
24032 - class MEDFileIntFieldMultiTS : public MEDFileNDTemplateFieldMultiTS<int>
24034 - friend class MEDFileTemplateFieldMultiTS<int>;
24036 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *shallowCpy() const { return new MEDFileIntFieldMultiTS(*this); }
24037 - MEDLOADER_EXPORT MEDFileIntFieldMultiTS *buildNewEmpty() const { return buildNewEmptyImpl(); }
24039 - ~MEDFileIntFieldMultiTS() { }
24040 - MEDFileIntFieldMultiTS() { }
24041 - MEDFileIntFieldMultiTS(const MEDFileIntFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent):MEDFileNDTemplateFieldMultiTS<int>(other,shallowCopyOfContent) { }
24042 - MEDFileIntFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateFieldMultiTS<int>(fid,loadAll,ms) { }
24043 - MEDFileIntFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0):MEDFileNDTemplateFieldMultiTS<int>(fid,fieldName,loadAll,ms,entities) { }
24049 - class MEDFileFloatFieldMultiTS : public MEDFileNDTemplateFieldMultiTS<float>
24051 - friend class MEDFileTemplateFieldMultiTS<float>;
24053 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *shallowCpy() const { return new MEDFileFloatFieldMultiTS(*this); }
24054 - MEDLOADER_EXPORT MEDFileFloatFieldMultiTS *buildNewEmpty() const { return buildNewEmptyImpl(); }
24056 - ~MEDFileFloatFieldMultiTS() { }
24057 - MEDFileFloatFieldMultiTS() { }
24058 - MEDFileFloatFieldMultiTS(const MEDFileFloatFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent):MEDFileNDTemplateFieldMultiTS<float>(other,shallowCopyOfContent) { }
24059 - MEDFileFloatFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateFieldMultiTS<float>(fid,loadAll,ms) { }
24060 - MEDFileFloatFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0):MEDFileNDTemplateFieldMultiTS<float>(fid,fieldName,loadAll,ms,entities) { }
24063 - class MEDFileAnyTypeFieldMultiTSIterator
24066 - MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSIterator(MEDFileAnyTypeFieldMultiTS *fmts);
24067 - MEDLOADER_EXPORT ~MEDFileAnyTypeFieldMultiTSIterator();
24068 - MEDLOADER_EXPORT MEDFileAnyTypeField1TS *nextt();
24070 - MCAuto<MEDFileAnyTypeFieldMultiTS> _fmts;
24075 class MEDFileFieldsIterator;
24076 class MEDFileStructureElements;
24078 @@ -1436,6 +123,7 @@
24079 MEDLOADER_EXPORT bool changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab);
24080 MEDLOADER_EXPORT bool renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N);
24081 MEDLOADER_EXPORT void accept(MEDFileFieldVisitor& visitor) const;
24082 + MEDLOADER_EXPORT MCAuto<MEDFileFields> linearToQuadratic(const MEDFileMeshes *oldLin, const MEDFileMeshes *newQuad) const;
24084 MEDLOADER_EXPORT MEDFileFields *extractPart(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const;
24086 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileFieldInternal.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileFieldInternal.cxx
24087 --- MEDCOUPLING_old/src/MEDLoader/MEDFileFieldInternal.cxx 1970-01-01 01:00:00.000000000 +0100
24088 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileFieldInternal.cxx 2018-04-19 17:25:17.805798701 +0200
24090 +// Copyright (C) 2017 CEA/DEN, EDF R&D
24092 +// This library is free software; you can redistribute it and/or
24093 +// modify it under the terms of the GNU Lesser General Public
24094 +// License as published by the Free Software Foundation; either
24095 +// version 2.1 of the License, or (at your option) any later version.
24097 +// This library is distributed in the hope that it will be useful,
24098 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
24099 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
24100 +// Lesser General Public License for more details.
24102 +// You should have received a copy of the GNU Lesser General Public
24103 +// License along with this library; if not, write to the Free Software
24104 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
24106 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
24108 +// Author : Anthony Geay (EDF R&D)
24110 +#include "MEDFileFieldInternal.hxx"
24111 +#include "MEDFileField.hxx"
24112 +#include "MEDFileFieldVisitor.hxx"
24113 +#include "MEDFileStructureElement.hxx"
24114 +#include "MEDLoaderBase.hxx"
24115 +#include "MEDFileSafeCaller.txx"
24116 +#include "MEDFileEntities.hxx"
24118 +#include "MEDCouplingGaussLocalization.hxx"
24119 +#include "MEDCouplingFieldTemplate.hxx"
24120 +#include "MEDCouplingFieldDouble.hxx"
24122 +#include "CellModel.hxx"
24124 +extern med_geometry_type typmai[MED_N_CELL_FIXED_GEO];
24125 +extern INTERP_KERNEL::NormalizedCellType typmai2[MED_N_CELL_FIXED_GEO];
24126 +extern med_geometry_type typmai3[34];
24128 +using namespace MEDCoupling;
24130 +MEDFileGTKeeper::~MEDFileGTKeeper()
24134 +MEDFileGTKeeper *MEDFileGTKeeperSta::deepCopy() const
24136 + return new MEDFileGTKeeperSta(_geo_type);
24139 +INTERP_KERNEL::NormalizedCellType MEDFileGTKeeperSta::getGeoType() const
24141 + return _geo_type;
24144 +std::string MEDFileGTKeeperSta::getRepr() const
24146 + return INTERP_KERNEL::CellModel::GetCellModel(_geo_type).getRepr();
24149 +bool MEDFileGTKeeperSta::isEqual(const MEDFileGTKeeper *other) const
24151 + const MEDFileGTKeeperSta *otherC(dynamic_cast<const MEDFileGTKeeperSta *>(other));
24154 + return _geo_type==otherC->_geo_type;
24157 +MEDFileGTKeeperDyn::MEDFileGTKeeperDyn(const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileStructureElement *se):_mesh(mesh),_section(section),_se(se)
24162 + section->incrRef();
24165 + if(_mesh.isNull() || _section.isNull() || _se.isNull())
24166 + throw INTERP_KERNEL::Exception("MEDFileGTKeeperDyn constructor : null pointer not allowed !");
24169 +MEDFileGTKeeper *MEDFileGTKeeperDyn::deepCopy() const
24171 + return new MEDFileGTKeeperDyn(_mesh,_section,_se);
24174 +INTERP_KERNEL::NormalizedCellType MEDFileGTKeeperDyn::getGeoType() const
24176 + throw INTERP_KERNEL::Exception("MEDFileGTKeeperDyn::getGeoType : not valid !");
24179 +std::string MEDFileGTKeeperDyn::getRepr() const
24181 + std::ostringstream oss;
24182 + oss << _se->getDynGT();
24183 + return oss.str();
24186 +bool MEDFileGTKeeperDyn::isEqual(const MEDFileGTKeeper *other) const
24188 + const MEDFileGTKeeperDyn *otherC(dynamic_cast<const MEDFileGTKeeperDyn *>(other));
24191 + return this==otherC;
24194 +MEDFileFieldLoc *MEDFileFieldLoc::New(med_idt fid, const std::string& locName)
24196 + return new MEDFileFieldLoc(fid,locName);
24199 +MEDFileFieldLoc *MEDFileFieldLoc::New(med_idt fid, int id, const MEDFileEntities *entities)
24201 + return new MEDFileFieldLoc(fid,id,entities);
24204 +MEDFileFieldLoc *MEDFileFieldLoc::New(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w)
24206 + return new MEDFileFieldLoc(locName,geoType,refCoo,gsCoo,w);
24209 +MEDFileFieldLoc::MEDFileFieldLoc(med_idt fid, const std::string& locName):_name(locName)
24211 + med_geometry_type geotype;
24212 + med_geometry_type sectiongeotype;
24213 + int nsectionmeshcell;
24214 + INTERP_KERNEL::AutoPtr<char> geointerpname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
24215 + INTERP_KERNEL::AutoPtr<char> sectionmeshname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
24216 + MEDlocalizationInfoByName(fid,locName.c_str(),&geotype,&_dim,&_nb_gauss_pt,geointerpname,sectionmeshname,&nsectionmeshcell,§iongeotype);
24217 + _gt=new MEDFileGTKeeperSta((INTERP_KERNEL::NormalizedCellType)(std::distance(typmai3,std::find(typmai3,typmai3+34,geotype))));
24218 + const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(getGeoType()));
24219 + _nb_node_per_cell=cm.getNumberOfNodes();
24220 + _ref_coo.resize(_dim*_nb_node_per_cell);
24221 + _gs_coo.resize(_dim*_nb_gauss_pt);
24222 + _w.resize(_nb_gauss_pt);
24223 + MEDFILESAFECALLERRD0(MEDlocalizationRd,(fid,locName.c_str(),MED_FULL_INTERLACE,&_ref_coo[0],&_gs_coo[0],&_w[0]));
24226 +MEDFileFieldLoc::MEDFileFieldLoc(med_idt fid, int id, const MEDFileEntities *entities)
24228 + med_geometry_type geotype;
24229 + med_geometry_type sectiongeotype;
24230 + int nsectionmeshcell;
24231 + INTERP_KERNEL::AutoPtr<char> locName(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
24232 + INTERP_KERNEL::AutoPtr<char> geointerpname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
24233 + INTERP_KERNEL::AutoPtr<char> sectionmeshname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
24234 + MEDFILESAFECALLERRD0(MEDlocalizationInfo,(fid,id+1,locName,&geotype,&_dim,&_nb_gauss_pt,geointerpname,sectionmeshname,&nsectionmeshcell,§iongeotype));
24236 + std::string sectionName(MEDLoaderBase::buildStringFromFortran(sectionmeshname,MED_NAME_SIZE));
24237 + if(sectionName.empty())
24239 + _gt=new MEDFileGTKeeperSta((INTERP_KERNEL::NormalizedCellType)(std::distance(typmai3,std::find(typmai3,typmai3+34,geotype))));
24240 + const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(getGeoType()));
24241 + _nb_node_per_cell=cm.getNumberOfNodes();
24245 + const MEDFileAllStaticEntitiesPlusDyn *entities2(dynamic_cast<const MEDFileAllStaticEntitiesPlusDyn *>(entities));
24248 + std::ostringstream oss; oss << "MEDFileFieldLoc cstr : for loc \"" << _name << "\" presence of non static type ! Expect entities !";
24249 + throw INTERP_KERNEL::Exception(oss.str());
24251 + const MEDFileStructureElement *se(entities2->getWithGT(geotype));
24252 + const MEDFileUMesh *um(entities2->getSupMeshWithName(se->getMeshName()));
24253 + const MEDFileUMesh *section(entities2->getSupMeshWithName(sectionName));
24254 + _gt=new MEDFileGTKeeperDyn(um,section,se);
24257 + MEDFILESAFECALLERRD0(MEDmeshGeotypeParameter,(fid,geotype,&dummy,&_nb_node_per_cell));
24260 + _ref_coo.resize(_dim*_nb_node_per_cell);
24261 + _gs_coo.resize(_dim*_nb_gauss_pt);
24262 + _w.resize(_nb_gauss_pt);
24263 + MEDFILESAFECALLERRD0(MEDlocalizationRd,(fid,locName,MED_FULL_INTERLACE,&_ref_coo[0],&_gs_coo[0],&_w[0]));
24266 +MEDFileFieldLoc::MEDFileFieldLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType,
24267 + const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w):_name(locName),_gt(new MEDFileGTKeeperSta(geoType)),_ref_coo(refCoo),_gs_coo(gsCoo),_w(w)
24269 + const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(getGeoType()));
24270 + _dim=cm.getDimension();
24271 + _nb_node_per_cell=cm.getNumberOfNodes();
24272 + _nb_gauss_pt=_w.size();
24276 +MEDFileFieldLoc::MEDFileFieldLoc(const MEDFileFieldLoc& other):_dim(other._dim),_nb_gauss_pt(other._nb_gauss_pt),_gt(other._gt->deepCopy()),_nb_node_per_cell(other._nb_node_per_cell),_name(other._name),_ref_coo(other._ref_coo),_gs_coo(other._gs_coo),_w(other._w)
24280 +MEDFileFieldLoc *MEDFileFieldLoc::deepCopy() const
24282 + return new MEDFileFieldLoc(*this);
24285 +bool MEDFileFieldLoc::isOnStructureElement() const
24287 + const MEDFileGTKeeper *gt(_gt);
24289 + throw INTERP_KERNEL::Exception("MEDFileFieldLoc::isOnStructureElement : null pointer !");
24290 + const MEDFileGTKeeperDyn *gt2(dynamic_cast<const MEDFileGTKeeperDyn *>(gt));
24291 + return gt2!=NULL;
24294 +std::size_t MEDFileFieldLoc::getHeapMemorySizeWithoutChildren() const
24296 + return (_ref_coo.capacity()+_gs_coo.capacity()+_w.capacity())*sizeof(double)+_name.capacity();
24299 +std::vector<const BigMemoryObject *> MEDFileFieldLoc::getDirectChildrenWithNull() const
24301 + return std::vector<const BigMemoryObject *>();
24304 +void MEDFileFieldLoc::simpleRepr(std::ostream& oss) const
24306 + static const char OFF7[]="\n ";
24307 + oss << "\"" << _name << "\"" << OFF7;
24308 + oss << "GeoType=" << _gt->getRepr() << OFF7;
24309 + oss << "Dimension=" << _dim << OFF7;
24310 + oss << "Number of Gauss points=" << _nb_gauss_pt << OFF7;
24311 + oss << "Number of nodes per cell=" << _nb_node_per_cell << OFF7;
24312 + oss << "RefCoords="; std::copy(_ref_coo.begin(),_ref_coo.end(),std::ostream_iterator<double>(oss," ")); oss << OFF7;
24313 + oss << "Weights="; std::copy(_w.begin(),_w.end(),std::ostream_iterator<double>(oss," ")); oss << OFF7;
24314 + oss << "GaussPtsCoords="; std::copy(_gs_coo.begin(),_gs_coo.end(),std::ostream_iterator<double>(oss," ")); oss << std::endl;
24317 +void MEDFileFieldLoc::setName(const std::string& name)
24322 +bool MEDFileFieldLoc::isEqual(const MEDFileFieldLoc& other, double eps) const
24324 + if(_name!=other._name)
24326 + if(_dim!=other._dim)
24328 + if(_nb_gauss_pt!=other._nb_gauss_pt)
24330 + if(_nb_node_per_cell!=other._nb_node_per_cell)
24332 + if(!_gt->isEqual(other._gt))
24334 + if(!MEDCouplingGaussLocalization::AreAlmostEqual(_ref_coo,other._ref_coo,eps))
24336 + if(!MEDCouplingGaussLocalization::AreAlmostEqual(_gs_coo,other._gs_coo,eps))
24338 + if(!MEDCouplingGaussLocalization::AreAlmostEqual(_w,other._w,eps))
24344 +void MEDFileFieldLoc::writeLL(med_idt fid) const
24346 + MEDFILESAFECALLERWR0(MEDlocalizationWr,(fid,_name.c_str(),typmai3[(int)getGeoType()],_dim,&_ref_coo[0],MED_FULL_INTERLACE,_nb_gauss_pt,&_gs_coo[0],&_w[0],MED_NO_INTERPOLATION,MED_NO_MESH_SUPPORT));
24349 +std::string MEDFileFieldLoc::repr() const
24351 + std::ostringstream oss; oss.precision(15);
24352 + const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(getGeoType()));
24353 + oss << "Localization \"" << _name << "\" :\n" << " - Geometric Type : " << cm.getRepr();
24354 + oss << "\n - Dimension : " << _dim << "\n - Number of gauss points : ";
24355 + oss << _nb_gauss_pt << "\n - Number of nodes in cell : " << _nb_node_per_cell;
24356 + oss << "\n - Ref coords are : ";
24357 + int sz=_ref_coo.size();
24360 + int nbOfTuples=sz/_dim;
24361 + for(int i=0;i<nbOfTuples;i++)
24364 + for(int j=0;j<_dim;j++)
24365 + { oss << _ref_coo[i*_dim+j]; if(j!=_dim-1) oss << ", "; }
24370 + std::copy(_ref_coo.begin(),_ref_coo.end(),std::ostream_iterator<double>(oss," "));
24371 + oss << "\n - Gauss coords in reference element : ";
24372 + sz=_gs_coo.size();
24375 + int nbOfTuples=sz/_dim;
24376 + for(int i=0;i<nbOfTuples;i++)
24379 + for(int j=0;j<_dim;j++)
24380 + { oss << _gs_coo[i*_dim+j]; if(j!=_dim-1) oss << ", "; }
24385 + std::copy(_gs_coo.begin(),_gs_coo.end(),std::ostream_iterator<double>(oss," "));
24386 + oss << "\n - Weights of Gauss coords are : "; std::copy(_w.begin(),_w.end(),std::ostream_iterator<double>(oss," "));
24387 + return oss.str();
24390 +void MEDFileFieldPerMeshPerTypePerDisc::assignFieldNoProfile(int& start, int offset, int nbOfCells, const MEDCouplingFieldTemplate *field, const DataArray *arrr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
24392 + _type=field->getTypeOfField();
24398 + getOrCreateAndGetArray()->setContigPartOfSelectedValuesSlice(_start,arrr,offset,offset+nbOfCells,1);
24399 + _end=_start+nbOfCells;
24403 + case ON_GAUSS_NE:
24405 + MCAuto<DataArrayInt> arr=field->getDiscretization()->getOffsetArr(field->getMesh());
24406 + const int *arrPtr=arr->getConstPointer();
24407 + getOrCreateAndGetArray()->setContigPartOfSelectedValuesSlice(_start,arrr,arrPtr[offset],arrPtr[offset+nbOfCells],1);
24408 + _end=_start+(arrPtr[offset+nbOfCells]-arrPtr[offset]);
24412 + case ON_GAUSS_PT:
24414 + const MEDCouplingFieldDiscretization *disc(field->getDiscretization());
24415 + const MEDCouplingGaussLocalization& gsLoc(field->getGaussLocalization(_loc_id));
24416 + const MEDCouplingFieldDiscretizationGauss *disc2(dynamic_cast<const MEDCouplingFieldDiscretizationGauss *>(disc));
24418 + throw INTERP_KERNEL::Exception("assignFieldNoProfile : invalid call to this method ! Internal Error !");
24419 + const DataArrayInt *dai(disc2->getArrayOfDiscIds());
24420 + MCAuto<DataArrayInt> dai2(disc2->getOffsetArr(field->getMesh()));
24421 + const int *dai2Ptr(dai2->getConstPointer());
24422 + int nbi(gsLoc.getWeights().size());
24423 + MCAuto<DataArrayInt> da2(dai->selectByTupleIdSafeSlice(offset,offset+nbOfCells,1));
24424 + MCAuto<DataArrayInt> da3(da2->findIdsEqual(_loc_id));
24425 + const int *da3Ptr(da3->getConstPointer());
24426 + if(da3->getNumberOfTuples()!=nbOfCells)
24427 + {//profile : for gauss even in NoProfile !!!
24428 + std::ostringstream oss; oss << "Pfl_" << nasc.getName() << "_" << INTERP_KERNEL::CellModel::GetCellModel(getGeoType()).getRepr() << "_" << _loc_id;
24429 + _profile=oss.str();
24430 + da3->setName(_profile.c_str());
24431 + glob.appendProfile(da3);
24433 + MCAuto<DataArrayInt> da4(DataArrayInt::New());
24434 + _nval=da3->getNbOfElems();
24435 + da4->alloc(_nval*nbi,1);
24436 + int *da4Ptr(da4->getPointer());
24437 + for(int i=0;i<_nval;i++)
24439 + int ref=dai2Ptr[offset+da3Ptr[i]];
24440 + for(int j=0;j<nbi;j++)
24443 + std::ostringstream oss2; oss2 << "Loc_" << nasc.getName() << "_" << INTERP_KERNEL::CellModel::GetCellModel(getGeoType()).getRepr() << "_" << _loc_id;
24444 + _localization=oss2.str();
24445 + getOrCreateAndGetArray()->setContigPartOfSelectedValues(_start,arrr,da4);
24446 + _end=_start+_nval*nbi;
24447 + glob.appendLoc(_localization.c_str(),getGeoType(),gsLoc.getRefCoords(),gsLoc.getGaussCoords(),gsLoc.getWeights());
24451 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::assignFieldNoProfile : not implemented yet for such discretization type of field !");
24457 + * Leaf method of field with profile assignment. This method is the most general one. No optimization is done here.
24458 + * \param [in] pflName input containing name of profile if any. 0 if no profile (except for GAUSS_PT where a no profile can hide a profile when split by loc_id).
24459 + * \param [in] multiTypePfl is the end user profile specified in high level API
24460 + * \param [in] idsInPfl is the selection into the \a multiTypePfl whole profile that corresponds to the current geometric type.
24461 + * \param [in] locIds is the profile needed to be created for MED file format. It can be null if all cells of current geometric type are fetched in \a multiTypePfl.
24462 + * \b WARNING if not null the MED file profile can be subdivided again in case of Gauss points.
24463 + * \param [in] mesh is the mesh coming from the MEDFileMesh instance in correspondence with the MEDFileField. The mesh inside the \a field is simply ignored.
24465 +void MEDFileFieldPerMeshPerTypePerDisc::assignFieldProfile(bool isPflAlone, int& start, const DataArrayInt *multiTypePfl, const DataArrayInt *idsInPfl, DataArrayInt *locIds, int nbOfEltsInWholeMesh, const MEDCouplingFieldTemplate *field, const DataArray *arrr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
24467 + _profile.clear();
24468 + _type=field->getTypeOfField();
24469 + std::string pflName(multiTypePfl->getName());
24470 + std::ostringstream oss; oss << pflName;
24471 + if(_type!=ON_NODES)
24474 + { const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(getGeoType()); oss << "_" << cm.getRepr(); }
24477 + { oss << "_NODE"; }
24480 + if(pflName.empty())
24481 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::assignFieldProfile : existing profile with empty name !");
24482 + if(_type!=ON_GAUSS_PT)
24484 + locIds->setName(oss.str());
24485 + glob.appendProfile(locIds);
24486 + _profile=oss.str();
24494 + _nval=idsInPfl->getNumberOfTuples();
24495 + getOrCreateAndGetArray()->setContigPartOfSelectedValuesSlice(_start,arrr,0,arrr->getNumberOfTuples(),1);
24496 + _end=_start+_nval;
24501 + _nval=idsInPfl->getNumberOfTuples();
24502 + getOrCreateAndGetArray()->setContigPartOfSelectedValues(_start,arrr,idsInPfl);
24503 + _end=_start+_nval;
24506 + case ON_GAUSS_NE:
24508 + MCAuto<DataArrayInt> arr=field->getDiscretization()->getOffsetArr(mesh);
24509 + MCAuto<DataArrayInt> arr2=arr->deltaShiftIndex();
24510 + MCAuto<DataArrayInt> arr3=arr2->selectByTupleId(multiTypePfl->begin(),multiTypePfl->end());
24511 + arr3->computeOffsetsFull();
24512 + MCAuto<DataArrayInt> tmp=idsInPfl->buildExplicitArrByRanges(arr3);
24513 + int trueNval=tmp->getNumberOfTuples();
24514 + _nval=idsInPfl->getNumberOfTuples();
24515 + getOrCreateAndGetArray()->setContigPartOfSelectedValues(_start,arrr,tmp);
24516 + _end=_start+trueNval;
24519 + case ON_GAUSS_PT:
24521 + const MEDCouplingFieldDiscretizationGauss *disc2=dynamic_cast<const MEDCouplingFieldDiscretizationGauss *>(field->getDiscretization());
24523 + throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : invalid call to this method ! Internal Error !");
24524 + const DataArrayInt *da1=disc2->getArrayOfDiscIds();
24525 + const MEDCouplingGaussLocalization& gsLoc=field->getGaussLocalization(_loc_id);
24526 + MCAuto<DataArrayInt> da2=da1->selectByTupleId(idsInPfl->begin(),idsInPfl->end());
24527 + MCAuto<DataArrayInt> da3=da2->findIdsEqual(_loc_id);
24528 + MCAuto<DataArrayInt> da4=idsInPfl->selectByTupleId(da3->begin(),da3->end());
24530 + MCAuto<MEDCouplingMesh> mesh2=mesh->buildPart(multiTypePfl->begin(),multiTypePfl->end());
24531 + MCAuto<DataArrayInt> arr=disc2->getOffsetArr(mesh2);
24533 + MCAuto<DataArrayInt> tmp=DataArrayInt::New();
24535 + for(const int *pt=da4->begin();pt!=da4->end();pt++)
24536 + trueNval+=arr->getIJ(*pt+1,0)-arr->getIJ(*pt,0);
24537 + tmp->alloc(trueNval,1);
24538 + int *tmpPtr=tmp->getPointer();
24539 + for(const int *pt=da4->begin();pt!=da4->end();pt++)
24540 + for(int j=arr->getIJ(*pt,0);j<arr->getIJ(*pt+1,0);j++)
24543 + _nval=da4->getNumberOfTuples();
24544 + getOrCreateAndGetArray()->setContigPartOfSelectedValues(_start,arrr,tmp);
24545 + _end=_start+trueNval;
24546 + oss << "_loc_" << _loc_id;
24549 + MCAuto<DataArrayInt> da5=locIds->selectByTupleId(da3->begin(),da3->end());
24550 + da5->setName(oss.str());
24551 + glob.appendProfile(da5);
24552 + _profile=oss.str();
24556 + if(!da3->isIota(nbOfEltsInWholeMesh))
24558 + da3->setName(oss.str());
24559 + glob.appendProfile(da3);
24560 + _profile=oss.str();
24563 + std::ostringstream oss2; oss2 << "Loc_" << nasc.getName() << "_" << INTERP_KERNEL::CellModel::GetCellModel(getGeoType()).getRepr() << "_" << _loc_id;
24564 + _localization=oss2.str();
24565 + glob.appendLoc(_localization.c_str(),getGeoType(),gsLoc.getRefCoords(),gsLoc.getGaussCoords(),gsLoc.getWeights());
24569 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::assignFieldProfile : not implemented yet for such discretization type of field !");
24574 +void MEDFileFieldPerMeshPerTypePerDisc::assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arrr, MEDFileFieldGlobsReal& glob)
24577 + _nval=arrr->getNumberOfTuples();
24578 + getOrCreateAndGetArray()->setContigPartOfSelectedValuesSlice(_start,arrr,0,_nval,1);
24579 + _end=_start+_nval;
24583 +MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypePerDisc::NewOnRead(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int profileIt, const PartDefinition *pd)
24585 + return new MEDFileFieldPerMeshPerTypePerDisc(fath,type,profileIt,pd);
24588 +MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypePerDisc::New(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int locId)
24590 + return new MEDFileFieldPerMeshPerTypePerDisc(fath,type,locId,std::string());
24593 +MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypePerDisc::New(const MEDFileFieldPerMeshPerTypePerDisc& other)
24595 + return new MEDFileFieldPerMeshPerTypePerDisc(other);
24598 +std::size_t MEDFileFieldPerMeshPerTypePerDisc::getHeapMemorySizeWithoutChildren() const
24600 + return _profile.capacity()+_localization.capacity()+sizeof(MEDFileFieldPerMeshPerTypePerDisc);
24603 +std::vector<const BigMemoryObject *> MEDFileFieldPerMeshPerTypePerDisc::getDirectChildrenWithNull() const
24605 + std::vector<const BigMemoryObject *> ret(1);
24606 + ret[0]=(const PartDefinition*)_pd;
24610 +MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypePerDisc::deepCopy(MEDFileFieldPerMeshPerTypeCommon *father) const
24612 + MCAuto<MEDFileFieldPerMeshPerTypePerDisc> ret(new MEDFileFieldPerMeshPerTypePerDisc(*this));
24613 + ret->_father=father;
24614 + return ret.retn();
24617 +MEDFileFieldPerMeshPerTypePerDisc::MEDFileFieldPerMeshPerTypePerDisc(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField atype, int profileIt, const PartDefinition *pd)
24618 +try:_type(atype),_father(fath),_profile_it(profileIt),_pd(const_cast<PartDefinition *>(pd))
24623 +catch(INTERP_KERNEL::Exception& e)
24628 +MEDFileFieldPerMeshPerTypePerDisc::MEDFileFieldPerMeshPerTypePerDisc(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int locId, const std::string& dummy):_type(type),_father(fath),_loc_id(locId)
24632 +MEDFileFieldPerMeshPerTypePerDisc::MEDFileFieldPerMeshPerTypePerDisc(const MEDFileFieldPerMeshPerTypePerDisc& other):RefCountObject(other),_type(other._type),_father(0),_start(other._start),_end(other._end),_nval(other._nval),_profile(other._profile),_localization(other._localization),_loc_id(other._loc_id),_profile_it(other._profile_it),_pd(other._pd),_tmp_work1(other._tmp_work1)
24636 +MEDFileFieldPerMeshPerTypePerDisc::MEDFileFieldPerMeshPerTypePerDisc():_type(ON_CELLS),_father(0),_start(-std::numeric_limits<int>::max()),_end(-std::numeric_limits<int>::max()),
24637 + _nval(-std::numeric_limits<int>::max()),_loc_id(-std::numeric_limits<int>::max())
24641 +void MEDFileFieldPerMeshPerTypePerDisc::goReadZeValuesInFile(med_idt fid, const std::string& fieldName, int nbOfCompo, int iteration, int order, med_entity_type menti, med_geometry_type mgeoti, unsigned char *startFeedingPtr)
24643 + const PartDefinition *pd(_pd);
24646 + med_entity_type mentiCpy(menti);
24647 + INTERP_KERNEL::AutoPtr<char> locname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
24649 + med_int nbValsInFile(MEDfieldnValueWithProfileByName(fid,fieldName.c_str(),iteration,order,menti,mgeoti,_profile.c_str(),MED_COMPACT_PFLMODE,&tmp1,locname,&nbi));
24650 + if(nbValsInFile==0 && menti==MED_CELL)
24652 + nbValsInFile=MEDfieldnValueWithProfileByName(fid,fieldName.c_str(),iteration,order,MED_DESCENDING_FACE,mgeoti,_profile.c_str(),MED_COMPACT_PFLMODE,&tmp1,locname,&nbi);
24653 + if(nbValsInFile==0)
24655 + nbValsInFile=MEDfieldnValueWithProfileByName(fid,fieldName.c_str(),iteration,order,MED_DESCENDING_EDGE,mgeoti,_profile.c_str(),MED_COMPACT_PFLMODE,&tmp1,locname,&nbi);
24656 + if(nbValsInFile!=0)
24657 + { mentiCpy=MED_DESCENDING_EDGE; }
24660 + { mentiCpy=MED_DESCENDING_FACE; }
24662 + if(_end-_start!=nbValsInFile*nbi)
24664 + std::ostringstream oss; oss << "MEDFileFieldPerMeshPerTypePerDisc::goReadZeValuesInFile : The number of tuples to read is " << nbValsInFile << "*" << nbi << " (nb integration points) ! But in data structure it values " << _end-_start << " is expected !";
24665 + throw INTERP_KERNEL::Exception(oss.str());
24667 + MEDFILESAFECALLERRD0(MEDfieldValueWithProfileRd,(fid,fieldName.c_str(),iteration,order,mentiCpy,mgeoti,MED_COMPACT_PFLMODE,_profile.c_str(),MED_FULL_INTERLACE,MED_ALL_CONSTITUENT,startFeedingPtr));
24671 + if(!_profile.empty())
24672 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::goReadZeValuesInFile : not implemented !");
24673 + INTERP_KERNEL::AutoPtr<char> pflname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE)),locname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
24674 + int profilesize,nbi;
24675 + int overallNval(MEDfieldnValueWithProfile(fid,fieldName.c_str(),iteration,order,menti,mgeoti,_profile_it+1,MED_COMPACT_PFLMODE,pflname,&profilesize,locname,&nbi));
24676 + const SlicePartDefinition *spd(dynamic_cast<const SlicePartDefinition *>(pd));
24679 + int start,stop,step;
24680 + spd->getSlice(start,stop,step);
24681 + int nbOfEltsToLoad(DataArray::GetNumberOfItemGivenBES(start,stop,step,"MEDFileFieldPerMeshPerTypePerDisc::goReadZeValuesInFile"));
24682 + med_filter filter=MED_FILTER_INIT;
24683 + MEDFILESAFECALLERRD0(MEDfilterBlockOfEntityCr,(fid,/*nentity*/overallNval,/*nvaluesperentity*/nbi,/*nconstituentpervalue*/nbOfCompo,
24684 + MED_ALL_CONSTITUENT,MED_FULL_INTERLACE,MED_COMPACT_STMODE,MED_NO_PROFILE,
24685 + /*start*/start+1,/*stride*/step,/*count*/1,/*blocksize*/nbOfEltsToLoad,
24686 + /*lastblocksize=useless because count=1*/0,&filter));
24687 + MEDFILESAFECALLERRD0(MEDfieldValueAdvancedRd,(fid,fieldName.c_str(),iteration,order,menti,mgeoti,&filter,startFeedingPtr));
24688 + MEDfilterClose(&filter);
24691 + const DataArrayPartDefinition *dpd(dynamic_cast<const DataArrayPartDefinition *>(pd));
24694 + dpd->checkConsistencyLight();
24695 + MCAuto<DataArrayInt> myIds(dpd->toDAI());
24696 + int a(myIds->getMinValueInArray()),b(myIds->getMaxValueInArray());
24697 + myIds=myIds->deepCopy();// WARNING deep copy here because _pd is modified by applyLin !!!
24698 + myIds->applyLin(1,-a);
24699 + int nbOfEltsToLoad(b-a+1);
24700 + med_filter filter=MED_FILTER_INIT;
24701 + {//TODO : manage int32 !
24702 + MCAuto<DataArrayDouble> tmp(DataArrayDouble::New());
24703 + tmp->alloc(nbOfEltsToLoad,nbOfCompo);
24704 + MEDFILESAFECALLERRD0(MEDfilterBlockOfEntityCr,(fid,/*nentity*/overallNval,/*nvaluesperentity*/nbi,/*nconstituentpervalue*/nbOfCompo,
24705 + MED_ALL_CONSTITUENT,MED_FULL_INTERLACE,MED_COMPACT_STMODE,MED_NO_PROFILE,
24706 + /*start*/a+1,/*stride*/1,/*count*/1,/*blocksize*/nbOfEltsToLoad,
24707 + /*lastblocksize=useless because count=1*/0,&filter));
24708 + MEDFILESAFECALLERRD0(MEDfieldValueAdvancedRd,(fid,fieldName.c_str(),iteration,order,menti,mgeoti,&filter,reinterpret_cast<unsigned char *>(tmp->getPointer())));
24709 + MCAuto<DataArrayDouble> feeder(DataArrayDouble::New());
24710 + feeder->useExternalArrayWithRWAccess(reinterpret_cast<double *>(startFeedingPtr),_nval,nbOfCompo);
24711 + feeder->setContigPartOfSelectedValues(0,tmp,myIds);
24713 + MEDfilterClose(&filter);
24716 + throw INTERP_KERNEL::Exception("Not implemented yet for not slices!");
24720 +const MEDFileFieldPerMeshPerTypeCommon *MEDFileFieldPerMeshPerTypePerDisc::getFather() const
24725 +void MEDFileFieldPerMeshPerTypePerDisc::loadOnlyStructureOfDataRecursively(med_idt fid, int& start, const MEDFileFieldNameScope& nasc)
24727 + INTERP_KERNEL::AutoPtr<char> locname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
24728 + INTERP_KERNEL::AutoPtr<char> pflname(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
24729 + std::string fieldName(nasc.getName()),meshName(getMeshName());
24730 + int iteration(getIteration()),order(getOrder()),profilesize,nbi;
24731 + TypeOfField type(getType());
24732 + med_geometry_type mgeoti;
24733 + med_entity_type menti;
24734 + _father->entriesForMEDfile(type,mgeoti,menti);
24735 + int zeNVal(MEDfieldnValueWithProfile(fid,fieldName.c_str(),iteration,order,menti,mgeoti,_profile_it+1,MED_COMPACT_PFLMODE,pflname,&profilesize,locname,&nbi));
24736 + if(zeNVal==0 && type==ON_CELLS)
24737 + {//eheh maybe there's a surprise :)
24738 + int zeNVal1(MEDfieldnValueWithProfile(fid,fieldName.c_str(),iteration,order,MED_DESCENDING_FACE,mgeoti,_profile_it+1,MED_COMPACT_PFLMODE,pflname,&profilesize,locname,&nbi));
24741 + int zeNVal2(MEDfieldnValueWithProfile(fid,fieldName.c_str(),iteration,order,MED_DESCENDING_EDGE,mgeoti,_profile_it+1,MED_COMPACT_PFLMODE,pflname,&profilesize,locname,&nbi));
24750 + _profile=MEDLoaderBase::buildStringFromFortran(pflname,MED_NAME_SIZE);
24751 + _localization=MEDLoaderBase::buildStringFromFortran(locname,MED_NAME_SIZE);
24752 + const PartDefinition *pd(_pd);
24759 + if(!_profile.empty())
24760 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::loadOnlyStructureOfDataRecursively : profiles are not managed yet with part of def !");
24761 + _nval=pd->getNumberOfElems();
24764 + _end=start+_nval*nbi;
24766 + if(type==ON_CELLS && !_localization.empty())
24768 + if(_localization!="MED_GAUSS_ELNO")//For compatibility with MED2.3
24769 + setType(ON_GAUSS_PT);
24772 + setType(ON_GAUSS_NE);
24773 + _localization.clear();
24778 +void MEDFileFieldPerMeshPerTypePerDisc::loadBigArray(med_idt fid, const MEDFileFieldNameScope& nasc)
24780 + std::string fieldName(nasc.getName()),meshName(getMeshName());
24781 + int iteration(getIteration()),order(getOrder());
24782 + TypeOfField type(getType());
24783 + med_geometry_type mgeoti;
24784 + med_entity_type menti;
24785 + _father->entriesForMEDfile(type,mgeoti,menti);
24787 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::loadBigArray : internal error in range !");
24790 + DataArray *arr(getOrCreateAndGetArray());//arr is not null due to the spec of getOrCreateAndGetArray
24791 + if(_start<0 || _start>=arr->getNumberOfTuples())
24793 + std::ostringstream oss; oss << "MEDFileFieldPerMeshPerTypePerDisc::loadBigArray : Invalid start ("<< _start << ") regarding admissible range of allocated array [0," << arr->getNumberOfTuples() << ") !";
24794 + throw INTERP_KERNEL::Exception(oss.str());
24796 + if(_end<0 || _end>arr->getNumberOfTuples())
24798 + std::ostringstream oss; oss << "MEDFileFieldPerMeshPerTypePerDisc::loadBigArray : Invalid start ("<< _start << ") regarding admissible range of allocated array [0," << arr->getNumberOfTuples() << "] !";
24799 + throw INTERP_KERNEL::Exception(oss.str());
24801 + int nbOfCompo(arr->getNumberOfComponents());
24802 + DataArrayDouble *arrD(dynamic_cast<DataArrayDouble *>(arr));
24805 + double *startFeeding(arrD->getPointer()+_start*nbOfCompo);
24806 + goReadZeValuesInFile(fid,fieldName,nbOfCompo,iteration,order,menti,mgeoti,reinterpret_cast<unsigned char*>(startFeeding));
24809 + DataArrayInt *arrI(dynamic_cast<DataArrayInt *>(arr));
24812 + int *startFeeding(arrI->getPointer()+_start*nbOfCompo);
24813 + goReadZeValuesInFile(fid,fieldName,nbOfCompo,iteration,order,menti,mgeoti,reinterpret_cast<unsigned char*>(startFeeding));
24816 + DataArrayFloat *arrF(dynamic_cast<DataArrayFloat *>(arr));
24819 + float *startFeeding(arrF->getPointer()+_start*nbOfCompo);
24820 + goReadZeValuesInFile(fid,fieldName,nbOfCompo,iteration,order,menti,mgeoti,reinterpret_cast<unsigned char*>(startFeeding));
24823 + throw INTERP_KERNEL::Exception("Error on array reading ! Unrecognized type of field ! Should be in FLOAT64 FLOAT32 or INT32 !");
24827 + * Set a \c this->_start **and** \c this->_end keeping the same delta between the two.
24829 +void MEDFileFieldPerMeshPerTypePerDisc::setNewStart(int newValueOfStart)
24831 + int delta=_end-_start;
24832 + _start=newValueOfStart;
24833 + _end=_start+delta;
24836 +int MEDFileFieldPerMeshPerTypePerDisc::getIteration() const
24838 + return _father->getIteration();
24841 +int MEDFileFieldPerMeshPerTypePerDisc::getOrder() const
24843 + return _father->getOrder();
24846 +double MEDFileFieldPerMeshPerTypePerDisc::getTime() const
24848 + return _father->getTime();
24851 +std::string MEDFileFieldPerMeshPerTypePerDisc::getMeshName() const
24853 + return _father->getMeshName();
24856 +void MEDFileFieldPerMeshPerTypePerDisc::simpleRepr(int bkOffset, std::ostream& oss, int id) const
24858 + const char startLine[]=" ## ";
24859 + std::string startLine2(bkOffset,' ');
24860 + startLine2+=startLine;
24861 + INTERP_KERNEL::AutoCppPtr<MEDCouplingFieldDiscretization> tmp(MEDCouplingFieldDiscretization::New(_type));
24862 + oss << startLine2 << "Localization #" << id << "." << std::endl;
24863 + oss << startLine2 << " Type=" << tmp->getRepr() << "." << std::endl;
24864 + oss << startLine2 << " This type discretization lies on profile : \"" << _profile << "\" and on the following localization : \"" << _localization << "\"." << std::endl;
24865 + oss << startLine2 << " This type discretization has " << _end-_start << " tuples (start=" << _start << ", end=" << _end << ")." << std::endl;
24866 + oss << startLine2 << " This type discretization has " << (_end-_start)/_nval << " integration points." << std::endl;
24869 +TypeOfField MEDFileFieldPerMeshPerTypePerDisc::getType() const
24874 +INTERP_KERNEL::NormalizedCellType MEDFileFieldPerMeshPerTypePerDisc::getGeoType() const
24876 + return _father->getGeoType();
24879 +void MEDFileFieldPerMeshPerTypePerDisc::fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const
24881 + types.insert(_type);
24884 +void MEDFileFieldPerMeshPerTypePerDisc::setType(TypeOfField newType)
24889 +int MEDFileFieldPerMeshPerTypePerDisc::getNumberOfComponents() const
24891 + return _father->getNumberOfComponents();
24894 +int MEDFileFieldPerMeshPerTypePerDisc::getNumberOfTuples() const
24896 + return _end-_start;
24899 +void MEDFileFieldPerMeshPerTypePerDisc::incrementNbOfVals(int deltaNbVal)
24901 + int nbi((_end-_start)/_nval);
24902 + _nval+=deltaNbVal;
24903 + _end+=nbi*deltaNbVal;
24906 +DataArray *MEDFileFieldPerMeshPerTypePerDisc::getOrCreateAndGetArray()
24908 + return _father->getOrCreateAndGetArray();
24911 +const DataArray *MEDFileFieldPerMeshPerTypePerDisc::getOrCreateAndGetArray() const
24913 + const MEDFileFieldPerMeshPerTypeCommon *fath=_father;
24914 + return fath->getOrCreateAndGetArray();
24917 +const std::vector<std::string>& MEDFileFieldPerMeshPerTypePerDisc::getInfo() const
24919 + return _father->getInfo();
24922 +std::string MEDFileFieldPerMeshPerTypePerDisc::getProfile() const
24927 +void MEDFileFieldPerMeshPerTypePerDisc::setProfile(const std::string& newPflName)
24929 + _profile=newPflName;
24932 +std::string MEDFileFieldPerMeshPerTypePerDisc::getLocalization() const
24934 + return _localization;
24937 +void MEDFileFieldPerMeshPerTypePerDisc::setLocalization(const std::string& newLocName)
24939 + _localization=newLocName;
24942 +void MEDFileFieldPerMeshPerTypePerDisc::changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
24944 + for(std::vector< std::pair<std::vector<std::string>, std::string > >::const_iterator it2=mapOfModif.begin();it2!=mapOfModif.end();it2++)
24946 + if(std::find((*it2).first.begin(),(*it2).first.end(),_profile)!=(*it2).first.end())
24948 + _profile=(*it2).second;
24954 +void MEDFileFieldPerMeshPerTypePerDisc::changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
24956 + for(std::vector< std::pair<std::vector<std::string>, std::string > >::const_iterator it2=mapOfModif.begin();it2!=mapOfModif.end();it2++)
24958 + if(std::find((*it2).first.begin(),(*it2).first.end(),_localization)!=(*it2).first.end())
24960 + _localization=(*it2).second;
24966 +void MEDFileFieldPerMeshPerTypePerDisc::getFieldAtLevel(TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const
24970 + dads.push_back(std::pair<int,int>(_start,_end));
24971 + geoTypes.push_back(getGeoType());
24972 + if(_profile.empty())
24973 + pfls.push_back(0);
24976 + pfls.push_back(glob->getProfile(_profile.c_str()));
24978 + if(_localization.empty())
24979 + locs.push_back(-1);
24982 + locs.push_back(glob->getLocalizationId(_localization.c_str()));
24986 +void MEDFileFieldPerMeshPerTypePerDisc::fillValues(int discId, int& startEntryId, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
24988 + entries[startEntryId]=std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int> ,std::pair<int,int> >(std::pair<INTERP_KERNEL::NormalizedCellType,int>(getGeoType(),discId),std::pair<int,int>(_start,_end));
24992 +void MEDFileFieldPerMeshPerTypePerDisc::writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const
24994 + TypeOfField type=getType();
24995 + INTERP_KERNEL::NormalizedCellType geoType(getGeoType());
24996 + med_geometry_type mgeoti;
24997 + med_entity_type menti;
24998 + _father->entriesForMEDfile(getType(),mgeoti,menti);
24999 + const DataArray *arr(getOrCreateAndGetArray());
25001 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::writeLL : no array set !");
25002 + if(!arr->isAllocated())
25003 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::writeLL : the array to be written is not allocated !");
25004 + const DataArrayDouble *arrD(dynamic_cast<const DataArrayDouble *>(arr));
25005 + const DataArrayInt *arrI(dynamic_cast<const DataArrayInt *>(arr));
25006 + const DataArrayFloat *arrF(dynamic_cast<const DataArrayFloat *>(arr));
25007 + const unsigned char *locToWrite=0;
25009 + locToWrite=reinterpret_cast<const unsigned char *>(arrD->getConstPointer()+_start*arr->getNumberOfComponents());
25011 + locToWrite=reinterpret_cast<const unsigned char *>(arrI->getConstPointer()+_start*arr->getNumberOfComponents());
25013 + locToWrite=reinterpret_cast<const unsigned char *>(arrF->getConstPointer()+_start*arr->getNumberOfComponents());
25015 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::writeLL : not recognized type of values ! Supported are FLOAT64 FLOAT32 and INT32 !");
25016 + MEDFILESAFECALLERWR0(MEDfieldValueWithProfileWr,(fid,nasc.getName().c_str(),getIteration(),getOrder(),getTime(),menti,mgeoti,
25017 + MED_COMPACT_PFLMODE,_profile.c_str(),_localization.c_str(),MED_FULL_INTERLACE,MED_ALL_CONSTITUENT,_nval,
25021 +void MEDFileFieldPerMeshPerTypePerDisc::getCoarseData(TypeOfField& type, std::pair<int,int>& dad, std::string& pfl, std::string& loc) const
25025 + loc=_localization;
25026 + dad.first=_start; dad.second=_end;
25030 + * \param [in] codeOfMesh is of format returned by MEDCouplingUMesh::getDistributionOfTypes. And for each *i* oldCode[3*i+2] gives the position (MEDFileUMesh::PutInThirdComponentOfCodeOffset).
25031 + * This code corresponds to the distribution of types in the corresponding mesh.
25032 + * \param [out] ptToFill memory zone where the output will be stored.
25033 + * \return the size of data pushed into output param \a ptToFill
25035 +int MEDFileFieldPerMeshPerTypePerDisc::fillEltIdsFromCode(int offset, const std::vector<int>& codeOfMesh, const MEDFileFieldGlobsReal& glob, int *ptToFill) const
25038 + std::ostringstream oss;
25039 + std::size_t nbOfType=codeOfMesh.size()/3;
25041 + for(std::size_t i=0;i<nbOfType && found==-1;i++)
25042 + if(getGeoType()==(INTERP_KERNEL::NormalizedCellType)codeOfMesh[3*i])
25046 + const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(getGeoType());
25047 + oss << "MEDFileFieldPerMeshPerTypePerDisc::fillEltIdsFromCode : not found geometric type " << cm.getRepr() << " in the referenced mesh of field !";
25048 + throw INTERP_KERNEL::Exception(oss.str());
25050 + int *work=ptToFill;
25051 + if(_profile.empty())
25053 + if(_nval!=codeOfMesh[3*found+1])
25055 + const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(getGeoType());
25056 + oss << "MEDFileFieldPerMeshPerTypePerDisc::fillEltIdsFromCode : for geometric type " << cm.getRepr() << " number of elt ids in mesh is equal to " << _nval;
25057 + oss << " whereas mesh has " << codeOfMesh[3*found+1] << " for this geometric type !";
25058 + throw INTERP_KERNEL::Exception(oss.str());
25060 + for(int ii=codeOfMesh[3*found+2];ii<codeOfMesh[3*found+2]+_nval;ii++)
25065 + const DataArrayInt *pfl=glob.getProfile(_profile.c_str());
25066 + if(pfl->getNumberOfTuples()!=_nval)
25068 + const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(getGeoType());
25069 + oss << "MEDFileFieldPerMeshPerTypePerDisc::fillEltIdsFromCode : for geometric type " << cm.getRepr() << ", field is defined on profile \"" << _profile << "\" and size of profile is ";
25071 + oss << pfl->getNumberOfTuples() << " whereas the number of ids is set to " << _nval << " for this geometric type !";
25072 + throw INTERP_KERNEL::Exception(oss.str());
25074 + int offset2=codeOfMesh[3*found+2];
25075 + for(const int *pflId=pfl->begin();pflId!=pfl->end();pflId++)
25077 + if(*pflId<codeOfMesh[3*found+1])
25078 + *work++=offset2+*pflId;
25084 +int MEDFileFieldPerMeshPerTypePerDisc::fillTupleIds(int *ptToFill) const
25086 + for(int i=_start;i<_end;i++)
25088 + return _end-_start;
25091 +int MEDFileFieldPerMeshPerTypePerDisc::ConvertType(TypeOfField type, int locId)
25097 + case ON_GAUSS_NE:
25099 + case ON_GAUSS_PT:
25102 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::ConvertType : not managed type of field !");
25106 +std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> > MEDFileFieldPerMeshPerTypePerDisc::SplitPerDiscretization(const std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>& entries)
25109 + std::map<std::pair<std::string,TypeOfField>,int> m;
25110 + std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> > ret;
25111 + for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=entries.begin();it!=entries.end();it++)
25112 + if(m.find(std::pair<std::string,TypeOfField>((*it)->getLocalization(),(*it)->getType()))==m.end())
25113 + m[std::pair<std::string,TypeOfField>((*it)->getLocalization(),(*it)->getType())]=id++;
25115 + for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=entries.begin();it!=entries.end();it++)
25116 + ret[m[std::pair<std::string,TypeOfField>((*it)->getLocalization(),(*it)->getType())]].push_back(*it);
25121 + * - \c this->_loc_id mutable attribute is used for elt id in mesh offsets.
25123 + * \param [in] offset the offset id used to take into account that \a result is not compulsory empty in input
25124 + * \param [in] entriesOnSameDisc some entries **on same localization** if not the result can be invalid. The _start and _end on them are relative to \a arr parameter.
25125 + * \param [in] explicitIdsInMesh ids in mesh of the considered chunk.
25126 + * \param [in] newCode one of the input parameter to explicit the new geo type dispatch (in classical format same than those asked by MEDFileFields::renumberEntitiesLyingOnMesh)
25127 + * \param [in,out] glob if necessary by the method, new profiles can be added to it
25128 + * \param [in,out] arr after the call of this method \a arr is renumbered to be compliant with added entries to \a result.
25129 + * \param [out] result All new entries will be appended on it.
25130 + * \return false if the configuration of renumbering leads to an unnecessary resplit of input \a entriesOnSameDisc. If not true is returned (the most general case !)
25132 +bool MEDFileFieldPerMeshPerTypePerDisc::RenumberChunks(int offset, const std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>& entriesOnSameDisc,
25133 + const DataArrayInt *explicitIdsInMesh,
25134 + const std::vector<int>& newCode,
25135 + MEDFileFieldGlobsReal& glob, DataArrayDouble *arr,
25136 + std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >& result)
25138 + if(entriesOnSameDisc.empty())
25140 + TypeOfField type=entriesOnSameDisc[0]->getType();
25141 + int szEntities=0,szTuples=0;
25142 + for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=entriesOnSameDisc.begin();it!=entriesOnSameDisc.end();it++)
25143 + { szEntities+=(*it)->_nval; szTuples+=(*it)->_end-(*it)->_start; }
25144 + int nbi=szTuples/szEntities;
25145 + if(szTuples%szEntities!=0)
25146 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::RenumberChunks : internal error the splitting into same dicretization failed !");
25147 + MCAuto<DataArrayInt> renumTuples=DataArrayInt::New(); renumTuples->alloc(szTuples,1);
25148 + MCAuto<DataArrayInt> ranges=MEDCouplingUMesh::ComputeRangesFromTypeDistribution(newCode);
25149 + std::vector< MCAuto<DataArrayInt> > newGeoTypesPerChunk(entriesOnSameDisc.size());
25150 + std::vector< const DataArrayInt * > newGeoTypesPerChunk2(entriesOnSameDisc.size());
25151 + std::vector< MCAuto<DataArrayInt> > newGeoTypesPerChunk_bis(entriesOnSameDisc.size());
25152 + std::vector< const DataArrayInt * > newGeoTypesPerChunk3(entriesOnSameDisc.size());
25153 + MCAuto<DataArrayInt> newGeoTypesPerChunk4=DataArrayInt::New(); newGeoTypesPerChunk4->alloc(szEntities,nbi);
25155 + for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=entriesOnSameDisc.begin();it!=entriesOnSameDisc.end();it++,id++)
25157 + int startOfEltIdOfChunk=(*it)->_start;
25158 + MCAuto<DataArrayInt> newEltIds=explicitIdsInMesh->subArray(startOfEltIdOfChunk,startOfEltIdOfChunk+(*it)->_nval);
25159 + MCAuto<DataArrayInt> rangeIdsForChunk=newEltIds->findRangeIdForEachTuple(ranges);
25160 + MCAuto<DataArrayInt> idsInRrangeForChunk=newEltIds->findIdInRangeForEachTuple(ranges);
25162 + MCAuto<DataArrayInt> tmp=rangeIdsForChunk->duplicateEachTupleNTimes(nbi); rangeIdsForChunk->rearrange(nbi);
25163 + newGeoTypesPerChunk4->setPartOfValues1(tmp,(*it)->_tmp_work1-offset,(*it)->_tmp_work1+(*it)->_nval*nbi-offset,1,0,nbi,1);
25165 + newGeoTypesPerChunk[id]=rangeIdsForChunk; newGeoTypesPerChunk2[id]=rangeIdsForChunk;
25166 + newGeoTypesPerChunk_bis[id]=idsInRrangeForChunk; newGeoTypesPerChunk3[id]=idsInRrangeForChunk;
25168 + MCAuto<DataArrayInt> newGeoTypesEltIdsAllGather=DataArrayInt::Aggregate(newGeoTypesPerChunk2); newGeoTypesPerChunk.clear(); newGeoTypesPerChunk2.clear();
25169 + MCAuto<DataArrayInt> newGeoTypesEltIdsAllGather2=DataArrayInt::Aggregate(newGeoTypesPerChunk3); newGeoTypesPerChunk_bis.clear(); newGeoTypesPerChunk3.clear();
25170 + MCAuto<DataArrayInt> diffVals=newGeoTypesEltIdsAllGather->getDifferentValues();
25171 + MCAuto<DataArrayInt> renumEltIds=newGeoTypesEltIdsAllGather->buildPermArrPerLevel();
25173 + MCAuto<DataArrayInt> renumTupleIds=newGeoTypesPerChunk4->buildPermArrPerLevel();
25175 + MCAuto<DataArrayDouble> arrPart=arr->subArray(offset,offset+szTuples);
25176 + arrPart->renumberInPlace(renumTupleIds->begin());
25177 + arr->setPartOfValues1(arrPart,offset,offset+szTuples,1,0,arrPart->getNumberOfComponents(),1);
25179 + const int *idIt=diffVals->begin();
25180 + std::list<const MEDFileFieldPerMeshPerTypePerDisc *> li(entriesOnSameDisc.begin(),entriesOnSameDisc.end());
25182 + for(int i=0;i<diffVals->getNumberOfTuples();i++,idIt++)
25184 + MCAuto<DataArrayInt> ids=newGeoTypesEltIdsAllGather->findIdsEqual(*idIt);
25185 + MCAuto<DataArrayInt> subIds=newGeoTypesEltIdsAllGather2->selectByTupleId(ids->begin(),ids->end());
25186 + int nbEntityElts=subIds->getNumberOfTuples();
25188 + MCAuto<MEDFileFieldPerMeshPerTypePerDisc> eltToAdd=MEDFileFieldPerMeshPerTypePerDisc::
25189 + NewObjectOnSameDiscThanPool(type,(INTERP_KERNEL::NormalizedCellType)newCode[3*(*idIt)],subIds,!subIds->isIota(newCode[3*(*idIt)+1]),nbi,
25193 + result.push_back(eltToAdd);
25194 + offset2+=nbEntityElts*nbi;
25196 + ret=ret || li.empty();
25201 + * \param [in] typeF type of field of new chunk
25202 + * \param [in] geoType the geometric type of the chunk
25203 + * \param [in] idsOfMeshElt the entity ids of mesh (cells or nodes) of the new chunk.
25204 + * \param [in] isPfl specifies if a profile is requested regarding size of \a idsOfMeshElt and the number of such entities regarding underlying mesh.
25205 + * \param [in] nbi number of integration points
25206 + * \param [in] offset The offset in the **global array of data**.
25207 + * \param [in,out] entriesOnSameDisc the pool **on the same discretization** inside which it will be attempted to find an existing entry corresponding exactly
25208 + * to the new chunk to create.
25209 + * \param [in,out] glob the global shared info that will be requested for existing profiles or to append a new profile if needed.
25210 + * \param [out] notInExisting If false the return newly allocated entry is not coming from \a entriesOnSameDisc. If true the output comes from copy of \a entriesOnSameDisc
25211 + * and corresponding entry erased from \a entriesOnSameDisc.
25212 + * \return a newly allocated chunk
25214 +MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypePerDisc::NewObjectOnSameDiscThanPool(TypeOfField typeF, INTERP_KERNEL::NormalizedCellType geoType, DataArrayInt *idsOfMeshElt,
25215 + bool isPfl, int nbi, int offset,
25216 + std::list< const MEDFileFieldPerMeshPerTypePerDisc *>& entriesOnSameDisc,
25217 + MEDFileFieldGlobsReal& glob,
25218 + bool ¬InExisting)
25220 + int nbMeshEntities=idsOfMeshElt->getNumberOfTuples();
25221 + std::list< const MEDFileFieldPerMeshPerTypePerDisc *>::iterator it=entriesOnSameDisc.begin();
25222 + for(;it!=entriesOnSameDisc.end();it++)
25224 + if(((INTERP_KERNEL::NormalizedCellType)(*it)->_loc_id)==geoType && (*it)->_nval==nbMeshEntities)
25228 + if((*it)->_profile.empty())
25231 + if(!(*it)->_profile.empty())
25233 + const DataArrayInt *pfl=glob.getProfile((*it)->_profile.c_str());
25234 + if(pfl->isEqualWithoutConsideringStr(*idsOfMeshElt))
25240 + if(it==entriesOnSameDisc.end())
25242 + notInExisting=true;
25243 + MEDFileFieldPerMeshPerTypePerDisc *ret=new MEDFileFieldPerMeshPerTypePerDisc;
25244 + ret->_type=typeF;
25245 + ret->_loc_id=(int)geoType;
25246 + ret->_nval=nbMeshEntities;
25247 + ret->_start=offset;
25248 + ret->_end=ret->_start+ret->_nval*nbi;
25251 + idsOfMeshElt->setName(glob.createNewNameOfPfl().c_str());
25252 + glob.appendProfile(idsOfMeshElt);
25253 + ret->_profile=idsOfMeshElt->getName();
25255 + //tony treatment of localization
25260 + notInExisting=false;
25261 + MEDFileFieldPerMeshPerTypePerDisc *ret=MEDFileFieldPerMeshPerTypePerDisc::New(*(*it));
25262 + ret->_loc_id=(int)geoType;
25263 + ret->setNewStart(offset);
25264 + entriesOnSameDisc.erase(it);
25270 +////////////////////////////////////
25272 +MEDFileFieldPerMeshPerTypeCommon::~MEDFileFieldPerMeshPerTypeCommon()
25276 +void MEDFileFieldPerMeshPerTypeCommon::setFather(MEDFileFieldPerMesh *father)
25281 +void MEDFileFieldPerMeshPerTypeCommon::accept(MEDFileFieldVisitor& visitor) const
25283 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
25284 + if((*it).isNotNull())
25286 + visitor.newPerMeshPerTypePerDisc(*it);
25290 +void MEDFileFieldPerMeshPerTypeCommon::deepCopyElements()
25293 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++,i++)
25295 + if((const MEDFileFieldPerMeshPerTypePerDisc *)*it)
25296 + _field_pm_pt_pd[i]=(*it)->deepCopy(this);
25300 +std::size_t MEDFileFieldPerMeshPerTypeCommon::getHeapMemorySizeWithoutChildren() const
25302 + return _field_pm_pt_pd.capacity()*sizeof(MCAuto<MEDFileFieldPerMeshPerTypePerDisc>);
25305 +std::vector<const BigMemoryObject *> MEDFileFieldPerMeshPerTypeCommon::getDirectChildrenWithNull() const
25307 + std::vector<const BigMemoryObject *> ret;
25308 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
25309 + ret.push_back((const MEDFileFieldPerMeshPerTypePerDisc *)*it);
25313 +void MEDFileFieldPerMeshPerTypeCommon::assignFieldNoProfile(int& start, int offset, int nbOfCells, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
25315 + std::vector<int> pos=addNewEntryIfNecessary(field,offset,nbOfCells);
25316 + for(std::vector<int>::const_iterator it=pos.begin();it!=pos.end();it++)
25317 + _field_pm_pt_pd[*it]->assignFieldNoProfile(start,offset,nbOfCells,field,arr,glob,nasc);
25321 + * This method is the most general one. No optimization is done here.
25322 + * \param [in] multiTypePfl is the end user profile specified in high level API
25323 + * \param [in] idsInPfl is the selection into the \a multiTypePfl whole profile that corresponds to the current geometric type.
25324 + * \param [in] locIds is the profile needed to be created for MED file format. It can be null if all cells of current geometric type are fetched in \a multiTypePfl.
25325 + * \b WARNING if not null the MED file profile can be subdivided again in case of Gauss points.
25326 + * \param [in] nbOfEltsInWholeMesh nb of elts of type \a this->_geo_type in \b WHOLE mesh
25327 + * \param [in] mesh is the mesh coming from the MEDFileMesh instance in correspondence with the MEDFileField. The mesh inside the \a field is simply ignored.
25329 +void MEDFileFieldPerMeshPerTypeCommon::assignFieldProfile(bool isPflAlone, int& start, const DataArrayInt *multiTypePfl, const DataArrayInt *idsInPfl, DataArrayInt *locIds, int nbOfEltsInWholeMesh, const MEDCouplingFieldTemplate *field, const DataArray *arr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
25331 + std::vector<int> pos=addNewEntryIfNecessary(field,idsInPfl);
25332 + for(std::vector<int>::const_iterator it=pos.begin();it!=pos.end();it++)
25333 + _field_pm_pt_pd[*it]->assignFieldProfile(isPflAlone,start,multiTypePfl,idsInPfl,locIds,nbOfEltsInWholeMesh,field,arr,mesh,glob,nasc);
25336 +void MEDFileFieldPerMeshPerTypeCommon::assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob)
25338 + _field_pm_pt_pd.resize(1);
25339 + _field_pm_pt_pd[0]=MEDFileFieldPerMeshPerTypePerDisc::New(this,ON_NODES,-3);
25340 + _field_pm_pt_pd[0]->assignNodeFieldNoProfile(start,field,arr,glob);
25343 +void MEDFileFieldPerMeshPerTypeCommon::assignNodeFieldProfile(int& start, const DataArrayInt *pfl, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
25345 + MCAuto<DataArrayInt> pfl2=pfl->deepCopy();
25346 + if(!arr || !arr->isAllocated())
25347 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypeCommon::assignNodeFieldProfile : input array is null, or not allocated !");
25348 + _field_pm_pt_pd.resize(1);
25349 + _field_pm_pt_pd[0]=MEDFileFieldPerMeshPerTypePerDisc::New(this,ON_NODES,-3);
25350 + _field_pm_pt_pd[0]->assignFieldProfile(true,start,pfl,pfl2,pfl2,-1,field,arr,0,glob,nasc);//mesh is not requested so 0 is send.
25353 +std::vector<int> MEDFileFieldPerMeshPerTypeCommon::addNewEntryIfNecessary(const MEDCouplingFieldTemplate *field, int offset, int nbOfCells)
25355 + TypeOfField type=field->getTypeOfField();
25356 + if(type!=ON_GAUSS_PT)
25358 + int locIdToFind=MEDFileFieldPerMeshPerTypePerDisc::ConvertType(type,0);
25359 + int sz=_field_pm_pt_pd.size();
25360 + bool found=false;
25361 + for(int j=0;j<sz && !found;j++)
25363 + if(_field_pm_pt_pd[j]->getLocId()==locIdToFind)
25365 + _field_pm_pt_pd[j]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
25371 + _field_pm_pt_pd.resize(sz+1);
25372 + _field_pm_pt_pd[sz]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
25374 + std::vector<int> ret(1,(int)sz);
25379 + std::vector<int> ret2=addNewEntryIfNecessaryGauss(field,offset,nbOfCells);
25380 + int sz2=ret2.size();
25381 + std::vector<int> ret3(sz2);
25383 + for(int i=0;i<sz2;i++)
25385 + int sz=_field_pm_pt_pd.size();
25386 + int locIdToFind=ret2[i];
25387 + bool found=false;
25388 + for(int j=0;j<sz && !found;j++)
25390 + if(_field_pm_pt_pd[j]->getLocId()==locIdToFind)
25392 + _field_pm_pt_pd[j]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
25399 + _field_pm_pt_pd.resize(sz+1);
25400 + _field_pm_pt_pd[sz]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
25408 +std::vector<int> MEDFileFieldPerMeshPerTypeCommon::addNewEntryIfNecessaryGauss(const MEDCouplingFieldTemplate *field, int offset, int nbOfCells)
25410 + const MEDCouplingFieldDiscretization *disc=field->getDiscretization();
25411 + const MEDCouplingFieldDiscretizationGauss *disc2=dynamic_cast<const MEDCouplingFieldDiscretizationGauss *>(disc);
25413 + throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : invalid call to this method ! Internal Error !");
25414 + const DataArrayInt *da=disc2->getArrayOfDiscIds();
25416 + throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss (no profile) : no localization ids per cell array available ! The input Gauss node field is maybe invalid !");
25417 + MCAuto<DataArrayInt> da2=da->selectByTupleIdSafeSlice(offset,offset+nbOfCells,1);
25418 + MCAuto<DataArrayInt> retTmp=da2->getDifferentValues();
25419 + if(retTmp->presenceOfValue(-1))
25420 + throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : some cells have no dicretization description !");
25421 + std::vector<int> ret(retTmp->begin(),retTmp->end());
25425 +std::vector<int> MEDFileFieldPerMeshPerTypeCommon::addNewEntryIfNecessary(const MEDCouplingFieldTemplate *field, const DataArrayInt *subCells)
25427 + TypeOfField type=field->getTypeOfField();
25428 + if(type!=ON_GAUSS_PT)
25430 + int locIdToFind=MEDFileFieldPerMeshPerTypePerDisc::ConvertType(type,0);
25431 + int sz=_field_pm_pt_pd.size();
25432 + bool found=false;
25433 + for(int j=0;j<sz && !found;j++)
25435 + if(_field_pm_pt_pd[j]->getLocId()==locIdToFind)
25437 + _field_pm_pt_pd[j]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
25443 + _field_pm_pt_pd.resize(sz+1);
25444 + _field_pm_pt_pd[sz]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
25446 + std::vector<int> ret(1,0);
25451 + std::vector<int> ret2=addNewEntryIfNecessaryGauss(field,subCells);
25452 + int sz2=ret2.size();
25453 + std::vector<int> ret3(sz2);
25455 + for(int i=0;i<sz2;i++)
25457 + int sz=_field_pm_pt_pd.size();
25458 + int locIdToFind=ret2[i];
25459 + bool found=false;
25460 + for(int j=0;j<sz && !found;j++)
25462 + if(_field_pm_pt_pd[j]->getLocId()==locIdToFind)
25464 + _field_pm_pt_pd[j]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
25471 + _field_pm_pt_pd.resize(sz+1);
25472 + _field_pm_pt_pd[sz]=MEDFileFieldPerMeshPerTypePerDisc::New(this,type,locIdToFind);
25480 +std::vector<int> MEDFileFieldPerMeshPerTypeCommon::addNewEntryIfNecessaryGauss(const MEDCouplingFieldTemplate *field, const DataArrayInt *subCells)
25482 + const MEDCouplingFieldDiscretization *disc=field->getDiscretization();
25483 + const MEDCouplingFieldDiscretizationGauss *disc2=dynamic_cast<const MEDCouplingFieldDiscretizationGauss *>(disc);
25485 + throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : invalid call to this method ! Internal Error !");
25486 + const DataArrayInt *da=disc2->getArrayOfDiscIds();
25488 + throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : no localization ids per cell array available ! The input Gauss node field is maybe invalid !");
25489 + MCAuto<DataArrayInt> da2=da->selectByTupleIdSafe(subCells->getConstPointer(),subCells->getConstPointer()+subCells->getNumberOfTuples());
25490 + MCAuto<DataArrayInt> retTmp=da2->getDifferentValues();
25491 + if(retTmp->presenceOfValue(-1))
25492 + throw INTERP_KERNEL::Exception("addNewEntryIfNecessaryGauss : some cells have no dicretization description !");
25493 + std::vector<int> ret(retTmp->begin(),retTmp->end());
25497 +const MEDFileFieldPerMesh *MEDFileFieldPerMeshPerTypeCommon::getFather() const
25502 +bool MEDFileFieldPerMeshPerTypeCommon::isUniqueLevel(int& dim) const
25504 + const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(getGeoType()));
25505 + int curDim((int)cm.getDimension());
25506 + if(dim!=std::numeric_limits<int>::max())
25516 +void MEDFileFieldPerMeshPerTypeCommon::fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const
25518 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
25520 + (*it)->fillTypesOfFieldAvailable(types);
25524 +void MEDFileFieldPerMeshPerTypeCommon::fillFieldSplitedByType(std::vector< std::pair<int,int> >& dads, std::vector<TypeOfField>& types, std::vector<std::string>& pfls, std::vector<std::string>& locs) const
25526 + int sz=_field_pm_pt_pd.size();
25527 + dads.resize(sz); types.resize(sz); pfls.resize(sz); locs.resize(sz);
25528 + for(int i=0;i<sz;i++)
25530 + _field_pm_pt_pd[i]->getCoarseData(types[i],dads[i],pfls[i],locs[i]);
25534 +int MEDFileFieldPerMeshPerTypeCommon::getIteration() const
25536 + return _father->getIteration();
25539 +int MEDFileFieldPerMeshPerTypeCommon::getOrder() const
25541 + return _father->getOrder();
25544 +double MEDFileFieldPerMeshPerTypeCommon::getTime() const
25546 + return _father->getTime();
25549 +std::string MEDFileFieldPerMeshPerTypeCommon::getMeshName() const
25551 + return _father->getMeshName();
25554 +void MEDFileFieldPerMeshPerTypeCommon::getSizes(int& globalSz, int& nbOfEntries) const
25556 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
25558 + globalSz+=(*it)->getNumberOfTuples();
25560 + nbOfEntries+=(int)_field_pm_pt_pd.size();
25563 +int MEDFileFieldPerMeshPerTypeCommon::getNumberOfComponents() const
25565 + return _father->getNumberOfComponents();
25568 +bool MEDFileFieldPerMeshPerTypeCommon::presenceOfMultiDiscPerGeoType() const
25570 + std::size_t nb(0);
25571 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
25573 + const MEDFileFieldPerMeshPerTypePerDisc *fmtd(*it);
25580 +void MEDFileFieldPerMeshPerTypeCommon::pushDiscretization(MEDFileFieldPerMeshPerTypePerDisc *disc)
25582 + MCAuto<MEDFileFieldPerMeshPerTypePerDisc> elt;
25583 + elt.takeRef(disc);
25584 + _field_pm_pt_pd.push_back(elt);
25587 +DataArray *MEDFileFieldPerMeshPerTypeCommon::getOrCreateAndGetArray()
25589 + return _father->getOrCreateAndGetArray();
25592 +const DataArray *MEDFileFieldPerMeshPerTypeCommon::getOrCreateAndGetArray() const
25594 + const MEDFileFieldPerMesh *fath=_father;
25595 + return fath->getOrCreateAndGetArray();
25598 +const std::vector<std::string>& MEDFileFieldPerMeshPerTypeCommon::getInfo() const
25600 + return _father->getInfo();
25603 +std::vector<std::string> MEDFileFieldPerMeshPerTypeCommon::getPflsReallyUsed() const
25605 + std::vector<std::string> ret;
25606 + std::set<std::string> ret2;
25607 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
25609 + std::string tmp=(*it1)->getProfile();
25611 + if(ret2.find(tmp)==ret2.end())
25613 + ret.push_back(tmp);
25614 + ret2.insert(tmp);
25620 +std::vector<std::string> MEDFileFieldPerMeshPerTypeCommon::getLocsReallyUsed() const
25622 + std::vector<std::string> ret;
25623 + std::set<std::string> ret2;
25624 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
25626 + std::string tmp=(*it1)->getLocalization();
25627 + if(!tmp.empty() && tmp!=MED_GAUSS_ELNO)
25628 + if(ret2.find(tmp)==ret2.end())
25630 + ret.push_back(tmp);
25631 + ret2.insert(tmp);
25637 +std::vector<std::string> MEDFileFieldPerMeshPerTypeCommon::getPflsReallyUsedMulti() const
25639 + std::vector<std::string> ret;
25640 + std::set<std::string> ret2;
25641 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
25643 + std::string tmp=(*it1)->getProfile();
25645 + ret.push_back(tmp);
25650 +std::vector<std::string> MEDFileFieldPerMeshPerTypeCommon::getLocsReallyUsedMulti() const
25652 + std::vector<std::string> ret;
25653 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
25655 + std::string tmp=(*it1)->getLocalization();
25656 + if(!tmp.empty() && tmp!=MED_GAUSS_ELNO)
25657 + ret.push_back(tmp);
25662 +void MEDFileFieldPerMeshPerTypeCommon::changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
25664 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
25665 + (*it1)->changePflsRefsNamesGen(mapOfModif);
25668 +void MEDFileFieldPerMeshPerTypeCommon::changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
25670 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it1=_field_pm_pt_pd.begin();it1!=_field_pm_pt_pd.end();it1++)
25671 + (*it1)->changeLocsRefsNamesGen(mapOfModif);
25674 +MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId(int locId)
25676 + if(_field_pm_pt_pd.empty())
25678 + std::ostringstream oss; oss << "MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId : no localizations for geotype \"" << getGeoTypeRepr() << "\" !";
25679 + throw INTERP_KERNEL::Exception(oss.str());
25681 + if(locId>=0 && locId<(int)_field_pm_pt_pd.size())
25682 + return _field_pm_pt_pd[locId];
25683 + std::ostringstream oss2; oss2 << "MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId : no such locId available (" << locId;
25684 + oss2 << ") for geometric type \"" << getGeoTypeRepr() << "\" It should be in [0," << _field_pm_pt_pd.size() << ") !";
25685 + throw INTERP_KERNEL::Exception(oss2.str().c_str());
25686 + return static_cast<MEDFileFieldPerMeshPerTypePerDisc*>(0);
25689 +const MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId(int locId) const
25691 + if(_field_pm_pt_pd.empty())
25693 + std::ostringstream oss; oss << "MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId : no localizations for geotype \"" << getGeoTypeRepr() << "\" !";
25694 + throw INTERP_KERNEL::Exception(oss.str());
25696 + if(locId>=0 && locId<(int)_field_pm_pt_pd.size())
25697 + return _field_pm_pt_pd[locId];
25698 + std::ostringstream oss2; oss2 << "MEDFileFieldPerMeshPerTypeCommon::getLeafGivenLocId : no such locId available (" << locId;
25699 + oss2 << ") for geometric type \"" << getGeoTypeRepr() << "\" It should be in [0," << _field_pm_pt_pd.size() << ") !";
25700 + throw INTERP_KERNEL::Exception(oss2.str().c_str());
25701 + return static_cast<const MEDFileFieldPerMeshPerTypePerDisc*>(0);
25704 +int MEDFileFieldPerMeshPerTypeCommon::locIdOfLeaf(const MEDFileFieldPerMeshPerTypePerDisc *leaf) const
25707 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++,ret++)
25709 + const MEDFileFieldPerMeshPerTypePerDisc *cand(*it);
25713 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypeCommon::locIdOfLeaf : not found such a leaf in this !");
25716 +void MEDFileFieldPerMeshPerTypeCommon::fillValues(int& startEntryId, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
25719 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++,i++)
25721 + (*it)->fillValues(i,startEntryId,entries);
25725 +void MEDFileFieldPerMeshPerTypeCommon::setLeaves(const std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc > >& leaves)
25727 + _field_pm_pt_pd=leaves;
25728 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
25729 + (*it)->setFather(this);
25733 + * \param [in,out] globalNum a global numbering counter for the renumbering.
25734 + * \param [out] its - list of pair (start,stop) kept
25735 + * \return bool - false if the type of field \a tof is not contained in \a this.
25737 +bool MEDFileFieldPerMeshPerTypeCommon::keepOnlySpatialDiscretization(TypeOfField tof, int &globalNum, std::vector< std::pair<int,int> >& its)
25740 + std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> > newPmPtPd;
25741 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
25742 + if((*it)->getType()==tof)
25744 + newPmPtPd.push_back(*it);
25745 + std::pair<int,int> bgEnd; bgEnd.first=(*it)->getStart(); bgEnd.second=(*it)->getEnd();
25746 + (*it)->setNewStart(globalNum);
25747 + globalNum=(*it)->getEnd();
25748 + its.push_back(bgEnd);
25752 + _field_pm_pt_pd=newPmPtPd;
25757 + * \param [in,out] globalNum a global numbering counter for the renumbering.
25758 + * \param [out] its - list of pair (start,stop) kept
25759 + * \return bool - false if the type of field \a tof is not contained in \a this.
25761 +bool MEDFileFieldPerMeshPerTypeCommon::keepOnlyGaussDiscretization(std::size_t idOfDisc, int &globalNum, std::vector< std::pair<int,int> >& its)
25763 + if(_field_pm_pt_pd.size()<=idOfDisc)
25765 + MCAuto<MEDFileFieldPerMeshPerTypePerDisc> elt(_field_pm_pt_pd[idOfDisc]);
25766 + std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> > newPmPtPd(1,elt);
25767 + std::pair<int,int> bgEnd; bgEnd.first=_field_pm_pt_pd[idOfDisc]->getStart(); bgEnd.second=_field_pm_pt_pd[idOfDisc]->getEnd();
25768 + elt->setNewStart(globalNum);
25769 + globalNum=elt->getEnd();
25770 + its.push_back(bgEnd);
25771 + _field_pm_pt_pd=newPmPtPd;
25775 +void MEDFileFieldPerMeshPerTypeCommon::loadOnlyStructureOfDataRecursively(med_idt fid, int &start, const MEDFileFieldNameScope& nasc)
25777 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
25778 + (*it)->loadOnlyStructureOfDataRecursively(fid,start,nasc);
25781 +void MEDFileFieldPerMeshPerTypeCommon::loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc)
25783 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
25784 + (*it)->loadBigArray(fid,nasc);
25787 +void MEDFileFieldPerMeshPerTypeCommon::writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const
25789 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
25791 + (*it)->copyOptionsFrom(*this);
25792 + (*it)->writeLL(fid,nasc);
25796 +med_entity_type MEDFileFieldPerMeshPerTypeCommon::ConvertIntoMEDFileType(TypeOfField ikType, INTERP_KERNEL::NormalizedCellType ikGeoType, med_geometry_type& medfGeoType)
25801 + medfGeoType=typmai3[(int)ikGeoType];
25804 + medfGeoType=MED_NONE;
25806 + case ON_GAUSS_NE:
25807 + medfGeoType=typmai3[(int)ikGeoType];
25808 + return MED_NODE_ELEMENT;
25809 + case ON_GAUSS_PT:
25810 + medfGeoType=typmai3[(int)ikGeoType];
25813 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypeCommon::ConvertIntoMEDFileType : unexpected entity type ! internal error");
25815 + return MED_UNDEF_ENTITY_TYPE;
25818 +//////////////////////////////////////////////////
25820 +MEDFileFieldPerMeshPerType *MEDFileFieldPerMeshPerType::NewOnRead(med_idt fid, MEDFileFieldPerMesh *fath, TypeOfField type, INTERP_KERNEL::NormalizedCellType geoType, const MEDFileFieldNameScope& nasc, const PartDefinition *pd)
25822 + return new MEDFileFieldPerMeshPerType(fid,fath,type,geoType,nasc,pd);
25825 +MEDFileFieldPerMeshPerType *MEDFileFieldPerMeshPerType::New(MEDFileFieldPerMesh *fath, INTERP_KERNEL::NormalizedCellType geoType)
25827 + return new MEDFileFieldPerMeshPerType(fath,geoType);
25830 +MEDFileFieldPerMeshPerType *MEDFileFieldPerMeshPerType::deepCopy(MEDFileFieldPerMesh *father) const
25832 + MCAuto<MEDFileFieldPerMeshPerType> ret=new MEDFileFieldPerMeshPerType(*this);
25833 + ret->setFather(father);
25834 + ret->deepCopyElements();
25835 + return ret.retn();
25838 +void MEDFileFieldPerMeshPerType::getFieldAtLevel(int meshDim, TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const
25840 + if(_geo_type!=INTERP_KERNEL::NORM_ERROR)
25842 + const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(_geo_type);
25843 + if(meshDim!=(int)cm.getDimension())
25846 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++)
25847 + (*it)->getFieldAtLevel(type,glob,dads,pfls,locs,geoTypes);
25850 +INTERP_KERNEL::NormalizedCellType MEDFileFieldPerMeshPerType::getGeoType() const
25852 + return _geo_type;
25855 +void MEDFileFieldPerMeshPerType::entriesForMEDfile(TypeOfField mct, med_geometry_type& gt, med_entity_type& ent) const
25857 + ent=MEDFileFieldPerMeshPerTypeCommon::ConvertIntoMEDFileType(mct,_geo_type,gt);
25860 +void MEDFileFieldPerMeshPerType::getDimension(int& dim) const
25862 + const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(_geo_type));
25863 + int curDim((int)cm.getDimension());
25864 + dim=std::max(dim,curDim);
25867 +void MEDFileFieldPerMeshPerType::simpleRepr(int bkOffset, std::ostream& oss, int id) const
25869 + const char startLine[]=" ## ";
25870 + std::string startLine2(bkOffset,' ');
25871 + std::string startLine3(startLine2);
25872 + startLine3+=startLine;
25873 + if(_geo_type!=INTERP_KERNEL::NORM_ERROR)
25875 + const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(_geo_type);
25876 + oss << startLine3 << "Entry geometry type #" << id << " is lying on geometry types " << cm.getRepr() << "." << std::endl;
25879 + oss << startLine3 << "Entry geometry type #" << id << " is lying on NODES." << std::endl;
25880 + oss << startLine3 << "Entry is defined on " << _field_pm_pt_pd.size() << " localizations." << std::endl;
25882 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++,i++)
25884 + const MEDFileFieldPerMeshPerTypePerDisc *cur=(*it);
25886 + cur->simpleRepr(bkOffset,oss,i);
25889 + oss << startLine2 << " ## " << "Localization #" << i << " is empty !" << std::endl;
25894 +std::string MEDFileFieldPerMeshPerType::getGeoTypeRepr() const
25896 + const INTERP_KERNEL::CellModel& cm(INTERP_KERNEL::CellModel::GetCellModel(_geo_type));
25897 + return std::string(cm.getRepr());
25900 +MEDFileFieldPerMeshPerType::MEDFileFieldPerMeshPerType(MEDFileFieldPerMesh *father, INTERP_KERNEL::NormalizedCellType gt):MEDFileFieldPerMeshPerTypeCommon(father),_geo_type(gt)
25904 +MEDFileFieldPerMeshPerType::MEDFileFieldPerMeshPerType(med_idt fid, MEDFileFieldPerMesh *fath, TypeOfField type, INTERP_KERNEL::NormalizedCellType geoType, const MEDFileFieldNameScope& nasc, const PartDefinition *pd):MEDFileFieldPerMeshPerTypeCommon(fath),_geo_type(geoType)
25906 + INTERP_KERNEL::AutoPtr<char> pflName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
25907 + INTERP_KERNEL::AutoPtr<char> locName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
25908 + med_geometry_type mgeoti;
25909 + med_entity_type menti(ConvertIntoMEDFileType(type,geoType,mgeoti));
25910 + int nbProfiles(MEDfieldnProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),menti,mgeoti,pflName,locName));
25911 + _field_pm_pt_pd.resize(nbProfiles);
25912 + for(int i=0;i<nbProfiles;i++)
25914 + _field_pm_pt_pd[i]=MEDFileFieldPerMeshPerTypePerDisc::NewOnRead(this,type,i,pd);
25916 + if(type==ON_CELLS)
25918 + int nbProfiles2(MEDfieldnProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_NODE_ELEMENT,mgeoti,pflName,locName));
25919 + for(int i=0;i<nbProfiles2;i++)
25920 + _field_pm_pt_pd.push_back(MEDFileFieldPerMeshPerTypePerDisc::NewOnRead(this,ON_GAUSS_NE,i,pd));
25922 + if(!_field_pm_pt_pd.empty() || type!=ON_CELLS)
25924 + // dark side of the force.
25926 + int nbProfiles1(MEDfieldnProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_DESCENDING_FACE,mgeoti,pflName,locName));
25927 + int nbProfiles2(MEDfieldnProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_DESCENDING_EDGE,mgeoti,pflName,locName));
25928 + if(nbProfiles1==0 && nbProfiles2==0)
25929 + return ;// OK definitely nothing in field
25930 + menti=nbProfiles1>=nbProfiles2?MED_DESCENDING_FACE:MED_DESCENDING_EDGE;//not enough words to describe the beauty
25931 + nbProfiles=std::max(nbProfiles1,nbProfiles2);
25932 + _field_pm_pt_pd.resize(nbProfiles);
25933 + for(int i=0;i<nbProfiles;i++)
25934 + _field_pm_pt_pd[i]=MEDFileFieldPerMeshPerTypePerDisc::NewOnRead(this,ON_CELLS,i,pd);
25938 +MCAuto<MEDFileFieldPerMeshPerType> MEDFileFieldPerMeshPerType::Aggregate(int &start, const std::vector<std::pair<int,const MEDFileFieldPerMeshPerType *> >& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, INTERP_KERNEL::NormalizedCellType gt, MEDFileFieldPerMesh *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo)
25940 + MCAuto<MEDFileFieldPerMeshPerType> ret(MEDFileFieldPerMeshPerType::New(father,gt));
25941 + std::map<TypeOfField, std::vector< std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc * > > > m;
25942 + for(std::vector<std::pair<int,const MEDFileFieldPerMeshPerType *> >::const_iterator it=pms.begin();it!=pms.end();it++)
25944 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it2=(*it).second->_field_pm_pt_pd.begin();it2!=(*it).second->_field_pm_pt_pd.end();it2++)
25945 + m[(*it2)->getType()].push_back(std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc * >((*it).first,*it2));
25947 + for(std::map<TypeOfField, std::vector< std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc * > > >::const_iterator it=m.begin();it!=m.end();it++)
25949 + MCAuto<MEDFileFieldPerMeshPerTypePerDisc> agg(MEDFileFieldPerMeshPerTypePerDisc::Aggregate(start,(*it).second,dts,(*it).first,ret,extractInfo));
25950 + ret->_field_pm_pt_pd.push_back(agg);
25955 +//////////////////////////////////////////////////
25957 +MEDFileFieldPerMeshPerTypeDyn *MEDFileFieldPerMeshPerTypeDyn::NewOnRead(med_idt fid, MEDFileFieldPerMesh *fath, const MEDFileEntities *entities, int idGT, const MEDFileFieldNameScope& nasc)
25960 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypeDyn::NewOnRead : null pointer !");
25961 + const MEDFileAllStaticEntitiesPlusDyn *entities2(dynamic_cast<const MEDFileAllStaticEntitiesPlusDyn *>(entities));
25963 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypeDyn::NewOnRead : invalid type of entities !");
25964 + const MEDFileStructureElement *se(entities2->getWithGT(idGT));
25965 + return new MEDFileFieldPerMeshPerTypeDyn(fid,fath,se,nasc);
25968 +MEDFileFieldPerMeshPerTypeDyn::MEDFileFieldPerMeshPerTypeDyn(med_idt fid, MEDFileFieldPerMesh *fath, const MEDFileStructureElement *se, const MEDFileFieldNameScope& nasc):MEDFileFieldPerMeshPerTypeCommon(fath)
25971 + INTERP_KERNEL::AutoPtr<char> pflName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
25972 + INTERP_KERNEL::AutoPtr<char> locName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
25973 + int nbProfiles(MEDfieldnProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_STRUCT_ELEMENT,_se->getDynGT(),pflName,locName));
25974 + _field_pm_pt_pd.resize(nbProfiles);
25975 + for(int i=0;i<nbProfiles;i++)
25977 + _field_pm_pt_pd[i]=MEDFileFieldPerMeshPerTypePerDisc::NewOnRead(this,_se->getEntity(),i,NULL);
25981 +int MEDFileFieldPerMeshPerTypeDyn::getDynGT() const
25983 + return _se->getDynGT();
25986 +std::string MEDFileFieldPerMeshPerTypeDyn::getModelName() const
25988 + return _se->getName();
25991 +void MEDFileFieldPerMeshPerTypeDyn::getDimension(int& dim) const
25993 + throw INTERP_KERNEL::Exception("not implemented yet !");
25996 +void MEDFileFieldPerMeshPerTypeDyn::entriesForMEDfile(TypeOfField mct, med_geometry_type& gt, med_entity_type& ent) const
25999 + ent=MED_STRUCT_ELEMENT;
26002 +INTERP_KERNEL::NormalizedCellType MEDFileFieldPerMeshPerTypeDyn::getGeoType() const
26004 + throw INTERP_KERNEL::Exception("not implemented yet !");
26007 +void MEDFileFieldPerMeshPerTypeDyn::simpleRepr(int bkOffset, std::ostream& oss, int id) const
26009 + const char startLine[]=" ## ";
26010 + std::string startLine2(bkOffset,' ');
26011 + std::string startLine3(startLine2);
26012 + startLine3+=startLine;
26013 + oss << startLine3 << "Entry geometry type #" << id << " is lying on geometry STRUCTURE_ELEMENT type " << getDynGT() << "." << std::endl;
26014 + oss << startLine3 << "Entry is defined on " << _field_pm_pt_pd.size() << " localizations." << std::endl;
26016 + for(std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >::const_iterator it=_field_pm_pt_pd.begin();it!=_field_pm_pt_pd.end();it++,i++)
26018 + if((*it).isNotNull())
26019 + (*it)->simpleRepr(bkOffset,oss,i);
26022 + oss << startLine2 << " ## " << "Localization #" << i << " is empty !" << std::endl;
26027 +std::string MEDFileFieldPerMeshPerTypeDyn::getGeoTypeRepr() const
26029 + throw INTERP_KERNEL::Exception("not implemented yet !");
26032 +MEDFileFieldPerMeshPerTypeDyn *MEDFileFieldPerMeshPerTypeDyn::deepCopy(MEDFileFieldPerMesh *father) const
26034 + MCAuto<MEDFileFieldPerMeshPerTypeDyn> ret(new MEDFileFieldPerMeshPerTypeDyn(*this));
26035 + ret->setFather(father);
26036 + ret->deepCopyElements();
26037 + return ret.retn();
26040 +void MEDFileFieldPerMeshPerTypeDyn::getFieldAtLevel(int meshDim, TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const
26042 + throw INTERP_KERNEL::Exception("not implemented yet !");
26045 +//////////////////////////////////////////////////
26047 +MEDFileFieldPerMesh *MEDFileFieldPerMesh::NewOnRead(med_idt fid, MEDFileAnyTypeField1TSWithoutSDA *fath, int meshCsit, int meshIteration, int meshOrder, const MEDFileFieldNameScope& nasc, const MEDFileMesh *mm, const MEDFileEntities *entities)
26049 + return new MEDFileFieldPerMesh(fid,fath,meshCsit,meshIteration,meshOrder,nasc,mm,entities);
26052 +MEDFileFieldPerMesh *MEDFileFieldPerMesh::New(MEDFileAnyTypeField1TSWithoutSDA *fath, const MEDCouplingMesh *mesh)
26054 + return new MEDFileFieldPerMesh(fath,mesh);
26057 +std::size_t MEDFileFieldPerMesh::getHeapMemorySizeWithoutChildren() const
26059 + return _field_pm_pt.capacity()*sizeof(MCAuto< MEDFileFieldPerMeshPerType >);
26062 +std::vector<const BigMemoryObject *> MEDFileFieldPerMesh::getDirectChildrenWithNull() const
26064 + std::vector<const BigMemoryObject *> ret;
26065 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26066 + ret.push_back(*it);
26070 +MEDFileFieldPerMesh *MEDFileFieldPerMesh::deepCopy(MEDFileAnyTypeField1TSWithoutSDA *father) const
26072 + MCAuto< MEDFileFieldPerMesh > ret=new MEDFileFieldPerMesh(*this);
26073 + ret->_father=father;
26075 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++,i++)
26077 + if((*it).isNotNull())
26078 + ret->_field_pm_pt[i]=(*it)->deepCopy((MEDFileFieldPerMesh *)(ret));
26080 + return ret.retn();
26083 +void MEDFileFieldPerMesh::simpleRepr(int bkOffset, std::ostream& oss, int id) const
26085 + std::string startLine(bkOffset,' ');
26086 + oss << startLine << "## Field part (" << id << ") lying on mesh \"" << getMeshName() << "\", Mesh iteration=" << _mesh_iteration << ". Mesh order=" << _mesh_order << "." << std::endl;
26087 + oss << startLine << "## Field is defined on " << _field_pm_pt.size() << " types." << std::endl;
26089 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++,i++)
26091 + if((*it).isNotNull())
26092 + (*it)->simpleRepr(bkOffset,oss,i);
26095 + oss << startLine << " ## Entry geometry type #" << i << " is empty !" << std::endl;
26100 +void MEDFileFieldPerMesh::copyTinyInfoFrom(const MEDCouplingMesh *mesh)
26102 + mesh->getTime(_mesh_iteration,_mesh_order);
26105 +void MEDFileFieldPerMesh::assignFieldNoProfileNoRenum(int& start, const std::vector<int>& code, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
26107 + int nbOfTypes=code.size()/3;
26109 + for(int i=0;i<nbOfTypes;i++)
26111 + INTERP_KERNEL::NormalizedCellType type=(INTERP_KERNEL::NormalizedCellType)code[3*i];
26112 + int nbOfCells=code[3*i+1];
26113 + int pos=addNewEntryIfNecessary(type);
26114 + _field_pm_pt[pos]->assignFieldNoProfile(start,offset,nbOfCells,field,arr,glob,nasc);
26115 + offset+=nbOfCells;
26120 + * This method is the most general one. No optimization is done here.
26121 + * \param [in] multiTypePfl is the end user profile specified in high level API
26122 + * \param [in] code is the code of \a mesh[multiTypePfl] mesh. It is of size of number of different geometric types into \a mesh[multiTypePfl].
26123 + * \param [in] code2 is the code of the \b WHOLE mesh on the same level. So all types in \a code are in \a code2.
26124 + * \param [in] idsInPflPerType is the selection into the \a multiTypePfl whole profile that corresponds to the given geometric type. This vector is always 3 times smaller than \a code.
26125 + * \param [in] idsPerType is a vector containing the profiles needed to be created for MED file format. \b WARNING these processed MED file profiles can be subdivided again in case of Gauss points.
26126 + * \param [in] mesh is the mesh coming from the MEDFileMesh instance in correspondence with the MEDFileField. The mesh inside the \a field is simply ignored.
26128 +void MEDFileFieldPerMesh::assignFieldProfile(int& start, const DataArrayInt *multiTypePfl, const std::vector<int>& code, const std::vector<int>& code2, const std::vector<DataArrayInt *>& idsInPflPerType, const std::vector<DataArrayInt *>& idsPerType, const MEDCouplingFieldTemplate *field, const DataArray *arr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
26130 + int nbOfTypes(code.size()/3);
26131 + for(int i=0;i<nbOfTypes;i++)
26133 + INTERP_KERNEL::NormalizedCellType type=(INTERP_KERNEL::NormalizedCellType)code[3*i];
26134 + int pos=addNewEntryIfNecessary(type);
26135 + DataArrayInt *pfl=0;
26136 + if(code[3*i+2]!=-1)
26137 + pfl=idsPerType[code[3*i+2]];
26138 + int nbOfTupes2=code2.size()/3;
26140 + for(;found<nbOfTupes2;found++)
26141 + if(code[3*i]==code2[3*found])
26143 + if(found==nbOfTupes2)
26144 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::assignFieldProfile : internal problem ! Should never happen ! Please report bug to anthony.geay@cea.fr !");
26145 + _field_pm_pt[pos]->assignFieldProfile(nbOfTypes==1,start,multiTypePfl,idsInPflPerType[i],pfl,code2[3*found+1],field,arr,mesh,glob,nasc);
26149 +void MEDFileFieldPerMesh::assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob)
26151 + int pos=addNewEntryIfNecessary(INTERP_KERNEL::NORM_ERROR);
26152 + _field_pm_pt[pos]->assignNodeFieldNoProfile(start,field,arr,glob);
26155 +void MEDFileFieldPerMesh::assignNodeFieldProfile(int& start, const DataArrayInt *pfl, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc)
26157 + int pos=addNewEntryIfNecessary(INTERP_KERNEL::NORM_ERROR);
26158 + _field_pm_pt[pos]->assignNodeFieldProfile(start,pfl,field,arr,glob,nasc);
26161 +void MEDFileFieldPerMesh::loadOnlyStructureOfDataRecursively(med_idt fid, int& start, const MEDFileFieldNameScope& nasc)
26163 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26164 + (*it)->loadOnlyStructureOfDataRecursively(fid,start,nasc);
26167 +void MEDFileFieldPerMesh::loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc)
26169 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26170 + (*it)->loadBigArraysRecursively(fid,nasc);
26173 +void MEDFileFieldPerMesh::writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const
26175 + int nbOfTypes=_field_pm_pt.size();
26176 + for(int i=0;i<nbOfTypes;i++)
26178 + _field_pm_pt[i]->copyOptionsFrom(*this);
26179 + _field_pm_pt[i]->writeLL(fid,nasc);
26183 +void MEDFileFieldPerMesh::getDimension(int& dim) const
26185 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26186 + (*it)->getDimension(dim);
26189 +bool MEDFileFieldPerMesh::isUniqueLevel(int& dim) const
26191 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26192 + if(!(*it)->isUniqueLevel(dim))
26197 +void MEDFileFieldPerMesh::fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const
26199 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26200 + (*it)->fillTypesOfFieldAvailable(types);
26203 +std::vector< std::vector< std::pair<int,int> > > MEDFileFieldPerMesh::getFieldSplitedByType(std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> > & locs) const
26205 + int sz=_field_pm_pt.size();
26206 + std::vector< std::vector<std::pair<int,int> > > ret(sz);
26207 + types.resize(sz); typesF.resize(sz); pfls.resize(sz); locs.resize(sz);
26208 + for(int i=0;i<sz;i++)
26210 + types[i]=_field_pm_pt[i]->getGeoType();
26211 + _field_pm_pt[i]->fillFieldSplitedByType(ret[i],typesF[i],pfls[i],locs[i]);
26216 +double MEDFileFieldPerMesh::getTime() const
26219 + return _father->getTime(tmp1,tmp2);
26222 +int MEDFileFieldPerMesh::getIteration() const
26224 + return _father->getIteration();
26227 +int MEDFileFieldPerMesh::getOrder() const
26229 + return _father->getOrder();
26232 +int MEDFileFieldPerMesh::getNumberOfComponents() const
26234 + return _father->getNumberOfComponents();
26237 +std::string MEDFileFieldPerMesh::getMeshName() const
26239 + return _father->getMeshName();
26242 +void MEDFileFieldPerMesh::setMeshName(const std::string& meshName)
26244 + _father->setMeshName(meshName);
26247 +bool MEDFileFieldPerMesh::presenceOfMultiDiscPerGeoType() const
26249 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26251 + if((*it).isNull())
26253 + if((*it)->presenceOfMultiDiscPerGeoType())
26259 +bool MEDFileFieldPerMesh::presenceOfStructureElements() const
26261 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26262 + if((*it).isNotNull())
26264 + const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
26271 +bool MEDFileFieldPerMesh::onlyStructureElements() const
26273 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26274 + if((*it).isNotNull())
26276 + const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
26283 +void MEDFileFieldPerMesh::killStructureElements()
26285 + std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > res;
26286 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26288 + if((*it).isNotNull())
26290 + const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
26292 + res.push_back(*it);
26295 + _field_pm_pt=res;
26298 +void MEDFileFieldPerMesh::keepOnlyStructureElements()
26300 + std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > res;
26301 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26303 + if((*it).isNotNull())
26305 + const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
26307 + res.push_back(*it);
26310 + _field_pm_pt=res;
26313 +void MEDFileFieldPerMesh::keepOnlyOnSE(const std::string& seName)
26315 + std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > res;
26316 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26318 + if((*it).isNotNull())
26320 + const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
26322 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::keepOnlyOnSE : presence of non SE !");
26323 + if(pt->getModelName()==seName)
26324 + res.push_back(*it);
26327 + _field_pm_pt=res;
26330 +void MEDFileFieldPerMesh::getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const
26332 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26334 + if((*it).isNotNull())
26336 + const MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<const MEDFileFieldPerMeshPerTypeDyn *>((const MEDFileFieldPerMeshPerTypeCommon *)*it));
26339 + ps.push_back(std::pair<std::string,std::string>(getMeshName(),pt->getModelName()));
26342 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getMeshSENames : presence of a non structure element part !");
26347 +DataArray *MEDFileFieldPerMesh::getOrCreateAndGetArray()
26350 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getOrCreateAndGetArray : no father ! internal error !");
26351 + return _father->getOrCreateAndGetArray();
26354 +const DataArray *MEDFileFieldPerMesh::getOrCreateAndGetArray() const
26357 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getOrCreateAndGetArray : no father ! internal error !");
26358 + return _father->getOrCreateAndGetArray();
26361 +const std::vector<std::string>& MEDFileFieldPerMesh::getInfo() const
26363 + return _father->getInfo();
26367 + * type,geoTypes,dads,pfls,locs are input parameters. They should have the same size.
26368 + * Before the call of this method 'geoTypes','dads','pfls','locs' must be reorganized so that types in geoTypes are contiguous and ordered following typmai2 array.
26369 + * It returns 2 output vectors :
26370 + * - 'code' of size 3*sz where sz is the number of different values into 'geoTypes'
26371 + * - 'notNullPfls' contains sz2 values that are extracted from 'pfls' in which null profiles have been removed.
26372 + * 'code' and 'notNullPfls' are in MEDCouplingUMesh::checkTypeConsistencyAndContig format.
26374 +void MEDFileFieldPerMesh::SortArraysPerType(const MEDFileFieldGlobsReal *glob, TypeOfField type, const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes, const std::vector< std::pair<int,int> >& dads, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& locs, std::vector<int>& code, std::vector<DataArrayInt *>& notNullPfls)
26376 + int notNullPflsSz=0;
26377 + int nbOfArrs=geoTypes.size();
26378 + for(int i=0;i<nbOfArrs;i++)
26381 + std::set<INTERP_KERNEL::NormalizedCellType> geoTypes3(geoTypes.begin(),geoTypes.end());
26382 + int nbOfDiffGeoTypes=geoTypes3.size();
26383 + code.resize(3*nbOfDiffGeoTypes);
26384 + notNullPfls.resize(notNullPflsSz);
26387 + for(int i=0;i<nbOfDiffGeoTypes;i++)
26390 + INTERP_KERNEL::NormalizedCellType refType=geoTypes[j];
26391 + std::vector<const DataArrayInt *> notNullTmp;
26393 + notNullTmp.push_back(pfls[j]);
26395 + for(;j<nbOfArrs;j++)
26396 + if(geoTypes[j]==refType)
26399 + notNullTmp.push_back(pfls[j]);
26403 + std::vector< std::pair<int,int> > tmpDads(dads.begin()+startZone,dads.begin()+j);
26404 + std::vector<const DataArrayInt *> tmpPfls(pfls.begin()+startZone,pfls.begin()+j);
26405 + std::vector<int> tmpLocs(locs.begin()+startZone,locs.begin()+j);
26406 + code[3*i]=(int)refType;
26407 + std::vector<INTERP_KERNEL::NormalizedCellType> refType2(1,refType);
26408 + code[3*i+1]=ComputeNbOfElems(glob,type,refType2,tmpDads,tmpLocs);
26409 + if(notNullTmp.empty())
26413 + notNullPfls[notNullPflsSz]=DataArrayInt::Aggregate(notNullTmp);
26414 + code[3*i+2]=notNullPflsSz++;
26420 + * 'dads' 'geoTypes' and 'locs' are input parameters that should have same size sz. sz should be >=1.
26422 +int MEDFileFieldPerMesh::ComputeNbOfElems(const MEDFileFieldGlobsReal *glob, TypeOfField type, const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes, const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs)
26424 + int sz=dads.size();
26426 + for(int i=0;i<sz;i++)
26430 + if(type!=ON_GAUSS_NE)
26431 + ret+=dads[i].second-dads[i].first;
26434 + const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(geoTypes[i]);
26435 + ret+=(dads[i].second-dads[i].first)/cm.getNumberOfNodes();
26440 + int nbOfGaussPtPerCell=glob->getNbOfGaussPtPerCell(locs[i]);
26441 + ret+=(dads[i].second-dads[i].first)/nbOfGaussPtPerCell;
26447 +std::vector<std::string> MEDFileFieldPerMesh::getPflsReallyUsed() const
26449 + std::vector<std::string> ret;
26450 + std::set<std::string> ret2;
26451 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26453 + std::vector<std::string> tmp=(*it)->getPflsReallyUsed();
26454 + for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
26455 + if(ret2.find(*it2)==ret2.end())
26457 + ret.push_back(*it2);
26458 + ret2.insert(*it2);
26464 +std::vector<std::string> MEDFileFieldPerMesh::getPflsReallyUsedMulti() const
26466 + std::vector<std::string> ret;
26467 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26469 + std::vector<std::string> tmp=(*it)->getPflsReallyUsedMulti();
26470 + ret.insert(ret.end(),tmp.begin(),tmp.end());
26475 +std::vector<std::string> MEDFileFieldPerMesh::getLocsReallyUsed() const
26477 + std::vector<std::string> ret;
26478 + std::set<std::string> ret2;
26479 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26481 + std::vector<std::string> tmp=(*it)->getLocsReallyUsed();
26482 + for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
26483 + if(ret2.find(*it2)==ret2.end())
26485 + ret.push_back(*it2);
26486 + ret2.insert(*it2);
26492 +std::vector<std::string> MEDFileFieldPerMesh::getLocsReallyUsedMulti() const
26494 + std::vector<std::string> ret;
26495 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26497 + std::vector<std::string> tmp=(*it)->getLocsReallyUsedMulti();
26498 + ret.insert(ret.end(),tmp.begin(),tmp.end());
26503 +bool MEDFileFieldPerMesh::changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab)
26505 + for(std::vector< std::pair<std::string,std::string> >::const_iterator it=modifTab.begin();it!=modifTab.end();it++)
26507 + if((*it).first==getMeshName())
26509 + setMeshName((*it).second);
26516 +void MEDFileFieldPerMesh::convertMedBallIntoClassic()
26518 + if(_field_pm_pt.size()!=1)
26519 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::convertMedBallIntoClassic : Only managed for single mesh !");
26520 + if(_field_pm_pt[0].isNull())
26521 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::convertMedBallIntoClassic : null pointer !");
26522 + MEDFileFieldPerMeshPerTypeDyn *pt(dynamic_cast<MEDFileFieldPerMeshPerTypeDyn *>((MEDFileFieldPerMeshPerTypeCommon *)_field_pm_pt[0]));
26524 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::convertMedBallIntoClassic : this is expected to be marked as structure element !");
26525 + if(pt->getNumberOfLoc()!=1)
26526 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::convertMedBallIntoClassic : only one loc managed !");
26527 + const MEDFileFieldPerMeshPerTypePerDisc *disc(pt->getLeafGivenLocId(0));
26529 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::convertMedBallIntoClassic : internal error !");
26530 + MCAuto<MEDFileFieldPerMeshPerTypePerDisc> disc2(MEDFileFieldPerMeshPerTypePerDisc::New(*disc));
26531 + disc2->setType(ON_NODES);
26532 + MCAuto<MEDFileFieldPerMeshPerType> pt2(MEDFileFieldPerMeshPerType::New(this,INTERP_KERNEL::NORM_ERROR));
26533 + disc2->setFather(pt2);
26534 + pt2->setFather(this);
26535 + pt2->pushDiscretization(disc2);
26536 + _field_pm_pt[0]=DynamicCast<MEDFileFieldPerMeshPerType,MEDFileFieldPerMeshPerTypeCommon>(pt2);
26539 +bool MEDFileFieldPerMesh::renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N,
26540 + MEDFileFieldGlobsReal& glob)
26542 + if(getMeshName()!=meshName)
26544 + std::set<INTERP_KERNEL::NormalizedCellType> typesToKeep;
26545 + for(std::size_t i=0;i<oldCode.size()/3;i++) typesToKeep.insert((INTERP_KERNEL::NormalizedCellType)oldCode[3*i]);
26546 + std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > > entries;
26547 + std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> entriesKept;
26548 + std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> otherEntries;
26549 + getUndergroundDataArrayExt(entries);
26550 + DataArray *arr0(getOrCreateAndGetArray());//tony
26552 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::renumberEntitiesLyingOnMesh : DataArray storing values of field is null !");
26553 + DataArrayDouble *arr(dynamic_cast<DataArrayDouble *>(arr0));//tony
26555 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::renumberEntitiesLyingOnMesh : DataArray storing values is double ! Not managed for the moment !");
26558 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::renumberEntitiesLyingOnMesh : DataArrayDouble storing values of field is null !");
26559 + for(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >::const_iterator it=entries.begin();it!=entries.end();it++)
26561 + if(typesToKeep.find((*it).first.first)!=typesToKeep.end())
26563 + entriesKept.push_back(getLeafGivenTypeAndLocId((*it).first.first,(*it).first.second));
26564 + sz+=(*it).second.second-(*it).second.first;
26567 + otherEntries.push_back(getLeafGivenTypeAndLocId((*it).first.first,(*it).first.second));
26569 + MCAuto<DataArrayInt> renumDefrag=DataArrayInt::New(); renumDefrag->alloc(arr->getNumberOfTuples(),1); renumDefrag->fillWithZero();
26570 + ////////////////////
26571 + MCAuto<DataArrayInt> explicitIdsOldInMesh=DataArrayInt::New(); explicitIdsOldInMesh->alloc(sz,1);//sz is a majorant of the real size. A realloc will be done after
26572 + int *workI2=explicitIdsOldInMesh->getPointer();
26573 + int sz1=0,sz2=0,sid=1;
26574 + std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> > entriesKeptML=MEDFileFieldPerMeshPerTypePerDisc::SplitPerDiscretization(entriesKept);
26575 + // std::vector<int> tupleIdOfStartOfNewChuncksV(entriesKeptML.size());
26576 + for(std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> >::const_iterator itL1=entriesKeptML.begin();itL1!=entriesKeptML.end();itL1++,sid++)
26578 + // tupleIdOfStartOfNewChuncksV[sid-1]=sz2;
26579 + MCAuto<DataArrayInt> explicitIdsOldInArr=DataArrayInt::New(); explicitIdsOldInArr->alloc(sz,1);
26580 + int *workI=explicitIdsOldInArr->getPointer();
26581 + for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator itL2=(*itL1).begin();itL2!=(*itL1).end();itL2++)
26583 + int delta1=(*itL2)->fillTupleIds(workI); workI+=delta1; sz1+=delta1;
26584 + (*itL2)->setLocId(sz2);
26585 + (*itL2)->_tmp_work1=(*itL2)->getStart();
26586 + int delta2=(*itL2)->fillEltIdsFromCode(sz2,oldCode,glob,workI2); workI2+=delta2; sz2+=delta2;
26588 + renumDefrag->setPartOfValuesSimple3(sid,explicitIdsOldInArr->begin(),explicitIdsOldInArr->end(),0,1,1);
26590 + explicitIdsOldInMesh->reAlloc(sz2);
26591 + int tupleIdOfStartOfNewChuncks=arr->getNumberOfTuples()-sz2;
26592 + ////////////////////
26593 + MCAuto<DataArrayInt> permArrDefrag=renumDefrag->buildPermArrPerLevel(); renumDefrag=0;
26594 + // perform redispatching of non concerned MEDFileFieldPerMeshPerTypePerDisc
26595 + std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> > otherEntriesNew;
26596 + for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=otherEntries.begin();it!=otherEntries.end();it++)
26598 + otherEntriesNew.push_back(MEDFileFieldPerMeshPerTypePerDisc::New(*(*it)));
26599 + otherEntriesNew.back()->setNewStart(permArrDefrag->getIJ((*it)->getStart(),0));
26600 + otherEntriesNew.back()->setLocId((*it)->getGeoType());
26602 + std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> > entriesKeptNew;
26603 + std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> entriesKeptNew2;
26604 + for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator it=entriesKept.begin();it!=entriesKept.end();it++)
26606 + MCAuto<MEDFileFieldPerMeshPerTypePerDisc> elt=MEDFileFieldPerMeshPerTypePerDisc::New(*(*it));
26607 + int newStart=elt->getLocId();
26608 + elt->setLocId((*it)->getGeoType());
26609 + elt->setNewStart(newStart);
26610 + elt->_tmp_work1=permArrDefrag->getIJ(elt->_tmp_work1,0);
26611 + entriesKeptNew.push_back(elt);
26612 + entriesKeptNew2.push_back(elt);
26614 + MCAuto<DataArrayDouble> arr2=arr->renumber(permArrDefrag->getConstPointer());
26615 + // perform redispatching of concerned MEDFileFieldPerMeshPerTypePerDisc -> values are in arr2
26616 + MCAuto<DataArrayInt> explicitIdsNewInMesh=renumO2N->selectByTupleId(explicitIdsOldInMesh->begin(),explicitIdsOldInMesh->end());
26617 + std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> > entriesKeptPerDisc=MEDFileFieldPerMeshPerTypePerDisc::SplitPerDiscretization(entriesKeptNew2);
26619 + for(std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> >::const_iterator it4=entriesKeptPerDisc.begin();it4!=entriesKeptPerDisc.end();it4++)
26622 + /*for(std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>::const_iterator itL2=(*it4).begin();itL2!=(*it4).end();itL2++)
26624 + MEDFileFieldPerMeshPerTypePerDisc *curNC=const_cast<MEDFileFieldPerMeshPerTypePerDisc *>(*itL2);
26625 + curNC->setNewStart(permArrDefrag->getIJ((*itL2)->getStart(),0)-tupleIdOfStartOfNewChuncks+tupleIdOfStartOfNewChuncksV[sid]);
26627 + ret=MEDFileFieldPerMeshPerTypePerDisc::RenumberChunks(tupleIdOfStartOfNewChuncks,*it4,explicitIdsNewInMesh,newCode,
26628 + glob,arr2,otherEntriesNew) || ret;
26632 + // Assign new dispatching
26633 + assignNewLeaves(otherEntriesNew);
26634 + arr->deepCopyFrom(*arr2);
26639 + * \param [in,out] globalNum a global numbering counter for the renumbering.
26640 + * \param [out] its - list of pair (start,stop) kept
26642 +void MEDFileFieldPerMesh::keepOnlySpatialDiscretization(TypeOfField tof, int &globalNum, std::vector< std::pair<int,int> >& its)
26644 + std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > ret;
26645 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26647 + std::vector< std::pair<int,int> > its2;
26648 + if((*it)->keepOnlySpatialDiscretization(tof,globalNum,its2))
26650 + ret.push_back(*it);
26651 + its.insert(its.end(),its2.begin(),its2.end());
26654 + _field_pm_pt=ret;
26658 + * \param [in,out] globalNum a global numbering counter for the renumbering.
26659 + * \param [out] its - list of pair (start,stop) kept
26661 +void MEDFileFieldPerMesh::keepOnlyGaussDiscretization(std::size_t idOfDisc, int &globalNum, std::vector< std::pair<int,int> >& its)
26663 + std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > ret;
26664 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26666 + std::vector< std::pair<int,int> > its2;
26667 + if((*it)->keepOnlyGaussDiscretization(idOfDisc,globalNum,its2))
26669 + ret.push_back(*it);
26670 + its.insert(its.end(),its2.begin(),its2.end());
26673 + _field_pm_pt=ret;
26676 +void MEDFileFieldPerMesh::assignNewLeaves(const std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc > >& leaves)
26678 + std::map<INTERP_KERNEL::NormalizedCellType,std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc> > > types;
26679 + for( std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc > >::const_iterator it=leaves.begin();it!=leaves.end();it++)
26680 + types[(INTERP_KERNEL::NormalizedCellType)(*it)->getLocId()].push_back(*it);
26682 + std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > fieldPmPt(types.size());
26683 + std::map<INTERP_KERNEL::NormalizedCellType,std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc> > >::const_iterator it1=types.begin();
26684 + std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it2=fieldPmPt.begin();
26685 + for(;it1!=types.end();it1++,it2++)
26687 + MCAuto<MEDFileFieldPerMeshPerType> elt=MEDFileFieldPerMeshPerType::New(this,(INTERP_KERNEL::NormalizedCellType)((*it1).second[0]->getLocId()));
26688 + elt->setLeaves((*it1).second);
26689 + MCAuto<MEDFileFieldPerMeshPerTypeCommon> elt2(DynamicCast<MEDFileFieldPerMeshPerType,MEDFileFieldPerMeshPerTypeCommon>(elt));
26692 + _field_pm_pt=fieldPmPt;
26695 +void MEDFileFieldPerMesh::changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
26697 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26698 + (*it)->changePflsRefsNamesGen(mapOfModif);
26701 +void MEDFileFieldPerMesh::changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
26703 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26704 + (*it)->changeLocsRefsNamesGen(mapOfModif);
26708 + * \param [in] mesh is the whole mesh
26710 +MEDCouplingFieldDouble *MEDFileFieldPerMesh::getFieldOnMeshAtLevel(TypeOfField type, const MEDFileFieldGlobsReal *glob, const MEDCouplingMesh *mesh, bool& isPfl, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
26712 + if(_field_pm_pt.empty())
26713 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getFieldOnMeshAtLevel : no types field set !");
26715 + std::vector< std::pair<int,int> > dads;
26716 + std::vector<const DataArrayInt *> pfls;
26717 + std::vector<DataArrayInt *> notNullPflsPerGeoType;
26718 + std::vector<int> locs,code;
26719 + std::vector<INTERP_KERNEL::NormalizedCellType> geoTypes;
26720 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26721 + (*it)->getFieldAtLevel(mesh->getMeshDimension(),type,glob,dads,pfls,locs,geoTypes);
26723 + SortArraysPerType(glob,type,geoTypes,dads,pfls,locs,code,notNullPflsPerGeoType);
26726 + std::ostringstream oss; oss << "MEDFileFieldPerMesh::getFieldOnMeshAtLevel : " << "The field \"" << nasc.getName() << "\" exists but not with such spatial discretization or such dimension specified !";
26727 + throw INTERP_KERNEL::Exception(oss.str());
26730 + std::vector< MCAuto<DataArrayInt> > notNullPflsPerGeoType2(notNullPflsPerGeoType.begin(),notNullPflsPerGeoType.end());
26731 + std::vector< const DataArrayInt *> notNullPflsPerGeoType3(notNullPflsPerGeoType.begin(),notNullPflsPerGeoType.end());
26732 + if(type!=ON_NODES)
26734 + DataArrayInt *arr=mesh->checkTypeConsistencyAndContig(code,notNullPflsPerGeoType3);
26736 + return finishField(type,glob,dads,locs,mesh,isPfl,arrOut,nasc);
26739 + MCAuto<DataArrayInt> arr2(arr);
26740 + return finishField2(type,glob,dads,locs,geoTypes,mesh,arr,isPfl,arrOut,nasc);
26745 + if(code.size()!=3)
26746 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getFieldOnMeshAtLevel : internal error #1 !");
26750 + if(nb!=mesh->getNumberOfNodes())
26752 + std::ostringstream oss; oss << "MEDFileFieldPerMesh::getFieldOnMeshAtLevel : There is a problem there is " << nb << " nodes in field whereas there is " << mesh->getNumberOfNodes();
26753 + oss << " nodes in mesh !";
26754 + throw INTERP_KERNEL::Exception(oss.str());
26756 + return finishField(type,glob,dads,locs,mesh,isPfl,arrOut,nasc);
26759 + return finishFieldNode2(glob,dads,locs,mesh,notNullPflsPerGeoType3[0],isPfl,arrOut,nasc);
26763 +DataArray *MEDFileFieldPerMesh::getFieldOnMeshAtLevelWithPfl(TypeOfField type, const MEDCouplingMesh *mesh, DataArrayInt *&pfl, const MEDFileFieldGlobsReal *glob, const MEDFileFieldNameScope& nasc) const
26765 + if(_field_pm_pt.empty())
26766 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getFieldOnMeshAtLevel : no types field set !");
26768 + std::vector<std::pair<int,int> > dads;
26769 + std::vector<const DataArrayInt *> pfls;
26770 + std::vector<DataArrayInt *> notNullPflsPerGeoType;
26771 + std::vector<int> locs,code;
26772 + std::vector<INTERP_KERNEL::NormalizedCellType> geoTypes;
26773 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26774 + (*it)->getFieldAtLevel(mesh->getMeshDimension(),type,glob,dads,pfls,locs,geoTypes);
26776 + SortArraysPerType(glob,type,geoTypes,dads,pfls,locs,code,notNullPflsPerGeoType);
26779 + std::ostringstream oss; oss << "MEDFileFieldPerMesh::getFieldOnMeshAtLevelWithPfl : " << "The field \"" << nasc.getName() << "\" exists but not with such spatial discretization or such dimension specified !";
26780 + throw INTERP_KERNEL::Exception(oss.str());
26782 + std::vector< MCAuto<DataArrayInt> > notNullPflsPerGeoType2(notNullPflsPerGeoType.begin(),notNullPflsPerGeoType.end());
26783 + std::vector< const DataArrayInt *> notNullPflsPerGeoType3(notNullPflsPerGeoType.begin(),notNullPflsPerGeoType.end());
26784 + if(type!=ON_NODES)
26786 + MCAuto<DataArrayInt> arr=mesh->checkTypeConsistencyAndContig(code,notNullPflsPerGeoType3);
26787 + return finishField4(dads,arr,mesh->getNumberOfCells(),pfl);
26791 + if(code.size()!=3)
26792 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::getFieldOnMeshAtLevel : internal error #1 !");
26796 + if(nb!=mesh->getNumberOfNodes())
26798 + std::ostringstream oss; oss << "MEDFileFieldPerMesh::getFieldOnMeshAtLevel : There is a problem there is " << nb << " nodes in field whereas there is " << mesh->getNumberOfNodes();
26799 + oss << " nodes in mesh !";
26800 + throw INTERP_KERNEL::Exception(oss.str());
26803 + return finishField4(dads,code[2]==-1?0:notNullPflsPerGeoType3[0],mesh->getNumberOfNodes(),pfl);
26809 +void MEDFileFieldPerMesh::accept(MEDFileFieldVisitor& visitor) const
26811 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26812 + if((*it).isNotNull())
26814 + visitor.newPerMeshPerTypeEntry(*it);
26815 + (*it)->accept(visitor);
26816 + visitor.endPerMeshPerTypeEntry(*it);
26820 +void MEDFileFieldPerMesh::getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
26823 + int nbOfEntries=0;
26824 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26826 + (*it)->getSizes(globalSz,nbOfEntries);
26828 + entries.resize(nbOfEntries);
26830 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26832 + (*it)->fillValues(nbOfEntries,entries);
26836 +MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMesh::getLeafGivenTypeAndLocId(INTERP_KERNEL::NormalizedCellType typ, int locId)
26838 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26840 + if((*it)->getGeoType()==typ)
26841 + return (*it)->getLeafGivenLocId(locId);
26843 + const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(typ);
26844 + std::ostringstream oss; oss << "MEDFileFieldPerMesh::getLeafGivenTypeAndLocId : no such geometric type \"" << cm.getRepr() << "\" in this !" << std::endl;
26845 + oss << "Possibilities are : ";
26846 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26848 + const INTERP_KERNEL::CellModel& cm2=INTERP_KERNEL::CellModel::GetCellModel((*it)->getGeoType());
26849 + oss << "\"" << cm2.getRepr() << "\", ";
26851 + throw INTERP_KERNEL::Exception(oss.str());
26854 +const MEDFileFieldPerMeshPerTypePerDisc *MEDFileFieldPerMesh::getLeafGivenTypeAndLocId(INTERP_KERNEL::NormalizedCellType typ, int locId) const
26856 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26858 + if((*it)->getGeoType()==typ)
26859 + return (*it)->getLeafGivenLocId(locId);
26861 + const INTERP_KERNEL::CellModel& cm=INTERP_KERNEL::CellModel::GetCellModel(typ);
26862 + std::ostringstream oss; oss << "MEDFileFieldPerMesh::getLeafGivenTypeAndLocId : no such geometric type \"" << cm.getRepr() << "\" in this !" << std::endl;
26863 + oss << "Possibilities are : ";
26864 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++)
26866 + const INTERP_KERNEL::CellModel& cm2=INTERP_KERNEL::CellModel::GetCellModel((*it)->getGeoType());
26867 + oss << "\"" << cm2.getRepr() << "\", ";
26869 + throw INTERP_KERNEL::Exception(oss.str());
26873 + * \param [in,out] start - Integer that gives the current position in the final aggregated array
26874 + * \param [in] pms - list of elements to aggregate. integer gives the mesh id
26875 + * \param [in] dts - (Distribution of types) = level 1 : meshes to aggregate. Level 2 : all geo type. Level 3 pair specifying geo type and number of elem in geotype.
26876 + * \param [out] extractInfo - Gives information about the where the data comes from. It is a vector of triplet. First element in the triplet the mesh pos. The 2nd one the start pos. The 3rd the end pos.
26878 +MCAuto<MEDFileFieldPerMeshPerTypePerDisc> MEDFileFieldPerMeshPerTypePerDisc::Aggregate(int &start, const std::vector< std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc *> >& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, TypeOfField tof, MEDFileFieldPerMeshPerType *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo)
26880 + MCAuto<MEDFileFieldPerMeshPerTypePerDisc> ret(new MEDFileFieldPerMeshPerTypePerDisc(father,tof));
26882 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : empty input vector !");
26883 + for(std::vector<std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc *> >::const_iterator it=pms.begin();it!=pms.end();it++)
26885 + if(!(*it).second)
26886 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : presence of null pointer !");
26887 + if(!(*it).second->getProfile().empty())
26888 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : not implemented yet for profiles !");
26889 + if(!(*it).second->getLocalization().empty())
26890 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : not implemented yet for gauss pts !");
26892 + INTERP_KERNEL::NormalizedCellType gt(pms[0].second->getGeoType());
26893 + std::size_t i(0);
26894 + std::vector< std::pair<int,int> > filteredDTS;
26895 + for(std::vector< std::vector< std::pair<int,int> > >::const_iterator it=dts.begin();it!=dts.end();it++,i++)
26896 + for(std::vector< std::pair<int,int> >::const_iterator it2=(*it).begin();it2!=(*it).end();it2++)
26897 + if((*it2).first==gt)
26898 + filteredDTS.push_back(std::pair<int,int>(i,(*it2).second));
26899 + if(pms.size()!=filteredDTS.size())
26900 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : not implemented yet for generated profiles !");
26901 + std::vector<std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc *> >::const_iterator it1(pms.begin());
26902 + std::vector< std::pair<int,int> >::const_iterator it2(filteredDTS.begin());
26903 + int zeStart(start),nval(0);
26904 + for(;it1!=pms.end();it1++,it2++)
26906 + if((*it1).first!=(*it2).first)
26907 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMeshPerTypePerDisc::Aggregate : not implemented yet for generated profiles 2 !");
26908 + int s1((*it1).second->getStart()),e1((*it1).second->getEnd());
26909 + extractInfo.push_back(std::pair<int, std::pair<int,int> >((*it1).first,std::pair<int,int>(s1,e1)));
26911 + nval+=((*it1).second)->getNumberOfVals();
26913 + ret->_start=zeStart; ret->_end=start; ret->_nval=nval;
26917 +MCAuto<MEDFileFieldPerMesh> MEDFileFieldPerMesh::Aggregate(int &start, const std::vector<const MEDFileFieldPerMesh *>& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, MEDFileAnyTypeField1TSWithoutSDA *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo)
26919 + MCAuto<MEDFileFieldPerMesh> ret(new MEDFileFieldPerMesh(father,pms[0]->getMeshName(),pms[0]->getMeshIteration(),pms[0]->getMeshOrder()));
26920 + std::map<INTERP_KERNEL::NormalizedCellType, std::vector< std::pair<int,const MEDFileFieldPerMeshPerType *> > > m;
26921 + std::size_t i(0);
26922 + for(std::vector<const MEDFileFieldPerMesh *>::const_iterator it=pms.begin();it!=pms.end();it++,i++)
26924 + const std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >& v((*it)->_field_pm_pt);
26925 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::const_iterator it2=v.begin();it2!=v.end();it2++)
26927 + INTERP_KERNEL::NormalizedCellType gt((*it2)->getGeoType());
26928 + const MEDFileFieldPerMeshPerType *elt(dynamic_cast<const MEDFileFieldPerMeshPerType *>((const MEDFileFieldPerMeshPerTypeCommon *)(*it2)));
26930 + throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::Aggregate : not managed for structelement !");
26931 + m[gt].push_back(std::pair<int,const MEDFileFieldPerMeshPerType *>(i,elt));
26934 + for(std::map<INTERP_KERNEL::NormalizedCellType, std::vector< std::pair<int,const MEDFileFieldPerMeshPerType *> > >::const_iterator it=m.begin();it!=m.end();it++)
26936 + MCAuto<MEDFileFieldPerMeshPerType> agg(MEDFileFieldPerMeshPerType::Aggregate(start,(*it).second,dts,(*it).first,ret,extractInfo));
26937 + MCAuto<MEDFileFieldPerMeshPerTypeCommon> agg2(DynamicCast<MEDFileFieldPerMeshPerType,MEDFileFieldPerMeshPerTypeCommon>(agg));
26938 + ret->_field_pm_pt.push_back(agg2);
26943 +int MEDFileFieldPerMesh::addNewEntryIfNecessary(INTERP_KERNEL::NormalizedCellType type)
26946 + int pos=std::distance(typmai2,std::find(typmai2,typmai2+MED_N_CELL_FIXED_GEO,type));
26947 + std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it2=_field_pm_pt.begin();
26948 + for(std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > >::iterator it=_field_pm_pt.begin();it!=_field_pm_pt.end();it++,i++)
26950 + INTERP_KERNEL::NormalizedCellType curType=(*it)->getGeoType();
26951 + if(type==curType)
26955 + int pos2=std::distance(typmai2,std::find(typmai2,typmai2+MED_N_CELL_FIXED_GEO,curType));
26960 + int ret=std::distance(_field_pm_pt.begin(),it2);
26961 + _field_pm_pt.insert(it2,MEDFileFieldPerMeshPerType::New(this,type));
26966 + * 'dads' and 'locs' input parameters have the same number of elements
26967 + * \param [in] mesh is \b NOT the global mesh, but the possibly reduced mesh. \a mesh parameter will be directly aggregated in the returned field
26969 +MEDCouplingFieldDouble *MEDFileFieldPerMesh::finishField(TypeOfField type, const MEDFileFieldGlobsReal *glob,
26970 + const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs,
26971 + const MEDCouplingMesh *mesh, bool& isPfl, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
26974 + MCAuto<MEDCouplingFieldDouble> ret=MEDCouplingFieldDouble::New(type,ONE_TIME);
26975 + ret->setMesh(mesh); ret->setName(nasc.getName().c_str()); ret->setTime(getTime(),getIteration(),getOrder()); ret->setTimeUnit(nasc.getDtUnit().c_str());
26976 + MCAuto<DataArray> da=getOrCreateAndGetArray()->selectByTupleRanges(dads);
26977 + const std::vector<std::string>& infos=getInfo();
26978 + da->setInfoOnComponents(infos);
26980 + if(type==ON_GAUSS_PT)
26983 + int nbOfArrs=dads.size();
26984 + for(int i=0;i<nbOfArrs;i++)
26986 + std::vector<std::pair<int,int> > dads2(1,dads[i]); const std::vector<int> locs2(1,locs[i]);
26987 + const std::vector<INTERP_KERNEL::NormalizedCellType> geoTypes2(1,INTERP_KERNEL::NORM_ERROR);
26988 + int nbOfElems=ComputeNbOfElems(glob,type,geoTypes2,dads2,locs2);
26989 + MCAuto<DataArrayInt> di=DataArrayInt::New();
26990 + di->alloc(nbOfElems,1);
26991 + di->iota(offset);
26992 + const MEDFileFieldLoc& fl=glob->getLocalizationFromId(locs[i]);
26993 + ret->setGaussLocalizationOnCells(di->getConstPointer(),di->getConstPointer()+nbOfElems,fl.getRefCoords(),fl.getGaussCoords(),fl.getGaussWeights());
26994 + offset+=nbOfElems;
26998 + return ret.retn();
27002 + * This method is an extension of MEDFileFieldPerMesh::finishField method. It deals with profiles. This method should be called when type is different from ON_NODES.
27003 + * 'dads', 'locs' and 'geoTypes' input parameters have the same number of elements.
27004 + * No check of this is performed. 'da' array contains an array in old2New style to be applyied to mesh to obtain the right support.
27005 + * The order of cells in the returned field is those imposed by the profile.
27006 + * \param [in] mesh is the global mesh.
27008 +MEDCouplingFieldDouble *MEDFileFieldPerMesh::finishField2(TypeOfField type, const MEDFileFieldGlobsReal *glob,
27009 + const std::vector<std::pair<int,int> >& dads, const std::vector<int>& locs,
27010 + const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes,
27011 + const MEDCouplingMesh *mesh, const DataArrayInt *da, bool& isPfl, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
27013 + if(da->isIota(mesh->getNumberOfCells()))
27014 + return finishField(type,glob,dads,locs,mesh,isPfl,arrOut,nasc);
27015 + MCAuto<MEDCouplingMesh> m2=mesh->buildPart(da->getConstPointer(),da->getConstPointer()+da->getNbOfElems());
27016 + m2->setName(mesh->getName().c_str());
27017 + MCAuto<MEDCouplingFieldDouble> ret=finishField(type,glob,dads,locs,m2,isPfl,arrOut,nasc);
27019 + return ret.retn();
27023 + * This method is the complement of MEDFileFieldPerMesh::finishField2 method except that this method works for node profiles.
27025 +MEDCouplingFieldDouble *MEDFileFieldPerMesh::finishFieldNode2(const MEDFileFieldGlobsReal *glob,
27026 + const std::vector<std::pair<int,int> >& dads, const std::vector<int>& locs,
27027 + const MEDCouplingMesh *mesh, const DataArrayInt *da, bool& isPfl, MCAuto<DataArray>& arrOut, const MEDFileFieldNameScope& nasc) const
27029 + if(da->isIota(mesh->getNumberOfNodes()))
27030 + return finishField(ON_NODES,glob,dads,locs,mesh,isPfl,arrOut,nasc);
27031 + // Treatment of particular case where nodal field on pfl is requested with a meshDimRelToMax=1.
27032 + const MEDCouplingUMesh *meshu=dynamic_cast<const MEDCouplingUMesh *>(mesh);
27035 + if(meshu->getNodalConnectivity()==0)
27037 + MCAuto<MEDCouplingFieldDouble> ret=finishField(ON_CELLS,glob,dads,locs,mesh,isPfl,arrOut,nasc);
27038 + int nb=da->getNbOfElems();
27039 + const int *ptr=da->getConstPointer();
27040 + MEDCouplingUMesh *meshuc=const_cast<MEDCouplingUMesh *>(meshu);
27041 + meshuc->allocateCells(nb);
27042 + for(int i=0;i<nb;i++)
27043 + meshuc->insertNextCell(INTERP_KERNEL::NORM_POINT1,1,ptr+i);
27044 + meshuc->finishInsertingCells();
27045 + ret->setMesh(meshuc);
27046 + const MEDCouplingFieldDiscretization *disc=ret->getDiscretization();
27047 + if(!disc) throw INTERP_KERNEL::Exception("MEDFileFieldPerMesh::finishFieldNode2 : internal error, no discretization on field !");
27048 + disc->checkCoherencyBetween(meshuc,arrOut);
27049 + return ret.retn();
27053 + MCAuto<MEDCouplingFieldDouble> ret=finishField(ON_NODES,glob,dads,locs,mesh,isPfl,arrOut,nasc);
27055 + DataArrayInt *arr2=0;
27056 + MCAuto<DataArrayInt> cellIds=mesh->getCellIdsFullyIncludedInNodeIds(da->getConstPointer(),da->getConstPointer()+da->getNbOfElems());
27057 + MCAuto<MEDCouplingMesh> mesh2=mesh->buildPartAndReduceNodes(cellIds->getConstPointer(),cellIds->getConstPointer()+cellIds->getNbOfElems(),arr2);
27058 + MCAuto<DataArrayInt> arr3(arr2);
27059 + int nnodes=mesh2->getNumberOfNodes();
27060 + if(nnodes==(int)da->getNbOfElems())
27062 + MCAuto<DataArrayInt> da3=da->transformWithIndArrR(arr2->begin(),arr2->end());
27063 + arrOut->renumberInPlace(da3->getConstPointer());
27064 + mesh2->setName(mesh->getName().c_str());
27065 + ret->setMesh(mesh2);
27066 + return ret.retn();
27070 + std::ostringstream oss; oss << "MEDFileFieldPerMesh::finishFieldNode2 : The field on nodes lies on a node profile so that it is impossible to find a submesh having exactly the same nodes of that profile !!!";
27071 + oss << "So it is impossible to return a well definied MEDCouplingFieldDouble instance on specified mesh on a specified meshDim !" << std::endl;
27072 + oss << "To retrieve correctly such a field you have 3 possibilities :" << std::endl;
27073 + oss << " - use an another meshDim compatible with the field on nodes (MED file does not have such information)" << std::endl;
27074 + oss << " - use an another a meshDimRelToMax equal to 1 -> it will return a mesh with artificial cell POINT1 containing the profile !" << std::endl;
27075 + oss << " - if definitely the node profile has no link with mesh connectivity use MEDFileField1TS::getFieldWithProfile or MEDFileFieldMultiTS::getFieldWithProfile methods instead !";
27076 + throw INTERP_KERNEL::Exception(oss.str());
27082 + * This method is the most light method of field retrieving.
27084 +DataArray *MEDFileFieldPerMesh::finishField4(const std::vector<std::pair<int,int> >& dads, const DataArrayInt *pflIn, int nbOfElems, DataArrayInt *&pflOut) const
27088 + pflOut=DataArrayInt::New();
27089 + pflOut->alloc(nbOfElems,1);
27094 + pflOut=const_cast<DataArrayInt*>(pflIn);
27095 + pflOut->incrRef();
27097 + MCAuto<DataArrayInt> safePfl(pflOut);
27098 + MCAuto<DataArray> da=getOrCreateAndGetArray()->selectByTupleRanges(dads);
27099 + const std::vector<std::string>& infos=getInfo();
27100 + int nbOfComp=infos.size();
27101 + for(int i=0;i<nbOfComp;i++)
27102 + da->setInfoOnComponent(i,infos[i].c_str());
27103 + safePfl->incrRef();
27104 + return da.retn();
27108 +/// @cond INTERNAL
27113 + static MFFPMIter *NewCell(const MEDFileEntities *entities);
27114 + static bool IsPresenceOfNode(const MEDFileEntities *entities);
27115 + virtual ~MFFPMIter() { }
27116 + virtual void begin() = 0;
27117 + virtual bool finished() const = 0;
27118 + virtual void next() = 0;
27119 + virtual int current() const = 0;
27122 +class MFFPMIterSimple : public MFFPMIter
27125 + MFFPMIterSimple():_pos(0) { }
27126 + void begin() { _pos=0; }
27127 + bool finished() const { return _pos>=MED_N_CELL_FIXED_GEO; }
27128 + void next() { _pos++; }
27129 + int current() const { return _pos; }
27134 +class MFFPMIter2 : public MFFPMIter
27137 + MFFPMIter2(const std::vector<INTERP_KERNEL::NormalizedCellType>& cts);
27138 + void begin() { _it=_ids.begin(); }
27139 + bool finished() const { return _it==_ids.end(); }
27140 + void next() { _it++; }
27141 + int current() const { return *_it; }
27143 + std::vector<int> _ids;
27144 + std::vector<int>::const_iterator _it;
27147 +MFFPMIter *MFFPMIter::NewCell(const MEDFileEntities *entities)
27150 + return new MFFPMIterSimple;
27153 + const MEDFileStaticEntities *entities2(dynamic_cast<const MEDFileStaticEntities *>(entities));
27156 + std::vector<INTERP_KERNEL::NormalizedCellType> tmp;
27157 + const std::vector< std::pair<TypeOfField,INTERP_KERNEL::NormalizedCellType> >& myEnt(entities2->getEntries());
27158 + for(std::vector< std::pair<TypeOfField,INTERP_KERNEL::NormalizedCellType> >::const_iterator it=myEnt.begin();it!=myEnt.end();it++)
27160 + if((*it).first==ON_CELLS || (*it).first==ON_GAUSS_NE || (*it).first==ON_GAUSS_PT)
27161 + tmp.push_back((*it).second);
27163 + return new MFFPMIter2(tmp);
27165 + return new MFFPMIterSimple;// for MEDFileAllStaticEntites and MEDFileAllStaticEntitiesPlusDyn cells are in
27169 +bool MFFPMIter::IsPresenceOfNode(const MEDFileEntities *entities)
27175 + const MEDFileStaticEntities *entities2(dynamic_cast<const MEDFileStaticEntities *>(entities));
27178 + const std::vector< std::pair<TypeOfField,INTERP_KERNEL::NormalizedCellType> >& myEnt(entities2->getEntries());
27179 + for(std::vector< std::pair<TypeOfField,INTERP_KERNEL::NormalizedCellType> >::const_iterator it=myEnt.begin();it!=myEnt.end();it++)
27180 + if((*it).first==ON_NODES)
27184 + return true;// for MEDFileAllStaticEntites and MEDFileAllStaticEntitiesPlusDyn nodes are in
27188 +MFFPMIter2::MFFPMIter2(const std::vector<INTERP_KERNEL::NormalizedCellType>& cts)
27190 + std::size_t sz(cts.size());
27192 + for(std::size_t i=0;i<sz;i++)
27194 + INTERP_KERNEL::NormalizedCellType *loc(std::find(typmai2,typmai2+MED_N_CELL_FIXED_GEO,cts[i]));
27195 + if(loc!=typmai2+MED_N_CELL_FIXED_GEO)
27196 + _ids[i]=(int)std::distance(typmai2,loc);
27198 + throw INTERP_KERNEL::Exception("MFFPMIter2 : The specified geo type does not exists !");
27204 +MEDFileFieldPerMesh::MEDFileFieldPerMesh(med_idt fid, MEDFileAnyTypeField1TSWithoutSDA *fath, int meshCsit, int meshIteration, int meshOrder, const MEDFileFieldNameScope& nasc, const MEDFileMesh *mm, const MEDFileEntities *entities):_mesh_iteration(meshIteration),_mesh_order(meshOrder),
27207 + INTERP_KERNEL::AutoPtr<char> meshName(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
27208 + INTERP_KERNEL::AutoPtr<char> pflName(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
27209 + INTERP_KERNEL::AutoPtr<char> locName(MEDLoaderBase::buildEmptyString(MED_NAME_SIZE));
27210 + const MEDFileUMesh *mmu(dynamic_cast<const MEDFileUMesh *>(mm));
27211 + INTERP_KERNEL::AutoCppPtr<MFFPMIter> iter0(MFFPMIter::NewCell(entities));
27212 + for(iter0->begin();!iter0->finished();iter0->next())
27214 + int nbProfile (MEDfield23nProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_CELL ,typmai[iter0->current()],meshCsit+1,meshName,pflName,locName));
27215 + std::string name0(MEDLoaderBase::buildStringFromFortran(meshName,MED_NAME_SIZE+1));
27216 + int nbProfile2(MEDfield23nProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_NODE_ELEMENT,typmai[iter0->current()],meshCsit+1,meshName,pflName,locName));
27217 + std::string name1(MEDLoaderBase::buildStringFromFortran(meshName,MED_NAME_SIZE+1));
27218 + if(nbProfile>0 || nbProfile2>0)
27220 + const PartDefinition *pd(0);
27222 + pd=mmu->getPartDefAtLevel(mmu->getRelativeLevOnGeoType(typmai2[iter0->current()]),typmai2[iter0->current()]);
27223 + _field_pm_pt.push_back(MEDFileFieldPerMeshPerType::NewOnRead(fid,this,ON_CELLS,typmai2[iter0->current()],nasc,pd));
27225 + setMeshName(name0);
27227 + setMeshName(name1);
27230 + if(MFFPMIter::IsPresenceOfNode(entities))
27232 + int nbProfile(MEDfield23nProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_NODE,MED_NONE,meshCsit+1,meshName,pflName,locName));
27235 + const PartDefinition *pd(0);
27237 + pd=mmu->getPartDefAtLevel(1,INTERP_KERNEL::NORM_ERROR);
27238 + _field_pm_pt.push_back(MEDFileFieldPerMeshPerType::NewOnRead(fid,this,ON_NODES,INTERP_KERNEL::NORM_ERROR,nasc,pd));
27239 + setMeshName(MEDLoaderBase::buildStringFromFortran(meshName,MED_NAME_SIZE));
27244 + std::vector<int> dynGT(entities->getDynGTAvail());
27245 + for(std::vector<int>::const_iterator it=dynGT.begin();it!=dynGT.end();it++)
27247 + int nbPfl(MEDfieldnProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_STRUCT_ELEMENT,*it,pflName,locName));
27250 + _field_pm_pt.push_back(MEDFileFieldPerMeshPerTypeDyn::NewOnRead(fid,this,entities,*it,nasc));
27251 + setMeshName(MEDLoaderBase::buildStringFromFortran(meshName,MED_NAME_SIZE));
27254 + if(!_field_pm_pt.empty())
27256 + //for vicious users using MED_ARETE MED_FACE in fields. the last try. For Others not overhead to pay.
27257 + iter0=MFFPMIter::NewCell(entities);
27258 + for(iter0->begin();!iter0->finished();iter0->next())
27260 + int nbProfile (MEDfield23nProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_DESCENDING_FACE,typmai[iter0->current()],meshCsit+1,meshName,pflName,locName));
27261 + std::string name0(MEDLoaderBase::buildStringFromFortran(meshName,MED_NAME_SIZE+1));
27262 + int nbProfile2(MEDfield23nProfile(fid,nasc.getName().c_str(),getIteration(),getOrder(),MED_DESCENDING_EDGE,typmai[iter0->current()],meshCsit+1,meshName,pflName,locName));
27263 + std::string name1(MEDLoaderBase::buildStringFromFortran(meshName,MED_NAME_SIZE+1));
27264 + if(nbProfile>0 || nbProfile2>0)
27266 + _field_pm_pt.push_back(MEDFileFieldPerMeshPerType::NewOnRead(fid,this,ON_CELLS,typmai2[iter0->current()],nasc,NULL));
27268 + setMeshName(name0);
27270 + setMeshName(name1);
27275 +MEDFileFieldPerMesh::MEDFileFieldPerMesh(MEDFileAnyTypeField1TSWithoutSDA *fath, const MEDCouplingMesh *mesh):_father(fath)
27277 + copyTinyInfoFrom(mesh);
27279 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileFieldInternal.hxx MEDCOUPLING_new/src/MEDLoader/MEDFileFieldInternal.hxx
27280 --- MEDCOUPLING_old/src/MEDLoader/MEDFileFieldInternal.hxx 1970-01-01 01:00:00.000000000 +0100
27281 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileFieldInternal.hxx 2018-04-19 17:25:17.859799768 +0200
27283 +// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
27285 +// This library is free software; you can redistribute it and/or
27286 +// modify it under the terms of the GNU Lesser General Public
27287 +// License as published by the Free Software Foundation; either
27288 +// version 2.1 of the License, or (at your option) any later version.
27290 +// This library is distributed in the hope that it will be useful,
27291 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
27292 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
27293 +// Lesser General Public License for more details.
27295 +// You should have received a copy of the GNU Lesser General Public
27296 +// License along with this library; if not, write to the Free Software
27297 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
27299 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
27301 +// Author : Anthony Geay (EDF R&D)
27303 +#ifndef __MEDFILEFIELDINTERNAL_HXX__
27304 +#define __MEDFILEFIELDINTERNAL_HXX__
27306 +#include "MEDLoaderDefines.hxx"
27307 +#include "MEDFileUtilities.hxx"
27308 +#include "NormalizedGeometricTypes"
27309 +#include "InterpKernelAutoPtr.hxx"
27310 +#include "MCAuto.hxx"
27317 +namespace MEDCoupling
27319 + class MEDFileGTKeeper
27322 + virtual MEDFileGTKeeper *deepCopy() const = 0;
27323 + virtual INTERP_KERNEL::NormalizedCellType getGeoType() const = 0;
27324 + virtual std::string getRepr() const = 0;
27325 + virtual bool isEqual(const MEDFileGTKeeper *other) const = 0;
27326 + virtual ~MEDFileGTKeeper();
27329 + class MEDFileGTKeeperSta : public MEDFileGTKeeper
27332 + MEDFileGTKeeperSta(INTERP_KERNEL::NormalizedCellType gt):_geo_type(gt) { }
27333 + MEDFileGTKeeper *deepCopy() const;
27334 + INTERP_KERNEL::NormalizedCellType getGeoType() const;
27335 + std::string getRepr() const;
27336 + bool isEqual(const MEDFileGTKeeper *other) const;
27338 + INTERP_KERNEL::NormalizedCellType _geo_type;
27342 + class MEDFileStructureElement;
27343 + class MEDFileUMesh;
27345 + class MEDFileGTKeeperDyn : public MEDFileGTKeeper
27348 + MEDFileGTKeeperDyn(const MEDFileUMesh *mesh, const MEDFileUMesh *section, const MEDFileStructureElement *se);
27349 + MEDFileGTKeeper *deepCopy() const;
27350 + INTERP_KERNEL::NormalizedCellType getGeoType() const;
27351 + std::string getRepr() const;
27352 + bool isEqual(const MEDFileGTKeeper *other) const;
27353 + const MEDFileUMesh *getMesh() const { return _mesh; }
27354 + const MEDFileUMesh *getSection() const { return _section; }
27355 + const MEDFileStructureElement *getSE() const { return _se; }
27357 + MCConstAuto<MEDFileUMesh> _mesh;
27358 + MCConstAuto<MEDFileUMesh> _section;
27359 + MCConstAuto<MEDFileStructureElement> _se;
27362 + class MEDFileEntities;
27364 + class MEDFileFieldLoc : public RefCountObject
27367 + MEDLOADER_EXPORT void simpleRepr(std::ostream& oss) const;
27368 + MEDLOADER_EXPORT std::string getName() const { return _name; }
27369 + MEDLOADER_EXPORT void setName(const std::string& name);
27370 + static MEDFileFieldLoc *New(med_idt fid, const std::string& locName);
27371 + static MEDFileFieldLoc *New(med_idt fid, int i, const MEDFileEntities *entities);
27372 + static MEDFileFieldLoc *New(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w);
27373 + std::size_t getHeapMemorySizeWithoutChildren() const;
27374 + std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
27375 + MEDFileFieldLoc *deepCopy() const;
27376 + bool isOnStructureElement() const;
27377 + const MEDFileGTKeeper *getUndergroundGTKeeper() const { return _gt; }
27378 + MEDLOADER_EXPORT int getNbOfGaussPtPerCell() const { return _nb_gauss_pt; }
27379 + MEDLOADER_EXPORT void writeLL(med_idt fid) const;
27380 + MEDLOADER_EXPORT std::string repr() const;
27381 + MEDLOADER_EXPORT bool isName(const std::string& name) const { return _name==name; }
27382 + MEDLOADER_EXPORT int getDimension() const { return _dim; }
27383 + MEDLOADER_EXPORT int getNumberOfGaussPoints() const { return _nb_gauss_pt; }
27384 + MEDLOADER_EXPORT int getNumberOfPointsInCells() const { return _nb_node_per_cell; }
27385 + MEDLOADER_EXPORT const std::vector<double>& getRefCoords() const { return _ref_coo; }
27386 + MEDLOADER_EXPORT const std::vector<double>& getGaussCoords() const { return _gs_coo; }
27387 + MEDLOADER_EXPORT const std::vector<double>& getGaussWeights() const { return _w; }
27388 + MEDLOADER_EXPORT INTERP_KERNEL::NormalizedCellType getGeoType() const { return _gt->getGeoType(); }
27389 + MEDLOADER_EXPORT bool isEqual(const MEDFileFieldLoc& other, double eps) const;
27391 + MEDFileFieldLoc(const MEDFileFieldLoc& other);
27392 + MEDFileFieldLoc(med_idt fid, const std::string& locName);
27393 + MEDFileFieldLoc(med_idt fid, int id, const MEDFileEntities *entities);
27394 + MEDFileFieldLoc(const std::string& locName, INTERP_KERNEL::NormalizedCellType geoType, const std::vector<double>& refCoo, const std::vector<double>& gsCoo, const std::vector<double>& w);
27397 + int _nb_gauss_pt;
27398 + INTERP_KERNEL::AutoCppPtr<MEDFileGTKeeper> _gt;
27399 + int _nb_node_per_cell;
27400 + std::string _name;
27401 + std::vector<double> _ref_coo;
27402 + std::vector<double> _gs_coo;
27403 + std::vector<double> _w;
27406 + /// @cond INTERNAL
27407 + class MEDFileFieldPerMeshPerTypeCommon;
27408 + class MEDFileFieldPerMeshPerType;
27409 + class MEDCouplingFieldTemplate;
27410 + class MEDFileFieldNameScope;
27411 + class MEDFileFieldGlobsReal;
27412 + class MEDCouplingMesh;
27414 + class MEDFileFieldPerMeshPerTypePerDisc : public RefCountObject, public MEDFileWritable
27417 + static MEDFileFieldPerMeshPerTypePerDisc *NewOnRead(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int profileIt, const PartDefinition *pd);
27418 + static MEDFileFieldPerMeshPerTypePerDisc *New(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int locId);
27419 + static MEDFileFieldPerMeshPerTypePerDisc *New(const MEDFileFieldPerMeshPerTypePerDisc& other);
27420 + std::size_t getHeapMemorySizeWithoutChildren() const;
27421 + std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
27422 + MEDFileFieldPerMeshPerTypePerDisc *deepCopy(MEDFileFieldPerMeshPerTypeCommon *father) const;
27423 + void assignFieldNoProfile(int& start, int offset, int nbOfCells, const MEDCouplingFieldTemplate *field, const DataArray *arrr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
27424 + void assignFieldProfile(bool isPflAlone, int& start, const DataArrayInt *multiTypePfl, const DataArrayInt *idsInPfl, DataArrayInt *locIds, int nbOfEltsInWholeMesh, const MEDCouplingFieldTemplate *field, const DataArray *arrr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
27425 + void assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arrr, MEDFileFieldGlobsReal& glob);
27426 + void getCoarseData(TypeOfField& type, std::pair<int,int>& dad, std::string& pfl, std::string& loc) const;
27427 + void writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const;
27428 + const MEDFileFieldPerMeshPerTypeCommon *getFather() const;
27429 + void loadOnlyStructureOfDataRecursively(med_idt fid, int& start, const MEDFileFieldNameScope& nasc);
27430 + void loadBigArray(med_idt fid, const MEDFileFieldNameScope& nasc);
27431 + void setNewStart(int newValueOfStart);
27432 + int getIteration() const;
27433 + int getOrder() const;
27434 + double getTime() const;
27435 + std::string getMeshName() const;
27436 + TypeOfField getType() const;
27437 + void simpleRepr(int bkOffset, std::ostream& oss, int id) const;
27438 + void fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const;
27439 + void setType(TypeOfField newType);
27440 + INTERP_KERNEL::NormalizedCellType getGeoType() const;
27441 + int getNumberOfComponents() const;
27442 + int getNumberOfTuples() const;
27443 + int getStart() const { return _start; }
27444 + int getEnd() const { return _end; }
27445 + void setEnd(int endd) { _end=endd; }
27446 + int getNumberOfVals() const { return _nval; }
27447 + void incrementNbOfVals(int deltaNbVal);
27448 + DataArray *getOrCreateAndGetArray();
27449 + const DataArray *getOrCreateAndGetArray() const;
27450 + const std::vector<std::string>& getInfo() const;
27451 + std::string getProfile() const;
27452 + void setProfile(const std::string& newPflName);
27453 + std::string getLocalization() const;
27454 + void setLocalization(const std::string& newLocName);
27455 + int getLocId() const { return _loc_id; }
27456 + void setLocId(int newId) const { _loc_id=newId; }
27457 + void setFather(MEDFileFieldPerMeshPerTypeCommon *newFather) { _father=newFather; }
27458 + void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
27459 + void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
27460 + void getFieldAtLevel(TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs,
27461 + std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const;
27462 + void fillValues(int discId, int& startEntryId, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
27463 + int fillEltIdsFromCode(int offset, const std::vector<int>& codeOfMesh, const MEDFileFieldGlobsReal& glob, int *ptToFill) const;
27464 + int fillTupleIds(int *ptToFill) const;
27465 + static int ConvertType(TypeOfField type, int locId);
27466 + static std::vector< std::vector< const MEDFileFieldPerMeshPerTypePerDisc *> > SplitPerDiscretization(const std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>& entries);
27467 + static bool RenumberChunks(int offset, const std::vector< const MEDFileFieldPerMeshPerTypePerDisc *>& entriesOnSameDisc,
27468 + const DataArrayInt *explicitIdsInMesh, const std::vector<int>& newCode,
27469 + MEDFileFieldGlobsReal& glob, DataArrayDouble *arr, std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> >& result);
27470 + static MEDFileFieldPerMeshPerTypePerDisc *NewObjectOnSameDiscThanPool(TypeOfField typeF, INTERP_KERNEL::NormalizedCellType geoType, DataArrayInt *idsOfMeshElt,
27471 + bool isPfl, int nbi, int offset, std::list< const MEDFileFieldPerMeshPerTypePerDisc *>& entriesOnSameDisc,
27472 + MEDFileFieldGlobsReal& glob, bool ¬InExisting);
27473 + static MCAuto<MEDFileFieldPerMeshPerTypePerDisc> Aggregate(int &start, const std::vector<std::pair<int,const MEDFileFieldPerMeshPerTypePerDisc *> >& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, TypeOfField tof, MEDFileFieldPerMeshPerType *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo);
27474 + MEDFileFieldPerMeshPerTypePerDisc(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type):_type(type),_father(fath),_start(-1),_end(-1),_nval(-1),_loc_id(-5),_profile_it(-1) { }
27476 + MEDFileFieldPerMeshPerTypePerDisc(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int profileIt, const PartDefinition *pd);
27477 + MEDFileFieldPerMeshPerTypePerDisc(MEDFileFieldPerMeshPerTypeCommon *fath, TypeOfField type, int profileIt, const std::string& dummy);
27478 + MEDFileFieldPerMeshPerTypePerDisc(const MEDFileFieldPerMeshPerTypePerDisc& other);
27479 + MEDFileFieldPerMeshPerTypePerDisc();
27481 + void goReadZeValuesInFile(med_idt fid, const std::string& fieldName, int nbOfCompo, int iteration, int order, med_entity_type menti, med_geometry_type mgeoti, unsigned char *startFeedingPtr);
27483 + TypeOfField _type;
27484 + MEDFileFieldPerMeshPerTypeCommon *_father;
27487 + //! _nval is different than end-start in case of ON_GAUSS_PT and ON_GAUSS_NE ! (_nval=(_end-_start)/nbi)
27489 + std::string _profile;
27490 + std::string _localization;
27491 + //! only on assignment -3 : ON_NODES, -2 : ON_CELLS, -1 : ON_GAUSS_NE, 0..* : ON_GAUSS_PT
27492 + mutable int _loc_id;
27493 + mutable int _profile_it;
27494 + MCAuto<PartDefinition> _pd;
27496 + mutable int _tmp_work1;
27499 + class MEDFileFieldVisitor;
27500 + class MEDFileFieldPerMesh;
27502 + class MEDFileFieldPerMeshPerTypeCommon : public RefCountObject, public MEDFileWritable
27505 + std::size_t getHeapMemorySizeWithoutChildren() const;
27506 + std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
27507 + void assignFieldNoProfile(int& start, int offset, int nbOfCells, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
27508 + void assignFieldProfile(bool isPflAlone, int& start, const DataArrayInt *multiTypePfl, const DataArrayInt *idsInPfl, DataArrayInt *locIds, int nbOfEltsInWholeMesh, const MEDCouplingFieldTemplate *field, const DataArray *arr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
27509 + void assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob);
27510 + void assignNodeFieldProfile(int& start, const DataArrayInt *pfl, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
27511 + const MEDFileFieldPerMesh *getFather() const;
27512 + void loadOnlyStructureOfDataRecursively(med_idt fid, int &start, const MEDFileFieldNameScope& nasc);
27513 + void loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc);
27514 + void writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const;
27515 + bool isUniqueLevel(int& dim) const;
27516 + void fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const;
27517 + void fillFieldSplitedByType(std::vector< std::pair<int,int> >& dads, std::vector<TypeOfField>& types, std::vector<std::string>& pfls, std::vector<std::string>& locs) const;
27518 + int getIteration() const;
27519 + int getOrder() const;
27520 + double getTime() const;
27521 + std::string getMeshName() const;
27522 + void getSizes(int& globalSz, int& nbOfEntries) const;
27523 + int getNumberOfComponents() const;
27524 + bool presenceOfMultiDiscPerGeoType() const;
27525 + void pushDiscretization(MEDFileFieldPerMeshPerTypePerDisc *disc);
27526 + DataArray *getOrCreateAndGetArray();
27527 + const DataArray *getOrCreateAndGetArray() const;
27528 + const std::vector<std::string>& getInfo() const;
27529 + std::vector<std::string> getPflsReallyUsed() const;
27530 + std::vector<std::string> getLocsReallyUsed() const;
27531 + std::vector<std::string> getPflsReallyUsedMulti() const;
27532 + std::vector<std::string> getLocsReallyUsedMulti() const;
27533 + void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
27534 + void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
27535 + MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenLocId(int locId);
27536 + const MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenLocId(int locId) const;
27537 + int getNumberOfLoc() const { return _field_pm_pt_pd.size(); }
27538 + int locIdOfLeaf(const MEDFileFieldPerMeshPerTypePerDisc *leaf) const;
27539 + void fillValues(int& startEntryId, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
27540 + void setLeaves(const std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc > >& leaves);
27541 + bool keepOnlySpatialDiscretization(TypeOfField tof, int &globalNum, std::vector< std::pair<int,int> >& its);
27542 + bool keepOnlyGaussDiscretization(std::size_t idOfDisc, int &globalNum, std::vector< std::pair<int,int> >& its);
27543 + static med_entity_type ConvertIntoMEDFileType(TypeOfField ikType, INTERP_KERNEL::NormalizedCellType ikGeoType, med_geometry_type& medfGeoType);
27544 + MEDFileFieldPerMeshPerTypeCommon(MEDFileFieldPerMesh *father):_father(father) { }
27545 + void setFather(MEDFileFieldPerMesh *father);
27546 + void accept(MEDFileFieldVisitor& visitor) const;
27548 + virtual ~MEDFileFieldPerMeshPerTypeCommon();
27549 + virtual void getDimension(int& dim) const = 0;
27550 + virtual INTERP_KERNEL::NormalizedCellType getGeoType() const = 0;
27551 + virtual void entriesForMEDfile(TypeOfField mct, med_geometry_type& gt, med_entity_type& ent) const = 0;
27552 + virtual void simpleRepr(int bkOffset, std::ostream& oss, int id) const = 0;
27553 + virtual std::string getGeoTypeRepr() const = 0;
27554 + virtual MEDFileFieldPerMeshPerTypeCommon *deepCopy(MEDFileFieldPerMesh *father) const = 0;
27555 + virtual void getFieldAtLevel(int meshDim, TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const = 0;
27557 + void deepCopyElements();
27558 + std::vector<int> addNewEntryIfNecessary(const MEDCouplingFieldTemplate *field, int offset, int nbOfCells);
27559 + std::vector<int> addNewEntryIfNecessaryGauss(const MEDCouplingFieldTemplate *field, int offset, int nbOfCells);
27560 + std::vector<int> addNewEntryIfNecessary(const MEDCouplingFieldTemplate *field, const DataArrayInt *subCells);
27561 + std::vector<int> addNewEntryIfNecessaryGauss(const MEDCouplingFieldTemplate *field, const DataArrayInt *subCells);
27563 + MEDFileFieldPerMesh *_father;
27565 + std::vector< MCAuto<MEDFileFieldPerMeshPerTypePerDisc> > _field_pm_pt_pd;
27568 + class MEDFileFieldPerMeshPerType : public MEDFileFieldPerMeshPerTypeCommon
27571 + static MEDFileFieldPerMeshPerType *New(MEDFileFieldPerMesh *fath, INTERP_KERNEL::NormalizedCellType geoType);
27572 + static MEDFileFieldPerMeshPerType *NewOnRead(med_idt fid, MEDFileFieldPerMesh *fath, TypeOfField type, INTERP_KERNEL::NormalizedCellType geoType, const MEDFileFieldNameScope& nasc, const PartDefinition *pd);
27573 + static MCAuto<MEDFileFieldPerMeshPerType> Aggregate(int &start, const std::vector< std::pair<int,const MEDFileFieldPerMeshPerType *> >& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, INTERP_KERNEL::NormalizedCellType gt, MEDFileFieldPerMesh *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo);
27574 + public:// overload of abstract methods
27575 + void getDimension(int& dim) const;
27576 + INTERP_KERNEL::NormalizedCellType getGeoType() const;
27577 + void entriesForMEDfile(TypeOfField mct, med_geometry_type& gt, med_entity_type& ent) const;
27578 + void simpleRepr(int bkOffset, std::ostream& oss, int id) const;
27579 + std::string getGeoTypeRepr() const;
27580 + MEDFileFieldPerMeshPerType *deepCopy(MEDFileFieldPerMesh *father) const;
27581 + void getFieldAtLevel(int meshDim, TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const;
27583 + MEDFileFieldPerMeshPerType(med_idt fid, MEDFileFieldPerMesh *fath, TypeOfField type, INTERP_KERNEL::NormalizedCellType geoType, const MEDFileFieldNameScope& nasc, const PartDefinition *pd);
27584 + MEDFileFieldPerMeshPerType(MEDFileFieldPerMesh *father, INTERP_KERNEL::NormalizedCellType gt);
27586 + INTERP_KERNEL::NormalizedCellType _geo_type;
27589 + class MEDFileFieldPerMeshPerTypeDyn : public MEDFileFieldPerMeshPerTypeCommon
27592 + static MEDFileFieldPerMeshPerTypeDyn *NewOnRead(med_idt fid, MEDFileFieldPerMesh *fath, const MEDFileEntities *entities, int idGT, const MEDFileFieldNameScope& nasc);
27593 + int getDynGT() const;
27594 + std::string getModelName() const;
27596 + void getDimension(int& dim) const;
27597 + INTERP_KERNEL::NormalizedCellType getGeoType() const;
27598 + void entriesForMEDfile(TypeOfField mct, med_geometry_type& gt, med_entity_type& ent) const;
27599 + void simpleRepr(int bkOffset, std::ostream& oss, int id) const;
27600 + std::string getGeoTypeRepr() const;
27601 + MEDFileFieldPerMeshPerTypeDyn *deepCopy(MEDFileFieldPerMesh *father) const;
27602 + void getFieldAtLevel(int meshDim, TypeOfField type, const MEDFileFieldGlobsReal *glob, std::vector< std::pair<int,int> >& dads, std::vector<const DataArrayInt *>& pfls, std::vector<int>& locs, std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes) const;
27604 + MEDFileFieldPerMeshPerTypeDyn(med_idt fid, MEDFileFieldPerMesh *fath, const MEDFileStructureElement *se, const MEDFileFieldNameScope& nasc);
27606 + MCConstAuto<MEDFileStructureElement> _se;
27609 + class MEDFileMesh;
27610 + class MEDFileAnyTypeField1TSWithoutSDA;
27611 + class MEDFileField1TSWithoutSDA;
27613 + class MEDFileFieldPerMesh : public RefCountObject, public MEDFileWritable
27616 + static MEDFileFieldPerMesh *New(MEDFileAnyTypeField1TSWithoutSDA *fath, const MEDCouplingMesh *mesh);
27617 + static MEDFileFieldPerMesh *NewOnRead(med_idt fid, MEDFileAnyTypeField1TSWithoutSDA *fath, int meshCsit, int meshIteration, int meshOrder, const MEDFileFieldNameScope& nasc, const MEDFileMesh *mm, const MEDFileEntities *entities);
27618 + std::size_t getHeapMemorySizeWithoutChildren() const;
27619 + std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
27620 + MEDFileFieldPerMesh *deepCopy(MEDFileAnyTypeField1TSWithoutSDA *father) const;
27621 + void simpleRepr(int bkOffset,std::ostream& oss, int id) const;
27622 + void copyTinyInfoFrom(const MEDCouplingMesh *mesh);
27623 + void assignFieldProfile(int& start, const DataArrayInt *multiTypePfl, const std::vector<int>& code, const std::vector<int>& code2, const std::vector<DataArrayInt *>& idsInPflPerType, const std::vector<DataArrayInt *>& idsPerType, const MEDCouplingFieldTemplate *field, const DataArray *arr, const MEDCouplingMesh *mesh, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
27624 + void assignFieldNoProfileNoRenum(int& start, const std::vector<int>& code, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
27625 + void assignNodeFieldNoProfile(int& start, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob);
27626 + void assignNodeFieldProfile(int& start, const DataArrayInt *pfl, const MEDCouplingFieldTemplate *field, const DataArray *arr, MEDFileFieldGlobsReal& glob, const MEDFileFieldNameScope& nasc);
27627 + void loadOnlyStructureOfDataRecursively(med_idt fid, int &start, const MEDFileFieldNameScope& nasc);
27628 + void loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc);
27629 + void writeLL(med_idt fid, const MEDFileFieldNameScope& nasc) const;
27630 + void fillTypesOfFieldAvailable(std::set<TypeOfField>& types) const;
27631 + std::vector< std::vector< std::pair<int,int> > > getFieldSplitedByType(std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
27632 + void accept(MEDFileFieldVisitor& visitor) const;
27633 + void getDimension(int& dim) const;
27634 + bool isUniqueLevel(int& dim) const;
27635 + double getTime() const;
27636 + int getIteration() const;
27637 + int getOrder() const;
27638 + int getMeshIteration() const { return _mesh_iteration; }
27639 + int getMeshOrder() const { return _mesh_order; }
27640 + std::string getMeshName() const;
27641 + void setMeshName(const std::string& meshName);
27642 + int getNumberOfComponents() const;
27643 + bool presenceOfMultiDiscPerGeoType() const;
27644 + bool presenceOfStructureElements() const;
27645 + bool onlyStructureElements() const;
27646 + void killStructureElements();
27647 + void keepOnlyStructureElements();
27648 + void keepOnlyOnSE(const std::string& seName);
27649 + void getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const;
27650 + DataArray *getOrCreateAndGetArray();
27651 + const DataArray *getOrCreateAndGetArray() const;
27652 + const std::vector<std::string>& getInfo() const;
27653 + std::vector<std::string> getPflsReallyUsed() const;
27654 + std::vector<std::string> getLocsReallyUsed() const;
27655 + std::vector<std::string> getPflsReallyUsedMulti() const;
27656 + std::vector<std::string> getLocsReallyUsedMulti() const;
27657 + void convertMedBallIntoClassic();
27658 + bool changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab);
27659 + bool renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N, MEDFileFieldGlobsReal& glob);
27660 + void keepOnlySpatialDiscretization(TypeOfField tof, int &globalNum, std::vector< std::pair<int,int> >& its);
27661 + void keepOnlyGaussDiscretization(std::size_t idOfDisc, int &globalNum, std::vector< std::pair<int,int> >& its);
27662 + void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
27663 + void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
27664 + MEDCouplingFieldDouble *getFieldOnMeshAtLevel(TypeOfField type, const MEDFileFieldGlobsReal *glob, const MEDCouplingMesh *mesh, bool& isPfl, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
27665 + DataArray *getFieldOnMeshAtLevelWithPfl(TypeOfField type, const MEDCouplingMesh *mesh, DataArrayInt *&pfl, const MEDFileFieldGlobsReal *glob, const MEDFileFieldNameScope& nasc) const;
27666 + void getUndergroundDataArrayExt(std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
27667 + MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenTypeAndLocId(INTERP_KERNEL::NormalizedCellType typ, int locId);
27668 + const MEDFileFieldPerMeshPerTypePerDisc *getLeafGivenTypeAndLocId(INTERP_KERNEL::NormalizedCellType typ, int locId) const;
27669 + static MCAuto<MEDFileFieldPerMesh> Aggregate(int &start, const std::vector<const MEDFileFieldPerMesh *>& pms, const std::vector< std::vector< std::pair<int,int> > >& dts, MEDFileAnyTypeField1TSWithoutSDA *father, std::vector<std::pair< int, std::pair<int,int> > >& extractInfo);
27671 + int addNewEntryIfNecessary(INTERP_KERNEL::NormalizedCellType type);
27672 + MEDCouplingFieldDouble *finishField(TypeOfField type, const MEDFileFieldGlobsReal *glob,
27673 + const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs, const MEDCouplingMesh *mesh, bool& isPfl, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
27674 + MEDCouplingFieldDouble *finishField2(TypeOfField type, const MEDFileFieldGlobsReal *glob,
27675 + const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs,
27676 + const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes,
27677 + const MEDCouplingMesh *mesh, const DataArrayInt *da, bool& isPfl, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
27678 + MEDCouplingFieldDouble *finishFieldNode2(const MEDFileFieldGlobsReal *glob,
27679 + const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs,
27680 + const MEDCouplingMesh *mesh, const DataArrayInt *da, bool& isPfl, MCAuto<DataArray> &arrOut, const MEDFileFieldNameScope& nasc) const;
27681 + DataArray *finishField4(const std::vector< std::pair<int,int> >& dads, const DataArrayInt *pflIn, int nbOfElems, DataArrayInt *&pflOut) const;
27682 + void assignNewLeaves(const std::vector< MCAuto< MEDFileFieldPerMeshPerTypePerDisc > >& leaves);
27683 + static void SortArraysPerType(const MEDFileFieldGlobsReal *glob, TypeOfField type,
27684 + const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes, const std::vector< std::pair<int,int> >& dads, const std::vector<const DataArrayInt *>& pfls, const std::vector<int>& locs,
27685 + std::vector<int>& code, std::vector<DataArrayInt *>& notNullPfls);
27686 + static int ComputeNbOfElems(const MEDFileFieldGlobsReal *glob, TypeOfField type, const std::vector<INTERP_KERNEL::NormalizedCellType>& geoTypes, const std::vector< std::pair<int,int> >& dads, const std::vector<int>& locs);
27687 + MEDFileFieldPerMesh(med_idt fid, MEDFileAnyTypeField1TSWithoutSDA *fath, int meshCsit, int meshIteration, int meshOrder, const MEDFileFieldNameScope& nasc, const MEDFileMesh *mm, const MEDFileEntities *entities);
27688 + MEDFileFieldPerMesh(MEDFileAnyTypeField1TSWithoutSDA *fath, const MEDCouplingMesh *mesh);
27689 + MEDFileFieldPerMesh(MEDFileAnyTypeField1TSWithoutSDA *fath, const std::string& meshName, int meshIt, int meshOrd):_father(fath),_mesh_iteration(meshIt),_mesh_order(meshOrd) { }
27691 + int _mesh_iteration;
27693 + MEDFileAnyTypeField1TSWithoutSDA *_father;
27694 + std::vector< MCAuto< MEDFileFieldPerMeshPerTypeCommon > > _field_pm_pt;
27699 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileFieldMultiTS.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileFieldMultiTS.cxx
27700 --- MEDCOUPLING_old/src/MEDLoader/MEDFileFieldMultiTS.cxx 1970-01-01 01:00:00.000000000 +0100
27701 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileFieldMultiTS.cxx 2018-04-19 17:25:17.727797159 +0200
27703 +// Copyright (C) 2017 CEA/DEN, EDF R&D
27705 +// This library is free software; you can redistribute it and/or
27706 +// modify it under the terms of the GNU Lesser General Public
27707 +// License as published by the Free Software Foundation; either
27708 +// version 2.1 of the License, or (at your option) any later version.
27710 +// This library is distributed in the hope that it will be useful,
27711 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
27712 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
27713 +// Lesser General Public License for more details.
27715 +// You should have received a copy of the GNU Lesser General Public
27716 +// License along with this library; if not, write to the Free Software
27717 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
27719 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
27721 +// Author : Anthony Geay (EDF R&D)
27723 +#include "MEDFileFieldMultiTS.hxx"
27724 +#include "MEDFileFieldVisitor.hxx"
27725 +#include "MEDFileSafeCaller.txx"
27726 +#include "MEDLoaderBase.hxx"
27727 +#include "MEDFileField.txx"
27729 +#include "MEDCouplingFieldDouble.hxx"
27730 +#include "MEDCouplingFieldTemplate.hxx"
27732 +#include <sstream>
27734 +using namespace MEDCoupling;
27736 +template class MEDCoupling::MEDFileTemplateFieldMultiTSWithoutSDA<int>;
27737 +template class MEDCoupling::MEDFileTemplateFieldMultiTSWithoutSDA<float>;
27738 +template class MEDCoupling::MEDFileTemplateFieldMultiTSWithoutSDA<double>;
27739 +template class MEDCoupling::MEDFileNDTemplateFieldMultiTSWithoutSDA<int>;
27740 +template class MEDCoupling::MEDFileNDTemplateFieldMultiTSWithoutSDA<float>;
27741 +template class MEDCoupling::MEDFileTemplateFieldMultiTS<int>;
27742 +template class MEDCoupling::MEDFileTemplateFieldMultiTS<float>;
27743 +template class MEDCoupling::MEDFileTemplateFieldMultiTS<double>;
27744 +template class MEDCoupling::MEDFileNDTemplateFieldMultiTS<int>;
27745 +template class MEDCoupling::MEDFileNDTemplateFieldMultiTS<float>;
27747 +//= MEDFileAnyTypeFieldMultiTSWithoutSDA
27749 +MEDFileAnyTypeFieldMultiTSWithoutSDA::MEDFileAnyTypeFieldMultiTSWithoutSDA()
27753 +MEDFileAnyTypeFieldMultiTSWithoutSDA::MEDFileAnyTypeFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileFieldNameScope(fieldName,meshName)
27758 + * \param [in] fieldId field id in C mode
27760 +MEDFileAnyTypeFieldMultiTSWithoutSDA::MEDFileAnyTypeFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
27762 + med_field_type typcha;
27763 + std::string dtunitOut,meshName;
27764 + int nbOfStep(MEDFileAnyTypeField1TS::LocateField2(fid,fieldId,false,_name,typcha,_infos,dtunitOut,meshName));
27765 + setMeshName(meshName);
27766 + setDtUnit(dtunitOut.c_str());
27767 + loadStructureOrStructureAndBigArraysRecursively(fid,nbOfStep,typcha,loadAll,ms,entities);
27770 +MEDFileAnyTypeFieldMultiTSWithoutSDA::MEDFileAnyTypeFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
27771 +try:MEDFileFieldNameScope(fieldName,meshName),_infos(infos)
27773 + setDtUnit(dtunit.c_str());
27774 + loadStructureOrStructureAndBigArraysRecursively(fid,nbOfStep,fieldTyp,loadAll,ms,entities);
27776 +catch(INTERP_KERNEL::Exception& e)
27781 +std::size_t MEDFileAnyTypeFieldMultiTSWithoutSDA::getHeapMemorySizeWithoutChildren() const
27783 + std::size_t ret(_mesh_name.capacity()+_name.capacity()+_infos.capacity()*sizeof(std::string)+_time_steps.capacity()*sizeof(MCAuto<MEDFileField1TSWithoutSDA>));
27784 + for(std::vector<std::string>::const_iterator it=_infos.begin();it!=_infos.end();it++)
27785 + ret+=(*it).capacity();
27789 +std::vector<const BigMemoryObject *> MEDFileAnyTypeFieldMultiTSWithoutSDA::getDirectChildrenWithNull() const
27791 + std::vector<const BigMemoryObject *> ret;
27792 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
27793 + ret.push_back((const MEDFileAnyTypeField1TSWithoutSDA *)*it);
27798 + * If one of the id in [ \a startIds , \a endIds ) points to a null element, there is not throw. Simply, this empty element is added as if it were not
27801 +MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::buildFromTimeStepIds(const int *startIds, const int *endIds) const
27803 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> ret=createNew();
27804 + ret->setInfo(_infos);
27805 + int sz=(int)_time_steps.size();
27806 + for(const int *id=startIds;id!=endIds;id++)
27808 + if(*id>=0 && *id<sz)
27810 + const MEDFileAnyTypeField1TSWithoutSDA *tse=_time_steps[*id];
27811 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> tse2;
27815 + tse2=(const_cast<MEDFileAnyTypeField1TSWithoutSDA *>(tse));
27817 + ret->pushBackTimeStep(tse2);
27821 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::buildFromTimeStepIds : At pos #" << std::distance(startIds,id) << " value is " << *id;
27822 + oss << " ! Should be in [0," << sz << ") !";
27823 + throw INTERP_KERNEL::Exception(oss.str());
27826 + if(ret->getNumberOfTS()>0)
27827 + ret->synchronizeNameScope();
27828 + ret->copyNameScope(*this);
27829 + return ret.retn();
27833 + * If one of the id in the input range points to a null element, there is not throw. Simply, this empty element is added as if it were not
27836 +MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::buildFromTimeStepIds2(int bg, int end, int step) const
27838 + static const char msg[]="MEDFileAnyTypeFieldMultiTSWithoutSDA::buildFromTimeStepIds2";
27839 + int nbOfEntriesToKeep=DataArrayInt::GetNumberOfItemGivenBESRelative(bg,end,step,msg);
27840 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> ret=createNew();
27841 + ret->setInfo(_infos);
27842 + int sz=(int)_time_steps.size();
27844 + for(int i=0;i<nbOfEntriesToKeep;i++,j+=step)
27848 + const MEDFileAnyTypeField1TSWithoutSDA *tse=_time_steps[j];
27849 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> tse2;
27853 + tse2=(const_cast<MEDFileAnyTypeField1TSWithoutSDA *>(tse));
27855 + ret->pushBackTimeStep(tse2);
27859 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::buildFromTimeStepIds : At pos #" << i << " value is " << j;
27860 + oss << " ! Should be in [0," << sz << ") !";
27861 + throw INTERP_KERNEL::Exception(oss.str());
27864 + if(ret->getNumberOfTS()>0)
27865 + ret->synchronizeNameScope();
27866 + ret->copyNameScope(*this);
27867 + return ret.retn();
27870 +MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::partOfThisLyingOnSpecifiedTimeSteps(const std::vector< std::pair<int,int> >& timeSteps) const
27873 + MCAuto<DataArrayInt> ids=DataArrayInt::New(); ids->alloc(0,1);
27874 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,id++)
27876 + const MEDFileAnyTypeField1TSWithoutSDA *cur(*it);
27879 + std::pair<int,int> p(cur->getIteration(),cur->getOrder());
27880 + if(std::find(timeSteps.begin(),timeSteps.end(),p)!=timeSteps.end())
27881 + ids->pushBackSilent(id);
27883 + return buildFromTimeStepIds(ids->begin(),ids->end());
27886 +MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::partOfThisNotLyingOnSpecifiedTimeSteps(const std::vector< std::pair<int,int> >& timeSteps) const
27889 + MCAuto<DataArrayInt> ids=DataArrayInt::New(); ids->alloc(0,1);
27890 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,id++)
27892 + const MEDFileAnyTypeField1TSWithoutSDA *cur(*it);
27895 + std::pair<int,int> p(cur->getIteration(),cur->getOrder());
27896 + if(std::find(timeSteps.begin(),timeSteps.end(),p)==timeSteps.end())
27897 + ids->pushBackSilent(id);
27899 + return buildFromTimeStepIds(ids->begin(),ids->end());
27902 +bool MEDFileAnyTypeFieldMultiTSWithoutSDA::presenceOfStructureElements() const
27904 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
27905 + if((*it).isNotNull())
27906 + if((*it)->presenceOfStructureElements())
27911 +bool MEDFileAnyTypeFieldMultiTSWithoutSDA::onlyStructureElements() const
27913 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
27914 + if((*it).isNotNull())
27915 + if(!(*it)->onlyStructureElements())
27920 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::killStructureElements()
27922 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret;
27923 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
27924 + if((*it).isNotNull())
27926 + if((*it)->presenceOfStructureElements())
27928 + if(!(*it)->onlyStructureElements())
27930 + (*it)->killStructureElements();
27931 + ret.push_back(*it);
27936 + ret.push_back(*it);
27942 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::keepOnlyStructureElements()
27944 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret;
27945 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
27946 + if((*it).isNotNull())
27948 + if((*it)->presenceOfStructureElements())
27950 + if(!(*it)->onlyStructureElements())
27951 + (*it)->keepOnlyStructureElements();
27952 + ret.push_back(*it);
27958 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::keepOnlyOnSE(const std::string& seName)
27960 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret;
27961 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
27962 + if((*it).isNotNull())
27963 + (*it)->keepOnlyOnSE(seName);
27966 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const
27968 + std::vector< std::pair<std::string,std::string> > ps2;
27969 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
27970 + if((*it).isNotNull())
27972 + (*it)->getMeshSENames(ps2);
27976 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::getMeshSENames : this appears to not contain SE only !");
27977 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
27978 + if((*it).isNotNull())
27980 + std::vector< std::pair<std::string,std::string> > ps3;
27981 + (*it)->getMeshSENames(ps3);
27983 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::getMeshSENames : For the moment only homogeneous SE def through time managed !");
27985 + for(std::vector< std::pair<std::string,std::string> >::const_iterator it=ps2.begin();it!=ps2.end();it++)
27987 + std::vector< std::pair<std::string,std::string> >::iterator it2(std::find(ps.begin(),ps.end(),*it));
27988 + if(it2==ps.end())
27989 + ps.push_back(*it);
27993 +bool MEDFileAnyTypeFieldMultiTSWithoutSDA::presenceOfMultiDiscPerGeoType() const
27995 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
27997 + const MEDFileAnyTypeField1TSWithoutSDA *cur(*it);
28000 + if(cur->presenceOfMultiDiscPerGeoType())
28006 +const std::vector<std::string>& MEDFileAnyTypeFieldMultiTSWithoutSDA::getInfo() const
28011 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::setInfo(const std::vector<std::string>& info)
28016 +int MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepPos(int iteration, int order) const
28019 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,ret++)
28021 + const MEDFileAnyTypeField1TSWithoutSDA *pt(*it);
28022 + if(pt->isDealingTS(iteration,order))
28025 + std::ostringstream oss; oss << "MEDFileFieldMultiTS::getTimeStepPos : Muli timestep field on time (" << iteration << "," << order << ") does not exist ! Available (iteration,order) are :\n";
28026 + std::vector< std::pair<int,int> > vp=getIterations();
28027 + for(std::vector< std::pair<int,int> >::const_iterator it2=vp.begin();it2!=vp.end();it2++)
28028 + oss << "(" << (*it2).first << "," << (*it2).second << ") ";
28029 + throw INTERP_KERNEL::Exception(oss.str());
28032 +const MEDFileAnyTypeField1TSWithoutSDA& MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepEntry(int iteration, int order) const
28034 + return *_time_steps[getTimeStepPos(iteration,order)];
28037 +MEDFileAnyTypeField1TSWithoutSDA& MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepEntry(int iteration, int order)
28039 + return *_time_steps[getTimeStepPos(iteration,order)];
28042 +bool MEDFileAnyTypeFieldMultiTSWithoutSDA::changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab)
28045 + for(std::vector< std::pair<std::string,std::string> >::const_iterator it=modifTab.begin();it!=modifTab.end();it++)
28047 + if((*it).first==getMeshName())
28049 + setMeshName((*it).second);
28053 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28055 + MEDFileAnyTypeField1TSWithoutSDA *cur(*it);
28057 + ret=cur->changeMeshNames(modifTab) || ret;
28063 + * See doc at MEDFileField1TSWithoutSDA::getUndergroundDataArray
28065 +DataArray *MEDFileAnyTypeFieldMultiTSWithoutSDA::getUndergroundDataArray(int iteration, int order) const
28067 + return getTimeStepEntry(iteration,order).getUndergroundDataArray();
28071 + * See doc at MEDFileField1TSWithoutSDA::getUndergroundDataArrayExt
28073 +DataArray *MEDFileAnyTypeFieldMultiTSWithoutSDA::getUndergroundDataArrayExt(int iteration, int order, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const
28075 + return getTimeStepEntry(iteration,order).getUndergroundDataArrayExt(entries);
28078 +bool MEDFileAnyTypeFieldMultiTSWithoutSDA::renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N,
28079 + MEDFileFieldGlobsReal& glob)
28082 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28084 + MEDFileAnyTypeField1TSWithoutSDA *f1ts(*it);
28086 + ret=f1ts->renumberEntitiesLyingOnMesh(meshName,oldCode,newCode,renumO2N,glob) || ret;
28091 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::accept(MEDFileFieldVisitor& visitor) const
28093 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28094 + if((*it).isNotNull())
28096 + visitor.newTimeStepEntry(*it);
28097 + (*it)->accept(visitor);
28098 + visitor.endTimeStepEntry(*it);
28102 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::simpleRepr(int bkOffset, std::ostream& oss, int fmtsId) const
28104 + std::string startLine(bkOffset,' ');
28105 + oss << startLine << "Field multi time steps [Type=" << getTypeStr() << "]";
28107 + oss << " (" << fmtsId << ")";
28108 + oss << " has the following name: \"" << _name << "\"." << std::endl;
28109 + oss << startLine << "Field multi time steps has " << _infos.size() << " components with the following infos :" << std::endl;
28110 + for(std::vector<std::string>::const_iterator it=_infos.begin();it!=_infos.end();it++)
28112 + oss << startLine << " - \"" << *it << "\"" << std::endl;
28115 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,i++)
28117 + std::string chapter(17,'0'+i);
28118 + oss << startLine << chapter << std::endl;
28119 + const MEDFileAnyTypeField1TSWithoutSDA *cur=(*it);
28121 + cur->simpleRepr(bkOffset+2,oss,i);
28123 + oss << startLine << " Field on one time step #" << i << " is not defined !" << std::endl;
28124 + oss << startLine << chapter << std::endl;
28128 +std::vector< std::pair<int,int> > MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeSteps(std::vector<double>& ret1) const
28130 + std::size_t sz=_time_steps.size();
28131 + std::vector< std::pair<int,int> > ret(sz);
28133 + for(std::size_t i=0;i<sz;i++)
28135 + const MEDFileAnyTypeField1TSWithoutSDA *f1ts=_time_steps[i];
28138 + ret1[i]=f1ts->getTime(ret[i].first,ret[i].second);
28142 + std::ostringstream oss; oss << "MEDFileFieldMultiTSWithoutSDA::getTimeSteps : At rank #" << i << " time step is not defined. Invoke eraseEmptyTS method !";
28143 + throw INTERP_KERNEL::Exception(oss.str());
28149 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::pushBackTimeStep(MCAuto<MEDFileAnyTypeField1TSWithoutSDA>& tse)
28151 + MEDFileAnyTypeField1TSWithoutSDA *tse2(tse);
28153 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::pushBackTimeStep : input content object is null !");
28154 + checkCoherencyOfType(tse2);
28155 + if(_time_steps.empty())
28157 + setName(tse2->getName());
28158 + setMeshName(tse2->getMeshName());
28159 + setInfo(tse2->getInfo());
28161 + checkThatComponentsMatch(tse2->getInfo());
28162 + if(getDtUnit().empty() && !tse->getDtUnit().empty())
28163 + setDtUnit(tse->getDtUnit());
28164 + _time_steps.push_back(tse);
28167 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::synchronizeNameScope()
28169 + std::size_t nbOfCompo=_infos.size();
28170 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28172 + MEDFileAnyTypeField1TSWithoutSDA *cur=(*it);
28175 + if((cur->getInfo()).size()!=nbOfCompo)
28177 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::synchronizeNameScope : Mismatch in the number of components of parts ! Should be " << nbOfCompo;
28178 + oss << " ! but the field at iteration=" << cur->getIteration() << " order=" << cur->getOrder() << " has " << (cur->getInfo()).size() << " components !";
28179 + throw INTERP_KERNEL::Exception(oss.str());
28181 + cur->copyNameScope(*this);
28186 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::loadStructureOrStructureAndBigArraysRecursively(med_idt fid, int nbPdt, med_field_type fieldTyp, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
28188 + _time_steps.resize(nbPdt);
28189 + for(int i=0;i<nbPdt;i++)
28191 + std::vector< std::pair<int,int> > ts;
28192 + med_int numdt=0,numo=0;
28193 + med_float dt=0.0;
28194 + MEDFILESAFECALLERRD0(MEDfieldComputingStepInfo,(fid,_name.c_str(),i+1,&numdt,&numo,&dt));
28197 + case MED_FLOAT64:
28199 + _time_steps[i]=MEDFileField1TSWithoutSDA::New(getName(),getMeshName(),i+1,numdt,numo,_infos);
28204 + _time_steps[i]=MEDFileIntField1TSWithoutSDA::New(getName(),getMeshName(),i+1,numdt,numo,_infos);
28207 + case MED_FLOAT32:
28209 + _time_steps[i]=MEDFileFloatField1TSWithoutSDA::New(getName(),getMeshName(),i+1,numdt,numo,_infos);
28214 + if(sizeof(med_int)==sizeof(int))
28216 + _time_steps[i]=MEDFileIntField1TSWithoutSDA::New(getName(),getMeshName(),i+1,numdt,numo,_infos);
28221 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::loadStructureOrStructureAndBigArraysRecursively : managed field type are : FLOAT64, INT32, FLOAT32 !");
28224 + _time_steps[i]->loadStructureAndBigArraysRecursively(fid,*this,ms,entities);
28226 + _time_steps[i]->loadOnlyStructureOfDataRecursively(fid,*this,ms,entities);
28227 + synchronizeNameScope();
28231 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::writeLL(med_idt fid, const MEDFileWritable& opts) const
28233 + if(_time_steps.empty())
28234 + throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::writeLL : no time steps set !");
28235 + checkThatNbOfCompoOfTSMatchThis();
28236 + std::vector<std::string> infos(getInfo());
28237 + int nbComp=infos.size();
28238 + INTERP_KERNEL::AutoPtr<char> comp=MEDLoaderBase::buildEmptyString(nbComp*MED_SNAME_SIZE);
28239 + INTERP_KERNEL::AutoPtr<char> unit=MEDLoaderBase::buildEmptyString(nbComp*MED_SNAME_SIZE);
28240 + for(int i=0;i<nbComp;i++)
28242 + std::string info=infos[i];
28244 + MEDLoaderBase::splitIntoNameAndUnit(info,c,u);
28245 + MEDLoaderBase::safeStrCpy2(c.c_str(),MED_SNAME_SIZE,comp+i*MED_SNAME_SIZE,opts.getTooLongStrPolicy());
28246 + MEDLoaderBase::safeStrCpy2(u.c_str(),MED_SNAME_SIZE,unit+i*MED_SNAME_SIZE,opts.getTooLongStrPolicy());
28248 + if(_name.empty())
28249 + throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::write : MED file does not accept field with empty name !");
28250 + MEDFILESAFECALLERWR0(MEDfieldCr,(fid,_name.c_str(),getMEDFileFieldType(),nbComp,comp,unit,getDtUnit().c_str(),getMeshName().c_str()));
28251 + int nbOfTS=_time_steps.size();
28252 + for(int i=0;i<nbOfTS;i++)
28253 + _time_steps[i]->writeLL(fid,opts,*this);
28256 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc)
28258 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28260 + MEDFileAnyTypeField1TSWithoutSDA *elt(*it);
28262 + elt->loadBigArraysRecursively(fid,nasc);
28266 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::loadBigArraysRecursivelyIfNecessary(med_idt fid, const MEDFileFieldNameScope& nasc)
28268 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28270 + MEDFileAnyTypeField1TSWithoutSDA *elt(*it);
28272 + elt->loadBigArraysRecursivelyIfNecessary(fid,nasc);
28276 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::unloadArrays()
28278 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28280 + MEDFileAnyTypeField1TSWithoutSDA *elt(*it);
28282 + elt->unloadArrays();
28286 +int MEDFileAnyTypeFieldMultiTSWithoutSDA::getNumberOfTS() const
28288 + return _time_steps.size();
28291 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::eraseEmptyTS()
28293 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > newTS;
28294 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28296 + const MEDFileAnyTypeField1TSWithoutSDA *tmp=(*it);
28298 + newTS.push_back(*it);
28300 + _time_steps=newTS;
28303 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::eraseTimeStepIds(const int *startIds, const int *endIds)
28305 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > newTS;
28306 + int maxId=(int)_time_steps.size();
28308 + std::set<int> idsToDel;
28309 + for(const int *id=startIds;id!=endIds;id++,ii++)
28311 + if(*id>=0 && *id<maxId)
28313 + idsToDel.insert(*id);
28317 + std::ostringstream oss; oss << "MEDFileFieldMultiTSWithoutSDA::eraseTimeStepIds : At pos #" << ii << " request for id=" << *id << " not in [0," << maxId << ") !";
28318 + throw INTERP_KERNEL::Exception(oss.str());
28321 + for(int iii=0;iii<maxId;iii++)
28322 + if(idsToDel.find(iii)==idsToDel.end())
28323 + newTS.push_back(_time_steps[iii]);
28324 + _time_steps=newTS;
28327 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::eraseTimeStepIds2(int bg, int end, int step)
28329 + static const char msg[]="MEDFileAnyTypeFieldMultiTSWithoutSDA::eraseTimeStepIds2";
28330 + int nbOfEntriesToKill=DataArrayInt::GetNumberOfItemGivenBESRelative(bg,end,step,msg);
28331 + if(nbOfEntriesToKill==0)
28333 + std::size_t sz=_time_steps.size();
28334 + std::vector<bool> b(sz,true);
28336 + for(int i=0;i<nbOfEntriesToKill;i++,j+=step)
28338 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > newTS;
28339 + for(std::size_t i=0;i<sz;i++)
28341 + newTS.push_back(_time_steps[i]);
28342 + _time_steps=newTS;
28345 +int MEDFileAnyTypeFieldMultiTSWithoutSDA::getPosOfTimeStep(int iteration, int order) const
28348 + std::ostringstream oss; oss << "MEDFileFieldMultiTSWithoutSDA::getPosOfTimeStep : No such time step (" << iteration << "," << order << ") !\nPossibilities are : ";
28349 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,ret++)
28351 + const MEDFileAnyTypeField1TSWithoutSDA *tmp(*it);
28355 + tmp->getTime(it2,ord);
28356 + if(it2==iteration && order==ord)
28359 + oss << "(" << it2 << "," << ord << "), ";
28362 + throw INTERP_KERNEL::Exception(oss.str());
28365 +int MEDFileAnyTypeFieldMultiTSWithoutSDA::getPosGivenTime(double time, double eps) const
28368 + std::ostringstream oss; oss << "MEDFileFieldMultiTSWithoutSDA::getPosGivenTime : No such time step " << time << "! \nPossibilities are : ";
28369 + oss.precision(15);
28370 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,ret++)
28372 + const MEDFileAnyTypeField1TSWithoutSDA *tmp(*it);
28376 + double ti=tmp->getTime(it2,ord);
28377 + if(fabs(time-ti)<eps)
28380 + oss << ti << ", ";
28383 + throw INTERP_KERNEL::Exception(oss.str());
28386 +std::vector< std::pair<int,int> > MEDFileAnyTypeFieldMultiTSWithoutSDA::getIterations() const
28388 + int lgth=_time_steps.size();
28389 + std::vector< std::pair<int,int> > ret(lgth);
28390 + for(int i=0;i<lgth;i++)
28391 + _time_steps[i]->fillIteration(ret[i]);
28396 + * This method has 3 inputs 'iteration' 'order' 'mname'. 'mname' can be null if the user is the general case where there is only one meshName lying on 'this'
28397 + * This method returns two things.
28398 + * - The absolute dimension of 'this' in first parameter.
28399 + * - The available ext levels relative to the absolute dimension returned in first parameter. These relative levels are relative
28400 + * to the first output parameter. The values in 'levs' will be returned in decreasing order.
28402 + * This method is designed for MEDFileFieldMultiTS instances that have a discritization ON_CELLS, ON_GAUSS_NE and ON_GAUSS.
28403 + * Only these 3 discretizations will be taken into account here.
28405 + * If 'this' is empty this method will throw an INTERP_KERNEL::Exception.
28406 + * If there is \b only node fields defined in 'this' -1 is returned and 'levs' output parameter will be empty. In this
28407 + * case the caller has to know the underlying mesh it refers to. By default it is the level 0 of the corresponding mesh.
28409 + * This method is useful to make the link between meshDimension of the underlying mesh in 'this' and the levels on 'this'.
28410 + * It is possible (even if it is not common) that the highest level in 'this' were not equal to the meshDimension of the underlying mesh in 'this'.
28412 + * Let's consider the typical following case :
28413 + * - a mesh 'm1' has a meshDimension 3 and has the following non empty levels
28414 + * [0,-1,-2] for example 'm1' lies on TETRA4, HEXA8 TRI3 and SEG2
28415 + * - 'f1' lies on 'm1' and is defined on 3D and 1D cells for example
28416 + * TETRA4 and SEG2
28417 + * - 'f2' lies on 'm1' too and is defined on 2D and 1D cells for example TRI3 and SEG2
28419 + * In this case f1->getNonEmptyLevelsExt will return (3,[0,-2]) and f2->getNonEmptyLevelsExt will return (2,[0,-1])
28421 + * To retrieve the highest level of f1 it should be done, f1->getFieldAtLevel(ON_CELLS,3-3+0);//absDim-meshDim+relativeLev
28422 + * To retrieve the lowest level of f1 it should be done, f1->getFieldAtLevel(ON_CELLS,3-3+(-2));//absDim-meshDim+relativeLev
28423 + * To retrieve the highest level of f2 it should be done, f1->getFieldAtLevel(ON_CELLS,2-3+0);//absDim-meshDim+relativeLev
28424 + * To retrieve the lowest level of f2 it should be done, f1->getFieldAtLevel(ON_CELLS,2-3+(-1));//absDim-meshDim+relativeLev
28426 +int MEDFileAnyTypeFieldMultiTSWithoutSDA::getNonEmptyLevels(int iteration, int order, const std::string& mname, std::vector<int>& levs) const
28428 + return getTimeStepEntry(iteration,order).getNonEmptyLevels(mname,levs);
28431 +const MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2(int pos) const
28433 + if(pos<0 || pos>=(int)_time_steps.size())
28435 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2 : request for pos #" << pos << " whereas should be in [0," << _time_steps.size() << ") !";
28436 + throw INTERP_KERNEL::Exception(oss.str());
28438 + const MEDFileAnyTypeField1TSWithoutSDA *item=_time_steps[pos];
28441 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2 : request for pos #" << pos << ", this pos id exists but the underlying Field1TS is null !";
28442 + oss << "\nTry to use following method eraseEmptyTS !";
28443 + throw INTERP_KERNEL::Exception(oss.str());
28448 +MEDFileAnyTypeField1TSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2(int pos)
28450 + if(pos<0 || pos>=(int)_time_steps.size())
28452 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2 : request for pos #" << pos << " whereas should be in [0," << _time_steps.size() << ") !";
28453 + throw INTERP_KERNEL::Exception(oss.str());
28455 + MEDFileAnyTypeField1TSWithoutSDA *item=_time_steps[pos];
28458 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::getTimeStepAtPos2 : request for pos #" << pos << ", this pos id exists but the underlying Field1TS is null !";
28459 + oss << "\nTry to use following method eraseEmptyTS !";
28460 + throw INTERP_KERNEL::Exception(oss.str());
28465 +std::vector<std::string> MEDFileAnyTypeFieldMultiTSWithoutSDA::getPflsReallyUsed2() const
28467 + std::vector<std::string> ret;
28468 + std::set<std::string> ret2;
28469 + for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28471 + std::vector<std::string> tmp=(*it)->getPflsReallyUsed2();
28472 + for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
28473 + if(ret2.find(*it2)==ret2.end())
28475 + ret.push_back(*it2);
28476 + ret2.insert(*it2);
28482 +std::vector<std::string> MEDFileAnyTypeFieldMultiTSWithoutSDA::getLocsReallyUsed2() const
28484 + std::vector<std::string> ret;
28485 + std::set<std::string> ret2;
28486 + for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28488 + std::vector<std::string> tmp=(*it)->getLocsReallyUsed2();
28489 + for(std::vector<std::string>::const_iterator it2=tmp.begin();it2!=tmp.end();it2++)
28490 + if(ret2.find(*it2)==ret2.end())
28492 + ret.push_back(*it2);
28493 + ret2.insert(*it2);
28499 +std::vector<std::string> MEDFileAnyTypeFieldMultiTSWithoutSDA::getPflsReallyUsedMulti2() const
28501 + std::vector<std::string> ret;
28502 + for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28504 + std::vector<std::string> tmp=(*it)->getPflsReallyUsedMulti2();
28505 + ret.insert(ret.end(),tmp.begin(),tmp.end());
28510 +std::vector<std::string> MEDFileAnyTypeFieldMultiTSWithoutSDA::getLocsReallyUsedMulti2() const
28512 + std::vector<std::string> ret;
28513 + for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28515 + std::vector<std::string> tmp=(*it)->getLocsReallyUsedMulti2();
28516 + ret.insert(ret.end(),tmp.begin(),tmp.end());
28521 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::changePflsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
28523 + for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28524 + (*it)->changePflsRefsNamesGen2(mapOfModif);
28527 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::changeLocsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
28529 + for(std::vector< MCAuto< MEDFileAnyTypeField1TSWithoutSDA > >::iterator it=_time_steps.begin();it!=_time_steps.end();it++)
28530 + (*it)->changeLocsRefsNamesGen2(mapOfModif);
28533 +std::vector< std::vector<TypeOfField> > MEDFileAnyTypeFieldMultiTSWithoutSDA::getTypesOfFieldAvailable() const
28535 + int lgth=_time_steps.size();
28536 + std::vector< std::vector<TypeOfField> > ret(lgth);
28537 + for(int i=0;i<lgth;i++)
28538 + _time_steps[i]->fillTypesOfFieldAvailable(ret[i]);
28543 + * entry point for users that want to iterate into MEDFile DataStructure without any overhead.
28545 +std::vector< std::vector< std::pair<int,int> > > MEDFileAnyTypeFieldMultiTSWithoutSDA::getFieldSplitedByType(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
28547 + return getTimeStepEntry(iteration,order).getFieldSplitedByType(mname,types,typesF,pfls,locs);
28550 +MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTSWithoutSDA::deepCopy() const
28552 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> ret=shallowCpy();
28554 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,i++)
28556 + if((const MEDFileAnyTypeField1TSWithoutSDA *)*it)
28557 + ret->_time_steps[i]=(*it)->deepCopy();
28559 + return ret.retn();
28562 +std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > MEDFileAnyTypeFieldMultiTSWithoutSDA::splitComponents() const
28564 + std::size_t sz(_infos.size()),sz2(_time_steps.size());
28565 + std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > ret(sz);
28566 + std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > > ts(sz2);
28567 + for(std::size_t i=0;i<sz;i++)
28569 + ret[i]=shallowCpy();
28570 + ret[i]->_infos.resize(1); ret[i]->_infos[0]=_infos[i];
28572 + for(std::size_t i=0;i<sz2;i++)
28574 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > ret1=_time_steps[i]->splitComponents();
28575 + if(ret1.size()!=sz)
28577 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::splitComponents : At rank #" << i << " number of components is " << ret1.size() << " whereas it should be for all time steps " << sz << " !";
28578 + throw INTERP_KERNEL::Exception(oss.str());
28582 + for(std::size_t i=0;i<sz;i++)
28583 + for(std::size_t j=0;j<sz2;j++)
28584 + ret[i]->_time_steps[j]=ts[j][i];
28589 + * This method splits into discretization each time steps in \a this.
28590 + * ** WARNING ** the returned instances are not compulsory defined on the same time steps series !
28592 +std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > MEDFileAnyTypeFieldMultiTSWithoutSDA::splitDiscretizations() const
28594 + std::size_t sz(_time_steps.size());
28595 + std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > > items(sz);
28596 + for(std::size_t i=0;i<sz;i++)
28598 + const MEDFileAnyTypeField1TSWithoutSDA *timeStep(_time_steps[i]);
28601 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::splitDiscretizations : time step #" << i << " is null !";
28602 + throw INTERP_KERNEL::Exception(oss.str());
28604 + items[i]=timeStep->splitDiscretizations();
28607 + std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > ret;
28608 + std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > > ret2;
28609 + std::vector< TypeOfField > types;
28610 + for(std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > >::const_iterator it0=items.begin();it0!=items.end();it0++)
28611 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it1=(*it0).begin();it1!=(*it0).end();it1++)
28613 + std::vector<TypeOfField> ts=(*it1)->getTypesOfFieldAvailable();
28615 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::splitDiscretizations : it appears that the splitting of MEDFileAnyTypeField1TSWithoutSDA::splitDiscretizations has returned invalid result !");
28616 + std::vector< TypeOfField >::iterator it2=std::find(types.begin(),types.end(),ts[0]);
28617 + if(it2==types.end())
28618 + types.push_back(ts[0]);
28620 + ret.resize(types.size()); ret2.resize(types.size());
28621 + for(std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > >::const_iterator it0=items.begin();it0!=items.end();it0++)
28622 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it1=(*it0).begin();it1!=(*it0).end();it1++)
28624 + TypeOfField typ=(*it1)->getTypesOfFieldAvailable()[0];
28625 + std::size_t pos=std::distance(types.begin(),std::find(types.begin(),types.end(),typ));
28626 + ret2[pos].push_back(*it1);
28628 + for(std::size_t i=0;i<types.size();i++)
28630 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> elt(createNew());
28631 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::iterator it1=ret2[i].begin();it1!=ret2[i].end();it1++)
28632 + elt->pushBackTimeStep(*it1);//also updates infos in elt
28634 + elt->MEDFileFieldNameScope::operator=(*this);
28640 + * Contrary to splitDiscretizations method this method makes the hypothesis that the times series are **NOT** impacted by the splitting of multi discretization.
28642 +std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > MEDFileAnyTypeFieldMultiTSWithoutSDA::splitMultiDiscrPerGeoTypes() const
28644 + std::size_t sz(_time_steps.size());
28645 + std::vector< std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > > items(sz);
28646 + std::size_t szOut(std::numeric_limits<std::size_t>::max());
28647 + for(std::size_t i=0;i<sz;i++)
28649 + const MEDFileAnyTypeField1TSWithoutSDA *timeStep(_time_steps[i]);
28652 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::splitMultiDiscrPerGeoTypes : time step #" << i << " is null !";
28653 + throw INTERP_KERNEL::Exception(oss.str());
28655 + items[i]=timeStep->splitMultiDiscrPerGeoTypes();
28656 + if(szOut==std::numeric_limits<std::size_t>::max())
28657 + szOut=items[i].size();
28659 + if(items[i].size()!=szOut)
28660 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::splitMultiDiscrPerGeoTypes : The splitting per discretization is expected to be same among time steps !");
28662 + if(szOut==std::numeric_limits<std::size_t>::max())
28663 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::splitMultiDiscrPerGeoTypes : empty field !");
28664 + std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > ret(szOut);
28665 + for(std::size_t i=0;i<szOut;i++)
28667 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> elt(createNew());
28668 + for(std::size_t j=0;j<sz;j++)
28669 + elt->pushBackTimeStep(items[j][i]);
28671 + elt->MEDFileFieldNameScope::operator=(*this);
28676 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::copyTinyInfoFrom(const MEDCouplingFieldDouble *field, const DataArray *arr)
28678 + setName(field->getName());
28679 + if(field->getMesh())
28680 + setMeshName(field->getMesh()->getName());
28681 + if(_name.empty())
28682 + throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::copyTinyInfoFrom : unsupported fields with no name in MED file !");
28684 + throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::copyTinyInfoFrom : no array set !");
28685 + _infos=arr->getInfoOnComponents();
28688 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::checkCoherencyOfTinyInfo(const MEDCouplingFieldDouble *field, const DataArray *arr) const
28690 + static const char MSG[]="MEDFileFieldMultiTSWithoutSDA::checkCoherencyOfTinyInfo : invalid ";
28691 + if(_name!=field->getName())
28693 + std::ostringstream oss; oss << MSG << "name ! should be \"" << _name;
28694 + oss << "\" and it is set in input field to \"" << field->getName() << "\" !";
28695 + throw INTERP_KERNEL::Exception(oss.str());
28698 + throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::checkCoherencyOfTinyInfo : no array set !");
28699 + checkThatComponentsMatch(arr->getInfoOnComponents());
28702 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::checkThatComponentsMatch(const std::vector<std::string>& compos) const
28704 + static const char MSG[]="MEDFileFieldMultiTSWithoutSDA::checkThatComponentsMatch : ";
28705 + if(getInfo().size()!=compos.size())
28707 + std::ostringstream oss; oss << MSG << "mismatch of number of components between this (" << getInfo().size() << ") and ";
28708 + oss << " number of components of element to append (" << compos.size() << ") !";
28709 + throw INTERP_KERNEL::Exception(oss.str());
28711 + if(_infos!=compos)
28713 + std::ostringstream oss; oss << MSG << "components have same size but are different ! should be \"";
28714 + std::copy(_infos.begin(),_infos.end(),std::ostream_iterator<std::string>(oss,", "));
28715 + oss << " But compo in input fields are : ";
28716 + std::copy(compos.begin(),compos.end(),std::ostream_iterator<std::string>(oss,", "));
28718 + throw INTERP_KERNEL::Exception(oss.str());
28722 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::checkThatNbOfCompoOfTSMatchThis() const
28724 + std::size_t sz=_infos.size();
28726 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,j++)
28728 + const MEDFileAnyTypeField1TSWithoutSDA *elt(*it);
28730 + if(elt->getInfo().size()!=sz)
28732 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::checkThatNbOfCompoOfTSMatchThis : At pos #" << j << " the number of components is equal to ";
28733 + oss << elt->getInfo().size() << " whereas it is expected to be equal to " << sz << " !";
28734 + throw INTERP_KERNEL::Exception(oss.str());
28739 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::appendFieldNoProfileSBT(const MEDCouplingFieldDouble *field, const DataArray *arr, MEDFileFieldGlobsReal& glob)
28742 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::appendFieldNoProfileSBT : input field is NULL !");
28743 + if(!_time_steps.empty())
28744 + checkCoherencyOfTinyInfo(field,arr);
28745 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> obj(createNew1TSWithoutSDAEmptyInstance());
28747 + MCAuto<MEDCouplingFieldTemplate> ft(MEDCouplingFieldTemplate::New(*field));
28748 + obj->setFieldNoProfileSBT(field->timeDiscrSafe(),ft,arr,glob,*this);
28750 + copyTinyInfoFrom(field,arr);
28751 + _time_steps.push_back(obj);
28754 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::appendFieldProfile(const MEDCouplingFieldDouble *field, const DataArray *arr, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, MEDFileFieldGlobsReal& glob, bool smartPflKiller)
28757 + throw INTERP_KERNEL::Exception("MEDFileIntFieldMultiTSWithoutSDA::appendFieldNoProfileSBT : input field is NULL !");
28758 + if(!_time_steps.empty())
28759 + checkCoherencyOfTinyInfo(field,arr);
28760 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> obj(createNew1TSWithoutSDAEmptyInstance());
28762 + MCAuto<MEDCouplingFieldTemplate> ft(MEDCouplingFieldTemplate::NewWithoutCheck(*field));
28763 + obj->setFieldProfile(field->timeDiscrSafe(),ft,arr,mesh,meshDimRelToMax,profile,glob,*this,smartPflKiller);
28765 + copyTinyInfoFrom(field,arr);
28766 + setMeshName(obj->getMeshName());
28767 + _time_steps.push_back(obj);
28770 +void MEDFileAnyTypeFieldMultiTSWithoutSDA::setIteration(int i, MCAuto<MEDFileAnyTypeField1TSWithoutSDA> ts)
28772 + int sz=(int)_time_steps.size();
28775 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::setIteration : trying to set element at place #" << i << " should be in [0," << sz << ") !";
28776 + throw INTERP_KERNEL::Exception(oss.str());
28778 + const MEDFileAnyTypeField1TSWithoutSDA *tsPtr(ts);
28781 + if(tsPtr->getNumberOfComponents()!=(int)_infos.size())
28783 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTSWithoutSDA::setIteration : trying to set element with " << tsPtr->getNumberOfComponents() << " components ! Should be " << _infos.size() << " !";
28784 + throw INTERP_KERNEL::Exception(oss.str());
28787 + _time_steps[i]=ts;
28790 +//= MEDFileFieldMultiTSWithoutSDA
28793 + * entry point for users that want to iterate into MEDFile DataStructure with a reduced overhead because output arrays are extracted (created) specially
28794 + * for the call of this method. That's why the DataArrayDouble instance in returned vector of vector should be dealed by the caller.
28796 +std::vector< std::vector<DataArrayDouble *> > MEDFileFieldMultiTSWithoutSDA::getFieldSplitedByType2(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
28798 + const MEDFileAnyTypeField1TSWithoutSDA& myF1TS=getTimeStepEntry(iteration,order);
28799 + const MEDFileField1TSWithoutSDA *myF1TSC=dynamic_cast<const MEDFileField1TSWithoutSDA *>(&myF1TS);
28801 + throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::getFieldSplitedByType2 : mismatch of type of field expecting FLOAT64 !");
28802 + return myF1TSC->getFieldSplitedByType2(mname,types,typesF,pfls,locs);
28805 +MEDFileIntFieldMultiTSWithoutSDA *MEDFileFieldMultiTSWithoutSDA::convertToInt() const
28807 + MCAuto<MEDFileIntFieldMultiTSWithoutSDA> ret(new MEDFileIntFieldMultiTSWithoutSDA);
28808 + ret->MEDFileAnyTypeFieldMultiTSWithoutSDA::operator =(*this);
28810 + for(std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> >::const_iterator it=_time_steps.begin();it!=_time_steps.end();it++,i++)
28812 + const MEDFileAnyTypeField1TSWithoutSDA *eltToConv(*it);
28815 + const MEDFileField1TSWithoutSDA *eltToConvC=dynamic_cast<const MEDFileField1TSWithoutSDA *>(eltToConv);
28817 + throw INTERP_KERNEL::Exception("MEDFileFieldMultiTSWithoutSDA::convertToInt : presence of an invalid 1TS type ! Should be of type FLOAT64 !");
28818 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> elt=eltToConvC->convertToInt();
28819 + ret->setIteration(i,elt);
28822 + return ret.retn();
28825 +//= MEDFileAnyTypeFieldMultiTS
28827 +MEDFileAnyTypeFieldMultiTS::MEDFileAnyTypeFieldMultiTS()
28831 +MEDFileAnyTypeFieldMultiTS::MEDFileAnyTypeFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms)
28832 +try:MEDFileFieldGlobsReal(fid)
28834 + _content=BuildContentFrom(fid,loadAll,ms);
28835 + loadGlobals(fid);
28837 +catch(INTERP_KERNEL::Exception& e)
28842 +MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTS::BuildContentFrom(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
28844 + med_field_type typcha;
28845 + std::vector<std::string> infos;
28846 + std::string dtunit;
28847 + std::string meshName;
28849 + MEDFileAnyTypeField1TS::LocateField(fid,fieldName,i,typcha,infos,dtunit,meshName);
28850 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> ret;
28853 + case MED_FLOAT64:
28855 + ret=new MEDFileFieldMultiTSWithoutSDA(fid,i,loadAll,ms,entities);
28860 + ret=new MEDFileIntFieldMultiTSWithoutSDA(fid,i,loadAll,ms,entities);
28863 + case MED_FLOAT32:
28865 + ret=new MEDFileFloatFieldMultiTSWithoutSDA(fid,i,loadAll,ms,entities);
28870 + if(sizeof(med_int)==sizeof(int))
28872 + ret=new MEDFileIntFieldMultiTSWithoutSDA(fid,i,loadAll,ms,entities);
28878 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::BuildContentFrom(fid,fieldName) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but the type of field is not in [MED_FLOAT64, MED_INT32, MED_FLOAT32] !";
28879 + throw INTERP_KERNEL::Exception(oss.str());
28882 + ret->setMeshName(meshName);
28883 + ret->setDtUnit(dtunit.c_str());
28884 + return ret.retn();
28887 +MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTS::BuildContentFrom(med_idt fid, bool loadAll, const MEDFileMeshes *ms)
28889 + med_field_type typcha;
28891 + std::vector<std::string> infos;
28892 + std::string dtunit,fieldName,meshName;
28893 + MEDFileAnyTypeField1TS::LocateField2(fid,0,true,fieldName,typcha,infos,dtunit,meshName);
28894 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> ret;
28897 + case MED_FLOAT64:
28899 + ret=new MEDFileFieldMultiTSWithoutSDA(fid,0,loadAll,ms,0);
28904 + ret=new MEDFileIntFieldMultiTSWithoutSDA(fid,0,loadAll,ms,0);
28907 + case MED_FLOAT32:
28909 + ret=new MEDFileFloatFieldMultiTSWithoutSDA(fid,0,loadAll,ms,0);
28914 + if(sizeof(med_int)==sizeof(int))
28916 + ret=new MEDFileIntFieldMultiTSWithoutSDA(fid,0,loadAll,ms,0);
28922 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::BuildContentFrom(fid) : file \'" << FileNameFromFID(fid) << "\' contains field with name \'" << fieldName << "\' but the type of the first field is not in [MED_FLOAT64, MED_INT32, MED_FLOAT32] !";
28923 + throw INTERP_KERNEL::Exception(oss.str());
28926 + ret->setMeshName(meshName);
28927 + ret->setDtUnit(dtunit.c_str());
28928 + return ret.retn();
28931 +MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::BuildNewInstanceFromContent(MEDFileAnyTypeFieldMultiTSWithoutSDA *c)
28934 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::BuildNewInstanceFromContent : empty content in input : unable to build a new instance !");
28935 + if(dynamic_cast<const MEDFileFieldMultiTSWithoutSDA *>(c))
28937 + MCAuto<MEDFileFieldMultiTS> ret(MEDFileFieldMultiTS::New());
28938 + ret->_content=c; c->incrRef();
28939 + return ret.retn();
28941 + if(dynamic_cast<const MEDFileIntFieldMultiTSWithoutSDA *>(c))
28943 + MCAuto<MEDFileIntFieldMultiTS> ret(MEDFileIntFieldMultiTS::New());
28944 + ret->_content=c; c->incrRef();
28945 + return ret.retn();
28947 + if(dynamic_cast<const MEDFileFloatFieldMultiTSWithoutSDA *>(c))
28949 + MCAuto<MEDFileFloatFieldMultiTS> ret(MEDFileFloatFieldMultiTS::New());
28950 + ret->_content=c; c->incrRef();
28951 + return ret.retn();
28953 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::BuildNewInstanceFromContent : internal error ! a content of type different from FLOAT64 FLOAT32 and INT32 has been built but not intercepted !");
28956 +MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::BuildNewInstanceFromContent(MEDFileAnyTypeFieldMultiTSWithoutSDA *c, med_idt fid)
28958 + MEDFileAnyTypeFieldMultiTS *ret(BuildNewInstanceFromContent(c));
28959 + std::string fileName(FileNameFromFID(fid));
28960 + ret->setFileName(fileName);
28964 +MEDFileAnyTypeFieldMultiTS::MEDFileAnyTypeFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
28965 +try:MEDFileFieldGlobsReal(fid)
28967 + _content=BuildContentFrom(fid,fieldName,loadAll,ms,entities);
28968 + loadGlobals(fid);
28970 +catch(INTERP_KERNEL::Exception& e)
28975 +//= MEDFileAnyTypeFieldMultiTS
28978 + * Returns a new instance of MEDFileFieldMultiTS or MEDFileIntFieldMultiTS holding data of the first field
28979 + * that has been read from a specified MED file.
28980 + * \param [in] fileName - the name of the MED file to read.
28981 + * \return MEDFileFieldMultiTS * - a new instance of MEDFileFieldMultiTS or MEDFileIntFieldMultiTS. The caller
28982 + * is to delete this field using decrRef() as it is no more needed.
28983 + * \throw If reading the file fails.
28985 +MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::New(const std::string& fileName, bool loadAll)
28987 + MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
28988 + return New(fid,loadAll);
28991 +MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::New(med_idt fid, bool loadAll)
28993 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> c(BuildContentFrom(fid,loadAll,0));
28994 + MCAuto<MEDFileAnyTypeFieldMultiTS> ret(BuildNewInstanceFromContent(c,fid));
28995 + ret->loadGlobals(fid);
28996 + return ret.retn();
29000 + * Returns a new instance of MEDFileFieldMultiTS or MEDFileIntFieldMultiTS holding data of a given field
29001 + * that has been read from a specified MED file.
29002 + * \param [in] fileName - the name of the MED file to read.
29003 + * \param [in] fieldName - the name of the field to read.
29004 + * \return MEDFileFieldMultiTS * - a new instance of MEDFileFieldMultiTS or MEDFileIntFieldMultiTS. The caller
29005 + * is to delete this field using decrRef() as it is no more needed.
29006 + * \throw If reading the file fails.
29007 + * \throw If there is no field named \a fieldName in the file.
29009 +MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::New(const std::string& fileName, const std::string& fieldName, bool loadAll)
29011 + MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(fileName));
29012 + return New(fid,fieldName,loadAll);
29015 +MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::New(med_idt fid, const std::string& fieldName, bool loadAll)
29017 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> c(BuildContentFrom(fid,fieldName,loadAll,0,0));
29018 + MCAuto<MEDFileAnyTypeFieldMultiTS> ret(BuildNewInstanceFromContent(c,fid));
29019 + ret->loadGlobals(fid);
29020 + return ret.retn();
29024 + * This constructor is a shallow copy constructor. If \a shallowCopyOfContent is true the content of \a other is shallow copied.
29025 + * If \a shallowCopyOfContent is false, \a other is taken to be the content of \a this.
29027 + * \warning this is a shallow copy constructor
29029 +MEDFileAnyTypeFieldMultiTS::MEDFileAnyTypeFieldMultiTS(const MEDFileAnyTypeFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent)
29031 + if(!shallowCopyOfContent)
29033 + const MEDFileAnyTypeFieldMultiTSWithoutSDA *otherPtr(&other);
29034 + otherPtr->incrRef();
29035 + _content=const_cast<MEDFileAnyTypeFieldMultiTSWithoutSDA *>(otherPtr);
29039 + _content=other.shallowCpy();
29043 +MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTS::contentNotNullBase()
29045 + MEDFileAnyTypeFieldMultiTSWithoutSDA *ret=_content;
29047 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS : content is expected to be not null !");
29051 +const MEDFileAnyTypeFieldMultiTSWithoutSDA *MEDFileAnyTypeFieldMultiTS::contentNotNullBase() const
29053 + const MEDFileAnyTypeFieldMultiTSWithoutSDA *ret=_content;
29055 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS : const content is expected to be not null !");
29059 +std::vector<std::string> MEDFileAnyTypeFieldMultiTS::getPflsReallyUsed() const
29061 + return contentNotNullBase()->getPflsReallyUsed2();
29064 +std::vector<std::string> MEDFileAnyTypeFieldMultiTS::getLocsReallyUsed() const
29066 + return contentNotNullBase()->getLocsReallyUsed2();
29069 +std::vector<std::string> MEDFileAnyTypeFieldMultiTS::getPflsReallyUsedMulti() const
29071 + return contentNotNullBase()->getPflsReallyUsedMulti2();
29074 +std::vector<std::string> MEDFileAnyTypeFieldMultiTS::getLocsReallyUsedMulti() const
29076 + return contentNotNullBase()->getLocsReallyUsedMulti2();
29079 +void MEDFileAnyTypeFieldMultiTS::changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
29081 + contentNotNullBase()->changePflsRefsNamesGen2(mapOfModif);
29084 +void MEDFileAnyTypeFieldMultiTS::changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif)
29086 + contentNotNullBase()->changeLocsRefsNamesGen2(mapOfModif);
29089 +int MEDFileAnyTypeFieldMultiTS::getNumberOfTS() const
29091 + return contentNotNullBase()->getNumberOfTS();
29094 +void MEDFileAnyTypeFieldMultiTS::eraseEmptyTS()
29096 + contentNotNullBase()->eraseEmptyTS();
29099 +void MEDFileAnyTypeFieldMultiTS::eraseTimeStepIds(const int *startIds, const int *endIds)
29101 + contentNotNullBase()->eraseTimeStepIds(startIds,endIds);
29104 +void MEDFileAnyTypeFieldMultiTS::eraseTimeStepIds2(int bg, int end, int step)
29106 + contentNotNullBase()->eraseTimeStepIds2(bg,end,step);
29109 +MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::buildSubPart(const int *startIds, const int *endIds) const
29111 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> c=contentNotNullBase()->buildFromTimeStepIds(startIds,endIds);
29112 + MCAuto<MEDFileAnyTypeFieldMultiTS> ret=shallowCpy();
29114 + return ret.retn();
29117 +MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::buildSubPartSlice(int bg, int end, int step) const
29119 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> c=contentNotNullBase()->buildFromTimeStepIds2(bg,end,step);
29120 + MCAuto<MEDFileAnyTypeFieldMultiTS> ret=shallowCpy();
29122 + return ret.retn();
29125 +std::vector< std::pair<int,int> > MEDFileAnyTypeFieldMultiTS::getIterations() const
29127 + return contentNotNullBase()->getIterations();
29130 +void MEDFileAnyTypeFieldMultiTS::pushBackTimeSteps(const std::vector<MEDFileAnyTypeField1TS *>& f1ts)
29132 + for(std::vector<MEDFileAnyTypeField1TS *>::const_iterator it=f1ts.begin();it!=f1ts.end();it++)
29133 + pushBackTimeStep(*it);
29136 +void MEDFileAnyTypeFieldMultiTS::pushBackTimeSteps(MEDFileAnyTypeFieldMultiTS *fmts)
29139 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::pushBackTimeSteps : Input fmts is NULL !");
29140 + int nbOfTS(fmts->getNumberOfTS());
29141 + for(int i=0;i<nbOfTS;i++)
29143 + MCAuto<MEDFileAnyTypeField1TS> elt(fmts->getTimeStepAtPos(i));
29144 + pushBackTimeStep(elt);
29148 +void MEDFileAnyTypeFieldMultiTS::pushBackTimeStep(MEDFileAnyTypeField1TS *f1ts)
29151 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::pushBackTimeStep : input pointer is NULL !");
29152 + checkCoherencyOfType(f1ts);
29154 + MCAuto<MEDFileAnyTypeField1TS> f1tsSafe(f1ts);
29155 + MEDFileAnyTypeField1TSWithoutSDA *c=f1ts->contentNotNullBase();
29157 + MCAuto<MEDFileAnyTypeField1TSWithoutSDA> cSafe(c);
29158 + if(!((MEDFileAnyTypeFieldMultiTSWithoutSDA *)_content))
29159 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTSWithoutSDA::pushBackTimeStep : no content in this !");
29160 + _content->pushBackTimeStep(cSafe);
29161 + appendGlobs(*f1ts,1e-12);
29164 +void MEDFileAnyTypeFieldMultiTS::synchronizeNameScope()
29166 + contentNotNullBase()->synchronizeNameScope();
29169 +int MEDFileAnyTypeFieldMultiTS::getPosOfTimeStep(int iteration, int order) const
29171 + return contentNotNullBase()->getPosOfTimeStep(iteration,order);
29174 +int MEDFileAnyTypeFieldMultiTS::getPosGivenTime(double time, double eps) const
29176 + return contentNotNullBase()->getPosGivenTime(time,eps);
29179 +int MEDFileAnyTypeFieldMultiTS::getNonEmptyLevels(int iteration, int order, const std::string& mname, std::vector<int>& levs) const
29181 + return contentNotNullBase()->getNonEmptyLevels(iteration,order,mname,levs);
29184 +std::vector< std::vector<TypeOfField> > MEDFileAnyTypeFieldMultiTS::getTypesOfFieldAvailable() const
29186 + return contentNotNullBase()->getTypesOfFieldAvailable();
29189 +std::vector< std::vector< std::pair<int,int> > > MEDFileAnyTypeFieldMultiTS::getFieldSplitedByType(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
29191 + return contentNotNullBase()->getFieldSplitedByType(iteration,order,mname,types,typesF,pfls,locs);
29194 +std::string MEDFileAnyTypeFieldMultiTS::getName() const
29196 + return contentNotNullBase()->getName();
29199 +void MEDFileAnyTypeFieldMultiTS::setName(const std::string& name)
29201 + contentNotNullBase()->setName(name);
29204 +std::string MEDFileAnyTypeFieldMultiTS::getDtUnit() const
29206 + return contentNotNullBase()->getDtUnit();
29209 +void MEDFileAnyTypeFieldMultiTS::setDtUnit(const std::string& dtUnit)
29211 + contentNotNullBase()->setDtUnit(dtUnit);
29214 +void MEDFileAnyTypeFieldMultiTS::simpleRepr(int bkOffset, std::ostream& oss, int fmtsId) const
29216 + contentNotNullBase()->simpleRepr(bkOffset,oss,fmtsId);
29219 +std::vector< std::pair<int,int> > MEDFileAnyTypeFieldMultiTS::getTimeSteps(std::vector<double>& ret1) const
29221 + return contentNotNullBase()->getTimeSteps(ret1);
29224 +std::string MEDFileAnyTypeFieldMultiTS::getMeshName() const
29226 + return contentNotNullBase()->getMeshName();
29229 +void MEDFileAnyTypeFieldMultiTS::setMeshName(const std::string& newMeshName)
29231 + contentNotNullBase()->setMeshName(newMeshName);
29234 +bool MEDFileAnyTypeFieldMultiTS::changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab)
29236 + return contentNotNullBase()->changeMeshNames(modifTab);
29239 +const std::vector<std::string>& MEDFileAnyTypeFieldMultiTS::getInfo() const
29241 + return contentNotNullBase()->getInfo();
29244 +bool MEDFileAnyTypeFieldMultiTS::presenceOfMultiDiscPerGeoType() const
29246 + return contentNotNullBase()->presenceOfMultiDiscPerGeoType();
29249 +void MEDFileAnyTypeFieldMultiTS::setInfo(const std::vector<std::string>& info)
29251 + return contentNotNullBase()->setInfo(info);
29254 +int MEDFileAnyTypeFieldMultiTS::getNumberOfComponents() const
29256 + const std::vector<std::string> ret=getInfo();
29257 + return (int)ret.size();
29260 +void MEDFileAnyTypeFieldMultiTS::writeLL(med_idt fid) const
29262 + writeGlobals(fid,*this);
29263 + contentNotNullBase()->writeLL(fid,*this);
29267 + * This method alloc the arrays and load potentially huge arrays contained in this field.
29268 + * This method should be called when a MEDFileAnyTypeFieldMultiTS::New constructor has been with false as the last parameter.
29269 + * This method can be also called to refresh or reinit values from a file.
29271 + * \throw If the fileName is not set or points to a non readable MED file.
29273 +void MEDFileAnyTypeFieldMultiTS::loadArrays()
29275 + if(getFileName().empty())
29276 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::loadArrays : the structure does not come from a file !");
29277 + MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(getFileName()));
29278 + contentNotNullBase()->loadBigArraysRecursively(fid,*contentNotNullBase());
29282 + * This method behaves as MEDFileAnyTypeFieldMultiTS::loadArrays does, the first call, if \a this was built using a file without loading big arrays.
29283 + * But once data loaded once, this method does nothing.
29285 + * \throw If the fileName is not set or points to a non readable MED file.
29286 + * \sa MEDFileAnyTypeFieldMultiTS::loadArrays, MEDFileAnyTypeFieldMultiTS::unloadArrays
29288 +void MEDFileAnyTypeFieldMultiTS::loadArraysIfNecessary()
29290 + if(!getFileName().empty())
29292 + MEDFileUtilities::AutoFid fid(OpenMEDFileForRead(getFileName()));
29293 + contentNotNullBase()->loadBigArraysRecursivelyIfNecessary(fid,*contentNotNullBase());
29298 + * This method releases potentially big data arrays and so returns to the same heap memory than status loaded with 'loadAll' parameter set to false.
29299 + * \b WARNING, this method does release arrays even if \a this does not come from a load of a MED file.
29300 + * So this method can lead to a loss of data. If you want to unload arrays safely call MEDFileAnyTypeFieldMultiTS::unloadArraysWithoutDataLoss instead.
29302 + * \sa MEDFileAnyTypeFieldMultiTS::loadArrays, MEDFileAnyTypeFieldMultiTS::loadArraysIfNecessary, MEDFileAnyTypeFieldMultiTS::unloadArraysWithoutDataLoss
29304 +void MEDFileAnyTypeFieldMultiTS::unloadArrays()
29306 + contentNotNullBase()->unloadArrays();
29310 + * This method potentially releases big data arrays if \a this is coming from a file. If \a this has been built from scratch this method will have no effect.
29311 + * This method is the symmetrical method of MEDFileAnyTypeFieldMultiTS::loadArraysIfNecessary.
29312 + * This method is useful to reduce \b safely amount of heap memory necessary for \a this by using MED file as database.
29314 + * \sa MEDFileAnyTypeFieldMultiTS::loadArraysIfNecessary
29316 +void MEDFileAnyTypeFieldMultiTS::unloadArraysWithoutDataLoss()
29318 + if(!getFileName().empty())
29319 + contentNotNullBase()->unloadArrays();
29322 +std::string MEDFileAnyTypeFieldMultiTS::simpleRepr() const
29324 + std::ostringstream oss;
29325 + contentNotNullBase()->simpleRepr(0,oss,-1);
29326 + simpleReprGlobs(oss);
29327 + return oss.str();
29330 +std::size_t MEDFileAnyTypeFieldMultiTS::getHeapMemorySizeWithoutChildren() const
29332 + return MEDFileFieldGlobsReal::getHeapMemorySizeWithoutChildren();
29335 +std::vector<const BigMemoryObject *> MEDFileAnyTypeFieldMultiTS::getDirectChildrenWithNull() const
29337 + std::vector<const BigMemoryObject *> ret(MEDFileFieldGlobsReal::getDirectChildrenWithNull());
29338 + ret.push_back((const MEDFileAnyTypeFieldMultiTSWithoutSDA *)_content);
29343 + * This method returns as MEDFileAnyTypeFieldMultiTS new instances as number of components in \a this.
29344 + * The returned instances are deep copy of \a this except that for globals that are shared with those contained in \a this.
29345 + * ** WARNING ** do no forget to rename the output instances to avoid to write n-times in the same MED file field !
29347 +std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > MEDFileAnyTypeFieldMultiTS::splitComponents() const
29349 + const MEDFileAnyTypeFieldMultiTSWithoutSDA *content(_content);
29351 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::splitComponents : no content in this ! Unable to split components !");
29352 + std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > contentsSplit=content->splitComponents();
29353 + std::size_t sz(contentsSplit.size());
29354 + std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > ret(sz);
29355 + for(std::size_t i=0;i<sz;i++)
29357 + ret[i]=shallowCpy();
29358 + ret[i]->_content=contentsSplit[i];
29364 + * This method returns as MEDFileAnyTypeFieldMultiTS new instances as number of discretizations over time steps in \a this.
29365 + * The returned instances are shallow copied of \a this included globals that are shared with those contained in \a this.
29367 +std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > MEDFileAnyTypeFieldMultiTS::splitDiscretizations() const
29369 + const MEDFileAnyTypeFieldMultiTSWithoutSDA *content(_content);
29371 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::splitDiscretizations : no content in this ! Unable to split discretizations !");
29372 + std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > contentsSplit(content->splitDiscretizations());
29373 + std::size_t sz(contentsSplit.size());
29374 + std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > ret(sz);
29375 + for(std::size_t i=0;i<sz;i++)
29377 + ret[i]=shallowCpy();
29378 + ret[i]->_content=contentsSplit[i];
29384 + * This method returns as MEDFileAnyTypeFieldMultiTS new instances as number of sub-discretizations over time steps in \a this.
29385 + * The returned instances are shallow copied of \a this included globals that are shared with those contained in \a this.
29387 +std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > MEDFileAnyTypeFieldMultiTS::splitMultiDiscrPerGeoTypes() const
29389 + const MEDFileAnyTypeFieldMultiTSWithoutSDA *content(_content);
29391 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::splitMultiDiscrPerGeoTypes : no content in this ! Unable to split discretizations !");
29392 + std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > contentsSplit(content->splitMultiDiscrPerGeoTypes());
29393 + std::size_t sz(contentsSplit.size());
29394 + std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > ret(sz);
29395 + for(std::size_t i=0;i<sz;i++)
29397 + ret[i]=shallowCpy();
29398 + ret[i]->_content=contentsSplit[i];
29403 +MEDFileAnyTypeFieldMultiTS *MEDFileAnyTypeFieldMultiTS::deepCopy() const
29405 + MCAuto<MEDFileAnyTypeFieldMultiTS> ret=shallowCpy();
29406 + if((const MEDFileAnyTypeFieldMultiTSWithoutSDA *)_content)
29407 + ret->_content=_content->deepCopy();
29408 + ret->deepCpyGlobs(*this);
29409 + return ret.retn();
29412 +MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> MEDFileAnyTypeFieldMultiTS::getContent()
29418 + * Returns a new MEDFileField1TS or MEDFileIntField1TS holding data of a given time step of \a this field.
29419 + * \param [in] iteration - the iteration number of a required time step.
29420 + * \param [in] order - the iteration order number of required time step.
29421 + * \return MEDFileField1TS * or MEDFileIntField1TS *- a new instance of MEDFileField1TS or MEDFileIntField1TS. The caller is to
29422 + * delete this field using decrRef() as it is no more needed.
29423 + * \throw If there is no required time step in \a this field.
29425 +MEDFileAnyTypeField1TS *MEDFileAnyTypeFieldMultiTS::getTimeStep(int iteration, int order) const
29427 + int pos=getPosOfTimeStep(iteration,order);
29428 + return getTimeStepAtPos(pos);
29432 + * Returns a new MEDFileField1TS or MEDFileIntField1TS holding data of a given time step of \a this field.
29433 + * \param [in] time - the time of the time step of interest.
29434 + * \param [in] eps - a precision used to compare time values.
29435 + * \return MEDFileField1TS * - a new instance of MEDFileField1TS. The caller is to
29436 + * delete this field using decrRef() as it is no more needed.
29437 + * \throw If there is no required time step in \a this field.
29439 +MEDFileAnyTypeField1TS *MEDFileAnyTypeFieldMultiTS::getTimeStepGivenTime(double time, double eps) const
29441 + int pos=getPosGivenTime(time,eps);
29442 + return getTimeStepAtPos(pos);
29446 + * This method groups not null items in \a vectFMTS per time step series. Two time series are considered equal if the list of their pair of integers iteration,order are equal.
29447 + * The float64 value of time attached to the pair of integers are not considered here.
29448 + * WARNING the returned pointers are not incremented. The caller is \b not responsible to deallocate them ! This method only reorganizes entries in \a vectFMTS.
29450 + * \param [in] vectFMTS - vector of not null fields defined on a same global data pointer.
29451 + * \throw If there is a null pointer in \a vectFMTS.
29453 +std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > MEDFileAnyTypeFieldMultiTS::SplitIntoCommonTimeSeries(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS)
29455 + static const char msg[]="MEDFileAnyTypeFieldMultiTS::SplitIntoCommonTimeSeries : presence of null instance in input vector !";
29456 + std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > ret;
29457 + std::list<MEDFileAnyTypeFieldMultiTS *> lstFMTS(vectFMTS.begin(),vectFMTS.end());
29458 + while(!lstFMTS.empty())
29460 + std::list<MEDFileAnyTypeFieldMultiTS *>::iterator it(lstFMTS.begin());
29461 + MEDFileAnyTypeFieldMultiTS *curIt(*it);
29463 + throw INTERP_KERNEL::Exception(msg);
29464 + std::vector< std::pair<int,int> > refIts=curIt->getIterations();
29465 + std::vector<MEDFileAnyTypeFieldMultiTS *> elt;
29466 + elt.push_back(curIt); it=lstFMTS.erase(it);
29467 + while(it!=lstFMTS.end())
29471 + throw INTERP_KERNEL::Exception(msg);
29472 + std::vector< std::pair<int,int> > curIts=curIt->getIterations();
29473 + if(refIts==curIts)
29474 + { elt.push_back(curIt); it=lstFMTS.erase(it); }
29478 + ret.push_back(elt);
29484 + * This method splits the input list \a vectFMTS considering the aspect of the geometrical support over time.
29485 + * All returned instances in a subvector can be safely loaded, rendered along time
29486 + * All items must be defined on the same time step ids ( see MEDFileAnyTypeFieldMultiTS::SplitIntoCommonTimeSeries method ).
29487 + * Each item in \a vectFMTS is expected to have one and exactly one spatial discretization along time.
29488 + * All items in \a vectFMTS must lie on the mesh (located by meshname and time step) and compatible with the input mesh \a mesh (having the same name than those in items).
29489 + * All items in \a vectFMTS whose spatial discretization is not ON_NODES will appear once.
29490 + * For items in \a vectFMTS that are ON_NODES it is possible to appear several times (more than once or once) in the returned vector.
29492 + * \param [in] vectFMTS - list of multi times step part all defined each on a same spatial discretization along time and pointing to a mesh whose name is equal to \c mesh->getName().
29493 + * \param [in] mesh - the mesh shared by all items in \a vectFMTS across time.
29494 + * \param [out] fsc - A vector having same size than returned vector. It specifies the support comporator of the corresponding vector of MEDFileAnyTypeFieldMultiTS in returned vector of vector.
29495 + * \return - A vector of vector of objects that contains the same pointers (objects) than thoose in \a vectFMTS except that there are organized differently. So pointers included in returned vector of vector should \b not been dealt by the caller.
29497 + * \throw If an element in \a vectFMTS has not only one spatial discretization set.
29498 + * \throw If an element in \a vectFMTS change of spatial discretization along time.
29499 + * \throw If an element in \a vectFMTS lies on a mesh with meshname different from those in \a mesh.
29500 + * \thorw If some elements in \a vectFMTS do not have the same times steps.
29501 + * \throw If mesh is null.
29502 + * \throw If an element in \a vectFMTS is null.
29503 + * \sa MEDFileAnyTypeFieldMultiTS::AreOnSameSupportAcrossTime
29505 +std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS, const MEDFileMesh *mesh, std::vector< MCAuto<MEDFileFastCellSupportComparator> >& fsc)
29507 + static const char msg[]="MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport : presence of a null instance in the input vector !";
29509 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport : input mesh is null !");
29510 + std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > ret;
29511 + if(vectFMTS.empty())
29513 + std::vector<MEDFileAnyTypeFieldMultiTS *>::const_iterator it(vectFMTS.begin());
29514 + MEDFileAnyTypeFieldMultiTS *frstElt(*it);
29516 + throw INTERP_KERNEL::Exception(msg);
29518 + std::vector<MEDFileAnyTypeFieldMultiTS *> vectFMTSNotNodes;
29519 + std::vector<MEDFileAnyTypeFieldMultiTS *> vectFMTSNodes;
29520 + for(;it!=vectFMTS.end();it++,i++)
29523 + throw INTERP_KERNEL::Exception(msg);
29524 + TypeOfField tof0,tof1;
29525 + if(CheckSupportAcrossTime(frstElt,*it,mesh,tof0,tof1)>0)
29527 + if(tof1!=ON_NODES)
29528 + vectFMTSNotNodes.push_back(*it);
29530 + vectFMTSNodes.push_back(*it);
29533 + vectFMTSNotNodes.push_back(*it);
29535 + std::vector< MCAuto<MEDFileFastCellSupportComparator> > cmps;
29536 + std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > retCell=SplitPerCommonSupportNotNodesAlg(vectFMTSNotNodes,mesh,cmps);
29538 + for(std::vector<MEDFileAnyTypeFieldMultiTS *>::const_iterator it2=vectFMTSNodes.begin();it2!=vectFMTSNodes.end();it2++)
29541 + bool isFetched(false);
29542 + for(std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> >::const_iterator it0=retCell.begin();it0!=retCell.end();it0++,i++)
29544 + if((*it0).empty())
29545 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport : internal error !");
29546 + if(cmps[i]->isCompatibleWithNodesDiscr(*it2))
29547 + { ret[i].push_back(*it2); isFetched=true; }
29551 + std::vector<MEDFileAnyTypeFieldMultiTS *> tmp(1,*it2);
29552 + MCAuto<MEDFileMeshStruct> tmp2(MEDFileMeshStruct::New(mesh));
29553 + ret.push_back(tmp); retCell.push_back(tmp); cmps.push_back(MEDFileFastCellSupportComparator::New(tmp2,*it2));
29561 + * WARNING no check here. The caller must be sure that all items in vectFMTS are coherent each other in time steps, only one same spatial discretization and not ON_NODES.
29562 + * \param [out] cmps - same size than the returned vector.
29564 +std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupportNotNodesAlg(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS, const MEDFileMesh *mesh, std::vector< MCAuto<MEDFileFastCellSupportComparator> >& cmps)
29566 + std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > ret;
29567 + std::list<MEDFileAnyTypeFieldMultiTS *> lstFMTS(vectFMTS.begin(),vectFMTS.end());
29568 + while(!lstFMTS.empty())
29570 + std::list<MEDFileAnyTypeFieldMultiTS *>::iterator it(lstFMTS.begin());
29571 + MEDFileAnyTypeFieldMultiTS *ref(*it);
29572 + std::vector<MEDFileAnyTypeFieldMultiTS *> elt;
29573 + elt.push_back(ref); it=lstFMTS.erase(it);
29574 + MCAuto<MEDFileMeshStruct> mst(MEDFileMeshStruct::New(mesh));
29575 + MCAuto<MEDFileFastCellSupportComparator> cmp(MEDFileFastCellSupportComparator::New(mst,ref));
29576 + while(it!=lstFMTS.end())
29578 + MEDFileAnyTypeFieldMultiTS *curIt(*it);
29579 + if(cmp->isEqual(curIt))
29580 + { elt.push_back(curIt); it=lstFMTS.erase(it); }
29584 + ret.push_back(elt); cmps.push_back(cmp);
29590 + * This method scan the two main structs along time of \a f0 and \a f1 to see if there are all lying on the same mesh along time than those in \a mesh.
29591 + * \a f0 and \a f1 must be defined each only on a same spatial discretization even if this can be different each other.
29593 + * \throw If \a f0 or \a f1 has not only one spatial discretization set.
29594 + * \throw If \a f0 or \a f1 change of spatial discretization along time.
29595 + * \throw If \a f0 or \a f1 on a mesh with meshname different from those in \a mesh.
29596 + * \thorw If \a f0 and \a f1 do not have the same times steps.
29597 + * \throw If mesh is null.
29598 + * \throw If \a f0 or \a f1 is null.
29599 + * \sa MEDFileAnyTypeFieldMultiTS::SplitPerCommonSupport
29601 +int MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime(MEDFileAnyTypeFieldMultiTS *f0, MEDFileAnyTypeFieldMultiTS *f1, const MEDFileMesh *mesh, TypeOfField& tof0, TypeOfField& tof1)
29604 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : input mesh is null !");
29606 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : presence of null instance in fields over time !");
29607 + if(f0->getMeshName()!=mesh->getName())
29609 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : first field points to mesh \""<< f0->getMeshName() << "\" and input mesh to compare has name \"" << mesh->getName() << "\" !";
29610 + throw INTERP_KERNEL::Exception(oss.str());
29612 + if(f1->getMeshName()!=mesh->getName())
29614 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : second field points to mesh \""<< f1->getMeshName() << "\" and input mesh to compare has name \"" << mesh->getName() << "\" !";
29615 + throw INTERP_KERNEL::Exception(oss.str());
29617 + int nts=f0->getNumberOfTS();
29618 + if(nts!=f1->getNumberOfTS())
29619 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : number of time steps are not the same !");
29622 + for(int i=0;i<nts;i++)
29624 + MCAuto<MEDFileAnyTypeField1TS> f0cur=f0->getTimeStepAtPos(i);
29625 + MCAuto<MEDFileAnyTypeField1TS> f1cur=f1->getTimeStepAtPos(i);
29626 + std::vector<TypeOfField> tofs0(f0cur->getTypesOfFieldAvailable()),tofs1(f1cur->getTypesOfFieldAvailable());
29627 + if(tofs0.size()!=1 || tofs1.size()!=1)
29628 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : All time steps must be defined on only one spatial discretization !");
29631 + if(tof0!=tofs0[0] || tof1!=tofs1[0])
29632 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : Across times steps MEDFileAnyTypeFieldMultiTS instances have to keep the same unique spatial discretization !");
29635 + { tof0=tofs0[0]; tof1=tofs1[0]; }
29636 + if(f0cur->getMeshIteration()!=mesh->getIteration() || f0cur->getMeshOrder()!=mesh->getOrder())
29638 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : first field points to mesh time step (" << f0cur->getMeshIteration() << ","<< f0cur->getMeshOrder() << ") whereas input mesh points to time step (" << mesh->getIteration() << "," << mesh->getOrder() << ") !";
29639 + throw INTERP_KERNEL::Exception(oss.str());
29641 + if(f1cur->getMeshIteration()!=mesh->getIteration() || f1cur->getMeshOrder()!=mesh->getOrder())
29643 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : second field points to mesh time step (" << f1cur->getMeshIteration() << ","<< f1cur->getMeshOrder() << ") whereas input mesh points to time step (" << mesh->getIteration() << "," << mesh->getOrder() << ") !";
29644 + throw INTERP_KERNEL::Exception(oss.str());
29646 + if(f0cur->getIteration()!=f1cur->getIteration() || f0cur->getOrder()!=f1cur->getOrder())
29648 + std::ostringstream oss; oss << "MEDFileAnyTypeFieldMultiTS::CheckSupportAcrossTime : all the time steps must be the same ! it is not the case (" << f0cur->getIteration() << "," << f0cur->getOrder() << ")!=(" << f1cur->getIteration() << "," << f1cur->getOrder() << ") !";
29649 + throw INTERP_KERNEL::Exception(oss.str());
29656 +MCAuto<MEDFileAnyTypeField1TS> AggregateHelperF1TS(const std::vector< typename MLFieldTraits<T>::F1TSType const *>& f1tss, const std::vector< std::vector< std::pair<int,int> > >& dts)
29658 + MCAuto< typename MLFieldTraits<T>::F1TSType > ret(MLFieldTraits<T>::F1TSType::New());
29659 + if(f1tss.empty())
29660 + throw INTERP_KERNEL::Exception("AggregateHelperF1TS : empty vector !");
29661 + std::size_t sz(f1tss.size()),i(0);
29662 + std::vector< typename MLFieldTraits<T>::F1TSWSDAType const *> f1tsw(sz);
29663 + for(typename std::vector< typename MLFieldTraits<T>::F1TSType const *>::const_iterator it=f1tss.begin();it!=f1tss.end();it++,i++)
29665 + typename MLFieldTraits<T>::F1TSType const *elt(*it);
29667 + throw INTERP_KERNEL::Exception("AggregateHelperF1TS : presence of a null pointer !");
29668 + f1tsw[i]=dynamic_cast<typename MLFieldTraits<T>::F1TSWSDAType const *>(elt->contentNotNullBase());
29670 + typename MLFieldTraits<T>::F1TSWSDAType *retc(dynamic_cast<typename MLFieldTraits<T>::F1TSWSDAType *>(ret->contentNotNullBase()));
29672 + throw INTERP_KERNEL::Exception("AggregateHelperF1TS : internal error 1 !");
29673 + retc->aggregate(f1tsw,dts);
29674 + ret->setDtUnit(f1tss[0]->getDtUnit());
29675 + return DynamicCast<typename MLFieldTraits<T>::F1TSType , MEDFileAnyTypeField1TS>(ret);
29679 +MCAuto< MEDFileAnyTypeFieldMultiTS > AggregateHelperFMTS(const std::vector< typename MLFieldTraits<T>::FMTSType const *>& fmtss, const std::vector< std::vector< std::pair<int,int> > >& dts)
29681 + MCAuto< typename MLFieldTraits<T>::FMTSType > ret(MLFieldTraits<T>::FMTSType::New());
29682 + if(fmtss.empty())
29683 + throw INTERP_KERNEL::Exception("AggregateHelperFMTS : empty vector !");
29684 + std::size_t sz(fmtss.size());
29685 + for(typename std::vector< typename MLFieldTraits<T>::FMTSType const *>::const_iterator it=fmtss.begin();it!=fmtss.end();it++)
29687 + typename MLFieldTraits<T>::FMTSType const *elt(*it);
29689 + throw INTERP_KERNEL::Exception("AggregateHelperFMTS : presence of null pointer !");
29691 + int nbTS(fmtss[0]->getNumberOfTS());
29692 + for(typename std::vector< typename MLFieldTraits<T>::FMTSType const *>::const_iterator it=fmtss.begin();it!=fmtss.end();it++)
29693 + if((*it)->getNumberOfTS()!=nbTS)
29694 + throw INTERP_KERNEL::Exception("AggregateHelperFMTS : all fields must have the same number of TS !");
29695 + for(int iterTS=0;iterTS<nbTS;iterTS++)
29697 + std::size_t i(0);
29698 + std::vector< typename MLFieldTraits<T>::F1TSType const *> f1tss(sz);
29699 + std::vector< MCAuto<typename MLFieldTraits<T>::F1TSType> > f1tss2(sz);
29700 + for(typename std::vector< typename MLFieldTraits<T>::FMTSType const *>::const_iterator it=fmtss.begin();it!=fmtss.end();it++,i++)
29701 + { f1tss2[i]=(*it)->getTimeStepAtPos(iterTS); f1tss[i]=f1tss2[i]; }
29702 + MCAuto<MEDFileAnyTypeField1TS> f1ts(AggregateHelperF1TS<T>(f1tss,dts));
29703 + ret->pushBackTimeStep(f1ts);
29704 + ret->setDtUnit(f1ts->getDtUnit());
29706 + return DynamicCast<typename MLFieldTraits<T>::FMTSType , MEDFileAnyTypeFieldMultiTS>(ret);
29710 + * \a dts and \a ftmss are expected to have same size.
29712 +MCAuto<MEDFileAnyTypeFieldMultiTS> MEDFileAnyTypeFieldMultiTS::Aggregate(const std::vector<const MEDFileAnyTypeFieldMultiTS *>& fmtss, const std::vector< std::vector< std::pair<int,int> > >& dts)
29714 + if(fmtss.empty())
29715 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::Aggregate : input vector is empty !");
29716 + std::size_t sz(fmtss.size());
29717 + std::vector<const MEDFileFieldMultiTS *> fmtss1;
29718 + std::vector<const MEDFileIntFieldMultiTS *> fmtss2;
29719 + for(std::vector<const MEDFileAnyTypeFieldMultiTS *>::const_iterator it=fmtss.begin();it!=fmtss.end();it++)
29722 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::Aggregate : presence of null instance in input vector !");
29723 + const MEDFileFieldMultiTS *elt1(dynamic_cast<const MEDFileFieldMultiTS *>(*it));
29726 + fmtss1.push_back(elt1);
29729 + const MEDFileIntFieldMultiTS *elt2(dynamic_cast<const MEDFileIntFieldMultiTS *>(*it));
29732 + fmtss2.push_back(elt2);
29735 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::Aggregate : not recognized type !");
29737 + if(fmtss1.size()!=sz && fmtss2.size()!=sz)
29738 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::Aggregate : type of data is not homogeneous !");
29739 + if(fmtss1.size()==sz)
29740 + return AggregateHelperFMTS<double>(fmtss1,dts);
29741 + if(fmtss2.size()!=sz)
29742 + return AggregateHelperFMTS<int>(fmtss2,dts);
29743 + throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::Aggregate : not implemented yet !");
29746 +MEDFileAnyTypeFieldMultiTSIterator *MEDFileAnyTypeFieldMultiTS::iterator()
29748 + return new MEDFileAnyTypeFieldMultiTSIterator(this);
29751 +//= MEDFileFieldMultiTS
29753 +MEDFileAnyTypeFieldMultiTS *MEDFileFieldMultiTS::shallowCpy() const
29755 + return new MEDFileFieldMultiTS(*this);
29759 + * This method performs a copy with datatype modification ( float64->int32 ) of \a this. The globals information are copied
29760 + * following the given input policy.
29762 + * \param [in] isDeepCpyGlobs - a boolean that indicates the behaviour concerning globals (profiles and localizations)
29763 + * By default (true) the globals are deeply copied.
29764 + * \return MEDFileIntFieldMultiTS * - a new object that is the result of the conversion of \a this to int32 field.
29766 +MEDFileIntFieldMultiTS *MEDFileFieldMultiTS::convertToInt(bool isDeepCpyGlobs) const
29768 + MCAuto<MEDFileIntFieldMultiTS> ret;
29769 + const MEDFileAnyTypeFieldMultiTSWithoutSDA *content(_content);
29772 + const MEDFileFieldMultiTSWithoutSDA *contc=dynamic_cast<const MEDFileFieldMultiTSWithoutSDA *>(content);
29774 + throw INTERP_KERNEL::Exception("MEDFileFieldMultiTS::convertToInt : the content inside this is not FLOAT64 ! This is incoherent !");
29775 + MCAuto<MEDFileIntFieldMultiTSWithoutSDA> newc(contc->convertToInt());
29776 + ret=static_cast<MEDFileIntFieldMultiTS *>(MEDFileAnyTypeFieldMultiTS::BuildNewInstanceFromContent((MEDFileIntFieldMultiTSWithoutSDA *)newc));
29779 + ret=MEDFileIntFieldMultiTS::New();
29780 + if(isDeepCpyGlobs)
29781 + ret->deepCpyGlobs(*this);
29783 + ret->shallowCpyGlobs(*this);
29784 + return ret.retn();
29787 +MEDFileFieldMultiTS::MEDFileFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms)
29788 +try:MEDFileTemplateFieldMultiTS<double>(fid,loadAll,ms)
29791 +catch(INTERP_KERNEL::Exception& e)
29794 +MEDFileFieldMultiTS::MEDFileFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities)
29795 +try:MEDFileTemplateFieldMultiTS<double>(fid,fieldName,loadAll,ms,entities)
29798 +catch(INTERP_KERNEL::Exception& e)
29801 +MEDFileFieldMultiTS::MEDFileFieldMultiTS(const MEDFileFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent):MEDFileTemplateFieldMultiTS<double>(other,shallowCopyOfContent)
29805 +std::vector< std::vector<DataArrayDouble *> > MEDFileFieldMultiTS::getFieldSplitedByType2(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const
29807 + return contentNotNull()->getFieldSplitedByType2(iteration,order,mname,types,typesF,pfls,locs);
29810 +//= MEDFileAnyTypeFieldMultiTSIterator
29812 +MEDFileAnyTypeFieldMultiTSIterator::MEDFileAnyTypeFieldMultiTSIterator(MEDFileAnyTypeFieldMultiTS *fmts):_fmts(fmts),_iter_id(0),_nb_iter(0)
29817 + _nb_iter=fmts->getNumberOfTS();
29821 +MEDFileAnyTypeFieldMultiTSIterator::~MEDFileAnyTypeFieldMultiTSIterator()
29825 +MEDFileAnyTypeField1TS *MEDFileAnyTypeFieldMultiTSIterator::nextt()
29827 + if(_iter_id<_nb_iter)
29829 + MEDFileAnyTypeFieldMultiTS *fmts(_fmts);
29831 + return fmts->getTimeStepAtPos(_iter_id++);
29839 +//= MEDFileIntFieldMultiTS
29840 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileFieldMultiTS.hxx MEDCOUPLING_new/src/MEDLoader/MEDFileFieldMultiTS.hxx
29841 --- MEDCOUPLING_old/src/MEDLoader/MEDFileFieldMultiTS.hxx 1970-01-01 01:00:00.000000000 +0100
29842 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileFieldMultiTS.hxx 2018-04-19 17:25:17.739797396 +0200
29844 +// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
29846 +// This library is free software; you can redistribute it and/or
29847 +// modify it under the terms of the GNU Lesser General Public
29848 +// License as published by the Free Software Foundation; either
29849 +// version 2.1 of the License, or (at your option) any later version.
29851 +// This library is distributed in the hope that it will be useful,
29852 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
29853 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
29854 +// Lesser General Public License for more details.
29856 +// You should have received a copy of the GNU Lesser General Public
29857 +// License along with this library; if not, write to the Free Software
29858 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
29860 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
29862 +// Author : Anthony Geay (EDF R&D)
29864 +#ifndef __MEDFILEFIELDMULTITS_HXX__
29865 +#define __MEDFILEFIELDMULTITS_HXX__
29867 +#include "MEDLoaderDefines.hxx"
29868 +#include "MEDFileField1TS.hxx"
29869 +#include "MEDFileFieldGlobs.hxx"
29870 +#include "MEDLoaderTraits.hxx"
29871 +#include "MEDFileUtilities.hxx"
29873 +namespace MEDCoupling
29875 + class MEDFileMesh;
29876 + class MEDFileMeshes;
29877 + class MEDCouplingMesh;
29878 + class MEDFileFieldVisitor;
29879 + class MEDFileAnyTypeField1TS;
29880 + class MEDFileAnyTypeField1TSWithoutSDA;
29882 + class MEDFileAnyTypeFieldMultiTSWithoutSDA : public RefCountObject, public MEDFileFieldNameScope
29885 + MEDFileAnyTypeFieldMultiTSWithoutSDA();
29886 + MEDFileAnyTypeFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName);
29887 + MEDFileAnyTypeFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
29888 + MEDFileAnyTypeFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
29890 + MEDLOADER_EXPORT std::size_t getHeapMemorySizeWithoutChildren() const;
29891 + MEDLOADER_EXPORT std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
29892 + MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTSWithoutSDA *deepCopy() const;
29893 + MEDLOADER_EXPORT virtual std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > splitComponents() const;
29894 + MEDLOADER_EXPORT virtual std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > splitDiscretizations() const;
29895 + MEDLOADER_EXPORT virtual std::vector< MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> > splitMultiDiscrPerGeoTypes() const;
29896 + MEDLOADER_EXPORT virtual const char *getTypeStr() const = 0;
29897 + MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTSWithoutSDA *shallowCpy() const = 0;
29898 + MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTSWithoutSDA *createNew() const = 0;
29899 + MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TSWithoutSDA *createNew1TSWithoutSDAEmptyInstance() const = 0;
29900 + MEDLOADER_EXPORT virtual void checkCoherencyOfType(const MEDFileAnyTypeField1TSWithoutSDA *f1ts) const = 0;
29901 + MEDLOADER_EXPORT const std::vector<std::string>& getInfo() const;
29902 + MEDLOADER_EXPORT bool presenceOfMultiDiscPerGeoType() const;
29903 + MEDLOADER_EXPORT void setInfo(const std::vector<std::string>& info);
29904 + MEDLOADER_EXPORT int getTimeStepPos(int iteration, int order) const;
29905 + MEDLOADER_EXPORT const MEDFileAnyTypeField1TSWithoutSDA& getTimeStepEntry(int iteration, int order) const;
29906 + MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA& getTimeStepEntry(int iteration, int order);
29907 + MEDLOADER_EXPORT bool changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab);
29908 + MEDLOADER_EXPORT int getNumberOfTS() const;
29909 + MEDLOADER_EXPORT void eraseEmptyTS();
29910 + MEDLOADER_EXPORT void eraseTimeStepIds(const int *startIds, const int *endIds);
29911 + MEDLOADER_EXPORT void eraseTimeStepIds2(int bg, int end, int step);
29912 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *buildFromTimeStepIds(const int *startIds, const int *endIds) const;
29913 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *buildFromTimeStepIds2(int bg, int end, int step) const;
29914 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *partOfThisLyingOnSpecifiedTimeSteps(const std::vector< std::pair<int,int> >& timeSteps) const;
29915 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *partOfThisNotLyingOnSpecifiedTimeSteps(const std::vector< std::pair<int,int> >& timeSteps) const;
29916 + MEDLOADER_EXPORT bool presenceOfStructureElements() const;
29917 + MEDLOADER_EXPORT bool onlyStructureElements() const;
29918 + MEDLOADER_EXPORT void killStructureElements();
29919 + MEDLOADER_EXPORT void keepOnlyStructureElements();
29920 + MEDLOADER_EXPORT void keepOnlyOnSE(const std::string& seName);
29921 + MEDLOADER_EXPORT void getMeshSENames(std::vector< std::pair<std::string,std::string> >& ps) const;
29922 + MEDLOADER_EXPORT int getPosOfTimeStep(int iteration, int order) const;
29923 + MEDLOADER_EXPORT int getPosGivenTime(double time, double eps=1e-8) const;
29924 + MEDLOADER_EXPORT std::vector< std::pair<int,int> > getIterations() const;
29925 + MEDLOADER_EXPORT std::vector< std::pair<int,int> > getTimeSteps(std::vector<double>& ret1) const;
29926 + MEDLOADER_EXPORT void pushBackTimeStep(MCAuto<MEDFileAnyTypeField1TSWithoutSDA>& tse);
29927 + MEDLOADER_EXPORT void synchronizeNameScope();
29928 + MEDLOADER_EXPORT void simpleRepr(int bkOffset, std::ostream& oss, int fmtsId) const;
29929 + MEDLOADER_EXPORT int getNonEmptyLevels(int iteration, int order, const std::string& mname, std::vector<int>& levs) const;
29930 + MEDLOADER_EXPORT void appendFieldNoProfileSBT(const MEDCouplingFieldDouble *field, const DataArray *arr, MEDFileFieldGlobsReal& glob);
29931 + MEDLOADER_EXPORT void appendFieldProfile(const MEDCouplingFieldDouble *field, const DataArray *arr, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, MEDFileFieldGlobsReal& glob, bool smartPflKiller);
29932 + MEDLOADER_EXPORT std::vector< std::vector< std::pair<int,int> > > getFieldSplitedByType(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
29933 + MEDLOADER_EXPORT std::vector< std::vector<TypeOfField> > getTypesOfFieldAvailable() const;
29934 + MEDLOADER_EXPORT DataArray *getUndergroundDataArray(int iteration, int order) const;
29935 + MEDLOADER_EXPORT DataArray *getUndergroundDataArrayExt(int iteration, int order, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
29936 + MEDLOADER_EXPORT bool renumberEntitiesLyingOnMesh(const std::string& meshName, const std::vector<int>& oldCode, const std::vector<int>& newCode, const DataArrayInt *renumO2N, MEDFileFieldGlobsReal& glob);
29937 + MEDLOADER_EXPORT void accept(MEDFileFieldVisitor& visitor) const;
29938 + MEDLOADER_EXPORT void loadStructureOrStructureAndBigArraysRecursively(med_idt fid, int nbPdt, med_field_type fieldTyp, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
29939 + MEDLOADER_EXPORT void writeLL(med_idt fid, const MEDFileWritable& opts) const;
29940 + MEDLOADER_EXPORT void loadBigArraysRecursively(med_idt fid, const MEDFileFieldNameScope& nasc);
29941 + MEDLOADER_EXPORT void loadBigArraysRecursivelyIfNecessary(med_idt fid, const MEDFileFieldNameScope& nasc);
29942 + MEDLOADER_EXPORT void unloadArrays();
29944 + MEDLOADER_EXPORT const MEDFileAnyTypeField1TSWithoutSDA *getTimeStepAtPos2(int pos) const;
29945 + MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA *getTimeStepAtPos2(int pos);
29946 + MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsed2() const;
29947 + MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsed2() const;
29948 + MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsedMulti2() const;
29949 + MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsedMulti2() const;
29950 + MEDLOADER_EXPORT void changePflsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
29951 + MEDLOADER_EXPORT void changeLocsRefsNamesGen2(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
29952 + MEDLOADER_EXPORT void setIteration(int i, MCAuto<MEDFileAnyTypeField1TSWithoutSDA> ts);
29954 + virtual med_field_type getMEDFileFieldType() const = 0;
29955 + void copyTinyInfoFrom(const MEDCouplingFieldDouble *field, const DataArray *arr);
29956 + void checkCoherencyOfTinyInfo(const MEDCouplingFieldDouble *field, const DataArray *arr) const;
29957 + void checkThatComponentsMatch(const std::vector<std::string>& compos) const;
29958 + void checkThatNbOfCompoOfTSMatchThis() const;
29960 + std::vector<std::string> _infos;
29961 + std::vector< MCAuto<MEDFileAnyTypeField1TSWithoutSDA> > _time_steps;
29964 + class MEDFileIntFieldMultiTSWithoutSDA;
29966 + template<class T>
29967 + class MEDFileTemplateFieldMultiTSWithoutSDA : public MEDFileAnyTypeFieldMultiTSWithoutSDA
29970 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSWSDAType *New(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
29971 + MEDLOADER_EXPORT const char *getTypeStr() const;
29972 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *createNew() const;
29973 + MEDLOADER_EXPORT MEDFileAnyTypeField1TSWithoutSDA *createNew1TSWithoutSDAEmptyInstance() const;
29975 + MEDFileTemplateFieldMultiTSWithoutSDA() { }
29976 + MEDFileTemplateFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileAnyTypeFieldMultiTSWithoutSDA(fieldName,meshName) { }
29977 + /** \param [in] fieldId field id in C mode */
29978 + MEDFileTemplateFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileAnyTypeFieldMultiTSWithoutSDA(fid,fieldId,loadAll,ms,entities) { }
29979 + MEDFileTemplateFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileAnyTypeFieldMultiTSWithoutSDA(fid,fieldName,meshName,fieldTyp,infos,nbOfStep,dtunit,loadAll,ms,entities) { }
29980 + void checkCoherencyOfType(const MEDFileAnyTypeField1TSWithoutSDA *f1ts) const;
29983 + class MEDFileFieldMultiTSWithoutSDA : public MEDFileTemplateFieldMultiTSWithoutSDA<double>
29985 + friend class MEDFileTemplateFieldMultiTSWithoutSDA<double>;
29987 + MEDLOADER_EXPORT MEDFileFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileTemplateFieldMultiTSWithoutSDA<double>(fid,fieldId,loadAll,ms,entities) { }
29988 + MEDLOADER_EXPORT std::vector< std::vector<DataArrayDouble *> > getFieldSplitedByType2(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
29989 + MEDLOADER_EXPORT MEDFileIntFieldMultiTSWithoutSDA *convertToInt() const;
29990 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *shallowCpy() const { return new MEDFileFieldMultiTSWithoutSDA(*this); }
29992 + MEDFileFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileTemplateFieldMultiTSWithoutSDA<double>(fieldName,meshName) { }
29993 + MEDFileFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileTemplateFieldMultiTSWithoutSDA<double>(fid,fieldName,meshName,fieldTyp,infos,nbOfStep,dtunit,loadAll,ms,entities) { }
29994 + med_field_type getMEDFileFieldType() const { return MED_FLOAT64; }
29996 + MEDLOADER_EXPORT MEDFileFieldMultiTSWithoutSDA() { }
29999 + template<class T>
30000 + class MEDFileNDTemplateFieldMultiTSWithoutSDA : public MEDFileTemplateFieldMultiTSWithoutSDA<T>
30003 + MEDLOADER_EXPORT MEDFileFieldMultiTSWithoutSDA *convertToDouble() const;
30005 + MEDFileNDTemplateFieldMultiTSWithoutSDA() { }
30006 + MEDFileNDTemplateFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileTemplateFieldMultiTSWithoutSDA<T>(fid,fieldId,loadAll,ms,entities) { }
30007 + MEDFileNDTemplateFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileTemplateFieldMultiTSWithoutSDA<T>(fieldName,meshName) { }
30008 + MEDFileNDTemplateFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileTemplateFieldMultiTSWithoutSDA<T>(fid,fieldName,meshName,fieldTyp,infos,nbOfStep,dtunit,loadAll,ms,entities) { }
30011 + class MEDFileIntFieldMultiTSWithoutSDA : public MEDFileNDTemplateFieldMultiTSWithoutSDA<int>
30013 + friend class MEDFileTemplateFieldMultiTSWithoutSDA<int>;
30015 + MEDLOADER_EXPORT MEDFileIntFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileNDTemplateFieldMultiTSWithoutSDA<int>(fid,fieldId,loadAll,ms,entities) { }
30016 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *shallowCpy() const { return new MEDFileIntFieldMultiTSWithoutSDA(*this); }
30018 + MEDFileIntFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileNDTemplateFieldMultiTSWithoutSDA<int>(fieldName,meshName) { }
30019 + MEDFileIntFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileNDTemplateFieldMultiTSWithoutSDA<int>(fid,fieldName,meshName,fieldTyp,infos,nbOfStep,dtunit,loadAll,ms,entities) { }
30020 + med_field_type getMEDFileFieldType() const { return MED_INT32; }
30022 + MEDLOADER_EXPORT MEDFileIntFieldMultiTSWithoutSDA() { }
30025 + class MEDFileFloatFieldMultiTSWithoutSDA : public MEDFileNDTemplateFieldMultiTSWithoutSDA<float>
30027 + friend class MEDFileTemplateFieldMultiTSWithoutSDA<float>;
30029 + MEDLOADER_EXPORT MEDFileFloatFieldMultiTSWithoutSDA(med_idt fid, int fieldId, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileNDTemplateFieldMultiTSWithoutSDA<float>(fid,fieldId,loadAll,ms,entities) { }
30030 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSWithoutSDA *shallowCpy() const { return new MEDFileFloatFieldMultiTSWithoutSDA(*this); }
30032 + MEDFileFloatFieldMultiTSWithoutSDA(const std::string& fieldName, const std::string& meshName):MEDFileNDTemplateFieldMultiTSWithoutSDA<float>(fieldName,meshName) { }
30033 + MEDFileFloatFieldMultiTSWithoutSDA(med_idt fid, const std::string& fieldName, const std::string& meshName, med_field_type fieldTyp, const std::vector<std::string>& infos, int nbOfStep, const std::string& dtunit, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileNDTemplateFieldMultiTSWithoutSDA<float>(fid,fieldName,meshName,fieldTyp,infos,nbOfStep,dtunit,loadAll,ms,entities) { }
30034 + med_field_type getMEDFileFieldType() const { return MED_FLOAT32; }
30036 + MEDLOADER_EXPORT MEDFileFloatFieldMultiTSWithoutSDA() { }
30039 + class MEDFileAnyTypeFieldMultiTSIterator;
30040 + class MEDFileFastCellSupportComparator;
30044 + class MEDFileAnyTypeFieldMultiTS : public RefCountObject, public MEDFileWritableStandAlone, public MEDFileFieldGlobsReal
30047 + MEDFileAnyTypeFieldMultiTS();
30048 + MEDFileAnyTypeFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms);
30049 + MEDFileAnyTypeFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
30050 + MEDFileAnyTypeFieldMultiTS(const MEDFileAnyTypeFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent);
30051 + static MEDFileAnyTypeFieldMultiTS *BuildNewInstanceFromContent(MEDFileAnyTypeFieldMultiTSWithoutSDA *c, med_idt fid);
30052 + static MEDFileAnyTypeFieldMultiTSWithoutSDA *BuildContentFrom(med_idt fid, bool loadAll, const MEDFileMeshes *ms);
30053 + static MEDFileAnyTypeFieldMultiTSWithoutSDA *BuildContentFrom(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities);
30055 + MEDLOADER_EXPORT static MEDFileAnyTypeFieldMultiTS *New(const std::string& fileName, bool loadAll=true);
30056 + MEDLOADER_EXPORT static MEDFileAnyTypeFieldMultiTS *New(med_idt fid, bool loadAll=true);
30057 + MEDLOADER_EXPORT static MEDFileAnyTypeFieldMultiTS *New(const std::string& fileName, const std::string& fieldName, bool loadAll=true);
30058 + MEDLOADER_EXPORT static MEDFileAnyTypeFieldMultiTS *New(med_idt fid, const std::string& fieldName, bool loadAll=true);
30059 + MEDLOADER_EXPORT static MEDFileAnyTypeFieldMultiTS *BuildNewInstanceFromContent(MEDFileAnyTypeFieldMultiTSWithoutSDA *c);
30060 + MEDLOADER_EXPORT void loadArrays();
30061 + MEDLOADER_EXPORT void loadArraysIfNecessary();
30062 + MEDLOADER_EXPORT void unloadArrays();
30063 + MEDLOADER_EXPORT void unloadArraysWithoutDataLoss();
30064 + MEDLOADER_EXPORT void writeLL(med_idt fid) const;
30065 + MEDLOADER_EXPORT std::size_t getHeapMemorySizeWithoutChildren() const;
30066 + MEDLOADER_EXPORT std::vector<const BigMemoryObject *> getDirectChildrenWithNull() const;
30067 + MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTS *deepCopy() const;
30068 + MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > splitComponents() const;
30069 + MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > splitDiscretizations() const;
30070 + MEDLOADER_EXPORT std::vector< MCAuto< MEDFileAnyTypeFieldMultiTS > > splitMultiDiscrPerGeoTypes() const;
30071 + MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTS *shallowCpy() const = 0;
30072 + MEDLOADER_EXPORT virtual void checkCoherencyOfType(const MEDFileAnyTypeField1TS *f1ts) const = 0;
30074 + MEDLOADER_EXPORT virtual MEDFileAnyTypeField1TS *getTimeStepAtPos(int pos) const = 0;
30075 + MEDLOADER_EXPORT MEDFileAnyTypeField1TS *getTimeStep(int iteration, int order) const;
30076 + MEDLOADER_EXPORT MEDFileAnyTypeField1TS *getTimeStepGivenTime(double time, double eps=1e-8) const;
30077 + MEDLOADER_EXPORT static std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > SplitIntoCommonTimeSeries(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS);
30078 + MEDLOADER_EXPORT static std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > SplitPerCommonSupport(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS, const MEDFileMesh *mesh, std::vector< MCAuto<MEDFileFastCellSupportComparator> >& fsc);
30079 + MEDLOADER_EXPORT static int CheckSupportAcrossTime(MEDFileAnyTypeFieldMultiTS *f0, MEDFileAnyTypeFieldMultiTS *f1, const MEDFileMesh *mesh, TypeOfField& tof0, TypeOfField& tof1);
30080 + public:// direct forwarding to MEDFileField1TSWithoutSDA instance _content
30081 + MEDLOADER_EXPORT std::string getName() const;
30082 + MEDLOADER_EXPORT void setName(const std::string& name);
30083 + MEDLOADER_EXPORT std::string getDtUnit() const;
30084 + MEDLOADER_EXPORT void setDtUnit(const std::string& dtUnit);
30085 + MEDLOADER_EXPORT std::string getMeshName() const;
30086 + MEDLOADER_EXPORT void setMeshName(const std::string& newMeshName);
30087 + MEDLOADER_EXPORT std::string simpleRepr() const;
30088 + MEDLOADER_EXPORT void simpleRepr(int bkOffset, std::ostream& oss, int fmtsId) const;
30089 + MEDLOADER_EXPORT int getNumberOfTS() const;
30090 + MEDLOADER_EXPORT void eraseEmptyTS();
30091 + MEDLOADER_EXPORT void eraseTimeStepIds(const int *startIds, const int *endIds);
30092 + MEDLOADER_EXPORT void eraseTimeStepIds2(int bg, int end, int step);
30093 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *buildSubPart(const int *startIds, const int *endIds) const;
30094 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *buildSubPartSlice(int bg, int end, int step) const;
30095 + MEDLOADER_EXPORT std::vector< std::pair<int,int> > getTimeSteps(std::vector<double>& ret1) const;
30096 + MEDLOADER_EXPORT std::vector< std::pair<int,int> > getIterations() const;
30097 + MEDLOADER_EXPORT void pushBackTimeSteps(const std::vector<MEDFileAnyTypeField1TS *>& f1ts);
30098 + MEDLOADER_EXPORT void pushBackTimeSteps(MEDFileAnyTypeFieldMultiTS *fmts);
30099 + MEDLOADER_EXPORT void pushBackTimeStep(MEDFileAnyTypeField1TS *f1ts);
30100 + MEDLOADER_EXPORT void synchronizeNameScope();
30101 + MEDLOADER_EXPORT int getPosOfTimeStep(int iteration, int order) const;
30102 + MEDLOADER_EXPORT int getPosGivenTime(double time, double eps=1e-8) const;
30103 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSIterator *iterator();
30104 + MEDLOADER_EXPORT bool changeMeshNames(const std::vector< std::pair<std::string,std::string> >& modifTab);
30105 + MEDLOADER_EXPORT const std::vector<std::string>& getInfo() const;
30106 + MEDLOADER_EXPORT bool presenceOfMultiDiscPerGeoType() const;
30107 + MEDLOADER_EXPORT void setInfo(const std::vector<std::string>& info);
30108 + MEDLOADER_EXPORT int getNumberOfComponents() const;
30109 + MEDLOADER_EXPORT int getNonEmptyLevels(int iteration, int order, const std::string& mname, std::vector<int>& levs) const;
30110 + MEDLOADER_EXPORT std::vector< std::vector<TypeOfField> > getTypesOfFieldAvailable() const;
30111 + MEDLOADER_EXPORT std::vector< std::vector< std::pair<int,int> > > getFieldSplitedByType(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
30112 + MEDLOADER_EXPORT MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> getContent();
30114 + MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTS *buildNewEmpty() const = 0;
30115 + MEDLOADER_EXPORT virtual MEDFileAnyTypeFieldMultiTS *extractPart(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const = 0;
30116 + MEDLOADER_EXPORT static MCAuto<MEDFileAnyTypeFieldMultiTS> Aggregate(const std::vector<const MEDFileAnyTypeFieldMultiTS *>& fmtss, const std::vector< std::vector< std::pair<int,int> > >& dts);
30118 + MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsed() const;
30119 + MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsed() const;
30120 + MEDLOADER_EXPORT std::vector<std::string> getPflsReallyUsedMulti() const;
30121 + MEDLOADER_EXPORT std::vector<std::string> getLocsReallyUsedMulti() const;
30122 + MEDLOADER_EXPORT void changePflsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
30123 + MEDLOADER_EXPORT void changeLocsRefsNamesGen(const std::vector< std::pair<std::vector<std::string>, std::string > >& mapOfModif);
30125 + MEDFileAnyTypeFieldMultiTSWithoutSDA *contentNotNullBase();
30126 + const MEDFileAnyTypeFieldMultiTSWithoutSDA *contentNotNullBase() const;
30128 + static std::vector< std::vector<MEDFileAnyTypeFieldMultiTS *> > SplitPerCommonSupportNotNodesAlg(const std::vector<MEDFileAnyTypeFieldMultiTS *>& vectFMTS, const MEDFileMesh *mesh, std::vector< MCAuto<MEDFileFastCellSupportComparator> >& cmps);
30130 + MCAuto<MEDFileAnyTypeFieldMultiTSWithoutSDA> _content;
30133 + template<class T>
30134 + class MEDFileTemplateFieldMultiTS : public MEDFileAnyTypeFieldMultiTS
30137 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New();
30138 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(const std::string& fileName, bool loadAll=true);
30139 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(med_idt fid, bool loadAll=true);
30140 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(DataArrayByte *db) { return BuildFromMemoryChunk<typename MLFieldTraits<T>::FMTSType>(db); }
30141 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(const std::string& fileName, const std::string& fieldName, bool loadAll=true);
30142 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(med_idt fid, const std::string& fieldName, bool loadAll=true);
30143 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *New(const typename MLFieldTraits<T>::FMTSWSDAType& other, bool shallowCopyOfContent);
30144 + MEDLOADER_EXPORT static typename MLFieldTraits<T>::FMTSType *LoadSpecificEntities(const std::string& fileName, const std::string& fieldName, const std::vector< std::pair<TypeOfField,INTERP_KERNEL::NormalizedCellType> >& entities, bool loadAll=true);
30145 + MEDLOADER_EXPORT typename MLFieldTraits<T>::FMTSType *extractPartImpl(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const;
30146 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *extractPart(const std::map<int, MCAuto<DataArrayInt> >& extractDef, MEDFileMesh *mm) const { return this->extractPartImpl(extractDef,mm); }
30148 + MEDLOADER_EXPORT typename Traits<T>::FieldType *field(int iteration, int order, const MEDFileMesh *mesh) const;
30149 + MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtLevel(TypeOfField type, int iteration, int order, int meshDimRelToMax, int renumPol=0) const;
30150 + MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtTopLevel(TypeOfField type, int iteration, int order, int renumPol=0) const;
30151 + MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldOnMeshAtLevel(TypeOfField type, int iteration, int order, int meshDimRelToMax, const MEDFileMesh *mesh, int renumPol=0) const;
30152 + MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldOnMeshAtLevel(TypeOfField type, int iteration, int order, const MEDCouplingMesh *mesh, int renumPol=0) const;
30153 + MEDLOADER_EXPORT typename Traits<T>::FieldType *getFieldAtLevelOld(TypeOfField type, int iteration, int order, const std::string& mname, int meshDimRelToMax, int renumPol=0) const;
30154 + MEDLOADER_EXPORT typename Traits<T>::ArrayType *getFieldWithProfile(TypeOfField type, int iteration, int order, int meshDimRelToMax, const MEDFileMesh *mesh, DataArrayInt *&pfl) const;
30156 + MEDLOADER_EXPORT void appendFieldNoProfileSBT(const typename Traits<T>::FieldType *field);
30157 + MEDLOADER_EXPORT void appendFieldProfile(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile);
30158 + MEDLOADER_EXPORT void appendFieldProfileFlatly(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile);
30160 + MEDLOADER_EXPORT typename MLFieldTraits<T>::F1TSType *getTimeStepAtPos(int pos) const;
30161 + MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArray(int iteration, int order) const;
30162 + MEDLOADER_EXPORT typename Traits<T>::ArrayType *getUndergroundDataArrayExt(int iteration, int order, std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > >& entries) const;
30163 + MEDLOADER_EXPORT typename MLFieldTraits<T>::FMTSType *buildNewEmptyImpl() const;
30164 + MEDLOADER_EXPORT void checkCoherencyOfType(const MEDFileAnyTypeField1TS *f1ts) const;
30166 + const typename MLFieldTraits<T>::FMTSWSDAType *contentNotNull() const;
30167 + typename MLFieldTraits<T>::FMTSWSDAType *contentNotNull();
30168 + void appendFieldProfileGeneral(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, bool smartPflKiller);
30170 + ~MEDFileTemplateFieldMultiTS() { }
30171 + MEDFileTemplateFieldMultiTS();
30172 + MEDFileTemplateFieldMultiTS(const typename MLFieldTraits<T>::FMTSWSDAType& other, bool shallowCopyOfContent);
30173 + MEDFileTemplateFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms);
30174 + MEDFileTemplateFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
30177 + class MEDFileIntFieldMultiTS;
30182 + class MEDFileFieldMultiTS : public MEDFileTemplateFieldMultiTS<double>
30184 + friend class MEDFileTemplateFieldMultiTS<double>;
30186 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *shallowCpy() const;
30187 + MEDLOADER_EXPORT MEDFileIntFieldMultiTS *convertToInt(bool isDeepCpyGlobs=true) const;
30189 + MEDLOADER_EXPORT std::vector< std::vector<DataArrayDouble *> > getFieldSplitedByType2(int iteration, int order, const std::string& mname, std::vector<INTERP_KERNEL::NormalizedCellType>& types, std::vector< std::vector<TypeOfField> >& typesF, std::vector< std::vector<std::string> >& pfls, std::vector< std::vector<std::string> >& locs) const;
30190 + MEDLOADER_EXPORT MEDFileFieldMultiTS *buildNewEmpty() const { return buildNewEmptyImpl(); }
30193 + ~MEDFileFieldMultiTS() { }
30194 + MEDFileFieldMultiTS() { }
30195 + MEDFileFieldMultiTS(const MEDFileFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent);
30196 + MEDFileFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms);
30197 + MEDFileFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0);
30200 + template<class T>
30201 + class MEDFileNDTemplateFieldMultiTS : public MEDFileTemplateFieldMultiTS<T>
30204 + MEDLOADER_EXPORT MEDFileFieldMultiTS *convertToDouble(bool isDeepCpyGlobs=true) const;
30206 + ~MEDFileNDTemplateFieldMultiTS() { }
30207 + MEDFileNDTemplateFieldMultiTS() { }
30208 + MEDFileNDTemplateFieldMultiTS(const typename MLFieldTraits<T>::FMTSWSDAType& other, bool shallowCopyOfContent):MEDFileTemplateFieldMultiTS<T>(other,shallowCopyOfContent) { }
30209 + MEDFileNDTemplateFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileTemplateFieldMultiTS<T>(fid,loadAll,ms) { }
30210 + MEDFileNDTemplateFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities):MEDFileTemplateFieldMultiTS<T>(fid,fieldName,loadAll,ms,entities) { }
30216 + class MEDFileIntFieldMultiTS : public MEDFileNDTemplateFieldMultiTS<int>
30218 + friend class MEDFileTemplateFieldMultiTS<int>;
30220 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *shallowCpy() const { return new MEDFileIntFieldMultiTS(*this); }
30221 + MEDLOADER_EXPORT MEDFileIntFieldMultiTS *buildNewEmpty() const { return buildNewEmptyImpl(); }
30223 + ~MEDFileIntFieldMultiTS() { }
30224 + MEDFileIntFieldMultiTS() { }
30225 + MEDFileIntFieldMultiTS(const MEDFileIntFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent):MEDFileNDTemplateFieldMultiTS<int>(other,shallowCopyOfContent) { }
30226 + MEDFileIntFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateFieldMultiTS<int>(fid,loadAll,ms) { }
30227 + MEDFileIntFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0):MEDFileNDTemplateFieldMultiTS<int>(fid,fieldName,loadAll,ms,entities) { }
30233 + class MEDFileFloatFieldMultiTS : public MEDFileNDTemplateFieldMultiTS<float>
30235 + friend class MEDFileTemplateFieldMultiTS<float>;
30237 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTS *shallowCpy() const { return new MEDFileFloatFieldMultiTS(*this); }
30238 + MEDLOADER_EXPORT MEDFileFloatFieldMultiTS *buildNewEmpty() const { return buildNewEmptyImpl(); }
30240 + ~MEDFileFloatFieldMultiTS() { }
30241 + MEDFileFloatFieldMultiTS() { }
30242 + MEDFileFloatFieldMultiTS(const MEDFileFloatFieldMultiTSWithoutSDA& other, bool shallowCopyOfContent):MEDFileNDTemplateFieldMultiTS<float>(other,shallowCopyOfContent) { }
30243 + MEDFileFloatFieldMultiTS(med_idt fid, bool loadAll, const MEDFileMeshes *ms):MEDFileNDTemplateFieldMultiTS<float>(fid,loadAll,ms) { }
30244 + MEDFileFloatFieldMultiTS(med_idt fid, const std::string& fieldName, bool loadAll, const MEDFileMeshes *ms, const MEDFileEntities *entities=0):MEDFileNDTemplateFieldMultiTS<float>(fid,fieldName,loadAll,ms,entities) { }
30247 + class MEDFileAnyTypeFieldMultiTSIterator
30250 + MEDLOADER_EXPORT MEDFileAnyTypeFieldMultiTSIterator(MEDFileAnyTypeFieldMultiTS *fmts);
30251 + MEDLOADER_EXPORT ~MEDFileAnyTypeFieldMultiTSIterator();
30252 + MEDLOADER_EXPORT MEDFileAnyTypeField1TS *nextt();
30254 + MCAuto<MEDFileAnyTypeFieldMultiTS> _fmts;
30261 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileFieldOverView.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileFieldOverView.cxx
30262 --- MEDCOUPLING_old/src/MEDLoader/MEDFileFieldOverView.cxx 2018-04-19 17:04:36.758223141 +0200
30263 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileFieldOverView.cxx 2018-04-19 17:25:17.828799155 +0200
30265 using namespace MEDCoupling;
30267 const unsigned char MEDMeshMultiLev::PARAMEDMEM_2_VTKTYPE[MEDMeshMultiLev::PARAMEDMEM_2_VTKTYPE_LGTH]=
30268 -{1,3,21,5,9,7,22,34,23,28,255,255,255,255,10,14,13,255,12,255,24,255,16,27,255,26,255,29,255,255,25,42,36,4};
30269 +{1,3,21,5,9,7,22,34,23,28,35,255,255,255,10,14,13,255,12,255,24,255,16,27,255,26,255,29,32,255,25,42,36,4};
30271 const unsigned char MEDMeshMultiLev::HEXA27_PERM_ARRAY[27]={0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,24,22,21,23,20,25,26};
30273 @@ -1360,7 +1360,7 @@
30275 throw INTERP_KERNEL::Exception("MEDCMeshMultiLev constructor 2 : null input pointer !");
30276 if(gts.size()!=1 || pfls.size()!=1)
30277 - throw INTERP_KERNEL::Exception("MEDCMeshMultiLev constructor 2 : lengthes of gts and pfls must be equal to one !");
30278 + throw INTERP_KERNEL::Exception("MEDCMeshMultiLev constructor 2 : lengths of gts and pfls must be equal to one !");
30279 int mdim(m->getMeshDimension());
30280 INTERP_KERNEL::NormalizedCellType gt(MEDCouplingStructuredMesh::GetGeoTypeGivenMeshDimension(mdim));
30282 @@ -1456,7 +1456,7 @@
30286 - * \a param [out] isInternal if true the returned pointers are those in main data structure. If false those pointers have been built espacially for that method.
30287 + * \a param [out] isInternal if true the returned pointers are those in main data structure. If false those pointers have been built especially for that method.
30289 std::vector< DataArrayDouble * > MEDCMeshMultiLev::buildVTUArrays(bool& isInternal) const
30291 @@ -1502,7 +1502,7 @@
30293 throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev constructor 2 : null input pointer !");
30294 if(gts.size()!=1 || pfls.size()!=1)
30295 - throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev constructor 2 : lengthes of gts and pfls must be equal to one !");
30296 + throw INTERP_KERNEL::Exception("MEDCurveLinearMeshMultiLev constructor 2 : lengths of gts and pfls must be equal to one !");
30297 INTERP_KERNEL::NormalizedCellType gt(MEDCouplingStructuredMesh::GetGeoTypeGivenMeshDimension(m->getMeshDimension()));
30300 @@ -1680,7 +1680,7 @@
30304 - * \param [in] nbOfEntity - number of entity that can be either cells or nodes. Not other possiblity.
30305 + * \param [in] nbOfEntity - number of entity that can be either cells or nodes. Not other possibility.
30306 * \param [in] nip - number of integration points. 1 for ON_CELLS and NO_NODES
30308 void MEDFileField1TSStructItem2::checkInRange(int nbOfEntity, int nip, const MEDFileFieldGlobsReal *globs)
30309 @@ -2272,7 +2272,7 @@
30312 * Returns true if presence in \a this of discretization ON_CELLS, ON_GAUSS_PT, ON_GAUSS_NE.
30313 - * If true is returned the pos of the easiest is returned. The easiest is the first element in \a this having the less splitted subparts.
30314 + * If true is returned the pos of the easiest is returned. The easiest is the first element in \a this having the less split subparts.
30316 bool MEDFileField1TSStruct::presenceOfCellDiscr(int& pos) const
30318 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileField.txx MEDCOUPLING_new/src/MEDLoader/MEDFileField.txx
30319 --- MEDCOUPLING_old/src/MEDLoader/MEDFileField.txx 2018-04-19 17:04:36.757223122 +0200
30320 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileField.txx 2018-04-19 17:25:17.824799076 +0200
30321 @@ -199,6 +199,16 @@
30325 + template<class T>
30326 + void MEDFileField1TSTemplateWithoutSDA<T>::copyTimeInfoFrom(const typename Traits<T>::FieldType *mcf)
30329 + throw INTERP_KERNEL::Exception("MEDFileField1TSTemplateWithoutSDA<T>::copyTimeInfoFrom : input field is nullptr !");
30331 + double a(mcf->getTime(b,c));
30335 ///////////////////////////////////////////////////////
30338 @@ -398,6 +408,12 @@
30342 + void MEDFileTemplateField1TS<T>::setArray(DataArray *arr)
30344 + return contentNotNull()->setArray(arr);
30347 + template<class T>
30348 typename Traits<T>::ArrayType *MEDFileTemplateField1TS<T>::getUndergroundDataArray() const
30350 return contentNotNull()->getUndergroundDataArrayTemplate();
30351 @@ -438,6 +454,12 @@
30355 + template<class T>
30356 + void MEDFileTemplateField1TS<T>::copyTimeInfoFrom(const typename Traits<T>::FieldType *mcf)
30358 + contentNotNull()->copyTimeInfoFrom(mcf);
30362 * This is the simplest version to fetch a field for MED structure. One drawback : if \a this is a complex field (multi spatial discretization inside a same field) this method will throw exception and more advance
30363 * method should be called (getFieldOnMeshAtLevel for example).
30364 @@ -660,16 +682,32 @@
30365 * \throw If the data array of \a this is already allocated but has different number of
30366 * components than \a field.
30367 * \throw If elements in \a mesh are not in the order suitable for writing to the MED file.
30368 - * \sa setFieldNoProfileSBT()
30369 + * \sa setFieldNoProfileSBT, setFieldProfileFlatly
30372 void MEDFileTemplateField1TS<T>::setFieldProfile(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile)
30374 + setFieldProfileGeneral(field,mesh,meshDimRelToMax,profile,true);
30378 + * Same as setFieldProfile except that here profile will be created unconditionally
30379 + * \sa setFieldProfile
30381 + template<class T>
30382 + void MEDFileTemplateField1TS<T>::setFieldProfileFlatly(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile)
30384 + setFieldProfileGeneral(field,mesh,meshDimRelToMax,profile,false);
30387 + template<class T>
30388 + void MEDFileTemplateField1TS<T>::setFieldProfileGeneral(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, bool smartPflKiller)
30391 MCAuto<MEDCouplingFieldTemplate> ft(MEDCouplingFieldTemplate::NewWithoutCheck(*field));
30392 - contentNotNull()->setFieldProfile(field->timeDiscrSafe(),ft,field->getArray(),mesh,meshDimRelToMax,profile,*this,*contentNotNull());
30393 + contentNotNull()->setFieldProfile(field->timeDiscrSafe(),ft,field->getArray(),mesh,meshDimRelToMax,profile,*this,*contentNotNull(),smartPflKiller);
30398 * Return an extraction of \a this using \a extractDef map to specify the extraction.
30399 * The keys of \a extractDef is level relative to max ext of \a mm mesh.
30400 @@ -1200,18 +1238,33 @@
30401 * \throw If the data array of \a this is already allocated but has different number of
30402 * components than \a field.
30403 * \throw If elements in \a mesh are not in the order suitable for writing to the MED file.
30404 - * \sa setFieldNoProfileSBT()
30405 + * \sa setFieldNoProfileSBT, appendFieldProfileFlatly
30408 void MEDFileTemplateFieldMultiTS<T>::appendFieldProfile(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile)
30410 + appendFieldProfileGeneral(field,mesh,meshDimRelToMax,profile,true);
30414 + * same as appendFieldProfile except that here profile is created unconditionaly
30416 + template<class T>
30417 + void MEDFileTemplateFieldMultiTS<T>::appendFieldProfileFlatly(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile)
30419 + appendFieldProfileGeneral(field,mesh,meshDimRelToMax,profile,false);
30422 + template<class T>
30423 + void MEDFileTemplateFieldMultiTS<T>::appendFieldProfileGeneral(const typename Traits<T>::FieldType *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile, bool smartPflKiller)
30425 const typename Traits<T>::ArrayType *arr(NULL);
30427 arr=field->getArray();
30428 MCAuto<MEDCouplingFieldDouble> field2(MEDFileTemplateField1TS<T>::ToFieldTemplateWithTime(field));
30429 - contentNotNull()->appendFieldProfile(field2,arr,mesh,meshDimRelToMax,profile,*this);
30430 + contentNotNull()->appendFieldProfile(field2,arr,mesh,meshDimRelToMax,profile,*this,smartPflKiller);
30435 const typename MLFieldTraits<T>::FMTSWSDAType *MEDFileTemplateFieldMultiTS<T>::contentNotNull() const
30437 @@ -1272,7 +1325,7 @@
30438 typename Traits<T>::ArrayType *ret2(dynamic_cast<typename Traits<T>::ArrayType *>(ret));
30441 - std::ostringstream oss; oss << "MEDFileTemplateFieldMultiTS<T>::getUndergroundDataArray : invalid type of data dectected ! Expecting " << MLFieldTraits<T>::F1TSWSDAType::TYPE_STR;
30442 + std::ostringstream oss; oss << "MEDFileTemplateFieldMultiTS<T>::getUndergroundDataArray : invalid type of data detected ! Expecting " << MLFieldTraits<T>::F1TSWSDAType::TYPE_STR;
30443 throw INTERP_KERNEL::Exception(oss.str());
30446 @@ -1287,7 +1340,7 @@
30447 typename Traits<T>::ArrayType *ret2(dynamic_cast<typename Traits<T>::ArrayType *>(ret));
30450 - std::ostringstream oss; oss << "MEDFileTemplateFieldMultiTS<T>::getUndergroundDataArrayExt : invalid type of data dectected ! Expecting " << MLFieldTraits<T>::F1TSWSDAType::TYPE_STR;
30451 + std::ostringstream oss; oss << "MEDFileTemplateFieldMultiTS<T>::getUndergroundDataArrayExt : invalid type of data detected ! Expecting " << MLFieldTraits<T>::F1TSWSDAType::TYPE_STR;
30452 throw INTERP_KERNEL::Exception(oss.str());
30455 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileFieldVisitor.hxx MEDCOUPLING_new/src/MEDLoader/MEDFileFieldVisitor.hxx
30456 --- MEDCOUPLING_old/src/MEDLoader/MEDFileFieldVisitor.hxx 2018-04-19 17:04:36.759223161 +0200
30457 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileFieldVisitor.hxx 2018-04-19 17:25:17.860799788 +0200
30459 virtual void endPerMeshPerTypeEntry(const MEDFileFieldPerMeshPerTypeCommon *pmpt) = 0;
30461 virtual void newPerMeshPerTypePerDisc(const MEDFileFieldPerMeshPerTypePerDisc *pmptpd) = 0;
30462 + virtual ~MEDFileFieldVisitor() { }
30466 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileJoint.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileJoint.cxx
30467 --- MEDCOUPLING_old/src/MEDLoader/MEDFileJoint.cxx 2018-04-19 17:04:36.759223161 +0200
30468 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileJoint.cxx 2018-04-19 17:25:17.863799847 +0200
30469 @@ -357,7 +357,7 @@
30470 if ( getNumberOfCorrespondences() != other->getNumberOfCorrespondences() )
30473 - std::vector<int> found( getNumberOfCorrespondences(), false );
30474 + std::vector<bool> found( getNumberOfCorrespondences(), false );
30475 for(int i=0; i<getNumberOfCorrespondences(); i++)
30478 @@ -410,6 +410,7 @@
30483 INTERP_KERNEL::NormalizedCellType MEDFileJointOneStep::convertGeometryType(med_geometry_type geotype)
30485 INTERP_KERNEL::NormalizedCellType result=INTERP_KERNEL::NORM_ERROR;
30486 @@ -423,6 +424,7 @@
30491 std::size_t MEDFileJoint::getHeapMemorySizeWithoutChildren() const
30493 return _joint.capacity()*sizeof(MCAuto<MEDFileJointOneStep>);
30494 @@ -545,20 +547,22 @@
30496 if(_domain_number!=other->_domain_number)
30498 - std::vector<int> found( getNumberOfSteps(), false );
30499 - for(int i=0; i<getNumberOfSteps(); i++)
30500 + int nbTS(getNumberOfSteps());
30501 + if(nbTS!=other->getNumberOfSteps())
30503 + std::vector<bool> found(nbTS,false);
30504 + for(int i=0;i<nbTS;i++)
30507 - for(j=0; j<getNumberOfSteps(); j++)
30508 + for(j=0;j<nbTS;j++)
30510 - if ( !found[ j ] &&
30511 - getStepAtPos(i)->isEqual(other->getStepAtPos(j)))
30512 + if(!found[j] && getStepAtPos(i)->isEqual(other->getStepAtPos(j)))
30514 - found[ j ] = true;
30519 - if ( j == getNumberOfSteps() )
30524 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileMesh.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileMesh.cxx
30525 --- MEDCOUPLING_old/src/MEDLoader/MEDFileMesh.cxx 2018-04-19 17:04:36.760223181 +0200
30526 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileMesh.cxx 2018-04-19 17:25:17.810798800 +0200
30527 @@ -673,6 +673,35 @@
30531 +void MEDFileMesh::removeGroupAtLevel(int meshDimRelToMaxExt, const std::string& name)
30533 + std::map<std::string, std::vector<std::string> >::iterator it(_groups.find(name));
30534 + std::vector<std::string> grps(getGroupsNames());
30535 + if(it==_groups.end())
30537 + std::ostringstream oss; oss << "No such groupname \"" << name << "\" !\nAvailable groups are :";
30538 + std::copy(grps.begin(),grps.end(),std::ostream_iterator<std::string>(oss," "));
30539 + throw INTERP_KERNEL::Exception(oss.str().c_str());
30541 + const std::vector<std::string> &famsOnGrp((*it).second);
30542 + std::vector<int> famIds(getFamiliesIdsOnGroup(name));
30543 + const DataArrayInt *famArr(getFamilyFieldAtLevel(meshDimRelToMaxExt));
30546 + MCAuto<DataArrayInt> vals(famArr->getDifferentValues());
30547 + MCAuto<DataArrayInt> famIds2(DataArrayInt::NewFromStdVector(famIds));
30548 + MCAuto<DataArrayInt> idsToKill(famIds2->buildIntersection(vals));
30549 + if(idsToKill->empty())
30551 + std::vector<std::string> newFamsOnGrp;
30552 + for(std::vector<std::string>::const_iterator it=famsOnGrp.begin();it!=famsOnGrp.end();it++)
30554 + if(!idsToKill->presenceOfValue(getFamilyId(*it)))
30555 + newFamsOnGrp.push_back(*it);
30557 + (*it).second=newFamsOnGrp;
30561 * Removes a group from \a this mesh.
30562 * \param [in] name - the name of the group to remove.
30563 @@ -680,9 +709,8 @@
30565 void MEDFileMesh::removeGroup(const std::string& name)
30567 - std::string oname(name);
30568 - std::map<std::string, std::vector<std::string> >::iterator it=_groups.find(oname);
30569 - std::vector<std::string> grps=getGroupsNames();
30570 + std::map<std::string, std::vector<std::string> >::iterator it=_groups.find(name);
30571 + std::vector<std::string> grps(getGroupsNames());
30572 if(it==_groups.end())
30574 std::ostringstream oss; oss << "No such groupname \"" << name << "\" !\nAvailable groups are :";
30575 @@ -795,7 +823,7 @@
30579 - * This method has no impact on groups. This method only works on families. This method firstly removes families not refered by any groups in \a this, then all unused entities
30580 + * This method has no impact on groups. This method only works on families. This method firstly removes families not referred by any groups in \a this, then all unused entities
30581 * are put as belonging to family 0 ("FAMILLE_ZERO"). Finally, all orphanFamilies are killed.
30582 * This method raises an exception if "FAMILLE_ZERO" is already belonging to a group.
30584 @@ -1256,6 +1284,19 @@
30588 +void MEDFileMesh::checkNoGroupClash(const DataArrayInt *famArr, const std::string& grpName) const
30590 + std::vector<std::string> grpsNames(getGroupsNames());
30591 + if(std::find(grpsNames.begin(),grpsNames.end(),grpName)==grpsNames.end())
30593 + std::vector<int> famIds(getFamiliesIdsOnGroup(grpName));
30594 + if(famArr->presenceOfValue(famIds))
30596 + std::ostringstream oss; oss << "MEDFileUMesh::addGroup : Group with name \"" << grpName << "\" already exists at specified level ! Destroy it before calling this method !";
30597 + throw INTERP_KERNEL::Exception(oss.str().c_str());
30602 * \param [in] ids ids and group name of the new group to add. The ids should be sorted and different each other (MED file norm).
30603 * \parma [in,out] famArr family array on level of interest to be renumbered. The input pointer should be not \c NULL (no check of that will be performed)
30604 @@ -1268,13 +1309,8 @@
30605 if(grpName.empty())
30606 throw INTERP_KERNEL::Exception("MEDFileUMesh::addGroup : empty group name ! MED file format do not accept empty group name !");
30607 ids->checkStrictlyMonotonic(true);
30608 - famArr->incrRef(); MCAuto<DataArrayInt> famArrTmp(famArr);
30609 - std::vector<std::string> grpsNames=getGroupsNames();
30610 - if(std::find(grpsNames.begin(),grpsNames.end(),grpName)!=grpsNames.end())
30612 - std::ostringstream oss; oss << "MEDFileUMesh::addGroup : Group with name \"" << grpName << "\" already exists ! Destroy it before calling this method !";
30613 - throw INTERP_KERNEL::Exception(oss.str().c_str());
30615 + checkNoGroupClash(famArr,grpName);
30616 + MCAuto<DataArrayInt> famArrTmp; famArrTmp.takeRef(famArr);
30617 std::list< MCAuto<DataArrayInt> > allFamIds(getAllNonNullFamilyIds());
30618 allFamIds.erase(std::find(allFamIds.begin(),allFamIds.end(),famArrTmp));
30619 MCAuto<DataArrayInt> famIds=famArr->selectByTupleIdSafe(ids->begin(),ids->end());
30620 @@ -1331,8 +1367,15 @@
30621 famArr->setPartOfValuesSimple3(familyIds[i],da->begin(),da->end(),0,1,1);
30623 _families=families;
30624 + std::map<std::string, std::vector<std::string> >::iterator itt(groups.find(grpName));
30625 + if(itt!=groups.end())
30627 + std::vector<std::string>& famsOnGrp((*itt).second);
30628 + famsOnGrp.insert(famsOnGrp.end(),fams.begin(),fams.end());
30631 + groups[grpName]=fams;
30633 - _groups[grpName]=fams;
30636 void MEDFileMesh::changeAllGroupsContainingFamily(const std::string& familyNameToChange, const std::vector<std::string>& newFamiliesNames)
30637 @@ -2282,7 +2325,7 @@
30641 - * \b WARNING this implementation is dependant from MEDCouplingMappedExtrudedMesh::buildUnstructured !
30642 + * \b WARNING this implementation is dependent from MEDCouplingMappedExtrudedMesh::buildUnstructured !
30643 * \sa MEDCouplingMappedExtrudedMesh::buildUnstructured , MEDCouplingMappedExtrudedMesh::build3DUnstructuredMesh
30645 MEDFileUMesh *MEDFileUMesh::New(const MEDCouplingMappedExtrudedMesh *mem)
30646 @@ -2776,7 +2819,7 @@
30647 if(getAxisType()!=AX_CART)
30649 std::ostringstream oss; oss << "MEDFileMesh::checkCartesian : request for method that is dedicated to a cartesian convention ! But you are not in cartesian convention (" << DataArray::GetAxisTypeRepr(getAxisType()) << ").";
30650 - oss << std::endl << "To perform operation you have two possiblities :" << std::endl;
30651 + oss << std::endl << "To perform operation you have two possibilities :" << std::endl;
30652 oss << " - call setAxisType(AX_CART)" << std::endl;
30653 oss << " - call cartesianize()";
30654 throw INTERP_KERNEL::Exception(oss.str().c_str());
30655 @@ -3635,7 +3678,7 @@
30657 * This method is for advanced users. There is two storing strategy of mesh in \a this.
30658 * Either MEDCouplingUMesh, or vector of MEDCoupling1GTUMesh instances.
30659 - * When assignement is done the first one is done, which is not optimal in write mode for MED file.
30660 + * When assignment is done the first one is done, which is not optimal in write mode for MED file.
30661 * This method allows to switch from MEDCouplingUMesh mode to MEDCoupling1GTUMesh mode.
30663 void MEDFileUMesh::forceComputationOfParts() const
30664 @@ -4133,12 +4176,12 @@
30668 - * Array returned is the correspondance in \b old \b to \b new format. The returned array is newly created and should be dealt by the caller.
30669 + * Array returned is the correspondence in \b old \b to \b new format. The returned array is newly created and should be dealt by the caller.
30670 * The maximum value stored in returned array is the number of nodes of \a this minus 1 after call of this method.
30671 * The size of returned array is the number of nodes of the old (previous to the call of this method) number of nodes.
30672 * -1 values in returned array means that the corresponding old node is no more used.
30674 - * \return newly allocated array containing correspondance in \b old \b to \b new format. If all nodes in \a this are fetched \c NULL pointer is returned and nothing
30675 + * \return newly allocated array containing correspondence in \b old \b to \b new format. If all nodes in \a this are fetched \c NULL pointer is returned and nothing
30676 * is modified in \a this.
30677 * \throw If no coordinates are set in \a this or if there is in any available mesh in \a this a cell having a nodal connectivity containing a node id not in the range of
30679 @@ -4874,7 +4917,7 @@
30681 throw INTERP_KERNEL::Exception("MEDFileUMesh::addNodeGroup : no coords set !");
30682 int nbOfNodes(coords->getNumberOfTuples());
30683 - if(!((DataArrayInt *)_fam_coords))
30684 + if(_fam_coords.isNull())
30685 { _fam_coords=DataArrayInt::New(); _fam_coords->alloc(nbOfNodes,1); _fam_coords->fillWithZero(); }
30687 addGroupUnderground(true,ids,_fam_coords);
30688 @@ -5005,7 +5048,7 @@
30690 * \param [in] ms - List of unstructured meshes lying on the same coordinates and having different mesh dimesnion.
30691 * \param [in] renum - the parameter (set to false by default) that tells the beheviour if there is a mesh on \a ms that is not geo type sorted.
30692 - * If false, an exception ois thrown. If true the mesh is reordered automatically. It is highly recommanded to let this parameter to false.
30693 + * If false, an exception is thrown. If true the mesh is reordered automatically. It is highly recommended to let this parameter to false.
30695 * \throw If \a there is a null pointer in \a ms.
30696 * \sa MEDFileUMesh::setMeshAtLevel
30697 @@ -6095,7 +6138,7 @@
30701 - * Returns a pointer to mesh at the specified level (here 0 is compulsary for cartesian mesh).
30702 + * Returns a pointer to mesh at the specified level (here 0 is compulsory for cartesian mesh).
30704 * \return a pointer to cartesian mesh that need to be managed by the caller.
30705 * \warning the returned pointer has to be managed by the caller.
30706 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileMeshElt.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileMeshElt.cxx
30707 --- MEDCOUPLING_old/src/MEDLoader/MEDFileMeshElt.cxx 2018-04-19 17:04:36.761223201 +0200
30708 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileMeshElt.cxx 2018-04-19 17:25:17.865799887 +0200
30709 @@ -141,7 +141,7 @@
30711 whichEntity=entities[i];
30713 - std::cerr << "WARNING : MEDFile has been detected to be no compilant with MED 3 : Please change entity in MEDFile for geotype " << geoElt << std::endl;
30714 + std::cerr << "WARNING : MEDFile has been detected to be noncompliant with MED 3 : Please change entity in MEDFile for geotype " << geoElt << std::endl;
30718 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileMesh.hxx MEDCOUPLING_new/src/MEDLoader/MEDFileMesh.hxx
30719 --- MEDCOUPLING_old/src/MEDLoader/MEDFileMesh.hxx 2018-04-19 17:04:36.761223201 +0200
30720 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileMesh.hxx 2018-04-19 17:25:17.831799215 +0200
30721 @@ -136,6 +136,7 @@
30722 MEDLOADER_EXPORT static std::string GetMagicFamilyStr();
30723 MEDLOADER_EXPORT void assignFamilyNameWithGroupName();
30724 MEDLOADER_EXPORT std::vector<std::string> removeEmptyGroups();
30725 + MEDLOADER_EXPORT void removeGroupAtLevel(int meshDimRelToMaxExt, const std::string& name);
30726 MEDLOADER_EXPORT void removeGroup(const std::string& name);
30727 MEDLOADER_EXPORT void removeFamily(const std::string& name);
30728 MEDLOADER_EXPORT std::vector<std::string> removeOrphanGroups();
30729 @@ -227,6 +228,7 @@
30730 bool areEquivalencesEqual(const MEDFileMesh *other, std::string& what) const;
30731 void getEquivalencesRepr(std::ostream& oss) const;
30732 void checkCartesian() const;
30733 + void checkNoGroupClash(const DataArrayInt *famArr, const std::string& grpName) const;
30735 virtual void writeMeshLL(med_idt fid) const = 0;
30737 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileMeshLL.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileMeshLL.cxx
30738 --- MEDCOUPLING_old/src/MEDLoader/MEDFileMeshLL.cxx 2018-04-19 17:04:36.761223201 +0200
30739 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileMeshLL.cxx 2018-04-19 17:25:17.851799610 +0200
30740 @@ -331,7 +331,7 @@
30741 INTERP_KERNEL::AutoPtr<char> groName=MEDLoaderBase::buildEmptyString(MED_LNAME_SIZE*ngro);
30743 for(std::vector<std::string>::const_iterator it2=(*it).second.second.begin();it2!=(*it).second.second.end();it2++,i++)
30744 - MEDLoaderBase::safeStrCpy2((*it2).c_str(),MED_LNAME_SIZE-1,groName+i*MED_LNAME_SIZE,tooLongStrPol);
30745 + MEDLoaderBase::safeStrCpy2((*it2).c_str(),MED_LNAME_SIZE,groName+i*MED_LNAME_SIZE,tooLongStrPol);
30746 INTERP_KERNEL::AutoPtr<char> famName=MEDLoaderBase::buildEmptyString(MED_NAME_SIZE);
30747 MEDLoaderBase::safeStrCpy((*it).first.c_str(),MED_NAME_SIZE,famName,tooLongStrPol);
30748 int ret=MEDfamilyCr(fid,mname.c_str(),famName,(*it).second.first,ngro,groName);
30749 @@ -354,7 +354,7 @@
30752 * This method is dedicated to the killers that use a same family name to store different family ids. MED file API authorizes it.
30753 - * So this method renames families (if needed generaly not !) in order to have a discriminant name for families.
30754 + * So this method renames families (if needed generally not !) in order to have a discriminant name for families.
30756 void MEDFileMeshL2::RenameFamiliesFromFileToMemInternal(std::vector< std::pair<std::string,std::pair<int,std::vector<std::string> > > >& crudeFams)
30758 @@ -387,7 +387,7 @@
30761 * This method is dedicated to the killers that use a same family name to store different family ids. MED file API authorizes it.
30762 - * So this method renames families (if needed generaly not !) in order to have a discriminant name for families.
30763 + * So this method renames families (if needed generally not !) in order to have a discriminant name for families.
30765 void MEDFileMeshL2::RenameFamiliesFromMemToFileInternal(std::vector< std::pair<std::string,std::pair<int,std::vector<std::string> > > >& crudeFams)
30767 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDFileUtilities.cxx MEDCOUPLING_new/src/MEDLoader/MEDFileUtilities.cxx
30768 --- MEDCOUPLING_old/src/MEDLoader/MEDFileUtilities.cxx 2018-04-19 17:04:36.762223221 +0200
30769 +++ MEDCOUPLING_new/src/MEDLoader/MEDFileUtilities.cxx 2018-04-19 17:25:17.867799926 +0200
30770 @@ -190,7 +190,7 @@
30771 void MEDCoupling::MEDFileWritableStandAlone::write30(const std::string& fileName, int mode) const
30773 med_access_mode medmod(MEDFileUtilities::TraduceWriteMode(mode));
30774 -#if MED_NUM_MAJEUR>=3 && MED_NUM_MINEUR>=2 && MED_NUM_RELEASE>=1
30775 +#if MED_NUM_MAJEUR>3 || ( MED_NUM_MAJEUR==3 && ( (MED_NUM_MINEUR==2 && MED_NUM_RELEASE>=1) || MED_NUM_MINEUR>=3) )
30776 MEDFileUtilities::AutoFid fid(MEDfileVersionOpen(fileName.c_str(),medmod,3,0,0));
30779 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDLoaderBase.cxx MEDCOUPLING_new/src/MEDLoader/MEDLoaderBase.cxx
30780 --- MEDCOUPLING_old/src/MEDLoader/MEDLoaderBase.cxx 2018-04-19 17:04:36.762223221 +0200
30781 +++ MEDCOUPLING_new/src/MEDLoader/MEDLoaderBase.cxx 2018-04-19 17:25:17.862799828 +0200
30782 @@ -130,7 +130,7 @@
30785 * This method operates a safe copy from 'src' to 'dest' by checking the size of 'src' before trying to copy.
30786 - * If size of 'src' string is higher than 'maxLgth' the behaviour is dependant from 'behaviour' parameter.
30787 + * If size of 'src' string is higher than 'maxLgth' the behaviour is dependent from 'behaviour' parameter.
30788 * If 'behaviour' equals 0 an exception is thrown. If 'behaviour' equals 1 an attempt of zipping of string will be done
30789 * ( see zipString to have more details).
30791 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDLoader.cxx MEDCOUPLING_new/src/MEDLoader/MEDLoader.cxx
30792 --- MEDCOUPLING_old/src/MEDLoader/MEDLoader.cxx 2018-04-19 17:04:36.762223221 +0200
30793 +++ MEDCOUPLING_new/src/MEDLoader/MEDLoader.cxx 2018-04-19 17:25:17.735797317 +0200
30795 #include "MEDCouplingUMesh.hxx"
30796 #include "MEDCouplingMemArray.hxx"
30797 #include "MEDCouplingFieldDouble.hxx"
30798 +#include "MEDCouplingFieldFloat.hxx"
30799 +#include "MEDCouplingFieldInt.hxx"
30800 #include "MEDCouplingGaussLocalization.hxx"
30801 +#include "MEDCouplingTraits.hxx"
30802 #include "MCAuto.hxx"
30804 #include "InterpKernelAutoPtr.hxx"
30814 INTERP_KERNEL::NORM_TETRA10,
30815 INTERP_KERNEL::NORM_PYRA13,
30816 INTERP_KERNEL::NORM_PENTA15,
30817 + INTERP_KERNEL::NORM_PENTA18,
30818 INTERP_KERNEL::NORM_HEXA20,
30819 INTERP_KERNEL::NORM_HEXA27,
30820 INTERP_KERNEL::NORM_POLYGON,
30821 @@ -124,7 +129,7 @@
30829 MED_POLYHEDRON,//31
30830 @@ -308,7 +313,7 @@
30832 std::string MEDCoupling::MEDFileVersionOfFileStr(const std::string& fileName)
30834 -#if MED_NUM_MAJEUR>=3 && MED_NUM_MINEUR>=2 && MED_NUM_RELEASE>=1
30835 +#if MED_NUM_MAJEUR>3 || ( MED_NUM_MAJEUR==3 && ( (MED_NUM_MINEUR==2 && MED_NUM_RELEASE>=1) || MED_NUM_MINEUR>=3) )
30836 MEDFileUtilities::AutoFid fid(MEDCoupling::OpenMEDFileForRead(fileName));
30838 const char START_EXPECTED[]="MED-";
30839 @@ -341,7 +346,7 @@
30843 - * This method sets the epsilon value used for node comparison when trying to buid a profile for a field on node/cell on an already written mesh.
30844 + * This method sets the epsilon value used for node comparison when trying to build a profile for a field on node/cell on an already written mesh.
30846 void MEDCoupling::SetEpsilonForNodeComp(double val)
30848 @@ -1153,7 +1158,7 @@
30849 return mmuPtr->getGroups(meshDimRelToMax,grps,true);
30852 -MCAuto<MEDCoupling::MEDCouplingFieldDouble> MEDCoupling::ReadField(const std::string& fileName)
30853 +MCAuto<MEDCoupling::MEDCouplingField> MEDCoupling::ReadField(const std::string& fileName)
30855 std::vector<std::string> fieldNames(GetAllFieldNames(fileName));
30856 std::size_t sz(fieldNames.size());
30857 @@ -1176,7 +1181,7 @@
30858 return ReadField(fileName,fieldNames[0]);
30861 -MCAuto<MEDCoupling::MEDCouplingFieldDouble> MEDCoupling::ReadField(const std::string& fileName, const std::string& fieldName)
30862 +MCAuto<MEDCoupling::MEDCouplingField> MEDCoupling::ReadField(const std::string& fileName, const std::string& fieldName)
30864 std::vector< std::pair< std::pair<int,int>, double> > iterations(GetAllFieldIterations(fileName,fieldName));
30865 std::size_t sz(iterations.size());
30866 @@ -1199,12 +1204,38 @@
30867 return ReadField(fileName,fieldName,iterations[0].first.first,iterations[0].first.second);
30870 -MCAuto<MEDCoupling::MEDCouplingFieldDouble> MEDCoupling::ReadField(const std::string& fileName, const std::string& fieldName, int iteration, int order)
30871 +MCAuto<MEDCoupling::MEDCouplingField> MEDCoupling::ReadField(const std::string& fileName, const std::string& fieldName, int iteration, int order)
30873 - MCAuto<MEDFileField1TS> f(MEDFileField1TS::New(fileName,fieldName,iteration,order));
30874 + MCAuto<MEDFileAnyTypeField1TS> f(MEDFileAnyTypeField1TS::New(fileName,fieldName,iteration,order));
30875 MCAuto<MEDFileMesh> mesh(MEDFileMesh::New(fileName,f->getMeshName()));
30876 - MCAuto<MEDCoupling::MEDCouplingFieldDouble> ret(f->field(mesh));
30879 + MCAuto<MEDFileField1TS> f1(MEDCoupling::DynamicCast<MEDFileAnyTypeField1TS,MEDFileField1TS>(f));
30880 + if(f1.isNotNull())
30882 + MCAuto<MEDCoupling::MEDCouplingFieldDouble> ret(f1->field(mesh));
30883 + return MEDCoupling::DynamicCast<MEDCouplingFieldDouble,MEDCouplingField>(ret);
30887 + MCAuto<MEDFileIntField1TS> f1(MEDCoupling::DynamicCast<MEDFileAnyTypeField1TS,MEDFileIntField1TS>(f));
30888 + if(f1.isNotNull())
30890 + MCAuto<MEDCoupling::MEDCouplingFieldInt> ret(f1->field(mesh));
30891 + return MEDCoupling::DynamicCast<MEDCouplingFieldInt,MEDCouplingField>(ret);
30895 + MCAuto<MEDFileFloatField1TS> f1(MEDCoupling::DynamicCast<MEDFileAnyTypeField1TS,MEDFileFloatField1TS>(f));
30896 + if(f1.isNotNull())
30898 + MCAuto<MEDCoupling::MEDCouplingFieldFloat> ret(f1->field(mesh));
30899 + return MEDCoupling::DynamicCast<MEDCouplingFieldFloat,MEDCouplingField>(ret);
30902 + throw INTERP_KERNEL::Exception("MEDCoupling::ReadField : only FLOAT32, FLOAT64 and INT32 supported for the moment !");
30903 + //MCAuto<MEDFileMesh> mesh(MEDFileMesh::New(fileName,f->getMeshName()));
30904 + //MCAuto<MEDCoupling::MEDCouplingFieldDouble> ret(f->field(mesh));
30908 MCAuto<MEDCoupling::MEDCouplingFieldDouble> MEDCoupling::ReadField(MEDCoupling::TypeOfField type, const std::string& fileName, const std::string& meshName, int meshDimRelToMax, const std::string& fieldName, int iteration, int order)
30909 @@ -1463,25 +1494,26 @@
30911 void MEDCoupling::WriteUMeshes(const std::string& fileName, const std::vector<const MEDCoupling::MEDCouplingUMesh *>& meshes, bool writeFromScratch)
30913 - int mod=writeFromScratch?2:0;
30914 + int mod(writeFromScratch?2:0);
30915 MCAuto<MEDFileUMesh> m(MEDFileUMesh::New());
30916 AssignStaticWritePropertiesTo(*m);
30917 m->setMeshes(meshes,true);
30918 m->write(fileName,mod);
30921 -void MEDLoaderNS::writeFieldWithoutReadingAndMappingOfMeshInFile(const std::string& fileName, const MEDCoupling::MEDCouplingFieldDouble *f, bool writeFromScratch)
30923 +void MEDLoaderNS::writeFieldWithoutReadingAndMappingOfMeshInFile(const std::string& fileName, const typename MEDCoupling::Traits<T>::FieldType *f, bool writeFromScratch)
30925 - MCAuto<MEDFileField1TS> ff(MEDFileField1TS::New());
30926 + MCAuto< typename MLFieldTraits<T>::F1TSType > ff(MLFieldTraits<T>::F1TSType::New());
30927 AssignStaticWritePropertiesTo(*ff);
30928 - MCAuto<MEDCouplingFieldDouble> f2(f->deepCopy());
30929 + MCAuto<typename MEDCoupling::Traits<T>::FieldType> f2(f->deepCopy());
30930 const MEDCouplingMesh *m(f2->getMesh());
30931 const MEDCouplingUMesh *um(dynamic_cast<const MEDCouplingUMesh *>(m));
30932 const MEDCoupling1GTUMesh *um2(dynamic_cast<const MEDCoupling1GTUMesh *>(m));
30933 const MEDCouplingCMesh *um3(dynamic_cast<const MEDCouplingCMesh *>(m));
30934 const MEDCouplingCurveLinearMesh *um4(dynamic_cast<const MEDCouplingCurveLinearMesh *>(m));
30935 MCAuto<MEDFileMesh> mm;
30936 - int mod=writeFromScratch?2:0;
30937 + int mod(writeFromScratch?2:0);
30940 MCAuto<MEDFileUMesh> mmu(MEDFileUMesh::New());
30941 @@ -1523,12 +1555,13 @@
30942 ff->write(fileName,0);
30945 -void MEDCoupling::WriteField(const std::string& fileName, const MEDCoupling::MEDCouplingFieldDouble *f, bool writeFromScratch)
30947 +void WriteFieldT(const std::string& fileName, const typename MEDCoupling::Traits<T>::FieldType *f, bool writeFromScratch)
30950 throw INTERP_KERNEL::Exception("WriteField : input field is NULL !");
30951 f->checkConsistencyLight();
30952 - int status=MEDLoaderBase::getStatusOfFile(fileName);
30953 + int status(MEDLoaderBase::getStatusOfFile(fileName));
30954 if(status!=MEDLoaderBase::EXIST_RW && status!=MEDLoaderBase::NOT_EXIST)
30956 std::ostringstream oss; oss << "File with name \'" << fileName << "\' has not valid permissions !";
30957 @@ -1536,44 +1569,44 @@
30959 if(writeFromScratch || (!writeFromScratch && status==MEDLoaderBase::NOT_EXIST))
30961 - MEDLoaderNS::writeFieldWithoutReadingAndMappingOfMeshInFile(fileName,f,true);
30962 + MEDLoaderNS::writeFieldWithoutReadingAndMappingOfMeshInFile<T>(fileName,f,true);
30966 - std::vector<std::string> meshNames=GetMeshNames(fileName);
30967 + std::vector<std::string> meshNames(GetMeshNames(fileName));
30969 throw INTERP_KERNEL::Exception("WriteField : trying to write a field with no mesh !");
30970 std::string fileNameCpp(f->getMesh()->getName());
30971 if(std::find(meshNames.begin(),meshNames.end(),fileNameCpp)==meshNames.end())
30972 - MEDLoaderNS::writeFieldWithoutReadingAndMappingOfMeshInFile(fileName,f,false);
30973 + MEDLoaderNS::writeFieldWithoutReadingAndMappingOfMeshInFile<T>(fileName,f,false);
30976 MCAuto<MEDFileMesh> mm(MEDFileMesh::New(fileName,f->getMesh()->getName().c_str()));
30977 AssignStaticWritePropertiesTo(*mm);
30978 const MEDFileMesh *mmPtr(mm);
30979 - const MEDFileUMesh *mmuPtr=dynamic_cast<const MEDFileUMesh *>(mmPtr);
30980 + const MEDFileUMesh *mmuPtr(dynamic_cast<const MEDFileUMesh *>(mmPtr));
30982 throw INTERP_KERNEL::Exception("WriteField : only umeshes are supported now !");
30983 - MCAuto<MEDCouplingFieldDouble> f2(f->deepCopy());
30984 - MEDCouplingUMesh *m=dynamic_cast<MEDCouplingUMesh *>(const_cast<MEDCouplingMesh *>(f2->getMesh()));
30985 + MCAuto< typename MEDCoupling::Traits<T>::FieldType > f2(f->deepCopy());
30986 + MEDCouplingUMesh *m(dynamic_cast<MEDCouplingUMesh *>(const_cast<MEDCouplingMesh *>(f2->getMesh())));
30988 throw INTERP_KERNEL::Exception("WriteField : only umesh in input field supported !");
30989 - MCAuto<DataArrayInt> o2n=m->getRenumArrForMEDFileFrmt();
30990 + MCAuto<DataArrayInt> o2n(m->getRenumArrForMEDFileFrmt());
30991 f2->renumberCells(o2n->begin(),false);
30992 m=static_cast<MEDCouplingUMesh *>(const_cast<MEDCouplingMesh *>(f2->getMesh()));
30993 - MCAuto<MEDCouplingUMesh> mread=mmuPtr->getMeshAtLevel(m->getMeshDimension()-mm->getMeshDimension());
30994 + MCAuto<MEDCouplingUMesh> mread(mmuPtr->getMeshAtLevel(m->getMeshDimension()-mm->getMeshDimension()));
30995 if(f2->getTypeOfField()!=ON_NODES)
30997 m->tryToShareSameCoordsPermute(*mread,_EPS_FOR_NODE_COMP);
30998 - DataArrayInt *part=0;
30999 - bool b=mread->areCellsIncludedIn(m,_COMP_FOR_CELL,part);
31000 + DataArrayInt *part(NULL);
31001 + bool b(mread->areCellsIncludedIn(m,_COMP_FOR_CELL,part));
31002 MCAuto<DataArrayInt> partSafe(part);
31005 std::ostringstream oss; oss << "WriteField : The file \""<< fileName << "\" already contains a mesh named \""<< f->getMesh()->getName() << "\" and this mesh in the file is not compatible (a subpart) with the mesh you intend to write ! This is maybe due to a too strict policy ! Try with to lease it by calling SetCompPolicyForCell !";
31006 throw INTERP_KERNEL::Exception(oss.str().c_str());
31008 - MCAuto<MEDFileField1TS> f1ts(MEDFileField1TS::New());
31009 + MCAuto< typename MLFieldTraits<T>::F1TSType > f1ts(MLFieldTraits<T>::F1TSType::New());
31010 AssignStaticWritePropertiesTo(*f1ts);
31011 if(part->isIota(mread->getNumberOfCells()))
31012 f1ts->setFieldNoProfileSBT(f2);
31013 @@ -1587,15 +1620,15 @@
31017 - DataArrayInt *part=0;
31018 - bool b=mread->getCoords()->areIncludedInMe(m->getCoords(),_EPS_FOR_NODE_COMP,part);
31019 + DataArrayInt *part(NULL);
31020 + bool b(mread->getCoords()->areIncludedInMe(m->getCoords(),_EPS_FOR_NODE_COMP,part));
31021 MCAuto<DataArrayInt> partSafe(part);
31024 std::ostringstream oss; oss << "WriteField : The file \""<< fileName << "\" already contains a mesh named \""<< f->getMesh()->getName() << "\" and this mesh in the file is not compatible (a subpart regarding nodes) with the mesh you intend to write ! This is maybe due to a too strict epsilon ! Try with to lease it by calling SetEpsilonForNodeComp !";
31025 throw INTERP_KERNEL::Exception(oss.str().c_str());
31027 - MCAuto<MEDFileField1TS> f1ts(MEDFileField1TS::New());
31028 + MCAuto< typename MLFieldTraits<T>::F1TSType > f1ts(MLFieldTraits<T>::F1TSType::New());
31029 AssignStaticWritePropertiesTo(*f1ts);
31030 if(part->isIota(mread->getNumberOfNodes()))
31031 f1ts->setFieldNoProfileSBT(f2);
31032 @@ -1610,29 +1643,61 @@
31036 -void MEDCoupling::WriteFieldDep(const std::string& fileName, const MEDCoupling::MEDCouplingFieldDouble *f, bool writeFromScratch)
31037 +void MEDCoupling::WriteField(const std::string& fileName, const MEDCoupling::MEDCouplingField *f, bool writeFromScratch)
31040 + throw INTERP_KERNEL::Exception("WriteField : input field is null !");
31042 + const MEDCoupling::MEDCouplingFieldDouble *f1(dynamic_cast<const MEDCoupling::MEDCouplingFieldDouble *>(f));
31045 + WriteFieldT<double>(fileName,f1,writeFromScratch);
31050 + const MEDCoupling::MEDCouplingFieldInt *f1(dynamic_cast<const MEDCoupling::MEDCouplingFieldInt *>(f));
31053 + WriteFieldT<int>(fileName,f1,writeFromScratch);
31058 + const MEDCoupling::MEDCouplingFieldFloat *f1(dynamic_cast<const MEDCoupling::MEDCouplingFieldFloat *>(f));
31061 + WriteFieldT<float>(fileName,f1,writeFromScratch);
31065 + throw INTERP_KERNEL::Exception("WriteField : input field is not in FLOAT32, FLOAT64, INT32 !");
31068 +void MEDCoupling::WriteFieldDep(const std::string& fileName, const MEDCoupling::MEDCouplingField *f, bool writeFromScratch)
31070 WriteField(fileName,f,writeFromScratch);
31073 -void MEDCoupling::WriteFieldUsingAlreadyWrittenMesh(const std::string& fileName, const MEDCoupling::MEDCouplingFieldDouble *f)
31075 +void WriteFieldUsingAlreadyWrittenMeshT(const std::string& fileName, const typename MEDCoupling::Traits<T>::FieldType *f)
31078 - throw INTERP_KERNEL::Exception("WriteFieldUsingAlreadyWrittenMesh : input field is null !");
31079 + throw INTERP_KERNEL::Exception("WriteFieldUsingAlreadyWrittenMeshT : input field is null !");
31080 f->checkConsistencyLight();
31081 - int status=MEDLoaderBase::getStatusOfFile(fileName);
31082 + int status(MEDLoaderBase::getStatusOfFile(fileName));
31083 if(status!=MEDLoaderBase::EXIST_RW)
31085 std::ostringstream oss; oss << "File with name \'" << fileName << "\' has not valid permissions or not exists !";
31086 throw INTERP_KERNEL::Exception(oss.str().c_str());
31088 - MCAuto<MEDFileField1TS> f1ts(MEDFileField1TS::New());
31089 + MCAuto< typename MLFieldTraits<T>::F1TSType > f1ts(MLFieldTraits<T>::F1TSType::New());
31090 AssignStaticWritePropertiesTo(*f1ts);
31091 MEDCouplingUMesh *m(dynamic_cast<MEDCouplingUMesh *>(const_cast<MEDCouplingMesh *>(f->getMesh())));
31094 MCAuto<DataArrayInt> o2n(m->getRenumArrForMEDFileFrmt());
31095 - MCAuto<MEDCouplingFieldDouble> f2(f->deepCopy());
31096 + MCAuto< typename MEDCoupling::Traits<T>::FieldType > f2(f->deepCopy());
31097 f2->renumberCells(o2n->begin(),false);
31098 f1ts->setFieldNoProfileSBT(f2);
31100 @@ -1640,3 +1705,28 @@
31101 f1ts->setFieldNoProfileSBT(f);
31102 f1ts->write(fileName,0);
31105 +void MEDCoupling::WriteFieldUsingAlreadyWrittenMesh(const std::string& fileName, const MEDCoupling::MEDCouplingField *f)
31108 + throw INTERP_KERNEL::Exception("WriteFieldUsingAlreadyWrittenMesh : input field is null !");
31110 + const MEDCoupling::MEDCouplingFieldDouble *f1(dynamic_cast<const MEDCoupling::MEDCouplingFieldDouble *>(f));
31112 + WriteFieldUsingAlreadyWrittenMeshT<double>(fileName,f1);
31116 + const MEDCoupling::MEDCouplingFieldInt *f1(dynamic_cast<const MEDCoupling::MEDCouplingFieldInt *>(f));
31118 + WriteFieldUsingAlreadyWrittenMeshT<int>(fileName,f1);
31122 + const MEDCoupling::MEDCouplingFieldFloat *f1(dynamic_cast<const MEDCoupling::MEDCouplingFieldFloat *>(f));
31124 + WriteFieldUsingAlreadyWrittenMeshT<float>(fileName,f1);
31127 + throw INTERP_KERNEL::Exception("WriteFieldUsingAlreadyWrittenMesh : input field is not in FLOAT32, FLOAT64, INT32 !");
31129 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDLoader.hxx MEDCOUPLING_new/src/MEDLoader/MEDLoader.hxx
31130 --- MEDCOUPLING_old/src/MEDLoader/MEDLoader.hxx 2018-04-19 17:04:36.762223221 +0200
31131 +++ MEDCOUPLING_new/src/MEDLoader/MEDLoader.hxx 2018-04-19 17:25:17.802798642 +0200
31133 class DataArrayInt;
31134 class MEDCouplingMesh;
31135 class MEDCouplingUMesh;
31136 + class MEDCouplingField;
31137 class MEDCouplingFieldDouble;
31138 class MEDFileWritable;
31141 MEDLOADER_EXPORT MEDCoupling::MEDCouplingUMesh *ReadUMeshFromFile(const std::string& fileName, const std::string& meshName, int meshDimRelToMax=0);
31142 MEDLOADER_EXPORT MEDCoupling::MEDCouplingUMesh *ReadUMeshFromFile(const std::string& fileName, int meshDimRelToMax=0);
31143 MEDLOADER_EXPORT int ReadUMeshDimFromFile(const std::string& fileName, const std::string& meshName);
31144 - MEDLOADER_EXPORT MCAuto<MEDCoupling::MEDCouplingFieldDouble> ReadField(const std::string& fileName);
31145 - MEDLOADER_EXPORT MCAuto<MEDCoupling::MEDCouplingFieldDouble> ReadField(const std::string& fileName, const std::string& fieldName);
31146 - MEDLOADER_EXPORT MCAuto<MEDCoupling::MEDCouplingFieldDouble> ReadField(const std::string& fileName, const std::string& fieldName, int iteration, int order);
31147 + MEDLOADER_EXPORT MCAuto<MEDCoupling::MEDCouplingField> ReadField(const std::string& fileName);
31148 + MEDLOADER_EXPORT MCAuto<MEDCoupling::MEDCouplingField> ReadField(const std::string& fileName, const std::string& fieldName);
31149 + MEDLOADER_EXPORT MCAuto<MEDCoupling::MEDCouplingField> ReadField(const std::string& fileName, const std::string& fieldName, int iteration, int order);
31150 MEDLOADER_EXPORT MCAuto<MEDCoupling::MEDCouplingFieldDouble> ReadField(MEDCoupling::TypeOfField type, const std::string& fileName, const std::string& meshName, int meshDimRelToMax, const std::string& fieldName, int iteration, int order);
31151 MEDLOADER_EXPORT std::vector<MEDCoupling::MEDCouplingFieldDouble *> ReadFieldsOnSameMesh(MEDCoupling::TypeOfField type, const std::string& fileName, const std::string& meshName, int meshDimRelToMax, const std::string& fieldName,
31152 const std::vector<std::pair<int,int> >& its);
31154 MEDLOADER_EXPORT void WriteUMeshesPartition(const std::string& fileName, const std::string& meshName, const std::vector<const MEDCoupling::MEDCouplingUMesh *>& meshes, bool writeFromScratch);
31155 MEDLOADER_EXPORT void WriteUMeshesPartitionDep(const std::string& fileName, const std::string& meshName, const std::vector<const MEDCoupling::MEDCouplingUMesh *>& meshes, bool writeFromScratch);
31156 MEDLOADER_EXPORT void WriteUMeshes(const std::string& fileName, const std::vector<const MEDCoupling::MEDCouplingUMesh *>& meshes, bool writeFromScratch);
31157 - MEDLOADER_EXPORT void WriteField(const std::string& fileName, const MEDCoupling::MEDCouplingFieldDouble *f, bool writeFromScratch);
31158 - MEDLOADER_EXPORT void WriteFieldDep(const std::string& fileName, const MEDCoupling::MEDCouplingFieldDouble *f, bool writeFromScratch);
31159 - MEDLOADER_EXPORT void WriteFieldUsingAlreadyWrittenMesh(const std::string& fileName, const MEDCoupling::MEDCouplingFieldDouble *f);
31160 + MEDLOADER_EXPORT void WriteField(const std::string& fileName, const MEDCoupling::MEDCouplingField *f, bool writeFromScratch);
31161 + MEDLOADER_EXPORT void WriteFieldDep(const std::string& fileName, const MEDCoupling::MEDCouplingField *f, bool writeFromScratch);
31162 + MEDLOADER_EXPORT void WriteFieldUsingAlreadyWrittenMesh(const std::string& fileName, const MEDCoupling::MEDCouplingField *f);
31164 MEDLOADER_EXPORT void AssignStaticWritePropertiesTo(MEDCoupling::MEDFileWritable& obj);
31166 diff -Naur MEDCOUPLING_old/src/MEDLoader/MEDLoaderNS.hxx MEDCOUPLING_new/src/MEDLoader/MEDLoaderNS.hxx
31167 --- MEDCOUPLING_old/src/MEDLoader/MEDLoaderNS.hxx 2018-04-19 17:04:36.763223241 +0200
31168 +++ MEDCOUPLING_new/src/MEDLoader/MEDLoaderNS.hxx 2018-04-19 17:25:17.736797337 +0200
31171 int readUMeshDimFromFile(const std::string& fileName, const std::string& meshName, std::vector<int>& possibilities);
31172 void dispatchElems(int nbOfElemCell, int nbOfElemFace, int& nbOfElem, med_entity_type& whichEntity);
31173 - void writeFieldWithoutReadingAndMappingOfMeshInFile(const std::string& fileName, const MEDCoupling::MEDCouplingFieldDouble *f, bool writeFromScratch);
31174 + template<class T>
31175 + void writeFieldWithoutReadingAndMappingOfMeshInFile(const std::string& fileName, const typename MEDCoupling::Traits<T>::FieldType *f, bool writeFromScratch);
31176 med_int getIdFromMeshName(med_idt fid, const std::string& meshName, std::string& trueMeshName);
31177 std::vector<std::string> getMeshNamesFid(med_idt fid);
31179 diff -Naur MEDCOUPLING_old/src/MEDLoader/SauvMedConvertor.cxx MEDCOUPLING_new/src/MEDLoader/SauvMedConvertor.cxx
31180 --- MEDCOUPLING_old/src/MEDLoader/SauvMedConvertor.cxx 2018-04-19 17:04:36.764223261 +0200
31181 +++ MEDCOUPLING_new/src/MEDLoader/SauvMedConvertor.cxx 2018-04-19 17:25:17.733797278 +0200
31182 @@ -1925,7 +1925,7 @@
31183 // 53619905 | 1 2 6 8
31184 // 53619906 | SCALAIRE
31185 // 53619907 | -63312600499 1 0 0 0 -2 0 2
31186 - // where -63312600499 is actualy -633 and 12600499
31187 + // where -63312600499 is actually -633 and 12600499
31188 char hold=_curPos[_width];
31189 _curPos[_width] = '\0';
31190 int result = atoi( _curPos );
31191 @@ -2311,7 +2311,7 @@
31193 Group* IntermediateMED::addNewGroup(std::vector<SauvUtilities::Group*>* groupsToFix)
31195 - if ( _groups.size() == _groups.capacity() ) // re-allocation would occure
31196 + if ( _groups.size() == _groups.capacity() ) // re-allocation would occur
31198 std::vector<Group> newGroups( _groups.size() );
31199 newGroups.push_back( Group() );
31200 @@ -2741,7 +2741,7 @@
31201 // if (( x = nodeCoords( elemIt->_nodes[ iNode ])[ 0 ]) < minX )
31202 // minX = x, iLeft = iNode;
31204 - // // indeces of the nodes neighboring the most left one
31205 + // // indices of the nodes neighboring the most left one
31206 // int iPrev = ( iLeft - 1 < 0 ) ? nbNodes - 1 : iLeft - 1;
31207 // int iNext = ( iLeft + 1 == nbNodes ) ? 0 : iLeft + 1;
31208 // // find components of prev-left and left-next vectors
31209 @@ -3843,7 +3843,7 @@
31213 - * \brief Initialize iteration on cells of given dimention
31214 + * \brief Initialize iteration on cells of given dimension
31216 void CellsByDimIterator::init(const int dimm)
31218 diff -Naur MEDCOUPLING_old/src/MEDLoader/SauvMedConvertor.hxx MEDCOUPLING_new/src/MEDLoader/SauvMedConvertor.hxx
31219 --- MEDCOUPLING_old/src/MEDLoader/SauvMedConvertor.hxx 2018-04-19 17:04:36.764223261 +0200
31220 +++ MEDCOUPLING_new/src/MEDLoader/SauvMedConvertor.hxx 2018-04-19 17:25:17.741797436 +0200
31221 @@ -170,7 +170,7 @@
31223 // ==============================================================================
31227 * Iterator on set of Cell's of given dimension
31230 @@ -195,7 +195,7 @@
31232 // ==============================================================================
31236 * Container of Node's. Prevents re-allocation at addition of Node's
31239 @@ -226,7 +226,7 @@
31241 // ==============================================================================
31245 * Intermediate structure used to store data read from the Sauve format file.
31246 * The structure provides functions that transform the stored data to the MED format
31248 diff -Naur MEDCOUPLING_old/src/MEDLoader/SauvReader.cxx MEDCOUPLING_new/src/MEDLoader/SauvReader.cxx
31249 --- MEDCOUPLING_old/src/MEDLoader/SauvReader.cxx 2018-04-19 17:04:36.764223261 +0200
31250 +++ MEDCOUPLING_new/src/MEDLoader/SauvReader.cxx 2018-04-19 17:25:17.801798622 +0200
31251 @@ -220,7 +220,7 @@
31253 int SauvReader::readPileNumber(int& nbNamedObjects, int& nbObjects)
31255 - // FORMAT(' PILE NUMERO',I4,'NBRE ObjectS NOMMES',I8,'NBRE ObjectS',I8)
31256 + // FORMAT(' PILE NUMERO',I4,'NBRE OBJETS NOMMES',I8,'NBRE OBJETS',I8)
31260 @@ -233,7 +233,7 @@
31264 - const char *s1 = " PILE NUMERO", *s2 = "NBRE ObjectS NOMMES", *s3 = "NBRE ObjectS";
31265 + const char *s1 = " PILE NUMERO", *s2 = "NBRE OBJETS NOMMES", *s3 = "NBRE OBJETS";
31266 if ( ! GIBI_EQUAL( line, s1 ) )
31267 THROW_IK_EXCEPTION("Could not read the pile number " << lineNb() );
31268 line = line + strlen(s1);
31269 diff -Naur MEDCOUPLING_old/src/MEDLoader/SauvWriter.cxx MEDCOUPLING_new/src/MEDLoader/SauvWriter.cxx
31270 --- MEDCOUPLING_old/src/MEDLoader/SauvWriter.cxx 2018-04-19 17:04:36.764223261 +0200
31271 +++ MEDCOUPLING_new/src/MEDLoader/SauvWriter.cxx 2018-04-19 17:25:17.853799650 +0200
31272 @@ -106,7 +106,7 @@
31274 //================================================================================
31276 - * \brief Converts MED long names into SAUVE short ones, returnes a healed long name
31277 + * \brief Converts MED long names into SAUVE short ones, returns a healed long name
31279 //================================================================================
31281 @@ -559,7 +559,7 @@
31283 //================================================================================
31285 - * \brief Transorm a profile into ids of mesh elements
31286 + * \brief Transform a profile into ids of mesh elements
31288 //================================================================================
31290 @@ -725,7 +725,7 @@
31292 writeNames( nameNbMap );
31294 - TFieldCounter fcount( *_sauvFile, 10 ); // 10 intergers per line
31295 + TFieldCounter fcount( *_sauvFile, 10 ); // 10 integers per line
31297 for ( size_t iSub = 0; iSub < _subs.size(); ++iSub )
31299 @@ -832,7 +832,7 @@
31303 - TFieldCounter fcount( *_sauvFile, 10 ); // 10 intergers per line
31304 + TFieldCounter fcount( *_sauvFile, 10 ); // 10 integers per line
31305 for ( size_t i = 0; i < subIDs.size(); ++i, fcount++ )
31306 *_sauvFile << setw(8) << subIDs[i];
31308 @@ -1170,7 +1170,7 @@
31312 - } // loop on fiels
31313 + } // loop on files
31316 //================================================================================
31317 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/case2med MEDCOUPLING_new/src/MEDLoader/Swig/case2med
31318 --- MEDCOUPLING_old/src/MEDLoader/Swig/case2med 2018-04-19 17:04:36.768223341 +0200
31319 +++ MEDCOUPLING_new/src/MEDLoader/Swig/case2med 2018-04-19 17:25:17.796798523 +0200
31322 medfd=cr.loadInMEDFileDS()
31324 - print "An error occured during the conversion!"
31325 + print "An error occurred during the conversion!"
31326 print "#######################################"
31328 medfd.write(fOut,2)
31329 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/CaseReader.py MEDCOUPLING_new/src/MEDLoader/Swig/CaseReader.py
31330 --- MEDCOUPLING_old/src/MEDLoader/Swig/CaseReader.py 2018-04-19 17:04:36.765223281 +0200
31331 +++ MEDCOUPLING_new/src/MEDLoader/Swig/CaseReader.py 2018-04-19 17:25:17.749797594 +0200
31334 from MEDLoader import *
31335 from CaseIO import CaseIO
31339 class CaseReader(CaseIO):
31340 """ Converting a file in the Case format (Ensight) to the MED format.
31342 arr0mc2=DataArrayInt(len(arr0),2) ; arr0mc2[:,0]=DataArrayInt(arr0)-1 ; arr0mc2[:,1]=1 ; arr0mc2.rearrange(1) ; arr0mc2.computeOffsetsFull()
31343 arr0mc3=DataArrayInt.Range(0,2*len(arr0),2).buildExplicitArrByRanges(arr0mc2)
31344 arr1mc0=DataArrayInt(arr1) ; arr1mc0.computeOffsetsFull()
31345 - arr1mc1=arr1mc0[arr0mc0] ; arr1mc1[1:]+=arr0mc0[1:]
31346 + arr1mc1=arr1mc0[arr0mc0] ; arr1mc1[1:]+=arr0mc0[1:]
31347 arr1mc2=DataArrayInt(arr1).deepCopy() ; arr1mc2+=1 ; arr1mc2.computeOffsetsFull()
31348 arr2mc0=(arr1mc2[1:])[arr0mc3]
31350 @@ -109,7 +109,7 @@
31353 def __convertGeo2MED(self,geoFileName):
31354 - """ Convert all the geometry (all the meshes) contained in teh CASE file into MEDCouplingUMesh'es. """
31355 + """ Convert all the geometry (all the meshes) contained in the CASE file into MEDCouplingUMesh'es. """
31356 fd=open(os.path.join(self._dirName,geoFileName),"r+b") ; fd.seek(0,2) ; end=fd.tell() ; fd.seek(0) ; title=fd.read(80)
31357 title=title.strip().lower()
31358 if "binary" not in title:
31359 @@ -182,7 +182,7 @@
31360 mcmeshes2.append(self.__traduceMesh(meshName,zeK,coo,nodalConn))
31361 pos+=nbNodesPerCell*nbCellsOfType*4
31363 - fd.seek(pos) ;elt=fd.read(80) ; typ=elt[:] ; pos+=80
31364 + fd.seek(pos) ;elt=fd.read(80) ; typ=elt[:] ; pos+=80
31368 @@ -193,8 +193,10 @@
31371 def __convertGeo2MEDC(self,fd,end):
31373 - name=fd.readline().strip() ; fd.readline() ; fd.readline()
31375 + #name=fd.readline().strip() ; fd.readline() ; fd.readline()
31377 + descrip=fd.read(80).strip() ; fd.read(80) ; fd.read(80)
31380 elt=fd.read(80) ; elt=elt.strip() ; pos+=80
31381 @@ -254,15 +256,15 @@
31389 def __convertField(self,mlfields, mcmeshes, fileName, fieldName, discr, nbCompo, locId, it):
31390 """ Convert the fields. """
31391 stars=re.search("[\*]+",fileName).group()
31392 st="%0"+str(len(stars))+"i"
31393 trueFileName=fileName.replace(stars,st%(it))
31394 fd=open(os.path.join(self._dirName,trueFileName),"r+b") ; fd.seek(0,2) ; end=fd.tell() ; fd.seek(0)
31395 - name=fd.readline().strip().split(" ")[0]
31396 + name=fd.read(80).strip().split(" ")[0]
31397 if name!=fieldName:
31398 raise Exception("ConvertField : mismatch")
31400 @@ -351,7 +353,7 @@
31406 def loadInMEDFileDS(self):
31407 """ Load a CASE file into a MEDFileData object. """
31408 f=file(self._fileName)
31409 @@ -368,16 +370,17 @@
31410 if "TIME\n" in lines:
31411 end=lines.index("TIME\n")
31413 - for i in range(ind + 1, end):
31414 - m=re.match("^([\w]+)[\s]+\per[\s]+([\w]+)[\s]*\:[\s]*([\w]+)[\s]+([\S]+)$",lines[i])
31415 + for i in range(ind + 1,end):
31416 + m=re.match("^([\w]+)[\s]+\per[\s]+([\w]+)[\s]*\:[\s]*[0-9]*[\s]*([\w]+)[\s]+([\S]+)$",lines[i])
31418 if m.groups()[0]=="constant":
31420 spatialDisc=m.groups()[1] ; fieldName=m.groups()[2] ; nbOfCompo=self.dictCompo2[m.groups()[0]] ; fieldFileName=m.groups()[3]
31421 - fieldsInfo.append((fieldName,spatialDisc,nbOfCompo,fieldFileName))
31422 + if fieldFileName.endswith("*"):
31423 + fieldsInfo.append((fieldName,spatialDisc,nbOfCompo,fieldFileName))
31428 expr=re.compile("number[\s]+of[\s]+steps[\s]*\:[\s]*([\d]+)")
31429 tmp = [line for line in lines if expr.search(line)]
31431 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/CaseWriter.py MEDCOUPLING_new/src/MEDLoader/Swig/CaseWriter.py
31432 --- MEDCOUPLING_old/src/MEDLoader/Swig/CaseWriter.py 2018-04-19 17:04:36.765223281 +0200
31433 +++ MEDCOUPLING_new/src/MEDLoader/Swig/CaseWriter.py 2018-04-19 17:25:17.751797633 +0200
31436 class CaseWriter(CaseIO):
31437 """ Converting MED file format in memory to a the Case file format (Ensight).
31438 - A new file with the same base name and the .case extension is created with its depencies (.geo ...).
31439 + A new file with the same base name and the .case extension is created with its dependencies (.geo ...).
31443 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/CMakeLists.txt MEDCOUPLING_new/src/MEDLoader/Swig/CMakeLists.txt
31444 --- MEDCOUPLING_old/src/MEDLoader/Swig/CMakeLists.txt 2018-04-19 17:04:36.764223261 +0200
31445 +++ MEDCOUPLING_new/src/MEDLoader/Swig/CMakeLists.txt 2018-04-19 17:25:17.760797811 +0200
31446 @@ -69,21 +69,22 @@
31449 SWIG_ADD_MODULE(MEDLoader python MEDLoader.i)
31450 -SWIG_LINK_LIBRARIES(MEDLoader ${PYTHON_LIBRARIES} ${PLATFORM_LIBS} medloader medcoupling)
31451 +SWIG_LINK_LIBRARIES(MEDLoader ${PYTHON_LIBRARIES} ${PLATFORM_LIBS} medloader medcouplingcpp )
31452 SWIG_CHECK_GENERATION(MEDLoader)
31454 SET_TARGET_PROPERTIES(_MEDLoader PROPERTIES DEBUG_OUTPUT_NAME _MEDLoader_d)
31457 INSTALL(TARGETS _MEDLoader DESTINATION ${MEDCOUPLING_INSTALL_PYTHON})
31458 -INSTALL(FILES MEDLoader.i MEDLoaderTypemaps.i MEDLoaderCommon.i DESTINATION ${MEDCOUPLING_INSTALL_HEADERS})
31459 +INSTALL(FILES MEDLoader.i MEDLoaderTypemaps.i MEDLoaderCommon.i MEDLoaderFinalize.i DESTINATION ${MEDCOUPLING_INSTALL_HEADERS})
31461 SALOME_INSTALL_SCRIPTS(${CMAKE_CURRENT_BINARY_DIR}/MEDLoader.py ${MEDCOUPLING_INSTALL_PYTHON})
31463 INSTALL(FILES MEDLoaderSplitter.py DESTINATION ${MEDCOUPLING_INSTALL_PYTHON})
31466 -INSTALL(FILES ${ALL_TESTS} MEDLoaderDataForTest.py MEDLoaderTest1.py MEDLoaderTest2.py MEDLoaderTest3.py CaseIO.py CaseReader.py CaseWriter.py VTKReader.py medutilities.py DESTINATION ${MEDCOUPLING_INSTALL_SCRIPT_SCRIPTS})
31467 +INSTALL(FILES ${ALL_TESTS} MEDLoaderDataForTest.py MEDLoaderTest1.py MEDLoaderTest2.py MEDLoaderTest3.py CaseIO.py CaseReader.py CaseWriter.py VTKReader.py DESTINATION ${MEDCOUPLING_INSTALL_SCRIPT_SCRIPTS})
31468 +INSTALL(FILES medutilities.py DESTINATION ${MEDCOUPLING_INSTALL_PYTHON})
31470 INSTALL(FILES med2sauv PERMISSIONS OWNER_EXECUTE OWNER_WRITE OWNER_READ GROUP_EXECUTE GROUP_READ WORLD_EXECUTE WORLD_READ DESTINATION ${MEDCOUPLING_INSTALL_BINS} )
31471 INSTALL(FILES sauv2med PERMISSIONS OWNER_EXECUTE OWNER_WRITE OWNER_READ GROUP_EXECUTE GROUP_READ WORLD_EXECUTE WORLD_READ DESTINATION ${MEDCOUPLING_INSTALL_BINS} )
31472 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/ConvertMEDFileTo30.py MEDCOUPLING_new/src/MEDLoader/Swig/ConvertMEDFileTo30.py
31473 --- MEDCOUPLING_old/src/MEDLoader/Swig/ConvertMEDFileTo30.py 2018-04-19 17:04:36.765223281 +0200
31474 +++ MEDCOUPLING_new/src/MEDLoader/Swig/ConvertMEDFileTo30.py 2018-04-19 17:25:17.780798207 +0200
31477 finalVersion=ml.MEDFileVersionOfFileStr(realFnOut)
31479 - print(("File \"%s\" has been converted to 3.0 successfuly ( %s -> %s ) !\nOutput file is here : \"%s\" !"%(fn,initalVersion,finalVersion,realFnOut)))
31480 + print(("File \"%s\" has been converted to 3.0 successfully ( %s -> %s ) !\nOutput file is here : \"%s\" !"%(fn,initalVersion,finalVersion,realFnOut)))
31483 if __name__=="__main__":
31484 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderCommon.i MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderCommon.i
31485 --- MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderCommon.i 2018-04-19 17:04:36.765223281 +0200
31486 +++ MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderCommon.i 2018-04-19 17:25:17.755797713 +0200
31488 -// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
31489 +// Copyright (C) 2017 CEA/DEN, EDF R&D
31491 // This library is free software; you can redistribute it and/or
31492 // modify it under the terms of the GNU Lesser General Public
31495 // Author : Anthony Geay (EDF R&D)
31499 #define MEDCOUPLING_EXPORT
31500 #define MEDLOADER_EXPORT
31502 @@ -162,6 +160,7 @@
31503 %newobject MEDCoupling::MEDFileFields::partOfThisOnStructureElements;
31504 %newobject MEDCoupling::MEDFileFields::__iter__;
31505 %newobject MEDCoupling::MEDFileFields::extractPart;
31506 +%newobject MEDCoupling::MEDFileFields::linearToQuadratic;
31508 %newobject MEDCoupling::MEDFileWritableStandAlone::serialize;
31509 %newobject MEDCoupling::MEDFileAnyTypeFieldMultiTS::New;
31510 @@ -372,9 +371,9 @@
31511 void WriteMesh(const std::string& fileName, const MEDCoupling::MEDCouplingMesh *mesh, bool writeFromScratch) throw(INTERP_KERNEL::Exception);
31512 void WriteUMesh(const std::string& fileName, const MEDCoupling::MEDCouplingUMesh *mesh, bool writeFromScratch) throw(INTERP_KERNEL::Exception);
31513 void WriteUMeshDep(const std::string& fileName, const MEDCoupling::MEDCouplingUMesh *mesh, bool writeFromScratch) throw(INTERP_KERNEL::Exception);
31514 - void WriteField(const std::string& fileName, const MEDCoupling::MEDCouplingFieldDouble *f, bool writeFromScratch) throw(INTERP_KERNEL::Exception);
31515 - void WriteFieldDep(const std::string& fileName, const MEDCoupling::MEDCouplingFieldDouble *f, bool writeFromScratch) throw(INTERP_KERNEL::Exception);
31516 - void WriteFieldUsingAlreadyWrittenMesh(const std::string& fileName, const MEDCoupling::MEDCouplingFieldDouble *f) throw(INTERP_KERNEL::Exception);
31517 + void WriteField(const std::string& fileName, const MEDCoupling::MEDCouplingField *f, bool writeFromScratch) throw(INTERP_KERNEL::Exception);
31518 + void WriteFieldDep(const std::string& fileName, const MEDCoupling::MEDCouplingField *f, bool writeFromScratch) throw(INTERP_KERNEL::Exception);
31519 + void WriteFieldUsingAlreadyWrittenMesh(const std::string& fileName, const MEDCoupling::MEDCouplingField *f) throw(INTERP_KERNEL::Exception);
31522 %rename (MEDFileVersion) MEDFileVersionSwig;
31523 @@ -406,21 +405,21 @@
31527 - MEDCoupling::MEDCouplingFieldDouble *ReadFieldSwig(const std::string& fileName) throw(INTERP_KERNEL::Exception)
31528 + MEDCoupling::MEDCouplingField *ReadFieldSwig(const std::string& fileName) throw(INTERP_KERNEL::Exception)
31530 - MCAuto<MEDCoupling::MEDCouplingFieldDouble> ret(MEDCoupling::ReadField(fileName));
31531 + MCAuto<MEDCoupling::MEDCouplingField> ret(MEDCoupling::ReadField(fileName));
31535 - MEDCoupling::MEDCouplingFieldDouble *ReadFieldSwig(const std::string& fileName, const std::string& fieldName) throw(INTERP_KERNEL::Exception)
31536 + MEDCoupling::MEDCouplingField *ReadFieldSwig(const std::string& fileName, const std::string& fieldName) throw(INTERP_KERNEL::Exception)
31538 - MCAuto<MEDCoupling::MEDCouplingFieldDouble> ret(MEDCoupling::ReadField(fileName,fieldName));
31539 + MCAuto<MEDCoupling::MEDCouplingField> ret(MEDCoupling::ReadField(fileName,fieldName));
31543 - MEDCoupling::MEDCouplingFieldDouble *ReadFieldSwig(const std::string& fileName, const std::string& fieldName, int iteration, int order) throw(INTERP_KERNEL::Exception)
31544 + MEDCoupling::MEDCouplingField *ReadFieldSwig(const std::string& fileName, const std::string& fieldName, int iteration, int order) throw(INTERP_KERNEL::Exception)
31546 - MCAuto<MEDCoupling::MEDCouplingFieldDouble> ret(MEDCoupling::ReadField(fileName,fieldName,iteration,order));
31547 + MCAuto<MEDCoupling::MEDCouplingField> ret(MEDCoupling::ReadField(fileName,fieldName,iteration,order));
31551 @@ -622,24 +621,6 @@
31552 void __setstate__(PyObject *inp) throw(INTERP_KERNEL::Exception)
31556 - PyObject *__getnewargs__() throw(INTERP_KERNEL::Exception)
31559 - PyObject *ret(PyTuple_New(1));
31560 - PyObject *ret0(PyDict_New());
31561 - DataArrayByte *retCpp(MEDCoupling_MEDFileWritableStandAlone_serialize(self));
31562 - PyObject *numpyArryObj=SWIG_NewPointerObj(SWIG_as_voidptr(retCpp),SWIGTYPE_p_MEDCoupling__DataArrayByte, SWIG_POINTER_OWN | 0 );
31563 - {// create a dict to discriminite in __new__ if __init__ should be called. Not beautiful but not idea ...
31564 - PyObject *tmp1(PyInt_FromLong(0));
31565 - PyDict_SetItem(ret0,tmp1,numpyArryObj); Py_DECREF(tmp1); Py_DECREF(numpyArryObj);
31566 - PyTuple_SetItem(ret,0,ret0);
31570 - throw INTERP_KERNEL::Exception("PyWrap of MEDFileData.__getnewargs__ : not implemented because numpy is not active in your configuration ! No serialization/unserialization available without numpy !");
31576 @@ -1130,6 +1111,7 @@
31577 static std::string GetMagicFamilyStr();
31578 void assignFamilyNameWithGroupName() throw(INTERP_KERNEL::Exception);
31579 std::vector<std::string> removeEmptyGroups() throw(INTERP_KERNEL::Exception);
31580 + void removeGroupAtLevel(int meshDimRelToMaxExt, const std::string& name) throw(INTERP_KERNEL::Exception);
31581 void removeGroup(const std::string& name) throw(INTERP_KERNEL::Exception);
31582 void removeFamily(const std::string& name) throw(INTERP_KERNEL::Exception);
31583 std::vector<std::string> removeOrphanGroups() throw(INTERP_KERNEL::Exception);
31584 @@ -1440,12 +1422,6 @@
31585 return MEDFileUMesh::New();
31589 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31591 - return NewMethWrapCallInitOnlyIfEmptyDictInInput(cls,args,"MEDFileUMesh");
31594 static MEDFileUMesh *LoadPartOf(const std::string& fileName, const std::string& mName, PyObject *types, const std::vector<int>& slicPerTyp, int dt=-1, int it=-1, MEDFileMeshReadSelector *mrs=0) throw(INTERP_KERNEL::Exception)
31596 std::vector<int> typesCpp1;
31597 @@ -1457,14 +1433,6 @@
31598 return MEDFileUMesh::LoadPartOf(fileName,mName,typesCpp2,slicPerTyp,dt,it,mrs);
31601 - PyObject *__getnewargs__() throw(INTERP_KERNEL::Exception)
31602 - {// put an empty dict in input to say to __new__ to call __init__...
31603 - PyObject *ret(PyTuple_New(1));
31604 - PyObject *ret0(PyDict_New());
31605 - PyTuple_SetItem(ret,0,ret0);
31609 PyObject *__getstate__() throw(INTERP_KERNEL::Exception)
31611 std::vector<double> a0;
31612 @@ -1724,12 +1692,6 @@
31614 return MEDFileCMesh::New(db);
31618 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31620 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileCMesh");
31623 PyObject *getMesh() const throw(INTERP_KERNEL::Exception)
31625 @@ -1770,12 +1732,6 @@
31627 return MEDFileCurveLinearMesh::New(db);
31631 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31633 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileCurveLinearMesh");
31636 PyObject *getMesh() const throw(INTERP_KERNEL::Exception)
31638 @@ -1879,12 +1835,6 @@
31639 return MEDFileMeshes::New(db);
31643 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31645 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileMeshes");
31648 std::string __str__() const throw(INTERP_KERNEL::Exception)
31650 return self->simpleRepr();
31651 @@ -1989,6 +1939,7 @@
31652 void changeLocName(const std::string& oldName, const std::string& newName) throw(INTERP_KERNEL::Exception);
31653 int getNbOfGaussPtPerCell(int locId) const throw(INTERP_KERNEL::Exception);
31654 int getLocalizationId(const std::string& loc) const throw(INTERP_KERNEL::Exception);
31655 + int getProfileId(const std::string& pfl) const throw(INTERP_KERNEL::Exception);
31656 void killStructureElementsInGlobs() throw(INTERP_KERNEL::Exception);
31659 @@ -2273,6 +2224,7 @@
31660 static MEDFileField1TS *New(DataArrayByte *db) throw(INTERP_KERNEL::Exception);
31661 static MEDFileField1TS *New();
31662 MEDCoupling::MEDFileIntField1TS *convertToInt(bool isDeepCpyGlobs=true) const throw(INTERP_KERNEL::Exception);
31663 + void copyTimeInfoFrom(MEDCouplingFieldDouble *mcf) throw(INTERP_KERNEL::Exception);
31664 MEDCouplingFieldDouble *field(const MEDFileMesh *mesh) const throw(INTERP_KERNEL::Exception);
31665 MEDCouplingFieldDouble *getFieldAtLevel(TypeOfField type, int meshDimRelToMax, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31666 MEDCouplingFieldDouble *getFieldAtTopLevel(TypeOfField type, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31667 @@ -2282,6 +2234,7 @@
31669 void setFieldNoProfileSBT(const MEDCouplingFieldDouble *field) throw(INTERP_KERNEL::Exception);
31670 void setFieldProfile(const MEDCouplingFieldDouble *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile) throw(INTERP_KERNEL::Exception);
31671 + void setFieldProfileFlatly(const MEDCouplingFieldDouble *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile) throw(INTERP_KERNEL::Exception);
31672 void setProfileNameOnLeaf(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId, const std::string& newPflName, bool forceRenameOnGlob=false) throw(INTERP_KERNEL::Exception);
31673 void setLocNameOnLeaf(const std::string& mName, INTERP_KERNEL::NormalizedCellType typ, int locId, const std::string& newLocName, bool forceRenameOnGlob=false) throw(INTERP_KERNEL::Exception);
31675 @@ -2310,12 +2263,6 @@
31677 return MEDFileField1TS::New();
31681 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31683 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileField1TS");
31686 void copyTinyInfoFrom(const MEDCouplingFieldDouble *field) throw(INTERP_KERNEL::Exception)
31688 @@ -2332,12 +2279,7 @@
31690 PyObject *getFieldWithProfile(TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh) const throw(INTERP_KERNEL::Exception)
31692 - DataArrayInt *ret1=0;
31693 - DataArrayDouble *ret0=self->getFieldWithProfile(type,meshDimRelToMax,mesh,ret1);
31694 - PyObject *ret=PyTuple_New(2);
31695 - PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_MEDCoupling__DataArrayDouble, SWIG_POINTER_OWN | 0 ));
31696 - PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_MEDCoupling__DataArrayInt, SWIG_POINTER_OWN | 0 ));
31698 + return MEDFileField1TS_getFieldWithProfile<double>(self,type,meshDimRelToMax,mesh);
31701 PyObject *getFieldSplitedByType2(const std::string& mname=std::string()) const throw(INTERP_KERNEL::Exception)
31702 @@ -2384,29 +2326,7 @@
31704 PyObject *getUndergroundDataArrayExt() const throw(INTERP_KERNEL::Exception)
31706 - std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > > elt1Cpp;
31707 - DataArrayDouble *elt0=self->getUndergroundDataArrayExt(elt1Cpp);
31710 - PyObject *ret=PyTuple_New(2);
31711 - PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(elt0),SWIGTYPE_p_MEDCoupling__DataArrayDouble, SWIG_POINTER_OWN | 0 ));
31712 - std::size_t sz=elt1Cpp.size();
31713 - PyObject *elt=PyList_New(sz);
31714 - for(std::size_t i=0;i<sz;i++)
31716 - PyObject *elt1=PyTuple_New(2);
31717 - PyObject *elt2=PyTuple_New(2);
31718 - PyTuple_SetItem(elt2,0,SWIG_From_int((int)elt1Cpp[i].first.first));
31719 - PyTuple_SetItem(elt2,1,SWIG_From_int(elt1Cpp[i].first.second));
31720 - PyObject *elt3=PyTuple_New(2);
31721 - PyTuple_SetItem(elt3,0,SWIG_From_int(elt1Cpp[i].second.first));
31722 - PyTuple_SetItem(elt3,1,SWIG_From_int(elt1Cpp[i].second.second));
31723 - PyTuple_SetItem(elt1,0,elt2);
31724 - PyTuple_SetItem(elt1,1,elt3);
31725 - PyList_SetItem(elt,i,elt1);
31727 - PyTuple_SetItem(ret,1,elt);
31729 + return MEDFileField1TS_getUndergroundDataArrayExt<double>(self);
31733 @@ -2423,6 +2343,8 @@
31735 void setFieldNoProfileSBT(const MEDCouplingFieldInt *field) throw(INTERP_KERNEL::Exception);
31736 void setFieldProfile(const MEDCouplingFieldInt *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile) throw(INTERP_KERNEL::Exception);
31737 + void setFieldProfileFlatly(const MEDCouplingFieldInt *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile) throw(INTERP_KERNEL::Exception);
31738 + void copyTimeInfoFrom(MEDCouplingFieldInt *mcf) throw(INTERP_KERNEL::Exception);
31739 MEDCouplingFieldInt *field(const MEDFileMesh *mesh) const throw(INTERP_KERNEL::Exception);
31740 MEDCouplingFieldInt *getFieldAtLevel(TypeOfField type, int meshDimRelToMax, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31741 MEDCouplingFieldInt *getFieldAtTopLevel(TypeOfField type, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31742 @@ -2456,12 +2378,6 @@
31743 return MEDFileIntField1TS::New(db);
31747 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31749 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileIntField1TS");
31752 std::string __str__() const throw(INTERP_KERNEL::Exception)
31754 return self->simpleRepr();
31755 @@ -2469,12 +2385,7 @@
31757 PyObject *getFieldWithProfile(TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh) const throw(INTERP_KERNEL::Exception)
31759 - DataArrayInt *ret1=0;
31760 - DataArrayInt *ret0=self->getFieldWithProfile(type,meshDimRelToMax,mesh,ret1);
31761 - PyObject *ret=PyTuple_New(2);
31762 - PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_MEDCoupling__DataArrayInt, SWIG_POINTER_OWN | 0 ));
31763 - PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_MEDCoupling__DataArrayInt, SWIG_POINTER_OWN | 0 ));
31765 + return MEDFileField1TS_getFieldWithProfile<int>(self,type,meshDimRelToMax,mesh);
31768 DataArrayInt *getUndergroundDataArray() const throw(INTERP_KERNEL::Exception)
31769 @@ -2484,6 +2395,11 @@
31774 + PyObject *getUndergroundDataArrayExt() const throw(INTERP_KERNEL::Exception)
31776 + return MEDFileField1TS_getUndergroundDataArrayExt<int>(self);
31781 @@ -2499,6 +2415,8 @@
31783 void setFieldNoProfileSBT(const MEDCouplingFieldFloat *field) throw(INTERP_KERNEL::Exception);
31784 void setFieldProfile(const MEDCouplingFieldFloat *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile) throw(INTERP_KERNEL::Exception);
31785 + void setFieldProfileFlatly(const MEDCouplingFieldFloat *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile) throw(INTERP_KERNEL::Exception);
31786 + void copyTimeInfoFrom(MEDCouplingFieldFloat *mcf) throw(INTERP_KERNEL::Exception);
31787 MEDCouplingFieldFloat *field(const MEDFileMesh *mesh) const throw(INTERP_KERNEL::Exception);
31788 MEDCouplingFieldFloat *getFieldAtLevel(TypeOfField type, int meshDimRelToMax, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31789 MEDCouplingFieldFloat *getFieldAtTopLevel(TypeOfField type, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31790 @@ -2532,12 +2450,6 @@
31791 return MEDFileFloatField1TS::New(db);
31795 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31797 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileFloatField1TS");
31800 std::string __str__() const throw(INTERP_KERNEL::Exception)
31802 return self->simpleRepr();
31803 @@ -2545,12 +2457,7 @@
31805 PyObject *getFieldWithProfile(TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh) const throw(INTERP_KERNEL::Exception)
31807 - DataArrayInt *ret1=0;
31808 - DataArrayFloat *ret0=self->getFieldWithProfile(type,meshDimRelToMax,mesh,ret1);
31809 - PyObject *ret=PyTuple_New(2);
31810 - PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_MEDCoupling__DataArrayInt, SWIG_POINTER_OWN | 0 ));
31811 - PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_MEDCoupling__DataArrayFloat, SWIG_POINTER_OWN | 0 ));
31813 + return MEDFileField1TS_getFieldWithProfile<float>(self,type,meshDimRelToMax,mesh);
31816 DataArrayFloat *getUndergroundDataArray() const throw(INTERP_KERNEL::Exception)
31817 @@ -2560,6 +2467,11 @@
31822 + PyObject *getUndergroundDataArrayExt() const throw(INTERP_KERNEL::Exception)
31824 + return MEDFileField1TS_getUndergroundDataArrayExt<float>(self);
31829 @@ -2992,12 +2904,6 @@
31831 return MEDFileFieldMultiTS::New(db);
31835 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31837 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileFieldMultiTS");
31840 static MEDFileFieldMultiTS *LoadSpecificEntities(const std::string& fileName, const std::string& fieldName, PyObject *entities, bool loadAll=true)
31842 @@ -3127,7 +3033,7 @@
31843 void appendFieldNoProfileSBT(const MEDCouplingFieldInt *field) throw(INTERP_KERNEL::Exception);
31844 void appendFieldProfile(const MEDCouplingFieldInt *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile) throw(INTERP_KERNEL::Exception);
31845 MEDCoupling::MEDFileFieldMultiTS *convertToDouble(bool isDeepCpyGlobs=true) const throw(INTERP_KERNEL::Exception);
31846 - MEDCouplingFieldDouble *field(int iteration, int order, const MEDFileMesh *mesh) const throw(INTERP_KERNEL::Exception);
31847 + MEDCouplingFieldInt *field(int iteration, int order, const MEDFileMesh *mesh) const throw(INTERP_KERNEL::Exception);
31848 MEDCouplingFieldInt *getFieldAtLevel(TypeOfField type, int iteration, int order, int meshDimRelToMax, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31849 MEDCouplingFieldInt *getFieldAtTopLevel(TypeOfField type, int iteration, int order, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31850 MEDCouplingFieldInt *getFieldOnMeshAtLevel(TypeOfField type, int iteration, int order, int meshDimRelToMax, const MEDFileMesh *mesh, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31851 @@ -3155,12 +3061,6 @@
31852 return MEDFileIntFieldMultiTS::New(db);
31856 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31858 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileIntFieldMultiTS");
31861 static MEDFileIntFieldMultiTS *LoadSpecificEntities(const std::string& fileName, const std::string& fieldName, PyObject *entities, bool loadAll=true)
31863 std::vector<std::pair<int,int> > tmp(convertTimePairIdsFromPy(entities));
31864 @@ -3204,7 +3104,7 @@
31865 void appendFieldNoProfileSBT(const MEDCouplingFieldFloat *field) throw(INTERP_KERNEL::Exception);
31866 void appendFieldProfile(const MEDCouplingFieldFloat *field, const MEDFileMesh *mesh, int meshDimRelToMax, const DataArrayInt *profile) throw(INTERP_KERNEL::Exception);
31867 MEDCoupling::MEDFileFieldMultiTS *convertToDouble(bool isDeepCpyGlobs=true) const throw(INTERP_KERNEL::Exception);
31868 - MEDCouplingFieldDouble *field(int iteration, int order, const MEDFileMesh *mesh) const throw(INTERP_KERNEL::Exception);
31869 + MEDCouplingFieldFloat *field(int iteration, int order, const MEDFileMesh *mesh) const throw(INTERP_KERNEL::Exception);
31870 MEDCouplingFieldFloat *getFieldAtLevel(TypeOfField type, int iteration, int order, int meshDimRelToMax, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31871 MEDCouplingFieldFloat *getFieldAtTopLevel(TypeOfField type, int iteration, int order, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31872 MEDCouplingFieldFloat *getFieldOnMeshAtLevel(TypeOfField type, int iteration, int order, int meshDimRelToMax, const MEDFileMesh *mesh, int renumPol=0) const throw(INTERP_KERNEL::Exception);
31873 @@ -3232,12 +3132,6 @@
31874 return MEDFileFloatFieldMultiTS::New(db);
31878 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31880 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileFloatFieldMultiTS");
31883 static MEDFileFloatFieldMultiTS *LoadSpecificEntities(const std::string& fileName, const std::string& fieldName, PyObject *entities, bool loadAll=true)
31885 std::vector<std::pair<int,int> > tmp(convertTimePairIdsFromPy(entities));
31886 @@ -3352,12 +3246,6 @@
31887 return MEDFileFields::NewAdv(fileName,loadAll,entities);
31891 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31893 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileFields");
31896 std::string __str__() const throw(INTERP_KERNEL::Exception)
31898 return self->simpleRepr();
31899 @@ -3529,6 +3417,12 @@
31900 convertToMapIntDataArrayInt(extractDef,extractDefCpp);
31901 return self->extractPart(extractDefCpp,mm);
31904 + MEDFileFields *linearToQuadratic(const MEDFileMeshes *oldLin, const MEDFileMeshes *newQuad) const throw(INTERP_KERNEL::Exception)
31906 + MCAuto<MEDFileFields> ret(self->linearToQuadratic(oldLin,newQuad));
31907 + return ret.retn();
31912 @@ -3847,12 +3741,6 @@
31914 return MEDFileParameters::New(db);
31918 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31920 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileParameters");
31923 std::string __str__() const throw(INTERP_KERNEL::Exception)
31925 @@ -3989,12 +3877,6 @@
31926 MCAuto<MEDFileData> ret(MEDFileData::Aggregate(mfdsCpp));
31931 - static PyObject *___new___(PyObject *cls, PyObject *args) throw(INTERP_KERNEL::Exception)
31933 - return NewMethWrapCallInitOnlyIfDictWithSingleEltInInput(cls,args,"MEDFileData");
31938 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderDataForTest.pyc MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderDataForTest.pyc
31939 --- MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderDataForTest.pyc 1970-01-01 01:00:00.000000000 +0100
31940 +++ MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderDataForTest.pyc 2018-04-19 17:25:17.759797792 +0200
31943 +
\18;ÕZc
\0\0\0\0\0\0\0\0\ 3\0\0\0@
\0\0\0s=
\0\0\0d
\0\0d
\ 1\0l
\0\0Td
\0\0d
\ 2\0l
\ 1\0m
\ 2\0Z
\ 2\0m
\ 3\0Z
\ 3\0m
\ 4\0Z
\ 4\0\ 1d
\ 3\0d
\ 6\0d
\ 4\0\84\0\0\83\0\0YZ
\ 5\0d
\ 5\0S(
\a\0\0\0iÿÿÿÿ(
\ 1\0\0\0t
\ 1\0\0\0*(
\ 3\0\0\0t
\ 2\0\0\0pit
\ 1\0\0\0et
\ 4\0\0\0sqrtt
\14\0\0\0MEDLoaderDataForTestc
\0\0\0\0\0\0\0\0\ 2\0\0\0B
\0\0\0s
\82\ 1\0\0e
\0\0Z
\ 1\0d
\0\0\84\0\0Z
\ 2\0d
\ 1\0\84\0\0Z
\ 3\0d
\ 2\0\84\0\0Z
\ 4\0d
\ 3\0\84\0\0Z
\ 5\0d
\ 4\0\84\0\0Z
\ 6\0d
\ 5\0\84\0\0Z
\a\0d
\ 6\0\84\0\0Z
\b\0d
\a\0\84\0\0Z
\0d
\b\0\84\0\0Z
31944 +
\0d
\0\84\0\0Z
\v\0d
31945 +
\0\84\0\0Z
\f\0d
\v\0\84\0\0Z
\r\0d
\f\0\84\0\0Z
\ e\0d
\r\0\84\0\0Z
\ f\0d
\ e\0\84\0\0Z
\10\0d
\ f\0\84\0\0Z
\11\0d
\10\0\84\0\0Z
\12\0d
\11\0\84\0\0Z
\13\0e
\14\0e
\ 2\0\83\ 1\0Z
\ 2\0e
\14\0e
\ 3\0\83\ 1\0Z
\ 3\0e
\14\0e
\ 4\0\83\ 1\0Z
\ 4\0e
\14\0e
\ 5\0\83\ 1\0Z
\ 5\0e
\14\0e
\ 6\0\83\ 1\0Z
\ 6\0e
\14\0e
\a\0\83\ 1\0Z
\a\0e
\14\0e
\b\0\83\ 1\0Z
\b\0e
\14\0e
\0\83\ 1\0Z
\0e
\14\0e
\v\0\83\ 1\0Z
\v\0e
\14\0e
31947 +
\0e
\14\0e
\f\0\83\ 1\0Z
\f\0e
\14\0e
\r\0\83\ 1\0Z
\r\0e
\14\0e
\ e\0\83\ 1\0Z
\ e\0e
\14\0e
\ f\0\83\ 1\0Z
\ f\0e
\14\0e
\10\0\83\ 1\0Z
\10\0e
\14\0e
\11\0\83\ 1\0Z
\11\0e
\14\0e
\12\0\83\ 1\0Z
\12\0e
\14\0e
\13\0\83\ 1\0Z
\13\0RS(
\12\0\0\0c
\ 1\0\0\0\ 5\0\0\0 \0\0\0C
\0\0\0s
\1e\ 1\0\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 6\0}
\ 1\0d
\a\0d
\b\0d
\b\0d
\0d
\0d
31949 +
\0d
\v\0d
\f\0g
\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
\r\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\b\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\v\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0d
\a\0d
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0d
\0d
\v\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0d
\v\0d
\ e\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
31950 +
\0|
\ 2\0d
\ e\0d
\ f\0!
\83\ 3\0\ 1|
\ 3\0j
\b\0\83\0\0\ 1t
\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
31951 +
\0|
\ 1\0d
\ e\0d
\b\0\83\ 3\0\ 1|
\ 4\0j
\v\0d
\a\0d
\10\0\83\ 2\0\ 1|
\ 3\0j
\f\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\11\0\0\0Ng
\0\0\0\0\0\0\0\0g333333Ó?g
\0\0\0\0\0\0è?g
\0\0\0\0\0\0ð?gffffffö?gÍÌÌÌÌÌô?i
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0t
\b\0\0\01DMesh_1i
\ 6\0\0\0i
\0\0\0s!
\0\0\0tototototototot [m*m*m*m*m*m*m*m](
\r\0\0\0t
\10\0\0\0MEDCouplingUMesht
\ 3\0\0\0Newt
\a\0\0\0setNamet
\10\0\0\0setMeshDimensiont
\r\0\0\0allocateCellst
\ e\0\0\0insertNextCellt
\0\0\0NORM_SEG2t
\0\0\0NORM_SEG3t
\14\0\0\0finishInsertingCellst
\ f\0\0\0DataArrayDoublet
\0\0\0setValuest
\12\0\0\0setInfoOnComponentt
\0\0\0setCoords(
\ 5\0\0\0t
\ 3\0\0\0clst
\ 6\0\0\0coordst
\ 4\0\0\0connt
\ 4\0\0\0mesht
\b\0\0\0myCoords(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\r\0\0\0build1DMesh_1
\1a\0\0\0s
\0\0\0\0\ 1\18\ 1!
\ 1\f\ 1\r\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
31952 +
\ 1\f\ 1\13\ 1\10\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0\f\0\0\0C
\0\0\0s
\ 1\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 6\0g
\f\0}
\ 1\0d
\a\0d
\b\0d
\b\0d
\0d
\0d
31954 +
\0d
\v\0d
\f\0g
\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
\r\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\b\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\v\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0d
\a\0d
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0d
\0d
\v\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0d
\v\0d
\ e\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
31955 +
\0|
\ 2\0d
\ e\0d
\ f\0!
\83\ 3\0\ 1|
\ 3\0j
\b\0\83\0\0\ 1t
\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
31956 +
\0|
\ 1\0d
\ e\0d
\0\83\ 3\0\ 1|
\ 3\0j
\v\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\10\0\0\0Ng
\0\0\0\0\0\0\0\0g333333Ó?g
\0\0\0\0\0\0è?g
\0\0\0\0\0\0ð?gffffffö?gÍÌÌÌÌÌô?i
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0t
\r\0\0\02DCurveMesh_1i
\ 6\0\0\0i
\0\0\0(
\f\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
31957 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\12\0\0\0(
\ 5\0\0\0R
\13\0\0\0R
\14\0\0\0R
\15\0\0\0R
\16\0\0\0R
\17\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\12\0\0\0build2DCurveMesh_1,
\0\0\0s
\1e\0\0\0\0\ 1*
\ 1!
\ 1\f\ 1\r\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
31958 +
\ 1\f\ 1\13\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0\18\0\0\0C
\0\0\0sÅ
\ 1\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 2\0d
\ 6\0d
\a\0d
\ 5\0g
\18\0}
\ 1\0d
\b\0d
\0d
31960 +
\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\0d
\b\0d
\f\0d
\11\0d
\0d
\13\0d
\11\0d
\ e\0d
\v\0d
\0g
\18\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
31961 +
\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\f\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\14\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\12\0d
\13\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\13\0d
\f\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\f\0|
\ 2\0d
\f\0d
\15\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\b\0d
\0|
\ 2\0d
\15\0d
\16\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\b\0d
\0|
\ 2\0d
\16\0d
\17\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\0d
\0|
\ 2\0d
\17\0d
\18\0!
\83\ 3\0\ 1|
\ 3\0j
31962 +
\0\83\0\0\ 1t
\v\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\f\0|
\ 1\0d
\15\0d
31963 +
\0\83\ 3\0\ 1|
\ 4\0j
\r\0d
\12\0d
\19\0\83\ 2\0\ 1|
\ 4\0j
\r\0d
\b\0d
\1a\0\83\ 2\0\ 1|
\ 3\0j
\ e\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\e\0\0\0Ng333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?g
\9a\99\99\99\99\99©¿gffffffî?g333333ó?gÍÌÌÌÌÌÜ?i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
31964 +
\0\0\0i
\b\0\0\0i
\0\0\0i
\v\0\0\0i
\a\0\0\0i
\0\0\0\0i
\ 3\0\0\0t
\b\0\0\02DMesh_1i
\f\0\0\0i
\10\0\0\0i
\14\0\0\0i
\18\0\0\0s
\13\0\0\0tototototototot [m]s
\f\0\0\0energie [kW](
\ f\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\0\0\0R
31965 +
\0\0\0R
\b\0\0\0R
\v\0\0\0t
\0\0\0NORM_TRI3t
\0\0\0NORM_TRI6t
31966 +
\0\0\0NORM_QUAD4t
\f\0\0\0NORM_POLYGONR
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\11\0\0\0R
\12\0\0\0(
\ 5\0\0\0R
\13\0\0\0t
\f\0\0\0targetCoordst
31968 +
\0\0\0targetMeshR
\17\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\r\0\0\0build2DMesh_1=
\0\0\0s(
\0\0\0\0\ 16
\ 1\18\ 1N
\ 1\f\ 1\r\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
31969 +
\ 1\f\ 1\13\ 1\10\ 1\10\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0\18\0\0\0C
\0\0\0s«
\ 1\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 2\0d
\ 6\0d
\a\0d
\ 5\0g
\18\0}
\ 1\0d
\b\0d
\0d
31971 +
\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\0d
\b\0d
\f\0d
\11\0d
\0d
\13\0d
\11\0d
\ e\0d
\v\0d
\0g
\18\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
31972 +
\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\v\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\14\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\12\0d
\13\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\13\0d
\f\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\0|
\ 2\0d
\15\0d
\16\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\0|
\ 2\0d
\16\0d
\17\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\b\0d
\f\0|
\ 2\0d
\f\0d
\15\0!
\83\ 3\0\ 1|
\ 3\0j
\0\83\0\0\ 1t
31973 +
\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\v\0|
\ 1\0d
\15\0d
31974 +
\0\83\ 3\0\ 1|
\ 4\0j
\f\0d
\12\0d
\18\0\83\ 2\0\ 1|
\ 4\0j
\f\0d
\b\0d
\19\0\83\ 2\0\ 1|
\ 3\0j
\r\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\1a\0\0\0Ng333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?g
\9a\99\99\99\99\99©¿gffffffî?g333333ó?gÍÌÌÌÌÌÜ?i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
31975 +
\0\0\0i
\b\0\0\0i
\0\0\0i
\v\0\0\0i
\a\0\0\0i
\0\0\0\0i
\ 3\0\0\0t
\b\0\0\02DMesh_2i
\f\0\0\0i
\10\0\0\0i
\14\0\0\0s
\b\0\0\0toto [m]s
\f\0\0\0energie [kW](
\ e\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\0\0\0R
31976 +
\0\0\0R
\b\0\0\0R
\v\0\0\0R
\1c\0\0\0R
\1e\0\0\0R
\1d\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\11\0\0\0R
\12\0\0\0(
\ 5\0\0\0R
\13\0\0\0R
\0\0\0R!
\0\0\0R"
\0\0\0R
\17\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\r\0\0\0build2DMesh_2S
\0\0\0s&
\0\0\0\0\ 16
\ 1\18\ 1N
\ 1\f\ 1\r\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
31977 +
\ 1\f\ 1\13\ 1\10\ 1\10\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0\18\0\0\0C
\0\0\0s{
\ 2\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 2\0d
\ 6\0d
\a\0d
\ 5\0g
\18\0}
\ 1\0d
\b\0d
\0d
31979 +
\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\0d
\b\0d
\f\0d
\11\0d
\0d
\13\0d
\11\0d
\ e\0d
\v\0d
\0g
\18\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
31980 +
\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\14\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\15\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\12\0d
\13\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\13\0d
\f\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\12\0d
\13\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\13\0d
\f\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\12\0d
\13\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\13\0d
\f\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\0|
\ 2\0d
\16\0d
\17\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\0|
\ 2\0d
\17\0d
\18\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\0|
\ 2\0d
\16\0d
\17\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\0|
\ 2\0d
\17\0d
\18\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\b\0d
\f\0|
\ 2\0d
\f\0d
\16\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\b\0d
\f\0|
\ 2\0d
\f\0d
\16\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\b\0d
\f\0|
\ 2\0d
\f\0d
\16\0!
\83\ 3\0\ 1|
\ 3\0j
\0\83\0\0\ 1t
31981 +
\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\v\0|
\ 1\0d
\16\0d
31982 +
\0\83\ 3\0\ 1|
\ 4\0j
\f\0d
\12\0d
\19\0\83\ 2\0\ 1|
\ 4\0j
\f\0d
\b\0d
\1a\0\83\ 2\0\ 1|
\ 3\0j
\r\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\e\0\0\0Ng333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?g
\9a\99\99\99\99\99©¿gffffffî?g333333ó?gÍÌÌÌÌÌÜ?i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
31983 +
\0\0\0i
\b\0\0\0i
\0\0\0i
\v\0\0\0i
\a\0\0\0i
\0\0\0\0i
\ 3\0\0\0i
\r\0\0\0t
\b\0\0\02DMesh_3i
\f\0\0\0i
\10\0\0\0i
\14\0\0\0s
\b\0\0\0toto [m]s
\f\0\0\0energie [kW](
\ e\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\0\0\0R
31984 +
\0\0\0R
\b\0\0\0R
\v\0\0\0R
\1c\0\0\0R
\1e\0\0\0R
\1d\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\11\0\0\0R
\12\0\0\0(
\ 5\0\0\0R
\13\0\0\0R
\0\0\0R!
\0\0\0R"
\0\0\0R
\17\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\r\0\0\0build2DMesh_3i
\0\0\0s6
\0\0\0\0\ 16
\ 1\18\ 1N
\ 1\f\ 1\r\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
31985 +
\ 1\f\ 1\13\ 1\10\ 1\10\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0b
\ 1\0\0C
\0\0\0s¿
\b\0\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 4\0d
\ 1\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 5\0d
\ 1\0d
\ 6\0d
\ 2\0d
\ 1\0d
\ 6\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 6\0d
\ 1\0d
\ 5\0d
\ 5\0d
\ 1\0d
\ 5\0d
\ 6\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 5\0d
\ 1\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 2\0d
\ 6\0d
\ 5\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 5\0d
\ 5\0d
\ 2\0d
\ 5\0d
\ 6\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 3\0d
\ 5\0d
\ 1\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 1\0d
\ 5\0d
\ 5\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 5\0d
\ 5\0d
\ 1\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 2\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 5\0d
\ 1\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 6\0d
\ 5\0d
\ 5\0d
\ 5\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 6\0d
\ 2\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 3\0d
\ 6\0d
\ 1\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 4\0d
\ 6\0d
\ 5\0d
\ 1\0d
\ 6\0d
\ 5\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 5\0d
\ 6\0d
\ 1\0d
\ 5\0d
\ 6\0d
\ 6\0d
\ 2\0d
\ 6\0d
\ 6\0d
\ 5\0d
\ 6\0d
\ 1\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 6\0d
\ 6\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 6\0d
\ 6\0g´
\0}
\ 1\0d
\a\0d
\b\0d
\0d
31986 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\0d
\r\0d
\15\0d
\13\0d
\14\0d
\13\0d
\15\0d
\16\0d
\12\0d
\14\0d
\12\0d
\11\0d
\17\0d
\16\0d
\14\0d
\11\0d
\10\0d
\18\0d
\17\0d
\14\0d
\10\0d
\ f\0d
\19\0d
\18\0d
\14\0d
\ f\0d
\0d
\r\0d
\19\0d
\14\0d
\r\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\0d
\13\0d
\1a\0d
31987 +
\0d
\r\0d
\15\0d
\e\0d
\ e\0d
\12\0d
\1c\0d
\1d\0d
\13\0d
\16\0d
\1e\0d
\1f\0d
\15\0d
\b\0d
\0d
\11\0d
\10\0d
\ f\0d
\0d
\14\0d
\b\0d
\f\0d
\r\0d
\0d
\14\0d
\0d
\r\0d
\19\0d
\ f\0d
\14\0d
\ f\0d
\19\0d
\18\0d
\10\0d
\14\0d
\10\0d
\18\0d
\17\0d
\11\0d
\14\0d
\11\0d
\0d!
\0d
\17\0d
\14\0d
\0d
\b\0d
\f\0d!
\0d
\14\0d
\f\0d
\r\0d
\19\0d
\18\0d
\17\0d!
\0d
\11\0d"
\0d#
\0d
\12\0d
\17\0d$
\0d%
\0d
\16\0d
\v\0d
\f\0d
\r\0d
\ e\0d&
\0d'
\0d(
\0d)
\0d
\r\0d
\19\0d
\18\0d
\17\0d
\16\0d
\15\0d
\14\0d
\r\0d(
\0d*
\0d
\15\0d
\14\0d
\15\0d*
\0d+
\0d
\16\0d
\14\0d
\16\0d
\17\0d,
\0d+
\0d
\14\0d
\17\0d
\18\0d-
\0d,
\0d
\14\0d
\18\0d
\19\0d.
\0d-
\0d
\14\0d
\19\0d
\r\0d(
\0d.
\0d
\14\0d(
\0d*
\0d+
\0d,
\0d-
\0d.
\0d
\r\0d
\15\0d
\e\0d
\ e\0d(
\0d*
\0d/
\0d)
\0d
\16\0d
\1e\0d
\1f\0d
\15\0d+
\0d0
\0d1
\0d*
\0d
\f\0d!
\0d
\17\0d
\18\0d
\19\0d
\r\0d
\14\0d
\f\0d'
\0d(
\0d
\r\0d
\14\0d
\r\0d(
\0d.
\0d
\19\0d
\14\0d
\19\0d.
\0d-
\0d
\18\0d
\14\0d
\18\0d-
\0d,
\0d
\17\0d
\14\0d
\17\0d!
\0d2
\0d,
\0d
\14\0d!
\0d
\f\0d'
\0d2
\0d
\14\0d'
\0d(
\0d.
\0d-
\0d,
\0d2
\0d
\17\0d$
\0d%
\0d
\16\0d,
\0d3
\0d4
\0d+
\0d&
\0d'
\0d(
\0d)
\0d5
\0d6
\0d7
\0d8
\0d(
\0d.
\0d-
\0d,
\0d+
\0d*
\0d
\14\0d(
\0d7
\0d9
\0d*
\0d
\14\0d*
\0d9
\0d:
\0d+
\0d
\14\0d+
\0d,
\0d;
\0d:
\0d
\14\0d,
\0d-
\0d<
\0d;
\0d
\14\0d-
\0d.
\0d=
\0d<
\0d
\14\0d.
\0d(
\0d7
\0d=
\0d
\14\0d7
\0d9
\0d:
\0d;
\0d<
\0d=
\0d(
\0d*
\0d/
\0d)
\0d7
\0d9
\0d>
\0d8
\0d+
\0d0
\0d1
\0d*
\0d:
\0d?
\0d@
\0d9
\0d'
\0d2
\0d,
\0d-
\0d.
\0d(
\0d
\14\0d'
\0d6
\0d7
\0d(
\0d
\14\0d(
\0d7
\0d=
\0d.
\0d
\14\0d.
\0d=
\0d<
\0d-
\0d
\14\0d-
\0d<
\0d;
\0d,
\0d
\14\0d,
\0d2
\0dA
\0d;
\0d
\14\0d2
\0d'
\0d6
\0dA
\0d
\14\0d6
\0d7
\0d=
\0d<
\0d;
\0dA
\0d,
\0d3
\0d4
\0d+
\0d;
\0dB
\0dC
\0d:
\0gb
\ 1}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0dD
\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
31988 +
\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\ e\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0d
\a\0d
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0d9
\0dC
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0dC
\0dE
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0dF
\0dG
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0dG
\0dH
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0dI
\0dJ
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0dJ
\0dK
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0dL
\0dM
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0dM
\0dN
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0dO
\0dP
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0dP
\0dQ
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\0|
\ 2\0dR
\0dS
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d+
\0|
\ 2\0d
\0d9
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d+
\0|
\ 2\0dE
\0dF
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d+
\0|
\ 2\0dH
\0dI
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d+
\0|
\ 2\0dK
\0dL
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d+
\0|
\ 2\0dN
\0dO
\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d+
\0|
\ 2\0dQ
\0dR
\0!
\83\ 3\0\ 1|
\ 3\0j
\b\0\83\0\0\ 1t
\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
31990 +
\0\83\ 3\0\ 1|
\ 4\0j
\v\0d
\a\0dU
\0\83\ 2\0\ 1|
\ 4\0j
\v\0d
\0dV
\0\83\ 2\0\ 1|
\ 4\0j
\v\0d
\ f\0dW
\0\83\ 2\0\ 1|
\ 3\0j
\f\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(X
\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0ô?g
\0\0\0\0\0\0ø?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@i
\0\0\0\0i
\v\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0i
\ f\0\0\0i
\1a\0\0\0i
\10\0\0\0i
\12\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0i
\a\0\0\0i
\r\0\0\0i
\ 6\0\0\0iÿÿÿÿi
\15\0\0\0i
\1c\0\0\0i
\16\0\0\0i
\13\0\0\0i
\11\0\0\0i
\ 5\0\0\0i
\14\0\0\0i
31991 +
\0\0\0i
\0\0\0i
\19\0\0\0i
\18\0\0\0i
\b\0\0\0i
\17\0\0\0i
\f\0\0\0i
\ e\0\0\0i
\e\0\0\0i
\1d\0\0\0i
\1e\0\0\0i)
\0\0\0i
\1f\0\0\0i!
\0\0\0i$
\0\0\0i+
\0\0\0i%
\0\0\0i"
\0\0\0i
\0\0\0i#
\0\0\0i(
\0\0\0i'
\0\0\0i&
\0\0\0i*
\0\0\0i,
\0\0\0i-
\0\0\0i8
\0\0\0i.
\0\0\0i0
\0\0\0i3
\0\0\0i:
\0\0\0i4
\0\0\0i1
\0\0\0i/
\0\0\0i2
\0\0\0i7
\0\0\0i6
\0\0\0i5
\0\0\0i9
\0\0\0i;
\0\0\0t
\b\0\0\03DMesh_1iC
\0\0\0in
\0\0\0iv
\0\0\0i~
\0\0\0i©
\0\0\0i±
\0\0\0i¹
\0\0\0iä
\0\0\0iì
\0\0\0iô
\0\0\0i
\1f\ 1\0\0i'
\ 1\0\0i/
\ 1\0\0iZ
\ 1\0\0ib
\ 1\0\0i<
\0\0\0s
\b\0\0\0titi [m]s
\16\0\0\0density power [MW/m^3]s
\ 6\0\0\0t [kW](
\r\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
31993 +
\0\0\0NORM_HEXA8t
\f\0\0\0NORM_POLYHEDR
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\11\0\0\0R
\12\0\0\0(
\ 5\0\0\0R
\13\0\0\0R
\14\0\0\0R
\15\0\0\0t
\ 3\0\0\0retR
\17\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\r\0\0\0build3DMesh_1
\86\0\0\0sd
\0\0\0\0\ 1Z
\ 1-
\ 1Z
\ 1-
\ 1Z
\ 1-
\ 1Z
\ 13
\ 3\99\ 10
\ 1\81\ 1\18\ 2\99\ 10
\ 1\81\ 1\18\ 2\99\ 10
\ 1\81\ 1\1e\ 2\f\ 1\r\ 1\r\ 1\r\ 2\1a\ 1\1a\ 1\1a\ 1\1a\ 2\1a\ 1\1a\ 1\1a\ 1\1a\ 2\1a\ 1\1a\ 1\1a\ 1\1a\ 2\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 2
31994 +
\ 1\f\ 1\13\ 1\10\ 1\10\ 1\10\ 1\r\ 1c
\ 1\0\0\0\ 5\0\0\0$
\0\0\0C
\0\0\0sé
\ 1\0\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 3\0d
\ 3\0d
\ 1\0d
\ 4\0d
\ 5\0d
\ 1\0d
\ 2\0d
\ 6\0d
\ 1\0d
\a\0d
\ 5\0d
\ 1\0g$
\0}
\ 1\0d
\b\0d
\0d
31996 +
\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\0d
\b\0d
\f\0d
\11\0d
\0d
\13\0d
\11\0d
\ e\0d
\v\0d
\0g
\18\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
31997 +
\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\f\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\14\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\12\0d
\13\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\ 6\0d
\13\0|
\ 2\0d
\13\0d
\f\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\0|
\ 2\0d
\15\0d
\16\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\a\0d
\0|
\ 2\0d
\16\0d
\17\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\b\0d
\f\0|
\ 2\0d
\f\0d
\15\0!
\83\ 3\0\ 1|
\ 3\0j
\ 5\0t
\0d
\0|
\ 2\0d
\17\0d
\18\0!
\83\ 3\0\ 1|
\ 3\0j
31998 +
\0\83\0\0\ 1t
\v\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\f\0|
\ 1\0d
\15\0d
\13\0\83\ 3\0\ 1|
\ 4\0j
\r\0d
\12\0d
\19\0\83\ 2\0\ 1|
\ 4\0j
\r\0d
31999 +
\0d
\1a\0\83\ 2\0\ 1|
\ 3\0j
\ e\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0S(
\e\0\0\0Ng333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?g
\9a\99\99\99\99\99©¿gffffffî?g333333ó?gÍÌÌÌÌÌÜ?i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
32000 +
\0\0\0i
\b\0\0\0i
\0\0\0i
\v\0\0\0i
\a\0\0\0i
\0\0\0\0i
\ 3\0\0\0t
\f\0\0\03DSurfMesh_1i
\f\0\0\0i
\10\0\0\0i
\14\0\0\0i
\18\0\0\0s
\b\0\0\0toto [m]s
\a\0\0\0ff [km](
\ f\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\0\0\0R
32001 +
\0\0\0R
\b\0\0\0R
\v\0\0\0R
\1c\0\0\0R
\1e\0\0\0R
\1d\0\0\0R
\1f\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\11\0\0\0R
\12\0\0\0(
\ 5\0\0\0R
\13\0\0\0R
\0\0\0R!
\0\0\0R"
\0\0\0R
\17\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\11\0\0\0build3DSurfMesh_1Ä
\0\0\0s(
\0\0\0\0\ 1Q
\ 1!
\ 1N
\ 1\f\ 1\r\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
32002 +
\ 1\f\ 1\13\ 1\10\ 1\10\ 1\r\ 1c
\ 1\0\0\0
32003 +
\0\0\0\ 5\0\0\0C
\0\0\0s¼
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0g
\ 5\0}
\ 2\0|
\ 1\0j
\ 2\0|
\ 2\0t
\ 3\0\83\ 2\0}
\ 3\0t
\0\0j
\ 4\0\83\0\0}
\ 4\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0g
\ 4\0}
\ 5\0|
\ 4\0j
\ 2\0|
\ 5\0t
\ 3\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 5\0d
\ 4\0\83\ 1\0\ 1d
\ 6\0d
\a\0d
\ 6\0g
\ 3\0}
\a\0d
\ 6\0d
\ 6\0d
\ 6\0g
\ 3\0}
\b\0|
\ 6\0j
\ 6\0|
\b\0|
\a\0t
\a\0\vd
\b\0\15\83\ 3\0\ 1|
\ 3\0j
\b\0|
\ 6\0d
\ 1\0\83\ 2\0}
\0|
\0S(
\0\0\0Ni
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@(
\0\0\0R
\ 4\0\0\0R.
\0\0\0t
\11\0\0\0buildPartOfMySelft
\ 5\0\0\0FalseR
\18\0\0\0t
\14\0\0\0changeSpaceDimensiont
\ 6\0\0\0rotateR
\ 1\0\0\0t
\11\0\0\0buildExtrudedMesh(
32004 +
\0\0\0R
\13\0\0\0t
\v\0\0\0m3dsurfBaset
\a\0\0\0numberst
\a\0\0\0m3dsurft
\a\0\0\0m1dBaset
\b\0\0\0numbers2t
\ 3\0\0\0m1dt
\ 3\0\0\0vect
\ 2\0\0\0ptR+
\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\r\0\0\0build3DMesh_2Ú
\0\0\0s
\18\0\0\0\0\ 1\f\ 1\15\ 1\12\ 1\f\ 1\12\ 1\12\ 1\r\ 1\ f\ 1\ f\ 1\18\ 1\12\ 1c
\ 1\0\0\0\19\0\0\0\ e\ 1\0\0C
\0\0\0sW
\11\0\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 4\0d
\ 1\0d
\ 5\0d
\ 1\0d
\ 6\0d
\a\0d
\ 2\0d
\a\0d
\ 3\0d
\a\0d
\ 4\0d
\a\0d
\ 5\0d
\a\0d
\ 6\0d
\b\0d
\ 2\0d
\b\0d
\ 3\0d
\b\0d
\ 4\0d
\b\0d
\ 5\0d
\b\0d
\ 6\0d
\0d
\ 2\0d
\0d
\ 3\0d
\0d
\ 4\0d
\0d
\ 5\0d
\0d
\ 6\0d
\ 6\0d
\ 2\0d
\ 6\0d
\ 3\0d
\ 6\0d
\ 4\0d
\ 6\0d
\ 5\0d
\ 6\0d
\ 6\0d
\ 5\0d
\ 2\0d
\ 5\0d
\ 3\0d
\ 5\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 4\0d
\ 2\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 5\0d
\ 4\0d
\ 6\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 5\0d
\ 3\0d
\ 6\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 6\0d
\ 1\0d
\ 6\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 6\0d
\ 6\0d
\ 6\0d
\ 6\0d
\ 6\0d
\ 1\0d
\ 6\0d
\ 1\0d
32005 +
\0d
\ 6\0d
\ 3\0d
\ 6\0d
\v\0d
\ 6\0d
\ 4\0d
\ 6\0d
\f\0d
\ 6\0d
\ 5\0d
\ 6\0d
\r\0d
\ 6\0d
\ 6\0d
\0d
\ 6\0d
\b\0d
\ 6\0d
\a\0d
\r\0d
\ 1\0d
\ 5\0d
\ 1\0d
\f\0d
\ 1\0d
\ 4\0d
\ 1\0d
\v\0d
\ 1\0d
\ 3\0d
\ 1\0d
32006 +
\0d
\ 1\0d
\ 2\0d
\a\0d
\ 2\0d
\b\0d
\ 2\0d
\0d
\r\0d
\0d
\r\0d
\b\0d
\r\0d
\a\0d
\ 5\0d
\0d
\ 5\0d
\b\0d
\ 5\0d
\a\0d
\f\0d
\0d
\f\0d
\b\0d
\f\0d
\a\0d
\ 4\0d
\0d
\ 4\0d
\b\0d
\ 4\0d
\a\0d
\v\0d
\0d
\v\0d
\b\0d
\v\0d
\a\0d
\ 3\0d
\0d
\ 3\0d
\b\0d
\ 3\0d
\a\0d
32009 +
\0d
\a\0d
\ e\0d
\ 6\0d
\0d
\ 6\0d
\ f\0d
\ 6\0d
\b\0d
\ 6\0d
\10\0d
\ 6\0d
\a\0d
\ 6\0d
\11\0d
\ 6\0d
\ 1\0d
\0d
\ 1\0d
\b\0d
\ 1\0d
\a\0d
\11\0d
\ 1\0d
\a\0d
\ 1\0d
\10\0d
\ 1\0d
\b\0d
\ 1\0d
\ f\0d
\ 1\0d
\0d
\ 1\0d
\ e\0d
\ 1\0d
\ 6\0d
\a\0d
\ 6\0d
\b\0d
\ 6\0d
\0d
\11\0d
\0d
\11\0d
\b\0d
\11\0d
\a\0d
\a\0d
\0d
\a\0d
\b\0d
\a\0d
\a\0d
\10\0d
\0d
\10\0d
\b\0d
\10\0d
\a\0d
\b\0d
\0d
\b\0d
\b\0d
\b\0d
\a\0d
\ f\0d
\0d
\ f\0d
\b\0d
\ f\0d
\a\0d
\0d
\0d
\0d
\b\0d
\0d
\a\0d
\ e\0d
\0d
\ e\0d
\b\0d
\ e\0d
\a\0g
\ e\ 1}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0|
\ 1\0d
\12\0d
\13\0\83\ 3\0\ 1|
\ 2\0j
\ 3\0d
\14\0d
\ 2\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 4\0d
\15\0d
\16\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0d
\17\0d
\18\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0d
\13\0d
\19\0\83\ 2\0\ 1d
\15\0d
\17\0d
\1a\0d
\15\0d
\1a\0d
\e\0d
\17\0d
\13\0d
\1a\0d
\13\0d
\1c\0d
\1a\0d
\13\0d
\14\0d
\1d\0d
\13\0d
\1d\0d
\1c\0d
\14\0d
\1e\0d
\1d\0d
\1e\0d
\1f\0d
\1d\0d
\e\0d
\1a\0d
\0d
\e\0d
\0d!
\0d
\1a\0d
\1c\0d
\0d
\1c\0d"
\0d
\0d
\1c\0d
\1d\0d#
\0d
\1c\0d#
\0d"
\0d
\1d\0d
\1f\0d#
\0d
\1f\0d$
\0d#
\0d!
\0d
\0d%
\0d!
\0d%
\0d&
\0d
\0d"
\0d%
\0d"
\0d'
\0d%
\0d"
\0d#
\0d(
\0d"
\0d(
\0d'
\0d#
\0d$
\0d(
\0d$
\0d)
\0d(
\0d&
\0d%
\0d*
\0d&
\0d*
\0d+
\0d%
\0d'
\0d*
\0d'
\0d,
\0d*
\0d'
\0d(
\0d-
\0d'
\0d-
\0d,
\0d(
\0d)
\0d-
\0d)
\0d.
\0d-
\0d+
\0d*
\0d/
\0d+
\0d/
\0d0
\0d*
\0d,
\0d/
\0d,
\0d1
\0d/
\0d,
\0d-
\0d2
\0d,
\0d2
\0d1
\0d-
\0d.
\0d2
\0d.
\0d3
\0d2
\0d0
\0d/
\0d4
\0d0
\0d4
\0d5
\0d/
\0d1
\0d4
\0d1
\0d6
\0d4
\0d1
\0d2
\0d7
\0d1
\0d7
\0d6
\0d2
\0d3
\0d7
\0d3
\0d8
\0d7
\0d5
\0d4
\0d9
\0d5
\0d9
\0d:
\0d4
\0d6
\0d9
\0d6
\0d;
\0d9
\0d6
\0d7
\0d<
\0d6
\0d<
\0d;
\0d7
\0d8
\0d<
\0d8
\0d=
\0d<
\0d:
\0d9
\0d>
\0d:
\0d>
\0d?
\0d9
\0d;
\0d>
\0d;
\0d@
\0d>
\0d;
\0d<
\0dA
\0d;
\0dA
\0d@
\0d<
\0d=
\0dA
\0d=
\0dB
\0dA
\0gÀ
\0}
\ 3\0dC
\0dD
\0dE
\0dF
\0dD
\0dG
\0dH
\0dE
\0dG
\0dI
\0dJ
\0dH
\0dI
\0dK
\0dL
\0dJ
\0dF
\0dE
\0dM
\0dN
\0dE
\0dH
\0dO
\0dM
\0dH
\0dJ
\0dP
\0dO
\0dJ
\0dL
\0dQ
\0dP
\0dN
\0dM
\0dR
\0dS
\0dM
\0dO
\0dT
\0dR
\0dO
\0dP
\0dU
\0dT
\0dP
\0dQ
\0dV
\0dU
\0dS
\0dR
\0dW
\0dX
\0dR
\0dT
\0dY
\0dW
\0dT
\0dU
\0dZ
\0dY
\0dU
\0dV
\0d[
\0dZ
\0dX
\0dW
\0d\
\0d]
\0dW
\0dY
\0d^
\0d\
\0dY
\0dZ
\0d_
\0d^
\0dZ
\0d[
\0d`
\0d_
\0d]
\0d\
\0da
\0db
\0d\
\0d^
\0dc
\0da
\0d^
\0d_
\0dd
\0dc
\0d_
\0d`
\0de
\0dd
\0db
\0da
\0df
\0dg
\0da
\0dc
\0dh
\0df
\0dc
\0dd
\0di
\0dh
\0dd
\0de
\0dj
\0di
\0dg
\0df
\0dk
\0dl
\0df
\0dh
\0dm
\0dk
\0dh
\0di
\0dn
\0dm
\0di
\0dj
\0do
\0dn
\0dp
\0dq
\0dr
\0ds
\0dq
\0dt
\0du
\0dr
\0dt
\0dv
\0dw
\0du
\0dv
\0dx
\0dy
\0dw
\0ds
\0dr
\0dz
\0d{
\0dr
\0du
\0d|
\0dz
\0du
\0dw
\0d}
\0d|
\0dw
\0dy
\0d~
\0d}
\0d{
\0dz
\0d
\7f\0d
\80\0dz
\0d|
\0d
\81\0d
\7f\0d|
\0d}
\0d
\82\0d
\81\0d}
\0d~
\0d
\83\0d
\82\0d
\80\0d
\7f\0d
\84\0d
\85\0d
\7f\0d
\81\0d
\86\0d
\84\0d
\81\0d
\82\0d
\87\0d
\86\0d
\82\0d
\83\0d
\88\0d
\87\0d
\85\0d
\84\0d
\89\0d
\8a\0d
\84\0d
\86\0d
\8b\0d
\89\0d
\86\0d
\87\0d
\8c\0d
\8b\0d
\87\0d
\88\0d
\8d\0d
\8c\0d
\8a\0d
\89\0d
\8e\0d
\8f\0d
\89\0d
\8b\0d
\90\0d
\8e\0d
\8b\0d
\8c\0d
\91\0d
\90\0d
\8c\0d
\8d\0d
\92\0d
\91\0d
\8f\0d
\8e\0d
\93\0d
\94\0d
\8e\0d
\90\0d
\95\0d
\93\0d
\90\0d
\91\0d
\96\0d
\95\0d
\91\0d
\92\0d
\97\0d
\96\0d
\94\0d
\93\0d
\98\0d
\99\0d
\93\0d
\95\0d
\9a\0d
\98\0d
\95\0d
\96\0d
\9b\0d
\9a\0d
\96\0d
\97\0d
\9c\0d
\9b\0g
\0\ 1}
\ 4\0t
\ 5\0j
\ 1\0d
\9d\0d
\13\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 6\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\a\0d_
\0\83\ 1\0\ 1t
\b\0|
\ 3\0\83\ 1\0d
\14\0\1a}
\ 6\0x:
\0t
\0|
\ 6\0\83\ 1\0D],
\0}
\a\0|
\ 5\0j
32010 +
\0t
\v\0d
\14\0|
\ 3\0d
\14\0|
\a\0\14d
\14\0|
\a\0\14d
\14\0\17!
\83\ 3\0\ 1q& Wt
\b\0|
\ 4\0\83\ 1\0d
\1e\0\1a}
\b\0x:
\0t
\0|
\b\0\83\ 1\0D],
\0}
\a\0|
\ 5\0j
32011 +
\0t
\f\0d
\1e\0|
\ 4\0d
\1e\0|
\a\0\14d
\1e\0|
\a\0\14d
\1e\0\17!
\83\ 3\0\ 1qs W|
\ 5\0j
\r\0\83\0\0\ 1|
\ 5\0j
\ e\0d
\9e\0\83\ 1\0\ 1t
\ 5\0j
\ 1\0d
\9d\0d
\17\0\83\ 2\0}
\0|
\0j
\ 6\0|
\ 2\0\83\ 1\0\ 1d
\15\0d
\17\0d
\17\0d
\13\0d
\13\0d
\14\0d
\14\0d
\1e\0d
\1e\0d
\1f\0d
\1f\0d$
\0d$
\0d)
\0d)
\0d.
\0d.
\0d3
\0d3
\0d8
\0d8
\0d=
\0d=
\0dB
\0dB
\0dA
\0dA
\0d@
\0d@
\0d>
\0d>
\0d?
\0d?
\0d:
\0d:
\0d5
\0d5
\0d0
\0d0
\0d+
\0d+
\0d&
\0d&
\0d!
\0d!
\0d
\e\0d
\e\0d
\15\0dB
\0d=
\0d=
\0d8
\0d8
\0d3
\0d3
\0d.
\0d.
\0d)
\0d)
\0d$
\0d$
\0d
\1f\0d
\1f\0d
\1e\0d
\99\0d
\94\0d
\94\0d
\8f\0d
\8f\0d
\8a\0d
\8a\0d
\85\0d
\85\0d
\80\0d
\80\0d{
\0d{
\0ds
\0ds
\0dp
\0dp
\0dq
\0dq
\0dt
\0dt
\0dv
\0dv
\0dx
\0dx
\0dy
\0dy
\0d~
\0d~
\0d
\83\0d
\83\0d
\88\0d
\88\0d
\8d\0d
\8d\0d
\92\0d
\92\0d
\97\0d
\97\0d
\9c\0d
\9c\0d
\9b\0d
\9b\0d
\9a\0d
\9a\0d
\98\0d
\98\0d
\99\0dl
\0dg
\0dg
\0db
\0db
\0d]
\0d]
\0dX
\0dX
\0dS
\0dS
\0dN
\0dN
\0dF
\0dF
\0dC
\0dC
\0dD
\0dD
\0dG
\0dG
\0dI
\0dI
\0dK
\0dK
\0dL
\0dL
\0dQ
\0dQ
\0dV
\0dV
\0d[
\0d[
\0d`
\0d`
\0de
\0de
\0dj
\0dj
\0do
\0do
\0dn
\0dn
\0dm
\0dm
\0dk
\0dk
\0dl
\0g
\0}
32012 +
\0|
\0j
\a\0d
\81\0\83\ 1\0\ 1x:
\0t
\0d
\81\0\83\ 1\0D],
\0}
\a\0|
\0j
32014 +
\0d
\13\0|
\a\0\14d
\13\0|
\a\0\14d
\13\0\17!
\83\ 3\0\ 1qÙ
\vW|
\0j
\r\0\83\0\0\ 1|
\0j
\ e\0d
\9e\0\83\ 1\0\ 1t
\ 5\0j
\ 1\0d
\9d\0d
\15\0\83\ 2\0}
\v\0|
\v\0j
\ 6\0|
\ 2\0\83\ 1\0\ 1d?
\0d
\15\0d
\9c\0dK
\0g
\ 4\0}
\f\0|
\v\0j
\a\0d
\1e\0\83\ 1\0\ 1x.
\0t
\0d
\1e\0\83\ 1\0D]
\0}
\a\0|
\v\0j
32015 +
\0t
\10\0d
\17\0|
\f\0|
\a\0\19g
\ 1\0\83\ 3\0\ 1qk
\fW|
\v\0j
\r\0\83\0\0\ 1t
\11\0j
\ 1\0\83\0\0}
\r\0|
\r\0j
\12\0d_
\0d
\17\0\83\ 2\0\ 1d
\9f\0|
\r\0d~
\0*d
\0|
\r\0d~
\0d]
\0+d¡
\0|
\r\0d]
\0)t
\11\0j
\ 1\0\83\0\0}
\ e\0|
\ e\0j
\12\0d
\81\0d
\17\0\83\ 2\0\ 1d¢
\0|
\ e\0d
\1e\0*d£
\0|
\ e\0d
\1e\0d"
\0+d¤
\0|
\ e\0d"
\0d%
\0+d¥
\0|
\ e\0d%
\0d.
\0+d¦
\0|
\ e\0d.
\0d2
\0+d§
\0|
\ e\0d2
\0d6
\0+d¨
\0|
\ e\0d6
\0d>
\0+d©
\0|
\ e\0d>
\0d?
\0+dª
\0|
\ e\0d?
\0dx
\0+d«
\0|
\ e\0dx
\0d
\85\0+d¬
\0|
\ e\0d
\85\0d~
\0+d
\0|
\ e\0d~
\0d
\92\0+d®
\0|
\ e\0d
\92\0dz
\0+d¯
\0|
\ e\0dz
\0)t
\11\0j
\ 1\0\83\0\0}
\ f\0|
\ f\0j
\ 2\0d°
\0d±
\0d²
\0d³
\0g
\ 4\0d
\1e\0d
\17\0\83\ 3\0\ 1t
\11\0j
\ 1\0\83\0\0}
\10\0|
\10\0j
\12\0d
\12\0d
\17\0\83\ 2\0\ 1|
\10\0j
\13\0\83\0\0\ 1t
\11\0j
\ 1\0\83\0\0}
\11\0|
\11\0j
\12\0d#
\0d
\17\0\83\ 2\0\ 1|
\11\0j
\14\0d
\17\0\83\ 1\0\ 1|
\11\0|
\10\0d
\15\0d
\1e\0d.
\0dB
\0d?
\0d
\99\0dC
\0d
\9c\0dK
\0dp
\0dl
\0do
\0dx
\0g
\r\0<t
\11\0j
\ 1\0\83\0\0}
\12\0|
\12\0j
\12\0d_
\0d
\17\0\83\ 2\0\ 1|
\12\0j
\14\0d
\17\0\83\ 1\0\ 1t
\11\0j
\ 1\0\83\0\0}
\13\0|
\13\0j
\12\0d
\81\0d
\17\0\83\ 2\0\ 1|
\13\0j
\14\0dh
\0\83\ 1\0\ 1t
\11\0j
\ 1\0\83\0\0}
\14\0|
\14\0j
\12\0d
\1e\0d
\17\0\83\ 2\0\ 1|
\14\0j
\14\0da
\0\83\ 1\0\ 1d´
\0dµ
\0d¶
\0d·
\0d¸
\0d¹
\0dº
\0d»
\0d¼
\0d½
\0d¾
\0d¿
\0dÀ
\0dÁ
\0dÂ
\0dÃ
\0dÄ
\0dÅ
\0dÆ
\0dÇ
\0dÈ
\0dÉ
\0dÊ
\0dË
\0dÌ
\0dÍ
\0dÎ
\0dÏ
\0dÐ
\0dÑ
\0dÒ
\0dÓ
\0dÔ
\0dÕ
\0dÖ
\0g#
\0}
\15\0d¥
\0d
\e\0d¢
\0d
\17\0d¤
\0d¦
\0d
\1e\0d£
\0d
\13\0d¨
\0d
\1a\0d
\0d
\1c\0d«
\0d
\1d\0d®
\0d
\1f\0d©
\0d!
\0d¬
\0d
\0d¯
\0d"
\0dª
\0d#
\0d§
\0d
\14\0d
\15\0d°
\0d±
\0d²
\0d³
\0d¡
\0d
\0d
\9f\0g#
\0}
\16\0d×
\0dØ
\0dÙ
\0dÚ
\0dÛ
\0dÜ
\0dÝ
\0dÞ
\0dß
\0dà
\0dá
\0dâ
\0dã
\0dä
\0då
\0dæ
\0dç
\0dè
\0dé
\0dê
\0dë
\0dì
\0dí
\0dî
\0dï
\0dð
\0dñ
\0dò
\0dó
\0dô
\0dõ
\0dö
\0d÷
\0dø
\0dù
\0dú
\0dû
\0dü
\0g&
\0}
\17\0d
\e\0g
\ 1\0d¥
\0g
\ 1\0d
\17\0g
\ 1\0d¢
\0g
\ 1\0d
\1e\0g
\ 1\0d¤
\0g
\ 1\0d¦
\0g
\ 1\0d
\13\0g
\ 1\0d£
\0g
\ 1\0d°
\0g
\ 1\0d±
\0g
\ 1\0d²
\0g
\ 1\0d³
\0g
\ 1\0d°
\0d±
\0d²
\0d³
\0g
\ 4\0d
\1a\0g
\ 1\0d¨
\0g
\ 1\0d
\1c\0g
\ 1\0d
\0g
\ 1\0d
\1d\0g
\ 1\0d«
\0g
\ 1\0d
\1f\0g
\ 1\0d®
\0g
\ 1\0d!
\0g
\ 1\0d©
\0g
\ 1\0d
\0g
\ 1\0d¬
\0g
\ 1\0d"
\0g
\ 1\0d¯
\0g
\ 1\0d#
\0g
\ 1\0dª
\0g
\ 1\0d
\14\0g
\ 1\0d§
\0g
\ 1\0d¡
\0d
\0d
\9f\0g
\ 3\0d¡
\0g
\ 1\0d
\0g
\ 1\0d
\9f\0g
\ 1\0d°
\0d±
\0d²
\0d³
\0d¡
\0d
\0d
\9f\0g
\a\0d
\14\0g
\ 1\0g&
\0}
\18\0|
\ 5\0|
\0|
\v\0|
\r\0|
\ e\0|
\ f\0|
\10\0|
\12\0|
\13\0|
\14\0|
\15\0|
\16\0|
\17\0|
\18\0f
\ e\0S(ý
\0\0\0Ng
\0\0\0\0\0\0$@g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ô?g
\0\0\0\0\0\0\ 4@g
\0\0\0\0\0\0\ e@g
\0\0\0\0\0\0\14@g
\0\0\0\0\0\80!@g
\0\0\0\0\0\0\1e@g
\0\0\0\0\0\0\19@g
\0\0\0\0\0\0ä?g
\0\0\0\0\0\0þ?g
\0\0\0\0\0\0 @g
\0\0\0\0\0\80\11@g
\0\0\0\0\0\80\16@g
\0\0\0\0\0\80\e@g
\0\0\0\0\0@ @g
\0\0\0\0\0À"@i
\87\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\0\0\0\0s
\f\0\0\0X [INCONNUE]i
\ 1\0\0\0s
\f\0\0\0Y [INCONNUE]s
\f\0\0\0Z [INCONNUE]i
\ 6\0\0\0i
\ 5\0\0\0i
\a\0\0\0i
\b\0\0\0i
\ 4\0\0\0i
\0\0\0i
\v\0\0\0i
32016 +
\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0i
\10\0\0\0i
\ f\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0i
\15\0\0\0i
\14\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\1a\0\0\0i
\19\0\0\0i
\e\0\0\0i
\1c\0\0\0i
\1d\0\0\0i
\1f\0\0\0i
\1e\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i$
\0\0\0i#
\0\0\0i%
\0\0\0i&
\0\0\0i'
\0\0\0i(
\0\0\0i,
\0\0\0i)
\0\0\0i*
\0\0\0i+
\0\0\0i.
\0\0\0ie
\0\0\0ir
\0\0\0id
\0\0\0if
\0\0\0is
\0\0\0ig
\0\0\0it
\0\0\0i0
\0\0\0ih
\0\0\0iu
\0\0\0ic
\0\0\0iv
\0\0\0iw
\0\0\0ii
\0\0\0ix
\0\0\0ib
\0\0\0iy
\0\0\0iz
\0\0\0ij
\0\0\0i{
\0\0\0ia
\0\0\0i|
\0\0\0i}
\0\0\0ik
\0\0\0i~
\0\0\0i`
\0\0\0i
\7f\0\0\0i
\80\0\0\0il
\0\0\0i
\81\0\0\0i_
\0\0\0i
\82\0\0\0i
\83\0\0\0im
\0\0\0i
\84\0\0\0i^
\0\0\0i
\85\0\0\0i
\86\0\0\0in
\0\0\0iq
\0\0\0i2
\0\0\0ip
\0\0\0io
\0\0\0i3
\0\0\0i1
\0\0\0i<
\0\0\0iI
\0\0\0i;
\0\0\0i=
\0\0\0iJ
\0\0\0i>
\0\0\0iK
\0\0\0i4
\0\0\0i?
\0\0\0iL
\0\0\0i:
\0\0\0iM
\0\0\0iN
\0\0\0i@
\0\0\0iO
\0\0\0i9
\0\0\0iP
\0\0\0iQ
\0\0\0iA
\0\0\0iR
\0\0\0i8
\0\0\0iS
\0\0\0iT
\0\0\0iB
\0\0\0iU
\0\0\0i7
\0\0\0iV
\0\0\0iW
\0\0\0iC
\0\0\0iX
\0\0\0i6
\0\0\0iY
\0\0\0iZ
\0\0\0iD
\0\0\0i[
\0\0\0i5
\0\0\0i\
\0\0\0i]
\0\0\0iE
\0\0\0iH
\0\0\0i-
\0\0\0iG
\0\0\0iF
\0\0\0i/
\0\0\0t
\ 2\0\0\0mas
\13\0\0\0CREE PAR CODE_ASTERiÿÿÿÿiþÿÿÿiýÿÿÿiøÿÿÿi÷ÿÿÿiöÿÿÿiõÿÿÿiôÿÿÿióÿÿÿiòÿÿÿiñÿÿÿiðÿÿÿiïÿÿÿiîÿÿÿiíÿÿÿiìÿÿÿiëÿÿÿiüÿÿÿiûÿÿÿiúÿÿÿiùÿÿÿt
\0\0\0A1A2____________________________t
\0\0\0A1______________________________t
\0\0\0A2A4____________________________t
\0\0\0A2______________________________t
\0\0\0A3A1____________________________t
\0\0\0A3C5____________________________t
\0\0\0A3______________________________t
\0\0\0A4A3____________________________t
\0\0\0A4______________________________t
\0\0\0B1C1____________________________t
\0\0\0B1______________________________t
\0\0\0B2B4____________________________t
\0\0\0B2______________________________t
\0\0\0B3B1____________________________t
\0\0\0B3______________________________t
\0\0\0B4C3____________________________t
\0\0\0B4______________________________t
\0\0\0C1C4____________________________t
\0\0\0C1______________________________t
\0\0\0C2B2____________________________t
\0\0\0C2______________________________t
\0\0\0C3C2____________________________t
\0\0\0C3______________________________t
\0\0\0C4B3____________________________t
\0\0\0C4______________________________t
\0\0\0C5A4____________________________t
\0\0\0C5______PMMA____________________t
\f\0\0\0FAMILLE_ZEROt
\0\0\0MESH____APPS____AP1_____________t
\0\0\0MESH____APPS____AP2_____________t
\0\0\0MESH____APPS____AP3_____________t
\0\0\0MESH____APPS____AP4_____________t
\0\0\0MESH____DALQ1___DALLE___________t
\0\0\0MESH____DALQ2___DALLE___________t
\0\0\0MESH____DALT3___DALLE___________t
\ 2\0\0\0A1t
\ 4\0\0\0A1A2t
\ 2\0\0\0A2t
\ 4\0\0\0A2A4t
\ 2\0\0\0A3t
\ 4\0\0\0A3A1t
\ 4\0\0\0A3C5t
\ 2\0\0\0A4t
\ 4\0\0\0A4A3t
\ 3\0\0\0AP1t
\ 3\0\0\0AP2t
\ 3\0\0\0AP3t
\ 3\0\0\0AP4t
\ 4\0\0\0APPSt
\ 2\0\0\0B1t
\ 4\0\0\0B1C1t
\ 2\0\0\0B2t
\ 4\0\0\0B2B4t
\ 2\0\0\0B3t
\ 4\0\0\0B3B1t
\ 2\0\0\0B4t
\ 4\0\0\0B4C3t
\ 2\0\0\0C1t
\ 4\0\0\0C1C4t
\ 2\0\0\0C2t
\ 4\0\0\0C2B2t
\ 2\0\0\0C3t
\ 4\0\0\0C3C2t
\ 2\0\0\0C4t
\ 4\0\0\0C4B3t
\ 2\0\0\0C5t
\ 4\0\0\0C5A4t
\ 5\0\0\0DALLEt
\ 5\0\0\0DALQ1t
\ 5\0\0\0DALQ2t
\ 5\0\0\0DALT3t
\ 4\0\0\0MESHt
\ 4\0\0\0PMMA(
\15\0\0\0R
\ f\0\0\0R
\a\0\0\0R
\10\0\0\0t
\14\0\0\0changeNbOfComponentsR
\11\0\0\0R
\ 6\0\0\0R
\12\0\0\0R
32017 +
\0\0\0t
\ 3\0\0\0lent
\ 5\0\0\0rangeR
\v\0\0\0R
\1c\0\0\0R
\1e\0\0\0R
\ e\0\0\0t
\ e\0\0\0setDescriptionR
\f\0\0\0t
\v\0\0\0NORM_POINT1t
\f\0\0\0DataArrayIntt
\ 5\0\0\0alloct
\f\0\0\0fillWithZerot
\ 4\0\0\0iota(
\19\0\0\0R
\13\0\0\0t
\ 3\0\0\0coot
\ 4\0\0\0coo2t
\ 5\0\0\0c2trit
\a\0\0\0c2quad4t
\ 2\0\0\0m2t
\ 5\0\0\0nbTrit
\ 1\0\0\0it
\ 5\0\0\0nbQuat
\ 2\0\0\0m1t
\ 5\0\0\0c1segt
\ 2\0\0\0m0t
\ 4\0\0\0c0ptt
\ 2\0\0\0f2t
\ 2\0\0\0f1t
\ 2\0\0\0f0t
\ 1\0\0\0pt
\ 2\0\0\0p1t
\ 2\0\0\0n2t
\ 2\0\0\0n1t
\ 2\0\0\0n0t
\ 3\0\0\0fnst
\ 4\0\0\0fidst
\ 5\0\0\0grpnst
\f\0\0\0famIdsPerGrp(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\15\0\0\0buildMultiLevelMesh_1è
\0\0\0sº
\0\0\0\0\ 1ÿ
\0ÿ
\0ÿ
\03
\ 1\f\ 1\13\ 1\12\ 1\10\ 1\10\ 1\10\ 1ÿ
\0ÿ
\0H
\ 1ÿ
\0ÿ
\0ÿ
\0 \ 1\12\ 1\r\ 1\r\ 1\10\ 1\13\ 1&
\ 1\ 4\ 1\10\ 1\13\ 1&
\ 1\ 4\ 1
32018 +
\ 1\r\ 1\12\ 1\r\ 1ÿ
\0ç
\ 1\r\ 1\13\ 1&
\ 1\ 4\ 1
32019 +
\ 1\r\ 1\12\ 1\r\ 1\12\ 1\r\ 1\13\ 1\1a\ 1\ 4\ 1
32023 +
\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1
32024 +
\ 1\f\ 1\1f\ 1\f\ 1\10\ 1
32025 +
\ 1\f\ 1\10\ 1\r\ 11
\ 1\f\ 1\10\ 1\r\ 1\f\ 1\10\ 1\r\ 1\f\ 1\10\ 1\r\ 1o
\ 1o
\ 1x
\ 1ÿ
\0\f\ 1c
\ 2\0\0\0\15\0\0\0#
\0\0\0C
\0\0\0só
\ 5\0\0d
\ 1\0}
\ 2\0t
\0\0j
\ 1\0d
\ 2\0d
\ 3\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 2\0d
\ 4\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\ 5\0\83\ 1\0\ 1|
\ 3\0j
\ 2\0d
\ 3\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\ 6\0d
\a\0d
\b\0g
\ 3\0\83\ 1\0\ 1t
\ 5\0|
\ 2\0d
\ 3\0\83\ 2\0}
\ 4\0t
\ 6\0t
\ 6\0t
\a\0t
\a\0t
\a\0t
\b\0t
\b\0g
\a\0}
\ 5\0d
\0d
\ 4\0d
32026 +
\0d
\ 3\0g
\ 4\0d
\v\0d
\f\0d
\r\0d
\ e\0g
\ 4\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0g
\ 6\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0g
\ 6\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0g
\ 6\0d!
\0d"
\0d#
\0d$
\0d!
\0d%
\0d"
\0d$
\0d"
\0d%
\0d#
\0d$
\0d#
\0d%
\0d!
\0g
\ f\0d&
\0d'
\0d(
\0d)
\0d$
\0d*
\0d+
\0d,
\0d-
\0d$
\0d&
\0d*
\0d-
\0d'
\0d$
\0d'
\0d-
\0d,
\0d(
\0d$
\0d(
\0d,
\0d+
\0d)
\0d$
\0d)
\0d+
\0d*
\0d&
\0g
\1d\0g
\a\0}
\ 6\0|
\ 4\0j
\0t
32027 +
\0|
\ 5\0\83\ 1\0\83\ 1\0\ 1x-
\0t
\v\0|
\ 5\0|
\ 6\0\83\ 2\0D]
\1c\0\
\ 2\0}
\a\0}
\b\0|
\ 4\0j
\f\0|
\a\0|
\b\0\83\ 2\0\ 1q
\8f\ 1W|
\ 4\0j
\r\0\83\0\0\ 1|
\ 4\0j
\ e\0|
\ 3\0\83\ 1\0\ 1t
\ 5\0|
\ 2\0d
32028 +
\0\83\ 2\0}
\0t
\ f\0t
\ f\0t
\10\0t
\10\0t
\10\0t
\11\0t
\11\0t
\11\0t
\11\0g
\0}
32030 +
\0g
\ 3\0d
\ 3\0d
\v\0d
\f\0g
\ 3\0d
\r\0d
\ e\0d
\ f\0d
\10\0g
\ 4\0d
\11\0d
\12\0d
\13\0d
\14\0g
\ 4\0d
\15\0d
\16\0d
\17\0d
\18\0g
\ 4\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0g
\ 5\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\ 5\0d#
\0d%
\0d&
\0g
\ 3\0d'
\0d(
\0d)
\0d*
\0d-
\0d,
\0d+
\0g
\a\0g
\0}
\v\0|
\0j
\0t
32032 +
\0\83\ 1\0\83\ 1\0\ 1x-
\0t
\v\0|
32033 +
\0|
\v\0\83\ 2\0D]
\1c\0\
\ 2\0}
\a\0}
\b\0|
\0j
\f\0|
\a\0|
\b\0\83\ 2\0\ 1q¬
\ 2W|
\0j
\r\0\83\0\0\ 1|
\0j
\ e\0|
\ 3\0\83\ 1\0\ 1t
\12\0j
\ 1\0\83\0\0}
\f\0|
\f\0j
\13\0d
\0|
\ 4\0\83\ 2\0\ 1|
\f\0j
\13\0d$
\0|
\0\83\ 2\0\ 1t
\14\0j
\ 1\0d
\0d
\ 4\0d
\f\0d
\ e\0g
\ 4\0\83\ 1\0}
\r\0|
\r\0j
\15\0d.
\0\83\ 1\0\ 1t
\14\0j
\ 1\0d
\ 4\0d
32034 +
\0d
\ 3\0d
\v\0d
\r\0g
\ 5\0\83\ 1\0}
\ e\0|
\ e\0j
\15\0d/
\0\83\ 1\0\ 1|
\ 1\0j
\16\0t
\17\0|
\f\0j
\18\0d
\0|
\r\0|
\ e\0g
\ 2\0\83\ 4\0\ 1t
\14\0j
\ 1\0d
\0d
\ 4\0d
\f\0d
\r\0g
\ 4\0\83\ 1\0}
\r\0|
\r\0j
\15\0d.
\0\83\ 1\0\ 1|
\f\0j
\18\0d
\0|
\r\0|
\ e\0g
\ 2\0\83\ 2\0\ 1t
\14\0j
\ 1\0d
\ 4\0d
32035 +
\0d
\ 3\0d
\v\0d
\ e\0g
\ 5\0\83\ 1\0}
\ f\0|
\ f\0j
\15\0d0
\0\83\ 1\0\ 1t
\14\0j
\ 1\0d
32036 +
\0d
\ 3\0d
\v\0d
\f\0g
\ 4\0\83\ 1\0}
\10\0|
\10\0j
\15\0d1
\0\83\ 1\0\ 1t
\14\0j
\ 1\0d
\f\0d
\r\0d
\ e\0d
\ f\0g
\ 4\0\83\ 1\0}
\11\0|
\11\0j
\15\0d2
\0\83\ 1\0\ 1|
\f\0j
\18\0d$
\0|
\ f\0|
\10\0|
\11\0g
\ 3\0\83\ 2\0\ 1t
\14\0j
\ 1\0d
\0d
\12\0d
\16\0d
\17\0g
\ 4\0\83\ 1\0}
\12\0|
\12\0j
\15\0d3
\0\83\ 1\0\ 1t
\14\0j
\ 1\0d
\ 4\0d
32037 +
\0d
\14\0d
\15\0d
\17\0g
\ 5\0\83\ 1\0}
\13\0|
\13\0j
\15\0d4
\0\83\ 1\0\ 1|
\f\0j
\18\0d
\ 4\0|
\12\0|
\13\0g
\ 2\0\83\ 2\0\ 1|
\ 1\0j
\16\0t
\17\0|
\f\0j
\19\0d
\0t
\14\0j
\ 1\0d
\0d
\ f\0d
\10\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\11\0g
\b\0\83\ 1\0\83\ 4\0\ 1|
\f\0j
\19\0d
\0t
\14\0j
\ 1\0d
\0d
\ f\0d
\10\0d
\v\0d
\f\0d
\r\0d
\ e\0g
\a\0\83\ 1\0\83\ 2\0\ 1t
\14\0j
\ 1\0d
\0d
\ f\0d
\10\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\12\0d
\13\0g
\0\83\ 1\0}
\14\0|
\f\0j
\19\0d$
\0|
\14\0\83\ 2\0\ 1|
\f\0j
\19\0d$
\0d5
\0\83\ 2\0\ 1|
\f\0j
\19\0d$
\0|
\14\0\83\ 2\0\ 1t
\14\0j
\ 1\0|
\f\0j
\e\0\83\0\0d
\ 4\0\17\83\ 1\0}
\14\0|
\14\0j
\ 3\0d
\ f\0\83\ 1\0\ 1|
\ 1\0j
\16\0t
\17\0|
\f\0j
\19\0d
\ 4\0|
\14\0\83\ 4\0\ 1t
\14\0j
\ 1\0|
\f\0j
\e\0\83\0\0\83\ 1\0}
\14\0|
\14\0j
\ 3\0d
\ f\0\83\ 1\0\ 1|
\f\0j
\19\0d
\ 4\0|
\14\0\83\ 2\0\ 1|
\f\0S(6
\0\0\0sÔ
\0\0\0Level 0 (meshDim=3) - 2 TETRA4 + 3 PENTA6 + 2 POLYH
32038 + # POLYH #0 becomes 1 TETRA4
32039 + # POLYH #1 becomes HEXA8
32040 + # Level -1 (meshDim=2) - 2 TRI3 + 3 QUAD4 + 4 POLYG
32041 + # POLYG #2 becomes TRI3t
\r\0\0\0NightmareMeshi&
\0\0\0i
\ 3\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0@
\8f@s
\ 5\0\0\0X [m]s
\ 5\0\0\0Y [m]s
\ 5\0\0\0Z [m]i
\0\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
32042 +
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\19\0\0\0i
\1a\0\0\0i
\e\0\0\0i
\1c\0\0\0iÿÿÿÿi
\1d\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i%
\0\0\0i$
\0\0\0i#
\0\0\0t
\a\0\0\0grp0_L0t
\a\0\0\0grp1_L0t
\b\0\0\0grp0_LM1t
\b\0\0\0grp1_LM1t
\b\0\0\0grp2_LM1t
\0\0\0grp0_Nodet
\0\0\0grp1_NodeN(
\1c\0\0\0R
\ f\0\0\0R
\a\0\0\0t
\0\0\0rearrangeR
\8f\0\0\0t
\13\0\0\0setInfoOnComponentsR
\ 6\0\0\0t
\v\0\0\0NORM_TETRA4t
\v\0\0\0NORM_PENTA6R*
\0\0\0R
32043 +
\0\0\0R
\88\0\0\0t
\ 3\0\0\0zipR
\v\0\0\0R
\ e\0\0\0R
\12\0\0\0R
\1c\0\0\0R
\1e\0\0\0R
\1f\0\0\0t
\f\0\0\0MEDFileUMesht
\ e\0\0\0setMeshAtLevelR
\8c\0\0\0R
\b\0\0\0t
\f\0\0\0assertRaisest
\15\0\0\0InterpKernelExceptiont
\10\0\0\0setGroupsAtLevelt
\10\0\0\0setRenumFieldArrt
\ 4\0\0\0Nonet
\10\0\0\0getNumberOfNodes(
\15\0\0\0R
\13\0\0\0t
\ 6\0\0\0testert
\b\0\0\0meshNameR
\14\0\0\0t
\ 5\0\0\0mesh0t
\ 5\0\0\0type0t
\ 5\0\0\0conn0t
\ 3\0\0\0typt
\0\0\0nodalConnt
\ 6\0\0\0meshM1t
\ 6\0\0\0typeM1t
\ 6\0\0\0connM1t
\ 2\0\0\0mmRª
\0\0\0R«
\0\0\0R¬
\0\0\0R
\0\0\0R®
\0\0\0R¯
\0\0\0R°
\0\0\0t
\ 2\0\0\0da(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\13\0\0\0buildMLMeshUnPolyze=
\ 1\0\0sx
\0\0\0\0\ 6\ 6\ 2\12\0\r\0\r\0\r\0\16\ 1\ f\ 1\e\ 1í
\ 1\13\ 1\1c\ 1\10\ 1\ 4\ 1
32044 +
\ 1\r\ 2\ f\ 1!
\ 1\93\ 1\13\ 1\1c\ 1\10\ 1\ 4\ 1
32045 +
\ 1\r\ 2\f\ 1\10\ 1\10\ 1\e\0\r\ 1\1e\0\r\ 1\1f\ 1\e\0\r\ 1\16\ 1\1e\0\r\ 1\e\0\r\ 1\e\0\r\ 1\19\ 1\e\0\r\ 1\1e\0\r\ 1\16\ 2:
\ 1.
\ 1*
\ 1\10\ 1\10\ 1\10\ 1\19\0\r\0\19\ 1\15\0\r\0\10\ 1c
\ 1\0\0\0\a\0\0\0\12\0\0\0C
\0\0\0s
\ 1\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0}
\ 2\0t
\ 3\0j
\ 4\0t
\ 5\0t
\ 6\0\83\ 2\0}
\ 3\0|
\ 3\0j
\a\0d
\ 1\0\83\ 1\0\ 1|
\ 3\0j
\b\0|
\ 1\0\83\ 1\0\ 1t
\0j
\ 4\0\83\0\0}
\ 4\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
32046 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0g
\12\0}
\ 5\0|
\ 4\0j
32047 +
\0|
\ 5\0|
\ 2\0d
\14\0\83\ 3\0\ 1|
\ 4\0j
\v\0d
\15\0d
\16\0\83\ 2\0\ 1|
\ 4\0j
\v\0d
\17\0d
\18\0\83\ 2\0\ 1|
\ 4\0j
\v\0d
\19\0d
\1a\0\83\ 2\0\ 1|
\ 3\0j
\f\0|
\ 4\0\83\ 1\0\ 1|
\ 4\0j
\r\0\83\0\0}
\ 6\0|
\ 3\0j
\ e\0d
\b\0d
\15\0d
\17\0\83\ 3\0\ 1|
\ 3\0j
\ f\0\83\0\0\ 1|
\ 3\0S(
\e\0\0\0Nt
\12\0\0\0VectorFieldOnCellsg
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0$@g
\0\0\0\0\0\04@g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0&@g
\0\0\0\0\0\05@g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0(@g
\0\0\0\0\0\06@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0*@g
\0\0\0\0\0\07@g
\0\0\0\0\0\0\10@g
\0\0\0\0\0\0,@g
\0\0\0\0\0\08@g
\0\0\0\0\0\0\14@g
\0\0\0\0\0\0.@g
\0\0\0\0\0\09@i
\ 3\0\0\0i
\0\0\0\0s
\ e\0\0\0power [MW/m^3]i
\ 1\0\0\0s
\10\0\0\0density [g/cm^3]i
\ 2\0\0\0s
\ f\0\0\0temperature [K](
\10\0\0\0R
\ 4\0\0\0R.
\0\0\0t
\10\0\0\0getNumberOfCellst
\16\0\0\0MEDCouplingFieldDoubleR
\a\0\0\0t
\b\0\0\0ON_CELLSt
\b\0\0\0ONE_TIMER
\b\0\0\0t
\a\0\0\0setMeshR
\ f\0\0\0R
\10\0\0\0R
\11\0\0\0t
\b\0\0\0setArrayt
32048 +
\0\0\0getPointert
\a\0\0\0setTimet
\15\0\0\0checkConsistencyLight(
\a\0\0\0R
\13\0\0\0R
\16\0\0\0t
\0\0\0nbOfCellsR
\9d\0\0\0t
\ 5\0\0\0arrayt
\ 4\0\0\0arr1t
\ 3\0\0\0tmp(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\16\0\0\0buildVecFieldOnCells_1t
\ 1\0\0s
\0\0\0\0\ 1\f\ 1\f\ 1\12\ 1\r\ 1\r\ 1\f\ 1<
\ 1\13\ 1\10\ 1\10\ 1\10\ 1\r\ 1\f\ 1\13\ 1
32049 +
\ 1c
\ 1\0\0\0\ 6\0\0\0$
\0\0\0C
\0\0\0s3
\ 1\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0}
\ 2\0t
\ 3\0j
\ 4\0t
\ 5\0t
\ 6\0\83\ 2\0}
\ 3\0|
\ 3\0j
\a\0d
\ 1\0\83\ 1\0\ 1|
\ 3\0j
\b\0|
\ 1\0\83\ 1\0\ 1t
\0j
\ 4\0\83\0\0}
\ 4\0|
\ 3\0j
32050 +
\0|
\ 4\0\83\ 1\0\ 1d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
32051 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0d$
\0d%
\0g$
\0}
\ 5\0|
\ 4\0j
\v\0|
\ 5\0|
\ 2\0d&
\0\83\ 3\0\ 1|
\ 4\0j
\f\0d'
\0d(
\0\83\ 2\0\ 1|
\ 4\0j
\f\0d)
\0d*
\0\83\ 2\0\ 1|
\ 4\0j
\f\0d+
\0d,
\0\83\ 2\0\ 1|
\ 3\0j
\r\0d-
\0d+
\0d&
\0\83\ 3\0\ 1|
\ 3\0j
\ e\0\83\0\0\ 1|
\ 3\0S(.
\0\0\0Nt
\12\0\0\0VectorFieldOnNodesg
\0\0\0\0\0\80Q@g
\0\0\0\0\0\0T@g
\0\0\0\0\0\80V@g
\0\0\0\0\0ÀQ@g
\0\0\0\0\0@T@g
\0\0\0\0\0ÀV@g
\0\0\0\0\0\0R@g
\0\0\0\0\0\80T@g
\0\0\0\0\0\0W@g
\0\0\0\0\0@R@g
\0\0\0\0\0ÀT@g
\0\0\0\0\0@W@g
\0\0\0\0\0\80R@g
\0\0\0\0\0\0U@g
\0\0\0\0\0\80W@g
\0\0\0\0\0ÀR@g
\0\0\0\0\0@U@g
\0\0\0\0\0ÀW@g
\0\0\0\0\0@
\8f@g
\0\0\0\0\0\8dÃ@g
\0\0\0\0\0\92Ã@g
\0\0\0\0\0H
\8f@g
\0\0\0\0\80\8dÃ@g
\0\0\0\0\80\92Ã@g
\0\0\0\0\0P
\8f@g
\0\0\0\0\0\8eÃ@g
\0\0\0\0\0\93Ã@g
\0\0\0\0\0X
\8f@g
\0\0\0\0\80\8eÃ@g
\0\0\0\0\80\93Ã@g
\0\0\0\0\0`
\8f@g
\0\0\0\0\0\8fÃ@g
\0\0\0\0\0\94Ã@g
\0\0\0\0\0h
\8f@g
\0\0\0\0\80\8fÃ@g
\0\0\0\0\80\94Ã@i
\ 3\0\0\0i
\0\0\0\0s
\ e\0\0\0power [MW/m^3]i
\ 1\0\0\0s
\10\0\0\0density [g/cm^3]i
\ 2\0\0\0s
\ f\0\0\0temperature [K]gö(\
\8fÂõ
\0@(
\ f\0\0\0R
\ 4\0\0\0R.
\0\0\0R½
\0\0\0RÍ
\0\0\0R
\a\0\0\0t
\b\0\0\0ON_NODESRÏ
\0\0\0R
\b\0\0\0RÐ
\0\0\0R
\ f\0\0\0RÑ
\0\0\0R
\10\0\0\0R
\11\0\0\0RÓ
\0\0\0RÔ
\0\0\0(
\ 6\0\0\0R
\13\0\0\0R
\16\0\0\0t
\0\0\0nbOfNodesR
\9d\0\0\0RÖ
\0\0\0R×
\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\16\0\0\0buildVecFieldOnNodes_1
\86\ 1\0\0s
\0\0\0\0\ 1\f\ 1\f\ 1\12\ 1\r\ 1\r\ 1\f\ 1\r\ 16
\ 1<
\ 1\13\ 1\10\ 1\10\ 1\10\ 1\13\ 1
32052 +
\ 1c
\ 1\0\0\0\16\0\0\0\r\0\0\0C
\0\0\0s´
\ 2\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0d
\ 4\0}
\ 4\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 5\0d
\ 6\0g
\ 6\0}
\ 5\0d
\a\0|
\ 2\0\14d
\b\0\18d
\b\0d
\0|
\ 2\0\14\18d
\a\0|
\ 2\0\14d
\b\0\18d
32053 +
\0|
\ 2\0\14d
\b\0\18d
\b\0d
\0|
\ 2\0\14\18d
\a\0|
\ 2\0\14d
\b\0\18d
\b\0d
\0|
\ 1\0\14\18d
\a\0|
\ 1\0\14d
\b\0\18d
\a\0|
\ 1\0\14d
\b\0\18d
\b\0d
\0|
\ 1\0\14\18d
\a\0|
\ 1\0\14d
\b\0\18d
\a\0|
\ 1\0\14d
\b\0\18g
\f\0}
\ 6\0d
\0|
\ 4\0\14d
\0|
\ 4\0\14d
\0|
\ 4\0\14d
\0|
\ 3\0\14d
\0|
\ 3\0\14d
\0|
\ 3\0\14g
\ 6\0}
\a\0|
\ 5\0}
\b\0|
\ 6\0}
\0|
\a\0}
32054 +
\0t
\0\0j
\ 1\0\83\0\0}
\v\0t
\ 2\0j
\ 3\0t
\ 4\0t
\ 5\0\83\ 2\0}
\f\0|
\f\0j
\ 6\0d
\v\0d
\b\0d
\f\0\83\ 3\0\ 1|
\f\0j
\a\0|
\v\0\83\ 1\0\ 1|
\f\0j
\b\0t
\0|
\b\0|
\0|
32055 +
\0\83\ 4\0\ 1d
\r\0d
\ 6\0d
\r\0d
\r\0d
\ 6\0d
\r\0d
\r\0d
\ 5\0d
\ 5\0d
\r\0d
\ 5\0d
\ 5\0g
\f\0}
\r\0|
\r\0}
\ e\0|
\0d
\ e\0d
\ f\0!}
\0|
\0}
\ f\0|
32058 +
\0}
\10\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 6\0d
\ 6\0d
\ 5\0d
\ 6\0g
\b\0}
\11\0|
\11\0}
\12\0|
\0d
\ e\0d
\0!}
\0|
32062 +
\0\83\ 4\0\ 1|
\f\0j
\b\0t
\v\0|
\ e\0|
\ f\0|
\10\0\83\ 4\0\ 1t
\f\0j
\ 3\0\83\0\0}
\13\0|
\13\0j
\r\0d
\11\0d
\a\0\83\ 2\0\ 1|
\13\0j
\ e\0\83\0\0}
\14\0x1
\0t
\ f\0d
\16\0\83\ 1\0D]#
\0}
\15\0|
\13\0j
\10\0d
\ e\0|
\15\0t
\11\0|
\15\0d
\12\0\17\83\ 1\0\83\ 3\0\ 1qE
\ 2W|
\f\0j
\12\0|
\13\0\83\ 1\0\ 1|
\f\0j
\13\0d
\13\0\83\ 1\0\ 1|
\13\0j
\14\0d
\ e\0d
\14\0\83\ 2\0\ 1|
\13\0j
\14\0d
\b\0d
\15\0\83\ 2\0\ 1|
\f\0j
\15\0\83\0\0\ 1|
\f\0S(
\17\0\0\0Ng
\86ÂÞ×Í
\9aÜ?gÛ°
\1dê
\89q·?gB
\14\19\97Ä
\97¼?g2
\82\18'Ì%¬?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 2\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0g
\8fÂõ(\
\8f\0@g
\1f\85ëQ¸
\1e @i
\ 5\0\0\0g
\0\0\0\0\0\0ð¿i
\0\0\0\0i
\ 6\0\0\0i
\ 3\0\0\0i
\13\0\0\0i
\a\0\0\0t
\18\0\0\0MyFirstFieldOnGaussPoints
\ e\0\0\0power [MW/m^3]t
\a\0\0\0densityi&
\0\0\0(
\16\0\0\0R
\ 4\0\0\0R%
\0\0\0RÍ
\0\0\0R
\a\0\0\0t
\v\0\0\0ON_GAUSS_PTRÏ
\0\0\0RÓ
\0\0\0RÐ
\0\0\0t
\1a\0\0\0setGaussLocalizationOnTypeR
\1c\0\0\0R
\1e\0\0\0R
\1d\0\0\0R
\ f\0\0\0R
\8d\0\0\0RÒ
\0\0\0R
\89\0\0\0t
\ 5\0\0\0setIJt
\ 5\0\0\0floatRÑ
\0\0\0R
\b\0\0\0R
\11\0\0\0RÔ
\0\0\0(
\16\0\0\0R
\13\0\0\0t
\ 2\0\0\0_at
\ 2\0\0\0_bt
\ 3\0\0\0_p1t
\ 3\0\0\0_p2t
\a\0\0\0refCoo1t
\ 6\0\0\0gsCoo1t
\ 3\0\0\0wg1t
\b\0\0\0_refCoo1t
\a\0\0\0_gsCoo1t
\ 4\0\0\0_wg1t
\ 1\0\0\0mt
\ 1\0\0\0ft
\a\0\0\0refCoo2t
\b\0\0\0_refCoo2t
\a\0\0\0_gsCoo2t
\ 4\0\0\0_wg2t
\a\0\0\0refCoo3t
\b\0\0\0_refCoo3RÖ
\0\0\0t
\ 3\0\0\0ptrR
\96\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\16\0\0\0buildVecFieldOnGauss_1
\98\ 1\0\0sP
\0\0\0\0\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1\18\ 17
\ 1S
\ 10
\ 1\ 6\ 1\ 6\ 1\ 6\ 1\f\ 1\12\ 1\13\ 1\r\ 1\16\ 1*
\ 1\ 6\ 1\r\ 1\ 6\ 1\r\ 1\ 6\ 1\1e\ 1\ 6\ 1\r\ 1\r\ 1\16\ 1\16\ 1\f\ 1\10\ 1\f\ 1\13\ 1\1d\ 1\ 4\ 1\r\ 1\r\ 1\10\ 1\10\ 1
32063 +
\ 1c
\ 1\0\0\0\17\0\0\0\r\0\0\0C
\0\0\0sc
\ 3\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0d
\ 4\0}
\ 4\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 5\0d
\ 6\0g
\ 6\0}
\ 5\0d
\a\0|
\ 2\0\14d
\b\0\18d
\b\0d
\0|
\ 2\0\14\18d
\a\0|
\ 2\0\14d
\b\0\18d
32064 +
\0|
\ 2\0\14d
\b\0\18d
\b\0d
\0|
\ 2\0\14\18d
\a\0|
\ 2\0\14d
\b\0\18d
\b\0d
\0|
\ 1\0\14\18d
\a\0|
\ 1\0\14d
\b\0\18d
\a\0|
\ 1\0\14d
\b\0\18d
\b\0d
\0|
\ 1\0\14\18d
\a\0|
\ 1\0\14d
\b\0\18d
\a\0|
\ 1\0\14d
\b\0\18g
\f\0}
\ 6\0d
\0|
\ 4\0\14d
\0|
\ 4\0\14d
\0|
\ 4\0\14d
\0|
\ 3\0\14d
\0|
\ 3\0\14d
\0|
\ 3\0\14g
\ 6\0}
\a\0|
\ 5\0}
\b\0|
\ 6\0}
\0|
\a\0}
32065 +
\0t
\0\0j
\ 1\0\83\0\0}
\v\0t
\ 2\0j
\ 3\0t
\ 4\0t
\ 5\0\83\ 2\0}
\f\0|
\f\0j
\ 6\0d
\v\0d
\b\0d
\f\0\83\ 3\0\ 1|
\f\0j
\a\0|
\v\0\83\ 1\0\ 1t
\b\0j
\ 3\0\83\0\0}
\r\0|
\r\0j
\0d
\r\0d
\a\0d
\ e\0g
\ 3\0d
\ e\0d
\b\0\83\ 3\0\ 1|
\f\0j
32068 +
\0d
\ f\0c
\ 2\0\19d
\a\09
\ 3<|
\f\0j
32069 +
\0d
\b\0d
\f\0g
\ 2\0|
\b\0|
\0|
32071 +
\0d
\ f\0c
\ 2\0\19d
\a\09
\ 3<|
\f\0j
32072 +
\0d
\0g
\ 1\0|
\b\0|
\0|
32073 +
\0\83\ 4\0\ 1d
\10\0d
\ 6\0d
\10\0d
\10\0d
\ 6\0d
\10\0d
\10\0d
\ 5\0d
\ 5\0d
\10\0d
\ 5\0d
\ 5\0g
\f\0}
\ e\0|
\ e\0}
\ f\0|
\0d
\r\0d
\11\0!}
\0|
\0}
\10\0|
32076 +
\0}
\11\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 6\0d
\ 6\0d
\ 5\0d
\ 6\0g
\b\0}
\12\0|
\12\0}
\13\0|
\0d
\r\0d
\0!}
\0|
32079 +
\0d
\11\0d
\12\0d
\13\0g
\ 3\0|
\13\0|
\0|
32081 +
\0d
\ f\0c
\ 2\0\19d
\a\09
\ 3<|
\f\0j
32082 +
\0d
\14\0g
\ 1\0|
\13\0|
\0|
32083 +
\0\83\ 4\0\ 1|
\f\0j
\v\0t
\f\0|
\ f\0|
\10\0|
\11\0\83\ 4\0\ 1t
\r\0j
\ 3\0\83\0\0}
\14\0|
\14\0j
\ e\0d
\15\0d
\a\0\83\ 2\0\ 1|
\14\0j
\ f\0\83\0\0}
\15\0x1
\0t
\10\0d
\19\0\83\ 1\0D]#
\0}
\16\0|
\14\0j
\11\0d
\r\0|
\16\0t
\12\0|
\16\0d
\12\0\17\83\ 1\0\83\ 3\0\ 1qô
\ 2W|
\f\0j
\13\0|
\14\0\83\ 1\0\ 1|
\f\0j
\14\0d
\16\0\83\ 1\0\ 1|
\14\0j
\15\0d
\r\0d
\17\0\83\ 2\0\ 1|
\14\0j
\15\0d
\b\0d
\18\0\83\ 2\0\ 1|
\f\0j
\16\0\83\0\0\ 1|
\f\0S(
\1a\0\0\0Ng
\86ÂÞ×Í
\9aÜ?gÛ°
\1dê
\89q·?gB
\14\19\97Ä
\97¼?g2
\82\18'Ì%¬?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 2\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0g
\8fÂõ(\
\8f\0@g
\1f\85ëQ¸
\1e @i
\ 5\0\0\0i
\0\0\0\0i
\ 3\0\0\0iÿÿÿÿg
\0\0\0\0\0\0ð¿i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i5
\0\0\0RÞ
\0\0\0s
\ e\0\0\0power [MW/m^3]Rß
\0\0\0ij
\0\0\0(
\17\0\0\0R
\ 4\0\0\0R'
\0\0\0RÍ
\0\0\0R
\a\0\0\0Rà
\0\0\0RÏ
\0\0\0RÓ
\0\0\0RÐ
\0\0\0R
\8c\0\0\0R
\10\0\0\0t
\e\0\0\0setGaussLocalizationOnCellsRá
\0\0\0R
\1d\0\0\0R
\ f\0\0\0R
\8d\0\0\0RÒ
\0\0\0R
\89\0\0\0Râ
\0\0\0Rã
\0\0\0RÑ
\0\0\0R
\b\0\0\0R
\11\0\0\0RÔ
\0\0\0(
\17\0\0\0R
\13\0\0\0Rä
\0\0\0Rå
\0\0\0Ræ
\0\0\0Rç
\0\0\0Rè
\0\0\0Ré
\0\0\0Rê
\0\0\0Rë
\0\0\0Rì
\0\0\0Rí
\0\0\0Rî
\0\0\0Rï
\0\0\0t
\ 2\0\0\0diRð
\0\0\0Rñ
\0\0\0Rò
\0\0\0Ró
\0\0\0Rô
\0\0\0Rõ
\0\0\0RÖ
\0\0\0Rö
\0\0\0R
\96\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\16\0\0\0buildVecFieldOnGauss_2Â
\ 1\0\0s`
\0\0\0\0\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1\18\ 17
\ 1S
\ 10
\ 1\ 6\ 1\ 6\ 1\ 6\ 1\f\ 1\12\ 1\13\ 1\r\ 1\f\0\1c\ 1\16\ 1\10\ 1\1c\ 1\10\ 1\19\ 1*
\ 1\ 6\ 1\r\ 1\ 6\ 1\r\ 1\ 6\ 1\1e\ 1\ 6\ 1\r\ 1\r\ 1\1f\ 1\10\ 1\19\ 1\16\ 1\f\ 1\10\ 1\f\ 1\13\ 1\1d\ 1\ 4\ 1\r\ 1\r\ 1\10\ 1\10\ 1
32084 +
\ 1c
\ 1\0\0\0\17\0\0\0\r\0\0\0C
\0\0\0sc
\ 3\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0d
\ 4\0}
\ 4\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 5\0d
\ 6\0g
\ 6\0}
\ 5\0d
\a\0|
\ 2\0\14d
\b\0\18d
\b\0d
\0|
\ 2\0\14\18d
\a\0|
\ 2\0\14d
\b\0\18d
32085 +
\0|
\ 2\0\14d
\b\0\18d
\b\0d
\0|
\ 2\0\14\18d
\a\0|
\ 2\0\14d
\b\0\18d
\b\0d
\0|
\ 1\0\14\18d
\a\0|
\ 1\0\14d
\b\0\18d
\a\0|
\ 1\0\14d
\b\0\18d
\b\0d
\0|
\ 1\0\14\18d
\a\0|
\ 1\0\14d
\b\0\18d
\a\0|
\ 1\0\14d
\b\0\18g
\f\0}
\ 6\0d
\0|
\ 4\0\14d
\0|
\ 4\0\14d
\0|
\ 4\0\14d
\0|
\ 3\0\14d
\0|
\ 3\0\14d
\0|
\ 3\0\14g
\ 6\0}
\a\0|
\ 5\0}
\b\0|
\ 6\0}
\0|
\a\0}
32086 +
\0t
\0\0j
\ 1\0\83\0\0}
\v\0t
\ 2\0j
\ 3\0t
\ 4\0t
\ 5\0\83\ 2\0}
\f\0|
\f\0j
\ 6\0d
\v\0d
\b\0d
\f\0\83\ 3\0\ 1|
\f\0j
\a\0|
\v\0\83\ 1\0\ 1t
\b\0j
\ 3\0\83\0\0}
\r\0|
\r\0j
\0d
\r\0d
\b\0d
\a\0g
\ 3\0d
\ e\0d
\b\0\83\ 3\0\ 1|
\f\0j
32089 +
\0d
\ f\0c
\ 2\0\19d
\a\09
\ 3<|
\f\0j
32090 +
\0d
\ e\0d
\0g
\ 2\0|
\b\0|
\0|
32092 +
\0d
\ f\0c
\ 2\0\19d
\a\09
\ 3<|
\f\0j
32093 +
\0d
\f\0g
\ 1\0|
\b\0|
\0|
32094 +
\0\83\ 4\0\ 1d
\10\0d
\ 6\0d
\10\0d
\10\0d
\ 6\0d
\10\0d
\10\0d
\ 5\0d
\ 5\0d
\10\0d
\ 5\0d
\ 5\0g
\f\0}
\ e\0|
\ e\0}
\ f\0|
\0d
\r\0d
\11\0!}
\0|
\0}
\10\0|
32097 +
\0}
\11\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 6\0d
\ 6\0d
\ 5\0d
\ 6\0g
\b\0}
\12\0|
\12\0}
\13\0|
\0d
\r\0d
\0!}
\0|
32100 +
\0d
\11\0d
\12\0d
\13\0g
\ 3\0|
\13\0|
\0|
32102 +
\0d
\ f\0c
\ 2\0\19d
\a\09
\ 3<|
\f\0j
32103 +
\0d
\14\0g
\ 1\0|
\13\0|
\0|
32104 +
\0\83\ 4\0\ 1|
\f\0j
\v\0t
\f\0|
\ f\0|
\10\0|
\11\0\83\ 4\0\ 1t
\r\0j
\ 3\0\83\0\0}
\14\0|
\14\0j
\ e\0d
\15\0d
\a\0\83\ 2\0\ 1|
\14\0j
\ f\0\83\0\0}
\15\0x1
\0t
\10\0d
\19\0\83\ 1\0D]#
\0}
\16\0|
\14\0j
\11\0d
\r\0|
\16\0t
\12\0|
\16\0d
\12\0\17\83\ 1\0\83\ 3\0\ 1qô
\ 2W|
\f\0j
\13\0|
\14\0\83\ 1\0\ 1|
\f\0j
\14\0d
\16\0\83\ 1\0\ 1|
\14\0j
\15\0d
\r\0d
\17\0\83\ 2\0\ 1|
\14\0j
\15\0d
\b\0d
\18\0\83\ 2\0\ 1|
\f\0j
\16\0\83\0\0\ 1|
\f\0S(
\1a\0\0\0Ng
\86ÂÞ×Í
\9aÜ?gÛ°
\1dê
\89q·?gB
\14\19\97Ä
\97¼?g2
\82\18'Ì%¬?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 2\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0g
\8fÂõ(\
\8f\0@g
\1f\85ëQ¸
\1e @i
\ 5\0\0\0i
\0\0\0\0i
\ 3\0\0\0iÿÿÿÿg
\0\0\0\0\0\0ð¿i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i5
\0\0\0RÞ
\0\0\0s
\ e\0\0\0power [MW/m^3]Rß
\0\0\0ij
\0\0\0(
\17\0\0\0R
\ 4\0\0\0R'
\0\0\0RÍ
\0\0\0R
\a\0\0\0Rà
\0\0\0RÏ
\0\0\0RÓ
\0\0\0RÐ
\0\0\0R
\8c\0\0\0R
\10\0\0\0Rø
\0\0\0Rá
\0\0\0R
\1d\0\0\0R
\ f\0\0\0R
\8d\0\0\0RÒ
\0\0\0R
\89\0\0\0Râ
\0\0\0Rã
\0\0\0RÑ
\0\0\0R
\b\0\0\0R
\11\0\0\0RÔ
\0\0\0(
\17\0\0\0R
\13\0\0\0Rä
\0\0\0Rå
\0\0\0Ræ
\0\0\0Rç
\0\0\0Rè
\0\0\0Ré
\0\0\0Rê
\0\0\0Rë
\0\0\0Rì
\0\0\0Rí
\0\0\0Rî
\0\0\0Rï
\0\0\0Rù
\0\0\0Rð
\0\0\0Rñ
\0\0\0Rò
\0\0\0Ró
\0\0\0Rô
\0\0\0Rõ
\0\0\0RÖ
\0\0\0Rö
\0\0\0R
\96\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\1e\0\0\0buildVecFieldOnGauss_2_Simplerô
\ 1\0\0s`
\0\0\0\0\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1\18\ 17
\ 1S
\ 10
\ 1\ 6\ 1\ 6\ 1\ 6\ 1\f\ 1\12\ 1\13\ 1\r\ 1\f\0\1c\ 1\16\ 1\10\ 1\1c\ 1\10\ 1\19\ 1*
\ 1\ 6\ 1\r\ 1\ 6\ 1\r\ 1\ 6\ 1\1e\ 1\ 6\ 1\r\ 1\r\ 1\1f\ 1\10\ 1\19\ 1\16\ 1\f\ 1\10\ 1\f\ 1\13\ 1\1d\ 1\ 4\ 1\r\ 1\r\ 1\10\ 1\10\ 1
32105 +
\ 1c
\ 1\0\0\0\ 5\0\0\0\a\0\0\0C
\0\0\0sÖ
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0t
\ 2\0j
\ 3\0t
\ 4\0t
\ 5\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 6\0d
\ 1\0d
\ 2\0d
\ 3\0\83\ 3\0\ 1|
\ 2\0j
\a\0|
\ 1\0\83\ 1\0\ 1t
\b\0j
\ 3\0\83\0\0}
\ 3\0|
\ 3\0j
\0d
\ 4\0d
\ 5\0\83\ 2\0\ 1x1
\0t
32106 +
\0d
\v\0\83\ 1\0D]#
\0}
\ 4\0|
\ 3\0j
\v\0d
\ 6\0|
\ 4\0t
\f\0|
\ 4\0d
\a\0\17\83\ 1\0\83\ 3\0\ 1qg
\0W|
\ 2\0j
\r\0|
\ 3\0\83\ 1\0\ 1|
\ 3\0j
\ e\0d
\ 6\0d
\b\0\83\ 2\0\ 1|
\ 3\0j
\ e\0d
\ 2\0d
\0\83\ 2\0\ 1|
\ 2\0j
\ f\0d
32107 +
\0\83\ 1\0\ 1|
\ 2\0j
\10\0\83\0\0\ 1|
\ 2\0S(
\f\0\0\0Ng
\1f\85ëQ¸
\1e @i
\ 1\0\0\0i
\ 5\0\0\0i
\14\0\0\0i
\ 2\0\0\0i
\0\0\0\0i
\b\0\0\0s
\0\0\0power [W]t
\v\0\0\0temperaturet
\10\0\0\0MyFieldOnGaussNEi(
\0\0\0(
\11\0\0\0R
\ 4\0\0\0R%
\0\0\0RÍ
\0\0\0R
\a\0\0\0t
\v\0\0\0ON_GAUSS_NERÏ
\0\0\0RÓ
\0\0\0RÐ
\0\0\0R
\ f\0\0\0R
\8d\0\0\0R
\89\0\0\0Râ
\0\0\0Rã
\0\0\0RÑ
\0\0\0R
\11\0\0\0R
\b\0\0\0RÔ
\0\0\0(
\ 5\0\0\0R
\13\0\0\0Rî
\0\0\0Rï
\0\0\0RÖ
\0\0\0R
\96\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\18\0\0\0buildVecFieldOnGaussNE_1%
\ 2\0\0s
\1c\0\0\0\0\ 1\f\ 1\12\ 1\13\ 1\r\ 1\f\ 1\10\ 1\13\ 1!
\ 1\r\ 1\10\ 1\10\ 1\r\ 1
32108 +
\ 1c
\ 1\0\0\0%
\0\0\0\13\0\0\0C
\0\0\0s°
\ 6\0\0t
\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0g
\12\0d
\ 4\0d
\ 3\0\83\ 3\0}
\ 1\0t
\ 1\0d
\ 5\0d
\ 3\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 2\0|
\ 1\0\83\ 1\0\ 1|
\ 2\0j
\ 3\0\83\0\0\ 1|
\ 2\0j
\ 4\0t
\ 5\0d
\ 2\0d
\ 6\0d
\ 3\0g
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0t
\ 5\0d
\ 6\0d
\a\0d
\ 3\0g
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0t
\ 6\0d
\ 1\0d
\b\0d
\ 6\0d
\ 2\0g
\ 4\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0t
\ 6\0d
\0d
32109 +
\0d
\ 6\0d
\b\0g
\ 4\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0t
\ 6\0d
32110 +
\0d
\v\0d
\a\0d
\ 6\0g
\ 4\0\83\ 2\0\ 1|
\ 2\0j
\a\0\83\0\0}
\ 3\0t
\b\0\83\0\0}
\ 4\0|
\ 4\0j
\0d
\ 1\0|
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\0d
\f\0|
\ 3\0\83\ 2\0\ 1t
32111 +
\0d
\ 1\0d
\ 3\0d
\ 6\0g
\ 3\0\83\ 1\0}
\ 5\0|
\ 5\0j
\v\0d
\r\0\83\ 1\0\ 1t
32112 +
\0d
\ 2\0d
\ 3\0d
\b\0d
\ 6\0g
\ 4\0\83\ 1\0}
\ 6\0|
\ 6\0j
\v\0d
\ e\0\83\ 1\0\ 1t
32113 +
\0d
\ 1\0d
\ 6\0g
\ 2\0\83\ 1\0}
\a\0|
\a\0j
\v\0d
\ f\0\83\ 1\0\ 1|
\ 4\0j
\f\0d
\ 1\0|
\ 5\0|
\ 6\0|
\a\0g
\ 3\0\83\ 2\0\ 1t
32114 +
\0d
\ 1\0d
\ 2\0g
\ 2\0\83\ 1\0}
\b\0|
\b\0j
\v\0d
\10\0\83\ 1\0\ 1t
32115 +
\0d
\ 3\0d
\b\0d
\ 6\0d
\a\0d
\0d
32116 +
\0g
\ 6\0\83\ 1\0}
\0|
\0j
\v\0d
\11\0\83\ 1\0\ 1t
32117 +
\0d
\ 1\0d
\b\0g
\ 2\0\83\ 1\0}
32119 +
\0j
\v\0d
\12\0\83\ 1\0\ 1|
\ 4\0j
\f\0d
\f\0|
\b\0|
\0|
32120 +
\0g
\ 3\0\83\ 2\0\ 1t
\r\0\83\0\0}
\v\0|
\v\0j
\ e\0|
\ 4\0\83\ 1\0\ 1t
\ f\0\83\0\0}
\f\0d
\13\0}
\r\0d#
\0d$
\0g
\ 2\0}
\ e\0t
\10\0\83\0\0}
\ f\0xº
\0t
\11\0|
\ e\0\83\ 1\0D]¬
\0\
\ 2\0}
\10\0\
\ 3\0}
\11\0}
\12\0}
\13\0t
\12\0t
\13\0t
\14\0\83\ 2\0}
\14\0|
\14\0j
\15\0|
\13\0|
\11\0|
\12\0\83\ 3\0\ 1|
\14\0j
\16\0|
\ 2\0\83\ 1\0\ 1t
\0\0|
\ 2\0j
\17\0\83\0\0d
\ 2\0\83\ 2\0}
\15\0|
\15\0j
\18\0\83\0\0\ 1|
\15\0d
\ 2\0|
\10\0\177}
\15\0|
\15\0d
\16\09}
\15\0|
\14\0j
\19\0|
\15\0\83\ 1\0\ 1|
\14\0j
\1a\0\83\0\0\ 1|
\14\0j
\v\0|
\r\0\83\ 1\0\ 1|
\ f\0j
\e\0|
\14\0\83\ 1\0\ 1qq
\ 2W|
\f\0j
\1c\0|
\ f\0\83\ 1\0\ 1d
\17\0}
\16\0d%
\0d&
\0d'
\0g
\ 3\0}
\17\0t
\10\0\83\0\0}
\18\0xG
\ 1t
\11\0|
\17\0\83\ 1\0D]9
\ 1\
\ 2\0}
\10\0\
\ 3\0}
\11\0}
\12\0}
\13\0t
\12\0t
\13\0t
\14\0\83\ 2\0}
\19\0|
\19\0j
\15\0|
\13\0|
\11\0|
\12\0\83\ 3\0\ 1|
\19\0j
\16\0|
\ 2\0\83\ 1\0\ 1t
\0\0|
\ 2\0j
\17\0\83\0\0d
\ 2\0\83\ 2\0}
\15\0|
\15\0j
\18\0\83\0\0\ 1|
\15\0d
\ 2\0|
\10\0\177}
\15\0|
\19\0j
\19\0|
\15\0\83\ 1\0\ 1|
\19\0j
\1a\0\83\0\0\ 1|
\19\0j
\v\0|
\16\0\83\ 1\0\ 1|
\18\0j
\e\0|
\19\0\83\ 1\0\ 1t
\12\0t
\13\0t
\14\0\83\ 2\0}
\1a\0|
\1a\0j
\15\0|
\13\0|
\11\0|
\12\0\83\ 3\0\ 1|
\1a\0j
\16\0|
\ 3\0\83\ 1\0\ 1t
\0\0|
\ 3\0j
\17\0\83\0\0d
\ 2\0\83\ 2\0}
\15\0|
\15\0j
\18\0\83\0\0\ 1|
\15\0d(
\0|
\10\0\177}
\15\0|
\1a\0j
\19\0|
\15\0\83\ 1\0\ 1|
\1a\0j
\1a\0\83\0\0\ 1|
\1a\0j
\v\0|
\16\0\83\ 1\0\ 1|
\18\0|
\11\0|
\12\0f
\ 2\0\19j
\1d\0|
\1a\0\83\ 1\0\ 1qY
\ 3W|
\f\0j
\1c\0|
\18\0\83\ 1\0\ 1d
\e\0}
\e\0d)
\0d*
\0d+
\0d,
\0g
\ 4\0}
\1c\0t
\10\0\83\0\0}
\1d\0xµ
\ 1t
\11\0|
\1c\0\83\ 1\0D]§
\ 1\
\ 2\0}
\10\0\
\ 3\0}
\11\0}
\12\0}
\13\0t
32121 +
\0d
\ 1\0d
\ 2\0d
\b\0d
\ 6\0g
\ 4\0\83\ 1\0}
\1e\0|
\1e\0j
\v\0d
\1f\0\83\ 1\0\ 1|
\ 2\0|
\1e\0\19}
\1f\0t
\12\0t
\13\0t
\14\0\83\ 2\0}
\0|
\0j
\15\0|
\13\0|
\11\0|
\12\0\83\ 3\0\ 1|
\0j
\16\0|
\1f\0\83\ 1\0\ 1t
\0\0|
\1f\0j
\17\0\83\0\0d
\ 2\0\83\ 2\0}
\15\0|
\15\0j
\18\0\83\0\0\ 1|
\15\0d
\0|
\10\0\17d
\ 2\0\177}
\15\0|
\0j
\19\0|
\15\0\83\ 1\0\ 1|
\0j
\1a\0\83\0\0\ 1|
\0j
\v\0|
\e\0\83\ 1\0\ 1|
\1d\0j
\1e\0|
\0|
\ 4\0d
\ 1\0|
\1e\0\83\ 4\0\ 1t
32122 +
\0d
\ 1\0d
\b\0g
\ 2\0\83\ 1\0}!
\0|!
\0j
\v\0d!
\0\83\ 1\0\ 1|
\ 3\0|!
\0\19}"
\0t
\12\0t
\13\0t
\14\0\83\ 2\0}#
\0|#
\0j
\15\0|
\13\0|
\11\0|
\12\0\83\ 3\0\ 1|#
\0j
\16\0|"
\0\83\ 1\0\ 1t
\0\0|"
\0j
\17\0\83\0\0d
\ 2\0\83\ 2\0}
\15\0|
\15\0j
\18\0\83\0\0\ 1|
\15\0d-
\0|
\10\0\177}
\15\0|#
\0j
\19\0|
\15\0\83\ 1\0\ 1|#
\0j
\1a\0\83\0\0\ 1|#
\0j
\v\0|
\e\0\83\ 1\0\ 1|
\1d\0|
\11\0|
\12\0f
\ 2\0\19j
\1f\0|#
\0|
\ 4\0d
\f\0|!
\0\83\ 4\0\ 1qÑ
\ 4W|
\f\0j
\1c\0|
\1d\0\83\ 1\0\ 1t
\0\83\0\0}$
\0|$
\0j!
\0|
\v\0\83\ 1\0\ 1|$
\0j"
\0|
\f\0\83\ 1\0\ 1|$
\0S(.
\0\0\0Ni
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\0\0\0R
\16\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 3\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0iÿÿÿÿt
\0\0\0gr0_0_2_4t
\v\0\0\0gr0_1_2_3_4t
\a\0\0\0gr0_0_4t
\ e\0\0\0grM1_SegOnTri3t
\ f\0\0\0grM1_SegOnQuad4t
\v\0\0\0grM1_bottomt
32123 +
\0\0\0fNoProfileg{
\14®Gáz
\84?g{
\14®Gáz
\94?g
\9a\99\99\99\99\99¹?t
\13\0\0\0fNoProfileMultiLevsg
\0\0\0\0\0\0\0\0g
\9a\99\99\99\99\99É?id
\0\0\0t
\11\0\0\0fProfileMultiLevsg
\0\0\0\0\0\0$@g
\0\0\0\0\0\04@g
\0\0\0\0\0\0>@t
\ 4\0\0\0pfl1iè
\ 3\0\0t
32124 +
\0\0\0pfl2BottomiÐ
\a\0\0(
\ 3\0\0\0i
\0\0\0\0iÿÿÿÿg{
\14®Gáz
\84?(
\ 3\0\0\0i
\ 1\0\0\0iÿÿÿÿg{
\14®Gáz
\94?(
\ 3\0\0\0i
\0\0\0\0iÿÿÿÿg
\0\0\0\0\0\0\0\0(
\ 3\0\0\0i
\ 1\0\0\0iÿÿÿÿg
\9a\99\99\99\99\99¹?(
\ 3\0\0\0i
\ 2\0\0\0iÿÿÿÿg
\9a\99\99\99\99\99É?ie
\0\0\0(
\ 3\0\0\0i
\0\0\0\0iÿÿÿÿg
\0\0\0\0\0\0\0\0(
\ 3\0\0\0i
\ 1\0\0\0iÿÿÿÿg
\0\0\0\0\0\0$@(
\ 3\0\0\0i
\ 2\0\0\0iÿÿÿÿg
\0\0\0\0\0\04@(
\ 3\0\0\0i
\ 3\0\0\0iÿÿÿÿg
\0\0\0\0\0\0>@iÑ
\a\0\0(#
\0\0\0R
\ f\0\0\0R
\ 6\0\0\0R
\12\0\0\0R
32125 +
\0\0\0R
\v\0\0\0R
\1c\0\0\0R
\1e\0\0\0t
\v\0\0\0computeSkinR¶
\0\0\0R·
\0\0\0R
\8c\0\0\0R
\b\0\0\0Rº
\0\0\0t
\r\0\0\0MEDFileMeshest
\b\0\0\0pushMesht
\r\0\0\0MEDFileFieldst
\13\0\0\0MEDFileFieldMultiTSt
\0\0\0enumerateRÍ
\0\0\0RÎ
\0\0\0RÏ
\0\0\0RÓ
\0\0\0RÐ
\0\0\0RÌ
\0\0\0R
\8f\0\0\0RÑ
\0\0\0RÔ
\0\0\0t
\17\0\0\0appendFieldNoProfileSBTt
\0\0\0pushFieldt
\14\0\0\0setFieldNoProfileSBTt
\12\0\0\0appendFieldProfilet
\ f\0\0\0setFieldProfilet
\v\0\0\0MEDFileDatat
\0\0\0setMeshest
\0\0\0setFields(%
\0\0\0R
\13\0\0\0R
\90\0\0\0R
\9a\0\0\0R
\98\0\0\0RÈ
\0\0\0t
\ 4\0\0\0grp0t
\ 4\0\0\0grp1t
\ 4\0\0\0grp2t
\ 4\0\0\0grp3t
\ 4\0\0\0grp4t
\ 4\0\0\0grp5t
\ 2\0\0\0mst
\ 2\0\0\0fst
\ 6\0\0\0f1Namet
\v\0\0\0timeStepsF1R
\9d\0\0\0R
\96\0\0\0t
\ 2\0\0\0itt
\ 5\0\0\0ordert
\ 3\0\0\0timt
\ 6\0\0\0f11Tmpt
\ 3\0\0\0arrt
\ 6\0\0\0f2Namet
\v\0\0\0timeStepsF2R
\9c\0\0\0t
\ 6\0\0\0f21Tmpt
\ 6\0\0\0f22Tmpt
\ 6\0\0\0f3Namet
\v\0\0\0timeStepsF3t
\ 2\0\0\0f3R
\ 1\0\0t
\ 6\0\0\0m0Partt
\ 6\0\0\0f31Tmpt
\ 4\0\0\0pfl2t
\ 6\0\0\0m1Partt
\ 6\0\0\0f32Tmpt
\ 4\0\0\0data(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt1
\0\0\0buildACompleteMEDDataStructureWithFieldsOnCells_15
\ 2\0\0sÚ
\0\0\0\0\ 1H
\ 1\ f\ 1\r\ 1
32126 +
\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1\1c\ 1\f\ 1 \ 2\10\0\10\ 2\15\0\r\ 1\18\0\r\ 1\12\0\r\ 1\19\ 1\12\0\r\ 1\1e\0\r\ 1\12\0\r\ 1\19\ 1 \ 1\r\ 2 \ 2\ 6\ 1\f\ 1 \ 1"
\ 1\ f\ 1\13\ 1\r\ 1\15\0
32129 +
\ 1\r\ 1\r\ 1\ 4\ 1\r\ 2\ 6\ 1\ f\ 1 \ 1"
\ 1\ f\ 1\13\ 1\r\ 1\15\0
32131 +
\ 1\r\ 1\r\ 1\ f\ 1\13\ 1\r\ 1\15\0
32133 +
\ 1\r\ 1\17\ 1\ 4\ 1\r\ 2\ 6\ 1\12\ 1 \ 1"
\ 1\18\0\r\ 1
32134 +
\ 1\ f\ 1\13\ 1\r\ 1\15\0
32136 +
\ 1\r\ 1\16\ 1\12\0\r\ 1
32137 +
\ 1\ f\ 1\13\ 1\r\ 1\15\0
32139 +
\ 1\r\ 1 \ 1\ 4\ 1\r\ 2 \0\r\0\r\ 1c
\ 1\0\0\0\f\0\0\0\b\0\0\0C
\0\0\0s1
\ 2\0\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 1\0g
\b\0}
\ 1\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 4\0}
\ 2\0d
\a\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 5\0d
\ 6\0d
\ 3\0g
\b\0}
\ 3\0t
\0\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 2\0d
\ 4\0\83\ 1\0\ 1|
\ 4\0j
\ 3\0d
\ 3\0\83\ 1\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0d
\ 6\0|
\ 2\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0\83\0\0\ 1t
\0\0j
\ 1\0\83\0\0}
\ 5\0|
\ 5\0j
\ 2\0d
\ 3\0\83\ 1\0\ 1|
\ 5\0j
\ 3\0d
\ 6\0\83\ 1\0\ 1|
\ 5\0j
\ 4\0t
\a\0d
\ 4\0|
\ 3\0d
\a\0d
\ 4\0!
\83\ 3\0\ 1|
\ 5\0j
\ 4\0t
\a\0d
\ 4\0|
\ 3\0d
\ 4\0d
\ 6\0!
\83\ 3\0\ 1|
\ 5\0j
\ 4\0t
\a\0d
\ 4\0|
\ 3\0d
\ 6\0d
\b\0!
\83\ 3\0\ 1|
\ 5\0j
\ 4\0t
\a\0d
\ 4\0|
\ 3\0d
\b\0d
\0!
\83\ 3\0\ 1|
\ 5\0j
\ 6\0\83\0\0\ 1t
\b\0j
\ 1\0\83\0\0}
\ 6\0|
\ 6\0j
\0|
\ 1\0d
\ 6\0d
\ 4\0\83\ 3\0\ 1|
\ 4\0j
32140 +
\0|
\ 6\0\83\ 1\0\ 1|
\ 5\0j
32141 +
\0|
\ 6\0\83\ 1\0\ 1t
\v\0j
\ 1\0\83\0\0}
\a\0|
\a\0j
\f\0d
\a\0|
\ 4\0\83\ 2\0\ 1|
\a\0j
\f\0d
32142 +
\0|
\ 5\0\83\ 2\0\ 1|
\a\0j
\r\0d
\v\0\83\ 1\0\ 1t
\ e\0j
\ 1\0d
\a\0g
\ 1\0\83\ 1\0}
\b\0|
\b\0j
\r\0d
\f\0\83\ 1\0\ 1t
\ e\0j
\ 1\0d
\a\0d
\ 3\0d
\ 4\0d
\ 5\0g
\ 4\0\83\ 1\0}
\0|
\0j
\r\0d
\r\0\83\ 1\0\ 1|
\a\0j
\ f\0d
32143 +
\0|
\b\0|
\0g
\ 2\0\83\ 2\0\ 1t
\10\0j
\ 1\0\83\0\0}
32145 +
\0j
\11\0d
\a\0|
\a\0\83\ 2\0\ 1t
\12\0j
\ 1\0\83\0\0}
\v\0|
\v\0j
\13\0|
32146 +
\0\83\ 1\0\ 1|
\v\0S(
\ e\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\0\0\0\0i
\ 6\0\0\0i
\b\0\0\0iÿÿÿÿt
\ 5\0\0\0carreR¬
\0\0\0R
\0\0\0(
\14\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\0\0\0R
32147 +
\0\0\0R
\v\0\0\0R
\1e\0\0\0R
\ e\0\0\0R
\f\0\0\0R
\ f\0\0\0R
\10\0\0\0R
\12\0\0\0R¶
\0\0\0R·
\0\0\0R
\b\0\0\0R
\8c\0\0\0Rº
\0\0\0R
\f\ 1\0\0t
\f\0\0\0setMeshAtPosR
\16\ 1\0\0R
\17\ 1\0\0(
\f\0\0\0t
\ 4\0\0\0selfR
\14\0\0\0t
\ 6\0\0\0conn2Dt
\ 6\0\0\0conn1Dt
\ 6\0\0\0mesh2Dt
\ 6\0\0\0mesh1Dt
32148 +
\0\0\0meshCoordsRÈ
\0\0\0R¬
\0\0\0R
\0\0\0R
\1f\ 1\0\0t
\ 3\0\0\0mfd(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt,
\0\0\0buildAMEDFileDataWithGroupOnOneFamilyForSauv
\95\ 2\0\0sD
\0\0\0\0\ 2\1e\ 2\12\ 2\1e\ 2\f\ 1\r\ 1\r\ 1\13\ 1
32149 +
\ 2\f\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
32150 +
\ 2\f\ 1\13\ 1\r\ 1\r\ 2\f\ 1\10\ 1\10\ 1\r\ 3\12\ 1\r\ 2\e\ 1\r\ 2\16\ 2\f\ 1\10\ 1\f\ 1\r\ 2(
\15\0\0\0t
\b\0\0\0__name__t
32151 +
\0\0\0__module__R
\18\0\0\0R
\1a\0\0\0R#
\0\0\0R%
\0\0\0R'
\0\0\0R,
\0\0\0R.
\0\0\0R<
\0\0\0R¨
\0\0\0RÊ
\0\0\0RÙ
\0\0\0RÝ
\0\0\0R÷
\0\0\0Rú
\0\0\0Rû
\0\0\0Rÿ
\0\0\0R5
\ 1\0\0R?
\ 1\0\0t
\v\0\0\0classmethod(
\0\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyR
\ 4\0\0\0\19\0\0\0sJ
\0\0\0\ 6\ 1 \12 \11 \16 \16 \1d >
\16 \ e U 7
\12 \12 * 2 1
\10 ` 1
\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1\f\ 1N(
\0\0\0\0(
\ 6\0\0\0t
\0\0\0MEDLoadert
\ 4\0\0\0mathR
\ 1\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0(
\0\0\0\0(
\0\0\0\0(
\0\0\0\0sy
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderDataForTest.pyt
\b\0\0\0<module>
\16\0\0\0s
\ 4\0\0\0
32153 \ Pas de fin de ligne à la fin du fichier
32154 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderFinalize.i MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderFinalize.i
32155 --- MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderFinalize.i 1970-01-01 01:00:00.000000000 +0100
32156 +++ MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderFinalize.i 2018-04-19 17:25:17.783798266 +0200
32158 +// Copyright (C) 2017 CEA/DEN, EDF R&D
32160 +// This library is free software; you can redistribute it and/or
32161 +// modify it under the terms of the GNU Lesser General Public
32162 +// License as published by the Free Software Foundation; either
32163 +// version 2.1 of the License, or (at your option) any later version.
32165 +// This library is distributed in the hope that it will be useful,
32166 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
32167 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
32168 +// Lesser General Public License for more details.
32170 +// You should have received a copy of the GNU Lesser General Public
32171 +// License along with this library; if not, write to the Free Software
32172 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
32174 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
32176 +// Author : Anthony Geay (EDF R&D)
32179 +MEDFileMeshesIterator.__next__ = MEDFileMeshesIterator.next
32180 +MEDFileAnyTypeFieldMultiTSIterator.__next__ = MEDFileAnyTypeFieldMultiTSIterator.next
32181 +MEDFileFieldsIterator.__next__ = MEDFileFieldsIterator.next
32185 +def MEDCouplingMEDFileUMeshReduce(self):
32186 + return MEDCouplingStdReduceFunct,(MEDFileUMesh,((),(self.__getstate__()),))
32187 +MEDFileUMesh.__reduce__=MEDCouplingMEDFileUMeshReduce
32188 +del MEDCouplingMEDFileUMeshReduce
32189 +def MEDCouplingMEDFileCMeshReduce(self):
32190 + return MEDCouplingStdReduceFunct,(MEDFileCMesh,((self.serialize(),),(self.__getstate__()),))
32191 +MEDFileCMesh.__reduce__=MEDCouplingMEDFileCMeshReduce
32192 +del MEDCouplingMEDFileCMeshReduce
32193 +def MEDCouplingMEDFileCurveLinearMeshReduce(self):
32194 + return MEDCouplingStdReduceFunct,(MEDFileCurveLinearMesh,((self.serialize(),),(self.__getstate__()),))
32195 +MEDFileCurveLinearMesh.__reduce__=MEDCouplingMEDFileCurveLinearMeshReduce
32196 +del MEDCouplingMEDFileCurveLinearMeshReduce
32197 +def MEDCouplingMEDFileDataReduce(self):
32198 + return MEDCouplingStdReduceFunct,(MEDFileData,((self.serialize(),),(self.__getstate__()),))
32199 +MEDFileData.__reduce__=MEDCouplingMEDFileDataReduce
32200 +del MEDCouplingMEDFileDataReduce
32201 +def MEDCouplingMEDFileMeshesReduce(self):
32202 + return MEDCouplingStdReduceFunct,(MEDFileMeshes,((self.serialize(),),(self.__getstate__()),))
32203 +MEDFileMeshes.__reduce__=MEDCouplingMEDFileMeshesReduce
32204 +del MEDCouplingMEDFileMeshesReduce
32205 +def MEDCouplingMEDFileFieldsReduce(self):
32206 + return MEDCouplingStdReduceFunct,(MEDFileFields,((self.serialize(),),(self.__getstate__()),))
32207 +MEDFileFields.__reduce__=MEDCouplingMEDFileFieldsReduce
32208 +del MEDCouplingMEDFileFieldsReduce
32209 +def MEDCouplingMEDFileField1TSReduce(self):
32210 + return MEDCouplingStdReduceFunct,(MEDFileField1TS,((self.serialize(),),(self.__getstate__()),))
32211 +MEDFileField1TS.__reduce__=MEDCouplingMEDFileField1TSReduce
32212 +del MEDCouplingMEDFileField1TSReduce
32213 +def MEDCouplingMEDFileFieldMultiTSReduce(self):
32214 + return MEDCouplingStdReduceFunct,(MEDFileFieldMultiTS,((self.serialize(),),(self.__getstate__()),))
32215 +MEDFileFieldMultiTS.__reduce__=MEDCouplingMEDFileFieldMultiTSReduce
32216 +del MEDCouplingMEDFileFieldMultiTSReduce
32217 +def MEDCouplingMEDFileIntField1TSReduce(self):
32218 + return MEDCouplingStdReduceFunct,(MEDFileIntField1TS,((self.serialize(),),(self.__getstate__()),))
32219 +MEDFileIntField1TS.__reduce__=MEDCouplingMEDFileIntField1TSReduce
32220 +def MEDCouplingMEDFileIntFieldMultiTSReduce(self):
32221 + return MEDCouplingStdReduceFunct,(MEDFileIntFieldMultiTS,((self.serialize(),),(self.__getstate__()),))
32222 +MEDFileIntFieldMultiTS.__reduce__=MEDCouplingMEDFileIntFieldMultiTSReduce
32223 +del MEDCouplingMEDFileIntFieldMultiTSReduce
32224 +def MEDCouplingMEDFileFloatField1TSReduce(self):
32225 + return MEDCouplingStdReduceFunct,(MEDFileFloatField1TS,((self.serialize(),),(self.__getstate__()),))
32226 +MEDFileFloatField1TS.__reduce__=MEDCouplingMEDFileFloatField1TSReduce
32227 +def MEDCouplingMEDFileFloatFieldMultiTSReduce(self):
32228 + return MEDCouplingStdReduceFunct,(MEDFileFloatFieldMultiTS,((self.serialize(),),(self.__getstate__()),))
32229 +MEDFileFloatFieldMultiTS.__reduce__=MEDCouplingMEDFileFloatFieldMultiTSReduce
32230 +del MEDCouplingMEDFileFloatFieldMultiTSReduce
32231 +def MEDCouplingMEDFileParametersReduce(self):
32232 + return MEDCouplingStdReduceFunct,(MEDFileParameters,((self.serialize(),),(self.__getstate__()),))
32233 +MEDFileParameters.__reduce__=MEDCouplingMEDFileParametersReduce
32234 +del MEDCouplingMEDFileParametersReduce
32236 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoader.i MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoader.i
32237 --- MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoader.i 2018-04-19 17:04:36.765223281 +0200
32238 +++ MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoader.i 2018-04-19 17:25:17.760797811 +0200
32239 @@ -18,12 +18,11 @@
32241 // Author : Anthony Geay (CEA/DEN)
32245 %include "MEDLoaderCommon.i"
32248 -def MEDCouplingDataArrayDoublenew(cls,*args):
32249 - import _MEDLoader
32250 - return _MEDLoader.DataArrayDouble____new___(cls,args)
32251 def MEDCouplingDataArrayDoubleIadd(self,*args):
32253 return _MEDLoader.DataArrayDouble____iadd___(self, self, *args)
32255 def MEDCouplingDataArrayDoubleIpow(self,*args):
32257 return _MEDLoader.DataArrayDouble____ipow___(self, self, *args)
32258 -def MEDCouplingFieldDoublenew(cls,*args):
32259 - import _MEDLoader
32260 - return _MEDLoader.MEDCouplingFieldDouble____new___(cls,args)
32261 def MEDCouplingFieldDoubleIadd(self,*args):
32263 return _MEDLoader.MEDCouplingFieldDouble____iadd___(self, self, *args)
32265 def MEDCouplingFieldDoubleIpow(self,*args):
32267 return _MEDLoader.MEDCouplingFieldDouble____ipow___(self, self, *args)
32268 -def MEDCouplingFieldIntnew(cls,*args):
32269 - import _MEDLoader
32270 - return _MEDLoader.MEDCouplingFieldInt____new___(cls,args)
32271 -def MEDCouplingFieldFloatnew(cls,*args):
32272 - import _MEDLoader
32273 - return _MEDLoader.MEDCouplingFieldFloat____new___(cls,args)
32274 -def MEDCouplingDataArrayBytenew(cls,*args):
32275 - import _MEDLoader
32276 - return _MEDLoader.DataArrayByte____new___(cls,args)
32277 -def MEDCouplingDataArrayFloatnew(cls,*args):
32278 - import _MEDLoader
32279 - return _MEDLoader.DataArrayFloat____new___(cls,args)
32280 def MEDCouplingDataArrayFloatIadd(self,*args):
32282 return _MEDLoader.DataArrayFloat____iadd___(self, self, *args)
32284 def MEDCouplingDataArrayFloatIdiv(self,*args):
32286 return _MEDLoader.DataArrayFloat____idiv___(self, self, *args)
32287 -def MEDCouplingDataArrayIntnew(cls,*args):
32288 - import _MEDLoader
32289 - return _MEDLoader.DataArrayInt____new___(cls,args)
32290 def MEDCouplingDataArrayIntIadd(self,*args):
32292 return _MEDLoader.DataArrayInt____iadd___(self, self, *args)
32293 @@ -129,110 +110,14 @@
32294 def MEDCouplingDataArrayIntTupleImod(self,*args):
32296 return _MEDLoader.DataArrayIntTuple____imod___(self, self, *args)
32297 -def ParaMEDMEMDenseMatrixIadd(self,*args):
32298 +def MEDCouplingDenseMatrixIadd(self,*args):
32300 return _MEDLoader.DenseMatrix____iadd___(self, self, *args)
32301 -def ParaMEDMEMDenseMatrixIsub(self,*args):
32302 +def MEDCouplingDenseMatrixIsub(self,*args):
32304 return _MEDLoader.DenseMatrix____isub___(self, self, *args)
32305 -def MEDCouplingUMeshnew(cls,*args):
32306 - import _MEDLoader
32307 - return _MEDLoader.MEDCouplingUMesh____new___(cls,args)
32308 -def MEDCoupling1DGTUMeshnew(cls,*args):
32309 - import _MEDLoader
32310 - return _MEDLoader.MEDCoupling1DGTUMesh____new___(cls,args)
32311 -def MEDCoupling1SGTUMeshnew(cls,*args):
32312 - import _MEDLoader
32313 - return _MEDLoader.MEDCoupling1SGTUMesh____new___(cls,args)
32314 -def MEDCouplingCurveLinearMeshnew(cls,*args):
32315 - import _MEDLoader
32316 - return _MEDLoader.MEDCouplingCurveLinearMesh____new___(cls,args)
32317 -def MEDCouplingCMeshnew(cls,*args):
32318 - import _MEDLoader
32319 - return _MEDLoader.MEDCouplingCMesh____new___(cls,args)
32320 -def MEDCouplingIMeshnew(cls,*args):
32321 - import _MEDLoader
32322 - return _MEDLoader.MEDCouplingIMesh____new___(cls,args)
32323 -def MEDCouplingExtrudedMeshnew(cls,*args):
32324 - import _MEDLoader
32325 - return _MEDLoader.MEDCouplingMappedExtrudedMesh____new___(cls,args)
32329 -def MEDCouplingMEDFileUMeshnew(cls,*args):
32330 - import _MEDLoader
32331 - return _MEDLoader.MEDFileUMesh____new___(cls,args)
32332 -def MEDCouplingMEDFileCMeshnew(cls,*args):
32333 - import _MEDLoader
32334 - return _MEDLoader.MEDFileCMesh____new___(cls,args)
32335 -def MEDCouplingMEDFileCurveLinearMeshnew(cls,*args):
32336 - import _MEDLoader
32337 - return _MEDLoader.MEDFileCurveLinearMesh____new___(cls,args)
32338 -def MEDCouplingMEDFileMeshesnew(cls,*args):
32339 - import _MEDLoader
32340 - return _MEDLoader.MEDFileMeshes____new___(cls,args)
32341 -def MEDCouplingMEDFileDatanew(cls,*args):
32342 - import _MEDLoader
32343 - return _MEDLoader.MEDFileData____new___(cls,args)
32344 -def MEDCouplingMEDFileFieldsnew(cls,*args):
32345 - import _MEDLoader
32346 - return _MEDLoader.MEDFileFields____new___(cls,args)
32347 -def MEDCouplingMEDFileField1TSnew(cls,*args):
32348 - import _MEDLoader
32349 - return _MEDLoader.MEDFileField1TS____new___(cls,args)
32350 -def MEDCouplingMEDFileFieldMultiTSnew(cls,*args):
32351 - import _MEDLoader
32352 - return _MEDLoader.MEDFileFieldMultiTS____new___(cls,args)
32353 -def MEDCouplingMEDFileIntField1TSnew(cls,*args):
32354 - import _MEDLoader
32355 - return _MEDLoader.MEDFileIntField1TS____new___(cls,args)
32356 -def MEDCouplingMEDFileIntFieldMultiTSnew(cls,*args):
32357 - import _MEDLoader
32358 - return _MEDLoader.MEDFileIntFieldMultiTS____new___(cls,args)
32359 -def MEDCouplingMEDFileFloatField1TSnew(cls,*args):
32360 - import _MEDLoader
32361 - return _MEDLoader.MEDFileFloatField1TS____new___(cls,args)
32362 -def MEDCouplingMEDFileFloatFieldMultiTSnew(cls,*args):
32363 - import _MEDLoader
32364 - return _MEDLoader.MEDFileFloatFieldMultiTS____new___(cls,args)
32365 -def MEDCouplingMEDFileParametersnew(cls,*args):
32366 - import _MEDLoader
32367 - return _MEDLoader.MEDFileParameters____new___(cls,args)
32370 %include "MEDCouplingFinalize.i"
32373 -MEDFileMeshesIterator.__next__ = MEDFileMeshesIterator.next
32374 -MEDFileAnyTypeFieldMultiTSIterator.__next__ = MEDFileAnyTypeFieldMultiTSIterator.next
32375 -MEDFileFieldsIterator.__next__ = MEDFileFieldsIterator.next
32379 -MEDFileUMesh.__new__=classmethod(MEDCouplingMEDFileUMeshnew)
32380 -del MEDCouplingMEDFileUMeshnew
32381 -MEDFileCMesh.__new__=classmethod(MEDCouplingMEDFileCMeshnew)
32382 -del MEDCouplingMEDFileCMeshnew
32383 -MEDFileCurveLinearMesh.__new__=classmethod(MEDCouplingMEDFileCurveLinearMeshnew)
32384 -del MEDCouplingMEDFileCurveLinearMeshnew
32385 -MEDFileData.__new__=classmethod(MEDCouplingMEDFileDatanew)
32386 -del MEDCouplingMEDFileDatanew
32387 -MEDFileMeshes.__new__=classmethod(MEDCouplingMEDFileMeshesnew)
32388 -del MEDCouplingMEDFileMeshesnew
32389 -MEDFileFields.__new__=classmethod(MEDCouplingMEDFileFieldsnew)
32390 -del MEDCouplingMEDFileFieldsnew
32391 -MEDFileField1TS.__new__=classmethod(MEDCouplingMEDFileField1TSnew)
32392 -del MEDCouplingMEDFileField1TSnew
32393 -MEDFileFieldMultiTS.__new__=classmethod(MEDCouplingMEDFileFieldMultiTSnew)
32394 -del MEDCouplingMEDFileFieldMultiTSnew
32395 -MEDFileIntField1TS.__new__=classmethod(MEDCouplingMEDFileIntField1TSnew)
32396 -del MEDCouplingMEDFileIntField1TSnew
32397 -MEDFileIntFieldMultiTS.__new__=classmethod(MEDCouplingMEDFileIntFieldMultiTSnew)
32398 -del MEDCouplingMEDFileIntFieldMultiTSnew
32399 -MEDFileFloatField1TS.__new__=classmethod(MEDCouplingMEDFileFloatField1TSnew)
32400 -del MEDCouplingMEDFileFloatField1TSnew
32401 -MEDFileFloatFieldMultiTS.__new__=classmethod(MEDCouplingMEDFileFloatFieldMultiTSnew)
32402 -del MEDCouplingMEDFileFloatFieldMultiTSnew
32403 -MEDFileParameters.__new__=classmethod(MEDCouplingMEDFileParametersnew)
32404 -del MEDCouplingMEDFileParametersnew
32406 +%include "MEDLoaderFinalize.i"
32407 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderSplitter.py MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderSplitter.py
32408 --- MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderSplitter.py 2018-04-19 17:04:36.766223301 +0200
32409 +++ MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderSplitter.py 2018-04-19 17:25:17.772798048 +0200
32412 def New(cls,mfd,idsLst):
32413 """ mfd is a MEDFileData instance containing only one mesh. idsLst is a list of DataArrayInt containing each the ids per processor """
32414 - return MEDLoaderSplitter(fileName)
32415 + return MEDLoaderSplitter(mfd,idsLst)
32418 def __init__(self,mfd,idsLst):
32419 @@ -96,18 +96,26 @@
32421 def __splitMesh(self,mfm,idsLst):
32422 ret0 = [MEDFileMeshes() for i in range(len(idsLst))]
32423 - m=mfm.getMeshAtLevel(0)
32425 + addlevs=list(mfm.getNonEmptyLevels())[1:]
32426 + dAddlevs={k:mfm[k] for k in addlevs}
32427 for ret,ids in zip(ret0,idsLst):
32428 mlPart=mfm.createNewEmpty()
32429 - mPart=m[ids] ; trad=mPart.zipCoordsTraducer()
32430 - trad=trad.invertArrayO2N2N2O(mPart.getNumberOfNodes())
32431 - mlPart.setMeshAtLevel(0,mPart)
32432 + mPart=m[ids] ; trado2n=mPart.zipCoordsTraducer()
32433 + trad=trado2n.invertArrayO2N2N2O(mPart.getNumberOfNodes())
32435 if 0 in mfm.getFamArrNonEmptyLevelsExt():
32436 mlPart.setFamilyFieldArr(0,mfm.getFamilyFieldAtLevel(0)[ids])
32438 if 1 in mfm.getFamArrNonEmptyLevelsExt():
32439 mlPart.setFamilyFieldArr(1,mfm.getFamilyFieldAtLevel(1)[trad])
32441 + for k,v in dAddlevs.iteritems():
32442 + part=v.getCellIdsFullyIncludedInNodeIds(trad)
32443 + mSubPart=v[part] ; mSubPart.renumberNodesInConn(trado2n) ; mSubPart.setCoords(mPart.getCoords())
32444 + mlPart[k]=mSubPart
32445 + mlPart.setFamilyFieldArr(k,mfm.getFamilyFieldAtLevel(k)[part])
32447 mlPart.copyFamGrpMapsFrom(mfm)
32448 ret.pushMesh(mlPart)
32450 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTest1.pyc MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTest1.pyc
32451 --- MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTest1.pyc 1970-01-01 01:00:00.000000000 +0100
32452 +++ MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTest1.pyc 2018-04-19 17:25:17.768797969 +0200
32455 +
\18;ÕZc
\0\0\0\0\0\0\0\0\ 3\0\0\0@
\0\0\0sz
\0\0\0d
\0\0d
\ 1\0l
\0\0Z
\0\0d
\0\0d
\ 1\0l
\ 1\0Z
\ 1\0d
\0\0d
\ 2\0l
\ 2\0m
\ 3\0Z
\ 3\0m
\ 4\0Z
\ 4\0m
\ 5\0Z
\ 5\0\ 1d
\0\0d
\ 3\0l
\ 6\0m
\ 6\0Z
\ 6\0\ 1d
\ 4\0e
\ 1\0j
\a\0f
\ 1\0d
\ 5\0\84\0\0\83\0\0YZ
\b\0e
\0d
\ 6\0k
\ 2\0rv
\0e
\ 1\0j
32456 +
\0\83\0\0\ 1n
\0\0d
\ 1\0S(
\a\0\0\0iÿÿÿÿN(
\ 3\0\0\0t
\ 2\0\0\0pit
\ 1\0\0\0et
\ 4\0\0\0sqrt(
\ 1\0\0\0t
\14\0\0\0MEDLoaderDataForTestt
\ e\0\0\0MEDLoaderTest1c
\0\0\0\0\0\0\0\0\ 1\0\0\0B
\0\0\0sò
\0\0\0e
\0\0Z
\ 1\0d
\0\0\84\0\0Z
\ 2\0d
\ 1\0\84\0\0Z
\ 3\0d
\ 2\0\84\0\0Z
\ 4\0d
\ 3\0\84\0\0Z
\ 5\0d
\ 4\0\84\0\0Z
\ 6\0d
\ 5\0\84\0\0Z
\a\0d
\ 6\0\84\0\0Z
\b\0d
\a\0\84\0\0Z
\0d
\b\0\84\0\0Z
32457 +
\0d
\0\84\0\0Z
\v\0d
32458 +
\0\84\0\0Z
\f\0d
\v\0\84\0\0Z
\r\0d
\f\0\84\0\0Z
\ e\0d
\r\0\84\0\0Z
\ f\0d
\ e\0\84\0\0Z
\10\0d
\ f\0\84\0\0Z
\11\0d
\10\0\84\0\0Z
\12\0d
\11\0\84\0\0Z
\13\0d
\12\0\84\0\0Z
\14\0d
\13\0\84\0\0Z
\15\0d
\14\0\84\0\0Z
\16\0d
\15\0\84\0\0Z
\17\0d
\16\0\84\0\0Z
\18\0d
\17\0\84\0\0Z
\19\0d
\18\0\84\0\0Z
\1a\0d
\19\0\84\0\0Z
\e\0RS(
\1a\0\0\0c
\ 1\0\0\0\ 3\0\0\0\ 4\0\0\0C
\0\0\0sa
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\ 1t
\ 3\0j
\ 4\0d
\ 1\0|
\ 1\0t
\ 5\0\83\ 3\0\ 1t
\ 3\0j
\ 6\0d
\ 1\0|
\ 1\0j
\a\0\83\0\0d
\ 2\0\83\ 3\0}
\ 2\0|
\0\0j
\b\0|
\ 1\0j
\0|
\ 2\0d
\ 3\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\ 4\0\0\0Ns
\v\0\0\0Pyfile1.medi
\0\0\0\0g
\11ê-
\81\99\97q=(
32459 +
\0\0\0R
\ 3\0\0\0t
\r\0\0\0build1DMesh_1t
\15\0\0\0checkConsistencyLightt
\0\0\0MEDLoadert
32460 +
\0\0\0WriteUMesht
\ 4\0\0\0Truet
\11\0\0\0ReadUMeshFromFilet
\a\0\0\0getNamet
32461 +
\0\0\0assertTruet
\a\0\0\0isEqual(
\ 3\0\0\0t
\ 4\0\0\0selft
\ 4\0\0\0mesht
\a\0\0\0mesh_rw(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\f\0\0\0testMesh1DRW
\1c\0\0\0s
\f\0\0\0\0\ 1\f\ 1
32462 +
\ 1\13\ 1\e\ 1\19\ 1c
\ 1\0\0\0\ 3\0\0\0\ 4\0\0\0C
\0\0\0sa
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\ 1t
\ 3\0j
\ 4\0d
\ 1\0|
\ 1\0t
\ 5\0\83\ 3\0\ 1t
\ 3\0j
\ 6\0d
\ 1\0|
\ 1\0j
\a\0\83\0\0d
\ 2\0\83\ 3\0}
\ 2\0|
\0\0j
\b\0|
\ 1\0j
\0|
\ 2\0d
\ 3\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\ 4\0\0\0Ns
\v\0\0\0Pyfile2.medi
\0\0\0\0g
\11ê-
\81\99\97q=(
32463 +
\0\0\0R
\ 3\0\0\0t
\12\0\0\0build2DCurveMesh_1R
\ 6\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
32464 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 3\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\11\0\0\0testMesh2DCurveRW$
\0\0\0s
\f\0\0\0\0\ 1\f\ 1
32465 +
\ 1\13\ 1\e\ 1\19\ 1c
\ 1\0\0\0\ 3\0\0\0\ 4\0\0\0C
\0\0\0sa
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\ 1t
\ 3\0j
\ 4\0d
\ 1\0|
\ 1\0t
\ 5\0\83\ 3\0\ 1t
\ 3\0j
\ 6\0d
\ 1\0|
\ 1\0j
\a\0\83\0\0d
\ 2\0\83\ 3\0}
\ 2\0|
\0\0j
\b\0|
\ 1\0j
\0|
\ 2\0d
\ 3\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\ 4\0\0\0Ns
\v\0\0\0Pyfile3.medi
\0\0\0\0g
\11ê-
\81\99\97q=(
32466 +
\0\0\0R
\ 3\0\0\0t
\r\0\0\0build2DMesh_1R
\ 6\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
32467 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 3\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\f\0\0\0testMesh2DRW,
\0\0\0s
\f\0\0\0\0\ 1\f\ 1
32468 +
\ 1\13\ 1\e\ 1\19\ 1c
\ 1\0\0\0\ 3\0\0\0\ 4\0\0\0C
\0\0\0sa
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\ 1t
\ 3\0j
\ 4\0d
\ 1\0|
\ 1\0t
\ 5\0\83\ 3\0\ 1t
\ 3\0j
\ 6\0d
\ 1\0|
\ 1\0j
\a\0\83\0\0d
\ 2\0\83\ 3\0}
\ 2\0|
\0\0j
\b\0|
\ 1\0j
\0|
\ 2\0d
\ 3\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\ 4\0\0\0Ns
\v\0\0\0Pyfile4.medi
\0\0\0\0g
\11ê-
\81\99\97q=(
32469 +
\0\0\0R
\ 3\0\0\0t
\11\0\0\0build3DSurfMesh_1R
\ 6\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
32470 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 3\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\10\0\0\0testMesh3DSurfRW4
\0\0\0s
\f\0\0\0\0\ 1\f\ 1
32471 +
\ 1\13\ 1\e\ 1\19\ 1c
\ 1\0\0\0\ 3\0\0\0\ 4\0\0\0C
\0\0\0sa
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\ 1t
\ 3\0j
\ 4\0d
\ 1\0|
\ 1\0t
\ 5\0\83\ 3\0\ 1t
\ 3\0j
\ 6\0d
\ 1\0|
\ 1\0j
\a\0\83\0\0d
\ 2\0\83\ 3\0}
\ 2\0|
\0\0j
\b\0|
\ 1\0j
\0|
\ 2\0d
\ 3\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\ 4\0\0\0Ns
\v\0\0\0Pyfile5.medi
\0\0\0\0g
\11ê-
\81\99\97q=(
32472 +
\0\0\0R
\ 3\0\0\0t
\r\0\0\0build3DMesh_1R
\ 6\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
32473 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 3\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\f\0\0\0testMesh3DRW<
\0\0\0s
\f\0\0\0\0\ 1\f\ 1
32474 +
\ 1\13\ 1\e\ 1\19\ 1c
\ 1\0\0\0\ 3\0\0\0 \0\0\0C
\0\0\0s
\11\ 1\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0t
\ 2\0j
\ 3\0d
\ 1\0|
\ 1\0t
\ 4\0\83\ 3\0\ 1t
\ 2\0j
\ 5\0d
\ 1\0|
\ 1\0j
\ 6\0\83\0\0j
\a\0\83\0\0d
\ 2\0|
\ 1\0j
\a\0\83\0\0d
\ 2\0d
\ 3\0\83\ 6\0}
\ 2\0|
\0\0j
\b\0|
\ 1\0j
\0|
\ 2\0d
\ 4\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1t
\0\0j
32475 +
\0\83\0\0}
\ 1\0t
\ 2\0j
\ 3\0d
\ 5\0|
\ 1\0t
\ 4\0\83\ 3\0\ 1t
\ 2\0j
\v\0d
\ 5\0|
\ 1\0j
\ 6\0\83\0\0j
\a\0\83\0\0d
\ 2\0|
\ 1\0j
\a\0\83\0\0d
\ 6\0d
\a\0\83\ 6\0}
\ 2\0|
\0\0j
\b\0|
\ 1\0j
\0|
\ 2\0d
\ 4\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\f\0t
\r\0t
\ 2\0j
\ 5\0d
\ 5\0|
\ 1\0j
\ 6\0\83\0\0j
\a\0\83\0\0d
\ 2\0|
\ 1\0j
\a\0\83\0\0d
\ 6\0d
\a\0\83\b\0\ 1d
\0\0S(
\b\0\0\0Ns
\v\0\0\0Pyfile6.medi
\0\0\0\0i
\ 1\0\0\0g
\11ê-
\81\99\97q=s
\v\0\0\0Pyfile7.medi
\ 2\0\0\0i
\ 3\0\0\0(
\ e\0\0\0R
\ 3\0\0\0t
\16\0\0\0buildVecFieldOnCells_1R
\a\0\0\0t
32476 +
\0\0\0WriteFieldR
\0\0\0t
\r\0\0\0ReadFieldCellt
\a\0\0\0getMeshR
\v\0\0\0R
\f\0\0\0R
\r\0\0\0t
\16\0\0\0buildVecFieldOnNodes_1t
\r\0\0\0ReadFieldNodet
\f\0\0\0assertRaisest
\0\0\0Exception(
\ 3\0\0\0R
\ e\0\0\0t
\ 2\0\0\0f1t
\ 2\0\0\0f2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\f\0\0\0testFieldRW1D
\0\0\0s
\14\0\0\0\0\ 1\f\ 1\13\ 10
\ 1\1c\ 2\f\ 1\13\ 10
\ 1\1c\ 17
\ 1c
\ 1\0\0\0 \0\0\0 \0\0\0C
\0\0\0s#
\ 4\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0t
\0\0j
\ 1\0\83\0\0}
\ 4\0t
\ 2\0j
\ 3\0|
\ 1\0|
\ 4\0t
\ 4\0\83\ 3\0\ 1|
\ 4\0j
\ 5\0d
\ 4\0d
\ 5\0d
\ 6\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0\83\0\0j
\a\0d
\a\0d
\a\0|
\ 2\0\83\ 3\0\ 1t
\ 2\0j
\b\0|
\ 1\0|
\ 4\0\83\ 2\0\ 1|
\ 4\0j
\ 5\0d
\b\0d
\0d
32477 +
\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0\83\0\0j
\a\0d
\a\0d
\a\0|
\ 3\0\83\ 3\0\ 1t
\ 2\0j
\b\0|
\ 1\0|
\ 4\0\83\ 2\0\ 1t
\ 2\0j
\0|
\ 1\0|
\ 4\0j
32478 +
\0\83\0\0j
\v\0\83\0\0d
\a\0|
\ 4\0j
\v\0\83\0\0d
\ 5\0d
\ 6\0\83\ 6\0}
\ 5\0|
\ 4\0j
\ 5\0d
\ 4\0d
\ 5\0d
\ 6\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0\83\0\0j
\a\0d
\a\0d
\a\0|
\ 2\0\83\ 3\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1t
\ 2\0j
\0|
\ 1\0|
\ 4\0j
32479 +
\0\83\0\0j
\v\0\83\0\0d
\a\0|
\ 4\0j
\v\0\83\0\0d
\a\0d
\f\0\83\ 6\0}
\ 5\0t
\0\0j
\ 1\0\83\0\0}
\ 6\0|
\0\0j
\f\0|
\ 6\0j
\r\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1t
\ 2\0j
\0|
\ 1\0|
\ 4\0j
32480 +
\0\83\0\0j
\v\0\83\0\0d
\a\0|
\ 4\0j
\v\0\83\0\0d
\0d
32481 +
\0\83\ 6\0}
\ 5\0|
\ 4\0j
\ 5\0d
\b\0d
\0d
32482 +
\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0\83\0\0j
\a\0d
\a\0d
\a\0|
\ 3\0\83\ 3\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0t
\ f\0t
\ 2\0j
\0|
\ 1\0|
\ 4\0j
32483 +
\0\83\0\0j
\v\0\83\0\0d
\a\0|
\ 4\0j
\v\0\83\0\0d
\r\0d
32484 +
\0\83\b\0\ 1t
\0\0j
\10\0\83\0\0}
\ 4\0d
\ e\0}
\a\0t
\ 2\0j
\ 3\0|
\a\0|
\ 4\0t
\ 4\0\83\ 3\0\ 1|
\ 4\0j
\ 5\0d
\ f\0d
\10\0d
\11\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0\83\0\0j
\11\0\83\0\0}
\b\0|
\ 4\0j
\ 6\0\83\0\0j
\a\0d
\a\0d
\12\0|
\ 2\0\83\ 3\0\ 1t
\ 2\0j
\b\0|
\a\0|
\ 4\0\83\ 2\0\ 1|
\ 4\0j
\ 5\0d
\13\0d
\14\0d
\15\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0\83\0\0j
\a\0d
\a\0d
\12\0|
\ 3\0\83\ 3\0\ 1t
\ 2\0j
\b\0|
\a\0|
\ 4\0\83\ 2\0\ 1t
\ 2\0j
\12\0|
\a\0|
\ 4\0j
32485 +
\0\83\0\0j
\v\0\83\0\0d
\a\0|
\ 4\0j
\v\0\83\0\0d
\10\0d
\11\0\83\ 6\0}
\ 5\0|
\ 4\0j
\ 5\0d
\ f\0d
\10\0d
\11\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0\83\0\0j
\a\0d
\a\0d
\12\0|
\ 2\0\83\ 3\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1t
\ 2\0j
\12\0|
\a\0|
\ 4\0j
32486 +
\0\83\0\0j
\v\0\83\0\0d
\a\0|
\ 4\0j
\v\0\83\0\0d
\16\0d
\12\0\83\ 6\0}
\ 5\0t
\0\0j
\10\0\83\0\0}
\ 6\0|
\0\0j
\f\0|
\ 6\0j
\r\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1t
\ 2\0j
\12\0|
\a\0|
\ 4\0j
32487 +
\0\83\0\0j
\v\0\83\0\0d
\a\0|
\ 4\0j
\v\0\83\0\0d
\14\0d
\15\0\83\ 6\0}
\ 5\0|
\ 4\0j
\ 5\0d
\13\0d
\14\0d
\15\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0\83\0\0j
\a\0d
\a\0d
\12\0|
\ 3\0\83\ 3\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\17\0\0\0Ns
\v\0\0\0Pyfile8.medgºOLæÖ
\1cÈ@g
\0p
\1c!6+pÂg
\0\0\0\0\0\0$@i
\b\0\0\0i
\0\0\0i
\0\0\0\0gHáz
\14®G$@i
\12\0\0\0i
\13\0\0\0g
\11ê-
\81\99\97q=i
\ 1\0\0\0i
\1c\0\0\0s
\v\0\0\0Pyfile9.medg
\0\0\0\0\0\80[@il
\0\0\0im
\0\0\0i
\ 3\0\0\0g
\0\0\0\0\0@j@iÐ
\0\0\0iÑ
\0\0\0i
\ 2\0\0\0(
\13\0\0\0R
\ 3\0\0\0R
\1a\0\0\0R
\a\0\0\0R
\e\0\0\0R
\0\0\0t
\a\0\0\0setTimet
\b\0\0\0getArrayt
\ 5\0\0\0setIJt!
\0\0\0WriteFieldUsingAlreadyWrittenMeshR
\1c\0\0\0R
\1d\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0R
\0\0\0R!
\0\0\0R
\1e\0\0\0t
32488 +
\0\0\0getPointerR
\1f\0\0\0(
\0\0\0R
\ e\0\0\0t
\b\0\0\0fileNamet
\ 4\0\0\0VAL1t
\ 4\0\0\0VAL2R"
\0\0\0R#
\0\0\0t
\ 2\0\0\0f3t
\0\0\0fileName2t
\ 3\0\0\0tmp(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\f\0\0\0testFieldRW2Q
\0\0\0sZ
\0\0\0\0\ 1\ 6\ 1\ 6\ 1\ 6\ 1\f\ 1\13\ 1\13\ 1\19\ 1\10\ 1\13\ 1\19\ 1\10\ 20
\ 1\13\ 1\19\ 1\1c\ 10
\ 1\f\ 1\1c\ 10
\ 1\13\ 1\19\ 1\1c\ 27
\ 2\f\ 1\ 6\ 1\13\ 1\13\ 1\12\ 1\19\ 1\10\ 1\13\ 1\19\ 1\10\ 10
\ 1\13\ 1\19\ 1\1c\ 10
\ 1\f\ 1\1c\ 10
\ 1\13\ 1\19\ 1\1c\ 1c
\ 1\0\0\0\v\0\0\0\a\0\0\0C
\0\0\0s
\93\ 6\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0d
\ 4\0}
\ 4\0d
\ 5\0}
\ 5\0t
\0\0j
\ 1\0\83\0\0}
\ 6\0|
\ 6\0j
\ 2\0\83\0\0j
\ 3\0|
\ 5\0\83\ 1\0\ 1|
\ 6\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0d
\ 6\0d
\a\0d
\b\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\ 6\0\83\0\0}
\a\0|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\0|
\ 2\0\83\ 3\0\ 1t
\b\0j
\0|
\ 1\0|
\ 6\0t
32489 +
\0\83\ 3\0\ 1|
\ 6\0j
\ 4\0d
32490 +
\0d
\v\0d
\f\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\0|
\ 3\0\83\ 3\0\ 1t
\b\0j
\v\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\ 2\0\83\0\0j
\ 3\0|
\ 5\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0d
\r\0d
\ e\0d
\ f\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\0d
\10\0|
\ 2\0\14\83\ 3\0\ 1t
\b\0j
\v\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1t
\b\0j
\f\0|
\ 1\0|
\ 4\0\83\ 2\0}
\b\0|
\ 6\0j
\ 4\0d
\11\0d
\12\0d
\13\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\0d
\10\0|
\ 3\0\14\83\ 3\0\ 1t
\b\0j
\v\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\ 4\0d
\14\0d
\15\0d
\16\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\0d
\17\0|
\ 3\0\14\83\ 3\0\ 1t
\b\0j
\v\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1t
\0\0j
\r\0\83\0\0}
\ 6\0|
\ 6\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\ 6\0j
\ 2\0\83\0\0j
\ 3\0|
\ 5\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0d
\18\0d
\a\0d
\b\0\83\ 3\0\ 1t
\b\0j
\v\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\ 4\0d
\18\0d
\19\0d
\1a\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\ 6\0\83\0\0}
\a\0|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\10\0|
\ 2\0\83\ 3\0\ 1t
\b\0j
\v\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\ 4\0d
\e\0d
\1c\0d
\1d\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\10\0|
\ 3\0\83\ 3\0\ 1t
\b\0j
\v\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1t
\b\0j
\ e\0|
\ 1\0|
\ 5\0|
\ 4\0\83\ 3\0}
\0|
\0\0j
\ f\0d
\1e\0t
\10\0|
\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\ f\0d
\a\0|
\0d
\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\b\0|
\0d
\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\v\0|
\0d
\1f\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\f\0|
\0d
\1f\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\ e\0|
\0d
\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\ f\0|
\0d
\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\12\0|
\0d
\10\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\13\0|
\0d
\10\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\15\0|
\0d
\17\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\16\0|
\0d
\17\0\19d
\1f\0\19\83\ 2\0\ 1t
\b\0j
\11\0|
\ 1\0|
\ 5\0|
\ 4\0\83\ 3\0}
32491 +
\0|
\0\0j
\ f\0d
\10\0t
\10\0|
32492 +
\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\ f\0d
\a\0|
32493 +
\0d
\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\b\0|
32494 +
\0d
\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\19\0|
32495 +
\0d
\1f\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\1a\0|
32496 +
\0d
\1f\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\1c\0|
32497 +
\0d
\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\ f\0d
\1d\0|
32498 +
\0d
\0\19d
\1f\0\19\83\ 2\0\ 1t
\b\0j
\12\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\a\0d
\b\0\83\ 6\0}
\ 6\0|
\0\0j
\13\0|
\ 2\0|
\ 6\0j
\ 5\0\83\0\0j
\14\0d
\0d
\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\b\0j
\12\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\v\0d
\f\0\83\ 6\0}
\ 6\0|
\0\0j
\13\0|
\ 3\0|
\ 6\0j
\ 5\0\83\0\0j
\14\0d
\0d
\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\b\0j
\12\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\ e\0d
\ f\0\83\ 6\0}
\ 6\0|
\0\0j
\13\0d
\10\0|
\ 2\0\14|
\ 6\0j
\ 5\0\83\0\0j
\14\0d
\0d
\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\b\0j
\12\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\12\0d
\13\0\83\ 6\0}
\ 6\0|
\0\0j
\13\0d
\10\0|
\ 3\0\14|
\ 6\0j
\ 5\0\83\0\0j
\14\0d
\0d
\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\b\0j
\12\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\15\0d
\16\0\83\ 6\0}
\ 6\0|
\0\0j
\13\0d
\17\0|
\ 3\0\14|
\ 6\0j
\ 5\0\83\0\0j
\14\0d
\0d
\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\b\0j
\15\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\a\0d
\b\0\83\ 6\0}
\ 6\0|
\0\0j
\13\0d"
\0|
\ 6\0j
\ 5\0\83\0\0j
\14\0d
\0d
\10\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\b\0j
\15\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\19\0d
\1a\0\83\ 6\0}
\ 6\0|
\0\0j
\13\0|
\ 2\0|
\ 6\0j
\ 5\0\83\0\0j
\14\0d
\0d
\10\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\b\0j
\15\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\1c\0d
\1d\0\83\ 6\0}
\ 6\0|
\0\0j
\13\0|
\ 3\0|
\ 6\0j
\ 5\0\83\0\0j
\14\0d
\0d
\10\0\83\ 2\0d!
\0\83\ 3\0\ 1d
\0\0S(#
\0\0\0Ns
\f\0\0\0Pyfile11.medgºOLæÖ
\1cÈ@g
\0p
\1c!6+pÂt
\ 6\0\0\0AFieldt
\ 6\0\0\0AMesh1g
\0\0\0\0\0\0$@i
\b\0\0\0i
\0\0\0i
\0\0\0\0gHáz
\14®G$@i
\12\0\0\0i
\13\0\0\0g
\9a\99\99\99\99\19%@i
\1c\0\0\0i
\1d\0\0\0i
\ 3\0\0\0gR¸
\1e\85ëQ%@i&
\0\0\0i'
\0\0\0g
32499 +×£p=
\8a%@i0
\0\0\0i1
\0\0\0i
\ 4\0\0\0g
\0\0\0\0\0\80[@il
\0\0\0im
\0\0\0g
\0\0\0\0\0@j@iÐ
\0\0\0iÑ
\0\0\0i
\ 5\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\r\0\0\0g
\0\0\0\0\0ÀQ@(
\16\0\0\0R
\ 3\0\0\0R
\1a\0\0\0R
\1d\0\0\0t
\a\0\0\0setNameR%
\0\0\0R&
\0\0\0R)
\0\0\0R'
\0\0\0R
\a\0\0\0R
\e\0\0\0R
\0\0\0R(
\0\0\0t
\13\0\0\0GetMeshNamesOnFieldR
\1e\0\0\0t
\16\0\0\0GetCellFieldIterationst
\v\0\0\0assertEqualt
\ 3\0\0\0lent
\16\0\0\0GetNodeFieldIterationsR
\1c\0\0\0t
\11\0\0\0assertAlmostEqualt
\ 5\0\0\0getIJR
\1f\0\0\0(
\v\0\0\0R
\ e\0\0\0R*
\0\0\0R+
\0\0\0R,
\0\0\0t
\ 5\0\0\0name1t
\ 5\0\0\0name3R"
\0\0\0R/
\0\0\0t
\ 3\0\0\0vect
\ 3\0\0\0it1t
\ 3\0\0\0it3(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\f\0\0\0testFieldRW3
\86\0\0\0s
\96\0\0\0\0\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1\f\ 1\13\ 1\r\ 1\13\ 1\12\ 1\19\ 1\13\ 1\13\ 1\19\ 1\10\ 1\13\ 1\13\ 1\1d\ 1\10\ 1\12\ 1\13\ 1\1d\ 1\10\ 1\13\ 1\1d\ 1\10\ 2\f\ 1\r\ 1\13\ 1\13\ 1\10\ 1\13\ 1\12\ 1\19\ 1\10\ 1\13\ 1\19\ 1\10\ 2\15\ 1\16\ 1\18\0\18\ 1\18\0\18\ 1\18\0\18\ 1\18\0\18\ 1\18\0\18\ 1\15\ 1\16\ 1\18\0\18\ 1\18\0\18\ 1\18\0\18\ 3\1e\ 1%
\ 1\1e\ 1%
\ 1\1e\ 1)
\ 1\1e\ 1)
\ 1\1e\ 1)
\ 2\1e\ 1%
\ 1\1e\ 1%
\ 1\1e\ 1%
\ 1c
\ 1\0\0\0\17\0\0\0\12\0\0\0C
\0\0\0s3
\ 4\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 5\0}
\ 3\0|
\ 2\0j
\ 2\0|
\ 3\0t
\ 3\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 4\0d
\a\0\83\ 1\0\ 1d
\b\0d
\ 4\0d
\ 5\0d
\0g
\ 4\0}
\ 5\0|
\ 2\0j
\ 2\0|
\ 5\0t
\ 3\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 4\0d
32500 +
\0\83\ 1\0\ 1t
\ 5\0j
\ 6\0j
\a\0\83\0\0}
\a\0|
\a\0j
\ 4\0d
\v\0\83\ 1\0\ 1|
\a\0j
\b\0d
\b\0\83\ 1\0\ 1|
\a\0j
\0d
\ 2\0\83\ 1\0\ 1d
\f\0d
\r\0d
\ 2\0d
\b\0g
\ 4\0}
\b\0|
\a\0j
32501 +
\0t
\ 5\0j
\v\0d
\ 4\0|
\b\0d
\f\0d
\ 4\0!
\83\ 3\0\ 1|
\a\0j
\f\0\83\0\0\ 1|
\a\0j
\r\0|
\ 2\0j
\ e\0\83\0\0\83\ 1\0\ 1|
\ 2\0|
\ 4\0|
\ 6\0|
\a\0g
\ 4\0}
\0d
\ e\0}
32502 +
\0t
\ 5\0j
\ f\0|
\ 1\0|
32503 +
\0|
\0t
\ 3\0\83\ 4\0\ 1t
\ 5\0j
\10\0|
\ 1\0|
32504 +
\0\83\ 2\0}
\v\0|
\ 2\0j
\ 4\0|
32505 +
\0\83\ 1\0\ 1d
\f\0d
\ 2\0d
\ 3\0d
\b\0d
\ 4\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\r\0d
\15\0d
\ 5\0d
\0d
\ 6\0d
\16\0d
\17\0g
\12\0}
\f\0|
\v\0j
\ 2\0|
\f\0t
\ 3\0\83\ 2\0}
\r\0|
\r\0j
\ 4\0|
32506 +
\0\83\ 1\0\ 1|
\0\0j
\11\0|
\r\0j
\12\0|
\ 2\0d
\18\0\83\ 2\0\83\ 1\0\ 1t
\ 5\0j
\13\0|
\ 1\0|
32507 +
\0\83\ 2\0}
\ e\0|
\0\0j
\14\0d
\ 4\0t
\15\0|
\ e\0\83\ 1\0\83\ 2\0\ 1|
\ e\0j
\16\0d
\a\0\83\ 1\0\ 1|
\ e\0j
\16\0d
32508 +
\0\83\ 1\0\ 1|
\ e\0j
\16\0d
\v\0\83\ 1\0\ 1|
\ e\0j
\16\0d
\19\0\83\ 1\0\ 1d
\1e\0}
\ f\0t
\ 5\0j
\17\0|
\ 1\0|
32509 +
\0d
\f\0|
\ f\0\83\ 4\0}
\10\0|
\0\0j
\11\0|
\10\0j
\12\0|
\ 4\0d
\18\0\83\ 2\0\83\ 1\0\ 1d
32510 +
\0g
\ 1\0}
\ f\0t
\ 5\0j
\17\0|
\ 1\0|
32511 +
\0d
\f\0|
\ f\0\83\ 4\0}
\11\0|
\0\0j
\11\0|
\11\0j
\12\0|
\ 6\0d
\18\0\83\ 2\0\83\ 1\0\ 1d
\v\0g
\ 1\0}
\ f\0t
\ 5\0j
\17\0|
\ 1\0|
32512 +
\0d
\f\0|
\ f\0\83\ 4\0}
\12\0|
\0\0j
\11\0|
\12\0j
\12\0|
\a\0d
\18\0\83\ 2\0\83\ 1\0\ 1d
\19\0}
\ f\0t
\ 5\0j
\17\0|
\ 1\0|
32513 +
\0d
\f\0|
\ f\0\83\ 4\0}
\13\0|
\ 2\0j
\ 4\0d
\19\0\83\ 1\0\ 1|
\0\0j
\11\0|
\13\0j
\12\0|
\ 2\0d
\18\0\83\ 2\0\83\ 1\0\ 1d
\1a\0d
\e\0g
\ 2\0}
\ f\0t
\ 5\0j
\18\0|
\ 1\0|
32514 +
\0d
\f\0|
\ f\0\83\ 4\0}
\10\0|
\10\0j
\ 4\0d
\a\0\83\ 1\0\ 1|
\0\0j
\11\0|
\10\0j
\12\0|
\ 4\0d
\18\0\83\ 2\0\83\ 1\0\ 1t
\ 5\0j
\19\0|
\ 1\0d
\ e\0d
\19\0\83\ 3\0}
\14\0|
\0\0j
\14\0d
\ 4\0t
\15\0|
\14\0\83\ 1\0\83\ 2\0\ 1d
\1a\0d
\1c\0d
\1d\0d
\e\0g
\ 4\0}
\15\0|
\0\0j
\1a\0|
\15\0d
\f\0\19|
\14\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\15\0d
\ 2\0\19|
\14\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\15\0d
\ 3\0\19|
\14\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\15\0d
\b\0\19|
\14\0\83\ 2\0\ 1t
\ 5\0j
\e\0|
\ 1\0d
\ e\0d
\1a\0\83\ 3\0}
\16\0|
\0\0j
\14\0d
\ 3\0t
\15\0|
\16\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\14\0|
\16\0d
\f\0\19d
\19\0\83\ 2\0\ 1|
\0\0j
\14\0|
\16\0d
\ 2\0\19d
\a\0\83\ 2\0\ 1d
\0\0S(
\1f\0\0\0Ns
\f\0\0\0Pyfile10.medi
\ 1\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0i
\r\0\0\0i
\ f\0\0\0t
\ 5\0\0\0mesh2i
\ 3\0\0\0i
\ e\0\0\0t
\ 5\0\0\0mesh3t
\ 5\0\0\0mesh4i
\0\0\0\0i
\v\0\0\0t
\ 6\0\0\03DTotoi
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
32515 +
\0\0\0i
\f\0\0\0i
\10\0\0\0i
\11\0\0\0g
\11ê-
\81\99\97q=t
\b\0\0\03DMesh_1s
\0\0\0Family_-3s
\0\0\0Family_-5s
\0\0\0Family_-4s
\0\0\0Family_-2(
\ 1\0\0\0s
\ 5\0\0\0mesh2(
\1c\0\0\0R
\ 3\0\0\0R
\18\0\0\0t
\11\0\0\0buildPartOfMySelfR
\0\0\0R3
\0\0\0R
\a\0\0\0t
\10\0\0\0MEDCouplingUMesht
\ 3\0\0\0Newt
\10\0\0\0setMeshDimensiont
\r\0\0\0allocateCellst
\ e\0\0\0insertNextCellt
\v\0\0\0NORM_TETRA4t
\14\0\0\0finishInsertingCellst
\0\0\0setCoordst
\0\0\0getCoordst
\15\0\0\0WriteUMeshesPartitionR
32516 +
\0\0\0R
\f\0\0\0R
\r\0\0\0t
\12\0\0\0GetMeshGroupsNamesR6
\0\0\0R7
\0\0\0t
\ 5\0\0\0indext
\13\0\0\0ReadUMeshFromGroupst
\15\0\0\0ReadUMeshFromFamiliest
\e\0\0\0GetMeshFamiliesNamesOnGroupt
\b\0\0\0assertInt
\1a\0\0\0GetMeshGroupsNamesOnFamily(
\17\0\0\0R
\ e\0\0\0R*
\0\0\0t
\ 5\0\0\0mesh1t
\ 5\0\0\0part1RA
\0\0\0t
\ 5\0\0\0part2RB
\0\0\0RC
\0\0\0t
\ 4\0\0\0connt
\ 6\0\0\0meshest
\ 5\0\0\0mnanet
\ 5\0\0\0mesh5t
\ 5\0\0\0part3t
\ 5\0\0\0mesh6t
\ 4\0\0\0grpsR=
\0\0\0t
\a\0\0\0mesh2_2t
\a\0\0\0mesh3_2t
\a\0\0\0mesh4_2t
\a\0\0\0mesh1_2t
\ 3\0\0\0rett
\ 3\0\0\0reft
\ 4\0\0\0ret1(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\10\0\0\0testMultiMeshRW1Ð
\0\0\0sx
\0\0\0\0\ 1\ 6\ 1\f\ 1\15\ 1\12\ 1\r\ 1\12\ 1\12\ 1\r\ 1\ f\ 1\r\ 1\r\ 1\r\ 1\12\ 1\1d\ 1
32517 +
\ 1\13\ 1\12\ 1\ 6\ 1\16\ 2\12\ 1\r\ 1<
\ 1\12\ 1\r\ 1\19\ 1\12\ 1\16\ 1\r\ 1\r\ 1\r\ 1\r\ 2\ 6\ 1\18\ 1\19\ 1 \ 1\18\ 1\19\ 1 \ 1\18\ 1\19\ 1\ 6\ 1\18\ 1\r\ 1\19\ 2\f\ 1\18\ 1\r\ 1\19\ 2\15\ 1\16\ 1\12\ 1\14\ 1\14\ 1\14\ 1\14\ 2\15\ 1\16\ 1\14\ 1\14\ 1c
\ 1\0\0\0\ e\0\0\0
32518 +
\0\0\0C
\0\0\0sò
\ 1\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0\83\ 1\0\
\ 3\0}
\ 3\0}
\ 4\0}
\ 5\0t
\ 3\0j
\ 4\0|
\ 1\0|
\ 2\0t
\ 5\0\83\ 3\0\ 1d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 5\0}
\ 6\0|
\ 2\0j
\ 6\0|
\ 6\0t
\ 5\0\83\ 2\0}
\a\0|
\a\0j
\a\0|
\ 2\0j
\b\0\83\0\0\83\ 1\0\ 1|
\a\0j
\0\83\0\0}
\b\0|
\0\0j
32519 +
\0d
\b\0|
\b\0\83\ 2\0\ 1t
\ 3\0j
\v\0j
\f\0t
\ 3\0j
\r\0t
\ 3\0j
\ e\0\83\ 2\0}
\0|
\0j
\a\0d
\0\83\ 1\0\ 1|
\0j
\ f\0|
\a\0\83\ 1\0\ 1t
\ 3\0j
\10\0j
\f\0\83\0\0}
32521 +
\0j
\11\0|
\b\0d
\ 4\0\83\ 2\0\ 1|
\0j
\12\0|
32523 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0g
32525 +
\0j
\13\0|
\v\0|
\b\0d
\ 4\0\83\ 3\0\ 1|
\0j
\14\0d
\14\0d
\ 4\0d
\15\0\83\ 3\0\ 1|
\0j
\15\0\83\0\0\ 1t
\ 3\0j
\16\0|
\ 1\0|
\0t
\17\0\83\ 3\0\ 1t
\ 3\0j
\18\0|
\ 1\0|
\0j
\19\0\83\0\0j
\b\0\83\0\0d
\16\0|
\0j
\b\0\83\0\0d
\ 4\0d
\15\0\83\ 6\0}
\f\0t
\ 3\0j
\1a\0|
\ 1\0|
\0j
\19\0\83\0\0j
\b\0\83\0\0|
\0j
\b\0\83\0\0\83\ 3\0}
\r\0|
\0\0j
32526 +
\0|
\r\0t
\ 3\0j
\r\0g
\ 1\0\83\ 2\0\ 1|
\f\0j
\15\0\83\0\0\ 1|
\0\0j
\e\0|
\0j
\1c\0|
\f\0d
\ 2\0d
\ 2\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\17\0\0\0Ns
\f\0\0\0Pyfile12.medg
\11ê-
\81\99\97q=i
\ 1\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0i
\r\0\0\0i
\ f\0\0\0i
\ 5\0\0\0t
\12\0\0\0VectorFieldOnCellsg
\0\0\0\0\0ÀQ@g
\0\0\0\0\0`e@g
\0\0\0\0\0\0$@g
\0\0\0\0\0\80[@g
\0\0\0\0\0\04@g
\0\0\0\0\0\0^@g
\0\0\0\0\0\0>@g
\0\0\0\0\0@`@g
\0\0\0\0\0\0D@g
\0\0\0\0\0\80a@g
\1f\85ëQ¸
\1e @i
\a\0\0\0i
\0\0\0\0(
\1d\0\0\0R
\ 3\0\0\0R
\18\0\0\0t
32527 +
\0\0\0mergeNodesR
\a\0\0\0R
\b\0\0\0R
\0\0\0RF
\0\0\0R3
\0\0\0R
\v\0\0\0t
\10\0\0\0getNumberOfCellsR6
\0\0\0t
\16\0\0\0MEDCouplingFieldDoubleRH
\0\0\0t
\b\0\0\0ON_CELLSt
\b\0\0\0ONE_TIMEt
\a\0\0\0setMesht
\ f\0\0\0DataArrayDoublet
\ 5\0\0\0alloct
\b\0\0\0setArrayt
\0\0\0setValuesR%
\0\0\0R
\ 6\0\0\0R
\e\0\0\0t
\ 5\0\0\0FalseR
\1c\0\0\0R
\1d\0\0\0t
\ f\0\0\0GetTypesOfFieldR
\f\0\0\0R
\r\0\0\0(
\ e\0\0\0R
\ e\0\0\0R*
\0\0\0RX
\0\0\0t
\ 2\0\0\0dat
\ 1\0\0\0bt
\f\0\0\0newNbOfNodesRY
\0\0\0RA
\0\0\0t
\0\0\0nbOfCellsR"
\0\0\0t
\ 5\0\0\0arrayt
\ 4\0\0\0arr1R#
\0\0\0t
\ 2\0\0\0tt(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\12\0\0\0testFieldProfilRW1
\13\ 1\0\0s4
\0\0\0\0\ 1\ 6\ 1\f\ 1\18\ 1\13\ 1\15\ 1\12\ 1\13\ 2\f\ 1\10\ 1\e\ 1\r\ 1\r\ 1\ f\ 1\10\ 1\r\ 1$
\ 1\13\ 1\13\ 1
32528 +
\ 2\13\ 20
\ 1'
\ 1\16\ 1
32529 +
\ 1\1c\ 2c
\ 1\0\0\0\ 4\0\0\0\b\0\0\0C
\0\0\0s{
\0\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0t
\ 2\0j
\ 3\0|
\ 1\0|
\ 2\0t
\ 4\0\83\ 3\0\ 1t
\ 2\0j
\ 5\0t
\ 2\0j
\ 6\0|
\ 1\0|
\ 2\0j
\a\0\83\0\0j
\b\0\83\0\0d
\ 2\0|
\ 2\0j
\b\0\83\0\0d
\ 3\0d
\ 4\0\83\a\0}
\ 3\0|
\0\0j
\0|
\ 2\0j
32530 +
\0|
\ 3\0d
\ 5\0d
\ 5\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\ 6\0\0\0Ns
\f\0\0\0Pyfile13.medi
\0\0\0\0i
\ 1\0\0\0i
\ 5\0\0\0g
\11ê-
\81\99\97q=(
\v\0\0\0R
\ 3\0\0\0t
\16\0\0\0buildVecFieldOnGauss_1R
\a\0\0\0R
\e\0\0\0R
\0\0\0t
\0\0\0ReadFieldt
\v\0\0\0ON_GAUSS_PTR
\1d\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 4\0\0\0R
\ e\0\0\0R*
\0\0\0R"
\0\0\0R#
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\11\0\0\0testFieldGaussRW13
\ 1\0\0s
\f\0\0\0\0\ 1\ 6\ 1\f\ 1\13\ 16
\ 1\1c\ 1c
\ 1\0\0\0\ 4\0\0\0\b\0\0\0C
\0\0\0s
\0\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0t
\ 2\0j
\ 3\0|
\ 1\0|
\ 2\0t
\ 4\0\83\ 3\0\ 1|
\0\0j
\ 5\0t
\ 2\0j
\ 6\0g
\ 1\0t
\ 2\0j
\a\0|
\ 1\0d
\ 2\0d
\ 3\0\83\ 3\0\83\ 2\0\ 1t
\ 2\0j
\b\0t
\ 2\0j
\ 6\0|
\ 1\0|
\ 2\0j
\0\83\0\0j
32531 +
\0\83\0\0d
\ 4\0|
\ 2\0j
32532 +
\0\83\0\0d
\ 5\0d
\ 6\0\83\a\0}
\ 3\0|
\0\0j
\v\0|
\ 2\0j
\f\0|
\ 3\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\b\0\0\0Ns
\f\0\0\0Pyfile14.medt
\b\0\0\02DMesh_2t
\10\0\0\0MyFieldOnGaussNEi
\0\0\0\0i
\ 1\0\0\0i
\ 5\0\0\0g
\11ê-
\81\99\97q=(
\r\0\0\0R
\ 3\0\0\0t
\18\0\0\0buildVecFieldOnGaussNE_1R
\a\0\0\0R
\e\0\0\0R
\0\0\0R6
\0\0\0t
\v\0\0\0ON_GAUSS_NERv
\0\0\0R
\80\0\0\0R
\1d\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 4\0\0\0R
\ e\0\0\0R*
\0\0\0R"
\0\0\0R#
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\13\0\0\0testFieldGaussNERW1;
\ 1\0\0s
\ e\0\0\0\0\ 1\ 6\ 1\f\ 1\13\ 1%
\ 16
\ 1\1c\ 1c
\ 1\0\0\0\ 5\0\0\0\ 6\0\0\0C
\0\0\0s
\8f\0\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 6\0}
\ 3\0|
\ 2\0j
\ 2\0|
\ 3\0t
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0\83\0\0\ 1t
\ 5\0j
\ 6\0|
\ 1\0|
\ 2\0t
\a\0\83\ 3\0\ 1t
\ 5\0j
\b\0|
\ 1\0|
\ 2\0j
\0\83\0\0d
\ 5\0\83\ 3\0}
\ 4\0|
\0\0j
32533 +
\0|
\ 2\0j
\v\0|
\ 4\0d
\b\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\0\0\0Ns
\f\0\0\0Pyfile15.medi
\ 2\0\0\0i
\ 5\0\0\0i
\ 1\0\0\0i
\0\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0g
\11ê-
\81\99\97q=(
\f\0\0\0R
\ 3\0\0\0R
\16\0\0\0t
\r\0\0\0renumberCellsRu
\0\0\0R
\ 6\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
32534 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 5\0\0\0R
\ e\0\0\0R*
\0\0\0R
\ f\0\0\0t
\0\0\0renumber1R
\10\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\17\0\0\0testMesh3DSurfShuffleRWD
\ 1\0\0s
\12\0\0\0\0\ 1\ 6\ 1\f\ 1\18\ 1\10\ 1
32535 +
\ 1\13\ 1\e\ 1\19\ 1c
\ 1\0\0\0\f\0\0\0\14\0\0\0C
\0\0\0sY
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\0\0j
\ 2\0d
\ 2\0|
\ 2\0j
\ 3\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 2\0d
\ 3\0|
\ 2\0j
\ 4\0\83\0\0\83\ 2\0\ 1d
\ 4\0d
\ 5\0d
\ 6\0g
\ 3\0}
\ 3\0|
\ 2\0j
\ 5\0|
\ 3\0\83\ 1\0\ 1d
\ 4\0d
\a\0d
\b\0d
\0d
32536 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\ 5\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\ 6\0d
\17\0g
\14\0}
\ 4\0|
\ 2\0j
\ 6\0|
\ 4\0t
\a\0\83\ 2\0\ 1|
\ 2\0j
\b\0\83\0\0\ 1t
\0j
32537 +
\0|
\ 1\0|
\ 2\0t
\v\0\83\ 3\0\ 1|
\ 2\0j
\f\0t
\a\0\83\ 1\0}
\ 5\0|
\ 5\0j
\r\0t
\0j
\ e\0t
\a\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ f\0d
\18\0d
\ 4\0d
\b\0\83\ 3\0\ 1|
\ 6\0j
\10\0t
\v\0\83\ 1\0}
\a\0t
\0j
\11\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\12\0d
\19\0\83\ 1\0\ 1|
\ 6\0j
\ f\0d
\1a\0d
\a\0d
\ 5\0\83\ 3\0\ 1|
\ 6\0j
\10\0t
\v\0\83\ 1\0}
\b\0t
\0j
\11\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\12\0d
\e\0\83\ 1\0\ 1|
\ 6\0j
\ f\0d
\1c\0d
\11\0d
\ 6\0\83\ 3\0\ 1|
\ 6\0j
\10\0t
\v\0\83\ 1\0}
\0t
\0j
\11\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1d
\1e\0d
\1f\0d
\0g
\ 3\0}
32538 +
\0t
\0j
\13\0t
\0j
\14\0|
\ 1\0|
\a\0j
\15\0\83\0\0j
\16\0\83\0\0d
\ f\0|
\a\0j
\16\0\83\0\0|
32539 +
\0\83\ 6\0}
\v\0|
\0\0j
\ 2\0d
\a\0t
\17\0|
\v\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\18\0|
\v\0d
\ f\0\19j
\19\0|
\a\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\18\0|
\v\0d
\ 4\0\19j
\19\0|
\b\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\18\0|
\v\0d
\b\0\19j
\19\0|
\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(!
\0\0\0Ns
\f\0\0\0Pyfile17.medi
\14\0\0\0i-
\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\b\0\0\0i
\0\0\0i
\f\0\0\0i
\r\0\0\0i
\10\0\0\0i
\13\0\0\0i
\0\0\0\0i
\a\0\0\0i
\ 5\0\0\0i
\ f\0\0\0i
\ e\0\0\0i
\11\0\0\0i
32540 +
\0\0\0i
\12\0\0\0i
\v\0\0\0g
\0\0\0\0\0\0\0\0s
\ 3\0\0\02*xg{
\14®Gáz
\84?s
\ 5\0\0\02*x/3g{
\14®Gáz
\94?g
\11ê-
\81\99\97q=(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0(
\1a\0\0\0R
\ 3\0\0\0t
\r\0\0\0build3DMesh_2R6
\0\0\0Rl
\0\0\0t
\10\0\0\0getNumberOfNodest
\12\0\0\0convertToPolyTypesR
\88\0\0\0Ru
\0\0\0t
\1a\0\0\0orientCorrectlyPolyhedronsR
\a\0\0\0R
\b\0\0\0R
\0\0\0t
\ f\0\0\0getMeasureFieldt
\18\0\0\0buildNewTimeReprFromThisRo
\0\0\0R%
\0\0\0t
\r\0\0\0cloneWithMeshR(
\0\0\0t
\0\0\0applyFunct
\14\0\0\0ReadFieldsOnSameMeshRn
\0\0\0R
\1d\0\0\0R
\v\0\0\0R7
\0\0\0R
\f\0\0\0R
\r\0\0\0(
\f\0\0\0R
\ e\0\0\0R*
\0\0\0t
\ 1\0\0\0mt
\ 5\0\0\0polyst
\ 5\0\0\0renumt
\ 5\0\0\0f1TmpR"
\0\0\0t
\ 3\0\0\0f_1t
\ 3\0\0\0f_2t
\ 3\0\0\0f_3t
\ 3\0\0\0itst
\ 2\0\0\0fs(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\18\0\0\0testMultiFieldShuffleRW1O
\ 1\0\0s<
\0\0\0\0\ 1\ 6\ 1\f\ 1\16\ 1\16\ 1\ f\ 1\r\ 1B
\ 1\10\ 1
32541 +
\ 2\13\ 1\ f\ 1\15\ 1\13\ 1\ f\ 1\10\ 1\r\ 1\13\ 1\ f\ 1\10\ 1\r\ 1\13\ 1\ f\ 1\10\ 2\ f\ 13
\ 1\16\ 1 \ 1 \ 1 \ 1c
\ 1\0\0\0\10\0\0\0
32542 +
\0\0\0C
\0\0\0s
\83\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0g
\ 3\0}
\ 3\0d
\ 2\0d
\ 2\0d
\ 4\0g
\ 3\0}
\ 4\0|
\ 2\0j
\ 2\0|
\ 3\0|
\ 4\0d
\ 5\0\83\ 3\0}
\ 5\0|
\ 2\0j
\ 3\0|
\ 5\0t
\ 4\0\83\ 2\0}
\ 6\0d
\ 6\0d
\a\0d
\b\0d
\0d
32543 +
\0g
\ 5\0}
\a\0|
\ 6\0j
\ 5\0|
\a\0t
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\a\0d
\v\0\83\ 1\0\ 1|
\ 6\0|
\ 2\0g
\ 2\0}
\b\0t
\b\0j
\0|
\ 1\0|
\b\0t
\ 4\0\83\ 3\0\ 1t
\b\0j
32544 +
\0|
\ 1\0|
\ 6\0j
\v\0\83\0\0d
\b\0\83\ 3\0}
\0|
\0\0j
\f\0|
\0j
\r\0|
\ 2\0d
\ 5\0\83\ 2\0\f\83\ 1\0\ 1|
\0j
\a\0|
\ 2\0j
\v\0\83\0\0\83\ 1\0\ 1|
\0\0j
\f\0|
\0j
\r\0|
\ 2\0d
\ 5\0\83\ 2\0\83\ 1\0\ 1t
\b\0j
32545 +
\0|
\ 1\0|
\ 6\0j
\v\0\83\0\0d
\f\0\83\ 3\0}
32547 +
\0j
\r\0|
\ 6\0d
\ 5\0\83\ 2\0\83\ 1\0\ 1t
\b\0j
\ e\0j
\ f\0t
\b\0j
\10\0t
\b\0j
\11\0\83\ 2\0}
\v\0|
\v\0j
\a\0d
\r\0\83\ 1\0\ 1|
\v\0j
\12\0|
\ 6\0\83\ 1\0\ 1t
\b\0j
\13\0j
\ f\0\83\0\0}
\f\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0g
32548 +
\0}
\r\0|
\f\0j
\14\0|
\r\0|
\ 6\0j
\15\0\83\0\0d
\a\0\83\ 3\0\ 1|
\f\0j
\16\0d
\b\0d
\18\0\83\ 2\0\ 1|
\f\0j
\16\0d
\ 6\0d
\19\0\83\ 2\0\ 1|
\v\0j
\17\0|
\f\0\83\ 1\0\ 1|
\f\0j
\14\0|
\r\0|
\ 6\0j
\15\0\83\0\0d
\a\0\83\ 3\0}
\ e\0|
\v\0j
\18\0d
\1a\0d
\a\0d
\e\0\83\ 3\0\ 1|
\v\0j
\19\0\83\0\0\ 1t
\b\0j
\1a\0|
\ 1\0|
\v\0\83\ 2\0\ 1t
\b\0j
\e\0|
\ 1\0|
\v\0j
\1c\0\83\0\0j
\v\0\83\0\0d
\f\0|
\v\0j
\v\0\83\0\0d
\a\0d
\e\0\83\ 6\0}
\ f\0|
\0\0j
\f\0|
\ f\0j
\r\0|
\v\0d
\ 5\0d
\ 5\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\1c\0\0\0Ns
\f\0\0\0Pyfile18.medg
\0\0\0\0\0\0\0\0g333333Ó¿g
\0\0\0\0\0\0ð?g
\11ê-
\81\99\97q=i
\ 1\0\0\0i
\ 2\0\0\0i
\0\0\0\0i
\ 4\0\0\0i
\ 3\0\0\0t
\12\0\0\0ExampleOfMultiDimWiÿÿÿÿt
\13\0\0\0FieldOnFacesShuffleg
\0\0\0\0\0ÀQ@g
\0\0\0\0\0`e@g
\0\0\0\0\0\0$@g
\0\0\0\0\0\80[@g
\0\0\0\0\0\04@g
\0\0\0\0\0\0^@g
\0\0\0\0\0\0>@g
\0\0\0\0\0@`@g
\0\0\0\0\0\0D@g
\0\0\0\0\0\80a@s
\0\0\0plkj [mm]s
\v\0\0\0pqqqss [mm]g
\1f\85ëQ¸
\1e @i
\a\0\0\0(
\1d\0\0\0R
\ 3\0\0\0R
\8b\0\0\0t
\10\0\0\0findNodesOnPlanet
\19\0\0\0buildFacePartOfMySelfNodeR
\0\0\0R
\88\0\0\0Ru
\0\0\0R3
\0\0\0R
\a\0\0\0t
\f\0\0\0WriteUMeshesR
32549 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0Rm
\0\0\0RH
\0\0\0Rn
\0\0\0Ro
\0\0\0Rp
\0\0\0Rq
\0\0\0Rt
\0\0\0Rl
\0\0\0t
\12\0\0\0setInfoOnComponentRs
\0\0\0R%
\0\0\0R
\ 6\0\0\0R(
\0\0\0R
\1c\0\0\0R
\1d\0\0\0(
\10\0\0\0R
\ e\0\0\0R*
\0\0\0t
\ 3\0\0\0m3dt
\ 2\0\0\0ptR=
\0\0\0t
\ 5\0\0\0nodest
\ 3\0\0\0m2dt
\b\0\0\0renumberR\
\0\0\0t
\a\0\0\0m3d_bist
\a\0\0\0m2d_bisR"
\0\0\0R{
\0\0\0R|
\0\0\0R/
\0\0\0R#
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\13\0\0\0testWriteUMeshesRW1q
\ 1\0\0sB
\0\0\0\0\ 1\ 6\ 1\f\ 1\ f\ 1\ f\ 1\15\ 1\12\ 1\15\ 1\10\ 1\r\ 1\f\ 1\13\ 1\e\ 1\1a\ 1\13\ 1\19\ 1\e\ 1\19\ 2\e\ 1\r\ 1\r\ 1\ f\ 1$
\ 1\19\ 1\10\ 1\10\ 1\r\ 1\e\ 1\13\ 1
32550 +
\ 1\10\ 10
\ 1\1c\ 1c
\ 1\0\0\0\f\0\0\0\18\0\0\0C
\0\0\0sn
\ 2\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0\83\0\0}
\ 4\0t
\ 3\0j
\ 4\0|
\ 1\0|
\ 3\0t
\ 5\0\83\ 3\0\ 1t
\ 3\0j
\ 6\0j
\a\0t
\ 3\0j
\b\0t
\ 3\0j
\0\83\ 2\0}
\ 5\0|
\ 5\0j
32551 +
\0d
\ 3\0\83\ 1\0\ 1|
\ 5\0j
\v\0|
\ 3\0\83\ 1\0\ 1t
\ 3\0j
\f\0j
\a\0\83\0\0}
\ 6\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
32552 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0g
\18\0}
\a\0|
\ 6\0j
\r\0|
\a\0|
\ 4\0d
\1c\0\83\ 3\0\ 1|
\ 5\0j
\ e\0|
\ 6\0\83\ 1\0\ 1|
\ 6\0j
\ f\0d
\1d\0d
\1e\0\83\ 2\0\ 1|
\ 6\0j
\ f\0d
\1f\0d
\0\83\ 2\0\ 1|
\ 5\0j
\10\0d!
\0d
\1c\0d"
\0\83\ 3\0\ 1|
\ 5\0j
\11\0\83\0\0\ 1d
\1f\0d#
\0g
\ 2\0}
\b\0|
\ 5\0j
\12\0|
\b\0\83\ 1\0}
\0|
\0j
\13\0\83\0\0j
32553 +
\0|
\ 5\0j
\13\0\83\0\0j
\14\0\83\0\0\83\ 1\0\ 1t
\ 3\0j
\15\0|
\ 1\0|
\0t
\16\0\83\ 3\0\ 1t
\ 3\0j
\17\0|
\ 1\0|
\0j
\13\0\83\0\0j
\14\0\83\0\0d
\1d\0|
\0j
\14\0\83\0\0d
\1c\0d"
\0\83\ 6\0}
32555 +
\0j
\11\0\83\0\0\ 1|
\0\0j
\18\0|
32556 +
\0j
\19\0|
\0d$
\0d$
\0\83\ 3\0\83\ 1\0\ 1d
\1f\0d%
\0d
\1d\0d&
\0d
\1c\0d#
\0g
\ 6\0}
\v\0|
\0j
\1a\0|
\v\0\83\ 1\0\ 1t
\ 3\0j
\ 4\0|
\ 2\0|
\ 3\0t
\ 5\0\83\ 3\0\ 1t
\ 3\0j
\15\0|
\ 2\0|
\0t
\16\0\83\ 3\0\ 1t
\ 3\0j
\17\0|
\ 2\0|
\0j
\13\0\83\0\0j
\14\0\83\0\0d
\1d\0|
\0j
\14\0\83\0\0d
\1c\0d"
\0\83\ 6\0}
32558 +
\0j
\11\0\83\0\0\ 1|
\0\0j
\18\0|
32559 +
\0j
\19\0|
\0d$
\0d$
\0\83\ 3\0\83\ 1\0\ 1d
\0\0S('
\0\0\0Ns
\f\0\0\0Pyfile19.meds
\f\0\0\0Pyfile20.medt
\r\0\0\0VFieldOnNodesg
\0\0\0\0\0\0ð?g
\0\0\0\0\0@Y@g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\80Y@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0ÀY@g
\0\0\0\0\0\0\10@g
\0\0\0\0\0\0Z@g
\0\0\0\0\0\0\14@g
\0\0\0\0\0@Z@g
\0\0\0\0\0\0\18@g
\0\0\0\0\0\80Z@g
\0\0\0\0\0\0\1c@g
\0\0\0\0\0ÀZ@g
\0\0\0\0\0\0 @g
\0\0\0\0\0\0[@g
\0\0\0\0\0\0"@g
\0\0\0\0\0@[@g
\0\0\0\0\0\0$@g
\0\0\0\0\0\80[@g
\0\0\0\0\0\0&@g
\0\0\0\0\0À[@g
\0\0\0\0\0\0(@g
\0\0\0\0\0\0\@i
\ 2\0\0\0i
\0\0\0\0s
\0\0\0tyty [mm]i
\ 1\0\0\0s
\0\0\0uiop [MW]g
\1f\85ëQ¸
\1e @i
\a\0\0\0i
\ 4\0\0\0g
\11ê-
\81\99\97q=i
\ 3\0\0\0i
\ 5\0\0\0(
\e\0\0\0R
\ 3\0\0\0R
\14\0\0\0R
\8c\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0Rm
\0\0\0RH
\0\0\0t
\b\0\0\0ON_NODESRo
\0\0\0R3
\0\0\0Rp
\0\0\0Rq
\0\0\0Rt
\0\0\0Rs
\0\0\0R£
\0\0\0R%
\0\0\0R
\ 6\0\0\0t
\f\0\0\0buildSubPartR
\1d\0\0\0R
\v\0\0\0R
\e\0\0\0Ru
\0\0\0R
\1f\0\0\0R
\f\0\0\0R
\r\0\0\0t
\r\0\0\0renumberNodes(
\f\0\0\0R
\ e\0\0\0R*
\0\0\0R.
\0\0\0R
\94\0\0\0t
\0\0\0nbOfNodesR"
\0\0\0R{
\0\0\0R|
\0\0\0t
\ 4\0\0\0arr2R#
\0\0\0R-
\0\0\0t
\ 4\0\0\0arr3(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\16\0\0\0testFieldNodeProfilRW1
\95\ 1\0\0s>
\0\0\0\0\ 1\ 6\ 1\ 6\ 1\f\ 1\f\ 1\13\ 1\e\ 1\r\ 1\r\ 1\ f\ 1N
\ 1\13\ 1\r\ 1\10\ 1\10\ 1\13\ 1
32560 +
\ 1\f\ 1\ f\ 1\1f\ 1\13\ 20
\ 1
32561 +
\ 1\1c\ 2\18\ 1\r\ 1\13\ 1\13\ 10
\ 1
32562 +
\ 1\1c\ 2c
\ 1\0\0\0 \0\0\0\18\0\0\0C
\0\0\0sº
\ 1\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0t
\ 2\0j
\ 3\0|
\ 1\0|
\ 2\0t
\ 4\0\83\ 3\0\ 1t
\ 2\0j
\ 5\0j
\ 6\0t
\ 2\0j
\a\0t
\ 2\0j
\b\0\83\ 2\0}
\ 3\0|
\ 3\0j
\0d
\ 2\0\83\ 1\0\ 1|
\ 3\0j
32563 +
\0|
\ 2\0\83\ 1\0\ 1d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
32564 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0g
\18\0}
\ 4\0t
\ 2\0j
\v\0j
\ 6\0\83\0\0}
\ 5\0|
\ 5\0j
\f\0|
\ 4\0d
\e\0d
\1c\0\83\ 3\0\ 1|
\ 3\0j
\r\0|
\ 5\0\83\ 1\0\ 1|
\ 5\0j
\ e\0d
\1d\0d
\1e\0\83\ 2\0\ 1|
\ 5\0j
\ e\0d
\1f\0d
\0\83\ 2\0\ 1|
\ 5\0j
\ f\0\83\0\0}
\ 6\0|
\ 3\0j
\10\0d!
\0d
\1c\0d"
\0\83\ 3\0\ 1d#
\0d"
\0d
\1c\0d
\1f\0d$
\0d%
\0d&
\0d
\1d\0d'
\0d(
\0d)
\0d*
\0g
\f\0}
\a\0|
\ 3\0j
\11\0|
\a\0\83\ 1\0\ 1|
\ 3\0j
\12\0\83\0\0\ 1t
\ 2\0j
\13\0|
\ 1\0|
\ 3\0t
\14\0\83\ 3\0\ 1t
\ 2\0j
\15\0|
\ 1\0|
\ 3\0j
\16\0\83\0\0j
\17\0\83\0\0d
\1d\0|
\ 3\0j
\17\0\83\0\0d
\1c\0d"
\0\83\ 6\0}
\b\0|
\0\0j
\18\0|
\b\0j
\19\0|
\ 3\0d+
\0d+
\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(,
\0\0\0Ns
\f\0\0\0Pyfile23.medt
\b\0\0\0FieldMixg
\0\0\0\0\0¼
\90@g
\0\0\0\0\0L
\92@g
\0\0\0\0\0\90\8f@g
\0\0\0\0\0X
\91@g
\0\0\0\0\0à
\8f@g
\0\0\0\0\0\80\91@g
\0\0\0\0\0\18\90@g
\0\0\0\0\0¨
\91@g
\0\0\0\0\0@
\90@g
\0\0\0\0\0Ð
\91@g
\0\0\0\0\0h
\90@g
\0\0\0\0\0ø
\91@g
\0\0\0\0\0\90\90@g
\0\0\0\0\0 \92@g
\0\0\0\0\0¸
\90@g
\0\0\0\0\0H
\92@g
\0\0\0\0\0à
\90@g
\0\0\0\0\0p
\92@g
\0\0\0\0\0\b\91@g
\0\0\0\0\0\98\92@g
\0\0\0\0\0\f\91@g
\0\0\0\0\0\9c\92@g
\0\0\0\0\0\10\91@g
\0\0\0\0\0 \92@i
\f\0\0\0i
\ 2\0\0\0i
\0\0\0\0s
\0\0\0plkj [mm]i
\ 1\0\0\0s
\v\0\0\0pqqqss [mm]g\
\8fÂõ(\ @i
\a\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0i
\v\0\0\0i
32565 +
\0\0\0i
\0\0\0i
\ 6\0\0\0i
\b\0\0\0i
\ 4\0\0\0g
\11ê-
\81\99\97q=(
\1a\0\0\0R
\ 3\0\0\0R
\16\0\0\0R
\a\0\0\0R
\b\0\0\0R
\0\0\0Rm
\0\0\0RH
\0\0\0R
\0\0\0Ro
\0\0\0R3
\0\0\0Rp
\0\0\0Rq
\0\0\0Rt
\0\0\0Rs
\0\0\0R£
\0\0\0R)
\0\0\0R%
\0\0\0R¯
\0\0\0R
\ 6\0\0\0R
\e\0\0\0Ru
\0\0\0R
\1f\0\0\0R
\1d\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\0\0\0R
\ e\0\0\0R*
\0\0\0R
\ f\0\0\0R"
\0\0\0R±
\0\0\0R{
\0\0\0R/
\0\0\0t
\b\0\0\0renumArrR#
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\16\0\0\0testFieldNodeProfilRW2¹
\ 1\0\0s,
\0\0\0\0\ 1\ 6\ 1\f\ 1\13\ 2\e\ 1\r\ 1\r\ 1$
\ 1*
\ 1\ f\ 1\13\ 1\r\ 1\10\ 1\10\ 1\f\ 1\13\ 2*
\ 1\r\ 1
32566 +
\ 1\13\ 10
\ 1\1c\ 2c
\ 1\0\0\0\v\0\0\0\18\0\0\0C
\0\0\0sà
\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0t
\ 2\0j
\ 3\0j
\ 4\0t
\ 2\0j
\ 5\0t
\ 2\0j
\ 6\0\83\ 2\0}
\ 3\0|
\ 3\0j
\a\0d
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\b\0|
\ 2\0\83\ 1\0\ 1t
\ 2\0j
\0j
\ 4\0\83\0\0}
\ 4\0|
\ 3\0j
32567 +
\0|
\ 4\0\83\ 1\0\ 1d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
32568 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0g
\f\0}
\ 5\0|
\ 4\0j
\v\0|
\ 5\0d
\ f\0d
\10\0\83\ 3\0\ 1|
\ 4\0j
\f\0d
\11\0d
\12\0\83\ 2\0\ 1|
\ 4\0j
\f\0d
\13\0d
\14\0\83\ 2\0\ 1|
\ 3\0j
\r\0d
\15\0d
\10\0d
\16\0\83\ 3\0\ 1|
\ 3\0j
\ e\0\83\0\0\ 1t
\ 2\0j
\ 3\0j
\ 4\0t
\ 2\0j
\ f\0t
\ 2\0j
\ 6\0\83\ 2\0}
\ 6\0|
\ 6\0j
\a\0d
\ 2\0\83\ 1\0\ 1|
\ 6\0j
\b\0|
\ 2\0\83\ 1\0\ 1t
\ 2\0j
\0j
\ 4\0\83\0\0}
\ 4\0|
\ 6\0j
32569 +
\0|
\ 4\0\83\ 1\0\ 1d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0d$
\0d%
\0d&
\0d'
\0d(
\0d)
\0d*
\0d+
\0d,
\0d-
\0d.
\0g
\18\0}
\a\0|
\ 4\0j
\v\0|
\a\0d/
\0d
\10\0\83\ 3\0\ 1|
\ 4\0j
\f\0d
\11\0d
\12\0\83\ 2\0\ 1|
\ 4\0j
\f\0d
\13\0d
\14\0\83\ 2\0\ 1|
\ 6\0j
\r\0d
\15\0d
\10\0d
\16\0\83\ 3\0\ 1|
\ 6\0j
\ e\0\83\0\0\ 1t
\ 2\0j
\10\0|
\ 1\0|
\ 3\0t
\11\0\83\ 3\0\ 1t
\ 2\0j
\12\0|
\ 1\0|
\ 3\0j
\13\0\83\0\0j
\14\0\83\0\0|
\ 3\0j
\14\0\83\0\0\83\ 3\0}
\b\0|
\0\0j
\15\0d
\13\0t
\16\0|
\b\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\15\0t
\ 2\0j
\ 5\0|
\b\0d
\11\0\19\83\ 2\0\ 1t
\ 2\0j
\17\0|
\ 1\0|
\ 3\0j
\13\0\83\0\0j
\14\0\83\0\0\83\ 2\0}
\0|
\0\0j
\15\0d
\13\0t
\16\0|
\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\18\0|
\0d
\11\0\19d
\ 2\0k
\ 2\0\83\ 1\0\ 1t
\ 2\0j
\19\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1t
\ 2\0j
\17\0|
\ 1\0|
\ 3\0j
\13\0\83\0\0j
\14\0\83\0\0\83\ 2\0}
\0|
\0\0j
\15\0d
\13\0t
\16\0|
\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\18\0|
\0d
\11\0\19d
\ 2\0k
\ 2\0\83\ 1\0\ 1t
\ 2\0j
\12\0|
\ 1\0|
\ 3\0j
\13\0\83\0\0j
\14\0\83\0\0|
\ 3\0j
\14\0\83\0\0\83\ 3\0}
\b\0|
\0\0j
\15\0d
\10\0t
\16\0|
\b\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\15\0t
\ 2\0j
\ f\0|
\b\0d
\11\0\19\83\ 2\0\ 1|
\0\0j
\15\0t
\ 2\0j
\ 5\0|
\b\0d
\13\0\19\83\ 2\0\ 1t
\ 2\0j
\1a\0|
\ 1\0|
\ 3\0j
\13\0\83\0\0j
\14\0\83\0\0d
\11\0|
\ 3\0j
\14\0\83\0\0d
\10\0d
\16\0\83\ 6\0}
32571 +
\0j
\e\0|
\ 6\0d0
\0d0
\0\83\ 3\0\83\ 1\0\ 1t
\ 2\0j
\1c\0|
\ 1\0|
\ 3\0j
\13\0\83\0\0j
\14\0\83\0\0d
\11\0|
\ 3\0j
\14\0\83\0\0d
\10\0d
\16\0\83\ 6\0}
32573 +
\0j
\e\0|
\ 3\0d0
\0d0
\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(1
\0\0\0Ns
\f\0\0\0Pyfile21.medR´
\0\0\0g
\0\0\0\0\0ÀQ@g
\0\0\0\0\0`e@g
\0\0\0\0\0\0$@g
\0\0\0\0\0\80[@g
\0\0\0\0\0\04@g
\0\0\0\0\0\0^@g
\0\0\0\0\0\0>@g
\0\0\0\0\0@`@g
\0\0\0\0\0\0D@g
\0\0\0\0\0\80a@g
\0\0\0\0\0\0I@g
\0\0\0\0\0Àb@i
\ 6\0\0\0i
\ 2\0\0\0i
\0\0\0\0s
\0\0\0plkj [mm]i
\ 1\0\0\0s
\v\0\0\0pqqqss [mm]g
\1f\85ëQ¸
\1e @i
\a\0\0\0g
\0\0\0\0\0¼
\90@g
\0\0\0\0\0L
\92@g
\0\0\0\0\0\90\8f@g
\0\0\0\0\0X
\91@g
\0\0\0\0\0à
\8f@g
\0\0\0\0\0\80\91@g
\0\0\0\0\0\18\90@g
\0\0\0\0\0¨
\91@g
\0\0\0\0\0@
\90@g
\0\0\0\0\0Ð
\91@g
\0\0\0\0\0h
\90@g
\0\0\0\0\0ø
\91@g
\0\0\0\0\0\90\90@g
\0\0\0\0\0 \92@g
\0\0\0\0\0¸
\90@g
\0\0\0\0\0H
\92@g
\0\0\0\0\0à
\90@g
\0\0\0\0\0p
\92@g
\0\0\0\0\0\b\91@g
\0\0\0\0\0\98\92@g
\0\0\0\0\0\f\91@g
\0\0\0\0\0\9c\92@g
\0\0\0\0\0\10\91@g
\0\0\0\0\0 \92@i
\f\0\0\0g
\11ê-
\81\99\97q=(
\1d\0\0\0R
\ 3\0\0\0R
\16\0\0\0R
\a\0\0\0Rm
\0\0\0RH
\0\0\0Rn
\0\0\0Ro
\0\0\0R3
\0\0\0Rp
\0\0\0Rq
\0\0\0Rs
\0\0\0Rt
\0\0\0R£
\0\0\0R%
\0\0\0R
\ 6\0\0\0R
\0\0\0R
\e\0\0\0R
\0\0\0Rv
\0\0\0R
\1d\0\0\0R
\v\0\0\0R6
\0\0\0R7
\0\0\0t
\16\0\0\0GetAllFieldNamesOnMeshR
\f\0\0\0R(
\0\0\0R
\1f\0\0\0R
\r\0\0\0R
\1c\0\0\0(
\v\0\0\0R
\ e\0\0\0R*
\0\0\0R
\ f\0\0\0R"
\0\0\0R{
\0\0\0R|
\0\0\0R#
\0\0\0R±
\0\0\0t
\ 2\0\0\0tsR
\9c\0\0\0R-
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\e\0\0\0testMixCellAndNodesFieldRW1Ô
\ 1\0\0sZ
\0\0\0\0\ 1\ 6\ 1\f\ 1\e\ 1\r\ 1\r\ 1\ f\ 1\r\ 1*
\ 1\13\ 1\10\ 1\10\ 1\13\ 1
32574 +
\ 2\e\ 1\r\ 1\r\ 1\ f\ 1\r\ 1$
\ 1*
\ 1\13\ 1\10\ 1\10\ 1\13\ 1
32575 +
\ 2\13\ 1'
\ 1\16\ 1\17\ 1\1e\ 1\16\ 1\17\ 1\10\ 1\1e\ 1\16\ 1\17\ 2'
\ 1\16\ 1\17\ 1\17\ 20
\ 1\1c\ 10
\ 1\1c\ 2c
\ 1\0\0\0\ 5\0\0\0\ 4\0\0\0C
\0\0\0sí
\ 1\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0t
\ 2\0j
\ 3\0j
\ 4\0t
\ 2\0j
\ 5\0t
\ 2\0j
\ 6\0\83\ 2\0}
\ 3\0|
\ 3\0j
\a\0d
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\b\0d
\ 3\0d
\ 4\0d
\ 5\0\83\ 3\0\ 1|
\ 3\0j
\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
32576 +
\0d
\ 6\0d
\a\0\83\ 2\0\ 1t
\ 2\0j
\v\0|
\ 1\0|
\ 3\0t
\f\0\83\ 3\0\ 1|
\ 3\0j
\b\0d
\b\0d
\0d
32577 +
\0\83\ 3\0\ 1|
\ 3\0j
32578 +
\0d
\ 6\0d
\v\0\83\ 2\0\ 1t
\ 2\0j
\r\0|
\ 1\0|
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\a\0d
\f\0\83\ 1\0\ 1t
\ 2\0j
\v\0|
\ 1\0|
\ 3\0t
\ e\0\83\ 3\0\ 1|
\ 3\0j
\a\0d
\r\0\83\ 1\0\ 1|
\ 2\0j
\a\0d
\ e\0\83\ 1\0\ 1t
\ 2\0j
\v\0|
\ 1\0|
\ 3\0t
\ e\0\83\ 3\0\ 1t
\ 2\0j
\ 3\0j
\ 4\0t
\ 2\0j
\ f\0t
\ 2\0j
\ 6\0\83\ 2\0}
\ 3\0|
\ 3\0j
\a\0d
\ f\0\83\ 1\0\ 1|
\ 3\0j
\b\0d
\10\0d
\0d
\11\0\83\ 3\0\ 1|
\ 3\0j
\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
32579 +
\0d
\12\0d
\13\0\83\ 2\0\ 1t
\ 2\0j
\v\0|
\ 1\0|
\ 3\0t
\ e\0\83\ 3\0\ 1t
\ 2\0j
\10\0|
\ 1\0\83\ 1\0}
\ 4\0|
\0\0j
\11\0d
\14\0t
\12\0|
\ 4\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\13\0|
\ 4\0d
\15\0\19d
\ 2\0k
\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 4\0d
\16\0\19d
\f\0k
\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 4\0d
\ 6\0\19d
\r\0k
\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 4\0d
\12\0\19d
\ f\0k
\ 2\0\83\ 1\0\ 1d
\0\0S(
\17\0\0\0Ns
\f\0\0\0Pyfile22.medt
\ 6\0\0\0Field1g
\85ëQ¸
\1e\85\v@i
\ 5\0\0\0i
\ 6\0\0\0i
\ 2\0\0\0s
\ 3\0\0\0x+ygfffffR
\8f@i
\a\0\0\0i
\b\0\0\0s
\a\0\0\0x+77.*yt
\ 6\0\0\0Field2t
\ 6\0\0\0Field3t
\v\0\0\02DMesh_2Bist
\ 6\0\0\0Field8g{
\14®Gáú!@i
\0\0\0i
\ 3\0\0\0s
\ 5\0\0\03*x+yi
\ 4\0\0\0i
\0\0\0\0i
\ 1\0\0\0(
\14\0\0\0R
\ 3\0\0\0t
\r\0\0\0build2DMesh_2R
\a\0\0\0Rm
\0\0\0RH
\0\0\0R
\0\0\0Ro
\0\0\0R3
\0\0\0R%
\0\0\0Rp
\0\0\0t
\10\0\0\0fillFromAnalyticR
\e\0\0\0R
\0\0\0R(
\0\0\0Ru
\0\0\0Rn
\0\0\0t
\10\0\0\0GetAllFieldNamesR6
\0\0\0R7
\0\0\0R
\f\0\0\0(
\ 5\0\0\0R
\ e\0\0\0R*
\0\0\0R
\ f\0\0\0R"
\0\0\0R
\9c\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\17\0\0\0testGetAllFieldNamesRW1
\b\ 2\0\0s:
\0\0\0\0\ 1\ 6\ 1\f\ 1\e\ 1\r\ 1\13\ 1\r\ 1\10\ 1\13\ 1\13\ 1\10\ 1\10\ 1\r\ 1\13\ 1\r\ 1\r\ 1\13\ 1\e\ 1\r\ 1\13\ 1\r\ 1\10\ 1\13\ 1\ f\ 1\16\ 1\17\ 1\17\ 1\17\ 1\17\ 1c
\ 1\0\0\0\b\0\0\0\a\0\0\0C
\0\0\0sa
\ 1\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0t
\0\0j
\ 3\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0g
\ 4\0\83\ 1\0t
\0\0j
\ 3\0d
\ 2\0d
\ 3\0g
\ 2\0\83\ 1\0t
\0\0j
\ 3\0d
\ 2\0d
\ 3\0g
\ 2\0\83\ 1\0\83\ 3\0\ 1|
\ 2\0j
\ 4\0\83\0\0}
\ 2\0|
\ 2\0j
\ 5\0d
\ 6\0\83\ 1\0\ 1t
\0\0j
\ 6\0t
\0\0j
\a\0\83\ 1\0}
\ 3\0|
\ 3\0j
\b\0|
\ 2\0\83\ 1\0\ 1d
\a\0}
\ 4\0t
\0\0j
\ 3\0|
\ 4\0d
\ 5\0\14\83\ 1\0}
\ 5\0|
\ 5\0j
\0\83\0\0\ 1|
\ 5\0j
32580 +
\0|
\ 4\0\83\ 1\0\ 1|
\ 5\0j
\v\0g
\0\0t
\f\0|
\ 4\0\83\ 1\0D]
\10\0}
\ 6\0d
\b\0|
\ 6\0\16^
\ 2\0qÓ
\0\83\ 1\0\ 1|
\ 3\0j
\r\0|
\ 5\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0d
\0\83\ 1\0\ 1t
\0\0j
\ e\0|
\ 1\0|
\ 3\0t
\ f\0\83\ 3\0\ 1t
\0\0j
\10\0|
\ 1\0|
\ 2\0j
\11\0\83\0\0d
\ 2\0|
\ 3\0j
\11\0\83\0\0d
32582 +
\0\83\ 6\0}
\a\0|
\0\0j
\12\0|
\ 3\0j
\13\0|
\a\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\f\0\0\0Ns
\f\0\0\0Pyfile57.medi
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0t
\b\0\0\0TinyMeshi
\ 4\10\0\0s
\ 3\0\0\0c%it
\r\0\0\0FieldBigCompoiÿÿÿÿg
\11ê-
\81\99\97q=(
\14\0\0\0R
\a\0\0\0t
\10\0\0\0MEDCouplingCMeshRN
\0\0\0Rq
\0\0\0t
\11\0\0\0buildUnstructuredR3
\0\0\0Rm
\0\0\0Rn
\0\0\0Rp
\0\0\0t
\ 4\0\0\0iotat
\0\0\0rearranget
\13\0\0\0setInfoOnComponentst
\ 5\0\0\0rangeRs
\0\0\0R
\e\0\0\0R
\0\0\0R
\1c\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\b\0\0\0R
\ e\0\0\0R*
\0\0\0R
\94\0\0\0t
\ 1\0\0\0ft
\0\0\0nbOfCompot
\ 3\0\0\0arrt
\ 1\0\0\0iR#
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\16\0\0\0testBigNbOfCompoNonReg'
\ 2\0\0s$
\0\0\0\0\ 1\ 6\ 1\f\0F
\ 1\f\0\r\ 1\12\0\r\ 1\ 6\ 1\13\0
32583 +
\ 1\r\ 1*
\ 1\r\ 1\r\ 1\13\ 1*
\ 1\1c\ 1c
\ 1\0\0\0\v\0\0\0
32584 +
\0\0\0C
\0\0\0s§
\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0d
\ 2\0t
\0\0j
\ 2\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 3\0\83\0\0\ 1|
\ 2\0j
\ 4\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 4\0\83\ 1\0\ 1|
\ 2\0j
\ 5\0t
\0\0j
\ 6\0d
\a\0d
\a\0d
\b\0d
\b\0d
\b\0d
\a\0d
\a\0d
\b\0g
\b\0d
\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1g
\0\0t
\a\0d
\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 2\0j
\b\0\83\0\0^
\ 2\0q
\7f\0}
\ 4\0x7
\0t
\0|
\ 4\0\83\ 1\0D])
\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
32585 +
\0t
\v\0|
\ 3\0\83\ 1\0d
32586 +
\0\14d
\a\0g
\ 2\0\83\ 1\0\ 1q¤
\0Wt
\0\0j
\ 1\0j
\f\0|
\ 4\0\83\ 1\0}
\ 6\0|
\ 6\0j
\r\0t
\ e\0\83\ 1\0}
\a\0|
\a\0j
\ f\0\83\0\0j
\10\0d
\v\0g
\ 1\0\83\ 1\0\ 1t
\0\0j
\11\0|
\ 1\0|
\a\0t
\12\0\83\ 3\0\ 1t
\0\0j
\13\0|
\ 1\0d
\f\0d
\ 3\0|
\a\0j
\14\0\83\0\0d
\r\0d
\r\0\83\ 6\0}
\b\0|
\b\0j
\15\0t
\0\0j
\ 1\0|
\b\0j
\16\0\83\0\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\17\0|
\a\0j
\18\0|
\b\0d
\ e\0d
\ e\0\83\ 3\0\83\ 1\0\ 1|
\ 6\0j
\19\0\83\0\0}
\ 6\0|
\ 6\0j
\1a\0\83\0\0\ 1t
\0\0j
\e\0|
\ 6\0\83\ 1\0}
\ 6\0|
\ 6\0j
\r\0t
\ e\0\83\ 1\0}
\a\0|
\a\0j
\ f\0\83\0\0j
\10\0d
\v\0g
\ 1\0\83\ 1\0\ 1t
\0\0j
\11\0|
\ 1\0|
\a\0t
\12\0\83\ 3\0\ 1t
\0\0j
\13\0|
\ 1\0d
\f\0d
\ 3\0|
\a\0j
\14\0\83\0\0d
\r\0d
\r\0\83\ 6\0}
\b\0|
\b\0j
\15\0t
\0\0j
\e\0|
\b\0j
\16\0\83\0\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\17\0|
\a\0j
\18\0|
\b\0d
\ e\0d
\ e\0\83\ 3\0\83\ 1\0\ 1t
\0\0j
\1c\0\83\0\0}
\ 6\0t
\0\0j
\ 6\0d
\0\83\ 1\0}
\0|
\0j
\1d\0\83\0\0\ 1|
\ 6\0j
\ 5\0|
\0|
\0\83\ 2\0\ 1|
\ 6\0j
\1e\0d
\ 2\0\83\ 1\0\ 1|
\ 6\0j
\r\0t
\ e\0\83\ 1\0}
\a\0|
\a\0j
\ f\0\83\0\0j
\10\0d
\v\0g
\ 1\0\83\ 1\0\ 1t
\0\0j
\11\0|
\ 1\0|
\a\0t
\12\0\83\ 3\0\ 1t
\0\0j
\13\0|
\ 1\0d
\ 2\0d
\ 3\0|
\a\0j
\14\0\83\0\0d
\r\0d
\r\0\83\ 6\0}
\b\0|
\0\0j
\17\0|
\a\0j
\18\0|
\b\0d
\ e\0d
\ e\0\83\ 3\0\83\ 1\0\ 1|
\ 6\0j
\19\0\83\0\0j
\1f\0\83\0\0}
32587 +
\0t
\0\0j
\0d
\ 2\0\83\ 1\0}
\ 6\0|
\ 6\0j!
\0d
\0d
\0g
\ 2\0\83\ 1\0\ 1|
\ 6\0j
\ 5\0|
32588 +
\0\83\ 1\0\ 1|
\ 6\0j
\r\0t
\ e\0\83\ 1\0}
\a\0|
\a\0j
\ f\0\83\0\0j
\10\0d
\v\0g
\ 1\0\83\ 1\0\ 1t
\0\0j
\11\0|
\ 1\0|
\a\0t
\12\0\83\ 3\0\ 1t
\0\0j
\13\0|
\ 1\0d
\ 2\0d
\ 3\0|
\a\0j
\14\0\83\0\0d
\r\0d
\r\0\83\ 6\0}
\b\0|
\0\0j
\17\0|
\a\0j
\18\0|
\b\0d
\ e\0d
\ e\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\ f\0\0\0Ns
\f\0\0\0Pyfile73.medR
\ f\0\0\0i
\0\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0g
\0\0\0\0\0\0ø?s
32589 +
\0\0\0ABC [defg]t
\ 5\0\0\0mergeiÿÿÿÿg
\11ê-
\81\99\97q=("
\0\0\0R
\a\0\0\0t
\14\0\0\0MEDCoupling1SGTUMesht
32590 +
\0\0\0NORM_QUAD4RJ
\0\0\0RK
\0\0\0RN
\0\0\0Rq
\0\0\0RÊ
\0\0\0t
\b\0\0\0deepCopyt
\0\0\0enumeratet
\0\0\0translatet
\ 5\0\0\0floatt
\10\0\0\0Merge1SGTUMeshesR
\8f\0\0\0Ru
\0\0\0R&
\0\0\0RÉ
\0\0\0R
\e\0\0\0R
\0\0\0R
\1c\0\0\0R
\v\0\0\0Rp
\0\0\0R
\1d\0\0\0R
\f\0\0\0R
\r\0\0\0RÆ
\0\0\0t
\10\0\0\0convertAllToPolyt
\14\0\0\0MEDCoupling1DGTUMeshRÅ
\0\0\0RÇ
\0\0\0R3
\0\0\0RO
\0\0\0t
\1a\0\0\0MEDCouplingCurveLinearMesht
\14\0\0\0setNodeGridStructure(
\v\0\0\0R
\ e\0\0\0t
\ 5\0\0\0fnameR
\94\0\0\0RÎ
\0\0\0t
\ 2\0\0\0mst
\ 3\0\0\0eltt
\ 2\0\0\0m0RË
\0\0\0t
\ 5\0\0\0fReadRÍ
\0\0\0t
\ 1\0\0\0c(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\17\0\0\0testMultiMeshTypeWrite07
\ 2\0\0sZ
\0\0\0\0\ 1\ 6\ 1\15\0
32591 +
\ 1\19\ 14
\ 2%
\ 1\19\ 1\1d\ 1\ 4\ 2\12\ 1\ f\0\16\ 1\13\ 2$
\ 1\1c\ 1\1c\ 2\f\0
32592 +
\ 1\ f\ 1\ f\0\16\ 1\13\ 2$
\ 1\1c\ 1\1c\ 2\f\ 1\ f\0
32593 +
\ 1\10\ 1\r\ 1\ f\0\16\ 1\13\ 2$
\ 1\1c\ 2\12\ 1\ f\ 1\13\ 1\r\ 1\ f\0\16\ 1\13\ 2$
\ 1\1c\ 1c
\ 1\0\0\0
32595 +
\0\0\0C
\0\0\0sö
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0d
\ 2\0t
\0\0j
\ 2\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 3\0\83\0\0\ 1|
\ 2\0j
\ 4\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 4\0\83\ 1\0\ 1|
\ 2\0j
\ 5\0t
\0\0j
\ 6\0d
\a\0d
\a\0d
\b\0d
\b\0d
\b\0d
\a\0d
\a\0d
\b\0g
\b\0d
\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1g
\0\0t
\a\0d
\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 2\0j
\b\0\83\0\0^
\ 2\0q
\7f\0}
\ 4\0x7
\0t
\0|
\ 4\0\83\ 1\0D])
\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
32596 +
\0t
\v\0|
\ 3\0\83\ 1\0d
32597 +
\0\14d
\a\0g
\ 2\0\83\ 1\0\ 1q¤
\0Wt
\0\0j
\ 1\0j
\f\0|
\ 4\0\83\ 1\0}
\ 6\0t
\0\0j
\r\0|
\ 1\0|
\ 6\0t
\ e\0\83\ 3\0\ 1t
\0\0j
\ f\0|
\ 1\0d
\v\0d
\ 3\0\83\ 3\0}
\a\0|
\0\0j
\10\0t
\11\0|
\a\0t
\0\0j
\12\0\83\ 2\0\83\ 1\0\ 1t
\0\0j
\ 1\0|
\a\0\83\ 1\0}
\a\0|
\0\0j
\10\0|
\ 6\0j
\13\0|
\a\0d
\f\0\83\ 2\0\83\ 1\0\ 1|
\ 6\0j
\14\0\83\0\0}
\ 6\0|
\ 6\0j
\15\0\83\0\0\ 1t
\0\0j
\16\0|
\ 6\0\83\ 1\0}
\ 6\0t
\0\0j
\r\0|
\ 1\0|
\ 6\0t
\ e\0\83\ 3\0\ 1t
\0\0j
\ f\0|
\ 1\0d
\v\0d
\ 3\0\83\ 3\0}
\a\0t
\0\0j
\16\0|
\a\0\83\ 1\0}
\a\0|
\0\0j
\10\0|
\ 6\0j
\13\0|
\a\0d
\f\0\83\ 2\0\83\ 1\0\ 1t
\0\0j
\17\0\83\0\0}
\ 6\0t
\0\0j
\ 6\0d
\0\83\ 1\0}
\b\0|
\b\0j
\18\0\83\0\0\ 1|
\ 6\0j
\ 5\0|
\b\0|
\b\0\83\ 2\0\ 1|
\ 6\0j
\19\0d
\ 2\0\83\ 1\0\ 1t
\0\0j
\r\0|
\ 1\0|
\ 6\0t
\ e\0\83\ 3\0\ 1t
\0\0j
\ f\0|
\ 1\0d
\ 3\0\83\ 2\0}
\a\0|
\0\0j
\10\0t
\11\0|
\a\0t
\0\0j
\17\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\10\0|
\ 6\0j
\13\0|
\a\0d
\f\0\83\ 2\0\83\ 1\0\ 1|
\ 6\0j
\14\0\83\0\0j
\1a\0\83\0\0}
\0t
\0\0j
\e\0d
\ 2\0\83\ 1\0}
\ 6\0|
\ 6\0j
\1c\0d
\0d
\0g
\ 2\0\83\ 1\0\ 1|
\ 6\0j
\ 5\0|
\0\83\ 1\0\ 1t
\0\0j
\r\0|
\ 1\0|
\ 6\0t
\ e\0\83\ 3\0\ 1t
\0\0j
\ f\0|
\ 1\0d
\ 3\0\83\ 2\0}
\a\0|
\0\0j
\10\0t
\11\0|
\a\0t
\0\0j
\e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\10\0|
\ 6\0j
\13\0|
\a\0d
\f\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\r\0\0\0Ns
\f\0\0\0Pyfile74.medR
\ f\0\0\0i
\0\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0g
\0\0\0\0\0\0ø?RÐ
\0\0\0g
\11ê-
\81\99\97q=(
\1d\0\0\0R
\a\0\0\0RÑ
\0\0\0RÒ
\0\0\0RJ
\0\0\0RK
\0\0\0RN
\0\0\0Rq
\0\0\0RÊ
\0\0\0RÓ
\0\0\0RÔ
\0\0\0RÕ
\0\0\0RÖ
\0\0\0R×
\0\0\0t
\0\0\0WriteMeshR
\0\0\0t
\10\0\0\0ReadMeshFromFileR
\f\0\0\0t
32598 +
\0\0\0isinstanceRG
\0\0\0R
\r\0\0\0RÆ
\0\0\0RØ
\0\0\0RÙ
\0\0\0RÅ
\0\0\0RÇ
\0\0\0R3
\0\0\0RO
\0\0\0RÚ
\0\0\0RÛ
\0\0\0(
32599 +
\0\0\0R
\ e\0\0\0RÜ
\0\0\0R
\94\0\0\0RÎ
\0\0\0RÝ
\0\0\0RÞ
\0\0\0Rß
\0\0\0t
\ 5\0\0\0mReadRÍ
\0\0\0Rá
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\17\0\0\0testMultiMeshTypeWrite1h
\ 2\0\0sP
\0\0\0\0\ 1\ 6\ 1\15\0
32600 +
\ 1\19\ 14
\ 2%
\ 1\19\ 1\1d\ 1\ 4\ 1\12\ 1\13\ 2\15\ 1\19\ 1\ f\ 1\19\ 2\f\0
32601 +
\ 1\ f\ 1\13\ 2\15\ 1\ f\ 1\19\ 2\f\ 1\ f\0
32602 +
\ 1\10\ 1\r\ 1\13\ 2\12\ 1\19\ 1\19\ 2\12\ 1\ f\ 1\13\ 1\r\ 1\13\ 2\12\ 1\19\ 1\19\ 1c
\ 1\0\0\0\ 3\0\0\0\ 3\0\0\0C
\0\0\0sN
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0j
\ 3\0d
\ 1\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 4\0d
\ 2\0d
\ 3\0\83\ 2\0\ 1|
\0\0j
\ 5\0d
\ 3\0|
\ 2\0j
\ 6\0\83\0\0k
\ 6\0\83\ 1\0\ 1d
\ 4\0S(
\ 5\0\0\0s`
\0\0\0 This test is a non regression test on MEDFileUMesh.changeGroupName thanks to Alliance.
32603 + i
\0\0\0\0t
\b\0\0\0grp0_LM1t
\a\0\0\0xonall1N(
\a\0\0\0R
\ 3\0\0\0t,
\0\0\0buildAMEDFileDataWithGroupOnOneFamilyForSauvt
\0\0\0getMeshest
\f\0\0\0getMeshAtPost
\ f\0\0\0changeGroupNameR
\f\0\0\0t
\ e\0\0\0getGroupsNames(
\ 3\0\0\0R
\ e\0\0\0t
\ 3\0\0\0mfdR
\ f\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\13\0\0\0testChangeGroupName
\97\ 2\0\0s
32604 +
\0\0\0\0\ 3\f\ 1\15\ 1\10\ 1\19\ 1c
\ 1\0\0\0 \0\0\0\b\0\0\0C
\0\0\0sí
\ 1\0\0d
\ 1\0}
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 2\0g
\b\0}
\ 2\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 4\0}
\ 3\0t
\0\0j
\ 1\0j
\ 2\0d
\b\0d
\ 5\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 3\0d
\ 4\0\83\ 1\0\ 1|
\ 4\0j
\ 4\0t
\0\0j
\ 5\0d
\a\0|
\ 3\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0\83\0\0\ 1t
\0\0j
\a\0j
\ 2\0\83\0\0}
\ 5\0|
\ 5\0j
\b\0|
\ 2\0d
\a\0d
\ 5\0\83\ 3\0\ 1|
\ 4\0j
\0|
\ 5\0\83\ 1\0\ 1t
\0\0j
32605 +
\0j
\ 2\0t
\0\0j
\v\0t
\0\0j
\f\0\83\ 2\0}
\ 6\0|
\ 6\0j
\r\0|
\ 4\0\83\ 1\0\ 1t
\0\0j
\a\0j
\ 2\0\83\0\0}
\a\0|
\a\0j
\ e\0d
\ 4\0d
\ 4\0\83\ 2\0\ 1|
\a\0j
\ f\0d
\ 3\0\83\ 1\0\ 1|
\a\0j
\10\0d
\0d
32606 +
\0\83\ 2\0\ 1|
\ 6\0j
\11\0|
\a\0\83\ 1\0\ 1|
\ 6\0j
\12\0d
\v\0\83\ 1\0\ 1t
\0\0j
\13\0\83\0\0}
\b\0t
\0\0j
\14\0d
\ 5\0\83\ 1\0\ 1t
\0\0j
\15\0|
\b\0\83\ 1\0\ 1|
\0\0j
\16\0d
\ 5\0|
\b\0j
\17\0\83\0\0\83\ 2\0\ 1t
\0\0j
\14\0d
\0\83\ 1\0\ 1t
\0\0j
\15\0|
\b\0\83\ 1\0\ 1|
\0\0j
\16\0d
\0|
\b\0j
\17\0\83\0\0\83\ 2\0\ 1~
\b\0t
\0\0j
\14\0d
\ 5\0\83\ 1\0\ 1|
\0\0j
\18\0t
\0\0j
\19\0t
\0\0j
\1a\0|
\ 1\0|
\ 6\0t
\e\0\83\ 5\0\ 1|
\ 6\0j
\1c\0\83\0\0j
\10\0d
\0d
\f\0\83\ 2\0\ 1t
\0\0j
\1a\0|
\ 1\0|
\ 6\0t
\e\0\83\ 3\0\ 1d
\r\0S(
\ e\0\0\0sm
\0\0\0 This test is a non regression test, to check that in basic API the policies are taken into account.
32607 + s
\f\0\0\0Pyfile75.medg
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0R
\ f\0\0\0i
\0\0\0\0s
\15\0\0\0CONCENTRATION of I129t
\ 5\0\0\0fieldt
\ 4\0\0\0I129N(
\1d\0\0\0R
\a\0\0\0RG
\0\0\0RH
\0\0\0RJ
\0\0\0RK
\0\0\0RÒ
\0\0\0RM
\0\0\0Rq
\0\0\0Rt
\0\0\0RN
\0\0\0Rm
\0\0\0Rn
\0\0\0Ro
\0\0\0Rp
\0\0\0Rr
\0\0\0RÇ
\0\0\0R£
\0\0\0Rs
\0\0\0R3
\0\0\0t
\f\0\0\0MEDFileUMesht
\13\0\0\0SetTooLongStrPolicyt
\1d\0\0\0AssignStaticWritePropertiesToR6
\0\0\0t
\13\0\0\0getTooLongStrPolicyR
\0\0\0t
\15\0\0\0InterpKernelExceptionR
\e\0\0\0R
\0\0\0R&
\0\0\0(
\0\0\0R
\ e\0\0\0RÜ
\0\0\0t
\ 6\0\0\0coordst
\ 6\0\0\0conn2DR
\94\0\0\0t
32608 +
\0\0\0meshCoordsRË
\0\0\0t
\ 1\0\0\0dt
\ 2\0\0\0mm(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\18\0\0\0testFieldWithTooLongName
\ 2\0\0s>
\0\0\0\0\ 3\ 6\ 2\1e\ 2\12\ 2\15\ 1\r\ 1\16\ 1
32609 +
\ 2\ f\ 1\13\ 1\r\ 2\e\ 1\r\ 1\ f\ 1\10\ 1\r\ 2\10\ 1\r\ 1\r\ 2\f\ 1\r\ 1\r\ 1\16\ 1\r\ 1\r\ 1\16\ 1\ 3\ 2\r\ 1\1f\ 1\16\ 1\13\ 1c
\ 1\0\0\0\r\0\0\0\17\0\0\0C
\0\0\0s
\8c\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0d
\ 2\0\83\ 1\0}
\ 2\0t
\0\0j
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 4\0\83\ 1\0}
\ 3\0t
\0\0j
\ 2\0d
\ 3\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0g
\ 5\0\83\ 1\0}
\ 4\0t
\0\0j
\ 2\0d
\b\0g
\ 1\0\83\ 1\0}
\ 5\0|
\ 2\0j
\ 3\0|
\ 3\0|
\ 4\0|
\ 5\0\83\ 3\0\ 1t
\0\0j
\ 4\0t
\0\0j
\ 5\0\83\ 1\0}
\ 6\0|
\ 6\0j
\ 6\0d
\0\83\ 1\0\ 1|
\ 6\0j
\a\0|
\ 2\0\83\ 1\0\ 1t
\0\0j
\ 2\0d
32610 +
\0\83\ 1\0}
\a\0|
\a\0j
\b\0\83\0\0\ 1|
\ 6\0j
\0|
\a\0\83\ 1\0\ 1|
\ 6\0j
32611 +
\0\83\0\0\ 1t
\0\0j
\ 4\0t
\0\0j
\ 5\0\83\ 1\0}
\b\0|
\b\0j
\ 6\0d
\v\0\83\ 1\0\ 1|
\b\0j
\a\0|
\ 2\0\83\ 1\0\ 1t
\0\0j
\ 2\0d
32612 +
\0\83\ 1\0}
\a\0|
\a\0j
\b\0\83\0\0\ 1|
\a\0d
\ 6\09}
\a\0|
\b\0j
\0|
\a\0\83\ 1\0\ 1|
\b\0j
32613 +
\0\83\0\0\ 1|
\ 6\0j
\v\0\83\0\0}
\0|
\0j
\f\0\83\0\0\ 4\1ed
\f\09
\ 2(|
\0j
\r\0d
\r\0d
\a\0d
\ e\0\83\ 3\0\ 1t
\0\0j
\ e\0|
\ 1\0|
\ 6\0j
\ f\0\83\0\0t
\10\0\83\ 3\0\ 1t
\0\0j
\11\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1t
\0\0j
\11\0|
\ 1\0|
\b\0\83\ 2\0\ 1t
\0\0j
\11\0|
\ 1\0|
\0\83\ 2\0\ 1t
\0\0j
\12\0|
\ 1\0d
\ 2\0d
\ 3\0d
\0d
\ f\0d
\ f\0\83\ 6\0}
32614 +
\0|
\0\0j
\13\0|
\ 6\0j
\14\0|
32615 +
\0d
\10\0d
\10\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\13\0|
32616 +
\0j
\f\0\83\0\0j
\14\0t
\0\0j
\ 2\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0d$
\0g
\14\0\83\ 1\0d
\10\0\83\ 2\0\83\ 1\0\ 1t
\0\0j
\12\0|
\ 1\0d
\ 2\0d
\ 3\0d
\v\0d
\ f\0d
\ f\0\83\ 6\0}
\v\0|
\0\0j
\13\0|
\b\0j
\14\0|
\v\0d
\10\0d
\10\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\13\0|
\v\0j
\f\0\83\0\0j
\14\0t
\0\0j
\ 2\0d
\11\0d
\14\0d
\17\0d
\1a\0d
\1d\0d
\0d#
\0d%
\0d&
\0d'
\0d(
\0d)
\0d*
\0d+
\0d,
\0d-
\0d.
\0d/
\0d0
\0d1
\0g
\14\0\83\ 1\0d
\10\0\83\ 2\0\83\ 1\0\ 1t
\0\0j
\12\0|
\ 1\0d
\ 2\0d
\ 3\0d
\0d
\a\0d
\ e\0\83\ 6\0}
\f\0|
\0\0j
\13\0|
\0j
\14\0|
\f\0d
\10\0d
\10\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\13\0|
\f\0j
\f\0\83\0\0j
\14\0t
\0\0j
\ 2\0d
\11\0d
\15\0d
\19\0d
\1d\0d!
\0d2
\0d&
\0d3
\0d4
\0d*
\0d5
\0d6
\0d.
\0d7
\0d8
\0d9
\0d:
\0d;
\0d<
\0d=
\0g
\14\0\83\ 1\0d
\10\0\83\ 2\0\83\ 1\0\ 1d>
\0S(?
\0\0\0sj
\0\0\0 This test focuses on MEDLoader.WriteFieldUsingAlreadyWrittenMesh with mesh different from UMesh.
32617 + s
\f\0\0\0Pyfile76.medR
\ f\0\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0i
\a\0\0\0R"
\0\0\0i
\14\0\0\0R#
\0\0\0i
\ 4\0\0\0g
\9a\99\99\99\99\99ñ?i
\ 6\0\0\0iÿÿÿÿg
\11ê-
\81\99\97q=g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0\10@g
\0\0\0\0\0\0\14@g
\0\0\0\0\0\0\18@g
\0\0\0\0\0\0\1c@g
\0\0\0\0\0\0 @g
\0\0\0\0\0\0"@g
\0\0\0\0\0\0$@g
\0\0\0\0\0\0&@g
\0\0\0\0\0\0(@g
\0\0\0\0\0\0*@g
\0\0\0\0\0\0,@g
\0\0\0\0\0\0.@g
\0\0\0\0\0\00@g
\0\0\0\0\0\01@g
\0\0\0\0\0\02@g
\0\0\0\0\0\03@g
\0\0\0\0\0\05@g
\0\0\0\0\0\08@g
\0\0\0\0\0\0;@g
\0\0\0\0\0\0>@g
\0\0\0\0\0\80@@g
\0\0\0\0\0\0B@g
\0\0\0\0\0\80C@g
\0\0\0\0\0\0E@g
\0\0\0\0\0\80F@g
\0\0\0\0\0\0H@g
\0\0\0\0\0\80I@g
\0\0\0\0\0\0K@g
\0\0\0\0\0\80L@g
\0\0\0\0\0\04@g
\0\0\0\0\0\0<@g
\0\0\0\0\0\0@@g
\0\0\0\0\0\0D@g
\0\0\0\0\0\0F@g
\0\0\0\0\0\0J@g
\0\0\0\0\0\0L@g
\0\0\0\0\0\0N@g
\0\0\0\0\0\0P@g
\0\0\0\0\0\0Q@g
\0\0\0\0\0\0R@g
\0\0\0\0\0\0S@N(
\15\0\0\0R
\a\0\0\0RÅ
\0\0\0Rq
\0\0\0RN
\0\0\0Rm
\0\0\0R
\0\0\0R3
\0\0\0Rp
\0\0\0RÇ
\0\0\0Rs
\0\0\0R
\ 6\0\0\0RÓ
\0\0\0R&
\0\0\0R%
\0\0\0Rã
\0\0\0R
\1d\0\0\0R
\0\0\0R(
\0\0\0R
\1f\0\0\0R
\f\0\0\0R
\r\0\0\0(
\r\0\0\0R
\ e\0\0\0RÜ
\0\0\0R
\ f\0\0\0t
\ 4\0\0\0arrXt
\ 4\0\0\0arrYt
\ 4\0\0\0arrZR"
\0\0\0RÍ
\0\0\0R#
\0\0\0t
\ 3\0\0\0f11t
\ 3\0\0\0f1rt
\ 3\0\0\0f2rt
\ 3\0\0\0f3r(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\1c\0\0\0testUsingAlreadyWrittenMesh2Ë
\ 2\0\0sL
\0\0\0\0\ 3\ 6\ 1\ f\ 1\e\ 1\1e\ 1\12\ 1\13\ 2\12\0\r\ 1\r\ 1\ f\0
32619 +
\ 2\12\0\r\ 1\r\ 1\ f\0
32622 +
\ 2\f\0\11\0\13\ 2\19\ 1\10\ 1\10\ 1\10\ 2\1e\ 1\1c\ 1d
\ 1\1e\ 1\1c\ 1d
\ 1\1e\ 1\1c\ 1d
\ 1c
\ 1\0\0\0\v\0\0\0
32623 +
\0\0\0C
\0\0\0s
\80\f\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0d
\ 2\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 2\0\83\0\0\ 1t
\0\0j
\ 3\0\83\0\0}
\ 3\0|
\ 3\0j
\ 4\0|
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 3\0j
\ 5\0\83\0\0}
\ 3\0|
\ 3\0j
\ 6\0d
\ 3\0\83\ 1\0\ 1t
\0\0j
\a\0t
\0\0j
\b\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 6\0d
\ 4\0\83\ 1\0\ 1|
\ 4\0j
\0d
\ 5\0d
\ 6\0d
\a\0\83\ 3\0\ 1t
\0\0j
\ 1\0d
\a\0d
\b\0d
\ 2\0d
\0d
32624 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0g
\0\83\ 1\0}
\ 5\0|
\ 4\0j
32625 +
\0|
\ 5\0\83\ 1\0\ 1|
\ 4\0j
\v\0|
\ 3\0\83\ 1\0\ 1t
\0\0j
\f\0|
\ 1\0|
\ 4\0t
\r\0\83\ 3\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0\83\ 1\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0\83\ 2\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\ 6\0d
\a\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\ 6\0d
\a\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\ 4\0j
\11\0\83\0\0}
\ 6\0|
\ 6\0j
32626 +
\0|
\ 4\0j
\12\0\83\0\0d
\11\0\17\83\ 1\0\ 1|
\ 6\0j
\ 6\0d
\12\0\83\ 1\0\ 1|
\ 6\0j
\0d
\13\0d
\ 2\0d
\0\83\ 3\0\ 1t
\0\0j
\13\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\0\0j
\14\0t
\15\0t
\0\0j
\10\0|
\ 1\0\83\ 3\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0\83\ 2\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\ 6\0d
\a\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\ 6\0d
\a\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\12\0\83\ 2\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\12\0d
\ 2\0d
\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\12\0d
\ 2\0d
\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\ 4\0j
\11\0\83\0\0}
\a\0|
\a\0j
\0d
\14\0d
\b\0d
\ 2\0\83\ 3\0\ 1|
\a\0j
32627 +
\0|
\a\0j
\12\0\83\0\0d
\ e\0\17\83\ 1\0\ 1t
\0\0j
\13\0|
\ 1\0|
\a\0\83\ 2\0\ 1|
\0\0j
\14\0t
\15\0t
\0\0j
\10\0|
\ 1\0\83\ 3\0\ 1|
\0\0j
\14\0t
\15\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0\83\ 4\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\ 6\0d
\a\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\ 6\0d
\a\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\a\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\b\0d
\ 2\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\a\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\b\0d
\ 2\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\ 6\0d
\a\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\ 6\0d
\a\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\a\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\b\0d
\ 2\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\a\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\b\0d
\ 2\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\12\0\83\ 2\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\12\0d
\ 2\0d
\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\14\0t
\15\0t
\0\0j
\10\0|
\ 1\0d
\12\0d
\0d
\0\83\ 6\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\12\0d
\ 2\0d
\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\14\0t
\15\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\12\0d
\0d
\0\83 \0\ 1t
\0\0j
\16\0\83\0\0}
\b\0|
\ 3\0|
\b\0d
\10\0<|
\b\0j
\17\0|
\ 1\0d
\a\0\83\ 2\0\ 1t
\0\0j
\18\0t
\19\0t
\1a\0d
\f\0\83\ 1\0\83\ 1\0\83\ 1\0}
\0|
\0j
\ 6\0d
\15\0\83\ 1\0\ 1t
\0\0j
\a\0t
\0\0j
\b\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 6\0d
\ 4\0\83\ 1\0\ 1|
\ 4\0j
\0d
\ 5\0d
\ 6\0d
\a\0\83\ 3\0\ 1t
\0\0j
\ 1\0d
\a\0d
\b\0d
\ 2\0d
\0d
32628 +
\0d
\v\0d
\f\0d
\r\0g
\b\0\83\ 1\0}
\ 5\0|
\ 4\0j
32629 +
\0|
\ 5\0\83\ 1\0\ 1|
\ 4\0j
\v\0|
\ 3\0|
\0\19\83\ 1\0\ 1|
\ 4\0j
\e\0\83\0\0\ 1t
\0\0j
\1c\0\83\0\0}
32631 +
\0j
\1d\0|
\ 4\0|
\b\0d
\10\0|
\0\83\ 4\0\ 1|
32632 +
\0j
\17\0|
\ 1\0d
\10\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0\83\ 1\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0\83\ 2\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\ 6\0d
\a\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\ 6\0d
\a\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\ 4\0j
\11\0\83\0\0}
\ 6\0|
\ 6\0j
32633 +
\0|
\ 4\0j
\12\0\83\0\0d
\11\0\17\83\ 1\0\ 1|
\ 6\0j
\ 6\0d
\12\0\83\ 1\0\ 1|
\ 6\0j
\0d
\13\0d
\ 2\0d
\0\83\ 3\0\ 1t
\0\0j
\1c\0\83\0\0}
32635 +
\0j
\1d\0|
\ 6\0|
\b\0d
\10\0|
\0\83\ 4\0\ 1|
32636 +
\0j
\17\0|
\ 1\0d
\10\0\83\ 2\0\ 1|
\0\0j
\14\0t
\15\0t
\0\0j
\10\0|
\ 1\0\83\ 3\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0\83\ 2\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\ 6\0d
\a\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\ 6\0d
\a\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\12\0\83\ 2\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\12\0d
\ 2\0d
\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\12\0d
\ 2\0d
\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\ 4\0j
\11\0\83\0\0}
\a\0|
\a\0j
\0d
\14\0d
\b\0d
\ 2\0\83\ 3\0\ 1|
\a\0j
32637 +
\0|
\a\0j
\12\0\83\0\0d
\ e\0\17\83\ 1\0\ 1t
\0\0j
\1c\0\83\0\0}
32639 +
\0j
\1d\0|
\a\0|
\b\0d
\10\0|
\0\83\ 4\0\ 1|
32640 +
\0j
\17\0|
\ 1\0d
\10\0\83\ 2\0\ 1|
\0\0j
\14\0t
\15\0t
\0\0j
\10\0|
\ 1\0\83\ 3\0\ 1|
\0\0j
\14\0t
\15\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0\83\ 4\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\ 6\0d
\a\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\ 6\0d
\a\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\a\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\b\0d
\ 2\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\a\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\b\0d
\ 2\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\ 6\0d
\a\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 4\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\ 6\0d
\a\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\a\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\ 4\0d
\b\0d
\ 2\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\a\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\ 4\0d
\b\0d
\ 2\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\12\0\83\ 2\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0|
\ 1\0d
\12\0d
\ 2\0d
\0\83\ 4\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\14\0t
\15\0t
\0\0j
\10\0|
\ 1\0d
\12\0d
\0d
\0\83\ 6\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\12\0d
\ 2\0d
\0\83\a\0d
\ f\0d
\ f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\14\0t
\15\0t
\0\0j
\10\0t
\0\0j
\b\0|
\ 1\0d
\ 3\0d
\10\0d
\12\0d
\0d
\0\83 \0\ 1d
\0\0S(
\16\0\0\0Ns
\r\0\0\0Pyfile111.medi
\ 4\0\0\0R
\ f\0\0\0Rñ
\0\0\0g
\0\0\0\0\0\0\b@i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
32641 +
\0\0\0g
\11ê-
\81\99\97q=i
\0\0\0\0i
\1e\0\0\0t
\ 6\0\0\0field2g
\0\0\0\0\0\0\14@g
\0\0\0\0\0\0\10@t
\ 3\0\0\0PFL(
\1e\0\0\0R
\a\0\0\0Rq
\0\0\0RÇ
\0\0\0RÅ
\0\0\0RN
\0\0\0RÆ
\0\0\0R3
\0\0\0Rm
\0\0\0Rn
\0\0\0R%
\0\0\0Rs
\0\0\0Rp
\0\0\0R
\e\0\0\0R
\0\0\0R
\f\0\0\0R
\r\0\0\0R
\80\0\0\0RÓ
\0\0\0R&
\0\0\0R(
\0\0\0R
\0\0\0R!
\0\0\0Ró
\0\0\0t
\ 5\0\0\0writet
\f\0\0\0DataArrayIntt
\ 4\0\0\0listRÊ
\0\0\0R
\ 6\0\0\0t
\ f\0\0\0MEDFileField1TSt
\ f\0\0\0setFieldProfile(
\v\0\0\0R
\ e\0\0\0RÜ
\0\0\0RÍ
\0\0\0R
\94\0\0\0RË
\0\0\0Rw
\0\0\0R-
\0\0\0R#
\0\0\0Rü
\0\0\0t
\ 3\0\0\0pflt
\ 4\0\0\0f1ts(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\12\0\0\0testEasyFieldRead1ó
\ 2\0\0sÐ
\0\0\0\0\ 1\ 6\ 1\ f\0
32642 +
\ 1\f\0\10\ 1\f\ 1\r\ 1\12\ 1\r\ 1\13\ 1*
\ 1\r\0\r\ 1\13\ 2%
\ 1(
\ 1.
\ 1:
\ 2\f\ 1\17\ 1\r\ 1\13\ 1\10\ 2\16\ 1(
\ 1.
\ 1:
\ 1(
\ 1.
\ 1:
\ 2\f\ 1\13\ 1\17\ 1\10\ 2\16\ 1\19\ 1.
\ 1:
\ 1.
\ 1:
\ 2.
\ 1:
\ 1.
\ 1:
\ 2(
\ 1.
\ 1\1f\ 1:
\ 1+
\ 2\f\ 1
32643 +
\ 1\10\ 2\e\ 1\r\ 2\12\ 1\r\ 1\13\ 1'
\ 1\r\0\11\ 1
32644 +
\ 2\f\ 1\16\ 1\10\ 2%
\ 1(
\ 1.
\ 1:
\ 2\f\ 1\17\ 1\r\ 1\13\ 1\f\ 1\16\ 1\10\ 2\16\ 1(
\ 1.
\ 1:
\ 1(
\ 1.
\ 1:
\ 2\f\ 1\13\ 1\17\ 1\f\ 1\16\ 1\10\ 2\16\ 1\19\ 1.
\ 1:
\ 1.
\ 1:
\ 2.
\ 1:
\ 1.
\ 1:
\ 2(
\ 1.
\ 1\1f\ 1:
\ 1+
\ 1(
\1c\0\0\0t
\b\0\0\0__name__t
32645 +
\0\0\0__module__R
\11\0\0\0R
\13\0\0\0R
\15\0\0\0R
\17\0\0\0R
\19\0\0\0R$
\0\0\0R0
\0\0\0R@
\0\0\0Ri
\0\0\0R~
\0\0\0R
\82\0\0\0R
\87\0\0\0R
\8a\0\0\0R
\9d\0\0\0R«
\0\0\0R³
\0\0\0R¶
\0\0\0R¹
\0\0\0RÂ
\0\0\0RÏ
\0\0\0Râ
\0\0\0Rç
\0\0\0Rð
\0\0\0Rý
\0\0\0R
\ 5\ 1\0\0R
\ f\ 1\0\0(
\0\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyR
\ 4\0\0\0\e\0\0\0s6
\0\0\0\ 6\ 1 \b \b \b \b \b \r 5 J C
\b \v " $ $
\e 4
\1f \10 1 / + ( xt
\b\0\0\0__main__(
\v\0\0\0R
\a\0\0\0t
\b\0\0\0unittestt
\ 4\0\0\0mathR
\0\0\0\0R
\ 1\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0t
\b\0\0\0TestCaseR
\ 4\0\0\0R
\10\ 1\0\0t
\ 4\0\0\0main(
\0\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest1.pyt
\b\0\0\0<module>
\16\0\0\0s
\12\0\0\0\f\ 1\f\ 1\1c\ 1\10\ 2\19ÿ
\0ÿ
\0ÿ
\0U
\f\ 1
32646 \ Pas de fin de ligne à la fin du fichier
32647 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTest2.pyc MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTest2.pyc
32648 --- MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTest2.pyc 1970-01-01 01:00:00.000000000 +0100
32649 +++ MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTest2.pyc 2018-04-19 17:25:17.779798187 +0200
32652 +
\18;ÕZc
\0\0\0\0\0\0\0\0\ 3\0\0\0@
\0\0\0sx
\0\0\0d
\0\0d
\ 1\0l
\0\0Td
\0\0d
\ 2\0l
\ 1\0Z
\ 1\0d
\0\0d
\ 3\0l
\ 2\0m
\ 3\0Z
\ 3\0m
\ 4\0Z
\ 4\0m
\ 5\0Z
\ 5\0\ 1d
\0\0d
\ 4\0l
\ 6\0m
\ 6\0Z
\ 6\0\ 1d
\ 5\0e
\ 1\0j
\a\0f
\ 1\0d
\ 6\0\84\0\0\83\0\0YZ
\b\0e
\0d
\a\0k
\ 2\0rt
\0e
\ 1\0j
32653 +
\0\83\0\0\ 1n
\0\0d
\ 2\0S(
\b\0\0\0iÿÿÿÿ(
\ 1\0\0\0t
\ 1\0\0\0*N(
\ 3\0\0\0t
\ 2\0\0\0pit
\ 1\0\0\0et
\ 4\0\0\0sqrt(
\ 1\0\0\0t
\14\0\0\0MEDLoaderDataForTestt
\ e\0\0\0MEDLoaderTest2c
\0\0\0\0\0\0\0\0\ 1\0\0\0B
\0\0\0st
\0\0\0e
\0\0Z
\ 1\0d
\0\0\84\0\0Z
\ 2\0d
\ 1\0\84\0\0Z
\ 3\0d
\ 2\0\84\0\0Z
\ 4\0d
\ 3\0\84\0\0Z
\ 5\0d
\ 4\0\84\0\0Z
\ 6\0d
\ 5\0\84\0\0Z
\a\0d
\ 6\0\84\0\0Z
\b\0d
\a\0\84\0\0Z
\0d
\b\0\84\0\0Z
32654 +
\0d
\0\84\0\0Z
\v\0d
32655 +
\0\84\0\0Z
\f\0d
\v\0\84\0\0Z
\r\0RS(
\f\0\0\0c
\ 1\0\0\0\ 3\0\0\0\ 4\0\0\0C
\0\0\0s[
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\ 1t
\ 3\0d
\ 1\0|
\ 1\0t
\ 4\0\83\ 3\0\ 1t
\ 5\0d
\ 1\0|
\ 1\0j
\ 6\0\83\0\0d
\ 2\0\83\ 3\0}
\ 2\0|
\0\0j
\a\0|
\ 1\0j
\b\0|
\ 2\0d
\ 3\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\ 4\0\0\0Ns
\v\0\0\0Pyfile1.medi
\0\0\0\0g
\11ê-
\81\99\97q=(
\0\0\0R
\ 4\0\0\0t
\r\0\0\0build1DMesh_1t
\15\0\0\0checkConsistencyLightt
\r\0\0\0WriteUMeshDept
\ 5\0\0\0Falset
\11\0\0\0ReadUMeshFromFilet
\a\0\0\0getNamet
32656 +
\0\0\0assertTruet
\a\0\0\0isEqual(
\ 3\0\0\0t
\ 4\0\0\0selft
\ 4\0\0\0mesht
\a\0\0\0mesh_rw(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\f\0\0\0testMesh1DRW
\1c\0\0\0s
\f\0\0\0\0\ 1\f\ 1
32657 +
\ 1\10\ 1\18\ 1\19\ 1c
\ 1\0\0\0\ 3\0\0\0\ 4\0\0\0C
\0\0\0s[
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\ 1t
\ 3\0d
\ 1\0|
\ 1\0t
\ 4\0\83\ 3\0\ 1t
\ 5\0d
\ 1\0|
\ 1\0j
\ 6\0\83\0\0d
\ 2\0\83\ 3\0}
\ 2\0|
\0\0j
\a\0|
\ 1\0j
\b\0|
\ 2\0d
\ 3\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\ 4\0\0\0Ns
\v\0\0\0Pyfile2.medi
\0\0\0\0g
\11ê-
\81\99\97q=(
\0\0\0R
\ 4\0\0\0t
\12\0\0\0build2DCurveMesh_1R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
32658 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 3\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\11\0\0\0testMesh2DCurveRW$
\0\0\0s
\f\0\0\0\0\ 1\f\ 1
32659 +
\ 1\10\ 1\18\ 1\19\ 1c
\ 1\0\0\0\ 3\0\0\0\ 4\0\0\0C
\0\0\0s[
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\ 1t
\ 3\0d
\ 1\0|
\ 1\0t
\ 4\0\83\ 3\0\ 1t
\ 5\0d
\ 1\0|
\ 1\0j
\ 6\0\83\0\0d
\ 2\0\83\ 3\0}
\ 2\0|
\0\0j
\a\0|
\ 1\0j
\b\0|
\ 2\0d
\ 3\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\ 4\0\0\0Ns
\v\0\0\0Pyfile3.medi
\0\0\0\0g
\11ê-
\81\99\97q=(
\0\0\0R
\ 4\0\0\0t
\r\0\0\0build2DMesh_1R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
32660 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 3\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\f\0\0\0testMesh2DRW,
\0\0\0s
\f\0\0\0\0\ 1\f\ 1
32661 +
\ 1\10\ 1\18\ 1\19\ 1c
\ 1\0\0\0\ 3\0\0\0\ 4\0\0\0C
\0\0\0s[
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\ 1t
\ 3\0d
\ 1\0|
\ 1\0t
\ 4\0\83\ 3\0\ 1t
\ 5\0d
\ 1\0|
\ 1\0j
\ 6\0\83\0\0d
\ 2\0\83\ 3\0}
\ 2\0|
\0\0j
\a\0|
\ 1\0j
\b\0|
\ 2\0d
\ 3\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\ 4\0\0\0Ns
\v\0\0\0Pyfile4.medi
\0\0\0\0g
\11ê-
\81\99\97q=(
\0\0\0R
\ 4\0\0\0t
\11\0\0\0build3DSurfMesh_1R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
32662 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 3\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\10\0\0\0testMesh3DSurfRW4
\0\0\0s
\f\0\0\0\0\ 1\f\ 1
32663 +
\ 1\10\ 1\18\ 1\19\ 1c
\ 1\0\0\0\ 3\0\0\0\ 4\0\0\0C
\0\0\0s[
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\ 1t
\ 3\0d
\ 1\0|
\ 1\0t
\ 4\0\83\ 3\0\ 1t
\ 5\0d
\ 1\0|
\ 1\0j
\ 6\0\83\0\0d
\ 2\0\83\ 3\0}
\ 2\0|
\0\0j
\a\0|
\ 1\0j
\b\0|
\ 2\0d
\ 3\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\ 4\0\0\0Ns
\v\0\0\0Pyfile5.medi
\0\0\0\0g
\11ê-
\81\99\97q=(
\0\0\0R
\ 4\0\0\0t
\r\0\0\0build3DMesh_1R
\a\0\0\0R
\b\0\0\0R
\0\0\0R
32664 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 3\0\0\0R
\ e\0\0\0R
\ f\0\0\0R
\10\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\f\0\0\0testMesh3DRW<
\0\0\0s
\f\0\0\0\0\ 1\f\ 1
32665 +
\ 1\10\ 1\18\ 1\19\ 1c
\ 1\0\0\0\ 3\0\0\0\a\0\0\0C
\0\0\0sÎ
\0\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0t
\ 2\0d
\ 1\0|
\ 1\0t
\ 3\0\83\ 3\0\ 1t
\ 4\0d
\ 1\0|
\ 1\0j
\ 5\0\83\0\0j
\ 6\0\83\0\0d
\ 2\0|
\ 1\0j
\ 6\0\83\0\0d
\ 2\0d
\ 3\0\83\ 6\0}
\ 2\0|
\0\0j
\a\0|
\ 1\0j
\b\0|
\ 2\0d
\ 4\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1t
\0\0j
\0\83\0\0}
\ 1\0t
\ 2\0d
\ 5\0|
\ 1\0t
\ 3\0\83\ 3\0\ 1t
32666 +
\0d
\ 5\0|
\ 1\0j
\ 5\0\83\0\0j
\ 6\0\83\0\0d
\ 2\0|
\ 1\0j
\ 6\0\83\0\0d
\ 6\0d
\a\0\83\ 6\0}
\ 2\0|
\0\0j
\a\0|
\ 1\0j
\b\0|
\ 2\0d
\ 4\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\b\0\0\0Ns
\v\0\0\0Pyfile6.medi
\0\0\0\0i
\ 1\0\0\0g
\11ê-
\81\99\97q=s
\v\0\0\0Pyfile7.medi
\ 2\0\0\0i
\ 3\0\0\0(
\v\0\0\0R
\ 4\0\0\0t
\16\0\0\0buildVecFieldOnCells_1t
\r\0\0\0WriteFieldDepR
\0\0\0t
\r\0\0\0ReadFieldCellt
\a\0\0\0getMeshR
\v\0\0\0R
\f\0\0\0R
\r\0\0\0t
\16\0\0\0buildVecFieldOnNodes_1t
\r\0\0\0ReadFieldNode(
\ 3\0\0\0R
\ e\0\0\0t
\ 2\0\0\0f1t
\ 2\0\0\0f2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\f\0\0\0testFieldRW1D
\0\0\0s
\12\0\0\0\0\ 1\f\ 1\10\ 1-
\ 1\1c\ 2\f\ 1\10\ 1-
\ 1\1c\ 1c
\ 1\0\0\0 \0\0\0\a\0\0\0C
\0\0\0sÈ
\ 3\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0t
\0\0j
\ 1\0\83\0\0}
\ 4\0t
\ 2\0|
\ 1\0|
\ 4\0t
\ 3\0\83\ 3\0\ 1|
\ 4\0j
\ 4\0d
\ 4\0d
\ 5\0d
\ 6\0\83\ 3\0\ 1|
\ 4\0j
\ 5\0\83\0\0j
\ 6\0d
\a\0d
\a\0|
\ 2\0\83\ 3\0\ 1t
\a\0|
\ 1\0|
\ 4\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0d
\b\0d
\0d
32667 +
\0\83\ 3\0\ 1|
\ 4\0j
\ 5\0\83\0\0j
\ 6\0d
\a\0d
\a\0|
\ 3\0\83\ 3\0\ 1t
\a\0|
\ 1\0|
\ 4\0\83\ 2\0\ 1t
\b\0|
\ 1\0|
\ 4\0j
\0\83\0\0j
32668 +
\0\83\0\0d
\a\0|
\ 4\0j
32669 +
\0\83\0\0d
\ 5\0d
\ 6\0\83\ 6\0}
\ 5\0|
\ 4\0j
\ 4\0d
\ 4\0d
\ 5\0d
\ 6\0\83\ 3\0\ 1|
\ 4\0j
\ 5\0\83\0\0j
\ 6\0d
\a\0d
\a\0|
\ 2\0\83\ 3\0\ 1|
\0\0j
\v\0|
\ 4\0j
\f\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1t
\b\0|
\ 1\0|
\ 4\0j
\0\83\0\0j
32670 +
\0\83\0\0d
\a\0|
\ 4\0j
32671 +
\0\83\0\0d
\a\0d
\f\0\83\ 6\0}
\ 5\0t
\0\0j
\ 1\0\83\0\0}
\ 6\0|
\0\0j
\v\0|
\ 6\0j
\f\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1t
\b\0|
\ 1\0|
\ 4\0j
\0\83\0\0j
32672 +
\0\83\0\0d
\a\0|
\ 4\0j
32674 +
\0\83\ 6\0}
\ 5\0|
\ 4\0j
\ 4\0d
\b\0d
\0d
32675 +
\0\83\ 3\0\ 1|
\ 4\0j
\ 5\0\83\0\0j
\ 6\0d
\a\0d
\a\0|
\ 3\0\83\ 3\0\ 1|
\0\0j
\v\0|
\ 4\0j
\f\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1t
\0\0j
\r\0\83\0\0}
\ 4\0d
\r\0}
\a\0t
\ 2\0|
\a\0|
\ 4\0t
\ 3\0\83\ 3\0\ 1|
\ 4\0j
\ 4\0d
\ e\0d
\ f\0d
\10\0\83\ 3\0\ 1|
\ 4\0j
\ 5\0\83\0\0j
\ e\0\83\0\0}
\b\0|
\ 4\0j
\ 5\0\83\0\0j
\ 6\0d
\a\0d
\11\0|
\ 2\0\83\ 3\0\ 1t
\a\0|
\a\0|
\ 4\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0d
\12\0d
\13\0d
\14\0\83\ 3\0\ 1|
\ 4\0j
\ 5\0\83\0\0j
\ 6\0d
\a\0d
\11\0|
\ 3\0\83\ 3\0\ 1t
\a\0|
\a\0|
\ 4\0\83\ 2\0\ 1t
\ f\0|
\a\0|
\ 4\0j
\0\83\0\0j
32676 +
\0\83\0\0d
\a\0|
\ 4\0j
32677 +
\0\83\0\0d
\ f\0d
\10\0\83\ 6\0}
\ 5\0|
\ 4\0j
\ 4\0d
\ e\0d
\ f\0d
\10\0\83\ 3\0\ 1|
\ 4\0j
\ 5\0\83\0\0j
\ 6\0d
\a\0d
\11\0|
\ 2\0\83\ 3\0\ 1|
\0\0j
\v\0|
\ 4\0j
\f\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1t
\ f\0|
\a\0|
\ 4\0j
\0\83\0\0j
32678 +
\0\83\0\0d
\a\0|
\ 4\0j
32679 +
\0\83\0\0d
\15\0d
\11\0\83\ 6\0}
\ 5\0t
\0\0j
\r\0\83\0\0}
\ 6\0|
\0\0j
\v\0|
\ 6\0j
\f\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1t
\ f\0|
\a\0|
\ 4\0j
\0\83\0\0j
32680 +
\0\83\0\0d
\a\0|
\ 4\0j
32681 +
\0\83\0\0d
\13\0d
\14\0\83\ 6\0}
\ 5\0|
\ 4\0j
\ 4\0d
\12\0d
\13\0d
\14\0\83\ 3\0\ 1|
\ 4\0j
\ 5\0\83\0\0j
\ 6\0d
\a\0d
\11\0|
\ 3\0\83\ 3\0\ 1|
\0\0j
\v\0|
\ 4\0j
\f\0|
\ 5\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\16\0\0\0Ns
\v\0\0\0Pyfile8.medgºOLæÖ
\1cÈ@g
\0p
\1c!6+pÂg
\0\0\0\0\0\0$@i
\b\0\0\0i
\0\0\0i
\0\0\0\0gHáz
\14®G$@i
\12\0\0\0i
\13\0\0\0g
\11ê-
\81\99\97q=i
\ 1\0\0\0s
\v\0\0\0Pyfile9.medg
\0\0\0\0\0\80[@il
\0\0\0im
\0\0\0i
\ 3\0\0\0g
\0\0\0\0\0@j@iÐ
\0\0\0iÑ
\0\0\0i
\ 2\0\0\0(
\10\0\0\0R
\ 4\0\0\0R
\1a\0\0\0R
\e\0\0\0R
\0\0\0t
\a\0\0\0setTimet
\b\0\0\0getArrayt
\ 5\0\0\0setIJt!
\0\0\0WriteFieldUsingAlreadyWrittenMeshR
\1c\0\0\0R
\1d\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0R
\1e\0\0\0t
32682 +
\0\0\0getPointerR
\1f\0\0\0(
\0\0\0R
\ e\0\0\0t
\b\0\0\0fileNamet
\ 4\0\0\0VAL1t
\ 4\0\0\0VAL2R
\0\0\0R!
\0\0\0t
\ 2\0\0\0f3t
\0\0\0fileName2t
\ 3\0\0\0tmp(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\f\0\0\0testFieldRW2P
\0\0\0sX
\0\0\0\0\ 1\ 6\ 1\ 6\ 1\ 6\ 1\f\ 1\10\ 1\13\ 1\19\ 1\r\ 1\13\ 1\19\ 1\r\ 2-
\ 1\13\ 1\19\ 1\1c\ 1-
\ 1\f\ 1\1c\ 1-
\ 1\13\ 1\19\ 1\1c\ 2\f\ 1\ 6\ 1\10\ 1\13\ 1\12\ 1\19\ 1\r\ 1\13\ 1\19\ 1\r\ 1-
\ 1\13\ 1\19\ 1\1c\ 1-
\ 1\f\ 1\1c\ 1-
\ 1\13\ 1\19\ 1\1c\ 1c
\ 1\0\0\0
32683 +
\0\0\0\a\0\0\0C
\0\0\0sK
\ 6\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0d
\ 4\0}
\ 4\0d
\ 5\0}
\ 5\0t
\0\0j
\ 1\0\83\0\0}
\ 6\0|
\ 6\0j
\ 2\0\83\0\0j
\ 3\0|
\ 5\0\83\ 1\0\ 1|
\ 6\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0d
\ 6\0d
\a\0d
\b\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\ 6\0\83\0\0}
\a\0|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\0|
\ 2\0\83\ 3\0\ 1t
\b\0|
\ 1\0|
\ 6\0t
\0\83\ 3\0\ 1|
\ 6\0j
\ 4\0d
32684 +
\0d
\v\0d
\f\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\0|
\ 3\0\83\ 3\0\ 1t
32685 +
\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\ 2\0\83\0\0j
\ 3\0|
\ 5\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0d
\r\0d
\ e\0d
\ f\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\0d
\10\0|
\ 2\0\14\83\ 3\0\ 1t
32686 +
\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\ 4\0d
\11\0d
\12\0d
\13\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\0d
\10\0|
\ 3\0\14\83\ 3\0\ 1t
32687 +
\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\ 4\0d
\14\0d
\15\0d
\16\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\0d
\17\0|
\ 3\0\14\83\ 3\0\ 1t
32688 +
\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1t
\0\0j
\v\0\83\0\0}
\ 6\0|
\ 6\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\ 6\0j
\ 2\0\83\0\0j
\ 3\0|
\ 5\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0d
\18\0d
\a\0d
\b\0\83\ 3\0\ 1t
32689 +
\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\ 4\0d
\18\0d
\19\0d
\1a\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\ 6\0\83\0\0}
\a\0|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\10\0|
\ 2\0\83\ 3\0\ 1t
32690 +
\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\ 4\0d
\e\0d
\1c\0d
\1d\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0\83\0\0j
\a\0d
\0d
\10\0|
\ 3\0\83\ 3\0\ 1t
32691 +
\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1t
\f\0|
\ 1\0|
\ 5\0|
\ 4\0\83\ 3\0}
\b\0|
\0\0j
\r\0d
\1e\0t
\ e\0|
\b\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\r\0d
\a\0|
\b\0d
\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\b\0|
\b\0d
\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\v\0|
\b\0d
\1f\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\f\0|
\b\0d
\1f\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\ e\0|
\b\0d
\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\ f\0|
\b\0d
\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\12\0|
\b\0d
\10\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\13\0|
\b\0d
\10\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\15\0|
\b\0d
\17\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\16\0|
\b\0d
\17\0\19d
\1f\0\19\83\ 2\0\ 1t
\ f\0|
\ 1\0|
\ 5\0|
\ 4\0\83\ 3\0}
\0|
\0\0j
\r\0d
\10\0t
\ e\0|
\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\r\0d
\a\0|
\0d
\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\b\0|
\0d
\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\19\0|
\0d
\1f\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\1a\0|
\0d
\1f\0\19d
\1f\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\1c\0|
\0d
\0\19d
\0\19\83\ 2\0\ 1|
\0\0j
\r\0d
\1d\0|
\0d
\0\19d
\1f\0\19\83\ 2\0\ 1t
\10\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\a\0d
\b\0\83\ 6\0}
\ 6\0|
\0\0j
\11\0|
\ 2\0|
\ 6\0j
\ 5\0\83\0\0j
\12\0d
\0d
\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\10\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\v\0d
\f\0\83\ 6\0}
\ 6\0|
\0\0j
\11\0|
\ 3\0|
\ 6\0j
\ 5\0\83\0\0j
\12\0d
\0d
\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\10\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\ e\0d
\ f\0\83\ 6\0}
\ 6\0|
\0\0j
\11\0d
\10\0|
\ 2\0\14|
\ 6\0j
\ 5\0\83\0\0j
\12\0d
\0d
\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\10\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\12\0d
\13\0\83\ 6\0}
\ 6\0|
\0\0j
\11\0d
\10\0|
\ 3\0\14|
\ 6\0j
\ 5\0\83\0\0j
\12\0d
\0d
\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\10\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\15\0d
\16\0\83\ 6\0}
\ 6\0|
\0\0j
\11\0d
\17\0|
\ 3\0\14|
\ 6\0j
\ 5\0\83\0\0j
\12\0d
\0d
\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\13\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\a\0d
\b\0\83\ 6\0}
\ 6\0|
\0\0j
\11\0d"
\0|
\ 6\0j
\ 5\0\83\0\0j
\12\0d
\0d
\10\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\13\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\19\0d
\1a\0\83\ 6\0}
\ 6\0|
\0\0j
\11\0|
\ 2\0|
\ 6\0j
\ 5\0\83\0\0j
\12\0d
\0d
\10\0\83\ 2\0d!
\0\83\ 3\0\ 1t
\13\0|
\ 1\0|
\ 5\0d
\0|
\ 4\0d
\1c\0d
\1d\0\83\ 6\0}
\ 6\0|
\0\0j
\11\0|
\ 3\0|
\ 6\0j
\ 5\0\83\0\0j
\12\0d
\0d
\10\0\83\ 2\0d!
\0\83\ 3\0\ 1d
\0\0S(#
\0\0\0Ns
\f\0\0\0Pyfile11.medgºOLæÖ
\1cÈ@g
\0p
\1c!6+pÂt
\ 6\0\0\0AFieldt
\ 6\0\0\0AMesh1g
\0\0\0\0\0\0$@i
\b\0\0\0i
\0\0\0i
\0\0\0\0gHáz
\14®G$@i
\12\0\0\0i
\13\0\0\0g
\9a\99\99\99\99\19%@i
\1c\0\0\0i
\1d\0\0\0i
\ 3\0\0\0gR¸
\1e\85ëQ%@i&
\0\0\0i'
\0\0\0g
32692 +×£p=
\8a%@i0
\0\0\0i1
\0\0\0i
\ 4\0\0\0g
\0\0\0\0\0\80[@il
\0\0\0im
\0\0\0g
\0\0\0\0\0@j@iÐ
\0\0\0iÑ
\0\0\0i
\ 5\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\r\0\0\0g
\0\0\0\0\0ÀQ@(
\14\0\0\0R
\ 4\0\0\0R
\1a\0\0\0R
\1d\0\0\0t
\a\0\0\0setNameR#
\0\0\0R$
\0\0\0R'
\0\0\0R%
\0\0\0R
\e\0\0\0R
\0\0\0R&
\0\0\0R
\1e\0\0\0t
\16\0\0\0GetCellFieldIterationst
\v\0\0\0assertEqualt
\ 3\0\0\0lent
\16\0\0\0GetNodeFieldIterationsR
\1c\0\0\0t
\11\0\0\0assertAlmostEqualt
\ 5\0\0\0getIJR
\1f\0\0\0(
32693 +
\0\0\0R
\ e\0\0\0R(
\0\0\0R)
\0\0\0R*
\0\0\0t
\ 5\0\0\0name1t
\ 5\0\0\0name3R
\0\0\0R-
\0\0\0t
\ 3\0\0\0it1t
\ 3\0\0\0it3(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\f\0\0\0testFieldRW3
\83\0\0\0s
\94\0\0\0\0\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1\f\ 1\13\ 1\r\ 1\13\ 1\12\ 1\19\ 1\10\ 1\13\ 1\19\ 1\r\ 1\13\ 1\13\ 1\1d\ 1\r\ 1\13\ 1\1d\ 1\r\ 1\13\ 1\1d\ 1\r\ 2\f\ 1\r\ 1\13\ 1\13\ 1\r\ 1\13\ 1\12\ 1\19\ 1\r\ 1\13\ 1\19\ 1\r\ 2\12\ 1\16\ 1\18\0\18\ 1\18\0\18\ 1\18\0\18\ 1\18\0\18\ 1\18\0\18\ 1\12\ 1\16\ 1\18\0\18\ 1\18\0\18\ 1\18\0\18\ 3\e\ 1%
\ 1\e\ 1%
\ 1\e\ 1)
\ 1\e\ 1)
\ 1\e\ 1)
\ 2\e\ 1%
\ 1\e\ 1%
\ 1\e\ 1%
\ 1c
\ 1\0\0\0\14\0\0\0\12\0\0\0C
\0\0\0s;
\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 5\0}
\ 3\0|
\ 2\0j
\ 2\0|
\ 3\0t
\ 3\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 4\0d
\a\0\83\ 1\0\ 1d
\b\0d
\ 4\0d
\ 5\0d
\0g
\ 4\0}
\ 5\0|
\ 2\0j
\ 2\0|
\ 5\0t
\ 3\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 4\0d
32694 +
\0\83\ 1\0\ 1t
\ 5\0j
\ 6\0\83\0\0}
\a\0|
\a\0j
\ 4\0d
\v\0\83\ 1\0\ 1|
\a\0j
\a\0d
\b\0\83\ 1\0\ 1|
\a\0j
\b\0d
\ 2\0\83\ 1\0\ 1d
\f\0d
\r\0d
\ 2\0d
\b\0g
\ 4\0}
\b\0|
\a\0j
\0t
32695 +
\0d
\ 4\0|
\b\0d
\f\0d
\ 4\0!
\83\ 3\0\ 1|
\a\0j
\v\0\83\0\0\ 1|
\a\0j
\f\0|
\ 2\0j
\r\0\83\0\0\83\ 1\0\ 1|
\ 2\0|
\ 4\0|
\ 6\0|
\a\0g
\ 4\0}
\0d
\ e\0}
32697 +
\0|
\0t
\ f\0\83\ 4\0\ 1t
\10\0|
\ 1\0|
32698 +
\0\83\ 2\0}
\v\0|
\ 2\0j
\ 4\0|
32699 +
\0\83\ 1\0\ 1d
\f\0d
\ 2\0d
\ 3\0d
\b\0d
\ 4\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\r\0d
\15\0d
\ 5\0d
\0d
\ 6\0d
\16\0d
\17\0g
\12\0}
\f\0|
\v\0j
\ 2\0|
\f\0t
\ 3\0\83\ 2\0}
\r\0|
\r\0j
\ 4\0|
32700 +
\0\83\ 1\0\ 1|
\0\0j
\11\0|
\r\0j
\12\0|
\ 2\0d
\18\0\83\ 2\0\83\ 1\0\ 1t
\13\0|
\ 1\0|
32701 +
\0\83\ 2\0}
\ e\0|
\0\0j
\14\0d
\ 4\0t
\15\0|
\ e\0\83\ 1\0\83\ 2\0\ 1|
\ e\0j
\16\0d
\a\0\83\ 1\0\ 1|
\ e\0j
\16\0d
32702 +
\0\83\ 1\0\ 1|
\ e\0j
\16\0d
\v\0\83\ 1\0\ 1|
\ e\0j
\16\0d
\19\0\83\ 1\0\ 1d
\a\0g
\ 1\0}
\ f\0t
\17\0|
\ 1\0|
32703 +
\0d
\f\0|
\ f\0\83\ 4\0}
\10\0|
\0\0j
\11\0|
\10\0j
\12\0|
\ 4\0d
\18\0\83\ 2\0\83\ 1\0\ 1d
32704 +
\0g
\ 1\0}
\ f\0t
\17\0|
\ 1\0|
32705 +
\0d
\f\0|
\ f\0\83\ 4\0}
\11\0|
\0\0j
\11\0|
\11\0j
\12\0|
\ 6\0d
\18\0\83\ 2\0\83\ 1\0\ 1d
\v\0g
\ 1\0}
\ f\0t
\17\0|
\ 1\0|
32706 +
\0d
\f\0|
\ f\0\83\ 4\0}
\12\0|
\0\0j
\11\0|
\12\0j
\12\0|
\a\0d
\18\0\83\ 2\0\83\ 1\0\ 1d
\19\0g
\ 1\0}
\ f\0t
\17\0|
\ 1\0|
32707 +
\0d
\f\0|
\ f\0\83\ 4\0}
\13\0|
\ 2\0j
\ 4\0d
\19\0\83\ 1\0\ 1|
\0\0j
\11\0|
\13\0j
\12\0|
\ 2\0d
\18\0\83\ 2\0\83\ 1\0\ 1d
\1a\0d
\e\0g
\ 2\0}
\ f\0t
\18\0|
\ 1\0|
32708 +
\0d
\f\0|
\ f\0\83\ 4\0}
\10\0|
\10\0j
\ 4\0d
\a\0\83\ 1\0\ 1|
\0\0j
\11\0|
\10\0j
\12\0|
\ 4\0d
\18\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\1c\0\0\0Ns
\f\0\0\0Pyfile10.medi
\ 1\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0i
\r\0\0\0i
\ f\0\0\0t
\ 5\0\0\0mesh2i
\ 3\0\0\0i
\ e\0\0\0t
\ 5\0\0\0mesh3t
\ 5\0\0\0mesh4i
\0\0\0\0i
\v\0\0\0t
\ 6\0\0\03DTotoi
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
32709 +
\0\0\0i
\f\0\0\0i
\10\0\0\0i
\11\0\0\0g
\11ê-
\81\99\97q=t
\b\0\0\03DMesh_1s
\0\0\0Family_-5s
\0\0\0Family_-3(
\19\0\0\0R
\ 4\0\0\0R
\18\0\0\0t
\11\0\0\0buildPartOfMySelft
\ 4\0\0\0TrueR1
\0\0\0t
\10\0\0\0MEDCouplingUMesht
\ 3\0\0\0Newt
\10\0\0\0setMeshDimensiont
\r\0\0\0allocateCellst
\ e\0\0\0insertNextCellt
\v\0\0\0NORM_TETRA4t
\14\0\0\0finishInsertingCellst
\0\0\0setCoordst
\0\0\0getCoordst
\18\0\0\0WriteUMeshesPartitionDepR
\0\0\0R
32710 +
\0\0\0R
\f\0\0\0R
\r\0\0\0t
\12\0\0\0GetMeshGroupsNamesR3
\0\0\0R4
\0\0\0t
\ 5\0\0\0indext
\13\0\0\0ReadUMeshFromGroupst
\15\0\0\0ReadUMeshFromFamilies(
\14\0\0\0R
\ e\0\0\0R(
\0\0\0t
\ 5\0\0\0mesh1t
\ 5\0\0\0part1R=
\0\0\0t
\ 5\0\0\0part2R>
\0\0\0R?
\0\0\0t
\ 4\0\0\0connt
\ 6\0\0\0meshest
\ 5\0\0\0mnanet
\ 5\0\0\0mesh5t
\ 5\0\0\0part3t
\ 5\0\0\0mesh6t
\ 4\0\0\0grpst
\ 3\0\0\0vect
\a\0\0\0mesh2_2t
\a\0\0\0mesh3_2t
\a\0\0\0mesh4_2t
\a\0\0\0mesh1_2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\10\0\0\0testMultiMeshRW1Ì
\0\0\0sb
\0\0\0\0\ 1\ 6\ 1\f\ 1\15\ 1\12\ 1\r\ 1\12\ 1\12\ 1\r\ 1\f\ 1\r\ 1\r\ 1\r\ 1\12\ 1\1a\ 1
32711 +
\ 1\13\ 1\12\ 1\ 6\ 1\13\ 2\ f\ 1\r\ 1<
\ 1\12\ 1\r\ 1\19\ 1\ f\ 1\16\ 1\r\ 1\r\ 1\r\ 1\r\ 2 \ 1\15\ 1\19\ 1 \ 1\15\ 1\19\ 1 \ 1\15\ 1\19\ 1 \ 1\15\ 1\r\ 1\19\ 2\f\ 1\15\ 1\r\ 1\19\ 1c
\ 1\0\0\0\ 5\0\0\0\ 6\0\0\0C
\0\0\0s
\89\0\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 6\0}
\ 3\0|
\ 2\0j
\ 2\0|
\ 3\0t
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0\83\0\0\ 1t
\ 5\0|
\ 1\0|
\ 2\0t
\ 3\0\83\ 3\0\ 1t
\ 6\0|
\ 1\0|
\ 2\0j
\a\0\83\0\0d
\ 5\0\83\ 3\0}
\ 4\0|
\0\0j
\b\0|
\ 2\0j
\0|
\ 4\0d
\b\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\0\0\0Ns
\f\0\0\0Pyfile15.medi
\ 2\0\0\0i
\ 5\0\0\0i
\ 1\0\0\0i
\0\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0g
\11ê-
\81\99\97q=(
32712 +
\0\0\0R
\ 4\0\0\0R
\16\0\0\0t
\r\0\0\0renumberCellsR
\0\0\0R
\a\0\0\0R
\b\0\0\0R
32713 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0(
\ 5\0\0\0R
\ e\0\0\0R(
\0\0\0R
\ f\0\0\0t
\0\0\0renumber1R
\10\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\17\0\0\0testMesh3DSurfShuffleRW
\ 2\ 1\0\0s
\12\0\0\0\0\ 1\ 6\ 1\f\ 1\18\ 1\10\ 1
32714 +
\ 1\10\ 1\18\ 1\19\ 1c
\ 1\0\0\0\f\0\0\0\14\0\0\0C
\0\0\0sD
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\0\0j
\ 2\0d
\ 2\0|
\ 2\0j
\ 3\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 2\0d
\ 3\0|
\ 2\0j
\ 4\0\83\0\0\83\ 2\0\ 1d
\ 4\0d
\ 5\0d
\ 6\0g
\ 3\0}
\ 3\0|
\ 2\0j
\ 5\0|
\ 3\0\83\ 1\0\ 1d
\ 4\0d
\a\0d
\b\0d
\0d
32715 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\ 5\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\ 6\0d
\17\0g
\14\0}
\ 4\0|
\ 2\0j
\ 6\0|
\ 4\0t
\a\0\83\ 2\0\ 1|
\ 2\0j
\b\0\83\0\0\ 1t
\0|
\ 1\0|
\ 2\0t
\a\0\83\ 3\0\ 1|
\ 2\0j
32716 +
\0t
\a\0\83\ 1\0}
\ 5\0|
\ 5\0j
\v\0t
\f\0t
\a\0\83\ 2\0}
\ 6\0|
\ 6\0j
\r\0d
\18\0d
\ 4\0d
\b\0\83\ 3\0\ 1|
\ 6\0j
\ e\0t
\ f\0\83\ 1\0}
\a\0t
\10\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\11\0d
\19\0\83\ 1\0\ 1|
\ 6\0j
\r\0d
\1a\0d
\a\0d
\ 5\0\83\ 3\0\ 1|
\ 6\0j
\ e\0t
\ f\0\83\ 1\0}
\b\0t
\10\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\11\0d
\e\0\83\ 1\0\ 1|
\ 6\0j
\r\0d
\1c\0d
\11\0d
\ 6\0\83\ 3\0\ 1|
\ 6\0j
\ e\0t
\ f\0\83\ 1\0}
\0t
\10\0|
\ 1\0|
\ 6\0\83\ 2\0\ 1d
\1e\0d
\1f\0d
\0g
\ 3\0}
32717 +
\0t
\12\0t
\13\0|
\ 1\0|
\a\0j
\14\0\83\0\0j
\15\0\83\0\0d
\ f\0|
\a\0j
\15\0\83\0\0|
32718 +
\0\83\ 6\0}
\v\0|
\0\0j
\ 2\0d
\a\0t
\16\0|
\v\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\17\0|
\v\0d
\ f\0\19j
\18\0|
\a\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\17\0|
\v\0d
\ 4\0\19j
\18\0|
\b\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\17\0|
\v\0d
\b\0\19j
\18\0|
\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(!
\0\0\0Ns
\f\0\0\0Pyfile17.medi
\14\0\0\0i-
\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\b\0\0\0i
\0\0\0i
\f\0\0\0i
\r\0\0\0i
\10\0\0\0i
\13\0\0\0i
\0\0\0\0i
\a\0\0\0i
\ 5\0\0\0i
\ f\0\0\0i
\ e\0\0\0i
\11\0\0\0i
32719 +
\0\0\0i
\12\0\0\0i
\v\0\0\0g
\0\0\0\0\0\0\0\0s
\ 3\0\0\02*xg{
\14®Gáz
\84?s
\ 5\0\0\02*x/3g{
\14®Gáz
\94?g
\11ê-
\81\99\97q=(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0(
\19\0\0\0R
\ 4\0\0\0t
\r\0\0\0build3DMesh_2R3
\0\0\0t
\10\0\0\0getNumberOfCellst
\10\0\0\0getNumberOfNodest
\12\0\0\0convertToPolyTypesRb
\0\0\0R
\0\0\0t
\1a\0\0\0orientCorrectlyPolyhedronsR
\b\0\0\0t
\ f\0\0\0getMeasureFieldt
\18\0\0\0buildNewTimeReprFromThist
\b\0\0\0ONE_TIMER#
\0\0\0t
\r\0\0\0cloneWithMeshRC
\0\0\0R&
\0\0\0t
\0\0\0applyFunct
\14\0\0\0ReadFieldsOnSameMesht
\b\0\0\0ON_CELLSR
\1d\0\0\0R
\v\0\0\0R4
\0\0\0R
\f\0\0\0R
\r\0\0\0(
\f\0\0\0R
\ e\0\0\0R(
\0\0\0t
\ 1\0\0\0mt
\ 5\0\0\0polyst
\ 5\0\0\0renumt
\ 5\0\0\0f1TmpR
\0\0\0t
\ 3\0\0\0f_1t
\ 3\0\0\0f_2t
\ 3\0\0\0f_3t
\ 3\0\0\0itst
\ 2\0\0\0fs(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\18\0\0\0testMultiFieldShuffleRW1
\r\ 1\0\0s<
\0\0\0\0\ 1\ 6\ 1\f\ 1\16\ 1\16\ 1\ f\ 1\r\ 1B
\ 1\10\ 1
32720 +
\ 2\10\ 1\ f\ 1\12\ 1\13\ 1\ f\ 1\r\ 1\r\ 1\13\ 1\ f\ 1\r\ 1\r\ 1\13\ 1\ f\ 1\r\ 2\ f\ 1-
\ 1\16\ 1 \ 1 \ 1 \ 1c
\ 1\0\0\0\10\0\0\0
32721 +
\0\0\0C
\0\0\0sh
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0g
\ 3\0}
\ 3\0d
\ 2\0d
\ 2\0d
\ 4\0g
\ 3\0}
\ 4\0|
\ 2\0j
\ 2\0|
\ 3\0|
\ 4\0d
\ 5\0\83\ 3\0}
\ 5\0|
\ 2\0j
\ 3\0|
\ 5\0t
\ 4\0\83\ 2\0}
\ 6\0d
\ 6\0d
\a\0d
\b\0d
\0d
32722 +
\0g
\ 5\0}
\a\0|
\ 6\0j
\ 5\0|
\a\0t
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\a\0d
\v\0\83\ 1\0\ 1|
\ 6\0|
\ 2\0g
\ 2\0}
\b\0t
\b\0|
\ 1\0|
\b\0t
\ 6\0\83\ 3\0\ 1t
\0|
\ 1\0|
\ 6\0j
32723 +
\0\83\0\0d
\b\0\83\ 3\0}
\0|
\0\0j
\v\0|
\0j
\f\0|
\ 2\0d
\ 5\0\83\ 2\0\f\83\ 1\0\ 1|
\0j
\a\0|
\ 2\0j
32724 +
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\v\0|
\0j
\f\0|
\ 2\0d
\ 5\0\83\ 2\0\83\ 1\0\ 1t
\0|
\ 1\0|
\ 6\0j
32725 +
\0\83\0\0d
\f\0\83\ 3\0}
32727 +
\0j
\f\0|
\ 6\0d
\ 5\0\83\ 2\0\83\ 1\0\ 1t
\r\0j
\ e\0t
\ f\0t
\10\0\83\ 2\0}
\v\0|
\v\0j
\a\0d
\r\0\83\ 1\0\ 1|
\v\0j
\11\0|
\ 6\0\83\ 1\0\ 1t
\12\0j
\ e\0\83\0\0}
\f\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0g
32728 +
\0}
\r\0|
\f\0j
\13\0|
\r\0|
\ 6\0j
\14\0\83\0\0d
\a\0\83\ 3\0\ 1|
\f\0j
\15\0d
\b\0d
\18\0\83\ 2\0\ 1|
\f\0j
\15\0d
\ 6\0d
\19\0\83\ 2\0\ 1|
\v\0j
\16\0|
\f\0\83\ 1\0\ 1|
\f\0j
\13\0|
\r\0|
\ 6\0j
\14\0\83\0\0d
\a\0\83\ 3\0}
\ e\0|
\v\0j
\17\0d
\1a\0d
\a\0d
\e\0\83\ 3\0\ 1|
\v\0j
\18\0\83\0\0\ 1t
\19\0|
\ 1\0|
\v\0\83\ 2\0\ 1t
\1a\0|
\ 1\0|
\v\0j
\e\0\83\0\0j
32729 +
\0\83\0\0d
\f\0|
\v\0j
32730 +
\0\83\0\0d
\a\0d
\e\0\83\ 6\0}
\ f\0|
\0\0j
\v\0|
\ f\0j
\f\0|
\v\0d
\ 5\0d
\ 5\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\1c\0\0\0Ns
\f\0\0\0Pyfile18.medg
\0\0\0\0\0\0\0\0g333333Ó¿g
\0\0\0\0\0\0ð?g
\11ê-
\81\99\97q=i
\ 1\0\0\0i
\ 2\0\0\0i
\0\0\0\0i
\ 4\0\0\0i
\ 3\0\0\0t
\12\0\0\0ExampleOfMultiDimWiÿÿÿÿt
\13\0\0\0FieldOnFacesShuffleg
\0\0\0\0\0ÀQ@g
\0\0\0\0\0`e@g
\0\0\0\0\0\0$@g
\0\0\0\0\0\80[@g
\0\0\0\0\0\04@g
\0\0\0\0\0\0^@g
\0\0\0\0\0\0>@g
\0\0\0\0\0@`@g
\0\0\0\0\0\0D@g
\0\0\0\0\0\80a@s
\0\0\0plkj [mm]s
\v\0\0\0pqqqss [mm]g
\1f\85ëQ¸
\1e @i
\a\0\0\0(
\1c\0\0\0R
\ 4\0\0\0Re
\0\0\0t
\10\0\0\0findNodesOnPlanet
\19\0\0\0buildFacePartOfMySelfNodeRC
\0\0\0Rb
\0\0\0R
\0\0\0R1
\0\0\0t
\f\0\0\0WriteUMeshesR
32731 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\r\0\0\0t
\16\0\0\0MEDCouplingFieldDoubleRE
\0\0\0Rp
\0\0\0Rl
\0\0\0t
\a\0\0\0setMesht
\ f\0\0\0DataArrayDoublet
\0\0\0setValuesRf
\0\0\0t
\12\0\0\0setInfoOnComponentt
\b\0\0\0setArrayR#
\0\0\0R
\a\0\0\0R&
\0\0\0R
\1c\0\0\0R
\1d\0\0\0(
\10\0\0\0R
\ e\0\0\0R(
\0\0\0t
\ 3\0\0\0m3dt
\ 2\0\0\0ptR\
\0\0\0t
\ 5\0\0\0nodest
\ 3\0\0\0m2dt
\b\0\0\0renumberRV
\0\0\0t
\a\0\0\0m3d_bist
\a\0\0\0m2d_bisR
\0\0\0t
\ 5\0\0\0arrayt
\ 4\0\0\0arr1R-
\0\0\0R!
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\13\0\0\0testWriteUMeshesRW1/
\ 1\0\0sB
\0\0\0\0\ 1\ 6\ 1\f\ 1\ f\ 1\ f\ 1\15\ 1\12\ 1\15\ 1\10\ 1\r\ 1\f\ 1\10\ 1\18\ 1\1a\ 1\13\ 1\19\ 1\18\ 1\19\ 2\12\ 1\r\ 1\r\ 1\f\ 1$
\ 1\19\ 1\10\ 1\10\ 1\r\ 1\e\ 1\13\ 1
32732 +
\ 1\r\ 1-
\ 1\1c\ 1(
\ e\0\0\0t
\b\0\0\0__name__t
32733 +
\0\0\0__module__R
\11\0\0\0R
\13\0\0\0R
\15\0\0\0R
\17\0\0\0R
\19\0\0\0R"
\0\0\0R.
\0\0\0R<
\0\0\0Ra
\0\0\0Rd
\0\0\0Rz
\0\0\0R
\8f\0\0\0(
\0\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyR
\ 5\0\0\0\e\0\0\0s
\1a\0\0\0\ 6\ 1 \b \b \b \b \b \f 3 I 6
\v " #t
\b\0\0\0__main__(
\v\0\0\0t
\0\0\0MEDLoadert
\b\0\0\0unittestt
\ 4\0\0\0mathR
\ 1\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0t
\b\0\0\0TestCaseR
\ 5\0\0\0R
\90\0\0\0t
\ 4\0\0\0main(
\0\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest2.pyt
\b\0\0\0<module>
\16\0\0\0s
\ e\0\0\0
32734 +
\ 1\f\ 1\1c\ 1\10\ 2\19ÿ
\0:
\f\ 1
32735 \ Pas de fin de ligne à la fin du fichier
32736 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTest3.py MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTest3.py
32737 --- MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTest3.py 2018-04-19 17:04:36.767223321 +0200
32738 +++ MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTest3.py 2018-04-19 17:25:17.795798503 +0200
32743 +class StdOutRedirect(object):
32744 + def __init__(self,fileName):
32746 + sys.stderr.flush()
32747 + self.stdoutOld=os.dup(2)
32748 + self.fdOfSinkFile=os.open(fileName,os.O_CREAT | os.O_RDWR)
32749 + fd2=os.dup2(self.fdOfSinkFile,2)
32750 + self.origPyVal=sys.stderr
32751 + class FlushFile(object):
32752 + def __init__(self,f):
32754 + def write(self,st):
32758 + return self.f.flush()
32759 + def isatty(self):
32760 + return self.f.isatty()
32764 + sys.stderr=FlushFile(os.fdopen(self.fdOfSinkFile,"w"))
32765 + def __del__(self):
32767 + sys.stderr.close()
32768 + sys.stderr=self.origPyVal
32770 + os.dup2(self.stdoutOld,2)
32771 + os.close(self.stdoutOld)
32773 class MEDLoaderTest3(unittest.TestCase):
32774 def testMEDMesh1(self):
32775 fileName="Pyfile18.med"
32776 @@ -546,6 +576,10 @@
32777 ff1.setTime(3,4,2.3)
32778 itt,orr,ti=ff1.getTime()
32779 self.assertEqual(3,itt); self.assertEqual(4,orr); self.assertAlmostEqual(2.3,ti,14);
32780 + f1.setTime(5.5,7,8)
32781 + ff1.copyTimeInfoFrom(f1)
32782 + itt,orr,ti=ff1.getTime()
32783 + self.assertEqual(7,itt); self.assertEqual(8,orr); self.assertAlmostEqual(5.5,ti,14);
32784 da,infos=ff1.getUndergroundDataArrayExt()
32785 f2.getArray().setName(da.getName())#da has the same name than f2
32786 self.assertTrue(da.isEqual(f2.getArray(),1e-12))
32787 @@ -878,7 +912,7 @@
32789 # Tricky test of the case of in a MED file containing a Field on GAUSS_NE is lying on a profile that is reality represents all the geom entities of a level.
32790 # By default when using setFieldProfile method such profile is not created because it is not useful ! So here a trick is used to force MEDLoader to do that
32791 - # for the necessity of the test ! The idea is too create artificially a mesh having one more fictious cell per type and to roll back right after !
32792 + # for the necessity of the test ! The idea is too create artificially a mesh having one more fictitious cell per type and to roll back right after !
32793 def testMEDField15(self):
32794 fname="Pyfile36.med"
32795 m0=MEDLoaderDataForTest.build2DMesh_1()
32796 @@ -1381,7 +1415,7 @@
32799 def testBuildInnerBoundaryAlongM1Group4(self):
32800 - """ Test case where cells touch the M1 group on some nodes only and not on full egdes (triangle mesh for ex)
32801 + """ Test case where cells touch the M1 group on some nodes only and not on full edges (triangle mesh for ex)
32803 coo = DataArrayDouble([0.,0., 1.,0., 2.,0., 3.,0.,
32804 0.,1., 1.,1., 2.,1., 3.,1.,
32805 @@ -2027,8 +2061,16 @@
32806 mm.setFamiliesOnGroup("grp0",["MyOtherFam"])
32807 mm.setFamiliesOnGroup("grpA",["MyOther-1"])
32809 + self.assertTrue(mm.getNodeFamiliesArr(["MyFam","MyOtherFam"]).isEqual(DataArrayInt([1,3,4,12]))) # find family id 2 and 3 into famCoo
32811 daTest=DataArrayInt([1,3,4,6,9,10,12]) ; daTest.setName("grp1")
32812 mm.addNodeGroup(daTest)
32813 + self.assertTrue(mm.getNodeGroupArr(daTest.getName()).isEqual(daTest)) # the node group has been pushed right before -> now read it
32814 + self.assertTrue(mm.getNodeGroupsArr(["grp1","grpA"]).isEqual(DataArrayInt([1,3,4,6,9,10,11,12])))#daTest+[11] because 11 is the rank of -1 (MyOther-1) in famCoo
32816 + expect1=DataArrayInt([1,4]) ; expect1.setName("MyFam")
32817 + self.assertTrue(mm.getNodeFamilyArr(expect1.getName()).isEqual(expect1))
32819 self.assertTrue(mm.getGroupArr(1,daTest.getName()).isEqual(daTest))
32820 self.assertTrue(mm.getFamilyFieldAtLevel(1).isEqual(DataArrayInt([6,2,6,8,2,6,5,6,6,7,7,4,8])))
32821 for lev,arr in [(0,da0),(-1,da1),(-2,da2)]:
32822 @@ -2596,31 +2638,34 @@
32823 ff1.setFieldNoProfileSBT(f1)
32824 a=ff1.getFieldOnMeshAtLevel(0,ON_CELLS,mm1)
32825 self.assertEqual(a.getArray().getInfoOnComponents(),['power [MW/m^3]','density [g/cm^3]','temperature [K]'])
32826 - self.assertTrue(a.isEqual(f1,1e-12,1e-12))
32827 + self.assertTrue(a.isEqual(f1,1e-12,0))
32829 + a,b=ff1.getUndergroundDataArrayExt()
32830 + self.assertEqual(a.getHiddenCppPointer(),ff1.getUndergroundDataArray().getHiddenCppPointer())
32831 + self.assertEqual(b,[((3,0),(0,2)),((4,0),(2,4)),((6,0),(4,5)),((5,0),(5,6))])
32832 ff2=MEDFileAnyTypeField1TS.New(fname)
32833 self.assertEqual(ff2.getName(),"VectorFieldOnCells")
32834 self.assertEqual(ff2.getTime(),[0,1,2.0])
32835 self.assertTrue(isinstance(ff2,MEDFileIntField1TS))
32836 a=ff1.getFieldOnMeshAtLevel(ON_CELLS,0,mm1)
32837 self.assertEqual(a.getArray().getInfoOnComponents(),['power [MW/m^3]','density [g/cm^3]','temperature [K]'])
32838 - self.assertTrue(a.isEqual(f1,1e-12,1e-12))
32839 + self.assertTrue(a.isEqual(f1,1e-12,0))
32840 ff2.setTime(1,2,3.)
32841 c=ff2.getUndergroundDataArray() ; c*=2
32842 - ff2.write(fname,0) # 2 time steps in
32843 + ff2.write(fname,0) # 2 time steps in
32844 ffs1=MEDFileAnyTypeFieldMultiTS.New(fname,"VectorFieldOnCells")
32845 self.assertEqual(ffs1.getTimeSteps(),[(0, 1, 2.0), (1, 2, 3.0)])
32846 self.assertEqual(len(ffs1),2)
32847 self.assertTrue(isinstance(ffs1,MEDFileIntFieldMultiTS))
32848 a=ffs1[2.].getFieldOnMeshAtLevel(ON_CELLS,0,mm1)
32849 - self.assertTrue(a.isEqual(f1,1e-12,1e-12))
32850 + self.assertTrue(a.isEqual(f1,1e-12,0))
32851 a=ffs1.getFieldOnMeshAtLevel(ON_CELLS,0,1,0,mm1)
32852 - self.assertTrue(a.isEqual(f1,1e-12,1e-12))
32853 + self.assertTrue(a.isEqual(f1,1e-12,0))
32854 it=ffs1.__iter__() ; it.next() ; ff2bis=it.next()
32855 a=ff2bis.getFieldOnMeshAtLevel(0,ON_CELLS,mm1)
32856 self.assertTrue(a.getArray().isEqual(2*f1.getArray()))
32857 f1.setTime(3.,1,2) ; f1.getArray()[:]*=2
32858 - self.assertTrue(a.isEqual(f1,1e-12,1e-12)) ; f1.getArray()[:]/=2
32859 + self.assertTrue(a.isEqual(f1,1e-12,0)) ; f1.getArray()[:]/=2
32860 bc=DataArrayInt(6,3) ; bc[:]=0 ; bc.setInfoOnComponents(['power [MW/m^3]','density [g/cm^3]','temperature [K]'])
32862 a=it.getFieldOnMeshAtLevel(ON_CELLS,0,mm1)
32863 @@ -3708,7 +3753,7 @@
32866 def testMEDFileUMeshSetName(self):
32867 - """ This test is a small but important one for MEDReader in sauv mode. When .sauv file is loaded the convertion is performed in memory and a preparation is done then.
32868 + """ This test is a small but important one for MEDReader in sauv mode. When .sauv file is loaded the conversion is performed in memory and a preparation is done then.
32869 This preparation makes access to internal MEDCouplingMesh pointers whose name must be updated.
32871 fname="Pyfile79.med"
32872 @@ -4523,8 +4568,7 @@
32873 grpExp=grp+delta ; grpExp.setName("%s_node"%grp.getName())
32874 self.assertTrue(mm.getGroupArr(1,"%s_node"%grp.getName()).isEqual(grpExp))
32879 def testMEDFileJoint1(self):
32880 fileName="Pyfile92.med"
32881 coo=DataArrayDouble([(0,0,0),(1,0,0),(2,0,0)])
32882 @@ -4562,8 +4606,8 @@
32883 self.assertRaises( InterpKernelException, jointsR.getJointAtPos,1)
32884 self.assertRaises( InterpKernelException, jointsR.destroyJointAtPos,1)
32885 jointsR.destroyJointAtPos(0)
32890 def testMEDFileJoint2(self):
32891 fileNameWr="Pyfile93.med"
32892 coo=DataArrayDouble([(0,0,0),(1,0,0),(2,0,0)])
32893 @@ -4656,35 +4700,7 @@
32894 """ EDF11242 : check status of MED file calls to detect problems immediately. Sorry this test generates awful messages !"""
32895 fname="Pyfile94.med"
32896 errfname="Pyfile94.err"
32897 - class StdOutRedirect(object):
32898 - def __init__(self,fileName):
32900 - sys.stderr.flush()
32901 - self.stdoutOld=os.dup(2)
32902 - self.fdOfSinkFile=os.open(fileName,os.O_CREAT | os.O_RDWR)
32903 - fd2=os.dup2(self.fdOfSinkFile,2)
32904 - self.origPyVal=sys.stderr
32905 - class FlushFile(object):
32906 - def __init__(self,f):
32908 - def write(self,st):
32912 - return self.f.flush()
32913 - def isatty(self):
32914 - return self.f.isatty()
32915 - sys.stderr=FlushFile(os.fdopen(self.fdOfSinkFile,"w"))
32916 - def __del__(self):
32918 - sys.stderr=self.origPyVal
32919 - if sys.version_info.major >= 3:
32920 - self.fdOfSinkFile.close()
32922 - #os.fsync(self.fdOfSinkFile)
32924 - os.dup2(self.stdoutOld,2)
32925 - os.close(self.stdoutOld)
32928 # first clean file if needed
32929 if os.path.exists(fname):
32930 @@ -4855,7 +4871,7 @@
32931 self.assertEqual(mm.getFamiliesIdsOnGroup("RID"),(-4,3))
32932 mm.write(fileName,2)
32933 # now read such funny file !
32934 - mm2=MEDFileMesh.New(fileName) # <- normaly mdump of Pyfile98.med must contain only RID and FAMILLE_ZERO families.
32935 + mm2=MEDFileMesh.New(fileName) # <- normally mdump of Pyfile98.med must contain only RID and FAMILLE_ZERO families.
32936 self.assertTrue(mm.isEqual(mm2,1e-16))
32937 self.assertEqual(mm2.getFamiliesNames(),("FAMILLE_ZERO",'RIDF!/__\\!0000','RIDF!/__\\!0001'))
32938 self.assertEqual(mm2.getFamiliesNamesWithFilePointOfView(),("FAMILLE_ZERO","RIDF","RIDF"))
32939 @@ -5230,12 +5246,12 @@
32940 mm=MEDFileMesh.New(fname)
32941 f1ts=MEDFileIntField1TS(fname,fieldName,6,7)
32942 ftst0=f1ts.field(mm)
32943 - self.assertTrue(f0.isEqual(ftst0,1e-12,1e-12))
32944 + self.assertTrue(f0.isEqual(ftst0,1e-12,0))
32945 f1ts=MEDFileIntField1TS(fname,fieldName,8,9)
32946 ftst1=f1ts.field(mm)
32947 - self.assertTrue(f1.isEqual(ftst1,1e-12,1e-12))
32948 + self.assertTrue(f1.isEqual(ftst1,1e-12,0))
32949 fmts=MEDFileIntFieldMultiTS(fname,fieldName)
32950 - self.assertTrue(f1.isEqual(fmts.field(8,9,mm),1e-12,1e-12))
32951 + self.assertTrue(f1.isEqual(fmts.field(8,9,mm),1e-12,0))
32952 ## Basic test on nodes on top level
32953 f2=MEDCouplingFieldInt(ON_NODES) ; arr2=DataArrayInt([200,201,202]) ; arr2.setInfoOnComponent(0,"tutu") ; f2.setArray(arr2) ; f2.setMesh(m) ; f2.setTime(22.,23,24)
32954 f2.setName(fieldName)
32955 @@ -5244,9 +5260,9 @@
32957 mm=MEDFileMesh.New(fname)
32958 f1ts=MEDFileIntField1TS(fname,fieldName,23,24)
32959 - self.assertTrue(f2.isEqual(f1ts.field(mm),1e-12,1e-12))
32960 + self.assertTrue(f2.isEqual(f1ts.field(mm),1e-12,0))
32961 fmts=MEDFileIntFieldMultiTS(fname,fieldName)
32962 - self.assertTrue(f2.isEqual(fmts.field(23,24,mm),1e-12,1e-12))
32963 + self.assertTrue(f2.isEqual(fmts.field(23,24,mm),1e-12,0))
32964 ## Node on elements
32965 f3=MEDCouplingFieldInt(ON_GAUSS_NE) ; f3.setMesh(m) ; arr3=DataArrayInt([0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19]) ; f3.setArray(arr3) ; f3.setTime(0.5,2,3)
32966 f3.setName(fieldName) ; f3.checkConsistencyLight()
32967 @@ -5254,7 +5270,7 @@
32969 mm=MEDFileMesh.New(fname)
32970 f1ts=MEDFileIntField1TS(fname,fieldName,2,3)
32971 - self.assertTrue(f3.isEqual(f1ts.field(mm),1e-12,1e-12))
32972 + self.assertTrue(f3.isEqual(f1ts.field(mm),1e-12,0))
32974 f4=MEDCouplingFieldInt(ON_GAUSS_PT) ; f4.setMesh(m) ; f4.setName(fieldName)
32975 f4.setGaussLocalizationOnType(NORM_TRI3,[0.,0.,1.,0.,1.,1.],[0.1,0.1, 0.2,0.2, 0.3,0.3, 0.4,0.4, 0.5,0.5],[0.2,0.3,0.1,0.05,0.35])
32976 @@ -5265,7 +5281,7 @@
32978 mm=MEDFileMesh.New(fname)
32979 f1ts=MEDFileIntField1TS(fname,fieldName,4,5)
32980 - self.assertTrue(f4.isEqual(f1ts.field(mm),1e-12,1e-12))
32981 + self.assertTrue(f4.isEqual(f1ts.field(mm),1e-12,0))
32984 def testMEDFileFieldEasyField3(self):
32985 @@ -5353,7 +5369,7 @@
32986 f1ts=MEDFileIntField1TS() ; f1ts.setFieldNoProfileSBT(f1) ; f1ts.write(fname,0)
32988 mm=MEDFileMesh.New(fname) ; f1ts=MEDFileIntField1TS(fname,fieldName,1,2)
32989 - self.assertTrue(f1.isEqual(f1ts.field(mm),1e-12,1e-12))
32990 + self.assertTrue(f1.isEqual(f1ts.field(mm),1e-12,0))
32991 # here f1 lying on level -1 not 0 check if "field" method detect it !
32992 f1=MEDCouplingFieldInt(ON_CELLS) ; f1.setName(fieldName) ; f1.setArray(DataArrayInt([(0,100),(1,101),(0,100),(1,101),(0,100),(1,101)]))
32993 f1.setMesh(mm[-1]) # -1 is very important
32994 @@ -5363,7 +5379,7 @@
32995 f1ts=MEDFileIntField1TS() ; f1ts.setFieldNoProfileSBT(f1) ; f1ts.write(fname,0)
32997 mm=MEDFileMesh.New(fname) ; f1ts=MEDFileIntField1TS(fname,fieldName,3,4)
32998 - self.assertTrue(f1.isEqual(f1ts.field(mm),1e-12,1e-12))
32999 + self.assertTrue(f1.isEqual(f1ts.field(mm),1e-12,0))
33000 # nodes on elements
33001 f3=MEDCouplingFieldInt(ON_GAUSS_NE)
33002 f3.setMesh(mm[-1]) # this line is important
33003 @@ -5372,7 +5388,7 @@
33004 mm.write(fname,2) ; ff=MEDFileIntField1TS() ; ff.setFieldNoProfileSBT(f3) ; ff.write(fname,0)
33006 mm=MEDFileMesh.New(fname) ; f1ts=MEDFileIntField1TS(fname,fieldName,2,3)
33007 - self.assertTrue(f3.isEqual(f1ts.field(mm),1e-12,1e-12))
33008 + self.assertTrue(f3.isEqual(f1ts.field(mm),1e-12,0))
33010 f4=MEDCouplingFieldInt(ON_GAUSS_PT)
33011 f4.setMesh(mm[-1]) # this line is important
33012 @@ -5383,7 +5399,7 @@
33013 f4.checkConsistencyLight()
33014 mm.write(fname,2) ; ff=MEDFileIntField1TS() ; ff.setFieldNoProfileSBT(f4) ; ff.write(fname,0)
33015 mm=MEDFileMesh.New(fname) ; f1ts=MEDFileIntField1TS(fname,fieldName,4,5)
33016 - self.assertTrue(f4.isEqual(f1ts.field(mm),1e-12,1e-12))
33017 + self.assertTrue(f4.isEqual(f1ts.field(mm),1e-12,0))
33020 def testMEDFileFieldEasyField5(self):
33021 @@ -5767,6 +5783,8 @@
33024 @unittest.skipUnless(LooseVersion(MEDFileVersionStr())>=LooseVersion('3.2.1'),"This test requires at least MEDFile version 3.2.1")
33025 + @unittest.skipUnless(LooseVersion(MEDFileVersionStr())<LooseVersion('4.0.0'),
33026 + "This test is not compatible with MEDFile version 4.0.0 and above")
33027 def testWriteInto30(self):
33028 fname="Pyfile108.med"
33029 fname2="Pyfile109.med"
33030 @@ -5900,12 +5918,12 @@
33031 fmts5=pickle.loads(st)
33032 self.assertEqual(len(fs4[0]),len(fmts5))
33033 self.assertTrue(isinstance(fmts5,MEDFileIntFieldMultiTS))
33034 - self.assertTrue(fmts5[0].field(ms4[0]).isEqual((fs4[0][0]).field(ms4[0]),1e-12,1e-12))
33035 + self.assertTrue(fmts5[0].field(ms4[0]).isEqual((fs4[0][0]).field(ms4[0]),1e-12,0))
33036 # MEDFileIntField1TS
33037 st=pickle.dumps(fs4[0][0],pickle.HIGHEST_PROTOCOL)
33038 f1ts6=pickle.loads(st)
33039 self.assertTrue(isinstance(f1ts6,MEDFileIntField1TS))
33040 - self.assertTrue(f1ts6.field(ms4[0]).isEqual((fs4[0][0]).field(ms4[0]),1e-12,1e-12))
33041 + self.assertTrue(f1ts6.field(ms4[0]).isEqual((fs4[0][0]).field(ms4[0]),1e-12,0))
33042 # MEDFileParameters
33043 self.testParameters1()# generates Pyfile56.med
33044 params=MEDFileParameters("Pyfile56.med")
33045 @@ -5989,6 +6007,447 @@
33046 self.assertTrue(ff1.field(mm).isEqual(f3,1e-12,1e-12))
33049 + def testFloat32InMEDFileFieldStar1(self):
33050 + """Like testInt32InMEDFileFieldStar1 but with float32 :)"""
33051 + fname="Pyfile114.med"
33052 + f1=MEDLoaderDataForTest.buildVecFieldOnCells_1();
33053 + f1=f1.convertToFloatField()
33055 + mm1=MEDFileUMesh.New()
33056 + mm1.setCoords(m1.getCoords())
33057 + mm1.setMeshAtLevel(0,m1)
33058 + mm1.setName(m1.getName())
33059 + mm1.write(fname,2)
33060 + ff1=MEDFileFloatField1TS()
33061 + ff1.setFieldNoProfileSBT(f1)
33062 + a=ff1.getFieldOnMeshAtLevel(0,ON_CELLS,mm1)
33063 + self.assertEqual(a.getArray().getInfoOnComponents(),['power [MW/m^3]','density [g/cm^3]','temperature [K]'])
33064 + self.assertTrue(a.isEqual(f1,1e-12,1e-12))
33065 + ff1.write(fname,0)
33066 + a,b=ff1.getUndergroundDataArrayExt()
33067 + self.assertEqual(a.getHiddenCppPointer(),ff1.getUndergroundDataArray().getHiddenCppPointer())
33068 + self.assertEqual(b,[((3,0),(0,2)),((4,0),(2,4)),((6,0),(4,5)),((5,0),(5,6))])
33069 + ff2=MEDFileAnyTypeField1TS.New(fname)
33070 + self.assertEqual(ff2.getName(),"VectorFieldOnCells")
33071 + self.assertEqual(ff2.getTime(),[0,1,2.0])
33072 + self.assertTrue(isinstance(ff2,MEDFileFloatField1TS))
33073 + a=ff1.getFieldOnMeshAtLevel(ON_CELLS,0,mm1)
33074 + self.assertEqual(a.getArray().getInfoOnComponents(),['power [MW/m^3]','density [g/cm^3]','temperature [K]'])
33075 + self.assertTrue(a.isEqual(f1,1e-12,1e-12))
33076 + ff2.setTime(1,2,3.)
33077 + c=ff2.getUndergroundDataArray() ; c*=2
33078 + ff2.write(fname,0) # 2 time steps in
33079 + ffs1=MEDFileAnyTypeFieldMultiTS.New(fname,"VectorFieldOnCells")
33080 + self.assertEqual(ffs1.getTimeSteps(),[(0, 1, 2.0), (1, 2, 3.0)])
33081 + self.assertEqual(len(ffs1),2)
33082 + self.assertTrue(isinstance(ffs1,MEDFileFloatFieldMultiTS))
33083 + a=ffs1[2.].getFieldOnMeshAtLevel(ON_CELLS,0,mm1)
33084 + self.assertTrue(a.isEqual(f1,1e-12,1e-12))
33085 + a=ffs1.getFieldOnMeshAtLevel(ON_CELLS,0,1,0,mm1)
33086 + self.assertTrue(a.isEqual(f1,1e-12,1e-12))
33087 + it=ffs1.__iter__() ; it.next() ; ff2bis=it.next()
33088 + a=ff2bis.getFieldOnMeshAtLevel(0,ON_CELLS,mm1)
33089 + self.assertTrue(a.getArray().isEqual(2*f1.getArray(),1e-7))
33090 + f1.setTime(3.,1,2) ; f1.getArray()[:]*=2
33091 + self.assertTrue(a.isEqual(f1,1e-12,1e-12)) ; f1.getArray()[:]/=2
33092 + bc=DataArrayFloat(6,3) ; bc[:]=0 ; bc.setInfoOnComponents(['power [MW/m^3]','density [g/cm^3]','temperature [K]'])
33094 + a=it.getFieldOnMeshAtLevel(ON_CELLS,0,mm1)
33097 + self.assertTrue(bc.isEqual(3*f1.getArray(),1e-7))
33098 + nf1=MEDCouplingFieldFloat(ON_NODES)
33099 + nf1.setTime(9.,10,-1)
33100 + nf1.setMesh(f1.getMesh())
33101 + narr=DataArrayFloat(12,2) ; narr.setInfoOnComponents(["aa [u1]","bbbvv [ppp]"]) ; narr[:,0]=list(range(12)) ; narr[:,1]=2*narr[:,0]
33102 + nf1.setName("VectorFieldOnNodes") ; nf1.setArray(narr)
33103 + nff1=MEDFileFloatField1TS.New()
33104 + nff1.setFieldNoProfileSBT(nf1)
33105 + self.assertEqual(nff1.getInfo(),('aa [u1]','bbbvv [ppp]'))
33106 + self.assertEqual(nff1.getTime(),[10,-1,9.0])
33107 + nff1.write(fname,0)
33109 + nf2=MEDCouplingFieldFloat(ON_NODES)
33110 + nf2.setTime(19.,20,-11)
33111 + nf2.setMesh(f1.getMesh())
33112 + narr2=DataArrayFloat(8,2) ; narr.setInfoOnComponents(["aapfl [u1]","bbbvvpfl [ppp]"]) ; narr2[:,0]=list(range(8)) ; narr2[:,0]+=10 ; narr2[:,1]=3*narr2[:,0]
33113 + nf2.setName("VectorFieldOnNodesPfl") ; narr2.setName(nf2.getName()) ; nf2.setArray(narr2)
33114 + nff2=MEDFileFloatField1TS.New()
33115 + npfl=DataArrayInt([1,2,4,5,6,7,10,11]) ; npfl.setName("npfl")
33116 + nff2.setFieldProfile(nf2,mm1,0,npfl)
33117 + nff2.getFieldWithProfile(ON_NODES,0,mm1)
33118 + a,b=nff2.getFieldWithProfile(ON_NODES,0,mm1) ; b.setName(npfl.getName())
33119 + self.assertTrue(b.isEqual(npfl))
33120 + self.assertTrue(a.isEqual(narr2,1e-7))
33121 + nff2.write(fname,0)
33122 + nff2bis=MEDFileFloatField1TS(fname,"VectorFieldOnNodesPfl")
33123 + a,b=nff2bis.getFieldWithProfile(ON_NODES,0,mm1) ; b.setName(npfl.getName())
33124 + self.assertTrue(b.isEqual(npfl))
33125 + self.assertTrue(a.isEqual(narr2,1e-7))
33127 + nf3=MEDCouplingFieldDouble(ON_NODES)
33128 + nf3.setName("VectorFieldOnNodesDouble")
33129 + nf3.setTime(29.,30,-21)
33130 + nf3.setMesh(f1.getMesh())
33131 + nf3.setArray(f1.getMesh().getCoords())
33132 + nff3=MEDFileField1TS.New()
33133 + nff3.setFieldNoProfileSBT(nf3)
33134 + nff3.write(fname,0)
33135 + fs=MEDFileFields(fname)
33136 + self.assertEqual(len(fs),4)
33137 + ffs=[it for it in fs]
33138 + self.assertTrue(isinstance(ffs[0],MEDFileFloatFieldMultiTS))
33139 + self.assertTrue(isinstance(ffs[1],MEDFileFloatFieldMultiTS))
33140 + self.assertTrue(isinstance(ffs[2],MEDFileFieldMultiTS))
33141 + self.assertTrue(isinstance(ffs[3],MEDFileFloatFieldMultiTS))
33143 + self.assertTrue(fs["VectorFieldOnCells"][0].getUndergroundDataArray().isEqualWithoutConsideringStr(f1.getArray(),1e-7))
33144 + self.assertTrue(fs["VectorFieldOnCells"][1,2].getUndergroundDataArray().isEqualWithoutConsideringStr(2*f1.getArray(),1e-7))
33145 + self.assertTrue(fs["VectorFieldOnNodesPfl"][0].getUndergroundDataArray().isEqualWithoutConsideringStr(narr2,1e-7))
33146 + self.assertTrue(fs["VectorFieldOnNodes"][9.].getUndergroundDataArray().isEqualWithoutConsideringStr(narr,1e-7))
33147 + self.assertTrue(fs["VectorFieldOnNodesDouble"][29.].getUndergroundDataArray().isEqualWithoutConsideringStr(f1.getMesh().getCoords(),1e-12))
33149 + nf3_read=MEDFileFieldMultiTS(fname,"VectorFieldOnNodesDouble")
33150 + self.assertTrue(nf3_read[29.].getUndergroundDataArray().isEqualWithoutConsideringStr(f1.getMesh().getCoords(),1e-12))
33151 + self.assertRaises(InterpKernelException,MEDFileFloatFieldMultiTS.New,fname,"VectorFieldOnNodesDouble")# exception because trying to read a double field with int instance
33152 + self.assertRaises(InterpKernelException,MEDFileFieldMultiTS.New,fname,"VectorFieldOnNodes")# exception because trying to read a int field with double instance
33153 + MEDFileField1TS.New(fname,"VectorFieldOnNodesDouble",30,-21)
33154 + self.assertRaises(InterpKernelException,MEDFileFloatField1TS.New,fname,"VectorFieldOnNodesDouble",30,-21)# exception because trying to read a double field with int instance
33155 + MEDFileFloatField1TS.New(fname,"VectorFieldOnNodes",10,-1)
33156 + self.assertRaises(InterpKernelException,MEDFileField1TS.New,fname,"VectorFieldOnNodes",10,-1)# exception because trying to read a double field with int instance
33158 + self.assertEqual(fs.getMeshesNames(),('3DSurfMesh_1','3DSurfMesh_1','3DSurfMesh_1','3DSurfMesh_1'))
33159 + self.assertTrue(fs.changeMeshNames([('3DSurfMesh_1','3DSurfMesh')]))
33160 + self.assertEqual(fs.getMeshesNames(),('3DSurfMesh','3DSurfMesh','3DSurfMesh','3DSurfMesh'))
33161 + self.assertTrue(not fs.changeMeshNames([('3DSurfMesh_1','3DSurfMesh')]))
33164 + def testPenta18_1(self):
33165 + """EDF8478 : Test of read/write of penta18"""
33166 + fname="Pyfile115.med"
33167 + arr=DataArrayDouble([
33168 + (0.,1.,1.),(0.,0.,1.),(1.,0.,1.),
33169 + (0.,1.,0.),(0.,0.,0.),(1.,0.,0.),
33170 + (0.,0.5,1.),(0.5,0.,1.),(0.5,0.5,1.),
33171 + (0.,0.5,0.),(0.5,0.,0.),(0.5,0.5,0.),
33172 + (0.,1.,0.5),(0.,0.,0.5),(1.,0.,0.5),
33173 + (0.,0.5,0.5),(0.5,0.,0.5),(0.5,0.5,0.5)])
33174 + m=MEDCouplingUMesh("mesh",3)
33176 + m.allocateCells(1)
33177 + m.insertNextCell(NORM_PENTA18,list(range(18)))
33178 + m.checkConsistencyLight()
33180 + f=MEDCouplingFieldDouble(ON_NODES)
33182 + f.setName("FieldOnPenta18")
33183 + f.setArray(DataArrayDouble(list(range(18))))
33184 + f.checkConsistencyLight()
33186 + m2,d,di,rd,rdi=m.buildDescendingConnectivity()
33188 + f2=MEDCouplingFieldDouble(ON_NODES)
33190 + f2.setName("FieldOnPenta18Sub")
33191 + f2.setArray(DataArrayDouble(list(range(18))))
33192 + f2.checkConsistencyLight()
33193 + WriteField(fname,f2,True)
33194 + f3=ReadField(fname)
33195 + self.assertTrue(f2.isEqual(f3,1e-12,1e-12))
33196 + self.assertEqual(f3.getMesh().getNumberOfCells(),1)
33197 + self.assertEqual(f3.getMesh().getTypeOfCell(0),NORM_PENTA18)
33200 + @unittest.skipUnless('linux'==platform.system().lower(),"stderr redirection not ported on Windows ?")
33201 + @unittest.skipUnless(LooseVersion(MEDFileVersionStr())<LooseVersion('4.0.0'),
33202 + "This test is not compatible with MEDFile version 4.0.0 and above")
33203 + def testMedFileCapabilityToCryOnNewFeatureWritingIntoOldFiles(self):
33204 + fname="Pyfile116.med"
33205 + errfname="Pyfile116.err"
33206 + c=DataArrayDouble([0,1,2,3])
33207 + m=MEDCouplingCMesh()
33209 + m=m.buildUnstructured()
33210 + m.setName("mesh")
33211 + mm=MEDFileUMesh()
33213 + f=MEDCouplingFieldInt(ON_CELLS)
33214 + f.setMesh(m) ; arr2=DataArrayInt(m.getNumberOfCells()) ; arr2.iota()
33216 + f.setName("field")
33217 + f1ts=MEDFileIntField1TS()
33218 + f1ts.setFieldNoProfileSBT(f)
33219 + mm.write30(fname,2)
33220 + f1ts.write30(fname,0)
33222 + f=MEDCouplingFieldFloat(ON_CELLS)
33223 + f.setMesh(m) ; arr2=DataArrayFloat(m.getNumberOfCells()) ; arr2.iota()
33225 + f.setName("field2")
33226 + f1ts=MEDFileFloatField1TS()
33227 + f1ts.setFieldNoProfileSBT(f)
33230 + tmp=StdOutRedirect(errfname)
33231 + self.assertRaises(InterpKernelException,f1ts.write30,fname,0)
33234 + if os.path.exists(errfname):
33235 + os.remove(errfname)
33238 + def testFieldsLinearToQuadratic(self):
33239 + fname="Pyfile117.med"
33240 + arr=DataArrayDouble([0,1])
33241 + m=MEDCouplingCMesh();
33242 + m.setCoords(arr,arr,arr)
33243 + m=m.buildUnstructured()
33245 + m2.translate([2,0,0])
33246 + m3=MEDCouplingUMesh.MergeUMeshes([m,m2])
33247 + m3.setName("mesh")
33248 + mm=MEDFileUMesh()
33250 + mmq=mm.linearToQuadratic(0)
33251 + mms=MEDFileMeshes() ; mms.pushMesh(mm)
33252 + mmsq=MEDFileMeshes() ; mmsq.pushMesh(mmq)
33254 + f=MEDCouplingFieldDouble(ON_NODES)
33255 + f.setName("field")
33257 + f.setTime(3.,1,2)
33258 + arr=DataArrayDouble(m3.getNumberOfNodes())
33261 + f1ts=MEDFileField1TS()
33262 + f1ts.setFieldNoProfileSBT(f)
33263 + fmts=MEDFileFieldMultiTS()
33264 + fmts.pushBackTimeStep(f1ts)
33265 + f1ts_2=f1ts.deepCopy()
33266 + f1ts_2.setTime(3,4,5.)
33267 + f1ts_2.getUndergroundDataArray()[:]*=2.
33268 + fmts.pushBackTimeStep(f1ts_2)
33269 + fs=MEDFileFields()
33270 + fs.pushField(fmts)
33271 + fs2=fs.linearToQuadratic(mms,mmsq)
33272 + self.myTester1(fs2,mmsq[0])
33273 + # A small Write/Read and test again
33274 + mms.write(fname,2) ; fs.write(fname,0)
33275 + mms=MEDFileMeshes(fname) ; fs=MEDFileFields(fname)
33276 + mmq=mms[0].linearToQuadratic(0) ; mmqs=MEDFileMeshes() ; mmqs.pushMesh(mmq)
33277 + fs2=fs.linearToQuadratic(mms,mmqs)
33278 + self.myTester1(fs2,mmqs[0])
33281 + def myTester1(self,fs2,mmq):
33282 + dataExp=DataArrayDouble([0.,0.,0.,1.,0.,0.,0.,1.,0.,1.,1.,0.,0.,0.,1.,1.,0.,1.,0.,1.,1.,1.,1.,1.,2.,0.,0.,3.,0.,0.,2.,1.,0.,3.,1.,0.,2.,0.,1.,3.,0.,1.,2.,1.,1.,3.,1.,1.,0.5, 0.,0.,0.,0.5, 0.,0.5, 1.,0.,1.,0.5, 0.,0.5, 0.,1.,0.,0.5, 1.,0.5, 1.,1.,1.,0.5, 1.,1.,0.,0.5, 0.,0.,0.5, 0.,1.,0.5, 1.,1.,0.5, 2.5, 0.,0.,2.,0.5, 0.,2.5, 1.,0.,3.,0.5, 0.,2.5, 0.,1.,2.,0.5, 1.,2.5, 1.,1.,3.,0.5, 1.,3.,0.,0.5, 2.,0.,0.5, 2.,1.,0.5, 3.,1.,0.5],40,3)
33283 + dataExp1=DataArrayInt([1,0,2,3,5,4,6,7,16,17,18,19,20,21,22,23,24,25,26,27,9,8,10,11,13,12,14,15,28,29,30,31,32,33,34,35,36,37,38,39])
33284 + dataExp2=DataArrayDouble([0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,0.5,1,2.5,2,4.5,5,6.5,6,3,2,4,5,8.5,9,10.5,10,12.5,13,14.5,14,11,10,12,13])
33285 + fToTest=fs2[0][0].field(mmq)
33286 + self.assertEqual(fToTest.getTime(),[3.,1,2])
33287 + mTest=MEDCoupling1SGTUMesh(fToTest.getMesh())
33288 + self.assertTrue(mTest.getNodalConnectivity().isEqual(dataExp1))
33289 + self.assertTrue(mTest.getCoords().isEqual(dataExp,1e-12))
33290 + self.assertTrue(fToTest.getArray().isEqual(dataExp2,1e-12))
33291 + # testing 2nd timestep
33292 + fToTest=fs2[0][1].field(mmq)
33293 + self.assertEqual(fToTest.getTime(),[5.,3,4])
33294 + mTest=MEDCoupling1SGTUMesh(fToTest.getMesh())
33295 + self.assertTrue(mTest.getNodalConnectivity().isEqual(dataExp1))
33296 + self.assertTrue(mTest.getCoords().isEqual(dataExp,1e-12))
33297 + self.assertTrue(fToTest.getArray().isEqual(2*dataExp2,1e-12))
33300 + def testFieldsLinearToQuadratic2(self):
33301 + """Same than testFieldsLinearToQuadratic but with profile on NODES"""
33302 + fname="Pyfile118.med"
33303 + arr=DataArrayDouble([0,1])
33304 + m=MEDCouplingCMesh();
33305 + m.setCoords(arr,arr,arr)
33306 + m=m.buildUnstructured()
33308 + m2.translate([2,0,0])
33309 + m3=MEDCouplingUMesh.MergeUMeshes([m,m2])
33310 + m3.setName("mesh")
33311 + # add a point for fun
33312 + m3.setCoords(DataArrayDouble.Aggregate(m3.getCoords(),DataArrayDouble([1.5,1.5,1.5],1,3)))
33314 + mm=MEDFileUMesh()
33316 + mmq=mm.linearToQuadratic(0)
33317 + mms=MEDFileMeshes() ; mms.pushMesh(mm)
33318 + mmsq=MEDFileMeshes() ; mmsq.pushMesh(mmq)
33320 + f=MEDCouplingFieldDouble(ON_NODES)
33321 + f.setName("field")
33323 + f.setTime(3.,1,2)
33324 + arr=DataArrayDouble(8) ; arr.iota()
33327 + f1ts=MEDFileField1TS()
33328 + pfl=DataArrayInt([8,9,10,11,12,13,14,15]) ; pfl.setName("pfl")
33329 + f1ts.setFieldProfile(f,mm,0,pfl) # f lying on 8 nodes of cell #1
33330 + f1ts_2=f1ts.deepCopy()
33331 + f1ts_2.setTime(3,4,5.)
33332 + f1ts_2.getUndergroundDataArray()[:]*=4.
33333 + fmts=MEDFileFieldMultiTS()
33334 + fmts.pushBackTimeStep(f1ts)
33335 + fmts.pushBackTimeStep(f1ts_2)
33336 + fs=MEDFileFields()
33337 + fs.pushField(fmts)
33338 + fs2=fs.linearToQuadratic(mms,mmsq)
33339 + mms.write(fname,2) ; fs.write(fname,0)
33341 + self.myTester2(fs2,mmq)
33343 + mms=MEDFileMeshes(fname) ; fs=MEDFileFields(fname)
33344 + mmq=mms[0].linearToQuadratic(0) ; mmqs=MEDFileMeshes() ; mmqs.pushMesh(mmq)
33345 + fs2=fs.linearToQuadratic(mms,mmqs)
33346 + self.myTester2(fs2,mmq)
33347 + ## More vicious add single node 16
33348 + mm=MEDFileUMesh()
33350 + mmq=mm.linearToQuadratic(0)
33351 + mms=MEDFileMeshes() ; mms.pushMesh(mm)
33352 + mmsq=MEDFileMeshes() ; mmsq.pushMesh(mmq)
33354 + f=MEDCouplingFieldDouble(ON_NODES)
33355 + f.setName("field")
33357 + f.setTime(3.,1,2)
33358 + arr=DataArrayDouble(9) ; arr.iota()
33361 + f1ts=MEDFileField1TS()
33362 + pfl=DataArrayInt([8,9,10,11,12,13,14,15,16]) ; pfl.setName("pfl")
33363 + f1ts.setFieldProfile(f,mm,0,pfl) # f lying on 9 nodes of cell #1 + orphan node
33364 + fmts=MEDFileFieldMultiTS()
33365 + fmts.pushBackTimeStep(f1ts)
33366 + fs=MEDFileFields()
33367 + fs.pushField(fmts)
33368 + fs2=fs.linearToQuadratic(mms,mmsq)
33370 + pflExpected=DataArrayInt([8,9,10,11,12,13,14,15,16,29,30,31,32,33,34,35,36,37,38,39,40]) ; pflExpected.setName("pfl_NODE")
33371 + f1tsToTest=fs2[0][0]
33372 + exp1=DataArrayDouble([0,1,2,3,4,5,6,7,8,0.5,1,2.5,2,4.5,5,6.5,6,3,2,4,5])
33373 + assert(f1tsToTest.getProfile("pfl_NODE").isEqual(pflExpected))
33374 + assert(f1tsToTest.getUndergroundDataArray().isEqual(exp1,1e-12))
33375 + assert(f1tsToTest.getFieldSplitedByType()==[(40,[(1,(0,21),'pfl_NODE','')])])
33378 + def myTester2(self,fs2,mmq):
33379 + pflExpected=DataArrayInt([8,9,10,11,12,13,14,15,29,30,31,32,33,34,35,36,37,38,39,40]) ; pflExpected.setName("pfl_NODE")
33380 + f1tsToTest=fs2[0][0]
33381 + exp1=DataArrayDouble([0,1,2,3,4,5,6,7,0.5,1,2.5,2,4.5,5,6.5,6,3,2,4,5])
33382 + self.assertTrue(f1tsToTest.getProfile("pfl_NODE").isEqual(pflExpected))
33383 + self.assertTrue(f1tsToTest.getUndergroundDataArray().isEqual(exp1,1e-12))
33384 + self.assertEqual(f1tsToTest.getFieldSplitedByType(),[(NORM_ERROR,[(1,(0,20),'pfl_NODE','')])])
33385 + fToTest=fs2[0][0].field(mmq)
33386 + self.assertEqual(fToTest.getTime(),[3.,1,2])
33387 + mTest=MEDCoupling1SGTUMesh(fToTest.getMesh())
33388 + self.assertTrue(mTest.getNodalConnectivity().isEqual(DataArrayInt([1,0,2,3,5,4,6,7,8,9,10,11,12,13,14,15,16,17,18,19])))
33389 + self.assertTrue(mTest.getCoords().isEqual(DataArrayDouble([(2,0,0),(3,0,0),(2,1,0),(3,1,0),(2,0,1),(3,0,1),(2,1,1),(3,1,1),(2.5,0,0),(2,0.5,0),(2.5,1,0),(3,0.5,0),(2.5,0,1),(2,0.5,1),(2.5,1,1),(3,0.5,1),(3,0,0.5),(2,0,0.5),(2,1,0.5),(3,1,0.5)],20,3),1e-12))
33390 + self.assertTrue(fToTest.getArray().isEqual(exp1,1e-12))
33392 + f1tsToTest=fs2[0][1]
33393 + self.assertTrue(f1tsToTest.getProfile("pfl_NODE").isEqual(pflExpected))
33394 + self.assertTrue(f1tsToTest.getUndergroundDataArray().isEqual(4*exp1,1e-12))
33395 + self.assertEqual(f1tsToTest.getFieldSplitedByType(),[(NORM_ERROR,[(1,(0,20),'pfl_NODE','')])])
33396 + fToTest=fs2[0][1].field(mmq)
33397 + self.assertEqual(fToTest.getTime(),[5.,3,4])
33398 + mTest=MEDCoupling1SGTUMesh(fToTest.getMesh())
33399 + self.assertTrue(mTest.getNodalConnectivity().isEqual(DataArrayInt([1,0,2,3,5,4,6,7,8,9,10,11,12,13,14,15,16,17,18,19])))
33400 + self.assertTrue(mTest.getCoords().isEqual(DataArrayDouble([(2,0,0),(3,0,0),(2,1,0),(3,1,0),(2,0,1),(3,0,1),(2,1,1),(3,1,1),(2.5,0,0),(2,0.5,0),(2.5,1,0),(3,0.5,0),(2.5,0,1),(2,0.5,1),(2.5,1,1),(3,0.5,1),(3,0,0.5),(2,0,0.5),(2,1,0.5),(3,1,0.5)],20,3),1e-12))
33401 + self.assertTrue(fToTest.getArray().isEqual(4*exp1,1e-12))
33405 + def testSetFieldProfileFlatly1(self):
33406 + """ Sometimes for downstream code fan of profiles, profile are requested unconditionally. setFieldProfile try to reduce at most profile usage. So setFieldProfileFlatly has been added to always create
33408 + arr=DataArrayDouble(10) ; arr.iota()
33409 + m=MEDCouplingCMesh() ; m.setCoords(arr,arr)
33410 + m=m.buildUnstructured()
33413 + m=MEDCouplingUMesh.MergeUMeshes(m2,m)
33414 + m.setName("mesh")
33415 + mm=MEDFileUMesh()
33417 + f=MEDCouplingFieldDouble(ON_CELLS)
33419 + arr=DataArrayDouble(m.getNumberOfCells())
33422 + f.setName("field")
33423 + pfl=DataArrayInt(m.getNumberOfCells()) ; pfl.iota() ; pfl.setName("pfl")
33425 + refSp=[(3,[(0,(0,162),'','')]),(4,[(0,(162,243),'','')])]
33426 + refSp1=[(3,[(0,(0,162),'pfl_NORM_TRI3','')]),(4,[(0,(162,243),'pfl_NORM_QUAD4','')])]
33428 + f1ts=MEDFileField1TS()
33429 + f1ts.setFieldProfile(f,mm,0,pfl)
33430 + self.assertEqual(f1ts.getPfls(),()) # here setFieldProfile has detected useless pfl -> no pfl
33431 + self.assertEqual(f1ts.getFieldSplitedByType(),refSp)
33432 + self.assertTrue(f1ts.field(mm).isEqual(f,1e-12,1e-12)) # the essential
33434 + f1ts=MEDFileField1TS()
33435 + f1ts.setFieldProfileFlatly(f,mm,0,pfl) # no optimization attempt. Create pfl unconditionally
33436 + self.assertEqual(f1ts.getPfls(),("%s_NORM_TRI3"%pfl.getName(),"%s_NORM_QUAD4"%pfl.getName()))
33437 + self.assertEqual(f1ts.getFieldSplitedByType(),refSp1)
33438 + self.assertTrue(f1ts.field(mm).isEqual(f,1e-12,1e-12)) # the essential
33439 + self.assertTrue(f1ts.getProfile("pfl_NORM_TRI3").isIota(162))
33440 + self.assertTrue(f1ts.getProfile("pfl_NORM_QUAD4").isIota(81))
33443 + def testRmGroupAtSpeLevelAndMultiLevGrpCreation(self):
33444 + """ Here multi level groups are created"""
33445 + arr=DataArrayDouble(11) ; arr.iota()
33446 + m=MEDCouplingCMesh() ; m.setCoords(arr,arr)
33447 + m=m.buildUnstructured()
33448 + m.setName("mesh")
33449 + m1=m.buildDescendingConnectivity()[0]
33450 + mm=MEDFileUMesh()
33451 + mm[0]=m ; mm[-1]=m1
33454 + grp0_0=DataArrayInt([0,1,2,6]) ; grp0_0.setName(grpName)
33455 + grp0_1=DataArrayInt([0,1,2,7]) ; grp0_1.setName(grpName)
33456 + grp1=DataArrayInt([1,2,3,5,6]) ; grp1.setName("grp1")
33457 + grp2=DataArrayInt([2,3,5,8]) ; grp2.setName("grp2")
33458 + ################ ajouter un groupe sur plusieurs niveau
33459 + mm.addGroup(0,grp1)
33460 + mm.addGroup(-1,grp2)
33461 + mm.addGroup(0,grp0_0)
33462 + mm.addGroup(-1,grp0_1)
33463 + self.assertEqual(mm.getGrpNonEmptyLevels(grpName),(0,-1))
33464 + self.assertTrue(mm.getGroupArr(0,grpName).isEqual(grp0_0))
33465 + self.assertTrue(mm.getGroupArr(-1,grpName).isEqual(grp0_1))
33466 + self.assertTrue(mm.getGroupArr(0,"grp1").isEqual(grp1))
33467 + self.assertTrue(mm.getGroupArr(-1,"grp2").isEqual(grp2))
33468 + self.assertRaises(InterpKernelException,mm.addGroup,-1,grp0_1) # raise
33469 + self.assertTrue(mm.getGroupArr(0,grpName).isEqual(grp0_0))
33470 + self.assertTrue(mm.getGroupArr(-1,grpName).isEqual(grp0_1))
33471 + self.assertTrue(mm.getGroupArr(0,"grp1").isEqual(grp1))
33472 + self.assertTrue(mm.getGroupArr(-1,"grp2").isEqual(grp2))
33473 + mm.removeGroupAtLevel(0,grpName)
33474 + self.assertEqual(mm.getGrpNonEmptyLevels(grpName),(-1,))
33475 + self.assertTrue(mm.getGroupArr(-1,grpName).isEqual(grp0_1))
33476 + self.assertTrue(mm.getGroupArr(0,"grp1").isEqual(grp1))
33477 + self.assertTrue(mm.getGroupArr(-1,"grp2").isEqual(grp2))
33478 + mm.removeGroupAtLevel(-1,grpName)
33479 + self.assertEqual(mm.getGrpNonEmptyLevels(grpName),())
33480 + self.assertRaises(InterpKernelException,mm.removeGroupAtLevel,-2,grpName)
33481 + mm.addGroup(-1,grp0_1)
33482 + mm.addGroup(0,grp0_0)
33483 + self.assertEqual(mm.getGrpNonEmptyLevels(grpName),(0,-1))
33484 + self.assertTrue(mm.getGroupArr(0,grpName).isEqual(grp0_0))
33485 + self.assertTrue(mm.getGroupArr(-1,grpName).isEqual(grp0_1))
33486 + self.assertTrue(mm.getGroupArr(0,"grp1").isEqual(grp1))
33487 + self.assertTrue(mm.getGroupArr(-1,"grp2").isEqual(grp2))
33492 if __name__ == "__main__":
33493 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTest3.pyc MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTest3.pyc
33494 --- MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTest3.pyc 1970-01-01 01:00:00.000000000 +0100
33495 +++ MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTest3.pyc 2018-04-19 17:25:17.777798147 +0200
33498 +
\18;ÕZc
\0\0\0\0\0\0\0\0\ 3\0\0\0@
\0\0\0sã
\0\0\0d
\0\0d
\ 1\0l
\0\0Td
\0\0d
\ 2\0l
\ 1\0Z
\ 1\0d
\0\0d
\ 2\0l
\ 2\0Z
\ 2\0d
\0\0d
\ 3\0l
\ 3\0m
\ 4\0Z
\ 4\0m
\ 5\0Z
\ 5\0m
\ 6\0Z
\ 6\0\ 1d
\0\0d
\ 4\0l
\a\0m
\a\0Z
\a\0\ 1d
\0\0d
\ 5\0l
\b\0m
\0Z
\0\ 1d
\0\0d
\ 2\0l
33501 +
\0j
\v\0j
\f\0d
\ 6\0k
\0\0r
\8b\0d
\0\0d
\ 2\0l
\r\0Z
\ e\0n
\f\0d
\0\0d
\ 2\0l
\ e\0Z
\ e\0d
\a\0e
\ f\0f
\ 1\0d
\b\0\84\0\0\83\0\0YZ
\10\0d
\0e
\ 1\0j
\11\0f
\ 1\0d
33502 +
\0\84\0\0\83\0\0YZ
\12\0e
\13\0d
\v\0k
\ 2\0rß
\0e
\ 1\0j
\14\0\83\0\0\ 1n
\0\0d
\ 2\0S(
\f\0\0\0iÿÿÿÿ(
\ 1\0\0\0t
\ 1\0\0\0*N(
\ 3\0\0\0t
\ 2\0\0\0pit
\ 1\0\0\0et
\ 4\0\0\0sqrt(
\ 1\0\0\0t
\14\0\0\0MEDLoaderDataForTest(
\ 1\0\0\0t
\f\0\0\0LooseVersioni
\ 3\0\0\0t
\ e\0\0\0StdOutRedirectc
\0\0\0\0\0\0\0\0\ 1\0\0\0B
\0\0\0s
\1a\0\0\0e
\0\0Z
\ 1\0d
\0\0\84\0\0Z
\ 2\0d
\ 1\0\84\0\0Z
\ 3\0RS(
\ 2\0\0\0c
\ 2\0\0\0\ 5\0\0\0\ 4\0\0\0\ 3\0\0\0sµ
\0\0\0d
\ 1\0d
\0\0l
\0\0\89\0\0d
\ 1\0d
\0\0l
\ 1\0}
\ 2\0|
\ 2\0j
\ 2\0j
\ 3\0\83\0\0\ 1\88\0\0j
\ 4\0d
\ 2\0\83\ 1\0|
\0\0_
\ 5\0\88\0\0j
\ 6\0|
\ 1\0\88\0\0j
\a\0\88\0\0j
\b\0B
\83\ 2\0|
\0\0_
\0\88\0\0j
33503 +
\0|
\0\0j
\0d
\ 2\0\83\ 2\0}
\ 3\0|
\ 2\0j
\ 2\0|
\0\0_
\v\0d
\ 3\0t
\f\0f
\ 1\0\87\0\0f
\ 1\0d
\ 4\0\86\0\0\83\0\0Y}
\ 4\0|
\ 4\0\88\0\0j
\r\0|
\0\0j
\0d
\ 5\0\83\ 2\0\83\ 1\0|
\ 2\0_
\ 2\0d
\0\0S(
\ 6\0\0\0Niÿÿÿÿi
\ 2\0\0\0t
\0\0\0FlushFilec
\0\0\0\0\0\0\0\0\ 2\0\0\0\ 2\0\0\0s;
\0\0\0e
\0\0Z
\ 1\0d
\0\0\84\0\0Z
\ 2\0d
\ 1\0\84\0\0Z
\ 3\0d
\ 2\0\84\0\0Z
\ 4\0d
\ 3\0\84\0\0Z
\ 5\0\87\0\0f
\ 1\0d
\ 4\0\86\0\0Z
\ 6\0RS(
\ 5\0\0\0c
\ 2\0\0\0\ 2\0\0\0\ 2\0\0\0S
\0\0\0s
\r\0\0\0|
\ 1\0|
\0\0_
\0\0d
\0\0S(
\ 1\0\0\0N(
\ 1\0\0\0t
\ 1\0\0\0f(
\ 2\0\0\0t
\ 4\0\0\0selfR
\b\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\b\0\0\0__init__,
\0\0\0s
\ 2\0\0\0\0\ 1c
\ 2\0\0\0\ 2\0\0\0\ 2\0\0\0S
\0\0\0s!
\0\0\0|
\0\0j
\0\0j
\ 1\0|
\ 1\0\83\ 1\0\ 1|
\0\0j
\0\0j
\ 2\0\83\0\0\ 1d
\0\0S(
\ 1\0\0\0N(
\ 3\0\0\0R
\b\0\0\0t
\ 5\0\0\0writet
\ 5\0\0\0flush(
\ 2\0\0\0R
\0\0\0t
\ 2\0\0\0st(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyR
\v\0\0\0.
\0\0\0s
\ 4\0\0\0\0\ 1\10\ 1c
\ 1\0\0\0\ 1\0\0\0\ 1\0\0\0S
\0\0\0s
\r\0\0\0|
\0\0j
\0\0j
\ 1\0\83\0\0S(
\ 1\0\0\0N(
\ 2\0\0\0R
\b\0\0\0R
\f\0\0\0(
\ 1\0\0\0R
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyR
\f\0\0\01
\0\0\0s
\ 2\0\0\0\0\ 1c
\ 1\0\0\0\ 1\0\0\0\ 1\0\0\0S
\0\0\0s
\r\0\0\0|
\0\0j
\0\0j
\ 1\0\83\0\0S(
\ 1\0\0\0N(
\ 2\0\0\0R
\b\0\0\0t
\ 6\0\0\0isatty(
\ 1\0\0\0R
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyR
\ e\0\0\03
\0\0\0s
\ 2\0\0\0\0\ 1c
\ 1\0\0\0\ 1\0\0\0\ 2\0\0\0\13\0\0\0s!
\0\0\0\88\0\0j
\0\0|
\0\0j
\ 1\0\83\ 1\0\ 1|
\0\0j
\ 1\0j
\ 2\0\83\0\0\ 1d
\0\0S(
\ 1\0\0\0N(
\ 3\0\0\0t
\ 5\0\0\0fsyncR
\b\0\0\0t
\ 5\0\0\0close(
\ 1\0\0\0R
\0\0\0(
\ 1\0\0\0t
\ 2\0\0\0os(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyR
\10\0\0\05
\0\0\0s
\ 4\0\0\0\0\ 1\10\ 1(
\a\0\0\0t
\b\0\0\0__name__t
33505 +
\0\0\0R
\v\0\0\0R
\f\0\0\0R
\ e\0\0\0R
\10\0\0\0(
\0\0\0\0(
\ 1\0\0\0R
\11\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyR
\a\0\0\0+
\0\0\0s
33506 +
\0\0\0\ 6\ 1 \ 2 \ 3 \ 2 \ 2t
\ 1\0\0\0w(
\ e\0\0\0R
\11\0\0\0t
\ 3\0\0\0syst
\ 6\0\0\0stderrR
\f\0\0\0t
\ 3\0\0\0dupt
\0\0\0stdoutOldt
\ 4\0\0\0opent
\a\0\0\0O_CREATt
\ 6\0\0\0O_RDWRt
\f\0\0\0fdOfSinkFilet
\ 4\0\0\0dup2t
\0\0\0origPyValt
\ 6\0\0\0objectt
\ 6\0\0\0fdopen(
\ 5\0\0\0R
\0\0\0t
\b\0\0\0fileNameR
\15\0\0\0t
\ 3\0\0\0fd2R
\a\0\0\0(
\0\0\0\0(
\ 1\0\0\0R
\11\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyR
33507 +
\0\0\0$
\0\0\0s
\10\0\0\0\0\ 1\18\ 1\r\ 1\12\ 1\1f\ 1\15\ 1\f\ 1\1c\rc
\ 1\0\0\0\ 3\0\0\0\ 3\0\0\0C
\0\0\0se
\0\0\0d
\ 1\0d
\0\0l
\0\0}
\ 1\0d
\ 1\0d
\0\0l
\ 1\0}
\ 2\0|
\ 2\0j
\ 2\0j
\ 3\0\83\0\0\ 1|
\0\0j
\ 4\0|
\ 2\0_
\ 2\0|
\ 1\0j
\ 5\0d
\ 2\0\83\ 1\0\ 1|
\ 1\0j
\ 6\0|
\0\0j
\a\0d
\ 2\0\83\ 2\0\ 1|
\ 1\0j
\ 3\0|
\0\0j
\a\0\83\ 1\0\ 1d
\0\0S(
\ 3\0\0\0Niÿÿÿÿi
\ 2\0\0\0(
\b\0\0\0R
\11\0\0\0R
\15\0\0\0R
\16\0\0\0R
\10\0\0\0R
\1e\0\0\0R
\ f\0\0\0R
\1d\0\0\0R
\18\0\0\0(
\ 3\0\0\0R
\0\0\0R
\11\0\0\0R
\15\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\a\0\0\0__del__9
\0\0\0s
\f\0\0\0\0\ 1\18\ 1\r\ 1\f\ 1\r\ 1\13\ 1(
\ 4\0\0\0R
\12\0\0\0R
\13\0\0\0R
33508 +
\0\0\0R#
\0\0\0(
\0\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyR
\ 6\0\0\0#
\0\0\0s
\ 4\0\0\0\ 6\ 1 \15t
\ e\0\0\0MEDLoaderTest3c
\0\0\0\0\0\0\0\0\ 5\0\0\0B
\0\0\0sc
\ 5\0\0e
\0\0Z
\ 1\0d
\0\0\84\0\0Z
\ 2\0d
\ 1\0\84\0\0Z
\ 3\0d
\ 2\0\84\0\0Z
\ 4\0d
\ 3\0\84\0\0Z
\ 5\0d
\ 4\0\84\0\0Z
\ 6\0d
\ 5\0\84\0\0Z
\a\0d
\ 6\0\84\0\0Z
\b\0d
\a\0\84\0\0Z
\0d
\b\0\84\0\0Z
33509 +
\0d
\0\84\0\0Z
\v\0d
33510 +
\0\84\0\0Z
\f\0d
\v\0\84\0\0Z
\r\0d
\f\0\84\0\0Z
\ e\0d
\r\0\84\0\0Z
\ f\0d
\ e\0\84\0\0Z
\10\0d
\ f\0\84\0\0Z
\11\0d
\10\0\84\0\0Z
\12\0d
\11\0\84\0\0Z
\13\0d
\12\0\84\0\0Z
\14\0d
\13\0\84\0\0Z
\15\0d
\14\0\84\0\0Z
\16\0d
\15\0\84\0\0Z
\17\0d
\16\0\84\0\0Z
\18\0d
\17\0\84\0\0Z
\19\0d
\18\0\84\0\0Z
\1a\0d
\19\0\84\0\0Z
\e\0d
\1a\0\84\0\0Z
\1c\0d
\e\0\84\0\0Z
\1d\0d
\1c\0\84\0\0Z
\1e\0d
\1d\0\84\0\0Z
\1f\0d
\1e\0\84\0\0Z
\0d
\1f\0\84\0\0Z!
\0d
\0\84\0\0Z"
\0d!
\0\84\0\0Z#
\0d"
\0\84\0\0Z$
\0d#
\0\84\0\0Z%
\0d$
\0\84\0\0Z&
\0d%
\0\84\0\0Z'
\0d&
\0\84\0\0Z(
\0d'
\0\84\0\0Z)
\0d(
\0\84\0\0Z*
\0d)
\0\84\0\0Z+
\0d*
\0\84\0\0Z,
\0d+
\0\84\0\0Z-
\0d,
\0\84\0\0Z.
\0d-
\0\84\0\0Z/
\0d.
\0\84\0\0Z0
\0d/
\0\84\0\0Z1
\0d0
\0\84\0\0Z2
\0d1
\0\84\0\0Z3
\0d2
\0\84\0\0Z4
\0d3
\0\84\0\0Z5
\0d4
\0\84\0\0Z6
\0d5
\0\84\0\0Z7
\0d6
\0\84\0\0Z8
\0d7
\0\84\0\0Z9
\0d8
\0\84\0\0Z:
\0d9
\0\84\0\0Z;
\0d:
\0\84\0\0Z<
\0d;
\0\84\0\0Z=
\0d<
\0\84\0\0Z>
\0d=
\0\84\0\0Z?
\0d>
\0\84\0\0Z@
\0d?
\0\84\0\0ZA
\0d@
\0\84\0\0ZB
\0dA
\0\84\0\0ZC
\0dB
\0\84\0\0ZD
\0dC
\0\84\0\0ZE
\0dD
\0\84\0\0ZF
\0dE
\0\84\0\0ZG
\0dF
\0\84\0\0ZH
\0dG
\0\84\0\0ZI
\0dH
\0\84\0\0ZJ
\0dI
\0\84\0\0ZK
\0dJ
\0\84\0\0ZL
\0dK
\0\84\0\0ZM
\0dL
\0\84\0\0ZN
\0dM
\0\84\0\0ZO
\0eP
\0jQ
\0eR
\0\83\0\0dN
\0\83\ 2\0dO
\0\84\0\0\83\ 1\0ZS
\0dP
\0\84\0\0ZT
\0dQ
\0\84\0\0ZU
\0dR
\0\84\0\0ZV
\0dS
\0\84\0\0ZW
\0dT
\0\84\0\0ZX
\0dU
\0\84\0\0ZY
\0dV
\0\84\0\0ZZ
\0dW
\0\84\0\0Z[
\0dX
\0\84\0\0ZZ
\0eP
\0jQ
\0dY
\0e\
\0j]
\0\83\0\0j^
\0\83\0\0k
\ 2\0dZ
\0\83\ 2\0d[
\0\84\0\0\83\ 1\0Z_
\0d\
\0\84\0\0Z`
\0d]
\0\84\0\0Za
\0eP
\0jQ
\0eR
\0\83\0\0dN
\0\83\ 2\0d^
\0\84\0\0\83\ 1\0Zb
\0d_
\0\84\0\0Zc
\0d`
\0\84\0\0Zd
\0da
\0\84\0\0Ze
\0db
\0\84\0\0Zf
\0dc
\0\84\0\0Zg
\0dd
\0\84\0\0Zh
\0de
\0\84\0\0Zi
\0df
\0\84\0\0Zj
\0dg
\0\84\0\0Zk
\0dh
\0\84\0\0Zl
\0di
\0\84\0\0Zm
\0dj
\0\84\0\0Zn
\0dk
\0\84\0\0Zo
\0dl
\0\84\0\0Zp
\0dm
\0\84\0\0Zq
\0dn
\0\84\0\0Zr
\0eP
\0jQ
\0es
\0et
\0\83\0\0\83\ 1\0es
\0do
\0\83\ 1\0k
\ 5\0dp
\0\83\ 2\0eP
\0jQ
\0es
\0et
\0\83\0\0\83\ 1\0es
\0dq
\0\83\ 1\0k
\0\0dr
\0\83\ 2\0ds
\0\84\0\0\83\ 1\0\83\ 1\0Zu
\0eP
\0jQ
\0eR
\0\83\0\0dN
\0\83\ 2\0dt
\0\84\0\0\83\ 1\0Zv
\0eP
\0jQ
\0eR
\0\83\0\0dN
\0\83\ 2\0du
\0\84\0\0\83\ 1\0Zw
\0dv
\0\84\0\0Zx
\0dw
\0\84\0\0Zy
\0dx
\0\84\0\0Zz
\0dy
\0\84\0\0Z{
\0eP
\0jQ
\0dY
\0e\
\0j]
\0\83\0\0j^
\0\83\0\0k
\ 2\0dZ
\0\83\ 2\0eP
\0jQ
\0es
\0et
\0\83\0\0\83\ 1\0es
\0dq
\0\83\ 1\0k
\0\0dr
\0\83\ 2\0dz
\0\84\0\0\83\ 1\0\83\ 1\0Z|
\0d{
\0\84\0\0Z}
\0d|
\0\84\0\0Z~
\0d}
\0\84\0\0Z
\7f\0d~
\0\84\0\0Z
\80\0d
\7f\0\84\0\0Z
\81\0d
\80\0\84\0\0Z
\82\0RS(
\81\0\0\0c
\ 1\0\0\0\b\0\0\0\ 5\0\0\0C
\0\0\0sÅ
\0\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0j
\ 1\0|
\ 1\0|
\ 2\0\83\ 2\0}
\ 3\0|
\0\0j
\ 2\0t
\ 3\0t
\0\0j
\ 1\0|
\ 1\0d
\ 3\0\83\ 4\0\ 1|
\0\0j
\ 4\0d
\a\0|
\ 3\0j
\ 5\0\83\0\0\83\ 2\0\ 1|
\ 3\0j
\ 6\0t
\a\0\83\ 1\0}
\ 4\0t
\b\0|
\ 1\0|
\ 2\0d
\ 4\0\83\ 3\0}
\ 5\0|
\0\0j
\0|
\ 4\0j
33511 +
\0|
\ 5\0d
\ 6\0\83\ 2\0\83\ 1\0\ 1|
\ 3\0j
\v\0t
\a\0\83\ 1\0}
\ 6\0t
\b\0|
\ 1\0|
\ 2\0d
\ 5\0\83\ 3\0}
\a\0|
\0\0j
\0|
\ 6\0j
33512 +
\0|
\a\0d
\ 6\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\b\0\0\0Ns
\f\0\0\0Pyfile18.medt
\12\0\0\0ExampleOfMultiDimWt
\0\0\0\0i
\0\0\0\0iÿÿÿÿg
\11ê-
\81\99\97q=(
\ 2\0\0\0i
\0\0\0\0iÿÿÿÿ(
\f\0\0\0t
\v\0\0\0MEDFileMesht
\ 3\0\0\0Newt
\f\0\0\0assertRaisest
\15\0\0\0InterpKernelExceptiont
\v\0\0\0assertEqualt
\11\0\0\0getNonEmptyLevelst
\r\0\0\0getLevel0Mesht
\ 4\0\0\0Truet
\11\0\0\0ReadUMeshFromFilet
33513 +
\0\0\0assertTruet
\a\0\0\0isEqualt
\ e\0\0\0getLevelM1Mesh(
\b\0\0\0R
\0\0\0R!
\0\0\0t
\ 5\0\0\0mnamet
\a\0\0\0medmesht
\ 4\0\0\0m1_0t
\ 4\0\0\0m1_1t
\ 4\0\0\0m2_0t
\ 4\0\0\0m2_1(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\f\0\0\0testMEDMesh1B
\0\0\0s
\18\0\0\0\0\ 1\ 6\ 1\ 6\ 1\12\ 1\19\ 1\16\ 1\ f\ 1\12\ 1\19\ 1\ f\ 1\12\ 1\19\ 1c
\ 1\0\0\0
33514 +
\0\0\0 \0\0\0C
\0\0\0s0
\ 4\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0t
\0\0j
\ 1\0|
\ 1\0|
\ 2\0\83\ 2\0}
\ 4\0|
\0\0j
\ 2\0d
\15\0|
\ 4\0j
\ 3\0\83\0\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0\83\ 1\0}
\ 5\0t
\ 6\0|
\ 1\0|
\ 2\0d
\ 4\0\83\ 3\0}
\ 6\0|
\0\0j
\a\0|
\ 5\0j
\b\0|
\ 6\0d
\ 5\0\83\ 2\0\83\ 1\0\ 1|
\ 4\0j
\0d
\ 4\0d
\ 6\0t
\ 5\0\83\ 3\0}
\a\0t
33515 +
\0|
\ 1\0|
\ 2\0d
\ 4\0d
\ 6\0g
\ 1\0\83\ 4\0}
\b\0|
\0\0j
\a\0|
\a\0j
\b\0|
\b\0d
\ 5\0\83\ 2\0\83\ 1\0\ 1|
\ 4\0j
\0d
\ 4\0d
\a\0t
\ 5\0\83\ 3\0}
\a\0t
33516 +
\0|
\ 1\0|
\ 2\0d
\ 4\0d
\a\0g
\ 1\0\83\ 4\0}
\b\0|
\0\0j
\a\0|
\a\0j
\b\0|
\b\0d
\ 5\0\83\ 2\0\83\ 1\0\ 1|
\ 4\0j
\v\0d
\ 4\0d
\a\0d
\ 6\0g
\ 2\0\83\ 2\0}
\a\0t
33517 +
\0|
\ 1\0|
\ 2\0d
\ 4\0d
\a\0d
\ 6\0g
\ 2\0\83\ 4\0}
\b\0|
\b\0j
\f\0|
\a\0j
\r\0\83\0\0\83\ 1\0\ 1|
\0\0j
\a\0|
\a\0j
\b\0|
\b\0d
\ 5\0\83\ 2\0\83\ 1\0\ 1|
\ 4\0j
\ e\0d
\ 4\0d
\b\0t
\ 5\0\83\ 3\0}
\a\0t
\ f\0|
\ 1\0|
\ 2\0d
\ 4\0d
\b\0g
\ 1\0\83\ 4\0}
\b\0|
\0\0j
\a\0|
\a\0j
\b\0|
\b\0d
\ 5\0\83\ 2\0\83\ 1\0\ 1|
\ 4\0j
\10\0d
\ 4\0d
\b\0d
\0g
\ 2\0t
\ 5\0\83\ 3\0}
\a\0t
\ f\0|
\ 1\0|
\ 2\0d
\ 4\0d
\b\0d
\0g
\ 2\0\83\ 4\0}
\b\0|
\b\0j
\f\0|
\a\0j
\r\0\83\0\0\83\ 1\0\ 1|
\0\0j
\a\0|
\a\0j
\b\0|
\b\0d
\ 5\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\a\0|
\a\0j
\b\0|
\b\0d
\ 5\0\83\ 2\0\83\ 1\0\ 1|
\ 4\0j
\11\0|
\ 3\0d
33518 +
\0\83\ 2\0\ 1|
\0\0j
\ 2\0d
\v\0d
33519 +
\0d
\f\0d
\r\0d
\ e\0g
\ 5\0|
\ 4\0j
\12\0d
\ 4\0d
\ 6\0t
\ 5\0\83\ 3\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 2\0d
\v\0d
33520 +
\0d
\ e\0g
\ 3\0|
\ 4\0j
\14\0d
\ 4\0d
\b\0t
\ 5\0\83\ 3\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 2\0d
\v\0d
33521 +
\0d
\f\0d
\r\0d
\ e\0g
\ 5\0|
\ 4\0j
\15\0d
\ 4\0d
\0d
\b\0g
\ 2\0t
\ 5\0\83\ 3\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 2\0d
\ f\0d
\v\0d
33522 +
\0d
\10\0d
\f\0d
\r\0d
\11\0d
\ e\0g
\b\0|
\ 4\0j
\16\0d
\ 4\0d
\ 6\0d
\12\0d
\a\0g
\ 3\0t
\ 5\0\83\ 3\0j
\13\0\83\0\0\83\ 2\0\ 1|
\ 4\0j
\17\0d
\ 4\0\83\ 1\0}
\0|
\0\0j
\18\0t
\19\0|
\ 4\0j
\1a\0|
\0t
\ 5\0\83\ 4\0\ 1|
\0\0j
\ 2\0d
33523 +
\0d
\10\0d
\13\0d
\11\0d
\14\0g
\ 5\0|
\ 4\0j
\12\0d
\ 4\0d
\ 6\0\83\ 2\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 2\0d
33524 +
\0d
\10\0d
\14\0g
\ 3\0|
\ 4\0j
\14\0d
\ 4\0d
\b\0\83\ 2\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 2\0d
33525 +
\0d
\10\0d
\13\0d
\11\0d
\14\0g
\ 5\0|
\ 4\0j
\15\0d
\ 4\0d
\0d
\b\0g
\ 2\0\83\ 2\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 2\0d
\ 4\0d
33526 +
\0d
\10\0d
\f\0d
\13\0d
\11\0d
\ e\0d
\14\0g
\b\0|
\ 4\0j
\16\0d
\ 4\0d
\ 6\0d
\a\0d
\12\0g
\ 3\0t
\e\0\83\ 3\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\18\0t
\19\0|
\ 4\0j
\1a\0|
\0t
\e\0\83\ 4\0\ 1d
\0\0S(
\16\0\0\0Ns
\f\0\0\0Pyfile10.medt
\ 6\0\0\03DTotos
\10\0\0\0MEDFileMesh1.medi
\0\0\0\0g
\11ê-
\81\99\97q=t
\ 5\0\0\0mesh2t
\ 5\0\0\0mesh3s
\0\0\0Family_-3s
\0\0\0Family_-5i
\ 2\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\r\0\0\0i
\ f\0\0\0i
\12\0\0\0i
\ 3\0\0\0i
\ e\0\0\0t
\ 5\0\0\0mesh4i
\ 5\0\0\0i
\10\0\0\0(
\ 1\0\0\0i
\0\0\0\0(
\1c\0\0\0t
\f\0\0\0MEDFileUMeshR(
\0\0\0R+
\0\0\0R,
\0\0\0R-
\0\0\0R.
\0\0\0R/
\0\0\0R0
\0\0\0R1
\0\0\0t
\b\0\0\0getGroupt
\13\0\0\0ReadUMeshFromGroupst
\0\0\0getGroupst
\a\0\0\0setNamet
\a\0\0\0getNamet
\0\0\0getFamilyt
\15\0\0\0ReadUMeshFromFamiliest
\v\0\0\0getFamiliesR
\v\0\0\0t
\v\0\0\0getGroupArrt
\0\0\0getValuest
\f\0\0\0getFamilyArrt
\ e\0\0\0getFamiliesArrt
\f\0\0\0getGroupsArrt
\14\0\0\0getFamilyNameGivenIdR)
\0\0\0R*
\0\0\0t
\10\0\0\0getNodeFamilyArrt
\ 5\0\0\0False(
33527 +
\0\0\0R
\0\0\0R!
\0\0\0R3
\0\0\0t
\v\0\0\0outFileNameR4
\0\0\0R5
\0\0\0R6
\0\0\0t
\ 4\0\0\0g1_0t
\ 4\0\0\0g1_1t
\ 4\0\0\0famn(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\f\0\0\0testMEDMesh2P
\0\0\0sN
\0\0\0\0\ 1\ 6\ 1\ 6\ 1\ 6\ 1\12\ 1\16\ 1\ f\ 1\12\ 1\19\ 1\15\ 1\18\ 1\19\ 1\15\ 1\18\ 1\19\ 1\18\ 1\e\ 1\13\ 1\19\ 1\15\ 1\18\ 1\19\ 1\e\ 1\e\ 1\13\ 1\19\ 1\19\ 1\10\ 14
\ 1.
\ 1:
\ 1F
\ 1\ f\ 1\19\ 21
\ 1+
\ 17
\ 1F
\ 1\19\ 1c
\ 1\0\0\0\14\0\0\0\12\0\0\0C
\0\0\0s}
\b\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 4\0g
\12\0}
\ 3\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\b\0d
\a\0d
\0d
\a\0d
33528 +
\0d
\0d
\v\0d
\f\0d
\a\0d
\ 6\0d
\f\0d
\r\0d
33529 +
\0d
\a\0g
\12\0}
\ 4\0|
\ 2\0j
\ 2\0|
\ 3\0d
\ e\0d
\0\83\ 3\0\ 1t
\ 3\0j
\ 1\0\83\0\0}
\ 5\0|
\ 5\0j
\ 4\0d
\0\83\ 1\0\ 1|
\ 5\0j
\ 5\0d
33530 +
\0\83\ 1\0\ 1|
\ 5\0j
\ 6\0t
\a\0d
\ 6\0|
\ 4\0d
\a\0d
\f\0!
\83\ 3\0\ 1|
\ 5\0j
\ 6\0t
\a\0d
\ 6\0|
\ 4\0d
\f\0d
\ f\0!
\83\ 3\0\ 1|
\ 5\0j
\ 6\0t
\b\0d
\a\0|
\ 4\0d
\ 5\0d
\a\0!
\83\ 3\0\ 1|
\ 5\0j
\ 6\0t
\0d
\a\0|
\ 4\0d
\ f\0d
\10\0!
\83\ 3\0\ 1|
\ 5\0j
\ 6\0t
\0d
\a\0|
\ 4\0d
\10\0d
\11\0!
\83\ 3\0\ 1|
\ 5\0j
33531 +
\0\83\0\0\ 1|
\ 5\0j
\v\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\f\0\83\0\0\ 1t
\ 3\0j
\ 1\0\83\0\0}
\ 6\0|
\ 6\0j
\ 4\0d
\b\0\83\ 1\0\ 1|
\ 6\0j
\ 5\0d
\ 6\0\83\ 1\0\ 1|
\ 6\0j
\ 6\0t
\r\0d
\0d
\b\0d
\a\0g
\ 2\0\83\ 3\0\ 1|
\ 6\0j
\ 6\0t
\r\0d
\0d
\ 6\0d
\v\0g
\ 2\0\83\ 3\0\ 1|
\ 6\0j
\ 6\0t
\ e\0d
\ 6\0d
\0d
\r\0d
33532 +
\0g
\ 3\0\83\ 3\0\ 1|
\ 6\0j
33533 +
\0\83\0\0\ 1|
\ 6\0j
\v\0|
\ 2\0\83\ 1\0\ 1|
\ 6\0j
\f\0\83\0\0\ 1t
\ 3\0j
\ 1\0\83\0\0}
\a\0|
\a\0j
\ 4\0d
\ 5\0\83\ 1\0\ 1|
\a\0j
\ 5\0d
\a\0\83\ 1\0\ 1|
\a\0j
\ 6\0t
\ f\0d
\b\0d
\b\0g
\ 1\0\83\ 3\0\ 1|
\a\0j
\ 6\0t
\ f\0d
\b\0d
\ 6\0g
\ 1\0\83\ 3\0\ 1|
\a\0j
\ 6\0t
\ f\0d
\b\0d
\0g
\ 1\0\83\ 3\0\ 1|
\a\0j
\ 6\0t
\ f\0d
\b\0d
\v\0g
\ 1\0\83\ 3\0\ 1|
\a\0j
33534 +
\0\83\0\0\ 1|
\a\0j
\v\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\f\0\83\0\0\ 1t
\10\0j
\ 1\0\83\0\0}
\b\0|
\0\0j
\11\0|
\b\0j
\12\0\83\0\0\83\ 1\0\ 1|
\b\0j
\13\0d
\12\0\83\ 1\0\ 1|
\b\0j
\14\0d
\13\0\83\ 1\0\ 1|
\b\0j
\v\0|
\ 2\0\83\ 1\0\ 1|
\b\0j
\15\0d
\14\0|
\ 6\0\83\ 2\0\ 1|
\b\0j
\15\0d
\ 5\0|
\ 5\0\83\ 2\0\ 1|
\b\0j
\15\0d
\15\0|
\a\0\83\ 2\0\ 1t
\16\0j
\ 1\0\83\0\0}
\0|
\0j
\ 2\0d
\b\0d
\ 6\0g
\ 2\0d
\0d
\b\0\83\ 3\0\ 1|
\0j
\13\0d
\16\0\83\ 1\0\ 1t
\16\0j
\ 1\0\83\0\0}
33536 +
\0j
\ 2\0d
\b\0d
\0d
\ 6\0g
\ 3\0d
\ 6\0d
\b\0\83\ 3\0\ 1|
33537 +
\0j
\13\0d
\17\0\83\ 1\0\ 1|
\b\0j
\17\0d
\ 5\0|
\0|
33538 +
\0g
\ 2\0t
\18\0\83\ 3\0\ 1t
\16\0j
\ 1\0\83\0\0}
\v\0|
\v\0j
\ 2\0d
\ 5\0d
\b\0d
\0g
\ 3\0d
\ 6\0d
\b\0\83\ 3\0\ 1|
\v\0j
\13\0d
\16\0\83\ 1\0\ 1t
\16\0j
\ 1\0\83\0\0}
\f\0|
\f\0j
\ 2\0d
\ 5\0d
\0g
\ 2\0d
\0d
\b\0\83\ 3\0\ 1|
\f\0j
\13\0d
\17\0\83\ 1\0\ 1|
\b\0j
\17\0d
\14\0|
\v\0|
\f\0g
\ 2\0t
\18\0\83\ 3\0\ 1t
\16\0j
\ 1\0\83\0\0}
\r\0|
\r\0j
\ 2\0t
\19\0t
\1a\0d
\r\0\83\ 1\0\83\ 1\0d
\r\0d
\b\0\83\ 3\0\ 1|
\r\0j
\13\0d
\16\0\83\ 1\0\ 1t
\16\0j
\ 1\0\83\0\0}
\ e\0|
\ e\0j
\ 2\0t
\19\0t
\1a\0d
\ e\0\83\ 1\0\83\ 1\0d
\ e\0d
\b\0\83\ 3\0\ 1|
\ e\0j
\13\0d
\17\0\83\ 1\0\ 1|
\b\0j
\17\0d
\b\0|
\r\0|
\ e\0g
\ 2\0t
\18\0\83\ 3\0\ 1|
\b\0j
\e\0d
\ 5\0d
\18\0\83\ 2\0\ 1|
\b\0j
\1c\0d
\ 5\0d
\16\0t
\18\0\83\ 3\0}
\ f\0|
\0\0j
\11\0|
\0j
\1d\0|
\ f\0\83\ 1\0\83\ 1\0\ 1|
\b\0j
\1c\0d
\ 5\0d
\17\0t
\18\0\83\ 3\0}
\ f\0|
\0\0j
\11\0|
33539 +
\0j
\1d\0|
\ f\0\83\ 1\0\83\ 1\0\ 1|
\b\0j
\1c\0d
\14\0d
\16\0t
\18\0\83\ 3\0}
\ f\0|
\0\0j
\11\0|
\v\0j
\1d\0|
\ f\0\83\ 1\0\83\ 1\0\ 1|
\b\0j
\1c\0d
\14\0d
\17\0t
\18\0\83\ 3\0}
\ f\0|
\0\0j
\11\0|
\f\0j
\1d\0|
\ f\0\83\ 1\0\83\ 1\0\ 1|
\b\0j
\1c\0d
\b\0d
\16\0t
\18\0\83\ 3\0}
\ f\0|
\0\0j
\11\0|
\r\0j
\1d\0|
\ f\0\83\ 1\0\83\ 1\0\ 1|
\b\0j
\1c\0d
\b\0d
\17\0t
\18\0\83\ 3\0}
\ f\0|
\0\0j
\11\0|
\ e\0j
\1d\0|
\ f\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\11\0|
\b\0j
\1e\0d
\18\0\83\ 1\0\83\ 1\0\ 1|
\b\0j
\1c\0d
\ 5\0d
\18\0\83\ 2\0}
\ f\0|
\0\0j
\11\0|
\ f\0j
\1f\0\83\0\0t
\19\0t
\1a\0d
33540 +
\0\83\ 1\0\83\ 1\0k
\ 2\0\83\ 1\0\ 1|
\b\0j
\0\83\0\0}
\10\0|
\0\0j
\11\0|
\b\0j
\1d\0|
\10\0d
\19\0\83\ 2\0d
\ 5\0\19\83\ 1\0\ 1~
\b\0|
\10\0j!
\0|
\ 1\0d
\0\83\ 2\0\ 1t"
\0j
\ 1\0|
\ 1\0\83\ 1\0}
\b\0|
\0\0j#
\0t
\a\0t
\b\0t
\0g
\ 3\0|
\b\0j$
\0d
\ 5\0\83\ 1\0\83\ 2\0\ 1|
\0\0j#
\0t
\r\0t
\ e\0g
\ 2\0|
\b\0j$
\0d
\14\0\83\ 1\0\83\ 2\0\ 1|
\0\0j#
\0t
\ f\0g
\ 1\0|
\b\0j$
\0d
\15\0\83\ 1\0\83\ 2\0\ 1|
\b\0j%
\0t
\0\83\ 1\0}
\11\0|
\0\0j
\11\0t&
\0|
\11\0t'
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\11\0|
\11\0j(
\0\83\0\0j
\1d\0t
\16\0d
\v\0d
\f\0d
\a\0d
\ 6\0d
\f\0d
\r\0d
33541 +
\0d
\a\0g
\b\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\11\0|
\11\0j)
\0\83\0\0j
\1d\0t
\16\0d
\ 5\0d
\a\0d
\r\0g
\ 3\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\b\0j*
\0d
\ 5\0\83\ 1\0}
\12\0|
\0\0j#
\0d
\ 6\0t+
\0|
\12\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\11\0t&
\0|
\12\0d
\ 5\0\19t,
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\11\0t&
\0|
\12\0d
\b\0\19t,
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\11\0t&
\0|
\12\0d
\0\19t'
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\11\0|
\b\0j
\12\0\83\0\0\83\ 1\0\ 1|
\0\0j
\11\0t&
\0|
\b\0j-
\0\83\0\0t.
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\11\0t+
\0|
\b\0j-
\0\83\0\0\83\ 1\0d
\ 5\0k
\ 3\0\83\ 1\0\ 1|
\b\0j/
\0d
\ 5\0\83\ 1\0}
\13\0|
\ 5\0j
\13\0|
\b\0j0
\0\83\0\0\83\ 1\0\ 1|
\ 5\0j
\14\0|
\b\0j1
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\11\0|
\ 5\0j
\1d\0|
\13\0d
\19\0\83\ 2\0\83\ 1\0\ 1|
\0\0j#
\0d
\1a\0d
\e\0d
\1c\0g
\ 3\0d
\1d\0d
\1e\0g
\ 2\0d
\1f\0g
\ 1\0g
\ 3\0d
\0d
\0d
\ e\0f
\ 4\0t2
\0|
\ 1\0d
\12\0\83\ 2\0\83\ 2\0\ 1d
\0\0S(
\0\0\0Ns
\10\0\0\0MEDFileMesh3.medg333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?i
\0\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
33542 +
\0\0\0i
\ e\0\0\0i
\12\0\0\0t
\19\0\0\0MyFirstMEDCouplingMEDmesht
\1e\0\0\0IHopeToConvinceLastMEDMEMUsersiÿÿÿÿiþÿÿÿt
\ 2\0\0\0G1t
\ 2\0\0\0G2t
\f\0\0\0GrpOnAllCellg
\11ê-
\81\99\97q=(
\ 2\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0i
\b\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 4\0\0\0(3
\0\0\0t
\ f\0\0\0DataArrayDoubleR(
\0\0\0t
\0\0\0setValuest
\10\0\0\0MEDCouplingUMesht
\10\0\0\0setMeshDimensiont
\r\0\0\0allocateCellst
\ e\0\0\0insertNextCellt
\0\0\0NORM_TRI3t
33543 +
\0\0\0NORM_QUAD4t
\f\0\0\0NORM_POLYGONt
\14\0\0\0finishInsertingCellst
\0\0\0setCoordst
\15\0\0\0checkConsistencyLightt
\0\0\0NORM_SEG2t
\0\0\0NORM_SEG3t
\v\0\0\0NORM_POINT1R>
\0\0\0R0
\0\0\0t
\13\0\0\0getUnivNameWrStatusRB
\0\0\0t
\ e\0\0\0setDescriptiont
\ e\0\0\0setMeshAtLevelt
\f\0\0\0DataArrayIntt
\10\0\0\0setGroupsAtLevelRN
\0\0\0t
\ 4\0\0\0listt
\ 5\0\0\0ranget
\10\0\0\0createGroupOnAllRG
\0\0\0R1
\0\0\0t
\v\0\0\0existsGroupRH
\0\0\0t
\b\0\0\0deepCopyR
\v\0\0\0R'
\0\0\0R+
\0\0\0t
\12\0\0\0getGeoTypesAtLevelt%
\0\0\0getDirectUndergroundSingleGeoTypeMesht
33544 +
\0\0\0isinstancet
\14\0\0\0MEDCoupling1DGTUMesht
\14\0\0\0getNodalConnectivityt
\19\0\0\0getNodalConnectivityIndext'
\0\0\0getDirectUndergroundSingleGeoTypeMeshest
\ 3\0\0\0lent
\14\0\0\0MEDCoupling1SGTUMesht
\v\0\0\0getUnivNamet
\ 3\0\0\0strt
\ e\0\0\0getMeshAtLevelRC
\0\0\0t
\ e\0\0\0getDescriptiont
\12\0\0\0GetUMeshGlobalInfo(
\14\0\0\0R
\0\0\0RO
\0\0\0t
\ 1\0\0\0ct
\ 6\0\0\0coordst
33545 +
\0\0\0targetConnt
\ 1\0\0\0mt
\ 2\0\0\0m1t
\ 2\0\0\0m2t
\ 2\0\0\0mmt
\ 4\0\0\0g1_2t
\ 4\0\0\0g2_2RQ
\0\0\0t
\ 4\0\0\0g2_1t
\ 4\0\0\0g1_Nt
\ 4\0\0\0g2_Nt
\ 1\0\0\0tt
\ 5\0\0\0mmCpyt
\ 3\0\0\0mm0t
\ 3\0\0\0lmmt
\ 4\0\0\0mbis(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\f\0\0\0testMEDMesh3{
\0\0\0sÔ
\0\0\0\0\ 1\ 6\ 1\f\ 1<
\ 1<
\ 1\13\ 1\f\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
33547 +
\ 1\f\ 1\r\ 1\r\ 1\19\ 1\19\ 1\1c\ 1
33549 +
\ 1\f\ 1\r\ 1\r\ 1\16\ 1\16\ 1\16\ 1\16\ 1
33551 +
\ 2\f\ 1\13\ 1\r\ 1\r\ 1\r\ 1\10\ 1\10\ 1\10\ 2\f\ 1\19\ 1\r\ 1\f\ 1\1c\ 1\r\ 1\19\ 1\f\ 1\1c\ 1\r\ 1\f\ 1\19\ 1\r\ 1\19\ 1\f\ 1\1f\ 1\r\ 1\f\ 1\1f\ 1\r\ 1\19\ 1\10\ 2\15\ 1\16\ 1\15\ 1\16\ 1\15\ 1\16\ 1\15\ 1\16\ 1\15\ 1\16\ 1\15\ 1\16\ 1\16\ 1\12\ 1%
\ 2\f\ 1\1d\0\ 3\ 1\10\ 2\ f\ 2"
\ 1\1f\ 1\1c\ 1\ f\ 1\16\ 1:
\ 1+
\ 1\ f\ 1\16\ 1\1a\ 1\1a\ 1\1a\ 2\13\ 1\1c\ 1\1f\ 1\ f\ 1\13\0\13\ 1\19\ 2@
\ 1c
\ 1\0\0\0\15\0\0\0\12\0\0\0C
\0\0\0sô
\a\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 4\0g
\12\0}
\ 3\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\b\0d
\a\0d
\0d
\a\0d
33552 +
\0d
\0d
\v\0d
\f\0d
\a\0d
\ 6\0d
\f\0d
\r\0d
33553 +
\0d
\a\0g
\12\0}
\ 4\0|
\ 2\0j
\ 2\0|
\ 3\0d
\ e\0d
\0\83\ 3\0\ 1|
\ 2\0j
\ 3\0d
\ 5\0d
\ f\0\83\ 2\0\ 1|
\ 2\0j
\ 3\0d
\b\0d
\10\0\83\ 2\0\ 1t
\ 4\0j
\ 1\0\83\0\0}
\ 5\0|
\ 5\0j
\ 5\0d
\0\83\ 1\0\ 1|
\ 5\0j
\ 6\0d
33554 +
\0\83\ 1\0\ 1|
\ 5\0j
\a\0t
\b\0d
\a\0|
\ 4\0d
\ 5\0d
\a\0!
\83\ 3\0\ 1|
\ 5\0j
\a\0t
\0d
\ 6\0|
\ 4\0d
\a\0d
\f\0!
\83\ 3\0\ 1|
\ 5\0j
\a\0t
\0d
\ 6\0|
\ 4\0d
\f\0d
\11\0!
\83\ 3\0\ 1|
\ 5\0j
\a\0t
\b\0d
\a\0|
\ 4\0d
\11\0d
\12\0!
\83\ 3\0\ 1|
\ 5\0j
\a\0t
\b\0d
\a\0|
\ 4\0d
\12\0d
\13\0!
\83\ 3\0\ 1|
\ 5\0j
33555 +
\0\83\0\0\ 1|
\ 5\0j
\v\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\f\0\83\0\0\ 1t
\ 4\0j
\ 1\0\83\0\0}
\ 6\0|
\ 6\0j
\ 5\0d
\b\0\83\ 1\0\ 1|
\ 6\0j
\ 6\0d
\ 6\0\83\ 1\0\ 1|
\ 6\0j
\a\0t
\r\0d
\0d
\b\0d
\a\0g
\ 2\0\83\ 3\0\ 1|
\ 6\0j
\a\0t
\ e\0d
\ 6\0d
\0d
\r\0d
33556 +
\0g
\ 3\0\83\ 3\0\ 1|
\ 6\0j
\a\0t
\r\0d
\0d
\ 6\0d
\v\0g
\ 2\0\83\ 3\0\ 1|
\ 6\0j
33557 +
\0\83\0\0\ 1|
\ 6\0j
\v\0|
\ 2\0\83\ 1\0\ 1|
\ 6\0j
\f\0\83\0\0\ 1t
\ 4\0j
\ 1\0\83\0\0}
\a\0|
\a\0j
\ 5\0d
\ 5\0\83\ 1\0\ 1|
\a\0j
\ 6\0d
\a\0\83\ 1\0\ 1|
\a\0j
\a\0t
\ f\0d
\b\0d
\b\0g
\ 1\0\83\ 3\0\ 1|
\a\0j
\a\0t
\ f\0d
\b\0d
\ 6\0g
\ 1\0\83\ 3\0\ 1|
\a\0j
\a\0t
\ f\0d
\b\0d
\0g
\ 1\0\83\ 3\0\ 1|
\a\0j
\a\0t
\ f\0d
\b\0d
\v\0g
\ 1\0\83\ 3\0\ 1|
\a\0j
33558 +
\0\83\0\0\ 1|
\a\0j
\v\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\f\0\83\0\0\ 1t
\10\0j
\ 1\0\83\0\0}
\b\0|
\b\0j
\11\0d
\14\0\83\ 1\0\ 1|
\b\0j
\12\0d
\15\0\83\ 1\0\ 1|
\b\0j
\v\0|
\ 2\0\83\ 1\0\ 1t
\13\0j
\ 1\0\83\0\0}
\0|
\0j
\ 2\0d
\11\0d
\16\0d
\17\0d
\18\0d
\12\0d
\19\0d
\1a\0d
\e\0d
\13\0g
\0d
\ e\0d
\b\0\83\ 3\0\ 1|
\b\0j
\14\0d
\b\0|
\0\83\ 2\0\ 1|
\b\0j
\15\0d
\1c\0|
\ 6\0t
\16\0\83\ 3\0\ 1|
\b\0j
\15\0d
\ 5\0|
\ 5\0t
\16\0\83\ 3\0\ 1|
\b\0j
\15\0d
\1d\0|
\a\0t
\16\0\83\ 3\0\ 1|
\b\0j
\17\0d
\1d\0\83\ 1\0\ 1|
\b\0j
\15\0d
\1d\0|
\a\0t
\16\0\83\ 3\0\ 1t
\13\0j
\ 1\0\83\0\0}
33560 +
\0j
\ 2\0d
\0d
\ 6\0g
\ 2\0d
\0d
\b\0\83\ 3\0\ 1|
33561 +
\0j
\11\0d
\1e\0\83\ 1\0\ 1t
\13\0j
\ 1\0\83\0\0}
\v\0|
\v\0j
\ 2\0d
\0d
\ 5\0d
\ 6\0g
\ 3\0d
\ 6\0d
\b\0\83\ 3\0\ 1|
\v\0j
\11\0d
\1f\0\83\ 1\0\ 1|
\b\0j
\18\0d
\ 5\0|
33562 +
\0|
\v\0g
\ 2\0t
\16\0\83\ 3\0\ 1t
\13\0j
\ 1\0\83\0\0}
\f\0|
\f\0j
\ 2\0d
\ 5\0d
\0d
\b\0g
\ 3\0d
\ 6\0d
\b\0\83\ 3\0\ 1|
\f\0j
\11\0d
\1e\0\83\ 1\0\ 1t
\13\0j
\ 1\0\83\0\0}
\r\0|
\r\0j
\ 2\0d
\ 5\0d
\0g
\ 2\0d
\0d
\b\0\83\ 3\0\ 1|
\r\0j
\11\0d
\1f\0\83\ 1\0\ 1|
\b\0j
\18\0d
\1c\0|
\f\0|
\r\0g
\ 2\0t
\16\0\83\ 3\0\ 1t
\13\0j
\ 1\0\83\0\0}
\ e\0|
\ e\0j
\ 2\0d
\11\0d
\16\0d
\17\0d
\18\0d
\12\0d
\19\0d
\1a\0d
\e\0g
\b\0d
\r\0d
\b\0\83\ 3\0\ 1|
\ e\0j
\11\0d
\1e\0\83\ 1\0\ 1t
\13\0j
\ 1\0\83\0\0}
\ f\0|
\ f\0j
\ 2\0d
\11\0d
\16\0d
\17\0d
\18\0d
\12\0d
\19\0d
\1a\0d
\e\0d
\13\0g
\0d
\ e\0d
\b\0\83\ 3\0\ 1|
\ f\0j
\11\0d
\1f\0\83\ 1\0\ 1|
\b\0j
\18\0d
\b\0|
\ e\0|
\ f\0g
\ 2\0t
\16\0\83\ 3\0\ 1|
\b\0j
\19\0d
\ 5\0d
\1e\0t
\16\0\83\ 3\0}
\10\0|
\0\0j
\1a\0|
33563 +
\0j
\e\0|
\10\0\83\ 1\0\83\ 1\0\ 1|
\b\0j
\19\0d
\ 5\0d
\1f\0t
\16\0\83\ 3\0}
\10\0|
\0\0j
\1a\0|
\v\0j
\e\0|
\10\0\83\ 1\0\83\ 1\0\ 1|
\b\0j
\19\0d
\1c\0d
\1e\0t
\16\0\83\ 3\0}
\10\0|
\0\0j
\1a\0|
\f\0j
\e\0|
\10\0\83\ 1\0\83\ 1\0\ 1|
\b\0j
\19\0d
\1c\0d
\1f\0t
\16\0\83\ 3\0}
\10\0|
\0\0j
\1a\0|
\r\0j
\e\0|
\10\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1a\0|
\b\0j
\1c\0d
\0\83\ 1\0\f\83\ 1\0\ 1|
\b\0j
\1d\0|
\ 1\0d
\0\83\ 2\0\ 1t
\1e\0j
\ 1\0|
\ 1\0\83\ 1\0}
\11\0|
\b\0j
\e\0|
\11\0d!
\0\83\ 2\0}
\12\0|
\0\0j
\1a\0|
\12\0d
\ 5\0\19\83\ 1\0\ 1t
\1f\0|
\11\0j
\0d
\1f\0\83\ 1\0\83\ 1\0}
\13\0|
\13\0j!
\0\83\0\0\ 1|
\0\0j"
\0d"
\0d#
\0d$
\0d%
\0d&
\0g
\ 5\0|
\13\0\83\ 2\0\ 1|
\11\0j#
\0d
\ 6\0g
\ 1\0d
\1c\0g
\ 1\0\83\ 2\0\ 1xK
\0|
\b\0j$
\0d
\1f\0\83\ 1\0D]:
\0}
\14\0|
\0\0j"
\0|
\b\0j
\19\0|
\14\0d
\1f\0\83\ 2\0j%
\0\83\0\0|
\11\0j
\19\0|
\14\0d
\1f\0\83\ 2\0j%
\0\83\0\0\83\ 2\0\ 1q
\9d\ 6Wt
\1f\0|
\11\0j
\0d
\1f\0\83\ 1\0\83\ 1\0}
\13\0|
\13\0j!
\0\83\0\0\ 1|
\0\0j"
\0d"
\0d#
\0d$
\0d%
\0d&
\0g
\ 5\0|
\13\0\83\ 2\0\ 1|
\0\0j"
\0d'
\0d'
\0d(
\0g
\ 3\0|
\11\0j&
\0d
\1c\0\83\ 1\0j%
\0\83\0\0\83\ 2\0\ 1|
\11\0j&
\0d
\1c\0\83\ 1\0j'
\0d
\b\0d
\ 5\0d)
\0\83\ 3\0\ 1|
\0\0j"
\0d'
\0d)
\0d(
\0g
\ 3\0|
\11\0j&
\0d
\1c\0\83\ 1\0j%
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\11\0j(
\0d*
\0\83\ 1\0\f\83\ 1\0\ 1|
\11\0j)
\0d
\1c\0d+
\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\11\0j(
\0d*
\0\83\ 1\0\83\ 1\0\ 1|
\0\0j"
\0t
\1f\0t*
\0d
\ 6\0\83\ 1\0\83\ 1\0|
\11\0j
\19\0d
\1c\0d+
\0\83\ 2\0j%
\0\83\0\0\83\ 2\0\ 1d
\0\0S(,
\0\0\0Ns
\10\0\0\0MEDFileMesh4.medg333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?i
\0\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0s
\v\0\0\0abcdef [km]s
\0\0\0ghij [MW]i
33564 +
\0\0\0i
\ e\0\0\0i
\12\0\0\0t
\17\0\0\0My2ndMEDCouplingMEDmesht
\1e\0\0\0ThisIsImpossibleToDoWithMEDMEMi
\v\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ f\0\0\0i
\10\0\0\0i
\11\0\0\0iÿÿÿÿiþÿÿÿRV
\0\0\0RW
\0\0\0RX
\0\0\0g
\11ê-
\81\99\97q=s
\0\0\0Family_-3s
\0\0\0Family_-4s
\0\0\0Family_-7t
\0\0\0Family_10t
\0\0\0Family_11iùÿÿÿiúÿÿÿiøÿÿÿs
\0\0\0Family_-8t
\f\0\0\0GrpOnAllFace(+
\0\0\0RY
\0\0\0R(
\0\0\0RZ
\0\0\0t
\12\0\0\0setInfoOnComponentR[
\0\0\0R\
\0\0\0R]
\0\0\0R^
\0\0\0R`
\0\0\0R_
\0\0\0Rb
\0\0\0Rc
\0\0\0Rd
\0\0\0Re
\0\0\0Rf
\0\0\0Rg
\0\0\0R>
\0\0\0RB
\0\0\0Ri
\0\0\0Rk
\0\0\0t
\10\0\0\0setRenumFieldArrRj
\0\0\0R.
\0\0\0t
\11\0\0\0removeMeshAtLevelRl
\0\0\0RG
\0\0\0R0
\0\0\0R1
\0\0\0Rp
\0\0\0R
\v\0\0\0R'
\0\0\0Rm
\0\0\0t
\12\0\0\0getFamiliesOnGroupt
\ 4\0\0\0sortR+
\0\0\0t
\14\0\0\0keepFamIdsOnlyOnLevst
\17\0\0\0getGrpNonEmptyLevelsExtRH
\0\0\0t
\15\0\0\0getFamilyFieldAtLevelt
\ 5\0\0\0setIJt
\f\0\0\0existsFamilyRo
\0\0\0Rn
\0\0\0(
\15\0\0\0R
\0\0\0RO
\0\0\0R
\80\0\0\0R
\81\0\0\0R
\82\0\0\0R
\83\0\0\0R
\84\0\0\0R
\85\0\0\0R
\86\0\0\0t
\0\0\0renumNodeR
\87\0\0\0R
\88\0\0\0RQ
\0\0\0R
\89\0\0\0R
\8a\0\0\0R
\8b\0\0\0R
\8c\0\0\0t
\ 3\0\0\0mm2t
\ 3\0\0\0rest
\ 1\0\0\0lt
\ 3\0\0\0lev(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\f\0\0\0testMEDMesh4î
\0\0\0sÊ
\0\0\0\0\ 1\ 6\ 1\f\ 1<
\ 1<
\ 1\13\ 1\10\ 1\10\ 1\f\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
33566 +
\ 1\f\ 1\r\ 1\r\ 1\19\ 1\1c\ 1\19\ 1
33568 +
\ 1\f\ 1\r\ 1\r\ 1\16\ 1\16\ 1\16\ 1\16\ 1
33570 +
\ 2\f\ 1\r\ 1\r\ 1\r\ 1\f\ 1.
\ 1\10\ 1\13\ 1\13\ 1\13\ 1\r\ 1\13\ 2\f\ 1\19\ 1\r\ 1\f\ 1\1c\ 1\r\ 1\19\ 1\f\ 1\1c\ 1\r\ 1\f\ 1\19\ 1\r\ 1\19\ 1\f\ 1+
\ 1\r\ 1\f\ 1.
\ 1\r\ 1\19\ 2\15\ 1\16\ 1\15\ 1\16\ 1\15\ 1\16\ 1\15\ 1\16\ 1\17\ 2\10\ 1\ f\ 1\12\ 1\11\ 1\15\0
33571 +
\ 1\1f\ 1\16\ 1\16\ 14
\ 1\ 4\ 1\15\0
33572 +
\ 1\1f\ 2(
\ 1\1c\ 1(
\ 1\17\ 1\10\ 1\16\ 1.
\ 1c
\ 1\0\0\0\ 6\0\0\0\ 3\0\0\0C
\0\0\0so
\0\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0j
\ 1\0|
\ 1\0|
\ 2\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 2\0t
\ 3\0\83\ 1\0}
\ 4\0|
\ 3\0j
\ 4\0d
\ 3\0\83\ 1\0}
\ 5\0~
\ 3\0|
\0\0j
\ 5\0d
\ 4\0|
\ 4\0j
\ 6\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 5\0d
\ 4\0|
\ 5\0j
\a\0\83\0\0\83\ 2\0\ 1d
\0\0S(
\ 5\0\0\0Ns
\f\0\0\0Pyfile18.medR%
\0\0\0i
\0\0\0\0i
\14\0\0\0(
\b\0\0\0R>
\0\0\0R(
\0\0\0R-
\0\0\0R.
\0\0\0R
\9e\0\0\0R+
\0\0\0t
\10\0\0\0getNumberOfCellst
\11\0\0\0getNumberOfTuples(
\ 6\0\0\0R
\0\0\0R!
\0\0\0R3
\0\0\0R4
\0\0\0R5
\0\0\0t
\ 3\0\0\0da1(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\f\0\0\0testMEDMesh5Y
\ 1\0\0s
\12\0\0\0\0\ 1\ 6\ 1\ 6\ 1\12\ 1\ f\ 1\ f\ 1\ 3\ 1\16\ 1\16\ 1c
\ 1\0\0\0 \0\0\0\r\0\0\0C
\0\0\0s
\80\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0\83\ 3\0\ 1t
\ 3\0j
\ 1\0\83\0\0}
\ 3\0t
\ 4\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 3\0d
\a\0d
\b\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0d
\0d
33573 +
\0\83\ 2\0\ 1|
\ 3\0j
\a\0d
\0|
\ 4\0\83\ 2\0\ 1t
\ 4\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0d
\ 4\0d
\v\0g
\ 2\0d
\f\0d
\b\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0d
\0d
\r\0\83\ 2\0\ 1|
\ 3\0j
\a\0d
\b\0|
\ 4\0\83\ 2\0\ 1t
\ 4\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0d
\ 4\0d
\ e\0g
\ 2\0d
\f\0d
\b\0\83\ 3\0\ 1|
\ 4\0j
\ 6\0d
\0d
\ f\0\83\ 2\0\ 1|
\ 3\0j
\a\0d
\f\0|
\ 4\0\83\ 2\0\ 1|
\ 2\0j
\b\0|
\ 3\0\83\ 1\0\ 1|
\0\0j
\0|
\ 2\0d
\0\19j
33574 +
\0|
\ 3\0d
\10\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\0t
\v\0|
\ 2\0d
\0\19t
\ 3\0\83\ 2\0\83\ 1\0\ 1|
\ 2\0j
\f\0d
\11\0\83\ 1\0\ 1|
\ 2\0j
\r\0d
\12\0\83\ 1\0\ 1|
\ 2\0j
\ e\0d
\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ f\0d
\13\0\83\ 1\0\ 1t
\10\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0d
\0d
\0d
\b\0d
\0d
\b\0d
\f\0d
\14\0d
\a\0d
\0d
\b\0d
\f\0d
\f\0g
\f\0d
\15\0d
\b\0\83\ 3\0\ 1|
\ 2\0j
\11\0d
\b\0|
\ 4\0\83\ 2\0\ 1|
\ 2\0j
\12\0d
\16\0d
\b\0\83\ 2\0\ 1|
\ 2\0j
\13\0d
\b\0d
\16\0\83\ 2\0}
\ 4\0d
\f\0d
\14\0d
\17\0g
\ 3\0}
\ 5\0|
\0\0j
\14\0|
\ 5\0|
\ 4\0j
\15\0\83\0\0\83\ 2\0\ 1|
\0\0j
\0|
\ 2\0j
\16\0\83\0\0\83\ 1\0\ 1|
\ 2\0j
\17\0|
\ 1\0d
\f\0\83\ 2\0\ 1t
\18\0j
\ 1\0|
\ 1\0\83\ 1\0}
\ 6\0|
\0\0j
\14\0t
\19\0g
\ 1\0|
\ 6\0j
\1a\0d
\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\0t
\v\0|
\ 6\0t
\0\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\0t
\v\0|
\ 6\0j
\e\0\83\0\0t
\1c\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\0t
\1d\0|
\ 6\0j
\e\0\83\0\0\83\ 1\0d
\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\0|
\ 2\0j
33575 +
\0|
\ 6\0d
\10\0\83\ 2\0d
\0\19\83\ 1\0\ 1|
\0\0j
\14\0|
\ 5\0|
\ 6\0j
\13\0d
\b\0d
\16\0\83\ 2\0j
\15\0\83\0\0\83\ 2\0\ 1|
\ 6\0j
\1e\0\83\0\0}
\a\0|
\ 2\0j
\1f\0\83\0\0}
\b\0|
\ 3\0j
\ 2\0|
\b\0d
\f\0\19|
\b\0d
\0\19|
\b\0d
\b\0\19\83\ 3\0\ 1|
\ 3\0j
\f\0|
\ 2\0j
\0\83\0\0\83\ 1\0\ 1|
\ 3\0j
\ f\0|
\ 2\0j!
\0\83\0\0\83\ 1\0\ 1|
\ 3\0j
\r\0|
\ 2\0j"
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\0|
\a\0j
33576 +
\0|
\ 3\0d
\10\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\18\0\0\0Ns
\10\0\0\0MEDFileMesh5.mediÿÿÿÿgffffff
\ 2@g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@i
\ 3\0\0\0i
\ 1\0\0\0i
\0\0\0\0s
\a\0\0\0XX [mm]g333333ó?i
\ 2\0\0\0s
\a\0\0\0YY [km]gÍÌÌÌÌÌô?s
\a\0\0\0ZZ [um]g
\11ê-
\81\99\97q=t
\ f\0\0\0myFirstCartMesht
\f\0\0\0mmmmppppppppt
\ 2\0\0\0msi
\ 4\0\0\0i
\f\0\0\0t
\a\0\0\0family1i
\0\0\0(#
\0\0\0t
\f\0\0\0MEDFileCMeshR(
\0\0\0t
\a\0\0\0setTimet
\10\0\0\0MEDCouplingCMeshRY
\0\0\0RZ
\0\0\0R
\97\0\0\0t
\v\0\0\0setCoordsAtt
\a\0\0\0setMeshR0
\0\0\0R1
\0\0\0Rt
\0\0\0RB
\0\0\0Ri
\0\0\0t
\f\0\0\0setTimeValuet
\v\0\0\0setTimeUnitRk
\0\0\0t
\11\0\0\0setFamilyFieldArrt
\v\0\0\0setFamilyIdRI
\0\0\0R+
\0\0\0RH
\0\0\0Rh
\0\0\0R
\v\0\0\0R'
\0\0\0t
33577 +
\0\0\0NORM_HEXA8Rr
\0\0\0R{
\0\0\0R|
\0\0\0Ry
\0\0\0t
\a\0\0\0getMesht
\a\0\0\0getTimeRC
\0\0\0t
\v\0\0\0getTimeUnitR~
\0\0\0(
\0\0\0R
\0\0\0RO
\0\0\0R
\83\0\0\0R
\84\0\0\0t
\ 2\0\0\0dat
\0\0\0expected1R
\86\0\0\0R
\85\0\0\0t
\ 2\0\0\0tt(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\f\0\0\0testMEDMesh6d
\ 1\0\0s^
\0\0\0\0\ 1\ 6\ 1\f\ 1\13\ 1\f\ 1\f\ 1\1c\ 1\10\ 1\10\ 1\f\ 1\19\ 1\10\ 1\10\ 1\f\ 1\19\ 1\10\ 1\10\ 1\r\ 1\1d\ 1\1a\ 1\r\ 1\r\ 1\r\ 1\r\ 1\f\ 17
\ 1\10\ 1\10\ 1\12\ 1\ f\ 1\16\ 1\13\ 1\10\ 1\ f\ 1\1c\ 1\16\ 1\1c\ 1\1f\ 1\1d\ 1"
\ 1\f\ 1\f\ 1\1f\ 1\13\ 1\13\ 1\13\ 1\19\ 1c
\ 1\0\0\0\14\0\0\0\ f\0\0\0C
\0\0\0s«
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0\
\ e\0}
\ 2\0}
\ 3\0}
\ 4\0}
\ 5\0}
\ 6\0}
\a\0}
\b\0}
\0}
33578 +
\0}
\v\0}
\f\0}
\r\0}
\ e\0}
\ f\0t
\ 2\0j
\ 3\0\83\0\0}
\10\0|
\10\0j
\ 4\0|
\ 2\0j
\ 5\0\83\0\0\83\ 1\0\ 1|
\10\0j
\ 6\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\10\0j
\ 6\0d
\ 3\0|
\ 3\0\83\ 2\0\ 1|
\10\0j
\ 6\0d
\ 4\0|
\ 4\0\83\ 2\0\ 1|
\10\0j
\a\0d
\ 2\0|
\ 5\0\83\ 2\0\ 1|
\10\0j
\a\0d
\ 3\0|
\ 6\0\83\ 2\0\ 1|
\10\0j
\a\0d
\ 4\0|
\a\0\83\ 2\0\ 1|
\10\0j
\a\0d
\ 5\0|
\b\0\83\ 2\0\ 1|
\10\0j
\b\0d
\ 2\0|
\0\83\ 2\0\ 1|
\10\0j
\b\0d
\ 3\0|
33579 +
\0\83\ 2\0\ 1|
\10\0j
\b\0d
\ 4\0|
\v\0\83\ 2\0\ 1t
\0|
\f\0\83\ 1\0}
\11\0x,
\0t
33580 +
\0|
\11\0\83\ 1\0D]
\1e\0}
\12\0|
\10\0j
\v\0|
\f\0|
\12\0\19|
\r\0|
\12\0\19\83\ 2\0\ 1q
\14\ 1Wt
\0|
\ e\0\83\ 1\0}
\13\0x,
\0t
33581 +
\0|
\13\0\83\ 1\0D]
\1e\0}
\12\0|
\10\0j
\f\0|
\ e\0|
\12\0\19|
\ f\0|
\12\0\19\83\ 2\0\ 1qO
\ 1W|
\10\0j
\r\0|
\ 2\0j
\ e\0\83\0\0\83\ 1\0\ 1|
\10\0j
\ f\0|
\ 2\0j
\10\0\83\0\0\83\ 1\0\ 1|
\0\0j
\11\0d
\1e\0|
\10\0j
\12\0d
\ 6\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\11\0d
\1f\0|
\10\0j
\12\0d
\a\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\11\0d
\0|
\10\0j
\12\0d
\b\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\11\0d!
\0|
\10\0j
\13\0d
\ 6\0d
\b\0g
\ 2\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\11\0d"
\0|
\10\0j
\14\0d
\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\11\0d#
\0|
\10\0j
\14\0d
33582 +
\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\11\0d$
\0|
\10\0j
\15\0d
33583 +
\0d
\0g
\ 2\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\11\0d%
\0|
\10\0j
\16\0d
\ 3\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\11\0d&
\0|
\10\0j
\16\0d
\ 2\0\83\ 1\0\83\ 2\0\ 1|
\10\0j
\17\0|
\ 1\0d
\1d\0\83\ 2\0\ 1|
\0\0j
\18\0t
\19\0t
\1a\0|
\ 1\0\83\ 3\0\ 1d
\0\0S('
\0\0\0Ns
\f\0\0\0Pyfile24.medi
\0\0\0\0iÿÿÿÿiþÿÿÿi
\ 1\0\0\0t
\ 4\0\0\0A2A4t
\ 2\0\0\0A1t
\ 3\0\0\0AP2t
\0\0\0A4A3____________________________t
\0\0\0MESH____DALT3___DALLE___________t
\ 4\0\0\0A1A2t
\ 4\0\0\0A3A1t
\ 4\0\0\0A3C5t
\ 4\0\0\0A4A3t
\ 4\0\0\0B1C1t
\ 4\0\0\0B2B4t
\ 4\0\0\0B3B1t
\ 4\0\0\0B4C3t
\ 4\0\0\0C1C4t
\ 4\0\0\0C2B2t
\ 4\0\0\0C3C2t
\ 4\0\0\0C4B3t
\ 4\0\0\0C5A4t
\ 5\0\0\0DALLEt
\ 5\0\0\0DALQ1t
\ 5\0\0\0DALQ2t
\ 5\0\0\0DALT3t
\ 4\0\0\0MESHi
\ 2\0\0\0(
\ 1\0\0\0iÿÿÿÿ(
\0\0\0\0(
\ 1\0\0\0iþÿÿÿ(
\ 2\0\0\0iÿÿÿÿiþÿÿÿ(
\ 1\0\0\0iÿÿÿÿ(
\ 1\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0iÿÿÿÿ(
\ e\0\0\0s
\ 4\0\0\0A1A2s
\ 4\0\0\0A2A4s
\ 4\0\0\0A3A1s
\ 4\0\0\0A3C5s
\ 4\0\0\0A4A3s
\ 4\0\0\0B1C1s
\ 4\0\0\0B2B4s
\ 4\0\0\0B3B1s
\ 4\0\0\0B4C3s
\ 4\0\0\0C1C4s
\ 4\0\0\0C2B2s
\ 4\0\0\0C3C2s
\ 4\0\0\0C4B3s
\ 4\0\0\0C5A4(
\ 5\0\0\0s
\ 5\0\0\0DALLEs
\ 5\0\0\0DALQ1s
\ 5\0\0\0DALQ2s
\ 5\0\0\0DALT3s
\ 4\0\0\0MESH(
\e\0\0\0R
\ 4\0\0\0t
\15\0\0\0buildMultiLevelMesh_1R>
\0\0\0R(
\0\0\0Rc
\0\0\0t
\0\0\0getCoordsRj
\0\0\0R¶
\0\0\0R
\98\0\0\0Ry
\0\0\0Rn
\0\0\0t
\0\0\0addFamilyt
\15\0\0\0setFamiliesIdsOnGroupRB
\0\0\0RC
\0\0\0Ri
\0\0\0R~
\0\0\0R+
\0\0\0t
\14\0\0\0getGrpNonEmptyLevelst
\15\0\0\0getGrpsNonEmptyLevelst
\14\0\0\0getFamNonEmptyLevelst
\15\0\0\0getFamsNonEmptyLevelst
\17\0\0\0getGroupsOnSpecifiedLevR
\v\0\0\0R)
\0\0\0R*
\0\0\0t
\ f\0\0\0MEDFileField1TS(
\14\0\0\0R
\0\0\0R!
\0\0\0R
\85\0\0\0R
\84\0\0\0t
\ 2\0\0\0m0t
\ 2\0\0\0f2t
\ 2\0\0\0f1t
\ 2\0\0\0f0t
\ 1\0\0\0pt
\ 2\0\0\0n2t
\ 2\0\0\0n1t
\ 2\0\0\0n0t
\ 3\0\0\0fnst
\ 4\0\0\0fidst
\ 5\0\0\0grpnst
\f\0\0\0famIdsPerGrpR
\83\0\0\0t
\b\0\0\0nbOfFamst
\ 1\0\0\0it
\b\0\0\0nbOfGrps(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\f\0\0\0testMEDMesh7
\95\ 1\0\0sH
\0\0\0\0\ 1\ 6\ 16
\ 1\f\ 1\13\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\f\ 1\13\ 1\18\ 1\ 4\ 1\f\ 1\13\ 1\18\ 1\ 4\ 1\13\ 1\13\ 2\19\ 1\19\ 1\19\ 1\1f\ 1\19\ 1\19\ 1\1f\ 1\19\ 1\19\ 2\10\ 1\13\ 1c
\ 2\0\0\0\ 2\0\0\0\ 4\0\0\0C
\0\0\0s
\11\0\0\0|
\ 1\0d
\ 1\0d
\ 4\0g
\ 2\0=d
\0\0S(
\ 5\0\0\0Ng{
\14®Gáz
\94?i
\ 3\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0(
\0\0\0\0(
\ 2\0\0\0R
\0\0\0t
\ 2\0\0\0ff(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\11\0\0\0funcToTestDelItem½
\ 1\0\0s
\ 4\0\0\0\0\ 1\r\ 1c
\ 1\0\0\0\b\0\0\0\ 5\0\0\0C
\0\0\0sÔ
\ 1\0\0t
\0\0j
\ 1\0d
\ 1\0\83\ 1\0}
\ 1\0|
\ 1\0j
\ 2\0d
\ 2\0d
\ 3\0\83\ 2\0\ 1t
\ 3\0d
\ 1\0\83\ 1\0}
\ 2\0d
\ 4\0d
\ 3\0g
\ 2\0d
\ 5\0d
\ 6\0g
\ 2\0d
\a\0d
\b\0g
\ 2\0g
\ 3\0}
\ 3\0|
\0\0j
\ 4\0d
\ 5\0t
\ 5\0|
\ 2\0\83\ 1\0\83\ 2\0\ 1xN
\0t
\ 6\0|
\ 2\0\83\ 1\0D]@
\0\
\ 2\0}
\ 4\0}
\ 5\0|
\0\0j
\ 4\0|
\ 3\0|
\ 4\0\19|
\ 5\0j
\a\0\83\0\0d
\ 3\0 \83\ 2\0\ 1|
\0\0j
\ 4\0t
\b\0|
\ 5\0\83\ 1\0t
\0\83\ 2\0\ 1qo
\0W|
\0\0j
\ 4\0d
\0|
\ 2\0j
33584 +
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 4\0d
\ 5\0d
\ 6\0g
\ 2\0|
\ 2\0d
\ 4\0\19j
\a\0\83\0\0d
33585 +
\0 \83\ 2\0\ 1|
\0\0j
\ 4\0d
\ 5\0d
\ 6\0g
\ 2\0|
\ 2\0d
\r\0\19j
\a\0\83\0\0d
33586 +
\0 \83\ 2\0\ 1|
\0\0j
\ 4\0d
\ 5\0d
\ 6\0g
\ 2\0|
\ 2\0d
\v\0\19j
\a\0\83\0\0d
33587 +
\0 \83\ 2\0\ 1|
\ 2\0j
\ 2\0d
\ 2\0d
\f\0\83\ 2\0\ 1|
\ 2\0j
\v\0\83\0\0}
\ 6\0g
\0\0|
\ 6\0D]
\10\0}
\a\0|
\a\0d
33588 +
\0 ^
\ 2\0qX
\ 1}
\ 6\0|
\0\0j
\ 4\0d
\ e\0d
\ f\0d
\10\0g
\ 3\0|
\ 6\0\83\ 2\0\ 1|
\0\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\ 2\0j
\v\0\83\0\0}
\ 6\0g
\0\0|
\ 6\0D]
\10\0}
\a\0|
\a\0d
33589 +
\0 ^
\ 2\0q§
\ 1}
\ 6\0|
\0\0j
\ 4\0d
\11\0g
\ 1\0|
\ 6\0\83\ 2\0\ 1d
\0\0S(
\12\0\0\0Ns
\f\0\0\0Pyfile17.meds
\10\0\0\0Pyfile17_bis.medi
\ 2\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0t
\16\0\0\0MeasureOfMesh_Extrudediÿÿÿÿg{
\14®Gáz
\84?i
\0\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\r\0\0\0R'
\0\0\0R(
\0\0\0R
\v\0\0\0t
\13\0\0\0MEDFileFieldMultiTSR+
\0\0\0Ry
\0\0\0t
\0\0\0enumerateRº
\0\0\0t
\ 4\0\0\0typeRà
\0\0\0RC
\0\0\0t
\f\0\0\0getTimeStepsRò
\0\0\0(
\b\0\0\0R
\0\0\0R
\86\0\0\0Rñ
\0\0\0t
33590 +
\0\0\0tsExpectedt
\ 3\0\0\0post
\ 4\0\0\0f1tst
\ 2\0\0\0tst
\ 3\0\0\0elt(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testMEDField1Â
\ 1\0\0s,
\0\0\0\0\ 1\ f\ 1\10\ 1\f\ 1!
\ 1\16\ 1\19\ 1\1e\ 1\16\ 1\ 4\ 1\16\ 1$
\ 1$
\ 1$
\ 1\10\ 2\f\0\1d\ 1\19\ 1\r\ 1\f\0\1d\ 1\13\ 1c
\ 1\0\0\0\ 3\0\0\0\ 5\0\0\0C
\0\0\0sa
\0\0\0t
\0\0j
\ 1\0d
\ 1\0\83\ 1\0}
\ 1\0|
\ 1\0j
\ 2\0d
\ 2\0d
\ 3\0\83\ 2\0\ 1t
\ 3\0j
\ 1\0d
\ 1\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 4\0\83\ 2\0\ 1|
\0\0j
\ 4\0d
33591 +
\0d
\v\0g
\ 2\0t
\ 5\0d
\ 2\0d
\0\83\ 2\0\83\ 2\0\ 1d
\0\0S(
\f\0\0\0Ns
\f\0\0\0Pyfile19.meds
\10\0\0\0Pyfile19_bis.medi
\ 2\0\0\0i
\0\0\0\0t
\ 4\0\0\0tytyR
\86\0\0\0t
\ 4\0\0\0uiopt
\ 2\0\0\0MWt
\r\0\0\0VFieldOnNodes(
\ 2\0\0\0Rþ
\0\0\0s
\ 2\0\0\0mm(
\ 2\0\0\0Rÿ
\0\0\0R
\0\ 1\0\0(
\ 6\0\0\0R'
\0\0\0R(
\0\0\0R
\v\0\0\0Rô
\0\0\0R+
\0\0\0t
\19\0\0\0GetComponentsNamesOfField(
\ 3\0\0\0R
\0\0\0R
\86\0\0\0Rñ
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testMEDField2Ú
\ 1\0\0s
\f\0\0\0\0\ 1\ f\ 1\10\ 1\ f\ 1\10\ 1\1f\ 1c
\ 1\0\0\0 \0\0\0\a\0\0\0C
\0\0\0s#
\ 1\0\0t
\0\0j
\ 1\0d
\ 1\0\83\ 1\0}
\ 1\0|
\ 1\0j
\ 2\0d
\ 2\0d
\ 3\0\83\ 2\0\ 1t
\ 3\0j
\ 1\0d
\ 1\0d
\ 4\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 5\0\83\ 2\0\ 1t
\ 4\0j
\ 1\0d
\ 1\0d
\ 4\0d
\ 6\0d
\a\0\83\ 4\0}
\ 2\0|
\ 2\0j
\ 5\0t
\ 6\0d
\ 5\0\83\ 2\0}
\ 3\0t
\a\0d
\ 1\0d
\b\0d
\ 5\0d
\ 4\0d
\ 6\0d
\a\0\83\ 6\0}
\ 4\0|
\0\0j
\b\0|
\ 3\0j
\0|
\ 4\0d
\0d
\0\83\ 3\0\83\ 1\0\ 1t
\ 4\0j
\ 1\0d
\ 1\0d
\ 4\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 5\0t
\ 6\0d
\ 5\0\83\ 2\0}
\ 6\0|
\0\0j
\b\0|
\ 3\0j
\0|
\ 6\0d
\0d
\0\83\ 3\0\83\ 1\0\ 1t
\ 4\0j
\ 1\0d
\ 1\0\83\ 1\0}
\a\0|
\a\0j
\ 5\0t
\ 6\0d
\ 5\0\83\ 2\0}
\b\0|
\0\0j
\b\0|
\ 3\0j
\0|
\b\0d
\0d
\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
33592 +
\0\0\0Ns
\f\0\0\0Pyfile13.meds
\10\0\0\0Pyfile13_bis.medi
\ 2\0\0\0t
\18\0\0\0MyFirstFieldOnGaussPointi
\0\0\0\0i
\ 1\0\0\0i
\ 5\0\0\0t
\b\0\0\02DMesh_2g
\11ê-
\81\99\97q=(
33593 +
\0\0\0R'
\0\0\0R(
\0\0\0R
\v\0\0\0Rô
\0\0\0Rà
\0\0\0t
\ f\0\0\0getFieldAtLevelt
\v\0\0\0ON_GAUSS_PTt
\ e\0\0\0ReadFieldGaussR0
\0\0\0R1
\0\0\0(
\0\0\0R
\0\0\0R
\86\0\0\0Rñ
\0\0\0R
\b\0\0\0Râ
\0\0\0t
\ 3\0\0\0ff3t
\ 2\0\0\0f3t
\ 3\0\0\0ff4t
\ 2\0\0\0f4(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testMEDField3ã
\ 1\0\0s
\1e\0\0\0\0\ 1\ f\ 1\10\ 1\12\ 1\10\ 1\18\ 1\12\ 1\e\ 1\1c\ 1\12\ 1\12\ 1\1c\ 1\ f\ 1\12\ 1\1c\ 1c
\ 1\0\0\0\ 5\0\0\0\a\0\0\0C
\0\0\0s¦
\0\0\0t
\0\0j
\ 1\0d
\ 1\0\83\ 1\0}
\ 1\0|
\ 1\0j
\ 2\0d
\ 2\0d
\ 3\0\83\ 2\0\ 1t
\ 3\0j
\ 1\0d
\ 1\0d
\ 4\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 5\0\83\ 2\0\ 1t
\ 4\0j
\ 1\0d
\ 1\0d
\ 4\0d
\ 6\0d
\a\0\83\ 4\0}
\ 2\0|
\ 2\0j
\ 5\0t
\ 6\0d
\ 5\0\83\ 2\0}
\ 3\0t
\a\0d
\ 1\0d
\b\0d
\ 5\0d
\ 4\0d
\ 6\0d
\a\0\83\ 6\0}
\ 4\0|
\0\0j
\b\0|
\ 3\0j
\0|
\ 4\0d
\0d
\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
33594 +
\0\0\0Ns
\f\0\0\0Pyfile14.meds
\10\0\0\0Pyfile14_bis.medi
\ 2\0\0\0t
\10\0\0\0MyFieldOnGaussNEi
\0\0\0\0i
\ 1\0\0\0i
\ 5\0\0\0R
\ 5\ 1\0\0g
\11ê-
\81\99\97q=(
33595 +
\0\0\0R'
\0\0\0R(
\0\0\0R
\v\0\0\0Rô
\0\0\0Rà
\0\0\0R
\ 6\ 1\0\0t
\v\0\0\0ON_GAUSS_NEt
\10\0\0\0ReadFieldGaussNER0
\0\0\0R1
\0\0\0(
\ 5\0\0\0R
\0\0\0R
\86\0\0\0Rñ
\0\0\0R
\b\0\0\0Râ
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testMEDField4õ
\ 1\0\0s
\12\0\0\0\0\ 1\ f\ 1\10\ 1\12\ 1\10\ 1\18\ 1\12\ 1\e\ 1\1c\ 1c
\ 1\0\0\0\ 4\0\0\0\a\0\0\0C
\0\0\0s¯
\ 1\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0\83\ 4\0}
\ 1\0|
\ 1\0j
\ 2\0t
\ 3\0d
\ 5\0\83\ 2\0}
\ 2\0t
\ 4\0d
\ 1\0d
\ 6\0d
\ 5\0d
\ 2\0d
\ 3\0d
\ 4\0\83\ 6\0}
\ 3\0|
\0\0j
\ 5\0|
\ 2\0j
\ 6\0\83\0\0j
\a\0\83\0\0j
\b\0|
\ 3\0j
\ 6\0\83\0\0j
\a\0\83\0\0d
\a\0\83\ 2\0\83\ 1\0\ 1|
\ 2\0j
\ 6\0\83\0\0j
\0|
\ 3\0j
\ 6\0\83\0\0d
\a\0\83\ 2\0\ 1|
\ 2\0j
33596 +
\0|
\ 3\0j
\ 6\0\83\0\0d
\b\0d
\a\0\83\ 3\0\ 1|
\0\0j
\ 5\0|
\ 2\0j
\b\0|
\ 3\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
\ 1\0j
\ 2\0t
\ 3\0d
\ 5\0d
\ 3\0\83\ 3\0}
\ 2\0t
\ 4\0d
\ 1\0d
\ 6\0d
\ 5\0d
\ 2\0d
\ 3\0d
\ 4\0\83\ 6\0}
\ 3\0|
\0\0j
\ 5\0|
\ 2\0j
\b\0|
\ 3\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
\ 1\0j
\ 2\0t
\ 3\0d
\ 5\0d
\0\83\ 3\0}
\ 2\0|
\0\0j
\ 5\0|
\ 2\0j
\b\0|
\ 3\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
\ 1\0j
\ 2\0t
\ 3\0d
\ 5\0d
\ 4\0\83\ 3\0}
\ 2\0|
\0\0j
\ 5\0|
\ 2\0j
\b\0|
\ 3\0d
\a\0d
\a\0\83\ 3\0\f\83\ 1\0\ 1|
\ 2\0j
33597 +
\0|
\ 3\0j
\ 6\0\83\0\0d
33598 +
\0d
\a\0\83\ 3\0\ 1|
\0\0j
\ 5\0|
\ 2\0j
\b\0|
\ 3\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\v\0\0\0Ns
\f\0\0\0Pyfile17.medRó
\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\0\0\0\0t
\b\0\0\0Extrudedg
\11ê-
\81\99\97q=i
\16\0\0\0i
\ 3\0\0\0i
\f\0\0\0(
\v\0\0\0Rà
\0\0\0R(
\0\0\0R
\ 6\ 1\0\0t
\b\0\0\0ON_CELLSt
\r\0\0\0ReadFieldCellR0
\0\0\0R¹
\0\0\0RØ
\0\0\0R1
\0\0\0t
\14\0\0\0tryToShareSameCoordst
\14\0\0\0changeUnderlyingMesh(
\ 4\0\0\0R
\0\0\0Rñ
\0\0\0R
\b\0\0\0Râ
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testMEDField5
\ 1\ 2\0\0s"
\0\0\0\0\ 1\18\ 1\12\ 1\e\ 11
\ 1\1c\ 1\19\ 1\1c\ 2\15\ 1\e\ 1\1c\ 1\15\ 1\1c\ 1\15\ 1\1d\ 1\19\ 1\1c\ 1c
\ 1\0\0\0\ 5\0\0\0\b\0\0\0C
\0\0\0s®
\ 1\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0}
\ 2\0|
\0\0j
\ 3\0t
\ 4\0|
\ 1\0j
\ 5\0t
\ 6\0|
\ 2\0d
\ 3\0\19d
\ 3\0\19|
\ 2\0d
\ 3\0\19d
\ 4\0\19d
\ 3\0\83\ 6\0\ 1|
\ 1\0j
\ 5\0t
\a\0|
\ 2\0d
\ 3\0\19d
\ 3\0\19|
\ 2\0d
\ 3\0\19d
\ 4\0\19d
\ 3\0\83\ 4\0}
\ 3\0t
\b\0d
\ 1\0d
\ 5\0d
\ 3\0d
\ 2\0|
\ 2\0d
\ 3\0\19d
\ 3\0\19|
\ 2\0d
\ 3\0\19d
\ 4\0\19\83\ 6\0}
\ 4\0|
\0\0j
\0|
\ 3\0j
33599 +
\0|
\ 4\0d
\ 6\0d
\ 6\0\83\ 3\0\83\ 1\0\ 1t
\0\0j
\ 1\0d
\a\0d
\b\0\83\ 2\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0}
\ 2\0|
\ 1\0j
\ 5\0t
\a\0|
\ 2\0d
\ 3\0\19d
\ 3\0\19|
\ 2\0d
\ 3\0\19d
\ 4\0\19d
\ 3\0\83\ 4\0}
\ 3\0t
\b\0d
\a\0d
\0d
\ 3\0d
\b\0|
\ 2\0d
\ 3\0\19d
\ 3\0\19|
\ 2\0d
\ 3\0\19d
\ 4\0\19\83\ 6\0}
\ 4\0|
\0\0j
\0|
\ 3\0j
33600 +
\0|
\ 4\0d
\ 6\0d
\ 6\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\ 3\0t
\ 4\0|
\ 1\0j
\ 5\0t
\ 6\0|
\ 2\0d
\ 3\0\19d
\ 3\0\19|
\ 2\0d
\ 3\0\19d
\ 4\0\19d
\ 3\0\83\ 6\0\ 1|
\0\0j
\ 3\0t
\ 4\0|
\ 1\0j
\ 5\0t
\a\0|
\ 2\0d
\ 3\0\19d
\ 3\0\19|
\ 2\0d
\ 3\0\19d
\ 4\0\19d
\ 3\0d
\ 4\0\83\a\0\ 1d
\0\0S(
33601 +
\0\0\0Ns
\v\0\0\0Pyfile7.medt
\12\0\0\0VectorFieldOnNodesi
\0\0\0\0i
\ 1\0\0\0t
\f\0\0\03DSurfMesh_1g
\11ê-
\81\99\97q=s
\f\0\0\0Pyfile19.medR
\ 1\ 1\0\0t
\b\0\0\02DMesh_1(
\v\0\0\0Rô
\0\0\0R(
\0\0\0t
\r\0\0\0getIterationsR)
\0\0\0R*
\0\0\0R
\ 6\ 1\0\0R
\13\ 1\0\0t
\b\0\0\0ON_NODESt
\r\0\0\0ReadFieldNodeR0
\0\0\0R1
\0\0\0(
\ 5\0\0\0R
\0\0\0Rñ
\0\0\0t
\ 3\0\0\0itsR
\b\0\0\0Râ
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testMEDField6
\16\ 2\0\0s
\1c\0\0\0\0\ 1\12\ 1\f\ 1/
\ 1(
\ 1+
\ 1\1c\ 1\12\ 1\f\ 1(
\ 1+
\ 1\1c\ 1/
\ 12
\ 1c
\ 1\0\0\0\ 5\0\0\0\b\0\0\0C
\0\0\0s
\91\0\0\0t
\0\0j
\ 1\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0}
\ 2\0|
\ 1\0j
\ 3\0t
\ 4\0|
\ 2\0d
\ 3\0\19d
\ 3\0\19|
\ 2\0d
\ 3\0\19d
\ 4\0\19d
\ 3\0\83\ 4\0}
\ 3\0t
\ 5\0d
\ 1\0d
\ 5\0d
\ 3\0d
\ 2\0|
\ 2\0d
\ 3\0\19d
\ 3\0\19|
\ 2\0d
\ 3\0\19d
\ 4\0\19\83\ 6\0}
\ 4\0|
\0\0j
\ 6\0|
\ 3\0j
\a\0|
\ 4\0d
\ 6\0d
\ 6\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\a\0\0\0Ns
\f\0\0\0Pyfile12.medt
\12\0\0\0VectorFieldOnCellsi
\0\0\0\0i
\ 1\0\0\0t
\b\0\0\03DMesh_1g
\11ê-
\81\99\97q=(
\b\0\0\0Rô
\0\0\0R(
\0\0\0R
\e\ 1\0\0R
\ 6\ 1\0\0R
\13\ 1\0\0R
\14\ 1\0\0R0
\0\0\0R1
\0\0\0(
\ 5\0\0\0R
\0\0\0Rñ
\0\0\0R
\1e\ 1\0\0R
\b\0\0\0Râ
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testMEDField7'
\ 2\0\0s
\f\0\0\0\0\ 1\12\ 1\f\ 1(
\ 1+
\ 1\1c\ 1c
\ 1\0\0\0\12\0\0\0\r\0\0\0C
\0\0\0sæ
\a\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0\83\0\0}
\ 3\0t
\ 3\0j
\ 4\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0|
\ 3\0j
\ 6\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\a\0d
\ 2\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\b\0|
\ 3\0j
\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
33602 +
\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\v\0j
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
33603 +
\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\r\0|
\ 1\0|
\ 2\0j
\ 2\0\83\0\0j
\0\83\0\0d
\ 2\0|
\ 2\0j
\0\83\0\0|
\ 2\0j
\ e\0\83\0\0d
\ 4\0\19|
\ 2\0j
\ e\0\83\0\0d
\ 3\0\19\83\ 6\0}
\ 6\0|
\ 5\0j
\ e\0\83\0\0\
\ 3\0}
\a\0}
\b\0}
\0|
\0\0j
\ f\0d
\ 2\0|
\a\0\83\ 2\0\ 1|
\0\0j
\ f\0d
\ 4\0|
\b\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ 5\0|
\0d
\ 6\0\83\ 3\0\ 1|
\0\0j
\11\0|
\ 2\0j
\12\0|
\ 6\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
\ 5\0j
\13\0d
\b\0d
\0d
33604 +
\0\83\ 3\0\ 1|
\ 5\0j
\ e\0\83\0\0\
\ 3\0}
\a\0}
\b\0}
\0|
\0\0j
\ f\0d
\b\0|
\a\0\83\ 2\0\ 1|
\0\0j
\ f\0d
\0|
\b\0\83\ 2\0\ 1|
\0\0j
\10\0d
33605 +
\0|
\0d
\ 6\0\83\ 3\0\ 1|
\ 2\0j
\13\0d
\v\0d
\f\0d
\r\0\83\ 3\0\ 1|
\ 5\0j
\14\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\ e\0\83\0\0\
\ 3\0}
\a\0}
\b\0}
\0|
\0\0j
\ f\0d
\f\0|
\a\0\83\ 2\0\ 1|
\0\0j
\ f\0d
\r\0|
\b\0\83\ 2\0\ 1|
\0\0j
\10\0d
\v\0|
\0d
\ 6\0\83\ 3\0\ 1|
\ 5\0j
\15\0\83\0\0\
\ 2\0}
33606 +
\0}
\v\0|
\ 6\0j
\16\0\83\0\0j
\b\0|
33607 +
\0j
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\11\0|
33608 +
\0j
\12\0|
\ 6\0j
\16\0\83\0\0d
\a\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ f\0d
\1d\0d
\1e\0f
\ 2\0d
\1f\0d
\0f
\ 2\0d!
\0d"
\0f
\ 2\0d#
\0d$
\0f
\ 2\0g
\ 4\0|
\v\0\83\ 2\0\ 1d
\10\0}
\ 1\0t
\0\0j
\17\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0\83\0\0}
\ 3\0t
\ 3\0j
\ 4\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0|
\ 3\0j
\ 6\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\a\0d
\ 2\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\b\0|
\ 3\0j
\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
33609 +
\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\v\0j
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\f\0|
\ 2\0\83\ 1\0\ 1d
\11\0}
\f\0|
\ 5\0j
\18\0\83\0\0j
\19\0d
\ 2\0d
\ 2\0|
\f\0\83\ 3\0}
33611 +
\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\1a\0|
\ 1\0|
\ 2\0j
\ 2\0\83\0\0j
\0\83\0\0d
\ 2\0|
\ 2\0j
\0\83\0\0|
\ 2\0j
\ e\0\83\0\0d
\ 4\0\19|
\ 2\0j
\ e\0\83\0\0d
\ 3\0\19\83\ 6\0}
\ 6\0|
\0\0j
\11\0|
\ 2\0j
\12\0|
\ 6\0d
\a\0d
\a\0\83\ 3\0\f\83\ 1\0\ 1|
\ 2\0j
\16\0\83\0\0j
\19\0d
\ 2\0d
\ 2\0|
\f\0\83\ 3\0\ 1|
\0\0j
\11\0|
\ 2\0j
\12\0|
\ 6\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1d
\12\0}
\ 1\0t
\0\0j
\e\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0\83\0\0}
\ 3\0t
\ 3\0j
\ 4\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0|
\ 3\0j
\ 6\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\a\0d
\ 2\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\b\0|
\ 3\0j
\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
33612 +
\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\v\0j
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
33613 +
\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\1c\0|
\ 1\0|
\ 2\0j
\ 2\0\83\0\0j
\0\83\0\0d
\ 2\0|
\ 2\0j
\0\83\0\0|
\ 2\0j
\ e\0\83\0\0d
\ 4\0\19|
\ 2\0j
\ e\0\83\0\0d
\ 3\0\19\83\ 6\0}
\ 6\0|
\0\0j
\11\0|
\ 2\0j
\12\0|
\ 6\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
\ 5\0j
\15\0\83\0\0\
\ 2\0}
33614 +
\0}
\v\0|
\ 6\0j
\16\0\83\0\0j
\b\0|
33615 +
\0j
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\11\0|
33616 +
\0j
\12\0|
\ 6\0j
\16\0\83\0\0d
\a\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ f\0d%
\0d&
\0f
\ 2\0d'
\0d(
\0f
\ 2\0d)
\0d*
\0f
\ 2\0g
\ 3\0|
\v\0\83\ 2\0\ 1d
\14\0}
\ 1\0t
\0\0j
\1d\0\83\0\0}
\ 2\0|
\ 2\0j
\1e\0\83\0\0}
\r\0|
\r\0j
\1f\0t
\0\83\0\0\83\ 1\0\ 1|
\ 2\0j
\1e\0\83\0\0}
\ e\0|
\ e\0j
\1f\0t
\0\83\0\0\83\ 1\0\ 1|
\ 2\0j
\ 2\0\83\0\0}
\ 3\0t
\ 3\0j
\ 4\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0|
\ 3\0j
\ 6\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\a\0d
\ 2\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\b\0|
\ 3\0j
\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
33617 +
\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\v\0j
\ 4\0\83\0\0}
\ 5\0|
\0\0j!
\0t"
\0|
\ 5\0j
\f\0|
\r\0\83\ 3\0\ 1|
\ e\0j#
\0\83\0\0j$
\0|
\ 2\0j#
\0\83\0\0j%
\0\83\0\0\83\ 1\0\ 1|
\0\0j!
\0t"
\0|
\ 5\0j
\f\0|
\ e\0\83\ 3\0\ 1|
\ 5\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
33618 +
\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\v\0j
\ 4\0|
\ 1\0|
\ 2\0j
\0\83\0\0|
\ 2\0j
\ e\0\83\0\0d
\ 4\0\19|
\ 2\0j
\ e\0\83\0\0d
\ 3\0\19\83\ 4\0}
\ f\0|
\ f\0j&
\0t'
\0d
\ 2\0\83\ 2\0}
\ 6\0|
\0\0j
\11\0|
\ 2\0j
\12\0|
\ 6\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
\ f\0j(
\0\83\0\0}
\10\0|
\ f\0j)
\0d
\15\0\83\ 1\0}
\11\0|
\0\0j
\ f\0d
\15\0|
\11\0j
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ f\0d+
\0|
\11\0j*
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ f\0d
\ e\0|
\11\0j+
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ f\0d
\b\0|
\11\0j,
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ f\0d
\ 3\0|
\11\0j-
\0\83\0\0\83\ 2\0\ 1|
\ f\0j
\15\0\83\0\0\
\ 2\0}
33619 +
\0}
\v\0|
\ 6\0j
\16\0\83\0\0j
\b\0|
33620 +
\0j
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\11\0|
33621 +
\0j
\12\0|
\ 6\0j
\16\0\83\0\0d
\a\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ f\0d
\17\0|
33622 +
\0j.
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ f\0d,
\0d-
\0f
\ 2\0d.
\0d/
\0f
\ 2\0d0
\0d1
\0f
\ 2\0d2
\0d3
\0f
\ 2\0d4
\0d5
\0f
\ 2\0d6
\0d7
\0f
\ 2\0g
\ 6\0|
\v\0\83\ 2\0\ 1d
\0\0S(8
\0\0\0Ns
\f\0\0\0Pyfile25.medi
\0\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\0@i
\ e\0\0\0g
\11ê-
\81\99\97q=i
\ 3\0\0\0i
\ 4\0\0\0gffffff
\ 2@g
\0\0\0\0\0\0\16@i
\a\0\0\0i
\b\0\0\0i
\ 6\0\0\0i
\ 5\0\0\0s
\f\0\0\0Pyfile26.medg
\0\0\0\0\0À
\96@s
\f\0\0\0Pyfile27.medi
\14\0\0\0s
\f\0\0\0Pyfile28.medt(
\0\0\0Loc_MyFirstFieldOnGaussPoint_NORM_TRI6_5iÿÿÿÿi5
\0\0\0i
\12\0\0\0i
\1e\0\0\0i$
\0\0\0i*
\0\0\0i,
\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 6\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 6\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 6\0\0\0i
\ e\0\0\0(
\ 2\0\0\0i
\ 6\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ e\0\0\0i
\14\0\0\0(
\f\0\0\0iÿÿÿÿi
\ 1\0\0\0iÿÿÿÿiÿÿÿÿi
\ 1\0\0\0iÿÿÿÿiÿÿÿÿi
\0\0\0\0i
\0\0\0\0iÿÿÿÿi
\0\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\12\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\12\0\0\0i
\1e\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\1e\0\0\0i$
\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\0\0\0\0(
\ 2\0\0\0i$
\0\0\0i*
\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i*
\0\0\0i,
\0\0\0(
\ 2\0\0\0i
\ 6\0\0\0i
\0\0\0\0(
\ 2\0\0\0i,
\0\0\0i5
\0\0\0(/
\0\0\0R
\ 4\0\0\0t
\16\0\0\0buildVecFieldOnCells_1R¹
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0RB
\0\0\0RC
\0\0\0R
\v\0\0\0Rà
\0\0\0t
\14\0\0\0setFieldNoProfileSBTR
\14\ 1\0\0Rº
\0\0\0R+
\0\0\0t
\11\0\0\0assertAlmostEqualR0
\0\0\0R1
\0\0\0R°
\0\0\0t
\10\0\0\0copyTimeInfoFromt
\1a\0\0\0getUndergroundDataArrayExtt
\b\0\0\0getArrayt
\16\0\0\0buildVecFieldOnNodes_1t
\17\0\0\0getUndergroundDataArrayR
\9f\0\0\0R
\1d\ 1\0\0t
\18\0\0\0buildVecFieldOnGaussNE_1R
\10\ 1\0\0t
\1e\0\0\0buildVecFieldOnGauss_2_SimplerRq
\0\0\0t
\11\0\0\0setDiscretizationt#
\0\0\0MEDCouplingFieldDiscretizationGaussR)
\0\0\0R*
\0\0\0t
\11\0\0\0getDiscretizationt
\11\0\0\0setArrayOfDiscIdst
\11\0\0\0getArrayOfDiscIdsR
\ 6\ 1\0\0R
\a\ 1\0\0t
\16\0\0\0getFieldSplitedByType2t
\ f\0\0\0getLocalizationt
\f\0\0\0getRefCoordst
\18\0\0\0getNumberOfPointsInCellst
\16\0\0\0getNumberOfGaussPointst
\f\0\0\0getDimensionR¨
\0\0\0(
\12\0\0\0R
\0\0\0t
\ 5\0\0\0fnameRã
\0\0\0R
\84\0\0\0t
\ 3\0\0\0mm1t
\ 3\0\0\0ff1Râ
\0\0\0t
\ 3\0\0\0ittt
\ 3\0\0\0orrt
\ 2\0\0\0tiR¼
\0\0\0t
\ 5\0\0\0infost
\ 2\0\0\0nvt
\f\0\0\0f1InvalidCpyt
\r\0\0\0f1InvalidCpy2t
\ 3\0\0\0ff2t
\ 3\0\0\0sbtt
\ 4\0\0\0loc1(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testMEDField80
\ 2\0\0sÈ
\0\0\0\0\ 1\ 6\ 1\f\ 1\f\ 1\f\ 1\13\ 1\10\ 1\13\ 1\10\ 1\f\ 1\r\ 1\10\ 1A
\ 1\15\ 1\10\0\10\0\13\ 1\1c\ 1\13\ 1\15\ 1\10\0\10\0\13\ 1\13\ 1\r\ 1\15\ 1\10\0\10\0\13\ 1\12\ 1\19\ 1\1f\ 14
\ 2\ 6\ 1\f\ 1\f\ 1\f\ 1\13\ 1\10\ 1\13\ 1\10\ 1\f\ 1\r\ 1\ 6\ 1\e\ 1\10\ 1A
\ 1\1d\ 1\19\ 1\1c\ 2\ 6\ 1\f\ 1\f\ 1\f\ 1\13\ 1\10\ 1\13\ 1\10\ 1\f\ 1\r\ 1\10\ 1A
\ 1\1c\ 1\12\ 1\19\ 1\1f\ 1+
\ 2\ 6\ 1\f\ 1\f\ 1\10\ 1\f\ 1\10\ 1\f\ 1\f\ 1\13\ 1\10\ 1\13\ 1\10\ 1\f\ 1\16\ 1\1f\ 1\16\ 1\r\ 1\10\ 12
\ 1\12\ 1\1c\ 1\f\ 1\ f\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1\12\ 1\19\ 1\1f\ 1\16\ 1F
\ 2c
\ 1\0\0\0\17\0\0\0\ 4\0\0\0C
\0\0\0sã
\ 4\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0t
\ 2\0j
\ 3\0\83\0\0}
\ 3\0t
\ 4\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0|
\ 3\0j
\ 6\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\a\0d
\ 2\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\b\0|
\ 3\0j
\0\83\0\0\83\ 1\0\ 1t
33623 +
\0j
\ 1\0\83\0\0}
\ 5\0|
\ 5\0j
\v\0|
\ 4\0\83\ 1\0\ 1t
\ 2\0j
\f\0\83\0\0}
\ 6\0t
\ 4\0j
\ 1\0\83\0\0}
\a\0|
\a\0j
\ 5\0|
\ 6\0j
\ 6\0\83\0\0\83\ 1\0\ 1|
\a\0j
\a\0d
\ 2\0|
\ 6\0\83\ 2\0\ 1|
\a\0j
\b\0|
\ 6\0j
\0\83\0\0\83\ 1\0\ 1t
33624 +
\0j
\ 1\0\83\0\0}
\b\0|
\b\0j
\v\0|
\a\0\83\ 1\0\ 1t
\r\0j
\ 1\0\83\0\0}
\0|
\0j
\ e\0d
\ 2\0|
\ 4\0\83\ 2\0\ 1|
\0j
\ e\0d
\ 3\0|
\a\0\83\ 2\0\ 1|
\ 2\0j
\ f\0|
\0\83\ 1\0\ 1xO
\0t
\10\0d
\ 4\0d
\ 5\0g
\ 2\0|
\0\83\ 2\0D]8
\0\
\ 2\0}
33625 +
\0}
\v\0|
\0\0j
\11\0|
33626 +
\0|
\v\0j
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\11\0t
\12\0|
\v\0\83\ 1\0t
\ 4\0\83\ 2\0\ 1q/
\ 1W|
\0\0j
\11\0d
\14\0|
\ 2\0j
\13\0\83\0\0j
\14\0\83\0\0\83\ 2\0\ 1t
\15\0j
\ 1\0\83\0\0}
\f\0t
\15\0j
\ 1\0\83\0\0}
\r\0t
\15\0j
\ 1\0\83\0\0}
\ e\0|
\ 3\0j
\16\0t
\17\0\83\ 1\0}
\ f\0|
\ f\0j
\b\0d
\ 6\0\83\ 1\0\ 1|
\ f\0j
\18\0t
\19\0t
\1a\0\83\ 2\0}
\ f\0|
\ f\0j
\e\0\83\0\0j
\1c\0d
\ 2\0d
\a\0\83\ 2\0\ 1|
\f\0j
\1d\0|
\ f\0\83\ 1\0\ 1|
\ 6\0j
\16\0t
\17\0\83\ 1\0}
\10\0|
\10\0j
\b\0d
\b\0\83\ 1\0\ 1|
\10\0j
\18\0t
\19\0t
\1a\0\83\ 2\0}
\10\0|
\10\0j
\e\0\83\0\0j
\1c\0d
\ 2\0d
\0\83\ 2\0\ 1|
\r\0j
\1d\0|
\10\0\83\ 1\0\ 1|
\10\0j
\1e\0\83\0\0}
\11\0|
\11\0j
\b\0d
33627 +
\0\83\ 1\0\ 1|
\11\0j
\18\0t
\19\0t
\1a\0\83\ 2\0}
\11\0|
\11\0j
\1f\0d
\v\0d
\f\0\83\ 2\0\ 1|
\11\0j
\e\0\83\0\0j
\1c\0d
\ 2\0d
\r\0\83\ 2\0\ 1|
\11\0j
\e\0\83\0\0j
\1c\0d
\ 3\0d
\ e\0\83\ 2\0\ 1|
\ e\0j
\1d\0|
\11\0\83\ 1\0\ 1t
\0j
\ 1\0\83\0\0}
\12\0|
\12\0j!
\0|
\f\0\83\ 1\0\ 1|
\12\0j!
\0|
\r\0\83\ 1\0\ 1|
\12\0j!
\0|
\ e\0\83\ 1\0\ 1x<
\0t
\10\0d
\ 6\0d
\b\0d
33628 +
\0g
\ 3\0|
\12\0\83\ 2\0D]"
\0\
\ 2\0}
33629 +
\0}
\13\0|
\0\0j
\11\0|
33630 +
\0|
\13\0j
\0\83\0\0\83\ 2\0\ 1q
\r\ 3W|
\ 2\0j"
\0|
\12\0\83\ 1\0\ 1d
\ f\0}
\14\0|
\ 2\0j#
\0|
\14\0d
\v\0\83\ 2\0\ 1t
\0\0j
\ 1\0|
\14\0\83\ 1\0}
\15\0|
\0\0j
\11\0d
\v\0|
\15\0j$
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\11\0d
\10\0|
\15\0j%
\0\83\0\0\83\ 2\0\ 1|
\0\0j&
\0t'
\0|
\15\0j
\13\0\83\0\0j(
\0d
\ 2\0\83\ 1\0t
\ 4\0\83\ 2\0\83\ 1\0\ 1|
\0\0j&
\0t'
\0|
\15\0j
\13\0\83\0\0d
\ 2\0\19t
\ 4\0\83\ 2\0\83\ 1\0\ 1|
\0\0j&
\0t'
\0|
\15\0j
\13\0\83\0\0d
\ 5\0\19t
\ 4\0\83\ 2\0\83\ 1\0\ 1|
\15\0j
\13\0\83\0\0j(
\0d
\ 2\0\83\ 1\0j)
\0d
\ 2\0\83\ 1\0}
\16\0|
\0\0j&
\0|
\ 3\0j*
\0|
\16\0d
\11\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\11\0d
\15\0|
\15\0j+
\0\83\0\0j,
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\11\0d
\16\0g
\ 1\0|
\15\0j+
\0\83\0\0j-
\0d
\v\0\83\ 1\0j.
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\11\0d
\17\0g
\ 1\0|
\15\0j+
\0\83\0\0d
\v\0\19j.
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\11\0d
\18\0g
\ 1\0|
\15\0j+
\0\83\0\0j/
\0d
\b\0\83\ 1\0j.
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\11\0d
\19\0g
\ 1\0|
\15\0j+
\0\83\0\0d
\b\0\19j.
\0\83\0\0\83\ 2\0\ 1d
\0\0S(
\1a\0\0\0Ns
\f\0\0\0Pyfile29.medi
\0\0\0\0i
\ 1\0\0\0t
\b\0\0\01DMesh_1t
\r\0\0\02DCurveMesh_1Rã
\0\0\0s
33631 +
\0\0\0power [kW]t
\ 3\0\0\0f21s
\b\0\0\0sta [mm]t
\ 3\0\0\0f22i
\ 2\0\0\0s
\11\0\0\03*x*IVec+2*x*JVecs
\r\0\0\0distance [km]s
\11\0\0\0displacement [cm]s
\ e\0\0\0Pyfile29_2.medi
\ 3\0\0\0g
\11ê-
\81\99\97q=iÿÿÿÿg
\0\0\0\0\0\0\0\0(
\ 2\0\0\0s
\b\0\0\01DMesh_1s
\r\0\0\02DCurveMesh_1(
\ 3\0\0\0s
\ 2\0\0\0f1s
\ 3\0\0\0f21s
\ 3\0\0\0f22(
\ 3\0\0\0iÿÿÿÿiÿÿÿÿg
\0\0\0\0\0\0\0\0(
\ 3\0\0\0iÿÿÿÿiÿÿÿÿg
\0\0\0\0\0\0\0\0(
\ 3\0\0\0iÿÿÿÿiÿÿÿÿg
\0\0\0\0\0\0\0\0(
\ 3\0\0\0iÿÿÿÿiÿÿÿÿg
\0\0\0\0\0\0\0\0(0
\0\0\0t
\v\0\0\0MEDFileDataR(
\0\0\0R
\ 4\0\0\0t
\r\0\0\0build1DMesh_1R>
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0RB
\0\0\0RC
\0\0\0t
\12\0\0\0MEDFileMeshMultiTSt
\ e\0\0\0setOneTimeStept
\12\0\0\0build2DCurveMesh_1t
\r\0\0\0MEDFileMeshest
\f\0\0\0setMeshAtPost
\0\0\0setMeshest
\ 3\0\0\0zipR+
\0\0\0Rö
\0\0\0t
\0\0\0getMeshest
\ e\0\0\0getMeshesNamesRô
\0\0\0t
\ f\0\0\0getMeasureFieldR.
\0\0\0t
\18\0\0\0buildNewTimeReprFromThist
\b\0\0\0ONE_TIMERN
\0\0\0R)
\ 1\0\0R
\97\0\0\0t
\17\0\0\0appendFieldNoProfileSBTRq
\0\0\0t
\0\0\0applyFunct
\r\0\0\0MEDFileFieldst
\0\0\0pushFieldt
\0\0\0setFieldsR
\v\0\0\0t
\11\0\0\0getNumberOfMeshest
\11\0\0\0getNumberOfFieldsR0
\0\0\0Rt
\0\0\0t
\f\0\0\0getMeshAtPosR}
\0\0\0R1
\0\0\0t
\0\0\0getFieldst
\ e\0\0\0getFieldsNamest
\r\0\0\0getFieldAtPosR÷
\0\0\0t
\10\0\0\0getFieldWithName(
\17\0\0\0R
\0\0\0R9
\ 1\0\0t
\ 1\0\0\0dR
\84\0\0\0R:
\ 1\0\0t
\ 4\0\0\0mmm1R
\85\0\0\0R¢
\0\0\0t
\ 4\0\0\0mmm2R
\0\0\0t
\ 4\0\0\0namet
\ 3\0\0\0mmmR;
\ 1\0\0t
\ 4\0\0\0ff21t
\ 4\0\0\0ff22Rã
\0\0\0RI
\ 1\0\0RJ
\ 1\0\0t
\ 2\0\0\0fst
\ 4\0\0\0fmtst
\ 6\0\0\0fname2t
\ 2\0\0\0d2t
\ 5\0\0\0m1bis(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\10\0\0\0testMEDFileData1
\94\ 2\0\0s
\8a\0\0\0\0\ 1\ 6\ 1\f\ 2\f\ 1\f\0\13\0\10\0\13\ 1\f\ 1\r\ 1\f\ 1\f\0\13\0\10\0\13\ 1\f\0\r\ 1\f\0\10\0\10\ 1\r\ 1"
\ 1\16\ 1\16\ 1\ 4\ 1\1c\ 2\f\ 1\f\ 1\f\ 1\ f\0\r\0\12\ 1\16\ 1\r\ 1\ f\0\r\0\12\ 1\16\ 1\r\ 1\f\0\r\0\12\ 1\10\ 1\16\0\16\ 1\r\ 1\f\ 1\r\0\r\0\r\ 1%
\ 1\16\ 1\ 4\ 1\r\ 2\ 6\ 1\10\ 2\ f\ 1\16\ 1\16\ 1%
\ 1 \ 1 \ 1\1e\ 1\19\ 1\1c\ 1(
\ 1#
\ 1(
\ 1#
\ 1c
\ 1\0\0\0\r\0\0\0\r\0\0\0C
\0\0\0s²
\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0t
\ 2\0j
\ 3\0\83\0\0}
\ 3\0|
\ 3\0j
\ 4\0|
\ 2\0j
\ 5\0\83\0\0\83\ 1\0\ 1|
\ 3\0j
\ 6\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 3\0j
\a\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\b\0j
\ 3\0\83\0\0}
\ 4\0t
\0j
\ 3\0t
33632 +
\0t
\v\0\83\ 2\0}
\ 5\0|
\ 5\0j
\f\0d
\ 4\0\83\ 1\0\ 1t
\r\0j
\ 3\0\83\0\0}
\ 6\0|
\ 6\0j
\ e\0d#
\0d
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\ f\0d
\a\0\83\ 1\0\ 1|
\ 6\0j
\10\0d
\ 3\0\83\ 1\0\ 1|
\ 6\0j
\11\0d
\ 2\0d
\b\0\83\ 2\0\ 1|
\ 6\0j
\11\0d
\ 6\0d
\0\83\ 2\0\ 1|
\ 5\0j
\12\0|
\ 6\0\83\ 1\0\ 1t
\13\0j
\ 3\0\83\0\0}
\a\0|
\a\0j
\ e\0d
\ 5\0d
\ 6\0\83\ 2\0\ 1|
\a\0j
\ f\0d
\ 2\0\83\ 1\0\ 1|
\a\0j
\f\0d
33633 +
\0\83\ 1\0\ 1|
\ 4\0j
\14\0|
\ 5\0|
\ 3\0d
\ 2\0|
\a\0\83\ 4\0\ 1|
\ 4\0j
\15\0d
\v\0g
\ 1\0d
\f\0f
\ 2\0g
\ 1\0\83\ 1\0\ 1|
\ 4\0j
\16\0\83\0\0}
\ 4\0|
\ 4\0j
\a\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\17\0t
33634 +
\0d
\ 2\0|
\ 3\0\83\ 3\0\
\ 2\0}
\b\0}
\0|
\b\0j
\f\0d
\r\0\83\ 1\0\ 1|
\0\0j
\18\0|
\0j
\19\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\18\0|
\b\0j
\1a\0|
\ 6\0d
\ e\0\83\ 2\0\83\ 1\0\ 1t
\b\0j
\ 3\0|
\ 1\0|
\ 5\0j
\e\0\83\0\0d
\ f\0d
\ f\0\83\ 4\0}
33635 +
\0t
\b\0j
\ 3\0|
\ 1\0|
\ 5\0j
\e\0\83\0\0d
\ f\0d
\ f\0\83\ 4\0}
\v\0|
33636 +
\0j
\1c\0|
\v\0\83\ 1\0\ 1|
33637 +
\0j
\1d\0\83\0\0}
\f\0|
\0\0j
\1e\0d
\10\0|
\f\0d
\ 2\0\19d
\ 2\0\19\83\ 2\0\ 1|
\0\0j
\1e\0d
\ 2\0|
\f\0d
\ 2\0\19d
\ 6\0\19d
\ 2\0\19d
\ 2\0\19\83\ 2\0\ 1|
\0\0j
\1e\0d
\r\0|
\f\0d
\ 2\0\19d
\ 6\0\19d
\ 2\0\19d
\ 3\0\19\83\ 2\0\ 1|
\0\0j
\1e\0d
\11\0d
\12\0d
\ 5\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0g
\f\0|
\f\0d
\ 2\0\19d
\ 6\0\19d
\ 2\0\19d
\ 6\0\19j
\1f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\1e\0d
\1c\0|
\f\0d
\ 6\0\19d
\ 2\0\19\83\ 2\0\ 1|
\0\0j
\1e\0d
\ 2\0|
\f\0d
\ 6\0\19d
\ 6\0\19d
\ 2\0\19d
\ 2\0\19\83\ 2\0\ 1|
\0\0j
\1e\0d
\f\0|
\f\0d
\ 6\0\19d
\ 6\0\19d
\ 2\0\19d
\ 3\0\19\83\ 2\0\ 1|
\0\0j
\1e\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\ 6\0|
\f\0d
\ 6\0\19d
\ 6\0\19d
\ 2\0\19d
\ 6\0\19j
\1f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\1e\0d
\ 2\0g
\ 1\0|
33638 +
\0j
\0\83\0\0\83\ 2\0\ 1|
33640 +
\0d
\ 2\0|
\ 3\0\83\ 3\0\
\ 2\0}
\b\0}
\0|
\b\0j
\f\0d
\r\0\83\ 1\0\ 1|
\0\0j
\18\0|
\0j
\19\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\18\0|
\b\0j
\1a\0|
\ 6\0d
\ e\0\83\ 2\0\83\ 1\0\ 1d
\0\0S($
\0\0\0Ns
\f\0\0\0Pyfile30.medi
\0\0\0\0i
\ 2\0\0\0t
\ 2\0\0\0F1i
\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\1c@s
33642 +
\0\0\0sigY [GPa]t
\ 4\0\0\0sup1t
\ f\0\0\0sup1_NORM_QUAD4t
\a\0\0\0ForV650R&
\0\0\0g
\9b+¡
\86\9b\84\ 6=iÿÿÿÿi
\ 3\0\0\0i
\a\0\0\0i
\b\0\0\0i
33643 +
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\ 4\0\0\0i
\13\0\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\12\0\0\0(!
\0\0\0R
\ 4\0\0\0t
\r\0\0\0build2DMesh_3R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0R
\v\0\0\0Rà
\0\0\0t
\16\0\0\0MEDCouplingFieldDoubleR
\13\ 1\0\0RX
\ 1\0\0RB
\0\0\0RY
\0\0\0t
\ 5\0\0\0alloct
\ 4\0\0\0iotat
\0\0\0rearrangeR
\97\0\0\0t
\b\0\0\0setArrayRk
\0\0\0t
\ f\0\0\0setFieldProfilet
\ f\0\0\0changePflsNamesRq
\0\0\0t
\13\0\0\0getFieldWithProfileR0
\0\0\0t
\1c\0\0\0isEqualWithoutConsideringStrR1
\0\0\0RC
\0\0\0t
\f\0\0\0deepCpyGlobsR3
\ 1\0\0R+
\0\0\0RH
\0\0\0t
\18\0\0\0getTypesOfFieldAvailable(
\r\0\0\0R
\0\0\0R9
\ 1\0\0R
\84\0\0\0R:
\ 1\0\0R;
\ 1\0\0Rã
\0\0\0Re
\ 1\0\0R¼
\0\0\0t
\ 4\0\0\0valst
\ 3\0\0\0pflRC
\ 1\0\0R
\ 1\0\0RD
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testMEDField9Í
\ 2\0\0s\
\0\0\0\0\ 2\ 6\ 1\f\ 1\f\0\13\0\10\ 1\10\ 1\f\ 1\12\0\r\ 1\f\0\10\0\r\0\r\0\10\0\10\ 1\r\ 1\f\0\10\0\r\0\r\ 2\16\ 1\19\ 1\f\ 1\10\ 2\e\0\r\ 1\16\ 1\19\ 2\1e\ 1\1e\ 1\r\ 1\f\ 1\18\ 1 \ 1 \ 1J
\ 1\18\ 1 \ 1 \ 18
\ 1\19\ 1\e\0\r\ 1\16\ 1\19\ 1c
\ 1\0\0\0\f\0\0\0\a\0\0\0C
\0\0\0s|
\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 6\0t
\ 3\0\83\ 2\0\ 1t
\ 4\0j
\ 5\0\83\0\0}
\ 3\0|
\ 3\0j
\ 6\0|
\ 2\0j
\a\0\83\0\0\83\ 1\0\ 1|
\ 3\0j
\b\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 3\0j
\0|
\ 2\0j
33644 +
\0\83\0\0\83\ 1\0\ 1|
\ 3\0j
\v\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1t
\f\0j
\ 5\0\83\0\0}
\ 4\0t
\r\0j
\ 5\0t
\ e\0t
\ f\0\83\ 2\0}
\ 5\0|
\ 5\0j
\0d
\b\0\83\ 1\0\ 1t
\10\0j
\ 5\0\83\0\0}
\ 6\0|
\ 6\0j
\11\0d
\13\0d
\ 3\0\83\ 2\0\ 1|
\ 6\0j
\12\0d
\0\83\ 1\0\ 1|
\ 6\0j
\13\0d
\ 5\0\83\ 1\0\ 1|
\ 6\0j
\14\0d
\ 2\0d
33645 +
\0\83\ 2\0\ 1|
\ 6\0j
\14\0d
\ 3\0d
\v\0\83\ 2\0\ 1|
\ 5\0j
\15\0|
\ 6\0\83\ 1\0\ 1t
\16\0j
\ 5\0\83\0\0}
\a\0|
\a\0j
\17\0d
\ 2\0d
\ 3\0d
\ 5\0d
\ 4\0g
\ 4\0d
\ 4\0d
\ 3\0\83\ 3\0\ 1|
\a\0j
\0d
\f\0\83\ 1\0\ 1|
\ 4\0j
\18\0|
\ 5\0|
\ 3\0d
\ 2\0|
\a\0\83\ 4\0\ 1|
\ 5\0j
\19\0d
\r\0d
\ 3\0d
\ 5\0\83\ 3\0\ 1|
\ 6\0j
\1a\0d
\ e\0\83\ 1\0}
\b\0|
\b\0j
\e\0|
\ 6\0\83\ 1\0\ 1|
\ 5\0j
\15\0|
\b\0\83\ 1\0\ 1|
\ 4\0j
\18\0|
\ 5\0|
\ 3\0d
\ 2\0|
\a\0\83\ 4\0\ 1|
\ 4\0j
\1c\0\83\0\0}
\ 4\0|
\ 4\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\1d\0t
\ e\0d
\ 3\0d
\ 5\0d
\ 2\0|
\ 3\0\83\ 5\0\
\ 2\0}
\0}
33646 +
\0|
\0j
\0d
\ f\0\83\ 1\0\ 1|
\0\0j
\1e\0|
33647 +
\0j
\1f\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1e\0|
\0j
\0|
\b\0d
\10\0\83\ 2\0\83\ 1\0\ 1|
\ 4\0j
\1d\0t
\ e\0d
\11\0d
\11\0d
\ 2\0|
\ 3\0\83\ 5\0\
\ 2\0}
\0}
33648 +
\0|
\0j
\0d
\ f\0\83\ 1\0\ 1|
\0\0j
\1e\0|
33649 +
\0j
\1f\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1e\0|
\0j
\0|
\ 6\0d
\10\0\83\ 2\0\83\ 1\0\ 1t
\f\0j
\ 5\0|
\ 1\0|
\ 5\0j
33650 +
\0\83\0\0\83\ 2\0}
\v\0|
\0\0j!
\0d
\14\0d
\15\0g
\ 2\0|
\v\0j"
\0\83\0\0\83\ 2\0\ 1|
\v\0j
\1d\0t
\ e\0d
\ 3\0d
\ 5\0d
\ 2\0|
\ 3\0\83\ 5\0\
\ 2\0}
\0}
33651 +
\0|
\0j
\0d
\ f\0\83\ 1\0\ 1|
\0\0j
\1e\0|
33652 +
\0j
\1f\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1e\0|
\0j
\0|
\b\0d
\10\0\83\ 2\0\83\ 1\0\ 1|
\v\0j
\1d\0t
\ e\0d
\11\0d
\11\0d
\ 2\0|
\ 3\0\83\ 5\0\
\ 2\0}
\0}
33653 +
\0|
\0j
\0d
\ f\0\83\ 1\0\ 1|
\0\0j
\1e\0|
33654 +
\0j
\1f\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1e\0|
\0j
\0|
\ 6\0d
\10\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\16\0\0\0Ns
\f\0\0\0Pyfile31.medi
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0t
\ 2\0\0\0F2g
\0\0\0\0\0\0\1c@s
33656 +
\0\0\0sigY [GPa]t
\ 4\0\0\0sup2g333333ó?s
\ 3\0\0\02*xR&
\0\0\0g
\9b+¡
\86\9b\84\ 6=iÿÿÿÿg
\0\0\0\0\0\0\0\0i
\b\0\0\0(
\ 3\0\0\0iÿÿÿÿiÿÿÿÿg
\0\0\0\0\0\0\0\0(
\ 3\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0g333333ó?(#
\0\0\0R
\ 4\0\0\0t
\r\0\0\0build2DMesh_1t
\r\0\0\0renumberCellsRN
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0RB
\0\0\0RC
\0\0\0R
\v\0\0\0Rô
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0RX
\ 1\0\0RY
\0\0\0Rx
\ 1\0\0Ry
\ 1\0\0Rz
\ 1\0\0R
\97\0\0\0R{
\ 1\0\0Rk
\0\0\0RZ
\0\0\0t
\12\0\0\0appendFieldProfileR°
\0\0\0RZ
\ 1\0\0t
\12\0\0\0copyStringInfoFromRq
\0\0\0R~
\ 1\0\0R0
\0\0\0R
\7f\ 1\0\0R1
\0\0\0R+
\0\0\0R÷
\0\0\0(
\f\0\0\0R
\0\0\0R9
\ 1\0\0R
\84\0\0\0R:
\ 1\0\0R;
\ 1\0\0Rã
\0\0\0Re
\ 1\0\0R¼
\0\0\0R
\ 2\0\0\0R
\82\ 1\0\0R
\83\ 1\0\0RC
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ e\0\0\0testMEDField10ô
\ 2\0\0s`
\0\0\0\0\ 1\ 6\ 1\f\ 1"
\ 1\f\0\13\0\10\0\13\ 1\10\ 1\f\ 1\12\0\r\ 1\f\0\10\0\r\0\r\0\10\0\10\ 1\r\ 1\f\0\1f\0\r\ 2\16\ 1\13\0\ f\0\r\0\r\ 1\16\ 1\f\ 1\10\ 2!
\0\r\ 1\16\ 1\19\ 1!
\0\r\ 1\16\ 1\19\ 2\18\ 1\1c\ 1!
\0\r\ 1\16\ 1\19\ 1!
\0\r\ 1\16\ 1\19\ 1c
\ 1\0\0\0\v\0\0\0\a\0\0\0C
\0\0\0sQ
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 6\0t
\ 3\0\83\ 2\0\ 1t
\ 4\0j
\ 5\0\83\0\0}
\ 3\0|
\ 3\0j
\ 6\0|
\ 2\0j
\a\0\83\0\0\83\ 1\0\ 1|
\ 3\0j
\b\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 3\0j
\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1t
33657 +
\0j
\ 5\0\83\0\0}
\ 4\0t
\v\0j
\ 5\0t
\f\0t
\r\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ e\0d
\b\0\83\ 1\0\ 1t
\ f\0j
\ 5\0\83\0\0}
\ 6\0|
\ 6\0j
\10\0d
\13\0d
\ 3\0\83\ 2\0\ 1|
\ 6\0j
\11\0d
33658 +
\0\83\ 1\0\ 1|
\ 6\0j
\12\0d
\ 5\0\83\ 1\0\ 1|
\ 6\0j
\13\0d
\ 2\0d
\v\0\83\ 2\0\ 1|
\ 6\0j
\13\0d
\ 3\0d
\f\0\83\ 2\0\ 1|
\ 5\0j
\14\0|
\ 6\0\83\ 1\0\ 1t
\15\0j
\ 5\0\83\0\0}
\a\0|
\a\0j
\16\0d
\ 3\0d
\ 5\0d
\ 4\0d
\a\0d
\r\0d
\ e\0g
\ 6\0d
\0d
\ 3\0\83\ 3\0\ 1|
\a\0j
\ e\0d
\ f\0\83\ 1\0\ 1|
\ 4\0j
\17\0|
\ 5\0|
\ 3\0d
\ 2\0|
\a\0\83\ 4\0\ 1|
\0\0j
\18\0|
\ 4\0j
\19\0\83\0\0d
\10\0g
\0\0f
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\1a\0t
\f\0d
\ 2\0|
\ 3\0\83\ 3\0\
\ 2\0}
\b\0}
\0|
\b\0j
\ e\0d
\11\0\83\ 1\0\ 1|
\0\0j
\e\0|
\0j
\1c\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\e\0|
\b\0j
\1d\0|
\ 6\0d
\12\0\83\ 2\0\83\ 1\0\ 1t
33659 +
\0j
\ 5\0|
\ 1\0|
\ 5\0j
\1e\0\83\0\0d
\10\0d
\10\0\83\ 4\0}
33661 +
\0j
\1a\0t
\f\0d
\ 2\0|
\ 3\0\83\ 3\0\
\ 2\0}
\b\0}
\0|
\b\0j
\ e\0d
\11\0\83\ 1\0\ 1|
\0\0j
\e\0|
\0j
\1c\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\e\0|
\b\0j
\1d\0|
\ 6\0d
\12\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\14\0\0\0Ns
\f\0\0\0Pyfile32.medi
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0t
\ 6\0\0\0F1Nodei
\ 6\0\0\0g
\0\0\0\0\0\0\1c@s
33663 +
\0\0\0sigY [GPa]i
\a\0\0\0i
\b\0\0\0t
\b\0\0\0sup1NodeiÿÿÿÿR&
\0\0\0g
\9b+¡
\86\9b\84\ 6=i
\f\0\0\0(
\1f\0\0\0R
\ 4\0\0\0R
\87\ 1\0\0R
\88\ 1\0\0RN
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0R
\v\0\0\0Rà
\0\0\0Rw
\ 1\0\0R
\1c\ 1\0\0RX
\ 1\0\0RB
\0\0\0RY
\0\0\0Rx
\ 1\0\0Ry
\ 1\0\0Rz
\ 1\0\0R
\97\0\0\0R{
\ 1\0\0Rk
\0\0\0RZ
\0\0\0R|
\ 1\0\0R+
\0\0\0R,
\0\0\0R~
\ 1\0\0R0
\0\0\0R
\7f\ 1\0\0R1
\0\0\0RC
\0\0\0(
\v\0\0\0R
\0\0\0R9
\ 1\0\0R
\84\0\0\0R:
\ 1\0\0R;
\ 1\0\0Rã
\0\0\0Re
\ 1\0\0R¼
\0\0\0R
\82\ 1\0\0R
\83\ 1\0\0RC
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ e\0\0\0testMEDField11
\18\ 3\0\0sB
\0\0\0\0\ 1\ 6\ 1\f\ 1"
\ 1\f\0\13\0\10\ 1\10\ 1\f\ 1\12\0\r\ 1\f\0\10\0\r\0\r\0\10\0\10\ 1\r\ 1\f\0%
\0\r\ 2\16\ 1\1c\ 1\10\ 2\e\0\r\ 1\16\ 1\19\ 2\1e\ 1\e\0\r\ 1\16\ 1\19\ 1c
\ 1\0\0\0\f\0\0\0\a\0\0\0C
\0\0\0sG
\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 6\0t
\ 3\0\83\ 2\0\ 1t
\ 4\0j
\ 5\0\83\0\0}
\ 3\0|
\ 3\0j
\ 6\0|
\ 2\0j
\a\0\83\0\0\83\ 1\0\ 1|
\ 3\0j
\b\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 3\0j
\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1t
33664 +
\0j
\ 5\0\83\0\0}
\ 4\0t
\v\0j
\ 5\0t
\f\0t
\r\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ e\0d
\b\0\83\ 1\0\ 1t
\ f\0j
\ 5\0\83\0\0}
\ 6\0|
\ 6\0j
\10\0d
\15\0d
\ 3\0\83\ 2\0\ 1|
\ 6\0j
\11\0d
33665 +
\0\83\ 1\0\ 1|
\ 6\0j
\12\0d
\ 5\0\83\ 1\0\ 1|
\ 6\0j
\13\0d
\ 2\0d
\v\0\83\ 2\0\ 1|
\ 6\0j
\13\0d
\ 3\0d
\f\0\83\ 2\0\ 1|
\ 5\0j
\14\0|
\ 6\0\83\ 1\0\ 1t
\15\0j
\ 5\0\83\0\0}
\a\0|
\a\0j
\16\0d
\ 3\0d
\ 5\0d
\ 4\0d
\a\0d
\r\0d
\ e\0g
\ 6\0d
\0d
\ 3\0\83\ 3\0\ 1|
\a\0j
\ e\0d
\ f\0\83\ 1\0\ 1|
\ 4\0j
\17\0|
\ 5\0|
\ 3\0d
\ 2\0|
\a\0\83\ 4\0\ 1|
\ 5\0j
\18\0d
\10\0d
\ 3\0d
\ 5\0\83\ 3\0\ 1|
\ 6\0j
\19\0d
\11\0\83\ 1\0}
\b\0|
\b\0j
\1a\0|
\ 6\0\83\ 1\0\ 1|
\ 5\0j
\14\0|
\b\0\83\ 1\0\ 1|
\ 4\0j
\17\0|
\ 5\0|
\ 3\0d
\ 2\0|
\a\0\83\ 4\0\ 1|
\ 4\0j
\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\e\0t
\f\0d
\ 3\0d
\ 5\0d
\ 2\0|
\ 3\0\83\ 5\0\
\ 2\0}
\0}
33666 +
\0|
\0j
\ e\0d
\12\0\83\ 1\0\ 1|
\0\0j
\1c\0|
33667 +
\0j
\1d\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\0j
\1e\0|
\b\0d
\13\0\83\ 2\0\83\ 1\0\ 1|
\ 4\0j
\e\0t
\f\0d
\14\0d
\14\0d
\ 2\0|
\ 3\0\83\ 5\0\
\ 2\0}
\0}
33668 +
\0|
\0j
\ e\0d
\12\0\83\ 1\0\ 1|
\0\0j
\1c\0|
33669 +
\0j
\1d\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\0j
\1e\0|
\ 6\0d
\13\0\83\ 2\0\83\ 1\0\ 1t
33670 +
\0j
\ 5\0|
\ 1\0|
\ 5\0j
\1f\0\83\0\0\83\ 2\0}
\v\0|
\v\0j
\e\0t
\f\0d
\ 3\0d
\ 5\0d
\ 2\0|
\ 3\0\83\ 5\0\
\ 2\0}
\0}
33671 +
\0|
\0j
\ e\0d
\12\0\83\ 1\0\ 1|
\0\0j
\1c\0|
33672 +
\0j
\1d\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\0j
\1e\0|
\b\0d
\13\0\83\ 2\0\83\ 1\0\ 1|
\v\0j
\e\0t
\f\0d
\14\0d
\14\0d
\ 2\0|
\ 3\0\83\ 5\0\
\ 2\0}
\0}
33673 +
\0|
\0j
\ e\0d
\12\0\83\ 1\0\ 1|
\0\0j
\1c\0|
33674 +
\0j
\1d\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\0j
\1e\0|
\ 6\0d
\13\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\16\0\0\0Ns
\f\0\0\0Pyfile33.medi
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0R
\8c\ 1\0\0i
\ 6\0\0\0g
\0\0\0\0\0\0\1c@s
33676 +
\0\0\0sigY [GPa]i
\a\0\0\0i
\b\0\0\0R
\8d\ 1\0\0g333333ó?s
\ 3\0\0\02*xR&
\0\0\0g
\9b+¡
\86\9b\84\ 6=iÿÿÿÿi
\f\0\0\0(
\0\0\0R
\ 4\0\0\0R
\87\ 1\0\0R
\88\ 1\0\0RN
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0R
\v\0\0\0Rô
\0\0\0Rw
\ 1\0\0R
\1c\ 1\0\0RX
\ 1\0\0RB
\0\0\0RY
\0\0\0Rx
\ 1\0\0Ry
\ 1\0\0Rz
\ 1\0\0R
\97\0\0\0R{
\ 1\0\0Rk
\0\0\0RZ
\0\0\0R
\89\ 1\0\0R°
\0\0\0RZ
\ 1\0\0R
\8a\ 1\0\0R~
\ 1\0\0R0
\0\0\0R
\7f\ 1\0\0R1
\0\0\0RC
\0\0\0(
\f\0\0\0R
\0\0\0R9
\ 1\0\0R
\84\0\0\0R:
\ 1\0\0R;
\ 1\0\0Rã
\0\0\0Re
\ 1\0\0R¼
\0\0\0R
\ 2\0\0\0R
\82\ 1\0\0R
\83\ 1\0\0RC
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ e\0\0\0testMEDField122
\ 3\0\0sZ
\0\0\0\0\ 1\ 6\ 1\f\ 1"
\ 1\f\0\13\0\10\ 1\10\ 1\f\ 1\12\0\r\ 1\f\0\10\0\r\0\r\0\10\0\10\ 1\r\ 1\f\0%
\0\r\ 2\16\ 1\13\0\ f\0\r\0\r\ 1\16\ 1\10\ 2!
\0\r\ 1\16\ 1\19\ 1!
\0\r\ 1\16\ 1\19\ 2\18\ 1!
\0\r\ 1\16\ 1\19\ 1!
\0\r\ 1\16\ 1\19\ 1c
\ 1\0\0\0\f\0\0\0\a\0\0\0C
\0\0\0sc
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 6\0t
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0\83\0\0}
\ 3\0|
\ 2\0j
\ 5\0t
\ 6\0t
\a\0d
\a\0\83\ 1\0\83\ 1\0t
\b\0\83\ 2\0}
\ 2\0|
\ 2\0j
\0|
\ 3\0\83\ 1\0\ 1t
33677 +
\0j
\v\0\83\0\0}
\ 4\0|
\ 4\0j
\f\0|
\ 2\0j
\r\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\ e\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ f\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1t
\10\0j
\v\0\83\0\0}
\ 5\0t
\11\0j
\v\0t
\12\0t
\13\0\83\ 2\0}
\ 6\0|
\ 6\0j
\0d
\b\0\83\ 1\0\ 1t
\14\0j
\v\0\83\0\0}
\a\0|
\a\0j
\15\0d
\11\0d
\ 3\0\83\ 2\0\ 1|
\a\0j
\16\0d
33678 +
\0\83\ 1\0\ 1|
\a\0j
\17\0d
\ 5\0\83\ 1\0\ 1|
\a\0j
\18\0d
\ 2\0d
\v\0\83\ 2\0\ 1|
\a\0j
\18\0d
\ 3\0d
\f\0\83\ 2\0\ 1|
\ 6\0j
\19\0|
\a\0\83\ 1\0\ 1t
\1a\0j
\v\0\83\0\0}
\b\0|
\b\0j
\e\0d
\ 2\0d
\ 5\0d
\ 6\0g
\ 3\0d
\ 6\0d
\ 3\0\83\ 3\0\ 1|
\b\0j
\0d
\r\0\83\ 1\0\ 1|
\ 5\0j
\1c\0|
\ 6\0|
\ 4\0d
\ 2\0|
\b\0\83\ 4\0\ 1|
\ 5\0j
\ f\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\ 5\0j
\1d\0t
\12\0d
\ 2\0|
\ 4\0\83\ 3\0\
\ 2\0}
\0}
33679 +
\0|
\0j
\0d
\ e\0\83\ 1\0\ 1|
\0\0j
\1e\0|
33680 +
\0j
\1f\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1e\0|
\0j
\0|
\a\0d
\ f\0\83\ 2\0\83\ 1\0\ 1t
\10\0j
\v\0|
\ 1\0|
\ 6\0j
\ 4\0\83\0\0d
\10\0d
\10\0\83\ 4\0}
\v\0|
\v\0j
\1d\0t
\12\0d
\ 2\0|
\ 4\0\83\ 3\0\
\ 2\0}
\0}
33681 +
\0|
\0j
\0d
\ e\0\83\ 1\0\ 1|
\0\0j
\1e\0|
33682 +
\0j
\1f\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1e\0|
\0j
\0|
\a\0d
\ f\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\12\0\0\0Ns
\f\0\0\0Pyfile34.medi
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0t
\ 6\0\0\0F3Nodei
\v\0\0\0g
\0\0\0\0\0\0\1c@s
33684 +
\0\0\0sigY [GPa]t
\v\0\0\0sup1NodeEltR&
\0\0\0g
\9b+¡
\86\9b\84\ 6=iÿÿÿÿi
\16\0\0\0(!
\0\0\0R
\ 4\0\0\0R
\87\ 1\0\0R
\88\ 1\0\0RN
\0\0\0RC
\0\0\0t
\11\0\0\0buildPartOfMySelfRm
\0\0\0Rn
\0\0\0R.
\0\0\0RB
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0R
\v\0\0\0Rà
\0\0\0Rw
\ 1\0\0R
\ f\ 1\0\0RX
\ 1\0\0RY
\0\0\0Rx
\ 1\0\0Ry
\ 1\0\0Rz
\ 1\0\0R
\97\0\0\0R{
\ 1\0\0Rk
\0\0\0RZ
\0\0\0R|
\ 1\0\0R~
\ 1\0\0R0
\0\0\0R
\7f\ 1\0\0R1
\0\0\0(
\f\0\0\0R
\0\0\0R9
\ 1\0\0R
\84\0\0\0t
\ 3\0\0\0tmpR:
\ 1\0\0R;
\ 1\0\0Rã
\0\0\0Re
\ 1\0\0R¼
\0\0\0R
\82\ 1\0\0R
\83\ 1\0\0RC
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ e\0\0\0testMEDField13S
\ 3\0\0sF
\0\0\0\0\ 1\ 6\ 1\f\ 1"
\ 1\f\ 1\1e\0\r\ 1\f\0\13\0\10\ 1\10\ 1\f\ 1\12\0\r\ 1\f\0\10\0\r\0\r\0\10\0\10\ 1\r\ 1\f\0\1c\0\r\ 2\16\ 1\10\ 2\e\0\r\ 1\16\ 1\19\ 2\1e\ 1\e\0\r\ 1\16\ 1\19\ 1c
\ 1\0\0\0\r\0\0\0\a\0\0\0C
\0\0\0s
\97\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 6\0t
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0\83\0\0}
\ 3\0|
\ 2\0j
\ 5\0t
\ 6\0t
\a\0d
\a\0\83\ 1\0\83\ 1\0t
\b\0\83\ 2\0}
\ 2\0|
\ 2\0j
\0|
\ 3\0\83\ 1\0\ 1t
33685 +
\0j
\v\0\83\0\0}
\ 4\0|
\ 4\0j
\f\0|
\ 2\0j
\r\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\ e\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ f\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1t
\10\0j
\v\0\83\0\0}
\ 5\0t
\11\0j
\v\0t
\12\0t
\13\0\83\ 2\0}
\ 6\0|
\ 6\0j
\0d
\b\0\83\ 1\0\ 1t
\14\0j
\v\0\83\0\0}
\a\0|
\a\0j
\15\0d
\13\0d
\ 3\0\83\ 2\0\ 1|
\a\0j
\16\0d
33686 +
\0\83\ 1\0\ 1|
\a\0j
\17\0d
\ 5\0\83\ 1\0\ 1|
\a\0j
\18\0d
\ 2\0d
\v\0\83\ 2\0\ 1|
\a\0j
\18\0d
\ 3\0d
\f\0\83\ 2\0\ 1|
\ 6\0j
\19\0|
\a\0\83\ 1\0\ 1t
\1a\0j
\v\0\83\0\0}
\b\0|
\b\0j
\e\0d
\ 2\0d
\ 5\0d
\ 6\0g
\ 3\0d
\ 6\0d
\ 3\0\83\ 3\0\ 1|
\b\0j
\0d
\r\0\83\ 1\0\ 1|
\ 5\0j
\1c\0|
\ 6\0|
\ 4\0d
\ 2\0|
\b\0\83\ 4\0\ 1|
\ 6\0j
\1d\0d
\ e\0d
\ 3\0d
\ 5\0\83\ 3\0\ 1|
\a\0j
\1e\0d
\ f\0\83\ 1\0}
\0|
\0j
\1f\0|
\a\0\83\ 1\0\ 1|
\ 6\0j
\19\0|
\0\83\ 1\0\ 1|
\ 5\0j
\1c\0|
\ 6\0|
\ 4\0d
\ 2\0|
\b\0\83\ 4\0\ 1|
\ 5\0j
\ f\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\ 5\0j
\0t
\12\0d
\10\0d
\10\0d
\ 2\0|
\ 4\0\83\ 5\0\
\ 2\0}
33688 +
\0j
\0d
\11\0\83\ 1\0\ 1|
\0\0j!
\0|
\v\0j"
\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j!
\0|
33689 +
\0j#
\0|
\a\0d
\12\0\83\ 2\0\83\ 1\0\ 1|
\ 5\0j
\0t
\12\0d
\ 3\0d
\ 5\0d
\ 2\0|
\ 4\0\83\ 5\0\
\ 2\0}
33691 +
\0j
\0d
\11\0\83\ 1\0\ 1|
\0\0j!
\0|
\v\0j"
\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j!
\0|
33692 +
\0j#
\0|
\0d
\12\0\83\ 2\0\83\ 1\0\ 1|
\0\0j$
\0d
\ 6\0g
\ 1\0d
\ 6\0g
\ 1\0g
\ 2\0|
\ 5\0j%
\0\83\0\0\83\ 2\0\ 1t
\10\0j
\v\0|
\ 1\0|
\ 6\0j
\ 4\0\83\0\0\83\ 2\0}
\f\0|
\ 5\0j
\0t
\12\0d
\10\0d
\10\0d
\ 2\0|
\ 4\0\83\ 5\0\
\ 2\0}
33694 +
\0j
\0d
\11\0\83\ 1\0\ 1|
\0\0j!
\0|
\v\0j"
\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j!
\0|
33695 +
\0j#
\0|
\a\0d
\12\0\83\ 2\0\83\ 1\0\ 1|
\ 5\0j
\0t
\12\0d
\ 3\0d
\ 5\0d
\ 2\0|
\ 4\0\83\ 5\0\
\ 2\0}
33697 +
\0j
\0d
\11\0\83\ 1\0\ 1|
\0\0j!
\0|
\v\0j"
\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j!
\0|
33698 +
\0j#
\0|
\0d
\12\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\14\0\0\0Ns
\f\0\0\0Pyfile35.medi
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0t
\ 6\0\0\0F4Nodei
\v\0\0\0g
\0\0\0\0\0\0\1c@s
33700 +
\0\0\0sigY [GPa]R
\91\ 1\0\0g333333ó?s
\ 3\0\0\02*xiÿÿÿÿR&
\0\0\0g
\9b+¡
\86\9b\84\ 6=i
\16\0\0\0(&
\0\0\0R
\ 4\0\0\0R
\87\ 1\0\0R
\88\ 1\0\0RN
\0\0\0RC
\0\0\0R
\92\ 1\0\0Rm
\0\0\0Rn
\0\0\0R.
\0\0\0RB
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0R
\v\0\0\0Rô
\0\0\0Rw
\ 1\0\0R
\ f\ 1\0\0RX
\ 1\0\0RY
\0\0\0Rx
\ 1\0\0Ry
\ 1\0\0Rz
\ 1\0\0R
\97\0\0\0R{
\ 1\0\0Rk
\0\0\0RZ
\0\0\0R
\89\ 1\0\0R°
\0\0\0RZ
\ 1\0\0R
\8a\ 1\0\0R~
\ 1\0\0R0
\0\0\0R
\7f\ 1\0\0R1
\0\0\0R+
\0\0\0R
\81\ 1\0\0(
\r\0\0\0R
\0\0\0R9
\ 1\0\0R
\84\0\0\0R
\93\ 1\0\0R:
\ 1\0\0R;
\ 1\0\0Rã
\0\0\0Re
\ 1\0\0R¼
\0\0\0R
\ 2\0\0\0R
\82\ 1\0\0R
\83\ 1\0\0RC
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ e\0\0\0testMEDField14n
\ 3\0\0sb
\0\0\0\0\ 1\ 6\ 1\f\ 1"
\ 1\f\ 1\1e\0\r\ 1\f\0\13\0\10\ 1\10\ 1\f\ 1\12\0\r\ 1\f\0\10\0\r\0\r\0\10\0\10\ 1\r\ 1\f\0\1c\0\r\ 2\16\ 1\13\0\ f\0\r\0\r\ 1\16\ 1\10\ 2!
\0\r\ 1\16\ 1\19\ 1!
\0\r\ 1\16\ 1\19\ 1"
\ 2\18\ 1!
\0\r\ 1\16\ 1\19\ 1!
\0\r\ 1\16\ 1\19\ 1c
\ 1\0\0\0\f\0\0\0 \0\0\0C
\0\0\0sV
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 6\0t
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0\83\0\0}
\ 3\0|
\ 2\0j
\ 5\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 5\0d
\ 6\0d
\ 6\0d
\ 4\0d
\ 4\0g
\b\0t
\ 6\0\83\ 2\0}
\ 4\0|
\ 4\0j
\a\0|
\ 3\0\83\ 1\0\ 1t
\b\0j
\0\83\0\0}
\ 5\0|
\ 5\0j
33701 +
\0|
\ 4\0j
\v\0\83\0\0\83\ 1\0\ 1|
\ 5\0j
\f\0d
\ 2\0|
\ 4\0\83\ 2\0\ 1t
\r\0j
\0\83\0\0}
\ 6\0t
\ e\0j
\0t
\ f\0t
\10\0\83\ 2\0}
\a\0|
\a\0j
\a\0d
\b\0\83\ 1\0\ 1t
\11\0j
\0\83\0\0}
\b\0|
\b\0j
\12\0d
\11\0d
\ 3\0\83\ 2\0\ 1|
\b\0j
\13\0d
33702 +
\0\83\ 1\0\ 1|
\b\0j
\14\0d
\ 5\0\83\ 1\0\ 1|
\b\0j
\15\0d
\ 2\0d
\v\0\83\ 2\0\ 1|
\b\0j
\15\0d
\ 3\0d
\f\0\83\ 2\0\ 1|
\a\0j
\16\0|
\b\0\83\ 1\0\ 1t
\17\0j
\0\83\0\0}
\0|
\0j
\18\0d
\ 2\0d
\ 3\0d
\ 6\0d
\ 4\0d
\r\0g
\ 5\0d
\a\0d
\ 3\0\83\ 3\0\ 1|
\0j
\a\0d
\ e\0\83\ 1\0\ 1|
\ 6\0j
\19\0|
\a\0|
\ 5\0d
\ 2\0|
\0\83\ 4\0\ 1|
\ 2\0j
\ 5\0t
\1a\0t
\e\0d
\a\0\83\ 1\0\83\ 1\0t
\ 6\0\83\ 2\0}
\ 4\0|
\ 4\0j
\a\0|
\ 3\0\83\ 1\0\ 1|
\ 5\0j
\f\0d
\ 2\0|
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\1c\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1|
\ 6\0j
\1c\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\ 6\0j
\1d\0t
\ f\0|
\ 4\0d
\ 2\0\83\ 3\0}
\a\0|
\ 6\0j
\1e\0t
\ f\0d
\ 2\0|
\ 5\0\83\ 3\0\
\ 2\0}
33704 +
\0j
\a\0d
\ f\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\v\0j
\0d
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\a\0j!
\0\83\0\0j"
\0|
33705 +
\0d
\10\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\12\0\0\0Ns
\f\0\0\0Pyfile36.medi
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0R
\95\ 1\0\0i
\14\0\0\0g
\0\0\0\0\0\0\1c@s
33707 +
\0\0\0sigY [GPa]i
\ 6\0\0\0R
\91\ 1\0\0R&
\0\0\0g
\11ê-
\81\99\97q=i(
\0\0\0(#
\0\0\0R
\ 4\0\0\0R
\87\ 1\0\0R
\88\ 1\0\0RN
\0\0\0RC
\0\0\0R
\92\ 1\0\0R.
\0\0\0RB
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0Rà
\0\0\0Rw
\ 1\0\0R
\ f\ 1\0\0RX
\ 1\0\0RY
\0\0\0Rx
\ 1\0\0Ry
\ 1\0\0Rz
\ 1\0\0R
\97\0\0\0R{
\ 1\0\0Rk
\0\0\0RZ
\0\0\0R|
\ 1\0\0Rm
\0\0\0Rn
\0\0\0R
\v\0\0\0t
\15\0\0\0getFieldOnMeshAtLevelR~
\ 1\0\0R0
\0\0\0t
\ 6\0\0\0isIotaR)
\ 1\0\0R1
\0\0\0(
\f\0\0\0R
\0\0\0R9
\ 1\0\0Rá
\0\0\0R
\93\ 1\0\0R
\84\0\0\0R:
\ 1\0\0R;
\ 1\0\0Rã
\0\0\0Re
\ 1\0\0R¼
\0\0\0Râ
\0\0\0t
\ 2\0\0\0p1(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ e\0\0\0testMEDField15
\94\ 3\0\0sD
\0\0\0\0\ 1\ 6\ 1\f\ 1"
\ 1\f\ 1*
\0\r\ 1\f\0\13\0\10\ 1\f\ 1\12\0\r\ 1\f\0\10\0\r\0\r\0\10\0\10\ 1\r\ 1\f\0"
\0\r\ 2\16\ 1\1e\0\r\0\10\ 1\10\ 1\10\ 1\15\ 1\e\0\r\ 1\16\ 1\1f\ 1c
\ 1\0\0\0\v\0\0\0\ 5\0\0\0C
\0\0\0sà
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0\83\0\0}
\ 3\0t
\ 3\0j
\ 4\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0|
\ 3\0j
\ 6\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\a\0d
\ 2\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\b\0|
\ 3\0j
\0\83\0\0\83\ 1\0\ 1t
33708 +
\0j
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\v\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\f\0\83\0\0d
\ 2\0\19}
\ 6\0|
\ 6\0j
\r\0\83\0\0\ 1|
\ 6\0j
\b\0|
\ 3\0j
\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\a\0d
\ 3\0|
\ 6\0\83\ 2\0\ 1|
\ 4\0j
\ e\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1|
\ 6\0j
\ f\0t
\10\0\83\ 1\0}
\a\0t
\11\0j
\ 4\0\83\0\0}
\b\0|
\b\0j
\12\0|
\a\0j
\13\0\83\0\0j
\14\0\83\0\0d
\ 5\0\83\ 2\0\ 1|
\a\0j
\13\0\83\0\0|
\b\0d
\0\0d
\0\0\85\ 2\0d
\ 2\0f
\ 2\0<d
\ 4\0|
\a\0j
\13\0\83\0\0\14|
\b\0d
\0\0d
\0\0\85\ 2\0d
\ 6\0f
\ 2\0<d
\ 5\0|
\a\0j
\13\0\83\0\0\14|
\b\0d
\0\0d
\0\0\85\ 2\0d
\ 4\0f
\ 2\0<|
\a\0j
\15\0t
\16\0t
\17\0\83\ 2\0}
\a\0|
\a\0j
\18\0|
\b\0\83\ 1\0\ 1|
\a\0j
\19\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\1a\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\v\0|
\a\0\83\ 1\0\ 1|
\ 5\0j
\ e\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
33709 +
\0j
\ 4\0|
\ 1\0|
\a\0j
\0\83\0\0d
\ 2\0d
\ 6\0\83\ 4\0}
\0|
\0j
\e\0t
\1c\0d
\ 2\0\83\ 2\0}
33710 +
\0|
\0\0j
\1d\0|
\ 2\0j
\1e\0|
33711 +
\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
\0j
\e\0t
\1c\0d
\ 3\0\83\ 2\0}
33712 +
\0|
\0\0j
\1d\0|
\a\0j
\1e\0|
33713 +
\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
\0j
\1f\0t
\1c\0\83\ 1\0}
33714 +
\0|
\0\0j
\1d\0|
\ 2\0j
\1e\0|
33715 +
\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1d
\b\0}
\ 1\0|
\ 4\0j
\ e\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
33716 +
\0j
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\v\0|
\a\0\83\ 1\0\ 1|
\ 5\0j
\ e\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
33717 +
\0j
\ 4\0|
\ 1\0|
\a\0j
\0\83\0\0d
\ 2\0d
\ 6\0\83\ 4\0}
\0|
\0j
\1f\0t
\1c\0\83\ 1\0}
33718 +
\0|
\0\0j
\1d\0|
\a\0j
\1e\0|
33719 +
\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\0\0\0Ns
\f\0\0\0Pyfile37.medi
\0\0\0\0iÿÿÿÿi
\ 2\0\0\0i
\ 3\0\0\0i
\ 1\0\0\0g
\11ê-
\81\99\97q=s
\f\0\0\0Pyfile38.med(
\0\0\0R
\ 4\0\0\0R$
\ 1\0\0R¹
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0RB
\0\0\0RC
\0\0\0Rà
\0\0\0R%
\ 1\0\0t
\e\0\0\0buildDescendingConnectivityt
\16\0\0\0sortCellsInMEDFileFrmtR
\v\0\0\0RV
\ 1\0\0R.
\0\0\0RY
\0\0\0Rx
\ 1\0\0R)
\ 1\0\0R¨
\0\0\0RW
\ 1\0\0RX
\ 1\0\0RN
\0\0\0R{
\ 1\0\0t
\13\0\0\0copyTinyStringsFromt
\10\0\0\0copyTinyAttrFromR
\ 6\ 1\0\0R
\13\ 1\0\0R0
\0\0\0R1
\0\0\0t
\12\0\0\0getFieldAtTopLevel(
\v\0\0\0R
\0\0\0R9
\ 1\0\0Rã
\0\0\0R
\84\0\0\0R:
\ 1\0\0R;
\ 1\0\0R
\85\0\0\0Râ
\0\0\0t
\ 2\0\0\0ddRC
\ 1\0\0t
\ 5\0\0\0f1bis(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ e\0\0\0testMEDField16«
\ 3\0\0sT
\0\0\0\0\ 1\ 6\ 1\f\ 1\f\ 1\f\ 1\13\ 1\10\ 1\13\ 1\f\ 1\r\ 1\10\ 1
33720 +
\ 1\13\ 1\10\ 1\10\ 1\ f\ 1\f\ 1\1c\ 1\1c\ 1 \ 1 \ 1\12\ 1\r\ 1\r\ 1\r\ 1\r\ 1\10\ 2\1e\ 1\12\ 1\1c\ 1\12\ 1\1c\ 1\ f\ 1\1c\ 2\ 6\ 1\10\ 1\f\ 1\r\ 1\10\ 1\1e\ 1\ f\ 1\1c\ 1c
\ 1\0\0\0\r\0\0\0\a\0\0\0C
\0\0\0sU
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 6\0t
\ 3\0\83\ 2\0\ 1t
\ 4\0j
\ 5\0\83\0\0}
\ 3\0|
\ 3\0j
\ 6\0|
\ 2\0j
\a\0\83\0\0\83\ 1\0\ 1|
\ 3\0j
\b\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 3\0j
\0|
\ 2\0j
33721 +
\0\83\0\0\83\ 1\0\ 1|
\ 3\0j
\v\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1t
\f\0j
\ 5\0\83\0\0}
\ 4\0t
\r\0j
\ 5\0\83\0\0}
\ 5\0t
\ e\0j
\ 5\0t
\ f\0t
\10\0\83\ 2\0}
\ 6\0|
\ 6\0j
\0d
\b\0\83\ 1\0\ 1t
\11\0j
\ 5\0\83\0\0}
\a\0|
\a\0j
\12\0d
\10\0d
\ 3\0\83\ 2\0\ 1|
\a\0j
\13\0d
\0\83\ 1\0\ 1|
\a\0j
\14\0d
\ 5\0\83\ 1\0\ 1|
\a\0j
\15\0d
\ 2\0d
33722 +
\0\83\ 2\0\ 1|
\a\0j
\15\0d
\ 3\0d
\v\0\83\ 2\0\ 1|
\ 6\0j
\16\0|
\a\0\83\ 1\0\ 1t
\17\0j
\ 5\0\83\0\0}
\b\0|
\b\0j
\18\0d
\ 2\0d
\ 3\0d
\ 5\0d
\ 4\0g
\ 4\0d
\ 4\0d
\ 3\0\83\ 3\0\ 1|
\b\0j
\0d
\f\0\83\ 1\0\ 1|
\ 5\0j
\19\0|
\ 6\0|
\ 3\0d
\ 2\0|
\b\0\83\ 4\0\ 1|
\ 6\0j
\1a\0d
\r\0d
\ 3\0d
\ 5\0\83\ 3\0\ 1|
\a\0j
\e\0d
\ e\0\83\ 1\0}
\0|
\0j
\1c\0|
\a\0\83\ 1\0\ 1|
\ 6\0j
\16\0|
\0\83\ 1\0\ 1|
\ 5\0j
\19\0|
\ 6\0|
\ 3\0d
\ 2\0|
\b\0\83\ 4\0\ 1|
\ 4\0j
\1d\0d
\ 3\0\83\ 1\0\ 1|
\ 4\0j
\1e\0d
\ 2\0|
\ 5\0\83\ 2\0\ 1|
\ 4\0j
\1f\0\83\0\0}
\ 4\0|
\ 4\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\f\0j
\ 5\0|
\ 1\0\83\ 1\0}
33724 +
\0j
\0d
\ 2\0\83\ 1\0}
\v\0|
\v\0j!
\0t
\ f\0d
\ 3\0d
\ 5\0\83\ 3\0}
\f\0|
\0\0j"
\0|
\f\0j#
\0\83\0\0j$
\0|
\ 6\0j#
\0\83\0\0d
\ f\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\11\0\0\0Ns
\f\0\0\0Pyfile39.medi
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0R
\85\ 1\0\0g
\0\0\0\0\0\0\1c@s
33726 +
\0\0\0sigY [GPa]R
\86\ 1\0\0g333333ó?s
\ 3\0\0\02*xg
\11ê-
\81\99\97q=i
\b\0\0\0(%
\0\0\0R
\ 4\0\0\0R
\87\ 1\0\0R
\88\ 1\0\0RN
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0RB
\0\0\0RC
\0\0\0R
\v\0\0\0R[
\ 1\0\0Rô
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0RX
\ 1\0\0RY
\0\0\0Rx
\ 1\0\0Ry
\ 1\0\0Rz
\ 1\0\0R
\97\0\0\0R{
\ 1\0\0Rk
\0\0\0RZ
\0\0\0R
\89\ 1\0\0R°
\0\0\0RZ
\ 1\0\0R
\8a\ 1\0\0t
\ 6\0\0\0resizet
\r\0\0\0setFieldAtPosRq
\0\0\0Rc
\ 1\0\0R
\9f\ 1\0\0R0
\0\0\0R)
\ 1\0\0R1
\0\0\0(
\r\0\0\0R
\0\0\0R9
\ 1\0\0R
\84\0\0\0R:
\ 1\0\0t
\ 3\0\0\0ffsR;
\ 1\0\0Rã
\0\0\0Re
\ 1\0\0R¼
\0\0\0R
\ 2\0\0\0t
\ 4\0\0\0ffsrR
\ 1\0\0R
\f\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ e\0\0\0testMEDField17Ú
\ 3\0\0sJ
\0\0\0\0\ 1\ 6\ 1\f\ 1"
\ 1\f\0\13\0\10\0\13\ 1\10\ 1\f\ 1\f\ 1\12\0\r\ 1\f\0\10\0\r\0\r\0\10\0\10\ 1\r\ 1\f\0\1f\0\r\ 2\16\ 1\13\0\ f\0\r\0\r\ 1\16\ 1\r\ 1\10\ 1\f\ 1\10\ 2\ f\ 1\ f\ 1\15\ 1%
\ 1c
\ 1\0\0\0\r\0\0\0\a\0\0\0C
\0\0\0s9
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 6\0t
\ 3\0\83\ 2\0\ 1t
\ 4\0j
\ 5\0\83\0\0}
\ 3\0|
\ 3\0j
\ 6\0|
\ 2\0j
\a\0\83\0\0\83\ 1\0\ 1|
\ 3\0j
\b\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 3\0j
\0|
\ 2\0j
33727 +
\0\83\0\0\83\ 1\0\ 1|
\ 3\0j
\v\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1t
\f\0j
\ 5\0\83\0\0}
\ 4\0t
\r\0j
\ 5\0\83\0\0}
\ 5\0t
\ e\0j
\ 5\0t
\ f\0t
\10\0\83\ 2\0}
\ 6\0|
\ 6\0j
\0d
\b\0\83\ 1\0\ 1t
\11\0j
\ 5\0\83\0\0}
\a\0|
\a\0j
\12\0d
\10\0d
\ 3\0\83\ 2\0\ 1|
\a\0j
\13\0d
\0\83\ 1\0\ 1|
\a\0j
\14\0d
\ 5\0\83\ 1\0\ 1|
\a\0j
\15\0d
\ 2\0d
33728 +
\0\83\ 2\0\ 1|
\a\0j
\15\0d
\ 3\0d
\v\0\83\ 2\0\ 1|
\ 6\0j
\16\0|
\a\0\83\ 1\0\ 1t
\17\0j
\ 5\0\83\0\0}
\b\0|
\b\0j
\18\0d
\ 2\0d
\ 3\0d
\ 5\0d
\ 4\0g
\ 4\0d
\ 4\0d
\ 3\0\83\ 3\0\ 1|
\b\0j
\0d
\f\0\83\ 1\0\ 1|
\ 5\0j
\19\0|
\ 6\0|
\ 3\0d
\ 2\0|
\b\0\83\ 4\0\ 1|
\ 6\0j
\1a\0d
\r\0d
\ 3\0d
\ 5\0\83\ 3\0\ 1|
\a\0j
\e\0d
\ e\0\83\ 1\0}
\0|
\0j
\1c\0|
\a\0\83\ 1\0\ 1|
\ 6\0j
\16\0|
\0\83\ 1\0\ 1|
\ 5\0j
\19\0|
\ 6\0|
\ 3\0d
\ 2\0|
\b\0\83\ 4\0\ 1|
\ 4\0j
\1d\0|
\ 5\0\83\ 1\0\ 1|
\ 4\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\f\0j
\ 5\0|
\ 1\0\83\ 1\0}
33730 +
\0j
\1e\0d
\ 2\0\83\ 1\0}
\v\0|
\v\0j
\1f\0t
\ f\0d
\ 3\0d
\ 5\0\83\ 3\0}
\f\0|
\0\0j
\0|
\f\0j!
\0\83\0\0j"
\0|
\ 6\0j!
\0\83\0\0d
\ f\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\11\0\0\0Ns
\f\0\0\0Pyfile40.medi
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0R
\85\ 1\0\0g
\0\0\0\0\0\0\1c@s
33732 +
\0\0\0sigY [GPa]R
\86\ 1\0\0g333333ó?s
\ 3\0\0\02*xg
\11ê-
\81\99\97q=i
\b\0\0\0(#
\0\0\0R
\ 4\0\0\0R
\87\ 1\0\0R
\88\ 1\0\0RN
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0RB
\0\0\0RC
\0\0\0R
\v\0\0\0R[
\ 1\0\0Rô
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0RX
\ 1\0\0RY
\0\0\0Rx
\ 1\0\0Ry
\ 1\0\0Rz
\ 1\0\0R
\97\0\0\0R{
\ 1\0\0Rk
\0\0\0RZ
\0\0\0R
\89\ 1\0\0R°
\0\0\0RZ
\ 1\0\0R
\8a\ 1\0\0R\
\ 1\0\0Rc
\ 1\0\0R
\9f\ 1\0\0R0
\0\0\0R)
\ 1\0\0R1
\0\0\0(
\r\0\0\0R
\0\0\0R9
\ 1\0\0R
\84\0\0\0R:
\ 1\0\0R¥
\ 1\0\0R;
\ 1\0\0Rã
\0\0\0Re
\ 1\0\0R¼
\0\0\0R
\ 2\0\0\0R¦
\ 1\0\0R
\ 1\0\0R
\f\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ e\0\0\0testMEDField18ö
\ 3\0\0sF
\0\0\0\0\ 1\ 6\ 1\f\ 1"
\ 1\f\0\13\0\10\0\13\ 1\10\ 1\f\ 1\f\ 1\12\0\r\ 1\f\0\10\0\r\0\r\0\10\0\10\ 1\r\ 1\f\0\1f\0\r\ 2\16\ 1\13\0\ f\0\r\0\r\ 1\16\ 1\r\ 1\10\ 2\ f\ 1\ f\ 1\15\ 1%
\ 1c
\ 1\0\0\0\ 3\0\0\0\ 4\0\0\0C
\0\0\0s>
\0\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0|
\ 1\0\83\ 1\0}
\ 2\0|
\0\0j
\ 2\0d
\ 6\0|
\ 2\0j
\ 3\0\83\0\0j
\ 4\0d
\ 5\0\83\ 1\0j
\ 5\0\83\0\0\83\ 2\0\ 1d
\0\0S(
\a\0\0\0Ns
\f\0\0\0Pyfile13.medt)
\0\0\0Loc_MyFirstFieldOnGaussPoint_NORM_QUAD4_1t(
\0\0\0Loc_MyFirstFieldOnGaussPoint_NORM_TRI3_0t(
\0\0\0Loc_MyFirstFieldOnGaussPoint_NORM_TRI6_2i
\0\0\0\0(
\ 3\0\0\0R©
\ 1\0\0Rª
\ 1\0\0R«
\ 1\0\0(
\ 6\0\0\0RK
\ 1\0\0R(
\0\0\0R+
\0\0\0Ra
\ 1\0\0Rc
\ 1\0\0t
\a\0\0\0getLocs(
\ 3\0\0\0R
\0\0\0R9
\ 1\0\0Re
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\10\0\0\0testMEDFieldBug1
\ f\ 4\0\0s
\b\0\0\0\0\ 1\ 6\ 1\ f\ 1%
\ 1c
\ 1\0\0\0\a\0\0\0\ 5\0\0\0C
\0\0\0sf
\ 3\0\0t
\0\0j
\ 1\0\83\0\0}
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\ 1t
\ 3\0j
\ 4\0\83\0\0}
\ 2\0|
\ 2\0j
\ 5\0d
\ 1\0|
\ 1\0\83\ 2\0\ 1t
\ 6\0j
\ 4\0\83\0\0}
\ 3\0|
\ 3\0j
\a\0d
\ 1\0d
\ 2\0g
\ 2\0d
\ 2\0d
\ 3\0\83\ 3\0\ 1|
\ 3\0j
\b\0d
\ 4\0\83\ 1\0\ 1t
\ 6\0j
\ 4\0\83\0\0}
\ 4\0|
\ 4\0j
\a\0d
\ 3\0d
\ 5\0g
\ 2\0d
\ 2\0d
\ 3\0\83\ 3\0\ 1|
\ 4\0j
\b\0d
\ 6\0\83\ 1\0\ 1t
\ 6\0j
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\a\0d
\ 3\0d
\ 2\0d
\ 5\0g
\ 3\0d
\ 5\0d
\ 3\0\83\ 3\0\ 1|
\ 5\0j
\b\0d
\a\0\83\ 1\0\ 1|
\ 2\0j
\0d
\ 1\0|
\ 3\0|
\ 4\0g
\ 2\0t
33733 +
\0\83\ 3\0\ 1|
\0\0j
\v\0d
\ e\0|
\ 2\0j
\f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\v\0d
\ f\0|
\ 2\0j
\r\0\83\0\0\83\ 2\0\ 1|
\0\0j
\v\0d
\10\0|
\ 2\0j
\ e\0d
\ 4\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\v\0d
\11\0|
\ 2\0j
\ e\0d
\ 6\0\83\ 1\0\83\ 2\0\ 1|
\ 2\0j
\ f\0\83\0\0\ 1|
\0\0j
\v\0d
\12\0|
\ 2\0j
\f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\v\0d
\13\0|
\ 2\0j
\r\0\83\0\0\83\ 2\0\ 1|
\0\0j
\v\0d
\14\0|
\ 2\0j
\ e\0d
\ 4\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\v\0d
\15\0|
\ 2\0j
\ e\0d
\ 6\0\83\ 1\0\83\ 2\0\ 1t
\ 3\0j
\ 4\0\83\0\0}
\ 2\0|
\ 2\0j
\ 5\0d
\ 1\0|
\ 1\0\83\ 2\0\ 1|
\ 2\0j
\0d
\ 1\0|
\ 3\0|
\ 4\0|
\ 5\0g
\ 3\0t
33734 +
\0\83\ 3\0\ 1|
\0\0j
\v\0d
\16\0|
\ 2\0j
\f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\v\0d
\17\0|
\ 2\0j
\r\0\83\0\0\83\ 2\0\ 1|
\0\0j
\v\0d
\18\0|
\ 2\0j
\ e\0d
\ 4\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\v\0d
\19\0|
\ 2\0j
\ e\0d
\ 6\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\v\0d
\1a\0|
\ 2\0j
\ e\0d
\a\0\83\ 1\0\83\ 2\0\ 1|
\ 2\0j
\ f\0\83\0\0\ 1|
\0\0j
\v\0d
\e\0|
\ 2\0j
\f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\v\0d
\1c\0|
\ 2\0j
\r\0\83\0\0\83\ 2\0\ 1|
\0\0j
\v\0d
\1d\0|
\ 2\0j
\ e\0d
\ 4\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\v\0d
\1e\0|
\ 2\0j
\ e\0d
\ 6\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\v\0d
\1f\0|
\ 2\0j
\ e\0d
\a\0\83\ 1\0\83\ 2\0\ 1|
\ 2\0j
\10\0d
\f\0d
\r\0\83\ 2\0\ 1|
\ 2\0j
\11\0d
\ 1\0d
\a\0\83\ 2\0}
\ 6\0|
\0\0j
\12\0|
\ 6\0j
\13\0|
\ 5\0\83\ 1\0\83\ 1\0\ 1|
\ 2\0j
\11\0d
\ 1\0d
\ 6\0\83\ 2\0}
\ 6\0|
\0\0j
\12\0|
\ 6\0j
\13\0|
\ 4\0\83\ 1\0\83\ 1\0\ 1|
\ 2\0j
\11\0d
\ 1\0d
\ 4\0\83\ 2\0}
\ 6\0|
\0\0j
\12\0|
\ 6\0j
\13\0|
\ 3\0\83\ 1\0\83\ 1\0\ 1d
\0\0S(
\0\0\0Ni
\0\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0t
\ 2\0\0\0g1i
\ 3\0\0\0t
\ 2\0\0\0g2t
\ 2\0\0\0g3s
\0\0\0Family_-2s
\0\0\0Family_-3s
\0\0\0Family_-4s
\0\0\0Family_-5i
\ 5\0\0\0i
\ 6\0\0\0(
\ 2\0\0\0s
\ 2\0\0\0g1s
\ 2\0\0\0g2(
\ 2\0\0\0s
\0\0\0Family_-2s
\0\0\0Family_-3(
\ 1\0\0\0s
\0\0\0Family_-2(
\ 1\0\0\0s
\0\0\0Family_-3(
\ 2\0\0\0s
\ 2\0\0\0g1s
\ 2\0\0\0g2(
\ 2\0\0\0s
\ 2\0\0\0g1s
\ 2\0\0\0g2(
\ 1\0\0\0s
\ 2\0\0\0g1(
\ 1\0\0\0s
\ 2\0\0\0g2(
\ 3\0\0\0s
\ 2\0\0\0g1s
\ 2\0\0\0g2s
\ 2\0\0\0g3(
\ 3\0\0\0s
\0\0\0Family_-2s
\0\0\0Family_-4s
\0\0\0Family_-5(
\ 2\0\0\0s
\0\0\0Family_-2s
\0\0\0Family_-4(
\ 1\0\0\0s
\0\0\0Family_-5(
\ 2\0\0\0s
\0\0\0Family_-4s
\0\0\0Family_-5(
\ 3\0\0\0s
\ 2\0\0\0g1s
\ 2\0\0\0g2s
\ 2\0\0\0g3(
\ 3\0\0\0s
\0\0\0Family_-2s
\0\0\0Family_-4s
\0\0\0Family_-5(
\ 2\0\0\0s
\0\0\0Family_-2s
\0\0\0Family_-4(
\ 1\0\0\0s
\0\0\0Family_-5(
\ 2\0\0\0s
\0\0\0Family_-4s
\0\0\0Family_-5(
\14\0\0\0R
\ 4\0\0\0RL
\ 1\0\0t
\1d\0\0\0convertQuadraticCellsToLinearR>
\0\0\0R(
\0\0\0Rj
\0\0\0Rk
\0\0\0RZ
\0\0\0RB
\0\0\0Rl
\0\0\0RN
\0\0\0R+
\0\0\0t
\ e\0\0\0getGroupsNamest
\10\0\0\0getFamiliesNamesR
\9a\0\0\0t
\1d\0\0\0assignFamilyNameWithGroupNamet
\ e\0\0\0changeFamilyIdRG
\0\0\0R0
\0\0\0R1
\0\0\0(
\a\0\0\0R
\0\0\0R
\83\0\0\0R
\86\0\0\0R®
\ 1\0\0R¯
\ 1\0\0R°
\ 1\0\0t
\ 1\0\0\0g(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\f\0\0\0testMEDMesh8
\15\ 4\0\0sZ
\0\0\0\0\ 1\f\ 1
33735 +
\ 1\f\ 1\10\ 1\f\0\19\0\r\ 1\f\0\19\0\r\ 1\f\0\1c\0\r\ 1\19\ 1\16\ 1\16\ 1\19\ 1\19\ 1
33736 +
\ 1\16\ 1\16\ 1\19\ 1\19\ 2\f\ 1\10\ 1\1c\ 1\16\ 1\16\ 1\19\ 1\19\ 1\19\ 1
33737 +
\ 1\16\ 1\16\ 1\19\ 1\19\ 1\19\ 1\10\ 1\12\ 1\16\ 1\12\ 1\16\ 1\12\ 1\16\ 1c
\ 1\0\0\0\f\0\0\0\a\0\0\0C
\0\0\0s¹
\ 1\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0\83\0\0}
\ 3\0t
\ 3\0j
\ 4\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0|
\ 3\0j
\ 6\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\a\0d
\ 2\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\b\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\0j
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
33738 +
\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\b\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\ 2\0j
\v\0\83\0\0}
\ 6\0|
\ 6\0j
\ 2\0\83\0\0}
\a\0|
\a\0j
\f\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 3\0\83\ 1\0\ 1|
\a\0j
\r\0d
\a\0\83\ 1\0\ 1|
\ 6\0j
\ e\0\83\0\0\ 4\1ed
\b\09
\ 2(|
\ 6\0j
\r\0d
\0\83\ 1\0\ 1t
\ 3\0j
\ 4\0\83\0\0}
\b\0|
\b\0j
\ 5\0|
\a\0j
\ 6\0\83\0\0\83\ 1\0\ 1|
\b\0j
\a\0d
\ 2\0|
\a\0\83\ 2\0\ 1|
\b\0j
\b\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\0j
\ 4\0\83\0\0}
\0|
\0j
33739 +
\0|
\ 6\0\83\ 1\0\ 1|
\0j
\b\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\ f\0|
\ 1\0d
33740 +
\0d
\ 2\0d
\v\0d
\ 2\0d
\f\0\83\ 6\0}
33742 +
\0j
\11\0|
\ 2\0d
\r\0d
\r\0\83\ 3\0\83\ 1\0\ 1t
\ f\0|
\ 1\0d
\a\0d
\ 2\0d
\0d
\ 2\0d
\f\0\83\ 6\0}
\v\0|
\0\0j
\10\0|
\v\0j
\11\0|
\ 6\0d
\r\0d
\r\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\ e\0\0\0Ns
\f\0\0\0Pyfile41.medi
\0\0\0\0i
\ 2\0\0\0g
\0\0\0\0\0\0à?g333333ã?gffffffæ?t
\f\0\0\03DSurfMesh_2g
\0\0\0\0\0\0\0@t
\13\0\0\0VectorFieldOnCells2R
\19\ 1\0\0R
\ 1\0\0i
\ 1\0\0\0g
\11ê-
\81\99\97q=(
\12\0\0\0R
\ 4\0\0\0R$
\ 1\0\0R¹
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0R
\v\0\0\0Rà
\0\0\0R%
\ 1\0\0Rq
\0\0\0t
\0\0\0translateRB
\0\0\0R)
\ 1\0\0R
\14\ 1\0\0R0
\0\0\0R1
\0\0\0(
\f\0\0\0R
\0\0\0R9
\ 1\0\0Rã
\0\0\0R
\84\0\0\0R:
\ 1\0\0R;
\ 1\0\0Râ
\0\0\0R
\85\0\0\0R¢
\0\0\0RC
\ 1\0\0R
33743 +
\ 1\0\0R
\f\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt4
\0\0\0testMEDLoaderMEDLoaderNSReadFieldDoubleDataInMedFile@
\ 4\0\0s8
\0\0\0\0\ 1\ 6\ 1\f\ 1\f\ 1\f\ 1\13\ 1\10\ 1\10\ 1\f\ 1\r\ 1\10\ 2\f\ 1\f\ 1\16\ 1\r\ 1\11\ 1\r\ 1\f\ 1\13\ 1\10\ 1\10\ 1\f\ 1\r\ 1\10\ 2\e\ 1\1c\ 1\e\ 1\1c\ 1c
\ 1\0\0\0\1a\0\0\0\ e\0\0\0C
\0\0\0s
\19\ 6\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0\
\ e\0}
\ 2\0}
\ 3\0}
\ 4\0}
\ 5\0}
\ 6\0}
\a\0}
\b\0}
\0}
33744 +
\0}
\v\0}
\f\0}
\r\0}
\ e\0}
\ f\0t
\ 2\0j
\ 3\0\83\0\0}
\10\0|
\10\0j
\ 4\0|
\ 2\0j
\ 5\0\83\0\0\83\ 1\0\ 1|
\10\0j
\ 6\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\10\0j
\ 6\0d
\ 3\0|
\ 3\0\83\ 2\0\ 1|
\10\0j
\ 6\0d
\ 4\0|
\ 4\0\83\ 2\0\ 1|
\10\0j
\a\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1d
\ 6\0}
\11\0d
\a\0d
\b\0d
\0g
\ 3\0}
\12\0t
\b\0j
\ 3\0\83\0\0}
\13\0t
\0j
\ 3\0\83\0\0}
\14\0|
\14\0j
33745 +
\0|
\ 2\0j
\v\0\83\0\0t
\f\0|
\12\0\83\ 1\0\14d
33746 +
\0\83\ 2\0\ 1|
\14\0j
\r\0d
\v\0\83\ 1\0\ 1|
\14\0j
\ e\0t
\f\0|
\12\0\83\ 1\0\83\ 1\0\ 1|
\14\0j
\ f\0|
\12\0\83\ 1\0\ 1t
\10\0j
\ 3\0t
\11\0t
\12\0\83\ 2\0}
\ 5\0|
\ 5\0j
\13\0|
\11\0\83\ 1\0\ 1|
\ 5\0j
\14\0|
\14\0\83\ 1\0\ 1|
\ 5\0j
\15\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\16\0\83\0\0\ 1|
\13\0j
\17\0|
\ 5\0\83\ 1\0\ 1|
\0\0j
\18\0|
\13\0j
\19\0\83\0\0d
\ 5\0d
\ 2\0g
\ 1\0f
\ 2\0\83\ 2\0\ 1t
\0j
\ 3\0\83\0\0}
\15\0|
\15\0j
33747 +
\0|
\ 4\0j
\v\0\83\0\0t
\f\0|
\12\0\83\ 1\0\14d
33748 +
\0\83\ 2\0\ 1|
\15\0j
\r\0d
\f\0\83\ 1\0\ 1|
\15\0j
\ e\0t
\f\0|
\12\0\83\ 1\0\83\ 1\0\ 1|
\15\0j
\ f\0|
\12\0\83\ 1\0\ 1t
\10\0j
\ 3\0t
\11\0t
\12\0\83\ 2\0}
\a\0|
\a\0j
\13\0|
\11\0\83\ 1\0\ 1|
\a\0j
\14\0|
\15\0\83\ 1\0\ 1|
\a\0j
\15\0|
\ 4\0\83\ 1\0\ 1|
\a\0j
\16\0\83\0\0\ 1|
\13\0j
\17\0|
\a\0\83\ 1\0\ 1|
\0\0j
\18\0|
\13\0j
\19\0\83\0\0d
\ 5\0d
\ 2\0d
\ 4\0g
\ 2\0f
\ 2\0\83\ 2\0\ 1t
\0j
\ 3\0\83\0\0}
\16\0|
\16\0j
33749 +
\0|
\ 3\0j
\v\0\83\0\0t
\f\0|
\12\0\83\ 1\0\14d
33750 +
\0\83\ 2\0\ 1|
\16\0j
\r\0d
\r\0\83\ 1\0\ 1|
\16\0j
\ e\0t
\f\0|
\12\0\83\ 1\0\83\ 1\0\ 1|
\16\0j
\ f\0|
\12\0\83\ 1\0\ 1t
\10\0j
\ 3\0t
\11\0t
\12\0\83\ 2\0}
\ 6\0|
\ 6\0j
\13\0|
\11\0\83\ 1\0\ 1|
\ 6\0j
\14\0|
\16\0\83\ 1\0\ 1|
\ 6\0j
\15\0|
\ 3\0\83\ 1\0\ 1|
\ 6\0j
\16\0\83\0\0\ 1|
\13\0j
\17\0|
\ 6\0\83\ 1\0\ 1|
\0\0j
\18\0|
\13\0j
\19\0\83\0\0d
\ 5\0d
\ 2\0d
\ 3\0d
\ 4\0g
\ 3\0f
\ 2\0\83\ 2\0\ 1|
\13\0j
\a\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1d
\ e\0}
\17\0d
\ f\0d
\10\0g
\ 2\0}
\18\0t
\b\0j
\ 3\0\83\0\0}
\19\0t
\0j
\ 3\0\83\0\0}
\15\0|
\15\0j
33751 +
\0|
\ 4\0j
\v\0\83\0\0d
\ 5\0\14d
33752 +
\0\83\ 2\0\ 1|
\15\0j
\r\0d
\11\0\83\ 1\0\ 1|
\15\0j
\ e\0d
\ 5\0\83\ 1\0\ 1|
\15\0j
\ f\0|
\18\0\83\ 1\0\ 1t
\10\0j
\ 3\0t
\11\0t
\12\0\83\ 2\0}
\a\0|
\a\0j
\13\0|
\17\0\83\ 1\0\ 1|
\a\0j
\14\0|
\15\0\83\ 1\0\ 1|
\a\0j
\15\0|
\ 4\0\83\ 1\0\ 1|
\a\0j
\16\0\83\0\0\ 1|
\19\0j
\17\0|
\a\0\83\ 1\0\ 1|
\0\0j
\18\0|
\19\0j
\19\0\83\0\0d
\ 2\0d
\ 2\0g
\ 1\0f
\ 2\0\83\ 2\0\ 1t
\0j
\ 3\0\83\0\0}
\16\0|
\16\0j
33753 +
\0|
\ 3\0j
\v\0\83\0\0t
\f\0|
\18\0\83\ 1\0\14d
33754 +
\0\83\ 2\0\ 1|
\16\0j
\r\0d
\12\0\83\ 1\0\ 1|
\16\0j
\ e\0t
\f\0|
\18\0\83\ 1\0\83\ 1\0\ 1|
\16\0j
\ f\0|
\18\0\83\ 1\0\ 1t
\10\0j
\ 3\0t
\11\0t
\12\0\83\ 2\0}
\ 6\0|
\ 6\0j
\13\0|
\17\0\83\ 1\0\ 1|
\ 6\0j
\14\0|
\16\0\83\ 1\0\ 1|
\ 6\0j
\15\0|
\ 3\0\83\ 1\0\ 1|
\ 6\0j
\16\0\83\0\0\ 1|
\19\0j
\17\0|
\ 6\0\83\ 1\0\ 1|
\0\0j
\18\0|
\19\0j
\19\0\83\0\0d
33755 +
\0d
\ 2\0d
\ 3\0g
\ 2\0f
\ 2\0\83\ 2\0\ 1|
\19\0j
\a\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\b\0j
\ 3\0|
\ 1\0|
\11\0d
\ 3\0d
\ 3\0\83\ 4\0}
\13\0|
\0\0j
\18\0|
\13\0j
\19\0\83\0\0d
\ 5\0d
\ 2\0d
\ 3\0d
\ 4\0g
\ 3\0f
\ 2\0\83\ 2\0\ 1|
\0\0j
\18\0|
\13\0j
\1a\0\83\0\0d
\ 2\0d
\ 2\0d
\19\0d
\14\0d
\14\0f
\ 4\0g
\ 1\0f
\ 2\0d
33756 +
\0d
\ 2\0d
\1a\0d
\14\0d
\14\0f
\ 4\0g
\ 1\0f
\ 2\0d
\16\0d
\ 2\0d
\e\0d
\14\0d
\14\0f
\ 4\0g
\ 1\0f
\ 2\0d
\13\0d
\ 2\0d
\1c\0d
\14\0d
\14\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 4\0\83\ 2\0\ 1t
\b\0j
\ 3\0|
\ 1\0|
\17\0d
\ 3\0d
\ 3\0\83\ 4\0}
\19\0|
\0\0j
\18\0|
\19\0j
\19\0\83\0\0d
33757 +
\0d
\ 2\0d
\ 3\0g
\ 2\0f
\ 2\0\83\ 2\0\ 1|
\0\0j
\18\0|
\19\0j
\1a\0\83\0\0d
\ 2\0d
\ 2\0d
\1d\0d
\14\0d
\14\0f
\ 4\0g
\ 1\0f
\ 2\0d
33758 +
\0d
\ 2\0d
\1e\0d
\14\0d
\14\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 2\0\83\ 2\0\ 1d
\0\0S(
\1f\0\0\0Ns
\f\0\0\0Pyfile42.medi
\0\0\0\0iÿÿÿÿiþÿÿÿi
\ 2\0\0\0t
\ 6\0\0\0Field1t
\ 5\0\0\0comp1t
\ 5\0\0\0comp2t
\ 5\0\0\0comp3i
\ 1\0\0\0g
\0\0\0\0\0\0\1c@g
\0\0\0\0\0Àg@g
\0\0\0\0\0\80V@t
\ 6\0\0\0Field2t
\ 6\0\0\0comp11t
\ 6\0\0\0comp22g
\0\0\0\0\0ÀgÀg
\0\0\0\0\0\80VÀi
\ 4\0\0\0R&
\0\0\0iT
\0\0\0i
\ 3\0\0\0i
\94\0\0\0iÔ
\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0iT
\0\0\0(
\ 2\0\0\0iT
\0\0\0i
\94\0\0\0(
\ 2\0\0\0i
\94\0\0\0iÔ
\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0iT
\0\0\0(
\e\0\0\0R
\ 4\0\0\0R×
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0R
\v\0\0\0Rà
\0\0\0RY
\0\0\0Rx
\ 1\0\0R§
\0\0\0Ry
\0\0\0Ry
\ 1\0\0Rz
\ 1\0\0t
\13\0\0\0setInfoOnComponentsRw
\ 1\0\0R
\13\ 1\0\0RX
\ 1\0\0RB
\0\0\0R{
\ 1\0\0R³
\0\0\0Rd
\0\0\0R%
\ 1\0\0R+
\0\0\0R,
\0\0\0t
\15\0\0\0getFieldSplitedByType(
\1a\0\0\0R
\0\0\0R9
\ 1\0\0R
\85\0\0\0R
\84\0\0\0Rá
\0\0\0Râ
\0\0\0Rã
\0\0\0Rä
\0\0\0Rå
\0\0\0Ræ
\0\0\0Rç
\0\0\0Rè
\0\0\0Ré
\0\0\0Rê
\0\0\0Rë
\0\0\0Rì
\0\0\0R
\83\0\0\0t
33760 +
\0\0\0compNames1R;
\ 1\0\0t
\ 3\0\0\0da2t
\ 3\0\0\0da0R©
\0\0\0t
33762 +
\0\0\0compNames2RC
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt!
\0\0\0testMEDLoaderMultiLevelCellField1`
\ 4\0\0s¦
\0\0\0\0\ 1\ 6\ 16
\ 1\f\ 1\13\ 1\10\ 1\10\ 1\10\ 1\10\ 2\ 6\ 1\ f\ 1\f\ 1\f\ 1 \ 1\r\ 1\13\ 1\r\ 1\12\0\r\0\r\0\r\0
33763 +
\ 1\r\ 1\1f\ 1\f\ 1 \ 1\r\ 1\13\ 1\r\ 1\12\0\r\0\r\0\r\0
33764 +
\ 1\r\ 1"
\ 1\f\ 1 \ 1\r\ 1\13\ 1\r\ 1\12\0\r\0\r\0\r\0
33765 +
\ 1\r\ 1%
\ 2\10\ 2\ 6\ 1\f\ 1\f\ 1\f\ 1\1a\ 1\r\ 1\r\ 1\r\ 1\12\0\r\0\r\0\r\0
33766 +
\ 1\r\ 1\1f\ 1\f\ 1 \ 1\r\ 1\13\ 1\r\ 1\12\0\r\0\r\0\r\0
33767 +
\ 1\r\ 1"
\ 2\10\ 2\18\ 1%
\ 1v
\ 1\18\ 1"
\ 1F
\ 1c
\ 1\0\0\0\1e\0\0\0\ e\0\0\0C
\0\0\0sü
\a\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0\
\ e\0}
\ 2\0}
\ 3\0}
\ 4\0}
\ 5\0}
\ 6\0}
\a\0}
\b\0}
\0}
33768 +
\0}
\v\0}
\f\0}
\r\0}
\ e\0}
\ f\0t
\ 2\0j
\ 3\0\83\0\0}
\10\0|
\10\0j
\ 4\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\10\0j
\ 4\0d
\ 3\0|
\ 3\0\83\ 2\0\ 1|
\10\0j
\ 4\0d
\ 4\0|
\ 4\0\83\ 2\0\ 1t
\ 5\0j
\ 3\0\83\0\0}
\11\0t
\ 6\0j
\ 3\0t
\a\0t
\b\0\83\ 2\0}
\12\0|
\12\0j
\0d
\ 5\0\83\ 1\0\ 1t
33769 +
\0j
\ 3\0\83\0\0}
\13\0|
\13\0j
\v\0d
\ 6\0d
\a\0d
\b\0d
\0d
33770 +
\0d
\v\0g
\ 6\0d
\f\0d
\r\0\83\ 3\0\ 1|
\12\0j
\f\0|
\13\0\83\ 1\0\ 1t
\r\0j
\ 3\0\83\0\0}
\14\0|
\14\0j
\v\0d
\f\0d
\r\0g
\ 2\0d
\f\0d
\ e\0\83\ 3\0\ 1|
\14\0j
\0d
\ f\0\83\ 1\0\ 1|
\11\0j
\ e\0|
\12\0|
\10\0d
\ 4\0|
\14\0\83\ 4\0\ 1|
\11\0j
\ f\0t
\a\0d
\ 3\0|
\10\0\83\ 3\0}
\15\0|
\0\0j
\10\0t
\a\0|
\15\0j
\11\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ e\0|
\15\0j
\12\0\83\0\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ e\0|
\15\0j
\12\0\83\0\0j
\14\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\f\0|
\15\0j
\12\0\83\0\0j
\15\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ e\0d
\ 2\0d
\ e\0g
\ 3\0|
\15\0j
\12\0\83\0\0j
\16\0\83\0\0j
\17\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ 2\0d
\r\0g
\ 2\0|
\15\0j
\12\0\83\0\0j
\18\0\83\0\0j
\17\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\f\0|
\15\0j
\19\0\83\0\0j
\1a\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\r\0|
\15\0j
\19\0\83\0\0j
\e\0\83\0\0\83\ 2\0\ 1d
\ 6\0d
\a\0d
\b\0d
\0d
33771 +
\0d
\v\0g
\ 6\0}
\16\0d
\a\0d
\10\0d
\11\0g
\ 3\0}
\17\0d
\a\0d
\12\0d
\11\0g
\ 3\0}
\18\0xh
\0t
\1c\0d
\r\0\83\ 1\0D]Z
\0}
\19\0|
\0\0j
\1d\0|
\17\0|
\19\0\19|
\15\0j
\12\0\83\0\0j
\1e\0d
\ 2\0\83\ 1\0|
\19\0\19d
\13\0\83\ 3\0\ 1|
\0\0j
\1d\0|
\18\0|
\19\0\19|
\15\0j
\12\0\83\0\0j
\1e\0d
\ e\0\83\ 1\0|
\19\0\19d
\13\0\83\ 3\0\ 1qv
\ 2Wx=
\0t
\1c\0d
\14\0\83\ 1\0D]/
\0}
\19\0|
\0\0j
\1d\0|
\16\0|
\19\0\19|
\15\0j
\19\0\83\0\0j
\1f\0d
\ 2\0|
\19\0\83\ 2\0d
\13\0\83\ 3\0\ 1qá
\ 2W~
\15\0|
\11\0j
\ f\0t
\a\0d
\ e\0|
\10\0\83\ 3\0}
\1a\0|
\0\0j
\10\0t
\0|
\1a\0j
\11\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ 2\0|
\1a\0j
\12\0\83\0\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\f\0|
\1a\0j
\12\0\83\0\0j
\14\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\15\0|
\1a\0j
\12\0\83\0\0j
\15\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ 2\0d
\f\0d
\ 2\0d
\r\0g
\ 4\0|
\1a\0j
\12\0\83\0\0j
\16\0\83\0\0j
\17\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ 2\0d
\f\0d
\16\0g
\ 3\0|
\1a\0j
\12\0\83\0\0j
\18\0\83\0\0j
\17\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\f\0|
\1a\0j
\19\0\83\0\0j
\1a\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\r\0|
\1a\0j
\19\0\83\0\0j
\e\0\83\0\0\83\ 2\0\ 1x=
\0t
\1c\0d
\14\0\83\ 1\0D]/
\0}
\19\0|
\0\0j
\1d\0|
\16\0|
\19\0\19|
\1a\0j
\19\0\83\0\0j
\1f\0d
\ 2\0|
\19\0\83\ 2\0d
\13\0\83\ 3\0\ 1q4
\ 4W|
\10\0j!
\0|
\ 1\0d
\f\0\83\ 2\0\ 1|
\11\0j!
\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\r\0j
\ 3\0\83\0\0}
\14\0|
\14\0j
\v\0d
\r\0d
\f\0g
\ 2\0d
\f\0d
\ e\0\83\ 3\0\ 1|
\14\0j
\0d
\ f\0\83\ 1\0\ 1t
\ 5\0j
\ 3\0\83\0\0}
\11\0|
\11\0j
\ e\0|
\12\0|
\10\0d
\ 4\0|
\14\0\83\ 4\0\ 1|
\11\0j
\ f\0t
\a\0d
\ 3\0|
\10\0\83\ 3\0}
\e\0|
\0\0j
\10\0t
\a\0|
\e\0j
\11\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ e\0|
\e\0j
\12\0\83\0\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ e\0|
\e\0j
\12\0\83\0\0j
\14\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\f\0|
\e\0j
\12\0\83\0\0j
\15\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ e\0d
\ 2\0d
\ e\0g
\ 3\0|
\e\0j
\12\0\83\0\0j
\16\0\83\0\0j
\17\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ 2\0d
\r\0g
\ 2\0|
\e\0j
\12\0\83\0\0j
\18\0\83\0\0j
\17\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\f\0|
\e\0j
\19\0\83\0\0j
\1a\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\r\0|
\e\0j
\19\0\83\0\0j
\e\0\83\0\0\83\ 2\0\ 1d
\0d
33772 +
\0d
\v\0d
\ 6\0d
\a\0d
\b\0g
\ 6\0}
\1c\0xh
\0t
\1c\0d
\r\0\83\ 1\0D]Z
\0}
\19\0|
\0\0j
\1d\0|
\17\0|
\19\0\19|
\e\0j
\12\0\83\0\0j
\1e\0d
\ 2\0\83\ 1\0|
\19\0\19d
\13\0\83\ 3\0\ 1|
\0\0j
\1d\0|
\18\0|
\19\0\19|
\e\0j
\12\0\83\0\0j
\1e\0d
\ e\0\83\ 1\0|
\19\0\19d
\13\0\83\ 3\0\ 1q
33773 +
\ 6Wx=
\0t
\1c\0d
\14\0\83\ 1\0D]/
\0}
\19\0|
\0\0j
\1d\0|
\1c\0|
\19\0\19|
\e\0j
\19\0\83\0\0j
\1f\0d
\ 2\0|
\19\0\83\ 2\0d
\13\0\83\ 3\0\ 1qu
\ 6W|
\11\0j
\ f\0t
\a\0d
\ e\0|
\10\0\83\ 3\0}
\1d\0|
\0\0j
\10\0t
\0|
\1d\0j
\11\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ 2\0|
\1d\0j
\12\0\83\0\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\f\0|
\1d\0j
\12\0\83\0\0j
\14\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\15\0|
\1d\0j
\12\0\83\0\0j
\15\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ 2\0d
\r\0d
\ 2\0d
\f\0g
\ 4\0|
\1d\0j
\12\0\83\0\0j
\16\0\83\0\0j
\17\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ 2\0d
\f\0d
\16\0g
\ 3\0|
\1d\0j
\12\0\83\0\0j
\18\0\83\0\0j
\17\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\f\0|
\1d\0j
\19\0\83\0\0j
\1a\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\r\0|
\1d\0j
\19\0\83\0\0j
\e\0\83\0\0\83\ 2\0\ 1x=
\0t
\1c\0d
\14\0\83\ 1\0D]/
\0}
\19\0|
\0\0j
\1d\0|
\16\0|
\19\0\19|
\1d\0j
\19\0\83\0\0j
\1f\0d
\ 2\0|
\19\0\83\ 2\0d
\13\0\83\ 3\0\ 1qÅ
\aWd
\0\0S(
\17\0\0\0Ns
\f\0\0\0Pyfile43.medi
\0\0\0\0iÿÿÿÿiþÿÿÿt
\f\0\0\0NodeFieldPflg
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0$@g
\0\0\0\0\0\0Y@g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\04@g
\0\0\0\0\0\0i@i
\ 2\0\0\0i
\ 3\0\0\0i
\ 1\0\0\0t
\a\0\0\0PflNodeg
\0\0\0\0\0\0\ 4@g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\ e@i
\r\0\0\0i
\ 6\0\0\0i
\87\0\0\0i
\ 4\0\0\0("
\0\0\0R
\ 4\0\0\0R×
\0\0\0R>
\0\0\0R(
\0\0\0Rj
\0\0\0Rà
\0\0\0Rw
\ 1\0\0R
\1c\ 1\0\0RX
\ 1\0\0RB
\0\0\0RY
\0\0\0RZ
\0\0\0R{
\ 1\0\0Rk
\0\0\0R|
\ 1\0\0R
\97\ 1\0\0R+
\0\0\0t
\ e\0\0\0getTypeOfFieldR¹
\0\0\0t
\10\0\0\0getMeshDimensionR§
\0\0\0t
\10\0\0\0getNumberOfNodesRv
\0\0\0RH
\0\0\0Rw
\0\0\0R)
\ 1\0\0R¨
\0\0\0t
\15\0\0\0getNumberOfComponentsRn
\0\0\0R&
\ 1\0\0t
\14\0\0\0getCoordinatesOfNodet
\ 5\0\0\0getIJR
\13\ 1\0\0R
\v\0\0\0(
\1e\0\0\0R
\0\0\0R9
\ 1\0\0R
\85\0\0\0R
\84\0\0\0Rá
\0\0\0Râ
\0\0\0Rã
\0\0\0Rä
\0\0\0Rå
\0\0\0Ræ
\0\0\0Rç
\0\0\0Rè
\0\0\0Ré
\0\0\0Rê
\0\0\0Rë
\0\0\0Rì
\0\0\0R
\83\0\0\0R
\b\0\0\0Rñ
\0\0\0t
\ 3\0\0\0arrR
\83\ 1\0\0t
\ 4\0\0\0tes0R½
\0\0\0t
\14\0\0\0nodeCoordsWithValue1t
\14\0\0\0nodeCoordsWithValue2Rî
\0\0\0t
\ 4\0\0\0tes1t
\ 4\0\0\0tes2t
\0\0\0expected2t
\ 4\0\0\0tes3(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt#
\0\0\0testFieldOnPflRetrieveOnMdimRelMax1¦
\ 4\0\0sª
\0\0\0\0\ 1\ 6\ 16
\ 1\f\ 1\10\ 1\10\ 1\10\ 1\f\ 1\12\ 1\r\ 1\f\0%
\ 1\r\ 1\f\0\19\0\r\ 1\16\ 1\15\ 1\16\ 1\1c\ 1\1c\ 1\1c\ 1+
\ 1(
\ 1\1c\ 1\1c\ 1\18\ 1\ f\ 1\ f\ 1\13\ 1*
\ 1*
\ 1\ 4\ 1\13\ 1)
\ 1\ 4\ 1\ 3\ 2\15\ 1\16\ 1\1c\ 1\1c\ 1\1c\ 1.
\ 1+
\ 1\1c\ 1\1c\ 1\13\ 1)
\ 1\ 4\ 1\10\ 1\10\ 2\f\0\19\0\r\ 1\f\ 1\16\ 1\15\ 1\16\ 1\1c\ 1\1c\ 1\1c\ 1+
\ 1(
\ 1\1c\ 1\1c\ 1\18\ 1\13\ 1*
\ 1*
\ 1\ 4\ 1\13\ 1)
\ 1\ 4\ 2\15\ 1\16\ 1\1c\ 1\1c\ 1\1c\ 1.
\ 1+
\ 1\1c\ 1\1c\ 1\13\ 1)
\ 1\ 4\ 1c
\ 1\0\0\0\12\0\0\0\15\0\0\0C
\0\0\0s-
\ 6\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0t
\ 3\0j
\ 1\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0g
\ 6\0\83\ 1\0\83\ 2\0\ 1|
\ 2\0j
\ 2\0d
\0t
\ 3\0j
\ 1\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 5\0\83\ 1\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0\83\0\0}
\ 2\0|
\ 2\0j
\ 5\0d
33774 +
\0\83\ 1\0\ 1|
\ 2\0j
\ 6\0\83\0\0j
\a\0d
\v\0d
\f\0g
\ 2\0\83\ 1\0\ 1|
\ 2\0j
\b\0\83\0\0d
\ 2\0\19d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0g
\11\0\19}
\ 3\0|
\ 3\0j
\ 5\0|
\ 2\0j
\0\83\0\0\83\ 1\0\ 1t
33775 +
\0j
\ 1\0d
\1e\0d
\1f\0d
\r\0g
\ 3\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 5\0d
\0\83\ 1\0\ 1t
33776 +
\0j
\ 1\0d!
\0d"
\0g
\ 2\0\83\ 1\0}
\ 5\0|
\ 5\0j
\ 5\0d#
\0\83\ 1\0\ 1t
\v\0j
\ 1\0\83\0\0}
\ 6\0|
\ 6\0j
\f\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 6\0j
\f\0d$
\0|
\ 3\0\83\ 2\0\ 1|
\ 6\0j
\r\0d$
\0|
\ 4\0|
\ 5\0g
\ 2\0\83\ 2\0\ 1t
33777 +
\0j
\ 1\0d
\1e\0d
\11\0d
\13\0g
\ 3\0\83\ 1\0}
\a\0|
\a\0j
\ 5\0d%
\0\83\ 1\0\ 1|
\ 6\0j
\r\0d
\0|
\a\0g
\ 1\0\83\ 2\0\ 1d
\1e\0d&
\0d
\ f\0d
\10\0d
\11\0d
\1e\0d"
\0d&
\0d
\11\0d
\12\0d
\1e\0d'
\0d"
\0d
\12\0d
\13\0g
\ f\0}
\b\0d
\1e\0d!
\0d
\r\0d
\ f\0d&
\0d
\1e\0d(
\0d!
\0d&
\0d"
\0d
\1e\0d
\ e\0d(
\0d"
\0d'
\0g
\ f\0}
\0d
\1e\0d!
\0d
\r\0d
\ f\0d)
\0d
\1e\0d(
\0d!
\0d)
\0d
\17\0d
\1e\0d
\ e\0d(
\0d
\17\0d
\18\0g
\ f\0}
33778 +
\0|
\0\0j
\ e\0d)
\0|
\ 6\0j
\ f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\b\0|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0d*
\0d+
\0d
\ f\0g
\ 3\0\19j
\11\0\83\0\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\0|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0d,
\0d
\r\0d!
\0g
\ 3\0\19j
\11\0\83\0\0j
\12\0\83\0\0\83\ 2\0\ 1|
\ 6\0j
\13\0d
\0\83\ 1\0\
\ 3\0}
\v\0}
\f\0}
\r\0|
\0\0j
\ e\0d&
\0d"
\0d'
\0g
\ 3\0|
\v\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d,
\0d
\r\0d!
\0g
\ 3\0|
\f\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d*
\0d+
\0d
\ f\0g
\ 3\0|
\r\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d
\19\0|
\ 6\0j
\ f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d
\1e\0d
\1f\0d
\r\0g
\ 3\0|
\ 6\0j
\14\0d$
\0d
\0\83\ 2\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d!
\0d"
\0g
\ 2\0|
\ 6\0j
\14\0d$
\0d#
\0\83\ 2\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d
\1e\0d
\11\0d
\13\0g
\ 3\0|
\ 6\0j
\14\0d
\0d%
\0\83\ 2\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d'
\0d-
\0d.
\0g
\ 3\0|
\ 6\0j
\14\0d$
\0d/
\0\83\ 2\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\b\0|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0d*
\0d+
\0d
\ f\0g
\ 3\0\19j
\11\0\83\0\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
33779 +
\0|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0d,
\0d
\r\0d!
\0g
\ 3\0\19j
\11\0\83\0\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\15\0t
\16\0|
\ 6\0j
\17\0d$
\0d/
\0\83\ 2\0j
\18\0|
\ 6\0j
\17\0d$
\0d
\0\83\ 2\0d0
\0d1
\0\83\ 5\0\ 1|
\ 6\0j
\17\0d$
\0d/
\0\83\ 2\0j
\18\0|
\ 6\0j
\17\0d$
\0d
\0\83\ 2\0d*
\0d1
\0\83\ 3\0\ 1t
\ 3\0j
\ 1\0d2
\0d3
\0d4
\0d5
\0d6
\0d3
\0d7
\0d8
\0d9
\0d:
\0d4
\0d8
\0d;
\0d<
\0d=
\0d5
\0d9
\0d<
\0d>
\0d?
\0g
\14\0\83\ 1\0}
\ e\0|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0j
\19\0t
\1a\0\83\ 1\0j
\e\0\83\0\0}
\ f\0|
\ f\0|
\ e\0\18}
\10\0|
\10\0j
\1c\0\83\0\0\ 1|
\0\0j
\1d\0|
\10\0j
\1e\0\83\0\0d
\ 2\0\19d1
\0k
\0\0\83\ 1\0\ 1|
\ 6\0j
\ 6\0\83\0\0t
\1f\0|
\v\0\83\ 1\0\vc
\ 2\0\1fd
\ 3\0d@
\0g
\ 2\07
\ 3)|
\0\0j
\15\0t
\16\0|
\ 6\0j
\17\0d$
\0d/
\0\83\ 2\0j
\18\0|
\ 6\0j
\17\0d$
\0d
\0\83\ 2\0d*
\0d1
\0\83\ 5\0\ 1|
\ e\0\1e}
\11\0dA
\0dB
\0dC
\0g
\ 3\0|
\11\0d,
\0d(
\0+|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0j
\19\0t
\1a\0\83\ 1\0j
\e\0\83\0\0}
\ f\0|
\ f\0|
\11\0\18}
\10\0|
\10\0j
\1c\0\83\0\0\ 1|
\0\0j
\1d\0|
\10\0j
\1e\0\83\0\0d
\ 2\0\19d1
\0k
\0\0\83\ 1\0\ 1|
\ 6\0j
\0|
\ 1\0d0
\0\83\ 2\0\ 1d
\0\0S(D
\0\0\0Ns
\f\0\0\0Pyfile44.medi
\0\0\0\0g
\0\0\0\0\0\0\0\0g
\9a\99\99\99\99\99ñ?gffffff
\ 2@gÍÌÌÌÌÌ
\f@g
\0\0\0\0\0\0\14@g
\0\0\0\0\0\0\1a@i
\ 1\0\0\0t
\10\0\0\0AnthonyDuplicates
\ 6\0\0\0X [km]s
\ 6\0\0\0Z [mm]i
\b\0\0\0i
\v\0\0\0i
\ e\0\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\19\0\0\0i
\1a\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i#
\0\0\0i$
\0\0\0i%
\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0t
\ 3\0\0\0Grpi
\0\0\0i
\10\0\0\0t
\ 4\0\0\0Grp2iÿÿÿÿt
\a\0\0\0GrpNodei
\ f\0\0\0i
\11\0\0\0i
33780 +
\0\0\0i
\1e\0\0\0i
\f\0\0\0i
\r\0\0\0i
\a\0\0\0i
\12\0\0\0i
\13\0\0\0t
\a\0\0\0Grp_dupi
\ 2\0\0\0g
\11ê-
\81\99\97q=g\
\8fÂõ(\ó?g
\1f\85ëQ¸
\1eõ?gáz
\14®Gáö?g¤p=
33783 +÷?gö(\
\8fÂõø?gáz
\14®Gáú?gÍÌÌÌÌÌü?g
33785 +û?g
\1f\85ëQ¸
\1eý?g333333ÿ?g\
\8fÂõ(\ÿ?gÍÌÌÌÌÌ
\0@g333333Ó¿g×£p=
33786 +×õ?g)\
\8fÂõ(ô?g
\9a\99\99\99\99\99õ?(!
\0\0\0R±
\0\0\0R(
\0\0\0R²
\0\0\0RY
\0\0\0t
\11\0\0\0buildUnstructuredRB
\0\0\0RØ
\0\0\0RÃ
\ 1\0\0R
\9b\ 1\0\0RC
\0\0\0Rk
\0\0\0R>
\0\0\0Rj
\0\0\0Rl
\0\0\0R+
\0\0\0RÐ
\ 1\0\0R}
\0\0\0Rv
\0\0\0RH
\0\0\0t
\1e\0\0\0buildInnerBoundaryAlongM1GroupRG
\0\0\0R)
\0\0\0R*
\0\0\0R?
\0\0\0t
\13\0\0\0checkGeoEquivalWithRV
\ 1\0\0R.
\0\0\0R)
\ 1\0\0t
\ 3\0\0\0absR0
\0\0\0t
\v\0\0\0getMaxValueRy
\0\0\0R
\v\0\0\0(
\12\0\0\0R
\0\0\0R9
\ 1\0\0R
\83\0\0\0R
\85\0\0\0t
\ 3\0\0\0grpt
\ 4\0\0\0grp2R
\86\0\0\0t
\a\0\0\0grpNodet
\ 4\0\0\0ref0t
\ 4\0\0\0ref1t
\ 4\0\0\0ref2t
\ 5\0\0\0nodest
\ 5\0\0\0cellst
\ 6\0\0\0cells2t
\0\0\0refValuest
33787 +
\0\0\0valsToTestt
\ 5\0\0\0deltat
33788 +
\0\0\0refValues2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt#
\0\0\0testBuildInnerBoundaryAlongM1Group1û
\ 4\0\0sl
\0\0\0\0\ 1\ 6\ 1\f\ 1+
\ 1(
\ 1\f\0\r\ 1\19\ 1G
\ 1\13\ 1\18\0\r\ 1\15\0\r\ 1\f\ 1\10\ 1\10\ 1\16\ 1\18\0\r\ 1\13\ 13
\ 13
\ 13
\ 2\16\ 12
\ 12
\ 2\18\ 1\1f\ 1\1f\ 1\1f\ 1\16\ 1+
\ 1(
\ 1+
\ 1+
\ 12
\ 12
\ 14
\ 1+
\ 1K
\ 1\1e\0
33790 +
\ 1\1d\ 2#
\ 14
\ 1\a\0\16\ 1\1e\0
33792 +
\ 1\1d\ 1\10\ 1c
\ 1\0\0\0\12\0\0\0\15\0\0\0C
\0\0\0sñ
\ 5\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0t
\ 3\0j
\ 1\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0g
\ 6\0\83\ 1\0\83\ 2\0\ 1|
\ 2\0j
\ 2\0d
\0t
\ 3\0j
\ 1\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 5\0\83\ 1\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0\83\0\0}
\ 2\0|
\ 2\0j
\ 5\0d
33793 +
\0\83\ 1\0\ 1|
\ 2\0j
\ 6\0\83\0\0j
\a\0d
\v\0d
\f\0g
\ 2\0\83\ 1\0\ 1|
\ 2\0j
\b\0\83\0\0d
\ 2\0\19d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0g
\11\0\19}
\ 3\0|
\ 3\0j
\ 5\0|
\ 2\0j
\0\83\0\0\83\ 1\0\ 1t
33794 +
\0j
\ 1\0d
\1e\0d
\1f\0g
\ 2\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 5\0d
\0\83\ 1\0\ 1t
33795 +
\0j
\ 1\0d!
\0d"
\0g
\ 2\0\83\ 1\0}
\ 5\0|
\ 5\0j
\ 5\0d#
\0\83\ 1\0\ 1t
\v\0j
\ 1\0\83\0\0}
\ 6\0|
\ 6\0j
\f\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 6\0j
\f\0d$
\0|
\ 3\0\83\ 2\0\ 1|
\ 6\0j
\r\0d$
\0|
\ 4\0|
\ 5\0g
\ 2\0\83\ 2\0\ 1t
33796 +
\0j
\ 1\0d
\1e\0d
\11\0d
\13\0g
\ 3\0\83\ 1\0}
\a\0|
\a\0j
\ 5\0d%
\0\83\ 1\0\ 1|
\ 6\0j
\r\0d
\0|
\a\0g
\ 1\0\83\ 2\0\ 1d
\1e\0d&
\0d
\ f\0d
\10\0d
\11\0d
\1e\0d"
\0d&
\0d
\11\0d
\12\0d
\1e\0d'
\0d"
\0d
\12\0d
\13\0g
\ f\0}
\b\0d
\1e\0d!
\0d
\r\0d
\ f\0d&
\0d
\1e\0d(
\0d!
\0d&
\0d"
\0g
33797 +
\0}
\0d
\1e\0d!
\0d
\r\0d
\ f\0d)
\0d
\1e\0d(
\0d!
\0d)
\0d"
\0g
33799 +
\0|
\0\0j
\ e\0d)
\0|
\ 6\0j
\ f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\b\0|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0d*
\0d+
\0d
\ f\0g
\ 3\0\19j
\11\0\83\0\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\0|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0d,
\0d
\r\0g
\ 2\0\19j
\11\0\83\0\0j
\12\0\83\0\0\83\ 2\0\ 1|
\ 6\0j
\13\0d
\0\83\ 1\0\
\ 3\0}
\v\0}
\f\0}
\r\0|
\0\0j
\ e\0d&
\0g
\ 1\0|
\v\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d,
\0d
\r\0g
\ 2\0|
\f\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d*
\0d+
\0g
\ 2\0|
\r\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d
\17\0|
\ 6\0j
\ f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d
\1e\0d
\1f\0g
\ 2\0|
\ 6\0j
\14\0d$
\0d
\0\83\ 2\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d!
\0d"
\0g
\ 2\0|
\ 6\0j
\14\0d$
\0d#
\0\83\ 2\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d
\1e\0d
\11\0d
\13\0g
\ 3\0|
\ 6\0j
\14\0d
\0d%
\0\83\ 2\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d'
\0d-
\0g
\ 2\0|
\ 6\0j
\14\0d$
\0d.
\0\83\ 2\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\b\0|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0d*
\0d+
\0d
\ f\0g
\ 3\0\19j
\11\0\83\0\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
33800 +
\0|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0d,
\0d
\r\0g
\ 2\0\19j
\11\0\83\0\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\15\0t
\16\0|
\ 6\0j
\17\0d$
\0d.
\0\83\ 2\0j
\18\0|
\ 6\0j
\17\0d$
\0d
\0\83\ 2\0d/
\0d0
\0\83\ 5\0\ 1|
\ 6\0j
\17\0d$
\0d.
\0\83\ 2\0j
\18\0|
\ 6\0j
\17\0d$
\0d
\0\83\ 2\0d*
\0d0
\0\83\ 3\0\ 1t
\ 3\0j
\ 1\0d1
\0d2
\0d3
\0d4
\0d5
\0d2
\0d6
\0d7
\0d8
\0d9
\0d3
\0d7
\0d:
\0d;
\0d<
\0d4
\0d8
\0d;
\0d=
\0d>
\0g
\14\0\83\ 1\0}
\ e\0|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0j
\19\0t
\1a\0\83\ 1\0j
\e\0\83\0\0}
\ f\0|
\ f\0|
\ e\0\18}
\10\0|
\10\0j
\1c\0\83\0\0\ 1|
\0\0j
\1d\0|
\10\0j
\1e\0\83\0\0d
\ 2\0\19d0
\0k
\0\0\83\ 1\0\ 1|
\ 6\0j
\ 6\0\83\0\0t
\1f\0|
\v\0\83\ 1\0\vc
\ 2\0\1fd
\ 3\0d?
\0g
\ 2\07
\ 3)|
\0\0j
\15\0t
\16\0|
\ 6\0j
\17\0d$
\0d.
\0\83\ 2\0j
\18\0|
\ 6\0j
\17\0d$
\0d
\0\83\ 2\0d*
\0d0
\0\83\ 5\0\ 1|
\ e\0\1e}
\11\0d@
\0dA
\0g
\ 2\0|
\11\0d,
\0d!
\0+|
\ 6\0j
\10\0d
\ 2\0\83\ 1\0j
\19\0t
\1a\0\83\ 1\0j
\e\0\83\0\0}
\ f\0|
\ f\0|
\11\0\18}
\10\0|
\10\0j
\1c\0\83\0\0\ 1|
\0\0j
\1d\0|
\10\0j
\1e\0\83\0\0d
\ 2\0\19d0
\0k
\0\0\83\ 1\0\ 1|
\ 6\0j
\0|
\ 1\0d/
\0\83\ 2\0\ 1d
\0\0S(B
\0\0\0Ns
\f\0\0\0Pyfile45.medi
\0\0\0\0g
\0\0\0\0\0\0\0\0g
\9a\99\99\99\99\99ñ?gffffff
\ 2@gÍÌÌÌÌÌ
\f@g
\0\0\0\0\0\0\14@g
\0\0\0\0\0\0\1a@i
\ 1\0\0\0RÝ
\ 1\0\0s
\ 6\0\0\0X [km]s
\ 6\0\0\0Z [mm]i
\b\0\0\0i
\v\0\0\0i
\ e\0\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\19\0\0\0i
\1a\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i#
\0\0\0i$
\0\0\0i%
\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0RÞ
\ 1\0\0i
\0\0\0i
\10\0\0\0Rß
\ 1\0\0iÿÿÿÿRà
\ 1\0\0i
\ f\0\0\0i
\11\0\0\0i
33801 +
\0\0\0i
\1e\0\0\0i
\f\0\0\0i
\r\0\0\0i
\a\0\0\0i
\12\0\0\0Rá
\ 1\0\0i
\ 2\0\0\0g
\11ê-
\81\99\97q=g\
\8fÂõ(\ó?g
\1f\85ëQ¸
\1eõ?gáz
\14®Gáö?g¤p=
33804 +÷?gö(\
\8fÂõø?gáz
\14®Gáú?gÍÌÌÌÌÌü?g
33806 +û?g
\1f\85ëQ¸
\1eý?g333333ÿ?g\
\8fÂõ(\ÿ?gÍÌÌÌÌÌ
\0@g333333Ó¿g×£p=
33807 +×õ?g
\85ëQ¸
\1e\85÷?(!
\0\0\0R±
\0\0\0R(
\0\0\0R²
\0\0\0RY
\0\0\0Râ
\ 1\0\0RB
\0\0\0RØ
\0\0\0RÃ
\ 1\0\0R
\9b\ 1\0\0RC
\0\0\0Rk
\0\0\0R>
\0\0\0Rj
\0\0\0Rl
\0\0\0R+
\0\0\0RÐ
\ 1\0\0R}
\0\0\0Rv
\0\0\0RH
\0\0\0Rã
\ 1\0\0RG
\0\0\0R)
\0\0\0R*
\0\0\0R?
\0\0\0Rä
\ 1\0\0RV
\ 1\0\0R.
\0\0\0R)
\ 1\0\0Rå
\ 1\0\0R0
\0\0\0Ræ
\ 1\0\0Ry
\0\0\0R
\v\0\0\0(
\12\0\0\0R
\0\0\0R9
\ 1\0\0R
\83\0\0\0R
\85\0\0\0Rç
\ 1\0\0Rè
\ 1\0\0R
\86\0\0\0Ré
\ 1\0\0Rê
\ 1\0\0Rë
\ 1\0\0Rì
\ 1\0\0Rí
\ 1\0\0Rî
\ 1\0\0Rï
\ 1\0\0Rð
\ 1\0\0Rñ
\ 1\0\0Rò
\ 1\0\0Ró
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt#
\0\0\0testBuildInnerBoundaryAlongM1Group2-
\ 5\0\0sl
\0\0\0\0\ 1\ 6\ 1\f\ 1+
\ 1(
\ 1\f\0\r\ 1\19\ 1G
\ 1\13\ 1\15\0\r\ 1\15\0\r\ 1\f\ 1\10\ 1\10\ 1\16\ 1\18\0\r\ 1\13\ 13
\ 1$
\ 1$
\ 2\16\ 12
\ 1/
\ 2\18\ 1\19\ 1\1c\ 1\1c\ 1\16\ 1(
\ 1(
\ 1+
\ 1(
\ 12
\ 1/
\ 14
\ 1+
\ 1K
\ 1\1e\0
33809 +
\ 1\1d\ 2#
\ 14
\ 1\a\0\13\ 1\1e\0
33811 +
\ 1\1d\ 1\10\ 1c
\ 1\0\0\0\ f\0\0\0
33812 +
\0\0\0C
\0\0\0s
\ f\ 4\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0t
\ 3\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 5\0\83\ 1\0\83\ 2\0\ 1|
\ 2\0j
\ 2\0d
\b\0t
\ 3\0d
\ 3\0d
\0d
33813 +
\0g
\ 3\0\83\ 1\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0\83\0\0}
\ 2\0|
\ 2\0j
\ 5\0d
\v\0\83\ 1\0\ 1|
\ 2\0j
\ 6\0\83\0\0d
\ 2\0\19}
\ 3\0|
\ 3\0j
\ 5\0|
\ 2\0j
\a\0\83\0\0\83\ 1\0\ 1t
\b\0d
\f\0d
\r\0g
\ 2\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 5\0d
\ e\0\83\ 1\0\ 1t
\0j
\ 1\0\83\0\0}
\ 5\0|
\ 5\0j
33814 +
\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 5\0j
33815 +
\0d
\ f\0|
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\v\0d
\ f\0|
\ 4\0g
\ 1\0\83\ 2\0\ 1|
\ 5\0j
\f\0d
\ e\0\83\ 1\0\
\ 3\0}
\ 6\0}
\a\0}
\b\0|
\0\0j
\r\0d
\b\0d
\10\0g
\ 2\0|
\ 6\0j
\ e\0\83\0\0\83\ 2\0\ 1|
\0\0j
\r\0d
\ 2\0d
\11\0g
\ 2\0|
\a\0j
\ e\0\83\0\0\83\ 2\0\ 1|
\0\0j
\r\0d
\b\0d
\12\0g
\ 2\0|
\b\0j
\ e\0\83\0\0\83\ 2\0\ 1|
\0\0j
\r\0d
\13\0|
\ 5\0j
\ f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\r\0d
\f\0d
\r\0g
\ 2\0|
\ 5\0j
\10\0d
\ f\0d
\ e\0\83\ 2\0j
\ e\0\83\0\0\83\ 2\0\ 1|
\0\0j
\r\0d
\14\0d
\15\0g
\ 2\0|
\ 5\0j
\10\0d
\ f\0d
\16\0\83\ 2\0j
\ e\0\83\0\0\83\ 2\0\ 1d
\17\0d
\18\0d
\ 2\0d
\19\0d
\11\0d
\17\0d
\1a\0d
\12\0d
\e\0d
\1c\0g
33816 +
\0}
\0d
\17\0d
\1d\0d
\b\0d
\11\0d
\12\0d
\17\0d
\1e\0d
\1a\0d
\10\0d
\1f\0g
33818 +
\0|
\0\0j
\r\0|
\0|
\ 5\0j
\11\0d
\ 2\0\83\ 1\0d
\ 2\0d
\11\0g
\ 2\0\19j
\12\0\83\0\0j
\ e\0\83\0\0\83\ 2\0\ 1|
\0\0j
\r\0|
33819 +
\0|
\ 5\0j
\11\0d
\ 2\0\83\ 1\0d
\b\0d
\12\0g
\ 2\0\19j
\12\0\83\0\0j
\ e\0\83\0\0\83\ 2\0\ 1|
\0\0j
\13\0t
\14\0|
\ 5\0j
\15\0d
\ f\0d
\16\0\83\ 2\0j
\16\0|
\ 5\0j
\15\0d
\ f\0d
\ e\0\83\ 2\0d
\1d\0d
\0\83\ 5\0\ 1|
\ 5\0j
\15\0d
\ f\0d
\16\0\83\ 2\0j
\16\0|
\ 5\0j
\15\0d
\ f\0d
\ e\0\83\ 2\0d
\e\0d
\0\83\ 3\0\ 1t
\ 3\0d
\ 4\0d!
\0d"
\0d#
\0d
\ 4\0d!
\0d"
\0d#
\0g
\b\0\83\ 1\0}
\v\0|
\ 5\0j
\11\0d
\ 2\0\83\ 1\0j
\17\0t
\18\0\83\ 1\0j
\19\0\83\0\0}
\f\0|
\f\0|
\v\0\18}
\r\0|
\r\0j
\1a\0\83\0\0\ 1|
\0\0j
\e\0|
\r\0j
\1c\0\83\0\0d
\ 2\0\19d$
\0k
\0\0\83\ 1\0\ 1|
\ 5\0j
\1d\0\83\0\0t
\1e\0|
\ 6\0\83\ 1\0\vc
\ 2\0\1fd
\ 3\0d%
\0g
\ 2\07
\ 3)|
\0\0j
\13\0t
\14\0|
\ 5\0j
\15\0d
\ f\0d
\16\0\83\ 2\0j
\16\0|
\ 5\0j
\15\0d
\ f\0d
\ e\0\83\ 2\0d
\e\0d
\0\83\ 5\0\ 1|
\v\0\1e}
\ e\0d&
\0|
\ e\0d
\ 2\0<d'
\0|
\ e\0d
\11\0<|
\ 5\0j
\11\0d
\ 2\0\83\ 1\0j
\17\0t
\18\0\83\ 1\0j
\19\0\83\0\0}
\f\0|
\f\0|
\ e\0\18}
\r\0|
\r\0j
\1a\0\83\0\0\ 1|
\0\0j
\e\0|
\r\0j
\1c\0\83\0\0d
\ 2\0\19d
\0k
\0\0\83\ 1\0\ 1|
\ 5\0j
\1f\0|
\ 1\0d
\1d\0\83\ 2\0\ 1d(
\0S()
\0\0\0s@
\0\0\0 Test buildInnerBoundaryAlongM1Group() with *non-connex* cracks s
\f\0\0\0Pyfile73.medi
\0\0\0\0g
\0\0\0\0\0\0\0\0g
\9a\99\99\99\99\99ñ?gffffff
\ 2@gÍÌÌÌÌÌ
\f@g
\0\0\0\0\0\0\14@i
\ 1\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@t
\ 6\0\0\0simplei
\ 3\0\0\0i
\13\0\0\0RÞ
\ 1\0\0iÿÿÿÿi
\r\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\11\0\0\0i
\16\0\0\0i
\17\0\0\0Rá
\ 1\0\0i
\ 4\0\0\0i
\ f\0\0\0i
\ 5\0\0\0i
\b\0\0\0i
\f\0\0\0i
\10\0\0\0i
\ 2\0\0\0i
\0\0\0i
\ e\0\0\0g
\11ê-
\81\99\97q=g333333ó?gÍÌÌÌÌÌô?gffffffö?g»½×Ùß|Û=g333333Ó¿g=
33820 +×£p=ô?g®Gáz
\14®ñ?N(
\0\0\0R±
\0\0\0R(
\0\0\0R²
\0\0\0RY
\0\0\0Râ
\ 1\0\0RB
\0\0\0R
\9b\ 1\0\0RC
\0\0\0Rk
\0\0\0R>
\0\0\0Rj
\0\0\0Rl
\0\0\0Rã
\ 1\0\0R+
\0\0\0RH
\0\0\0RÐ
\ 1\0\0RG
\0\0\0R}
\0\0\0Rv
\0\0\0R)
\0\0\0R*
\0\0\0R?
\0\0\0Rä
\ 1\0\0RV
\ 1\0\0R.
\0\0\0R)
\ 1\0\0Rå
\ 1\0\0R0
\0\0\0Ræ
\ 1\0\0RØ
\0\0\0Ry
\0\0\0R
\v\0\0\0(
\ f\0\0\0R
\0\0\0R9
\ 1\0\0R
\83\0\0\0R
\85\0\0\0t
\ 6\0\0\0grpSegR
\86\0\0\0Rí
\ 1\0\0t
\b\0\0\0cellsModt
\v\0\0\0cellsNotModRê
\ 1\0\0Rë
\ 1\0\0Rð
\ 1\0\0Rñ
\ 1\0\0Rò
\ 1\0\0Ró
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt#
\0\0\0testBuildInnerBoundaryAlongM1Group3_
\ 5\0\0sT
\0\0\0\0\ 2\ 6\ 1\f\ 1%
\ 1\1f\ 1\f\0\r\ 1\10\ 1\13\ 3\12\0\r\ 2\f\ 1\10\ 1\10\ 1\13\ 1\18\ 1\1c\ 1\1c\ 1\1c\ 1\16\ 1(
\ 1(
\ 1$
\ 1$
\ 1/
\ 1/
\ 14
\ 1+
\ 2$
\ 1\1e\0
33822 +
\ 1\1d\ 2#
\ 14
\ 1\a\0
33826 +
\ 1\1d\ 1c
\ 1\0\0\0\14\0\0\00
\0\0\0C
\0\0\0s
\1e\ 5\0\0t
\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 4\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0g
\18\0d
\ 5\0d
\ 6\0\83\ 3\0}
\ 1\0d
\a\0d
\b\0d
\0d
33828 +
\0d
\0d
\v\0d
\a\0d
\v\0d
\f\0d
\r\0d
\a\0d
\v\0d
\r\0d
\ e\0d
\a\0d
\ 6\0d
\ e\0d
\ f\0d
\a\0d
\ 6\0d
\ f\0d
\a\0d
\a\0d
\0d
\10\0d
\f\0d
\a\0d
\0d
\f\0d
\v\0d
\a\0d
33829 +
\0d
\v\0d
\ e\0d
\a\0d
33830 +
\0d
\ e\0d
\ 6\0d
\a\0d
\ e\0d
\r\0d
\11\0d
\a\0d
\ e\0d
\11\0d
\ f\0g0
\0}
\ 2\0t
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0d
\12\0d
33831 +
\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0\83\0\0\ 1|
\ 3\0d
\09}
\ 3\0t
\ 4\0d
\13\0d
\ 6\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 5\0|
\ 1\0\83\ 1\0\ 1|
\ 4\0j
\ 6\0t
\ 1\0|
\ 2\0\83\ 1\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\a\0\83\0\0\ 1|
\ 4\0j
\b\0\83\0\0\
\ 5\0}
\ 5\0}
\ 6\0}
\ 6\0}
\ 6\0}
\ 6\0t
\ 1\0d
\f\0d
\11\0g
\ 2\0\83\ 1\0}
\a\0|
\a\0j
\0d
\14\0\83\ 1\0\ 1t
\ 1\0d
\b\0d
33832 +
\0g
\ 2\0\83\ 1\0}
\b\0|
\b\0j
\0d
\15\0\83\ 1\0\ 1t
33833 +
\0\83\0\0}
\0|
\0j
\v\0d
\b\0|
\ 4\0\83\ 2\0\ 1|
\0j
\v\0d
\16\0|
\ 5\0\83\ 2\0\ 1|
\0j
\f\0d
\16\0|
\a\0|
\b\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\r\0\83\0\0}
33834 +
\0|
\0j
\ e\0d
\14\0\83\ 1\0\
\ 3\0}
\v\0}
\f\0}
\r\0|
\0j
\ f\0d
\b\0\83\ 1\0}
\ e\0|
\ e\0j
\a\0\83\0\0\ 1|
\0j
\ f\0d
\16\0\83\ 1\0}
\ f\0|
\ f\0j
\a\0\83\0\0\ 1|
\0\0j
\10\0|
33835 +
\0d
\ 6\0\17|
\0j
\r\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0|
33836 +
\0d
\ 6\0\17|
\ e\0j
\r\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0|
33837 +
\0d
\ 6\0\17|
\ f\0j
\r\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ e\0d
\ f\0g
\ 2\0|
\v\0j
\11\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 2\0g
\ 4\0|
\ e\0j
\12\0\83\0\0|
33838 +
\0\1fj
\11\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0t
\13\0d
\a\0d
\r\0d
\11\0g
\ 3\0\83\ 1\0t
\13\0|
\f\0j
\11\0\83\0\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\10\0t
\13\0d
\10\0d
\f\0d
\0d
\v\0g
\ 4\0\83\ 1\0t
\13\0|
\r\0j
\11\0\83\0\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\10\0d
\f\0d
\11\0g
\ 2\0|
\0j
\14\0d
\16\0d
\14\0\83\ 2\0j
\11\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\17\0d
\18\0g
\ 2\0|
\0j
\14\0d
\16\0d
\19\0\83\ 2\0j
\11\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\b\0d
33839 +
\0g
\ 2\0|
\0j
\14\0d
\16\0d
\15\0\83\ 2\0j
\11\0\83\0\0\83\ 2\0\ 1d
\a\0d
\v\0d
\r\0d
\ 5\0d
\a\0d
\ 5\0d
\r\0d
\11\0d
\a\0d
\ 5\0d
\11\0d
\12\0g
\f\0}
\10\0d
\a\0d
\ 6\0d
\ e\0d
\ f\0d
\a\0d
\ 6\0d
\ f\0d
\a\0d
\a\0d
33840 +
\0d
\v\0d
\ e\0d
\a\0d
33841 +
\0d
\ e\0d
\ 6\0g
\10\0}
\11\0|
\0\0j
\10\0|
\10\0|
\0j
\ f\0d
\b\0\83\ 1\0d
\a\0d
\r\0d
\11\0g
\ 3\0\19j
\15\0\83\0\0j
\11\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0|
\11\0|
\0j
\ f\0d
\b\0\83\ 1\0d
\0d
\v\0d
\10\0d
\f\0g
\ 4\0\19j
\15\0\83\0\0j
\11\0\83\0\0\83\ 2\0\ 1|
\0\0j
\16\0t
\17\0|
\0j
\18\0d
\16\0d
\19\0\83\ 2\0j
\19\0|
\0j
\18\0d
\16\0d
\14\0\83\ 2\0d
\ 6\0d
\1a\0\83\ 5\0\ 1|
\0j
\18\0d
\16\0d
\19\0\83\ 2\0j
\19\0|
\0j
\18\0d
\16\0d
\14\0\83\ 2\0d
\ 5\0d
\1a\0\83\ 3\0\ 1|
\0j
\ f\0d
\16\0\83\ 1\0}
\12\0|
\12\0j
\b\0\83\0\0\
\ 5\0}
\13\0}
\ 6\0}
\ 6\0}
\ 6\0}
\ 6\0|
\12\0j
\1a\0|
\0j
\ f\0d
\16\0\83\ 1\0d
\ 6\0d
\e\0\83\ 3\0\ 1d
\1c\0S(
\1d\0\0\0sr
\0\0\0 Test case where cells touch the M1 group on some nodes only and not on full edges (triangle mesh for ex)
33842 + g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@i
\f\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\0\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0i
\ 5\0\0\0i
\0\0\0i
33843 +
\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\v\0\0\0i
\r\0\0\0t
\ 2\0\0\02Dt
\ 5\0\0\0groupt
\ 6\0\0\0group2iÿÿÿÿi
\17\0\0\0i
\18\0\0\0t
\0\0\0group_dupg
\11ê-
\81\99\97q=g
\ 1¥üÿÿ#@N(
\e\0\0\0RY
\0\0\0Rk
\0\0\0Rx
\ 1\0\0Ry
\ 1\0\0R[
\0\0\0Rc
\0\0\0t
\ f\0\0\0setConnectivityt
\10\0\0\0checkConsistencyR
\9b\ 1\0\0RB
\0\0\0R>
\0\0\0Rj
\0\0\0Rl
\0\0\0RÐ
\ 1\0\0Rã
\ 1\0\0R}
\0\0\0R+
\0\0\0RH
\0\0\0RØ
\0\0\0t
\ 3\0\0\0setRG
\0\0\0Rv
\0\0\0R)
\0\0\0R*
\0\0\0R?
\0\0\0Rä
\ 1\0\0t
\1f\0\0\0checkDeepEquivalOnSameNodesWith(
\14\0\0\0R
\0\0\0t
\ 3\0\0\0coot
\ 4\0\0\0connt
\ 5\0\0\0connIR
\85\0\0\0R
\84\0\0\0t
\ 1\0\0\0_t
\ 6\0\0\0grpIdst
\a\0\0\0grpIds2t
\ 3\0\0\0mfut
\ 4\0\0\0nNodt
\b\0\0\0nodesDupt
\ 6\0\0\0cells1Rï
\ 1\0\0t
\ 6\0\0\0m2_bist
\ 6\0\0\0m1_bisRê
\ 1\0\0Rë
\ 1\0\0t
\ 6\0\0\0m_bis0t
\ 6\0\0\0m_desc(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt#
\0\0\0testBuildInnerBoundaryAlongM1Group4
\89\ 5\0\0sf
\0\0\0\0\ 3\e\ 1\18\ 1'
\ 1\18\ 1\18\ 1\18\ 1\18\ 1\18\ 1\1e\ 2 \ 1\10\0
33845 +
\ 1\ f\ 1\r\ 1\16\ 1
33846 +
\ 1\e\ 1\12\0\r\ 1\12\0\r\ 1 \ 1\10\ 1\10\ 1\16\ 1\f\ 1\18\ 1\ f\ 1
33848 +
\ 1\1a\ 1\1a\ 1\1a\ 1\1c\ 1,
\ 1+
\ 1.
\ 1(
\ 1(
\ 1(
\ 2*
\ 16
\ 12
\ 15
\ 14
\ 1+
\ 1\ f\ 1\e\ 1c
\ 1\0\0\0\12\0\0\0®
\ 1\0\0C
\0\0\0s«
33849 +
\0\0t
\0\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 4\0d
\ 1\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 6\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 4\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 1\0d
\ 6\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 5\0d
\ 1\0d
\ 2\0d
\ 6\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 4\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 1\0d
\a\0d
\ 2\0d
\ 1\0d
\b\0d
\ 1\0d
\ 2\0d
\a\0d
\ 2\0d
\ 2\0d
\b\0d
\0d
\ 1\0d
\ 1\0d
\ 3\0d
33850 +
\0d
\ 1\0d
\v\0d
\ 2\0d
\ 1\0d
\v\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 2\0d
\v\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 1\0d
\f\0d
\ 3\0d
\ 2\0d
\r\0d
\ e\0d
\ f\0d
\ 1\0d
\10\0d
\11\0d
\ 2\0d
\12\0d
\ 1\0d
\13\0d
\14\0d
\ 2\0d
\15\0d
\ 1\0d
\16\0d
\17\0d
\ 2\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\ 2\0d
\1c\0d
\ 2\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0g
\8a\0d$
\0d%
\0\83\ 3\0}
\ 1\0d&
\0d'
\0d(
\0d)
\0d*
\0d&
\0d+
\0d,
\0d-
\0d.
\0d&
\0d/
\0d0
\0d1
\0d.
\0d&
\0d2
\0d3
\0d4
\0d5
\0d&
\0d,
\0d0
\0d.
\0d1
\0d&
\0d)
\0d-
\0d6
\0d.
\0d&
\0d,
\0d3
\0d1
\0d7
\0d&
\0d+
\0d,
\0d.
\0d1
\0d&
\0d8
\0d9
\0d/
\0d1
\0d&
\0d)
\0d'
\0d:
\0d;
\0d&
\0d/
\0d+
\0d.
\0d1
\0d&
\0d&
\0d<
\0d6
\0d.
\0d&
\0d3
\0d,
\0d1
\0d5
\0d&
\0d9
\0d=
\0d>
\0d?
\0d&
\0d,
\0d0
\0d1
\0d5
\0d&
\0d.
\0d&
\0d<
\0d0
\0d&
\0d.
\0d@
\0d/
\0d:
\0d&
\0d)
\0d:
\0d@
\0d.
\0d&
\0d,
\0d.
\0d&
\0d6
\0d&
\0d/
\0d+
\0d1
\0d?
\0d&
\0d)
\0dA
\0d'
\0d*
\0d&
\0d9
\0d?
\0d/
\0d1
\0d&
\0d@
\0d:
\0d)
\0d%
\0d&
\0d9
\0d=
\0d?
\0d1
\0d&
\0d/
\0d0
\0d.
\0dB
\0d&
\0d)
\0d:
\0d.
\0d;
\0d&
\0d/
\0d+
\0d?
\0d@
\0d&
\0d+
\0d,
\0d1
\0d7
\0d&
\0d3
\0d4
\0d5
\0d1
\0d&
\0dC
\0d:
\0dD
\0d'
\0d&
\0d,
\0d0
\0d5
\0d&
\0d&
\0d4
\0d0
\0d5
\0d1
\0d&
\0d-
\0d.
\0d)
\0d+
\0d&
\0d8
\0d0
\0d4
\0d1
\0d&
\0d/
\0d0
\0dB
\0d8
\0d&
\0d.
\0d-
\0d6
\0d,
\0d&
\0d9
\0d8
\0d4
\0d1
\0d&
\0d:
\0d<
\0dB
\0d.
\0d&
\0d7
\0d=
\0d1
\0d+
\0d&
\0d;
\0d'
\0d:
\0d<
\0d&
\0d+
\0d,
\0d7
\0d-
\0d&
\0dB
\0d<
\0d:
\0dE
\0d&
\0d/
\0d0
\0d8
\0d1
\0d&
\0d6
\0d)
\0d.
\0d;
\0d&
\0d8
\0dF
\0d9
\0d4
\0d&
\0d?
\0d=
\0d+
\0d1
\0d&
\0d)
\0d(
\0d'
\0d6
\0d&
\0d.
\0d;
\0d<
\0d6
\0d&
\0d6
\0d'
\0d<
\0dG
\0d&
\0d.
\0d;
\0d:
\0d<
\0d&
\0d6
\0d-
\0d)
\0dH
\0d&
\0d,
\0d0
\0d&
\0d.
\0d&
\0d/
\0d+
\0d@
\0d.
\0d&
\0d'
\0d(
\0d*
\0dI
\0d&
\0d3
\0d=
\0d7
\0dJ
\0d&
\0d0
\0d.
\0dB
\0d<
\0d&
\0d3
\0d7
\0d=
\0d1
\0d&
\0d6
\0d<
\0d&
\0dK
\0d&
\0d'
\0d6
\0dL
\0dG
\0d&
\0dM
\0d'
\0dC
\0dD
\0d&
\0dB
\0d.
\0d/
\0d:
\0d&
\0d.
\0d@
\0d)
\0d+
\0d&
\0dC
\0d'
\0dN
\0d<
\0d&
\0d'
\0dM
\0dA
\0dD
\0d&
\0dC
\0d<
\0d:
\0d'
\0d&
\0d(
\0d)
\0dH
\0d6
\0d&
\0dA
\0dM
\0dI
\0dO
\0d&
\0dN
\0d'
\0dL
\0dG
\0d&
\0dI
\0d'
\0dL
\0dN
\0d&
\0d'
\0d(
\0dI
\0dL
\0d&
\0dA
\0d:
\0d'
\0dD
\0d&
\0d'
\0d(
\0dL
\0d6
\0d&
\0dA
\0d:
\0d)
\0d'
\0d&
\0dP
\0dC
\0dM
\0dN
\0d&
\0dA
\0dM
\0d'
\0dI
\0d&
\0dA
\0d'
\0d*
\0dI
\0d&
\0dI
\0dQ
\0dL
\0d(
\0d&
\0d)
\0d:
\0dA
\0d%
\0d&
\0dM
\0d'
\0dI
\0dN
\0d&
\0dN
\0dL
\0dR
\0dG
\0d&
\0d<
\0d'
\0d6
\0d;
\0d&
\0dN
\0d'
\0dG
\0d<
\0d&
\0d)
\0d6
\0d'
\0d;
\0d&
\0d6
\0d<
\0dK
\0dG
\0d&
\0dM
\0d'
\0dN
\0dC
\0d&
\0d:
\0d<
\0dC
\0dE
\0g®
\ 1}
\ 2\0dH
\0d2
\0dO
\0d<
\0d-
\0d3
\0dC
\0dM
\0d;
\0d'
\0dS
\0dT
\0dU
\0dV
\0dW
\0dX
\0dY
\0dZ
\0d[
\0d\
\0d]
\0d^
\0d_
\0d`
\0da
\0db
\0dc
\0dd
\0de
\0df
\0dg
\0dh
\0di
\0dj
\0dk
\0dl
\0dm
\0dn
\0do
\0dp
\0dq
\0dr
\0ds
\0dt
\0du
\0dv
\0dw
\0dx
\0dy
\0dz
\0d{
\0d|
\0d}
\0d~
\0d
\7f\0d
\80\0d
\81\0d
\82\0d
\83\0d
\84\0d
\85\0d
\86\0d
\87\0d
\88\0d
\89\0d
\8a\0d
\8b\0d
\8c\0d
\8d\0d
\8e\0d
\8f\0d
\90\0d
\91\0d
\92\0d
\93\0d
\94\0d
\95\0d
\96\0d
\97\0d
\98\0d
\99\0d
\9a\0d
\9b\0d
\9c\0d
\9d\0d
\9e\0d
\9f\0gW
\0}
\ 3\0t
\ 1\0d
\0d%
\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 2\0|
\ 1\0\83\ 1\0\ 1|
\ 4\0j
\ 3\0t
\ 4\0|
\ 2\0\83\ 1\0t
\ 4\0|
\ 3\0\83\ 1\0\83\ 2\0\ 1|
\ 4\0j
\ 5\0\83\0\0\ 1|
\ 4\0j
\ 6\0\83\0\0\
\ 5\0}
\ 5\0}
\ 6\0}
\ 6\0}
\ 6\0}
\ 6\0t
\ 4\0d0
\0d¡
\0g
\ 2\0\83\ 1\0}
\a\0|
\a\0j
\a\0d¢
\0\83\ 1\0\ 1t
\b\0\83\0\0}
\b\0|
\b\0j
\0dH
\0|
\ 4\0\83\ 2\0\ 1|
\b\0j
\0d£
\0|
\ 5\0\83\ 2\0\ 1t
\ 4\0dH
\0dK
\0g
\ 2\0\83\ 1\0}
\0|
\0j
\a\0d¤
\0\83\ 1\0\ 1|
\b\0j
33851 +
\0dH
\0|
\0g
\ 1\0\83\ 2\0\ 1|
\b\0j
33852 +
\0d£
\0|
\a\0g
\ 1\0\83\ 2\0\ 1|
\ 4\0j
\v\0\83\0\0}
33853 +
\0|
\b\0j
\f\0d¢
\0\83\ 1\0\
\ 3\0}
\v\0}
\f\0}
\r\0|
\b\0j
\r\0dH
\0\83\ 1\0}
\ e\0|
\ e\0j
\ 5\0\83\0\0\ 1|
\b\0j
\r\0d£
\0\83\ 1\0}
\ f\0|
\ f\0j
\ 5\0\83\0\0\ 1|
\0\0j
\ e\0|
33854 +
\0dK
\0\17|
\b\0j
\v\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
33855 +
\0dK
\0\17|
\ e\0j
\v\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
33856 +
\0dK
\0\17|
\ f\0j
\v\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d%
\0g
\ 1\0|
\v\0j
\ f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\ e\0j
\10\0\83\0\0d%
\0\19j
\ f\0\83\0\0|
\ e\0j
\10\0\83\0\0|
33857 +
\0\1fj
\ f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0t
\11\0d?
\0g
\ 1\0\83\ 1\0t
\11\0|
\f\0j
\ f\0\83\0\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\ e\0t
\11\0d¥
\0g
\ 1\0\83\ 1\0t
\11\0|
\r\0j
\ f\0\83\0\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\ e\0d0
\0d¡
\0g
\ 2\0|
\b\0j
\12\0d£
\0d¢
\0\83\ 2\0j
\ f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0dH
\0dK
\0g
\ 2\0|
\b\0j
\12\0dH
\0d¤
\0\83\ 2\0j
\ f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ e\0d¦
\0g
\ 1\0|
\b\0j
\12\0d£
\0d§
\0\83\ 2\0j
\ f\0\83\0\0\83\ 2\0\ 1|
\b\0j
\r\0d£
\0\83\ 1\0}
\10\0|
\10\0j
\ 6\0\83\0\0\
\ 5\0}
\11\0}
\ 6\0}
\ 6\0}
\ 6\0}
\ 6\0|
\10\0j
\13\0|
\b\0j
\r\0d£
\0\83\ 1\0dE
\0d¨
\0\83\ 3\0\ 1d©
\0S(ª
\0\0\0sÑ
\0\0\0 Full 3D test with tetras only. In this case a tri from the group is not duplicated because it is made only
33858 + of non duplicated nodes. The tri in question is hence not part of the final new "dup" group. g
\0\0\0\0\0\0i@g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0y@g
\v\0\0\0\0\0Y@g§õ
\1aÒu
\93O@gåQA@wÎ`@gü ìü\
\ 1Y@g
\88cjµ
\99\0Y@g
\1dá Üä´r@gRÀË
\97\95«X@g¢xÏ Gîr@g#<©úG£X@g
\ f\16ÛDb
\ 1Y@g¢µî]=ÔX@g
\80ÿóÿÿÿX@gö
\82â^=ÔX@g+Im
\0\0\0Y@gîÇ5^=ÔX@gèlÖ*S
\0Y@gîô5^=ÔX@gMnÖ*S
\0Y@gü
33859 +ÓÿÿÿX@g
\19Ù"Â
\9b\0Y@gÞÚ
\93ÿÿÿX@g
\1a·Ï
\99D
\0Y@gðÝ[o¦Ôr@gÂ
\ 3
33860 +
\0\0\0Y@g
\fÌlo¦Ôr@g¯ü¾ë
\9c\0Y@g
\v\÷Éé
\90a@g
\19)}þÿÿX@g¶
\80³jS
\0Y@g
\7fD}n
\v\9er@glL[e¸JX@g¬8Þ$
\88KX@i.
\0\0\0i
\ 3\0\0\0i
\ e\0\0\0i-
\0\0\0i
\1f\0\0\0i
\15\0\0\0i*
\0\0\0i%
\0\0\0i&
\0\0\0i
\14\0\0\0i,
\0\0\0i'
\0\0\0i$
\0\0\0i)
\0\0\0i
\ 5\0\0\0i
\19\0\0\0i
\f\0\0\0i
\r\0\0\0i
\18\0\0\0i
\13\0\0\0i
\10\0\0\0i
\e\0\0\0i
\1a\0\0\0i(
\0\0\0i
\ f\0\0\0i
\12\0\0\0i
\ 6\0\0\0i
\16\0\0\0i
\17\0\0\0i!
\0\0\0i
\11\0\0\0i
\1e\0\0\0i+
\0\0\0i
\ 2\0\0\0i
\a\0\0\0i
\1c\0\0\0i
\0\0\0\0i
\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0i"
\0\0\0i#
\0\0\0i
\1d\0\0\0i
33861 +
\0\0\0i
\v\0\0\0i
\b\0\0\0i
\0\0\0i2
\0\0\0i7
\0\0\0i<
\0\0\0iA
\0\0\0iF
\0\0\0iK
\0\0\0iP
\0\0\0iU
\0\0\0iZ
\0\0\0i_
\0\0\0id
\0\0\0ii
\0\0\0in
\0\0\0is
\0\0\0ix
\0\0\0i}
\0\0\0i
\82\0\0\0i
\87\0\0\0i
\8c\0\0\0i
\91\0\0\0i
\96\0\0\0i
\9b\0\0\0i
\0\0\0i¥
\0\0\0iª
\0\0\0i¯
\0\0\0i´
\0\0\0i¹
\0\0\0i¾
\0\0\0iÃ
\0\0\0iÈ
\0\0\0iÍ
\0\0\0iÒ
\0\0\0i×
\0\0\0iÜ
\0\0\0iá
\0\0\0iæ
\0\0\0ië
\0\0\0ið
\0\0\0iõ
\0\0\0iú
\0\0\0iÿ
\0\0\0i
\ 4\ 1\0\0i
\ 1\0\0i
\ e\ 1\0\0i
\13\ 1\0\0i
\18\ 1\0\0i
\1d\ 1\0\0i"
\ 1\0\0i'
\ 1\0\0i,
\ 1\0\0i1
\ 1\0\0i6
\ 1\0\0i;
\ 1\0\0i@
\ 1\0\0iE
\ 1\0\0iJ
\ 1\0\0iO
\ 1\0\0iT
\ 1\0\0iY
\ 1\0\0i^
\ 1\0\0ic
\ 1\0\0ih
\ 1\0\0im
\ 1\0\0ir
\ 1\0\0iw
\ 1\0\0i|
\ 1\0\0i
\81\ 1\0\0i
\86\ 1\0\0i
\8b\ 1\0\0i
\90\ 1\0\0i
\95\ 1\0\0i
\9a\ 1\0\0i
\9f\ 1\0\0i¤
\ 1\0\0i©
\ 1\0\0i®
\ 1\0\0t
\ 2\0\0\03DiJ
\0\0\0Rü
\ 1\0\0iÿÿÿÿt
\b\0\0\0group_3diM
\0\0\0iÕ
\0\0\0Rþ
\ 1\0\0g
\ 1¥üÿÿ#@N(
\14\0\0\0RY
\0\0\0R[
\0\0\0Rc
\0\0\0Rÿ
\ 1\0\0Rk
\0\0\0R
\0\ 2\0\0R
\9b\ 1\0\0RB
\0\0\0R>
\0\0\0Rj
\0\0\0Rl
\0\0\0RÐ
\ 1\0\0Rã
\ 1\0\0R}
\0\0\0R+
\0\0\0RH
\0\0\0RØ
\0\0\0R
\ 1\ 2\0\0RG
\0\0\0R
\ 2\ 2\0\0(
\12\0\0\0R
\0\0\0R
\ 3\ 2\0\0t
\ 2\0\0\0c0t
\ 3\0\0\0cI0t
\ 2\0\0\0m3R
\85\0\0\0R
\ 6\ 2\0\0R
\a\ 2\0\0R
\ 2\0\0t
\b\0\0\0grpIds3DR
33862 +
\ 2\0\0R
\v\ 2\0\0R
\f\ 2\0\0Rï
\ 1\0\0t
\ 6\0\0\0m3_bisR
\r\ 2\0\0R
\ f\ 2\0\0R
\10\ 2\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\17\0\0\0testBuildInnerBoundary5¾
\ 5\0\0st
\0\0\0\0\ 3H
\ 1<
\ 1-
\ 13
\ 1*
\ 10
\ 1$
\ 1\1e\ 1\e\ 1\15\ 1\81\ 1\81\ 1\84\ 1\81\ 1\81\ 1\81\ 1\81\ 1~
\ 1~
\ 1~
\ 1\f\ 1r
\ 1f
\ 13
\ 1\ f\ 1\r\ 1\1c\ 1
33863 +
\ 1\e\ 1\12\0\r\ 1 \ 1\10\ 1\10\ 1\12\0\r\ 1\13\ 1\13\ 1\f\ 1\18\ 1\ f\ 1
33865 +
\ 1\1a\ 1\1a\ 1\1a\ 1\19\ 10
\ 1%
\ 1%
\ 1(
\ 1(
\ 1%
\ 1\ f\ 1\e\ 1\1c\ 1c
\ 1\0\0\0\ 3\0\0\0\a\0\0\0C
\0\0\0s
\ 3\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0|
\ 1\0\83\ 1\0}
\ 2\0t
\0\0j
\ 1\0|
\ 1\0d
\ 2\0d
\ 3\0d
\ 3\0\83\ 4\0}
\ 2\0t
\0\0j
\ 1\0|
\ 1\0\83\ 1\0}
\ 2\0t
\ 2\0|
\ 1\0d
\ 2\0d
\ 3\0d
\ 3\0\83\ 4\0}
\ 2\0t
\ 2\0|
\ 1\0\83\ 1\0}
\ 2\0t
\ 2\0\83\0\0}
\ 2\0|
\0\0j
\ 3\0\83\0\0\ 1t
\ 4\0d
\ 4\0\83\ 1\0}
\ 2\0t
\ 4\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 3\0\83\ 4\0}
\ 2\0t
\ 4\0\83\0\0}
\ 2\0t
\ 5\0\83\0\0}
\ 2\0t
\ 5\0|
\ 1\0\83\ 1\0}
\ 2\0t
\ 5\0|
\ 1\0d
\ 2\0\83\ 2\0}
\ 2\0t
\ 6\0\83\0\0}
\ 2\0t
\ 6\0|
\ 1\0\83\ 1\0}
\ 2\0t
\a\0\83\0\0}
\ 2\0t
\a\0|
\ 1\0d
\ 6\0d
\a\0d
\b\0\83\ 4\0}
\ 2\0t
\b\0\83\0\0}
\ 2\0t
\b\0|
\ 1\0d
\ 6\0\83\ 2\0}
\ 2\0t
\0\83\0\0}
\ 2\0t
\0|
\ 1\0\83\ 1\0}
\ 2\0t
33867 +
\0|
\ 1\0\83\ 1\0}
\ 2\0t
\v\0\83\0\0}
\ 2\0t
\v\0d
\0d
\a\0\83\ 2\0}
\ 2\0t
\v\0d
33868 +
\0d
\0d
\v\0d
\f\0d
\a\0d
\r\0g
\ 6\0d
\f\0d
\a\0\83\ 3\0}
\ 2\0t
\f\0\83\0\0}
\ 2\0t
\f\0d
\0d
\a\0\83\ 2\0}
\ 2\0t
\f\0d
33869 +
\0d
\0d
\v\0d
\f\0d
\a\0d
\r\0g
\ 6\0d
\f\0d
\a\0\83\ 3\0}
\ 2\0t
\r\0d
\ e\0d
\a\0\83\ 2\0}
\ 2\0t
\r\0\83\0\0}
\ 2\0t
\ e\0\83\0\0}
\ 2\0t
\ f\0t
\10\0t
\11\0\83\ 2\0}
\ 2\0t
\12\0t
\13\0\83\ 1\0}
\ 2\0t
\14\0g
\0\0\83\ 1\0}
\ 2\0t
\15\0g
\0\0\83\ 1\0}
\ 2\0d
\0\0S(
\ f\0\0\0Ns
\f\0\0\0Pyfile18.medR%
\0\0\0iÿÿÿÿs
\10\0\0\0MEDFileMesh5.medR«
\0\0\0t
\13\0\0\0FieldOnFacesShufflei
\ 2\0\0\0i
\a\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\ 4\0\0\0i
\ 3\0\0\0i
\ 1\0\0\0t
\ 3\0\0\0jjj(
\16\0\0\0R'
\0\0\0R(
\0\0\0R>
\0\0\0R¿
\0\0\0R¯
\0\0\0RM
\ 1\0\0RP
\ 1\0\0Rà
\0\0\0Rô
\0\0\0R[
\ 1\0\0RK
\ 1\0\0Rk
\0\0\0RY
\0\0\0R[
\0\0\0R±
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0RX
\ 1\0\0t
\18\0\0\0MEDCouplingFieldTemplateR
\1c\ 1\0\0t
\16\0\0\0MEDCouplingMultiFieldst
\18\0\0\0MEDCouplingFieldOverTime(
\ 3\0\0\0R
\0\0\0R9
\ 1\0\0R
\83\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\15\0\0\0testBasicConstructorsú
\ 5\0\0sL
\0\0\0\0\ 1\ 6\ 1\ f\ 1\18\ 1\ f\ 1\15\ 1\f\ 1 \ 1
33870 +
\ 1\f\ 1\15\ 1 \ 1 \ 1\f\ 1\ f\ 1 \ 1\f\ 1 \ 1\15\ 1 \ 1\ f\ 1 \ 1\f\ 1 \ 1\f\ 2 \0\ f\0$
\ 1 \0\ f\0$
\ 1\ f\0 \ 1 \ 1\ f\ 1\f\ 1\f\ 1\f\ 1c
\ 1\0\0\0\v\0\0\0\b\0\0\0C
\0\0\0sÆ
\ 1\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0d
\ 2\0 }
\ 2\0|
\ 2\0j
\ 2\0d
\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ 3\0t
\ 4\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 5\0t
\ 6\0t
\ 4\0\83\ 2\0}
\ 3\0|
\ 3\0j
\a\0d
\ 4\0d
\ 5\0d
\ 6\0\83\ 3\0\ 1|
\ 3\0j
\ 2\0d
\a\0\83\ 1\0\ 1|
\ 3\0d
\b\0 }
\ 4\0|
\ 4\0j
\b\0\83\0\0j
\ 2\0|
\ 2\0j
\0\83\0\0\83\ 1\0\ 1|
\ 3\0d
\b\0\1f}
\ 5\0|
\ 5\0j
\b\0\83\0\0j
\ 2\0|
\ 2\0j
\0\83\0\0\83\ 1\0\ 1t
33871 +
\0j
\v\0\83\0\0}
\ 6\0|
\ 6\0j
\f\0d
\0|
\ 2\0\83\ 2\0\ 1t
\r\0j
\v\0\83\0\0}
\a\0|
\a\0j
\ e\0|
\ 4\0|
\ 6\0d
\0t
\ f\0j
\10\0d
\0d
\b\0d
33872 +
\0\83\ 3\0\83\ 4\0\ 1|
\ 6\0j
\11\0|
\ 1\0d
\v\0\83\ 2\0\ 1|
\a\0j
\11\0|
\ 1\0d
\0\83\ 2\0\ 1t
\r\0j
\v\0|
\ 1\0|
\ 3\0j
\0\83\0\0|
\ 3\0j
\12\0\83\0\0d
33873 +
\0\19|
\ 3\0j
\12\0\83\0\0d
\v\0\19\83\ 4\0}
\b\0|
\b\0j
\13\0t
\14\0d
\0|
\ 6\0\83\ 3\0}
\0|
\b\0j
\15\0t
\14\0d
\0\83\ 2\0}
33874 +
\0|
\0j
\16\0\83\0\0\ 1|
33875 +
\0j
\16\0\83\0\0\ 1|
\0\0j
\17\0|
\0j
\18\0|
\ 4\0d
\f\0d
\f\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\17\0|
33876 +
\0j
\18\0|
\ 4\0d
\f\0d
\f\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\r\0\0\0Ns
\f\0\0\0Pyfile46.medi
33877 +
\0\0\0t
\ 4\0\0\0meshg
\0\0\0\0\0\0\16@i
\ 3\0\0\0i
\ 4\0\0\0t
\10\0\0\0SemiPartialFieldi
\ 6\0\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0g
\11ê-
\81\99\97q=(
\19\0\0\0R
\ 4\0\0\0Rv
\ 1\0\0RB
\0\0\0RV
\ 1\0\0RN
\0\0\0RW
\ 1\0\0RX
\ 1\0\0R°
\0\0\0R¹
\0\0\0RC
\0\0\0R>
\0\0\0R(
\0\0\0Rj
\0\0\0Rà
\0\0\0R|
\ 1\0\0Rk
\0\0\0t
\ 5\0\0\0RangeR
\v\0\0\0Rº
\0\0\0R
\97\ 1\0\0R
\13\ 1\0\0R
\ 6\ 1\0\0Rd
\0\0\0R0
\0\0\0R1
\0\0\0(
\v\0\0\0R
\0\0\0R9
\ 1\0\0R
\83\0\0\0R
\b\0\0\0Rã
\0\0\0Râ
\0\0\0R
\86\0\0\0Rñ
\0\0\0RC
\ 1\0\0t
\ 5\0\0\0freadt
\ 6\0\0\0fread2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\17\0\0\0testBugSemiPartialField
\1f\ 6\0\0s4
\0\0\0\0\ 1\ 6\ 1\f\ 1
33878 +
\0\r\ 1\ f\ 1\12\ 1\13\ 1\r\ 2
33880 +
\0\19\ 2\f\ 1\10\ 1\f\ 1%
\ 1\10\ 1\10\ 22
\ 1\15\ 1\12\ 2
33882 +
\ 1\1c\ 1\1c\ 1c
\ 1\0\0\0\ 4\0\0\0&
\0\0\0C
\0\0\0sý
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0|
\0\0\83\ 1\0}
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 2\0d
\ 4\0d
\ 3\0d
\ 3\0d
\ 2\0d
\ 5\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0g&
\0}
\ 3\0|
\0\0j
\ 2\0|
\ 3\0|
\ 2\0j
\ 3\0d
\ 6\0\83\ 1\0j
\ 4\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 2\0|
\ 2\0j
\ 5\0\83\0\0d
\a\0 t
\ 6\0d
\a\0d
\b\0d
\0g
\ 3\0d
33883 +
\0d
\a\0d
\b\0g
\ 3\0d
\v\0d
33884 +
\0d
\v\0g
\ 3\0d
\ 3\0d
\b\0d
\f\0g
\ 3\0d
\r\0d
\a\0d
\ e\0g
\ 3\0d
\ f\0d
\b\0d
\ 3\0g
\ 3\0g
\ 6\0d
\a\0d
\a\0d
\0g
\ 3\0d
33885 +
\0d
\a\0d
\a\0g
\ 3\0d
\v\0d
\a\0d
\10\0g
\ 3\0d
\ 3\0d
\a\0d
\f\0g
\ 3\0d
\r\0d
\a\0d
\ 4\0g
\ 3\0d
\11\0d
\ 6\0d
\ 5\0g
\ 3\0g
\ 6\0f
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\a\0|
\ 1\0d
\b\0\83\ 2\0\ 1|
\0\0j
\ 2\0|
\ 2\0j
\b\0d
\0d
\12\0\83\ 2\0j
\ 4\0\83\0\0d
\0d
\ 6\0d
\b\0d
\10\0g
\ 4\0\83\ 2\0\ 1|
\0\0j
\ 2\0|
\ 2\0j
\b\0d
\0d
\13\0\83\ 2\0j
\ 4\0\83\0\0d
\ 6\0d
\a\0d
33886 +
\0d
\v\0d
\10\0g
\ 5\0\83\ 2\0\ 1|
\0\0j
\ 2\0|
\ 2\0j
\b\0d
\14\0d
\15\0\83\ 2\0j
\ 4\0\83\0\0d
\ 6\0d
\b\0d
\a\0d
33887 +
\0d
\v\0g
\ 5\0\83\ 2\0\ 1|
\0\0j
\ 2\0|
\ 2\0j
\b\0d
\14\0d
\16\0\83\ 2\0j
\ 4\0\83\0\0d
\a\0d
33888 +
\0d
\v\0d
\10\0g
\ 4\0\83\ 2\0\ 1|
\0\0j
\ 2\0|
\ 2\0j
\b\0d
\14\0d
\17\0\83\ 2\0j
\ 4\0\83\0\0d
\b\0d
\10\0d
\18\0d
\19\0g
\ 4\0\83\ 2\0\ 1|
\0\0j
\ 2\0|
\ 2\0j
\b\0d
\ 6\0d
\1a\0\83\ 2\0j
\ 4\0\83\0\0d
\0d
\ e\0d
\ 5\0d
\r\0g
\ 4\0\83\ 2\0\ 1|
\0\0j
\ 2\0|
\ 2\0j
\b\0d
\ 6\0d
\e\0\83\ 2\0j
\ 4\0\83\0\0d
\ 6\0d
\b\0d
\ 2\0d
\ 3\0d
\r\0g
\ 5\0\83\ 2\0\ 1|
\0\0j
\ 2\0|
\ 2\0j
\ 3\0d
\ 6\0\83\ 1\0j
\ 4\0\83\0\0|
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\0d
\0d
\0\0\83\ 2\0\ 1|
\ 2\0j
\v\0d
\14\0d
\0\0\83\ 2\0\ 1d
\0\0S(
\1c\0\0\0Ns
\f\0\0\0Pyfile47.medi
\r\0\0\0i
\ e\0\0\0i
\f\0\0\0i
\ f\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\0\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\0\0\0i
\10\0\0\0i
\v\0\0\0i
\1f\0\0\0i
\ 6\0\0\0i
\12\0\0\0t
\a\0\0\0grp0_L0t
\a\0\0\0grp1_L0iÿÿÿÿt
\b\0\0\0grp0_LM1t
\b\0\0\0grp1_LM1t
\b\0\0\0grp2_LM1i
\a\0\0\0i
\b\0\0\0t
\0\0\0grp0_Nodet
\0\0\0grp1_Node(
\f\0\0\0R
\ 4\0\0\0t
\13\0\0\0buildMLMeshUnPolyzeR+
\0\0\0R
\9e\0\0\0RH
\0\0\0t
\b\0\0\0unPolyzeR.
\0\0\0R
\v\0\0\0RG
\0\0\0R
\98\0\0\0t
\ 4\0\0\0NoneR¶
\0\0\0(
\ 4\0\0\0R
\0\0\0R9
\ 1\0\0R
\86\0\0\0t
\ 3\0\0\0ref(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testUnPolyze1<
\ 6\0\0s"
\0\0\0\0\ 1\ 6\ 1\ f\ 1x
\ 1\1f\ 1³
\ 1\10\ 1.
\ 11
\ 11
\ 1.
\ 1.
\ 1.
\ 11
\ 1\1f\ 2\10\ 1\10\ 1c
\ 1\0\0\0\13\0\0\0-
\0\0\0C
\0\0\0sÈ
\b\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0t
\ 2\0j
\ 3\0|
\0\0\83\ 1\0}
\ 3\0t
\ 4\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0|
\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ 6\0|
\ 4\0\83\ 1\0\ 1t
\a\0j
\ 1\0\83\0\0}
\ 5\0|
\ 2\0j
\b\0|
\ 5\0\83\ 1\0\ 1t
\0j
\ 1\0\83\0\0}
\ 6\0|
\ 5\0j
33889 +
\0|
\ 6\0\83\ 1\0\ 1t
\v\0j
\ 1\0t
\f\0t
\r\0\83\ 2\0}
\a\0|
\a\0j
\ e\0d
\ 2\0\83\ 1\0\ 1|
\a\0j
\ f\0d
\ 3\0d
\ 4\0d
\ 5\0\83\ 3\0\ 1t
\10\0j
\ 1\0dT
\0\83\ 1\0}
\b\0|
\b\0j
\11\0d
\b\0\83\ 1\0\ 1|
\b\0j
\12\0d
\a\0\83\ 1\0\ 1|
\b\0j
\13\0d
\0d
33890 +
\0g
\ 2\0\83\ 1\0\ 1|
\a\0j
\14\0|
\b\0\83\ 1\0\ 1|
\a\0j
\15\0|
\ 3\0j
\16\0d
\v\0\83\ 1\0\83\ 1\0\ 1|
\ 6\0j
\17\0|
\a\0\83\ 1\0\ 1|
\ 6\0j
\18\0d
\v\0\83\ 1\0}
\0t
\v\0j
\ 1\0t
\19\0t
\r\0\83\ 2\0}
33892 +
\0j
\ e\0d
\ 2\0\83\ 1\0\ 1|
33893 +
\0j
\ f\0d
\ 3\0d
\ 4\0d
\ 5\0\83\ 3\0\ 1t
\1a\0j
\ 1\0d
\f\0d
\ 5\0d
\r\0d
\ e\0g
\ 4\0\83\ 1\0}
\v\0|
\v\0j
\ e\0d
\ f\0\83\ 1\0\ 1|
33894 +
\0j
\15\0|
\ 3\0j
\16\0d
\v\0\83\ 1\0|
\v\0\19\83\ 1\0\ 1t
\10\0j
\ 1\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0g
\b\0d
\ 5\0d
\a\0\83\ 3\0}
\b\0|
\b\0j
\13\0d
\0d
33895 +
\0g
\ 2\0\83\ 1\0\ 1|
33896 +
\0j
\14\0|
\b\0\83\ 1\0\ 1|
\0j
\e\0|
33897 +
\0|
\ 3\0d
\v\0|
\v\0\83\ 4\0\ 1t
\v\0j
\ 1\0t
\19\0t
\r\0\83\ 2\0}
\f\0|
\f\0j
\ e\0d
\ 2\0\83\ 1\0\ 1|
\f\0j
\ f\0d
\ 3\0d
\ 4\0d
\ 5\0\83\ 3\0\ 1t
\1a\0j
\ 1\0d
\v\0d
\f\0d
\a\0d
\ 4\0d
\ 5\0d
\r\0d
\ e\0d
\18\0g
\b\0\83\ 1\0}
\r\0|
\r\0j
\ e\0d
\19\0\83\ 1\0\ 1t
\10\0j
\ 1\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0d$
\0d%
\0d&
\0d'
\0d(
\0d)
\0g
\10\0d
\18\0d
\a\0\83\ 3\0}
\b\0|
\b\0j
\13\0d
\0d
33898 +
\0g
\ 2\0\83\ 1\0\ 1|
\f\0j
\15\0|
\ 3\0j
\16\0d*
\0\83\ 1\0|
\r\0\19\83\ 1\0\ 1|
\f\0j
\14\0|
\b\0\83\ 1\0\ 1|
\0j
\e\0|
\f\0|
\ 3\0d*
\0|
\r\0\83\ 4\0\ 1|
\ 2\0j
\1c\0\83\0\0j
\1d\0|
\0\83\ 1\0\ 1|
\ 2\0j
\1e\0\83\0\0\ 1|
\ 2\0j
\1c\0\83\0\0d
\v\0\19}
\ e\0|
\0\0j
\1f\0|
\ e\0j
\0\83\0\0d
\f\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\ e\0j!
\0\83\0\0dU
\0g
\ 1\0\83\ 2\0\ 1|
\ e\0j"
\0d
\ 4\0d
\ 5\0\83\ 2\0\
\ 2\0}
\ f\0}
\10\0|
\0\0j
\1f\0|
\10\0dV
\0dW
\0f
\ 2\0dX
\0dY
\0f
\ 2\0dZ
\0d[
\0f
\ 2\0d\
\0d]
\0f
\ 2\0d^
\0d_
\0f
\ 2\0d`
\0da
\0f
\ 2\0db
\0dc
\0f
\ 2\0g
\a\0\83\ 2\0\ 1|
\0\0j#
\0|
\ f\0d
\ 6\0d+
\0!j$
\0t
\10\0d
\1a\0d
\e\0d
\1c\0d
\1d\0g
\ 4\0d
\a\0d
\a\0\83\ 3\0d4
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j#
\0|
\ f\0d+
\0d,
\0!j$
\0t
\10\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0g
\ 6\0d
\ 4\0d
\a\0\83\ 3\0d4
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j#
\0|
\ f\0d,
\0d-
\0!j$
\0t
\10\0d$
\0d%
\0d&
\0d'
\0d(
\0d)
\0g
\ 6\0d
\ 4\0d
\a\0\83\ 3\0d4
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j#
\0|
\ f\0d-
\0d/
\0!j$
\0t
\10\0d
\10\0d
\11\0d
\14\0d
\15\0g
\ 4\0d
\a\0d
\a\0\83\ 3\0d4
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j#
\0|
\ f\0d/
\0d1
\0!j$
\0t
\10\0d
\12\0d
\13\0g
\ 2\0d
\f\0d
\a\0\83\ 3\0d4
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j#
\0|
\ f\0d1
\0d3
\0!j$
\0t
\10\0d
\16\0d
\17\0g
\ 2\0d
\f\0d
\a\0\83\ 3\0d4
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1f\0dd
\0|
\ e\0j%
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\1f\0d
\ 4\0d
\v\0de
\0d5
\0d8
\0f
\ 4\0g
\ 1\0f
\ 2\0d
\ 5\0d
\v\0df
\0d8
\0d8
\0f
\ 4\0g
\ 1\0f
\ 2\0d
\r\0d
\v\0dg
\0d8
\0d8
\0f
\ 4\0g
\ 1\0f
\ 2\0d.
\0d
\v\0dh
\0d6
\0d8
\0f
\ 4\0g
\ 1\0f
\ 2\0d0
\0d
\v\0di
\0d7
\0d8
\0f
\ 4\0g
\ 1\0f
\ 2\0d2
\0d
\v\0dj
\0d8
\0d8
\0f
\ 4\0g
\ 1\0f
\ 2\0d+
\0d
\f\0dk
\0d8
\0d8
\0f
\ 4\0g
\ 1\0f
\ 2\0g
\a\0|
\ e\0j&
\0d
\ 4\0d
\ 5\0\83\ 2\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\ e\0j'
\0d5
\0\83\ 1\0j(
\0\83\0\0d
\v\0d
\f\0g
\ 2\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\ e\0j'
\0d6
\0\83\ 1\0j(
\0\83\0\0d
\f\0d
\a\0g
\ 2\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\ e\0j'
\0d7
\0\83\ 1\0j(
\0\83\0\0d
\a\0g
\ 1\0\83\ 2\0\ 1|
\ e\0j)
\0t
\19\0d
\ 4\0d
\ 5\0d
\v\0|
\ 2\0j*
\0\83\0\0d
\v\0\19\83\ 5\0}
\11\0|
\0\0j#
\0|
\11\0j+
\0\83\0\0j$
\0t
\10\0d
\10\0d
\11\0d
\14\0d
\15\0d
\12\0d
\13\0d
\16\0d
\17\0g
\b\0d
\ 5\0d
\a\0\83\ 3\0d4
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\11\0j,
\0\83\0\0j-
\0\83\0\0j(
\0\83\0\0d.
\0d
\ 5\0d
\r\0d
\ e\0d9
\0d.
\0d:
\0d;
\0d<
\0d=
\0d0
\0d>
\0d?
\0d@
\0dA
\0dB
\0dC
\0d2
\0dD
\0dE
\0dF
\0dG
\0dH
\0dI
\0dJ
\0dK
\0g
\1a\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\11\0j,
\0\83\0\0j.
\0\83\0\0j(
\0\83\0\0d
\v\0d
\r\0dL
\0dM
\0d:
\0g
\ 5\0\83\ 2\0\ 1|
\ e\0j)
\0t
\19\0d
\ 4\0d
\ 5\0d*
\0|
\ 2\0j*
\0\83\0\0d
\v\0\19\83\ 5\0}
\12\0|
\0\0j#
\0|
\12\0j+
\0\83\0\0j$
\0t
\10\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0d$
\0d%
\0d&
\0d'
\0d(
\0d)
\0g
\10\0\83\ 1\0d4
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\12\0j,
\0\83\0\0j-
\0\83\0\0j(
\0\83\0\0d
\ 4\0d
\v\0d
\f\0d
\a\0d
\ 4\0d
\ 4\0d
\ 5\0d
\r\0d
\ 5\0d
\ e\0d9
\0d
\18\0dN
\0d
\ 5\0dL
\0dO
\0dP
\0dQ
\0d
\ 5\0d.
\0dR
\0d0
\0dM
\0d
\r\0d2
\0dS
\0d>
\0d?
\0d@
\0d
\r\0dA
\0dB
\0dC
\0d:
\0d;
\0d
\r\0dE
\0dF
\0dG
\0dH
\0dI
\0dJ
\0dK
\0g+
\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\12\0j,
\0\83\0\0j.
\0\83\0\0j(
\0\83\0\0d
\v\0d
\ 5\0d
\18\0dQ
\0d2
\0dA
\0d=
\0dI
\0d,
\0g
\0\83\ 2\0\ 1|
\ 2\0j/
\0|
\ 1\0d
\a\0\83\ 2\0\ 1d
\0\0S(l
\0\0\0Ns
\f\0\0\0Pyfile48.medRä
\0\0\0g
\0\0\0\0\0\0#@i
\ 3\0\0\0i
\ 4\0\0\0i&
\0\0\0i
\ 2\0\0\0g
\0\0\0\0\0\0\18@s
33899 +
\0\0\0Power [MW]s
\10\0\0\0Density [kg/m^3]i
\0\0\0\0i
\ 1\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0t
\a\0\0\0pfltestg
\0\0\0\0\0ä
\95@g
\0\0\0\0\90Áø@g
\0\0\0\0\0\b\99@g
\0\0\0\0 Îø@g
\0\0\0\0\08¨@g
\0\0\0\0À+ù@g
\0\0\0\0\0:¨@g
\0\0\0\0Ð+ù@i
\b\0\0\0t
\0\0\0pfltestM1g
\0\0\0\0\0Àr@g
\0\0\0\0À|ø@g
\0\0\0\0\0Ðr@g
\0\0\0\0Ð|ø@g
\0\0\0\0\0\0y@g
\0\0\0\0\0\83ø@g
\0\0\0\0\0\10y@g
\0\0\0\0\10\83ø@g
\0\0\0\0\0 y@g
\0\0\0\0 \83ø@g
\0\0\0\0\0\0©@g
\0\0\0\0\02ù@g
\0\0\0\0\0\ 2©@g
\0\0\0\0\102ù@g
\0\0\0\0\0\ 6©@g
\0\0\0\002ù@iÿÿÿÿi(
\0\0\0i+
\0\0\0i.
\0\0\0i
\ e\0\0\0i0
\0\0\0i
\10\0\0\0i1
\0\0\0i
\12\0\0\0i2
\0\0\0g:
\8c0â
\8eyE>t
\b\0\0\0NewPfl_0t
\b\0\0\0NewPfl_1t
\b\0\0\0NewPfl_2R&
\0\0\0i
\a\0\0\0i
\1a\0\0\0i
\e\0\0\0i
\1c\0\0\0i
\1d\0\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\19\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i#
\0\0\0i$
\0\0\0i%
\0\0\0i
33900 +
\0\0\0i
\11\0\0\0i
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ f\0\0\0i
\13\0\0\0iL
\0\0\0(
\ 3\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0g
\0\0\0\0\0\0#@(
\ 2\0\0\0i
\ 3\0\0\0i
\0\0\0\0(
\ 2\0\0\0i&
\0\0\0i(
\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\0\0\0\0(
\ 2\0\0\0i(
\0\0\0i+
\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0i
\0\0\0\0(
\ 2\0\0\0i+
\0\0\0i.
\0\0\0(
\ 2\0\0\0i
\ e\0\0\0i
\0\0\0\0(
\ 2\0\0\0i.
\0\0\0i0
\0\0\0(
\ 2\0\0\0i
\10\0\0\0i
\0\0\0\0(
\ 2\0\0\0i0
\0\0\0i1
\0\0\0(
\ 2\0\0\0i
\12\0\0\0i
\0\0\0\0(
\ 2\0\0\0i1
\0\0\0i2
\0\0\0(
\ 2\0\0\0i(
\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0i&
\0\0\0(
\ 3\0\0\0R4
\ 2\0\0R5
\ 2\0\0R6
\ 2\0\0(
\ 2\0\0\0i&
\0\0\0i(
\0\0\0(
\ 2\0\0\0i(
\0\0\0i+
\0\0\0(
\ 2\0\0\0i+
\0\0\0i.
\0\0\0(
\ 2\0\0\0i.
\0\0\0i0
\0\0\0(
\ 2\0\0\0i0
\0\0\0i1
\0\0\0(
\ 2\0\0\0i1
\0\0\0i2
\0\0\0(
\ 2\0\0\0i
\0\0\0\0i&
\0\0\0(0
\0\0\0RK
\ 1\0\0R(
\0\0\0R
\ 4\0\0\0R-
\ 2\0\0RP
\ 1\0\0t
\b\0\0\0pushMeshRR
\ 1\0\0R[
\ 1\0\0R]
\ 1\0\0Rô
\0\0\0R\
\ 1\0\0Rw
\ 1\0\0R
\1c\ 1\0\0RX
\ 1\0\0RB
\0\0\0R°
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rz
\ 1\0\0RÃ
\ 1\0\0R{
\ 1\0\0R³
\0\0\0R}
\0\0\0RY
\ 1\0\0t
\10\0\0\0getTimeStepAtPosR
\13\ 1\0\0Rk
\0\0\0R|
\ 1\0\0Ra
\ 1\0\0t
\ f\0\0\0shallowCpyGlobst
\ e\0\0\0unPolyzeMeshesR+
\0\0\0t
\r\0\0\0getNumberOfTSR÷
\0\0\0R(
\ 1\0\0R0
\0\0\0R
\7f\ 1\0\0t
\11\0\0\0getPflsReallyUsedRÄ
\ 1\0\0t
33901 +
\0\0\0getProfileRH
\0\0\0R
\97\ 1\0\0RT
\ 1\0\0R)
\ 1\0\0R¹
\0\0\0Rv
\0\0\0Rw
\0\0\0R
\v\0\0\0(
\13\0\0\0R
\0\0\0R9
\ 1\0\0t
\ 3\0\0\0mfdR
\86\0\0\0t
\ 6\0\0\0meshest
\ 6\0\0\0fieldsRñ
\0\0\0t
\ 4\0\0\0f0_0R¼
\0\0\0t
\ 3\0\0\0ff0t
\ 4\0\0\0f0_1R
\83\ 1\0\0t
\ 4\0\0\0f0_2t
\ 4\0\0\0pfl2Rm
\ 1\0\0RÔ
\ 1\0\0t
\ 5\0\0\0entryt
\ 6\0\0\0ftest0t
\ 6\0\0\0ftest1(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testUnPolyze2P
\ 6\0\0s
\8a\0\0\0\0\ 1\ 6\ 1\f\ 1\ f\ 1\f\ 1\r\ 1\r\ 1\f\ 1\r\ 1\f\ 1\r\ 2\12\0\r\ 1\13\ 1\ f\0\r\0\r\0\13\ 1\r\ 1\16\ 1\r\ 1\ f\ 1\12\0\r\ 1\13\ 1\e\0\r\ 1\1a\ 1-
\0\13\ 1\r\ 1\16\ 1\12\0\r\ 1\13\ 1'
\0\r\ 1E
\0\13\ 1\1a\ 1\r\ 1\16\ 1\13\ 2
33902 +
\ 2\10\ 1\16\ 1\19\ 1\18\ 1O
\ 18
\ 1>
\ 1>
\ 18
\ 12
\ 12
\ 1\16\ 1Ä
\ 1%
\ 1%
\ 1"
\ 1%
\ 1C
\ 1p
\ 11
\ 1%
\ 1U
\ 1£
\ 1=
\ 2\10\ 1c
\ 1\0\0\0\1e\0\0\0\15\0\0\0C
\0\0\0sÿ
\10\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 4\0d
\ 3\0d
\ 3\0d
\ 5\0d
\ 5\0d
\ 4\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 3\0g
\10\0d
\ 6\0d
\a\0\83\ 3\0}
\ 3\0t
\ 1\0d
\b\0d
\a\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 2\0|
\ 3\0\83\ 1\0\ 1|
\ 4\0j
\ 3\0d
\0\83\ 1\0\ 1|
\ 4\0j
\ 4\0t
\ 5\0t
\ 6\0t
\a\0d
\ 6\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\ 4\0j
\b\0\83\0\0\ 1t
\ 1\0d
\b\0d
\a\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 2\0|
\ 3\0\83\ 1\0\ 1|
\ 5\0j
\ 3\0d
\0\83\ 1\0\ 1|
\ 5\0j
\ 4\0t
\0t
\ 6\0t
\a\0d
33903 +
\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\ 5\0j
\b\0\83\0\0\ 1t
\ 1\0d
\b\0d
\a\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 2\0|
\ 3\0\83\ 1\0\ 1|
\ 6\0j
\ 3\0d
\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0t
33904 +
\0t
\ 6\0t
\a\0d
\v\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\ 6\0j
\b\0\83\0\0\ 1d
\ 3\0d
\f\0g
\ 2\0d
\r\0d
\f\0g
\ 2\0d
\f\0d
\f\0g
\ 2\0d
\ e\0d
\f\0g
\ 2\0d
\ f\0d
\f\0g
\ 2\0d
\10\0d
\f\0g
\ 2\0d
\11\0d
\f\0g
\ 2\0d
\12\0d
\f\0g
\ 2\0d
\13\0d
\f\0g
\ 2\0d
\14\0d
\f\0g
\ 2\0d
\15\0d
\f\0g
\ 2\0d
\ 3\0d
\ 3\0g
\ 2\0d
\r\0d
\ 3\0g
\ 2\0d
\ 3\0d
\r\0g
\ 2\0d
\r\0d
\r\0g
\ 2\0d
\f\0d
\r\0g
\ 2\0d
\ e\0d
\r\0g
\ 2\0d
\ f\0d
\r\0g
\ 2\0d
\10\0d
\r\0g
\ 2\0d
\11\0d
\r\0g
\ 2\0g
\14\0}
\a\0d
\16\0|
\ 6\0g
\ 1\0\14d
\a\0|
\ 5\0g
\ 1\0\14\17d
\17\0|
\ 4\0g
\ 1\0\14\17}
\b\0d
\18\0\84\0\0|
\b\0D
\83\ 1\0|
\b\0(x3
\0t
\v\0|
\b\0|
\a\0\83\ 2\0D]"
\0\
\ 2\0}
\0}
33905 +
\0|
\0j
\f\0\83\0\0}
\v\0|
\v\0|
33906 +
\07}
\v\0q9
\ 2Wt
\ 1\0j
\r\0|
\b\0\83\ 1\0}
\0|
\0j
\ e\0d
\19\0\83\ 1\0\ 1|
\0d
\1a\0 }
\f\0|
\f\0j
\ e\0|
\0j
\ f\0\83\0\0\83\ 1\0\ 1t
\10\0j
\11\0t
\12\0t
\13\0\83\ 2\0}
\r\0|
\r\0j
\14\0|
\f\0\83\ 1\0\ 1|
\r\0j
\15\0d
\e\0d
\0d
\a\0\83\ 3\0\ 1t
\0\0d
\1c\0\83\ 1\0}
\ e\0|
\ e\0j
\16\0d
\1d\0\83\ 1\0\ 1|
\r\0j
\17\0|
\ e\0\83\ 1\0\ 1|
\r\0j
\ e\0d
\1e\0\83\ 1\0\ 1|
\r\0j
\18\0\83\0\0}
\ f\0|
\r\0j
\19\0d
\1f\0d
\0d
\a\0d
\v\0d
33907 +
\0d
\0d!
\0d
\17\0d
\ 6\0g
\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0g
\ 6\0d"
\0d"
\0d#
\0d#
\0g
\ 4\0d$
\0d%
\0g
\ 2\0\83\ 4\0\ 1|
\r\0j
\19\0d&
\0d'
\0g
\ 2\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0g
\ 6\0d"
\0d"
\0d#
\0d#
\0d$
\0d$
\0g
\ 6\0d$
\0d(
\0d)
\0g
\ 3\0\83\ 4\0\ 1|
\r\0j
\19\0d
\16\0d*
\0g
\ 2\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 3\0d
\ 4\0g
\b\0d"
\0d"
\0d#
\0d#
\0d$
\0d$
\0d$
\0d$
\0d$
\0d$
\0g
33908 +
\0d$
\0d(
\0d+
\0d,
\0d-
\0g
\ 5\0\83\ 4\0\ 1|
\r\0j
\1a\0\83\0\0\ 1|
\ f\0j
\18\0\83\0\0}
\10\0|
\10\0j
\e\0\83\0\0j
\1c\0|
\r\0j
\e\0\83\0\0j
\1d\0\83\0\0\83\ 1\0\ 1t
\1e\0\83\0\0}
\11\0|
\11\0j
\1f\0d
\1f\0|
\0\83\ 2\0\ 1|
\11\0j
\0|
\ 1\0d
\a\0\83\ 2\0\ 1t!
\0j
\11\0\83\0\0}
\12\0t"
\0t
\ 6\0t
\a\0d
\1a\0\83\ 1\0\83\ 1\0\83\ 1\0}
\13\0|
\13\0j
\ e\0d.
\0\83\ 1\0\ 1|
\0\0j#
\0t$
\0|
\12\0j%
\0|
\ f\0|
\11\0d
\1f\0|
\13\0\83\ 6\0\ 1|
\0\0j#
\0t$
\0|
\12\0j%
\0|
\10\0|
\11\0d
\1f\0|
\13\0\83\ 6\0\ 1|
\12\0j%
\0|
\r\0|
\11\0d
\1f\0|
\13\0\83\ 4\0\ 1|
\12\0j
\0|
\ 1\0d
\1f\0\83\ 2\0\ 1|
\0\0j&
\0|
\12\0j'
\0\83\0\0dH
\0\83\ 2\0\ 1|
\0\0j&
\0|
\12\0j(
\0\83\0\0dI
\0\83\ 2\0\ 1t"
\0d
\1f\0d
\0d
\a\0d
\v\0d
33909 +
\0d
\0d!
\0d
\17\0d
\ 6\0g
\0\83\ 1\0}
\14\0|
\14\0j
\ e\0d/
\0\83\ 1\0\ 1|
\0\0j)
\0|
\12\0j*
\0d/
\0\83\ 1\0j+
\0|
\14\0\83\ 1\0\83\ 1\0\ 1t"
\0d&
\0d'
\0g
\ 2\0\83\ 1\0}
\14\0|
\14\0j
\ e\0d0
\0\83\ 1\0\ 1|
\0\0j)
\0|
\12\0j*
\0d0
\0\83\ 1\0j+
\0|
\14\0\83\ 1\0\83\ 1\0\ 1|
\0\0j&
\0|
\12\0j,
\0\83\0\0dJ
\0\83\ 2\0\ 1|
\0\0j&
\0|
\12\0j-
\0\83\0\0dK
\0\83\ 2\0\ 1t.
\0j
\11\0|
\ 1\0\83\ 1\0}
\15\0|
\15\0j/
\0\83\0\0d
\1f\0\19}
\16\0|
\15\0j0
\0\83\0\0d
\1f\0\19d
\1f\0\19}
\17\0|
\17\0j1
\0t
\12\0d
\1f\0|
\16\0\83\ 3\0\ 1|
\17\0j1
\0t
\12\0d
\1f\0|
\16\0\83\ 3\0}
\18\0|
\0\0j)
\0|
\r\0j+
\0|
\18\0d4
\0d4
\0\83\ 3\0\83\ 1\0\ 1t2
\0|
\ 1\0|
\0j
\ f\0\83\0\0d
\1f\0|
\r\0j
\ f\0\83\0\0|
\r\0j3
\0\83\0\0d
\0\19|
\r\0j3
\0\83\0\0d
\a\0\19\83\ 6\0}
\19\0|
\19\0j
\1a\0\83\0\0\ 1|
\0\0j)
\0|
\r\0j+
\0|
\19\0d4
\0d4
\0\83\ 3\0\83\ 1\0\ 1t4
\0|
\ 2\0|
\r\0t5
\0\83\ 3\0\ 1t2
\0|
\ 2\0|
\0j
\ f\0\83\0\0d
\1f\0|
\r\0j
\ f\0\83\0\0|
\r\0j3
\0\83\0\0d
\0\19|
\r\0j3
\0\83\0\0d
\a\0\19\83\ 6\0}
\1a\0|
\0\0j)
\0|
\r\0j+
\0|
\1a\0d4
\0d4
\0\83\ 3\0\83\ 1\0\ 1t
\10\0j
\11\0t
\12\0t
\13\0\83\ 2\0}
\r\0t"
\0d
\0d
\a\0d
\0d!
\0d
\ 6\0d&
\0d5
\0d6
\0d7
\0d8
\0g
33910 +
\0\83\ 1\0}
\13\0|
\13\0j
\ e\0d9
\0\83\ 1\0\ 1|
\0|
\13\0\19}
\f\0|
\f\0j
\ e\0|
\0j
\ f\0\83\0\0\83\ 1\0\ 1|
\r\0j
\14\0|
\f\0\83\ 1\0\ 1|
\r\0j
\15\0d
\e\0d
\0d
\a\0\83\ 3\0\ 1t
\0\0d:
\0\83\ 1\0}
\ e\0|
\ e\0j
\16\0d
\1d\0\83\ 1\0\ 1|
\r\0j
\17\0|
\ e\0\83\ 1\0\ 1|
\r\0j
\ e\0d;
\0\83\ 1\0\ 1|
\r\0j
\19\0d
\1f\0d
\0d
\v\0g
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0g
\ 6\0d"
\0d"
\0d#
\0d#
\0g
\ 4\0d$
\0d%
\0g
\ 2\0\83\ 4\0\ 1|
\r\0j
\19\0d
\a\0d
33911 +
\0d
\0g
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0g
\ 6\0d"
\0d"
\0d#
\0d#
\0d$
\0d$
\0g
\ 6\0d$
\0d(
\0d)
\0g
\ 3\0\83\ 4\0\ 1|
\r\0j
\19\0d!
\0d
\17\0d
\ 6\0d&
\0g
\ 4\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ 5\0g
\10\0d"
\0d"
\0d#
\0d#
\0d$
\0d$
\0d$
\0d$
\0d$
\0d$
\0g
33912 +
\0d$
\0d(
\0d+
\0d,
\0d-
\0g
\ 5\0\83\ 4\0\ 1|
\r\0j
\1a\0\83\0\0\ 1t
\1e\0\83\0\0}
\11\0|
\11\0j
\1f\0d
\1f\0|
\0\83\ 2\0\ 1|
\11\0j
\0|
\ 1\0d
\a\0\83\ 2\0\ 1t!
\0j
\11\0\83\0\0}
\12\0|
\12\0j%
\0|
\r\0|
\11\0d
\1f\0|
\13\0\83\ 4\0\ 1|
\0\0j&
\0|
\12\0j'
\0\83\0\0dL
\0\83\ 2\0\ 1|
\0\0j&
\0|
\12\0j*
\0d<
\0\83\ 1\0j6
\0\83\0\0d
\0d
\a\0d!
\0g
\ 3\0\83\ 2\0\ 1|
\0\0j&
\0|
\12\0j*
\0d=
\0\83\ 1\0j6
\0\83\0\0d
\0d
\ 6\0d&
\0g
\ 3\0\83\ 2\0\ 1|
\0\0j&
\0|
\12\0j*
\0d>
\0\83\ 1\0j6
\0\83\0\0d
\a\0d
\v\0d
33913 +
\0d
\0g
\ 4\0\83\ 2\0\ 1|
\12\0j
\0|
\ 1\0d
\1f\0\83\ 2\0\ 1t.
\0j
\11\0|
\ 1\0\83\ 1\0}
\15\0|
\15\0j/
\0\83\0\0d
\1f\0\19}
\16\0|
\15\0j0
\0\83\0\0d
\1f\0\19d
\1f\0\19}
\17\0|
\17\0j1
\0t
\12\0d
\1f\0|
\16\0\83\ 3\0\ 1|
\17\0j1
\0t
\12\0d
\1f\0|
\16\0\83\ 3\0}
\e\0|
\e\0j7
\0d
\1f\0d
\0d
\v\0d
\a\0d
33914 +
\0d
\0d!
\0d
\17\0d
\ 6\0d&
\0g
33915 +
\0\83\ 1\0\ 1|
\0\0j)
\0|
\r\0j+
\0|
\e\0d4
\0d4
\0\83\ 3\0\83\ 1\0\ 1t2
\0|
\ 1\0|
\0j
\ f\0\83\0\0d
\1f\0|
\r\0j
\ f\0\83\0\0|
\r\0j3
\0\83\0\0d
\0\19|
\r\0j3
\0\83\0\0d
\a\0\19\83\ 6\0}
\1c\0|
\1c\0j7
\0d
\1f\0d
\0d
\v\0d
\a\0d
33916 +
\0d
\0d!
\0d
\17\0d
\ 6\0d&
\0g
33917 +
\0\83\ 1\0\ 1|
\0\0j)
\0|
\r\0j+
\0|
\1c\0d4
\0d4
\0\83\ 3\0\83\ 1\0\ 1t4
\0|
\ 2\0|
\r\0t5
\0\83\ 3\0\ 1t2
\0|
\ 2\0|
\0j
\ f\0\83\0\0d
\1f\0|
\r\0j
\ f\0\83\0\0|
\r\0j3
\0\83\0\0d
\0\19|
\r\0j3
\0\83\0\0d
\a\0\19\83\ 6\0}
\1d\0|
\1d\0j7
\0d
\1f\0d
\0d
\v\0d
\a\0d
33918 +
\0d
\0d!
\0d
\17\0d
\ 6\0d&
\0g
33919 +
\0\83\ 1\0\ 1|
\0\0j)
\0|
\r\0j+
\0|
\1d\0d4
\0d4
\0\83\ 3\0\83\ 1\0\ 1t
\10\0j
\11\0t
\12\0t
\13\0\83\ 2\0}
\r\0|
\r\0j
\14\0|
\0\83\ 1\0\ 1|
\r\0j
\15\0d
\e\0d
\0d
\a\0\83\ 3\0\ 1t
\0\0d?
\0\83\ 1\0}
\ e\0|
\ e\0j
\16\0d
\1d\0\83\ 1\0\ 1|
\r\0j
\17\0|
\ e\0\83\ 1\0\ 1|
\r\0j
\ e\0d@
\0\83\ 1\0\ 1|
\r\0j
\19\0d
\1f\0d
\0d
\a\0d
\v\0d
33920 +
\0d
\0d!
\0d
\17\0d
\ 6\0g
\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0g
\ 6\0d"
\0d"
\0d#
\0d#
\0g
\ 4\0d$
\0d%
\0g
\ 2\0\83\ 4\0\ 1|
\r\0j
\19\0d&
\0d'
\0g
\ 2\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0g
\ 6\0d"
\0d"
\0d#
\0d#
\0d$
\0d$
\0g
\ 6\0d$
\0d(
\0d)
\0g
\ 3\0\83\ 4\0\ 1|
\r\0j
\19\0d
\16\0d*
\0g
\ 2\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 3\0d
\ 4\0g
\b\0d"
\0d"
\0d#
\0d#
\0d$
\0d$
\0d$
\0d$
\0d$
\0d$
\0g
33921 +
\0d$
\0d(
\0d+
\0d,
\0d-
\0g
\ 5\0\83\ 4\0\ 1|
\r\0j
\19\0d
\1a\0dA
\0d5
\0d7
\0d8
\0g
\ 5\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ 5\0g
\10\0d"
\0d"
\0d#
\0d#
\0d$
\0d$
\0d$
\0d$
\0g
\b\0d$
\0d+
\0dB
\0d(
\0g
\ 4\0\83\ 4\0\ 1|
\r\0j
\19\0d6
\0dC
\0g
\ 2\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ 5\0g
\10\0d"
\0d"
\0d#
\0d#
\0d$
\0d$
\0g
\ 6\0d$
\0d+
\0d+
\0g
\ 3\0\83\ 4\0\ 1|
\r\0j
\1a\0\83\0\0\ 1t
\1e\0\83\0\0}
\11\0|
\11\0j
\1f\0d
\1f\0|
\0\83\ 2\0\ 1t!
\0j
\11\0\83\0\0}
\12\0|
\12\0j8
\0|
\r\0\83\ 1\0\ 1|
\0\0j&
\0|
\12\0j'
\0\83\0\0dM
\0\83\ 2\0\ 1|
\0\0j&
\0|
\12\0j*
\0dD
\0\83\ 1\0j6
\0\83\0\0d
\1f\0d
\0d
\a\0d
\v\0d
33922 +
\0d
\0d!
\0d
\17\0d
\ 6\0g
\0\83\ 2\0\ 1|
\0\0j&
\0|
\12\0j*
\0dE
\0\83\ 1\0j6
\0\83\0\0d&
\0d'
\0g
\ 2\0\83\ 2\0\ 1|
\0\0j&
\0|
\12\0j*
\0dF
\0\83\ 1\0j6
\0\83\0\0d
\1f\0d
\0d
\a\0d
33923 +
\0d
\0g
\ 5\0\83\ 2\0\ 1|
\0\0j&
\0|
\12\0j*
\0dG
\0\83\ 1\0j6
\0\83\0\0d
\v\0d!
\0g
\ 2\0\83\ 2\0\ 1|
\11\0j
\0|
\ 1\0d
\a\0\83\ 2\0\ 1|
\12\0j
\0|
\ 1\0d
\1f\0\83\ 2\0\ 1t.
\0j
\11\0|
\ 1\0\83\ 1\0}
\15\0|
\15\0j/
\0\83\0\0d
\1f\0\19}
\16\0|
\15\0j0
\0\83\0\0d
\1f\0\19d
\1f\0\19}
\17\0|
\17\0j1
\0t
\12\0d
\1f\0|
\16\0\83\ 3\0}
\e\0|
\e\0j7
\0d
\1f\0d
\0d
\a\0d
\v\0d
33924 +
\0d
\0d!
\0d
\17\0d
\ 6\0d&
\0d'
\0d
\16\0d*
\0d
\1a\0dA
\0d5
\0d7
\0d8
\0d6
\0dC
\0g
\14\0\83\ 1\0\ 1|
\0\0j)
\0|
\r\0j+
\0|
\e\0d4
\0d4
\0\83\ 3\0\83\ 1\0\ 1t2
\0|
\ 1\0|
\0j
\ f\0\83\0\0d
\1f\0|
\r\0j
\ f\0\83\0\0|
\r\0j3
\0\83\0\0d
\0\19|
\r\0j3
\0\83\0\0d
\a\0\19\83\ 6\0}
\1c\0|
\1c\0j7
\0d
\1f\0d
\0d
\a\0d
\v\0d
33925 +
\0d
\0d!
\0d
\17\0d
\ 6\0d&
\0d'
\0d
\16\0d*
\0d
\1a\0dA
\0d5
\0d7
\0d8
\0d6
\0dC
\0g
\14\0\83\ 1\0\ 1|
\0\0j)
\0|
\r\0j+
\0|
\1c\0d4
\0d4
\0\83\ 3\0\83\ 1\0\ 1t4
\0|
\ 2\0|
\r\0t5
\0\83\ 3\0\ 1t2
\0|
\ 2\0|
\0j
\ f\0\83\0\0d
\1f\0|
\r\0j
\ f\0\83\0\0|
\r\0j3
\0\83\0\0d
\0\19|
\r\0j3
\0\83\0\0d
\a\0\19\83\ 6\0}
\1d\0|
\1d\0j7
\0d
\1f\0d
\0d
\a\0d
\v\0d
33926 +
\0d
\0d!
\0d
\17\0d
\ 6\0d&
\0d'
\0d
\16\0d*
\0d
\1a\0dA
\0d5
\0d7
\0d8
\0d6
\0dC
\0g
\14\0\83\ 1\0\ 1|
\0\0j)
\0|
\r\0j+
\0|
\1d\0d4
\0d4
\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(N
\0\0\0Ns
\f\0\0\0Pyfile49.meds
\f\0\0\0Pyfile50.medg
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0à?i
\b\0\0\0i
\ 2\0\0\0R&
\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 3\0\0\0g
\0\0\0\0\0\0\10@g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\18@g
\0\0\0\0\0\0 @g
\0\0\0\0\0\0$@g
\0\0\0\0\0\0(@g
\0\0\0\0\0\0,@g
\0\0\0\0\0\00@g
\0\0\0\0\0\02@g
\0\0\0\0\0\04@i
\v\0\0\0i
\a\0\0\0c
\ 1\0\0\0\ 2\0\0\0\ 2\0\0\0s
\0\0\0s
\e\0\0\0|
\0\0]
\11\0}
\ 1\0|
\ 1\0j
\0\0\83\0\0V
\ 1q
\ 3\0d
\0\0S(
\ 1\0\0\0N(
\ 1\0\0\0Rq
\0\0\0(
\ 2\0\0\0t
\ 2\0\0\0.0Rü
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pys
\0\0\0<genexpr>¤
\ 6\0\0s
\ 2\0\0\0\ 6\0R
\ 2\0\0i
\r\0\0\0g
\0\0\0\0\0\0\12@i"
\0\0\0g
\0\0\0\0\0\0\b@t
\18\0\0\0fieldCellOnPflWithoutPfli
\0\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0g333333Ó?gffffffæ?g
\9a\99\99\99\99\99é?g
\9a\99\99\99\99\99É?i
\0\0\0i
33927 +
\0\0\0gìQ¸
\1e\85ë±?g¤p=
33928 +×£À?i
\f\0\0\0g
\9a\99\99\99\99\99¹?g{
\14®Gáz
\84?g{
\14®Gáz
\94?R
\83\ 1\0\0t
\13\0\0\0pfl_NORM_TRI3_loc_0t
\13\0\0\0pfl_NORM_TRI3_loc_1t(
\0\0\0Loc_fieldCellOnPflWithoutPfl_NORM_TRI3_0t(
\0\0\0Loc_fieldCellOnPflWithoutPfl_NORM_TRI3_1t)
\0\0\0Loc_fieldCellOnPflWithoutPfl_NORM_QUAD4_2g
\11ê-
\81\99\97q=i
\ f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0RE
\ 2\0\0i#
\0\0\0t
\19\0\0\0fieldCellOnPflWithoutPfl2t
\14\0\0\0pfl2_NORM_TRI3_loc_0t
\14\0\0\0pfl2_NORM_TRI3_loc_1t
\15\0\0\0pfl2_NORM_QUAD8_loc_2i<
\0\0\0t
\13\0\0\0fieldCellWithoutPfli
\ e\0\0\0g¸
\1e\85ëQ¸
\9e?i
\13\0\0\0t#
\0\0\0Pfl_fieldCellWithoutPfl_NORM_TRI3_0t#
\0\0\0Pfl_fieldCellWithoutPfl_NORM_TRI3_1t$
\0\0\0Pfl_fieldCellWithoutPfl_NORM_QUAD8_3t$
\0\0\0Pfl_fieldCellWithoutPfl_NORM_QUAD8_4(
\ 2\0\0\0RL
\ 2\0\0RM
\ 2\0\0(
\ 2\0\0\0RL
\ 2\0\0RM
\ 2\0\0(
\ 3\0\0\0RN
\ 2\0\0RO
\ 2\0\0RP
\ 2\0\0(
\ 3\0\0\0RN
\ 2\0\0RO
\ 2\0\0RP
\ 2\0\0(
\ 3\0\0\0RR
\ 2\0\0RS
\ 2\0\0RT
\ 2\0\0(
\ 4\0\0\0RV
\ 2\0\0RW
\ 2\0\0RX
\ 2\0\0RY
\ 2\0\0(9
\0\0\0RY
\0\0\0R[
\0\0\0Rc
\0\0\0R]
\0\0\0R^
\0\0\0t
33929 +
\0\0\0NORM_QUAD8Rm
\0\0\0Rn
\0\0\0Rb
\0\0\0R`
\0\0\0R_
\0\0\0RS
\ 1\0\0RØ
\0\0\0t
\f\0\0\0MergeUMeshesRB
\0\0\0RC
\0\0\0Rw
\ 1\0\0R(
\0\0\0R
\a\ 1\0\0RX
\ 1\0\0R³
\0\0\0R°
\0\0\0Ry
\ 1\0\0R{
\ 1\0\0Rq
\0\0\0t
\e\0\0\0setGaussLocalizationOnCellsRd
\0\0\0R0
\ 1\0\0R1
\ 1\0\0R2
\ 1\0\0R>
\0\0\0Rj
\0\0\0R
\v\0\0\0Rà
\0\0\0Rk
\0\0\0R)
\0\0\0R*
\0\0\0R|
\ 1\0\0R+
\0\0\0t
\a\0\0\0getPflsR<
\ 2\0\0R0
\0\0\0R=
\ 2\0\0R1
\0\0\0R¬
\ 1\0\0t
\11\0\0\0getLocsReallyUsedRK
\ 1\0\0RT
\ 1\0\0Ra
\ 1\0\0R
\97\ 1\0\0R
\b\ 1\0\0Rº
\0\0\0t
33930 +
\0\0\0WriteFieldR.
\0\0\0RH
\0\0\0R
\88\ 1\0\0R%
\ 1\0\0(
\1e\0\0\0R
\0\0\0R9
\ 1\0\0Rn
\ 1\0\0R
\81\0\0\0t
\ 3\0\0\0mQ8t
\ 3\0\0\0mQ4t
\ 3\0\0\0mT3t
\ 2\0\0\0trR
\0\0\0R
\83\0\0\0R
\8c\0\0\0Re
\ 1\0\0R
\85\0\0\0R
\b\0\0\0R¼
\0\0\0t
\b\0\0\0fInvalidt
\0\0\0fInvalid2R
\86\0\0\0Rú
\0\0\0R
\83\ 1\0\0R©
\0\0\0t
\b\0\0\0dataReadt
\ 5\0\0\0mReadt
\b\0\0\0f1tsReadRâ
\0\0\0t
\ 6\0\0\0f2_bist
\ 6\0\0\0f2_terR
33931 +
\ 1\0\0t
\ 6\0\0\0f3_bist
\ 6\0\0\0f3_ter(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\14\0\0\0testGaussWriteOnPfl1
\91\ 6\0\0s0
\ 1\0\0\0\ 1\ 6\ 1\ 6\ 1B
\ 1\ f\0\r\ 1\r\ 1\1c\ 1
33932 +
\ 1\ f\0\r\ 1\r\ 1\1c\ 1
33933 +
\ 1\ f\0\r\ 1\r\ 1\1c\ 1
33934 +
\ 2º
\ 1#
\ 1\11\ 1\1c\ 1\f\0
33935 +
\ 1\ 4\ 1\ f\ 1\r\ 1
33936 +
\0\13\ 3\12\ 1\r\ 1\13\ 1\f\0\r\ 1\r\ 1\r\ 1\f\ 1U
\ 1I
\ 1a
\ 1
33937 +
\ 1\f\ 1\1f\ 2 \ 1\10\ 1\10\ 2\f\ 1\18\0\r\ 1\1f\ 1\1f\ 1\16\ 1\10\ 2\16\ 1\16\ 1'
\0\r\ 1\1f\ 1\12\0\r\ 1\1f\ 1\16\ 1\16\ 2\ f\ 1\10\ 1\14\ 1\13\ 1\15\ 1\1c\ 1;
\ 1
33938 +
\ 1\1c\ 2\10\ 1;
\ 1\1c\ 2\12\ 1*
\0\r\ 1
33939 +
\0\13\ 1\r\ 1\13\ 1\f\0\r\ 1\r\ 1\r\ 1C
\ 1L
\ 1\7f\ 1
33940 +
\ 2 \ 1\10\ 1\10\ 1\f\ 1\16\ 1\16\ 1(
\ 1(
\ 1+
\ 1\10\ 1\ f\ 1\10\ 1\14\ 1\13\ 1\15\ 1+
\ 1\1c\ 1;
\ 1+
\ 1\1c\ 2\10\ 1;
\ 1+
\ 1\1c\ 2\12\ 1\r\ 1\13\ 1\f\0\r\ 1\r\ 1\r\ 1U
\ 1I
\ 1a
\ 1y
\ 1g
\ 1
33941 +
\ 1 \ 1\10\ 1\f\ 1\r\ 1\16\ 1:
\ 1%
\ 1.
\ 1%
\ 1\10\ 1\10\ 2\ f\ 1\10\ 1\14\ 1\15\ 1I
\ 1\1c\ 1;
\ 1I
\ 1\1c\ 2\10\ 1;
\ 1I
\ 1\1c\ 1c
\ 1\0\0\0\1f\0\0\0\13\0\0\0C
\0\0\0s@
\a\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 4\0g
\12\0d
\ 5\0d
\ 6\0\83\ 3\0}
\ 2\0t
\ 1\0d
\a\0d
\ 6\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 2\0d
\b\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0t
\ 4\0d
\0d
33942 +
\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 4\0d
33943 +
\0d
\b\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 5\0d
\v\0d
\f\0d
33944 +
\0d
\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 5\0d
\f\0d
\r\0d
\ e\0d
33945 +
\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 5\0d
33946 +
\0d
\ e\0d
\ f\0d
\b\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 6\0\83\0\0\ 1|
\ 3\0j
\a\0|
\ 2\0\83\ 1\0\ 1t
\ 1\0|
\ 3\0j
\b\0\83\0\0d
\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 2\0d
\ 5\0\83\ 1\0\ 1d
\v\0d
\0d
\v\0d
\f\0d
\f\0d
33950 +
\0d
\0d
\ 6\0d
\f\0d
\r\0d
\b\0d
\ f\0g
\12\0}
\ 5\0x7
\0t
\0d
\ 5\0\83\ 1\0D])
\0}
\ 6\0|
\ 4\0j
\ 3\0t
33951 +
\0|
\ 5\0d
\ 6\0|
\ 6\0\14d
\ 6\0|
\ 6\0\14d
\ 6\0\17!
\83\ 2\0\ 1qr
\ 1W|
\ 4\0j
\ 6\0\83\0\0\ 1|
\ 4\0j
\a\0|
\ 2\0\83\ 1\0\ 1t
\v\0\83\0\0}
\a\0|
\a\0j
\f\0d
\v\0|
\ 3\0\83\ 2\0\ 1|
\a\0j
\f\0d
\10\0|
\ 4\0\83\ 2\0\ 1d
\f\0}
\b\0d
\ 6\0}
\0d
\11\0}
33952 +
\0t
\r\0t
\ e\0t
\ f\0\83\ 2\0}
\v\0|
\v\0j
\10\0d
\12\0\83\ 1\0\ 1|
\v\0j
\11\0|
33953 +
\0|
\b\0|
\0\83\ 3\0\ 1t
\12\0d
\v\0d
\0d
\ 6\0d
\f\0d
33954 +
\0g
\ 5\0\83\ 1\0}
\f\0|
\f\0j
\10\0d
\13\0\83\ 1\0\ 1t
\0\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0g
\ 5\0\83\ 1\0}
\r\0|
\v\0j
\13\0|
\r\0\83\ 1\0\ 1t
\14\0\83\0\0}
\ e\0|
\ e\0j
\15\0|
\v\0|
\a\0d
\v\0|
\f\0\83\ 4\0\ 1|
\a\0j
\16\0|
\ 1\0d
\ 6\0\83\ 2\0\ 1|
\ e\0j
\16\0|
\ 1\0d
\v\0\83\ 2\0\ 1t
\r\0t
\ e\0t
\ f\0\83\ 2\0}
\ f\0|
\ f\0j
\10\0d
\19\0\83\ 1\0\ 1|
\ f\0j
\11\0|
33955 +
\0|
\b\0|
\0\83\ 3\0\ 1t
\12\0d
\v\0d
\0d
\ 6\0d
\f\0d
33956 +
\0d
\b\0d
\r\0g
\a\0\83\ 1\0}
\10\0|
\10\0j
\10\0d
\1a\0\83\ 1\0\ 1t
\0\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0g
\a\0\83\ 1\0}
\11\0|
\ f\0j
\13\0|
\11\0\83\ 1\0\ 1t
\14\0\83\0\0}
\12\0|
\12\0j
\15\0|
\ f\0|
\a\0d
\10\0|
\10\0\83\ 4\0\ 1|
\12\0j
\16\0|
\ 1\0d
\v\0\83\ 2\0\ 1~
\a\0~
\ e\0~
\ 3\0~
\ 4\0~
\12\0t
\17\0j
\18\0|
\ 1\0\83\ 1\0}
\a\0|
\a\0j
\19\0d
\v\0\83\ 1\0}
\ 3\0|
\ 3\0j
\1a\0\83\0\0}
\13\0|
\13\0d
\v\0d
\ 6\0g
\ 2\0\19}
\13\0|
\13\0j
\10\0|
\a\0j
\b\0\83\0\0\83\ 1\0\ 1|
\13\0j
\e\0\83\0\0\ 1|
\v\0j
\1c\0|
\13\0\83\ 1\0\ 1t
\14\0j
\18\0|
\ 1\0|
\v\0j
\b\0\83\0\0|
\b\0|
\0\83\ 4\0}
\ e\0|
\ e\0j
\1d\0t
\ e\0|
\ 3\0\83\ 2\0}
\14\0|
\14\0j
\1e\0\83\0\0\ 1|
\0\0j
\1f\0|
\14\0j
\0|
\v\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1|
\ e\0j!
\0t
\ e\0d
\v\0\83\ 2\0}
\15\0|
\15\0j
\1e\0\83\0\0\ 1|
\0\0j
\1f\0|
\15\0j
\0|
\v\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1|
\ e\0j
\1d\0t
\ e\0d
\v\0|
\a\0\83\ 3\0}
\16\0|
\16\0j
\1e\0\83\0\0\ 1|
\0\0j
\1f\0|
\16\0j
\0|
\v\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1t"
\0|
\ 1\0|
\a\0j
\b\0\83\0\0d
\v\0|
\v\0j
\b\0\83\0\0|
\b\0|
\0\83\ 6\0}
\17\0|
\17\0j
\1e\0\83\0\0\ 1|
\0\0j
\1f\0|
\17\0j
\0|
\v\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1t
\14\0j
\18\0|
\ 1\0|
\ f\0j
\b\0\83\0\0|
\b\0|
\0\83\ 4\0}
\12\0|
\a\0j
\19\0d
\10\0\83\ 1\0}
\ 4\0|
\ 4\0j
\1a\0\83\0\0}
\18\0|
\18\0d
\v\0d
\0d
\ 6\0d
\f\0d
33957 +
\0d
\b\0d
\r\0d
\ e\0g
\b\0\19}
\18\0|
\18\0j
\10\0|
\a\0j
\b\0\83\0\0\83\ 1\0\ 1|
\18\0j
\e\0\83\0\0\ 1|
\ f\0j
\1c\0|
\18\0\83\ 1\0\ 1|
\12\0j
\1d\0t
\ e\0|
\ 4\0\83\ 2\0}
\19\0|
\19\0j
\1e\0\83\0\0\ 1|
\0\0j
\1f\0|
\19\0j
\0|
\ f\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1|
\12\0j!
\0t
\ e\0d
\10\0\83\ 2\0}
\1a\0|
\1a\0j
\1e\0\83\0\0\ 1|
\0\0j
\1f\0|
\1a\0j
\0|
\ f\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1|
\12\0j
\1d\0t
\ e\0d
\10\0|
\a\0\83\ 3\0}
\e\0|
\e\0j
\1e\0\83\0\0\ 1|
\0\0j
\1f\0|
\e\0j
\0|
\ f\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1t"
\0|
\ 1\0|
\a\0j
\b\0\83\0\0d
\10\0|
\ f\0j
\b\0\83\0\0|
\b\0|
\0\83\ 6\0}
\1c\0|
\1c\0j
\1e\0\83\0\0\ 1|
\0\0j
\1f\0|
\1c\0j#
\0\83\0\0j
\0|
\18\0d"
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j$
\0t%
\0|
\12\0j
\1d\0t
\ e\0|
\ 3\0\83\ 4\0\ 1|
\0\0j$
\0t%
\0|
\12\0j!
\0t
\ e\0d
\v\0\83\ 4\0\ 1|
\0\0j$
\0t%
\0|
\12\0j
\1d\0t
\ e\0d
\v\0|
\a\0\83\ 5\0\ 1|
\12\0j&
\0t
\ e\0d
\10\0|
\a\0\83\ 3\0\
\ 2\0}
\1d\0}
\1e\0|
\1d\0j
\10\0|
\ f\0j'
\0\83\0\0j
\b\0\83\0\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\1d\0j
\0|
\ f\0j'
\0\83\0\0d"
\0\83\ 2\0\83\ 1\0\ 1|
\1e\0j
\10\0|
\10\0j
\b\0\83\0\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\1e\0j
\0|
\10\0\83\ 1\0\83\ 1\0\ 1d
\0\0S(#
\0\0\0Ns
\f\0\0\0Pyfile51.medg
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0ð?i
\0\0\0i
\ 2\0\0\0t
\ 4\0\0\0Meshi
\ 5\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\0\0\0\0i
\ 3\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0iÿÿÿÿg
\0\0\0\0\0\0\12@t
33958 +
\0\0\0fieldNode0t
\f\0\0\0PflIdentity0i
33959 +
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0t
33960 +
\0\0\0fieldNode1t
\f\0\0\0PflIdentity1i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\19\0\0\0i
\1a\0\0\0g
\11ê-
\81\99\97q=((
\0\0\0RY
\0\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0Rb
\0\0\0Rc
\0\0\0RC
\0\0\0Rn
\0\0\0Re
\0\0\0R>
\0\0\0Rj
\0\0\0Rw
\ 1\0\0R
\1c\ 1\0\0RX
\ 1\0\0RB
\0\0\0R°
\0\0\0Rk
\0\0\0R{
\ 1\0\0Rà
\0\0\0R|
\ 1\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0R}
\0\0\0Rq
\0\0\0t
\0\0\0zipCoordsR³
\0\0\0R
\97\ 1\0\0Rd
\0\0\0R0
\0\0\0R1
\0\0\0R
\ 6\ 1\0\0R
\1d\ 1\0\0R¹
\0\0\0R)
\0\0\0R*
\0\0\0R~
\ 1\0\0R)
\ 1\0\0(
\1f\0\0\0R
\0\0\0R9
\ 1\0\0R
\ 3\ 2\0\0Rá
\0\0\0R
\84\0\0\0t
\ 5\0\0\0conn1Rî
\0\0\0R
\83\0\0\0t
\ 2\0\0\0dtt
\ 2\0\0\0itt
\ 3\0\0\0timRo
\ 2\0\0t
\ 4\0\0\0pfl0RÔ
\ 1\0\0Rä
\0\0\0Rq
\ 2\0\0t
\ 4\0\0\0pfl1t
\ 4\0\0\0arr1Rã
\0\0\0t
\ 3\0\0\0m00t
\ 5\0\0\0ff0_1t
\ 5\0\0\0ff0_2t
\ 5\0\0\0ff0_3t
\ 5\0\0\0ff0_4t
\ 3\0\0\0m10t
\ 5\0\0\0ff1_1t
\ 5\0\0\0ff1_2t
\ 5\0\0\0ff1_3t
\ 5\0\0\0ff1_4t
\ 5\0\0\0arr_rt
\ 6\0\0\0pfl1_r(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\16\0\0\0testMEDFieldPflOnNode1-
\a\0\0s¾
\0\0\0\0\ 1\ 6\ 1H
\ 1\ f\ 1\r\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1\1c\ 1
33961 +
\ 1\r\ 1\15\ 1\r\ 1<
\ 1\13\ 1#
\ 1\ 4\ 1
33962 +
\ 1\r\ 2 \ 1\10\ 1\10\ 2\ 6\0\ 6\0\ 6\ 1\ f\ 1\r\ 1\13\ 1\e\0\r\ 1\e\ 1\r\ 1 \ 1\16\ 1\10\0\10\ 1\ f\ 1\r\ 1\13\ 1!
\0\r\ 1!
\ 1\r\ 1 \ 1\16\ 1\10\ 1\ f\ 2\ f\ 1\ f\ 1\f\0\10\0\13\0
33963 +
\ 1\r\ 1\1e\ 1\12\ 1
33967 +
\ 1\1c\ 1\1e\ 1\ f\ 1\f\0"
\0\13\0
33972 +
\ 1\1f\ 1\19\ 1\19\ 1\1c\ 1\e\ 1\19\ 1\1f\ 1\13\ 1\16\ 1c
\ 1\0\0\0\1f\0\0\0\13\0\0\0C
\0\0\0s
\ 2\a\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 4\0g
\12\0d
\ 5\0d
\ 6\0\83\ 3\0}
\ 2\0t
\ 1\0d
\a\0d
\ 6\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 2\0d
\b\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0t
\ 4\0d
\0d
33973 +
\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 4\0d
33974 +
\0d
\b\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 5\0d
\v\0d
\f\0d
33975 +
\0d
\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 5\0d
\f\0d
\r\0d
\ e\0d
33976 +
\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 5\0d
33977 +
\0d
\ e\0d
\ f\0d
\b\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 6\0\83\0\0\ 1|
\ 3\0j
\a\0|
\ 2\0\83\ 1\0\ 1t
\ 1\0|
\ 3\0j
\b\0\83\0\0d
\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 2\0d
\ 5\0\83\ 1\0\ 1d
\v\0d
\0d
\v\0d
\f\0d
\f\0d
33981 +
\0d
\0d
\ 6\0d
\f\0d
\r\0d
\b\0d
\ f\0g
\12\0}
\ 5\0x7
\0t
\0d
\ 5\0\83\ 1\0D])
\0}
\ 6\0|
\ 4\0j
\ 3\0t
33982 +
\0|
\ 5\0d
\ 6\0|
\ 6\0\14d
\ 6\0|
\ 6\0\14d
\ 6\0\17!
\83\ 2\0\ 1qr
\ 1W|
\ 4\0j
\ 6\0\83\0\0\ 1|
\ 4\0j
\a\0|
\ 2\0\83\ 1\0\ 1t
\v\0\83\0\0}
\a\0|
\a\0j
\f\0d
\v\0|
\ 3\0\83\ 2\0\ 1|
\a\0j
\f\0d
\10\0|
\ 4\0\83\ 2\0\ 1d
\f\0}
\b\0d
\ 6\0}
\0d
\11\0}
33983 +
\0t
\r\0t
\ e\0t
\ f\0\83\ 2\0}
\v\0|
\v\0j
\10\0d
\12\0\83\ 1\0\ 1|
\v\0j
\11\0|
33984 +
\0|
\b\0|
\0\83\ 3\0\ 1t
\12\0d
\v\0d
\0d
\ 6\0g
\ 3\0\83\ 1\0}
\f\0|
\f\0j
\10\0d
\13\0\83\ 1\0\ 1t
\0\0d
\14\0d
\15\0d
\16\0g
\ 3\0\83\ 1\0}
\r\0|
\v\0j
\13\0|
\r\0\83\ 1\0\ 1t
\14\0\83\0\0}
\ e\0|
\ e\0j
\15\0|
\v\0|
\a\0d
\v\0|
\f\0\83\ 4\0\ 1|
\a\0j
\16\0|
\ 1\0d
\ 6\0\83\ 2\0\ 1|
\ e\0j
\16\0|
\ 1\0d
\v\0\83\ 2\0\ 1t
\r\0t
\ e\0t
\ f\0\83\ 2\0}
\ f\0|
\ f\0j
\10\0d
\17\0\83\ 1\0\ 1|
\ f\0j
\11\0|
33985 +
\0|
\b\0|
\0\83\ 3\0\ 1t
\12\0d
\v\0d
\0d
\ 6\0d
\f\0d
33986 +
\0d
\b\0d
\r\0g
\a\0\83\ 1\0}
\10\0|
\10\0j
\10\0d
\18\0\83\ 1\0\ 1t
\0\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0g
\a\0\83\ 1\0}
\11\0|
\ f\0j
\13\0|
\11\0\83\ 1\0\ 1t
\14\0\83\0\0}
\12\0|
\12\0j
\15\0|
\ f\0|
\a\0d
\10\0|
\10\0\83\ 4\0\ 1|
\12\0j
\16\0|
\ 1\0d
\v\0\83\ 2\0\ 1~
\a\0~
\ e\0~
\ 3\0~
\ 4\0~
\12\0t
\17\0j
\18\0|
\ 1\0\83\ 1\0}
\a\0|
\a\0j
\19\0d
\v\0\83\ 1\0}
\ 3\0|
\ 3\0j
\1a\0\83\0\0}
\13\0|
\13\0|
\f\0\19}
\13\0|
\13\0j
\10\0|
\a\0j
\b\0\83\0\0\83\ 1\0\ 1|
\v\0j
\e\0|
\13\0\83\ 1\0\ 1t
\14\0j
\18\0|
\ 1\0|
\v\0j
\b\0\83\0\0|
\b\0|
\0\83\ 4\0}
\ e\0|
\ e\0j
\1c\0t
\ e\0|
\ 3\0\83\ 2\0}
\14\0|
\14\0j
\1d\0\83\0\0\ 1|
\0\0j
\1e\0|
\14\0j
\1f\0|
\v\0d
\0d
\0\83\ 3\0\83\ 1\0\ 1|
\ e\0j
\0t
\ e\0d
\v\0\83\ 2\0}
\15\0|
\15\0j
\1d\0\83\0\0\ 1|
\0\0j
\1e\0|
\15\0j
\1f\0|
\v\0d
\0d
\0\83\ 3\0\83\ 1\0\ 1|
\ e\0j
\1c\0t
\ e\0d
\v\0|
\a\0\83\ 3\0}
\16\0|
\16\0j
\1d\0\83\0\0\ 1|
\0\0j
\1e\0|
\16\0j
\1f\0|
\v\0d
\0d
\0\83\ 3\0\83\ 1\0\ 1t!
\0|
\ 1\0|
\a\0j
\b\0\83\0\0d
\v\0|
\v\0j
\b\0\83\0\0|
\b\0|
\0\83\ 6\0}
\17\0|
\17\0j
\1d\0\83\0\0\ 1|
\0\0j
\1e\0|
\17\0j
\1f\0|
\v\0d
\0d
\0\83\ 3\0\83\ 1\0\ 1t
\14\0j
\18\0|
\ 1\0|
\ f\0j
\b\0\83\0\0|
\b\0|
\0\83\ 4\0}
\12\0|
\a\0j
\19\0d
\10\0\83\ 1\0}
\ 4\0|
\ 4\0j
\1a\0\83\0\0}
\18\0|
\18\0|
\10\0\19}
\18\0|
\18\0j
\10\0|
\a\0j
\b\0\83\0\0\83\ 1\0\ 1|
\ f\0j
\e\0|
\18\0\83\ 1\0\ 1|
\12\0j
\1c\0t
\ e\0|
\ 4\0\83\ 2\0}
\19\0|
\19\0j
\1d\0\83\0\0\ 1|
\0\0j
\1e\0|
\19\0j
\1f\0|
\ f\0d
\0d
\0\83\ 3\0\83\ 1\0\ 1|
\12\0j
\0t
\ e\0d
\10\0\83\ 2\0}
\1a\0|
\1a\0j
\1d\0\83\0\0\ 1|
\0\0j
\1e\0|
\1a\0j
\1f\0|
\ f\0d
\0d
\0\83\ 3\0\83\ 1\0\ 1|
\12\0j
\1c\0t
\ e\0d
\10\0|
\a\0\83\ 3\0}
\e\0|
\e\0j
\1d\0\83\0\0\ 1|
\0\0j
\1e\0|
\e\0j
\1f\0|
\ f\0d
\0d
\0\83\ 3\0\83\ 1\0\ 1t!
\0|
\ 1\0|
\a\0j
\b\0\83\0\0d
\10\0|
\ f\0j
\b\0\83\0\0|
\b\0|
\0\83\ 6\0}
\1c\0|
\1c\0j
\1d\0\83\0\0\ 1|
\0\0j
\1e\0|
\1c\0j"
\0\83\0\0j
\1f\0|
\18\0d
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j#
\0t$
\0|
\12\0j
\1c\0t
\ e\0|
\ 3\0\83\ 4\0\ 1|
\0\0j#
\0t$
\0|
\12\0j
\0t
\ e\0d
\v\0\83\ 4\0\ 1|
\0\0j#
\0t$
\0|
\12\0j
\1c\0t
\ e\0d
\v\0|
\a\0\83\ 5\0\ 1|
\12\0j%
\0t
\ e\0d
\10\0|
\a\0\83\ 3\0\
\ 2\0}
\1d\0}
\1e\0|
\1d\0j
\10\0|
\ f\0j&
\0\83\0\0j
\b\0\83\0\0\83\ 1\0\ 1|
\0\0j
\1e\0|
\1d\0j
\1f\0|
\ f\0j&
\0\83\0\0d
\0\83\ 2\0\83\ 1\0\ 1|
\1e\0j
\10\0|
\10\0j
\b\0\83\0\0\83\ 1\0\ 1|
\0\0j
\1e\0|
\1e\0j
\1f\0|
\10\0\83\ 1\0\83\ 1\0\ 1d
\0\0S(!
\0\0\0Ns
\f\0\0\0Pyfile52.medg
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0ð?i
\0\0\0i
\ 2\0\0\0Rn
\ 2\0\0i
\ 5\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\0\0\0\0i
\ 3\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0iÿÿÿÿg
\0\0\0\0\0\0\12@t
33987 +
\0\0\0fieldCell0Rp
\ 2\0\0i
33988 +
\0\0\0i
\v\0\0\0i
\f\0\0\0t
33989 +
\0\0\0fieldCell1Rr
\ 2\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\19\0\0\0i
\1a\0\0\0g
\11ê-
\81\99\97q=('
\0\0\0RY
\0\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0Rb
\0\0\0Rc
\0\0\0RC
\0\0\0Rn
\0\0\0Re
\0\0\0R>
\0\0\0Rj
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0RX
\ 1\0\0RB
\0\0\0R°
\0\0\0Rk
\0\0\0R{
\ 1\0\0Rà
\0\0\0R|
\ 1\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0R}
\0\0\0Rq
\0\0\0R³
\0\0\0R
\97\ 1\0\0Rd
\0\0\0R0
\0\0\0R1
\0\0\0R
\ 6\ 1\0\0R
\14\ 1\0\0R¹
\0\0\0R)
\0\0\0R*
\0\0\0R~
\ 1\0\0R)
\ 1\0\0(
\1f\0\0\0R
\0\0\0R9
\ 1\0\0R
\ 3\ 2\0\0Rá
\0\0\0R
\84\0\0\0Rt
\ 2\0\0Rî
\0\0\0R
\83\0\0\0Ru
\ 2\0\0Rv
\ 2\0\0Rw
\ 2\0\0R
\88\ 2\0\0Rx
\ 2\0\0RÔ
\ 1\0\0Rä
\0\0\0R
\89\ 2\0\0Ry
\ 2\0\0Rz
\ 2\0\0Rã
\0\0\0R{
\ 2\0\0R|
\ 2\0\0R}
\ 2\0\0R~
\ 2\0\0R
\7f\ 2\0\0R
\80\ 2\0\0R
\81\ 2\0\0R
\82\ 2\0\0R
\83\ 2\0\0R
\84\ 2\0\0R
\85\ 2\0\0R
\86\ 2\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\16\0\0\0testMEDFieldPflOnCell1
\87\a\0\0sº
\0\0\0\0\ 1\ 6\ 1H
\ 1\ f\ 1\r\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1\1c\ 1
33990 +
\ 1\r\ 1\15\ 1\r\ 1<
\ 1\13\ 1#
\ 1\ 4\ 1
33991 +
\ 1\r\ 2 \ 1\10\ 1\10\ 2\ 6\0\ 6\0\ 6\ 1\ f\ 1\r\ 1\13\ 1\15\0\r\ 1\15\ 1\r\ 1 \ 1\16\ 1\10\0\10\ 1\ f\ 1\r\ 1\13\ 1!
\0\r\ 1!
\ 1\r\ 1 \ 1\16\ 1\10\ 1\ f\ 2\ f\ 1\ f\ 1\f\0
33992 +
\0\13\ 1\r\ 1\1e\ 1\12\ 1
33996 +
\ 1\1c\ 1\1e\ 1\ f\ 1\f\0
33997 +
\0\13\ 1\r\ 1\12\ 1
34001 +
\ 1\1f\ 1\19\ 1\19\ 1\1c\ 1\e\ 1\19\ 1\1f\ 1\13\ 1\16\ 1c
\ 1\0\0\0
34002 +
\0\0\0\12\0\0\0C
\0\0\0s
\ 5\ 5\0\0t
\0\0\83\0\0}
\ 1\0t
\ 1\0d
\ 1\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0\83\ 1\0\ 1|
\ 2\0j
\ 3\0d
\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ 4\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 3\0\83\ 1\0\ 1t
\ 5\0d
\a\0d
\b\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 6\0d
\0\83\ 1\0\ 1|
\ 3\0j
\a\0t
\b\0d
34003 +
\0d
\b\0d
\ 3\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\a\0t
\0d
\b\0d
\v\0d
\ 3\0d
\v\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\a\0t
34005 +
\0d
\f\0d
\f\0d
\f\0d
\b\0g
\ 5\0\83\ 2\0\ 1t
\ 5\0d
\a\0d
34006 +
\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 6\0d
\0\83\ 1\0\ 1|
\ 4\0j
\a\0t
\v\0d
34007 +
\0d
\f\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\a\0t
\v\0d
\r\0d
\ 3\0g
\ 2\0\83\ 2\0\ 1t
\ 5\0d
\a\0d
\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 6\0d
\0\83\ 1\0\ 1|
\ 5\0j
\a\0t
\f\0d
\b\0g
\ 1\0\83\ 2\0\ 1|
\ 5\0j
\a\0t
\f\0d
\f\0g
\ 1\0\83\ 2\0\ 1|
\ 5\0j
\a\0t
\f\0d
\ e\0g
\ 1\0\83\ 2\0\ 1|
\ 3\0j
\r\0|
\ 2\0\83\ 1\0\ 1|
\ 1\0j
\ e\0d
\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\r\0|
\ 2\0\83\ 1\0\ 1|
\ 1\0j
\ e\0d
\ f\0|
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\r\0|
\ 2\0\83\ 1\0\ 1|
\ 1\0j
\ e\0d
\10\0|
\ 5\0\83\ 2\0\ 1t
\ f\0d
\11\0\83\ 1\0}
\ 6\0|
\ 6\0j
\ 2\0d
\ 3\0\83\ 1\0\ 1|
\ 1\0j
\10\0d
34008 +
\0|
\ 6\0\83\ 2\0\ 1t
\ f\0d
\11\0\83\ 1\0}
\a\0|
\a\0j
\ 2\0d
\v\0\83\ 1\0\ 1|
\ 1\0j
\11\0d
34009 +
\0|
\a\0\83\ 2\0\ 1t
\ f\0d
\12\0d
\ 1\0d
\13\0g
\ 3\0\83\ 1\0}
\b\0|
\ 1\0j
\10\0d
\0|
\b\0\83\ 2\0\ 1t
\ f\0d
\14\0d
\15\0d
\16\0g
\ 3\0\83\ 1\0}
\b\0|
\ 1\0j
\11\0d
\0|
\b\0\83\ 2\0\ 1t
\ f\0d
\17\0d
\18\0g
\ 2\0\83\ 1\0}
\b\0|
\ 1\0j
\10\0d
\ f\0|
\b\0\83\ 2\0\ 1t
\ f\0d
\19\0d
\1a\0g
\ 2\0\83\ 1\0}
\b\0|
\ 1\0j
\11\0d
\ f\0|
\b\0\83\ 2\0\ 1t
\ f\0d
\e\0d
\1c\0d
\1d\0g
\ 3\0\83\ 1\0}
\b\0|
\ 1\0j
\10\0d
\10\0|
\b\0\83\ 2\0\ 1t
\ f\0d
\1e\0d
\1f\0d
\0g
\ 3\0\83\ 1\0}
\b\0|
\ 1\0j
\11\0d
\10\0|
\b\0\83\ 2\0\ 1|
\ 1\0j
\12\0\83\0\0}
\0|
\0\0j
\13\0|
\0j
\14\0t
\ f\0d
\ f\0d
\0d
34010 +
\0d
\b\0d
\ 3\0d
\ f\0d
\v\0d!
\0d
\f\0d
\ f\0g
34011 +
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 1\0j
\15\0d
34012 +
\0\83\ 1\0j
\14\0t
\ f\0d
\v\0d!
\0d
\f\0d
\r\0d"
\0d
\11\0d#
\0g
\a\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 1\0j
\16\0d
34013 +
\0\83\ 1\0j
\14\0t
\ f\0d!
\0d
\f\0d
\r\0d
\ e\0d
\11\0d#
\0d$
\0g
\a\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 1\0j
\17\0d
\0\83\ 1\0j
\18\0\83\0\0j
\14\0t
\ f\0d
\ 3\0d
\0d
34015 +
\0d
\ 3\0d
\b\0d
\ 3\0d!
\0d
\0d
\v\0d
\v\0d
\v\0d
34016 +
\0g
\ f\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 1\0j
\17\0d
\0\83\ 1\0j
\19\0\83\0\0j
\14\0t
\ f\0d
\0d
\v\0d"
\0d%
\0g
\ 4\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 1\0j
\17\0d
\ f\0\83\ 1\0j
\18\0\83\0\0j
\14\0t
\ f\0d
34018 +
\0d!
\0d
\b\0g
\ 6\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 1\0j
\17\0d
\ f\0\83\ 1\0j
\19\0\83\0\0j
\14\0t
\ f\0d
\0d
\ 3\0d
\f\0g
\ 3\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 1\0j
\17\0d
\10\0\83\ 1\0j
\18\0\83\0\0j
\14\0t
\ f\0d
\0d
34019 +
\0d
\0d
\v\0d
\0d
\f\0g
\ 6\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 1\0j
\17\0d
\10\0\83\ 1\0j
\19\0\83\0\0j
\14\0t
\ f\0d
\0d
\b\0d
\v\0d
\f\0g
\ 4\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1d
\0\0S(&
\0\0\0Ni
\1e\0\0\0g
\0\0\0\0\0\0ð?i
\ 3\0\0\0s
\a\0\0\0aaa [b]s
\a\0\0\0cc [dd]s
\a\0\0\0e [fff]t
\ 4\0\0\0totoi
\ 2\0\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0iÿÿÿÿiþÿÿÿi
34020 +
\0\0\0i
\14\0\0\0i(
\0\0\0iÈ
\0\0\0i,
\ 1\0\0i
\90\ 1\0\0i2
\0\0\0i<
\0\0\0iô
\ 1\0\0iX
\ 2\0\0iF
\0\0\0iP
\0\0\0iZ
\0\0\0i¼
\ 2\0\0i
\ 3\0\0i
\84\ 3\0\0i
\ 5\0\0\0i
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\ f\0\0\0(
\1a\0\0\0R>
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rz
\ 1\0\0RÃ
\ 1\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0Ra
\0\0\0Re
\0\0\0Rg
\0\0\0Rc
\0\0\0Rj
\0\0\0Rk
\0\0\0R
\98\0\0\0R¶
\0\0\0Rs
\ 2\0\0R0
\0\0\0R1
\0\0\0t
\15\0\0\0getNumberFieldAtLevelR
\9e\0\0\0R}
\0\0\0Rv
\0\0\0Rw
\0\0\0(
34021 +
\0\0\0R
\0\0\0R
\83\0\0\0R
\ 3\ 2\0\0Rá
\0\0\0R
\84\0\0\0R
\85\0\0\0t
\ 6\0\0\0numCoot
\ 6\0\0\0famCooR¼
\0\0\0t
\ 3\0\0\0o2n(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testMEDFileUMeshZipCoords1à
\a\0\0sl
\0\0\0\0\ 1 \ 1\f\0\r\0\r\0\16\ 1\ f\0\r\0\19\0\1c\0\1f\ 1\ f\0\r\0\16\0\16\ 1\ f\0\r\0\13\0\13\0\13\ 1\r\0\10\ 1\r\0\10\ 1\r\0\10\ 1\f\0\r\0\10\ 1\f\0\r\0\10\ 1\15\0\10\0\15\0\10\ 1\12\0\10\0\12\0\10\ 1\15\0\10\0\15\0\10\ 1\f\ 1:
\ 1:
\ 1:
\ 1X
\ 17
\ 1=
\ 14
\ 1=
\ 17
\ 1c
\ 1\0\0\0\13\0\0\0\10\0\0\0C
\0\0\0s×
\a\0\0d
\ 1\0}
\ 1\0t
\0\0\83\0\0}
\ 2\0t
\ 1\0d
\ 2\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 2\0d
\ 3\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\ 4\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 3\0\83\ 1\0\ 1t
\ 5\0d
\b\0d
\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 6\0d
34022 +
\0\83\ 1\0\ 1|
\ 4\0j
\a\0t
\b\0d
\v\0d
\0d
\ 4\0g
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\a\0t
\0d
\0d
\f\0d
\ 4\0d
\f\0g
\ 4\0\83\ 2\0\ 1|
\ 4\0j
\a\0t
34023 +
\0d
\v\0d
\r\0d
\r\0d
\r\0d
\0g
\ 5\0\83\ 2\0\ 1t
\ 5\0d
\b\0d
\v\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 6\0d
34024 +
\0\83\ 1\0\ 1|
\ 5\0j
\a\0t
\v\0d
\v\0d
\r\0g
\ 2\0\83\ 2\0\ 1|
\ 5\0j
\a\0t
\v\0d
\ e\0d
\ 4\0g
\ 2\0\83\ 2\0\ 1t
\ 5\0d
\b\0d
34025 +
\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 6\0d
34026 +
\0\83\ 1\0\ 1|
\ 6\0j
\a\0t
\f\0d
\0g
\ 1\0\83\ 2\0\ 1|
\ 6\0j
\a\0t
\f\0d
\r\0g
\ 1\0\83\ 2\0\ 1|
\ 6\0j
\a\0t
\f\0d
\ f\0g
\ 1\0\83\ 2\0\ 1|
\ 4\0j
\r\0|
\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ e\0d
34027 +
\0|
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\r\0|
\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ e\0d
\10\0|
\ 5\0\83\ 2\0\ 1|
\ 6\0j
\r\0|
\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ e\0d
\11\0|
\ 6\0\83\ 2\0\ 1|
\ 2\0j
\ f\0\83\0\0}
\a\0t
\10\0d
34034 +
\0d
\10\0d
\ 4\0g
\r\0\83\ 1\0}
\b\0|
\a\0j
\11\0d
\v\0|
\b\0\83\ 2\0\ 1t
\10\0d
34037 +
\0g
\ 3\0\83\ 1\0}
\0|
\a\0j
\11\0d
34038 +
\0|
\0\83\ 2\0\ 1t
\10\0d
34039 +
\0d
\ 4\0g
\ 2\0\83\ 1\0}
34040 +
\0|
\a\0j
\11\0d
\10\0|
34041 +
\0\83\ 2\0\ 1t
\10\0d
34044 +
\0g
\ 3\0\83\ 1\0}
\v\0|
\a\0j
\11\0d
\11\0|
\v\0\83\ 2\0\ 1|
\a\0j
\12\0d
\12\0d
\0\83\ 2\0\ 1|
\a\0j
\12\0d
\13\0d
\ 4\0\83\ 2\0\ 1|
\a\0j
\12\0d
\14\0d
\10\0\83\ 2\0\ 1|
\a\0j
\13\0d
\15\0d
\13\0g
\ 1\0\83\ 2\0\ 1|
\a\0j
\13\0d
\16\0d
\14\0g
\ 1\0\83\ 2\0\ 1|
\0\0j
\14\0|
\a\0j
\15\0d
\12\0d
\13\0g
\ 2\0\83\ 1\0j
\16\0t
\10\0d
\v\0d
\ 4\0d
\f\0d
\17\0g
\ 4\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1t
\10\0d
\v\0d
\ 4\0d
\f\0d
\r\0d
\18\0d
\19\0d
\17\0g
\a\0\83\ 1\0}
\f\0|
\f\0j
\17\0d
\1a\0\83\ 1\0\ 1|
\a\0j
\18\0|
\f\0\83\ 1\0\ 1|
\0\0j
\14\0|
\a\0j
\19\0|
\f\0j
\1a\0\83\0\0\83\ 1\0j
\16\0|
\f\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\14\0|
\a\0j
\e\0d
\1a\0d
\16\0g
\ 2\0\83\ 1\0j
\16\0t
\10\0d
\v\0d
\ 4\0d
\f\0d
\r\0d
\18\0d
\19\0d
\e\0d
\17\0g
\b\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1t
\10\0d
\v\0d
\f\0g
\ 2\0\83\ 1\0}
\r\0|
\r\0j
\17\0d
\12\0\83\ 1\0\ 1|
\0\0j
\14\0|
\a\0j
\1c\0|
\r\0j
\1a\0\83\0\0\83\ 1\0j
\16\0|
\r\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\14\0|
\a\0j
\1d\0d
\v\0|
\f\0j
\1a\0\83\0\0\83\ 2\0j
\16\0|
\f\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\14\0|
\a\0j
\1e\0d
\v\0\83\ 1\0j
\16\0t
\10\0d
\r\0d
\0d
\r\0d
\ f\0d
\0d
\r\0d
\1c\0d
\r\0d
\r\0d
\ e\0d
\ e\0d
\f\0d
\ f\0g
\r\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1xN
\0d
34045 +
\0|
\0f
\ 2\0d
\10\0|
34046 +
\0f
\ 2\0d
\11\0|
\v\0f
\ 2\0g
\ 3\0D]+
\0\
\ 2\0}
\ e\0}
\ f\0|
\0\0j
\14\0|
\a\0j
\1e\0|
\ e\0\83\ 1\0j
\16\0|
\ f\0\83\ 1\0\83\ 1\0\ 1qt
\ 4W|
\0\0j
\1f\0|
\a\0j
\0\83\0\0d"
\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\a\0j!
\0\83\0\0d#
\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\a\0j"
\0d
\ 4\0\83\ 1\0d
\13\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\a\0j"
\0d
\0\83\ 1\0d
\12\0\83\ 2\0\ 1x9
\0d$
\0d%
\0d&
\0d'
\0g
\ 4\0D]%
\0\
\ 2\0}
\10\0}
\11\0|
\0\0j
\1f\0|
\a\0j"
\0|
\11\0\83\ 1\0|
\10\0\83\ 2\0\ 1q
\14\ 5W|
\0\0j
\1f\0|
\a\0j#
\0d
\15\0\83\ 1\0d(
\0\83\ 2\0\ 1t
\10\0d
\ 4\0d
\17\0g
\ 2\0\83\ 1\0}
\12\0|
\12\0j
\17\0d
\15\0\83\ 1\0\ 1|
\0\0j
\14\0|
\a\0j
\1d\0d
\v\0d
\15\0\83\ 2\0j
\16\0|
\12\0\83\ 1\0\83\ 1\0\ 1|
\12\0j$
\0d
\v\0g
\ 1\0\83\ 1\0\ 1|
\0\0j
\14\0|
\a\0j
\1d\0d
\10\0d
\15\0\83\ 2\0j
\16\0|
\12\0\83\ 1\0\83\ 1\0\ 1|
\a\0j%
\0|
\ 1\0d
\0\83\ 2\0\ 1t&
\0j'
\0|
\ 1\0\83\ 1\0}
\a\0|
\0\0j
\14\0|
\a\0j
\1d\0d
\v\0|
\f\0j
\1a\0\83\0\0\83\ 2\0j
\16\0|
\f\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\14\0|
\a\0j
\1e\0d
\v\0\83\ 1\0j
\16\0t
\10\0d
\r\0d
\0d
\r\0d
\ f\0d
\0d
\r\0d
\1c\0d
\r\0d
\r\0d
\ e\0d
\ e\0d
\f\0d
\ f\0g
\r\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1xN
\0d
34047 +
\0|
\0f
\ 2\0d
\10\0|
34048 +
\0f
\ 2\0d
\11\0|
\v\0f
\ 2\0g
\ 3\0D]+
\0\
\ 2\0}
\ e\0}
\ f\0|
\0\0j
\14\0|
\a\0j
\1e\0|
\ e\0\83\ 1\0j
\16\0|
\ f\0\83\ 1\0\83\ 1\0\ 1q~
\ 6W|
\0\0j
\1f\0|
\a\0j
\0\83\0\0d)
\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\a\0j!
\0\83\0\0d*
\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\a\0j"
\0d
\ 4\0\83\ 1\0d
\13\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\a\0j"
\0d
\0\83\ 1\0d
\12\0\83\ 2\0\ 1x9
\0d+
\0d,
\0d-
\0d.
\0g
\ 4\0D]%
\0\
\ 2\0}
\10\0}
\11\0|
\0\0j
\1f\0|
\a\0j"
\0|
\11\0\83\ 1\0|
\10\0\83\ 2\0\ 1q
\1e\aW|
\0\0j
\1f\0|
\a\0j#
\0d
\15\0\83\ 1\0d/
\0\83\ 2\0\ 1t
\10\0d
\ 4\0d
\17\0g
\ 2\0\83\ 1\0}
\12\0|
\12\0j
\17\0d
\15\0\83\ 1\0\ 1|
\0\0j
\14\0|
\a\0j
\1d\0d
\v\0d
\15\0\83\ 2\0j
\16\0|
\12\0\83\ 1\0\83\ 1\0\ 1|
\12\0j$
\0d
\v\0g
\ 1\0\83\ 1\0\ 1|
\0\0j
\14\0|
\a\0j
\1d\0d
\10\0d
\15\0\83\ 2\0j
\16\0|
\12\0\83\ 1\0\83\ 1\0\ 1d
\0\0S(0
\0\0\0Ns
\f\0\0\0Pyfile53.medi'
\0\0\0g
\0\0\0\0\0\0ð?i
\ 3\0\0\0s
\a\0\0\0aaa [b]s
\a\0\0\0cc [dd]s
\a\0\0\0e [fff]R
\8b\ 2\0\0i
\ 2\0\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0iÿÿÿÿiþÿÿÿt
\ 5\0\0\0MyFamt
34049 +
\0\0\0MyOtherFams
\0\0\0MyOther-1t
\ 4\0\0\0grp0t
\ 4\0\0\0grpAi
\f\0\0\0i
\0\0\0i
34050 +
\0\0\0t
\ 4\0\0\0grp1i
\v\0\0\0i
\ 5\0\0\0t
\b\0\0\0Family_4t
\b\0\0\0Family_5t
\b\0\0\0Family_7t
\b\0\0\0Family_8t
\f\0\0\0FAMILLE_ZERO(
\a\0\0\0R
\96\ 2\0\0R
\97\ 2\0\0R
\98\ 2\0\0R
\99\ 2\0\0R
\91\ 2\0\0s
\0\0\0MyOther-1R
\92\ 2\0\0(
\ 3\0\0\0s
\ 4\0\0\0grp0s
\ 4\0\0\0grp1R
\94\ 2\0\0(
\ 2\0\0\0R
\96\ 2\0\0i
\ 4\0\0\0(
\ 2\0\0\0R
\97\ 2\0\0i
\ 5\0\0\0(
\ 2\0\0\0R
\98\ 2\0\0i
\a\0\0\0(
\ 2\0\0\0R
\99\ 2\0\0i
\b\0\0\0(
\ 2\0\0\0R
\92\ 2\0\0R
\99\ 2\0\0(
\b\0\0\0s
\f\0\0\0FAMILLE_ZEROR
\96\ 2\0\0R
\97\ 2\0\0R
\98\ 2\0\0R
\99\ 2\0\0R
\91\ 2\0\0s
\0\0\0MyOther-1R
\92\ 2\0\0(
\ 3\0\0\0s
\ 4\0\0\0grp0s
\ 4\0\0\0grp1R
\94\ 2\0\0(
\ 2\0\0\0R
\96\ 2\0\0i
\ 4\0\0\0(
\ 2\0\0\0R
\97\ 2\0\0i
\ 5\0\0\0(
\ 2\0\0\0R
\98\ 2\0\0i
\a\0\0\0(
\ 2\0\0\0R
\99\ 2\0\0i
\b\0\0\0(
\ 2\0\0\0R
\99\ 2\0\0R
\92\ 2\0\0((
\0\0\0R>
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rz
\ 1\0\0RÃ
\ 1\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0Ra
\0\0\0Re
\0\0\0Rg
\0\0\0Rc
\0\0\0Rj
\0\0\0Rq
\0\0\0Rk
\0\0\0R¶
\0\0\0R·
\0\0\0t
\12\0\0\0setFamiliesOnGroupR0
\0\0\0t
\12\0\0\0getNodeFamiliesArrR1
\0\0\0RB
\0\0\0t
\f\0\0\0addNodeGroupt
\ f\0\0\0getNodeGroupArrRC
\0\0\0t
\10\0\0\0getNodeGroupsArrRM
\0\0\0RG
\0\0\0R
\9e\0\0\0R+
\0\0\0R³
\ 1\0\0R²
\ 1\0\0RL
\0\0\0R
\9a\0\0\0RZ
\0\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0(
\13\0\0\0R
\0\0\0R9
\ 1\0\0R
\83\0\0\0R
\ 3\ 2\0\0Rá
\0\0\0R
\84\0\0\0R
\85\0\0\0R
\86\0\0\0R
\8e\ 2\0\0RÈ
\ 1\0\0R©
\0\0\0RÇ
\ 1\0\0t
\ 6\0\0\0daTestt
\a\0\0\0expect1R¥
\0\0\0RÔ
\ 1\0\0t
\a\0\0\0famNamet
\ 5\0\0\0famIdR¼
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\19\0\0\0testMEDUMeshAddNodeGroup1ú
\a\0\0s°
\0\0\0\0\ 1\ 6\ 1 \ 1\f\0\r\0\r\0\16\ 1\ f\0\r\0\19\0\1c\0\1f\ 1\ f\0\r\0\16\0\16\ 1\ f\0\r\0\13\0\13\0\13\ 1\r\0\10\ 1\r\0\10\ 1\r\0\10\ 2\f\ 13
\0\10\ 1\15\0\10\ 1\12\0\10\ 1\15\0\10\ 1\10\ 1\10\ 1\10\ 1\13\ 1\13\ 27
\ 2!
\0\r\ 1\r\ 1%
\ 1C
\ 2\12\0\r\ 1%
\ 2(
\ 1L
\ 1.
\ 1\1f\ 1\ 4\ 1\16\ 1\16\ 1\19\ 1\19\ 1\1f\ 1\19\ 1\ 4\ 1\19\ 1\12\0\r\ 1"
\ 1\10\ 1"
\ 1\10\ 1\ f\ 1(
\ 1L
\ 1.
\ 1\1f\ 1\ 4\ 1\16\ 1\16\ 1\19\ 1\19\ 1\1f\ 1\19\ 1\ 4\ 1\19\ 1\12\0\r\ 1"
\ 1\10\ 1"
\ 1c
\ 1\0\0\0\13\0\0\0\10\0\0\0C
\0\0\0s?
\a\0\0d
\ 1\0}
\ 1\0t
\0\0\83\0\0}
\ 2\0t
\ 1\0d
\ 2\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 2\0d
\ 3\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\ 4\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 3\0\83\ 1\0\ 1t
\ 5\0d
\b\0d
\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 6\0d
34051 +
\0\83\ 1\0\ 1x-
\0t
\a\0d
\v\0\83\ 1\0D]
\1f\0}
\ 5\0|
\ 4\0j
\b\0t
\0d
\f\0d
\0d
\f\0g
\ 3\0\83\ 2\0\ 1qt
\0Wx0
\0t
\a\0d
\r\0\83\ 1\0D]"
\0}
\ 5\0|
\ 4\0j
\b\0t
34053 +
\0g
\ 4\0\83\ 2\0\ 1q¤
\0Wx6
\0t
\a\0d
\0\83\ 1\0D](
\0}
\ 5\0|
\ 4\0j
\b\0t
\v\0d
34055 +
\0d
\f\0d
\f\0d
\0d
\0g
\ 6\0\83\ 2\0\ 1q×
\0Wt
\ 5\0d
\b\0d
\f\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 6\0d
34056 +
\0\83\ 1\0\ 1|
\ 6\0j
\b\0t
\f\0d
\f\0d
\ e\0g
\ 2\0\83\ 2\0\ 1|
\ 6\0j
\b\0t
\f\0d
\v\0d
\ 4\0g
\ 2\0\83\ 2\0\ 1t
\ 5\0d
\b\0d
34057 +
\0\83\ 2\0}
\a\0|
\a\0j
\ 6\0d
34058 +
\0\83\ 1\0\ 1|
\a\0j
\b\0t
\r\0d
\0g
\ 1\0\83\ 2\0\ 1|
\a\0j
\b\0t
\r\0d
\ e\0g
\ 1\0\83\ 2\0\ 1|
\a\0j
\b\0t
\r\0d
\ f\0g
\ 1\0\83\ 2\0\ 1|
\ 4\0j
\ e\0|
\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ f\0d
34059 +
\0|
\ 4\0\83\ 2\0\ 1|
\ 6\0j
\ e\0|
\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ f\0d
\10\0|
\ 6\0\83\ 2\0\ 1|
\a\0j
\ e\0|
\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ f\0d
\11\0|
\a\0\83\ 2\0\ 1|
\ 2\0j
\10\0\83\0\0}
\b\0t
\11\0d
34066 +
\0d
\10\0d
\ 4\0g
\r\0\83\ 1\0}
\0|
\b\0j
\12\0d
34067 +
\0|
\0\83\ 2\0\ 1t
\11\0d
34071 +
\0|
\b\0j
\12\0d
\f\0|
34072 +
\0\83\ 2\0\ 1t
\11\0d
34073 +
\0d
\ 4\0g
\ 2\0\83\ 1\0}
\v\0|
\b\0j
\12\0d
\10\0|
\v\0\83\ 2\0\ 1t
\11\0d
34076 +
\0g
\ 3\0\83\ 1\0}
\f\0|
\b\0j
\12\0d
\11\0|
\f\0\83\ 2\0\ 1|
\b\0j
\13\0d
\12\0d
\0\83\ 2\0\ 1|
\b\0j
\13\0d
\13\0d
\ 4\0\83\ 2\0\ 1|
\b\0j
\13\0d
\14\0d
\10\0\83\ 2\0\ 1|
\b\0j
\14\0d
\15\0d
\13\0g
\ 1\0\83\ 2\0\ 1|
\b\0j
\14\0d
\16\0d
\14\0g
\ 1\0\83\ 2\0\ 1t
\11\0d
\f\0d
\ 4\0d
\r\0d
\ e\0d
\ 2\0d
\17\0d
\18\0g
\a\0\83\ 1\0}
\r\0|
\r\0j
\15\0d
\19\0\83\ 1\0\ 1|
\b\0j
\16\0d
34077 +
\0|
\r\0\83\ 2\0\ 1|
\0\0j
\17\0|
\b\0j
\18\0d
34078 +
\0|
\r\0j
\19\0\83\0\0\83\ 2\0j
\1a\0|
\r\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\17\0|
\b\0j
\e\0d
34079 +
\0\83\ 1\0j
\1a\0t
\11\0d
\1a\0d
\0d
\1a\0d
\e\0d
\0d
\1a\0d
\1c\0d
\1a\0d
\1a\0d
\1d\0d
\1d\0d
\1e\0d
\e\0g
\r\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1xN
\0d
\f\0|
34080 +
\0f
\ 2\0d
\10\0|
\v\0f
\ 2\0d
\11\0|
\f\0f
\ 2\0g
\ 3\0D]+
\0\
\ 2\0}
\ e\0}
\ f\0|
\0\0j
\17\0|
\b\0j
\e\0|
\ e\0\83\ 1\0j
\1a\0|
\ f\0\83\ 1\0\83\ 1\0\ 1qÜ
\ 3W|
\0\0j
\1c\0|
\b\0j
\1d\0\83\0\0d$
\0\83\ 2\0\ 1|
\0\0j
\1c\0|
\b\0j
\1e\0\83\0\0d%
\0\83\ 2\0\ 1|
\0\0j
\1c\0|
\b\0j
\1f\0d
\ 4\0\83\ 1\0d
\13\0\83\ 2\0\ 1|
\0\0j
\1c\0|
\b\0j
\1f\0d
\0\83\ 1\0d
\12\0\83\ 2\0\ 1x9
\0d&
\0d'
\0d(
\0d)
\0g
\ 4\0D]%
\0\
\ 2\0}
\10\0}
\11\0|
\0\0j
\1c\0|
\b\0j
\1f\0|
\11\0\83\ 1\0|
\10\0\83\ 2\0\ 1q|
\ 4W|
\0\0j
\1c\0|
\b\0j
\0d
\15\0\83\ 1\0d*
\0\83\ 2\0\ 1t
\11\0d
\ 4\0d
\18\0g
\ 2\0\83\ 1\0}
\12\0|
\12\0j
\15\0d
\15\0\83\ 1\0\ 1|
\0\0j
\17\0|
\b\0j
\18\0d
34081 +
\0d
\15\0\83\ 2\0j
\1a\0|
\12\0\83\ 1\0\83\ 1\0\ 1|
\12\0j!
\0d
\f\0g
\ 1\0\83\ 1\0\ 1|
\0\0j
\17\0|
\b\0j
\18\0d
\10\0d
\15\0\83\ 2\0j
\1a\0|
\12\0\83\ 1\0\83\ 1\0\ 1|
\b\0j"
\0|
\ 1\0d
\0\83\ 2\0\ 1t#
\0j$
\0|
\ 1\0\83\ 1\0}
\b\0|
\0\0j
\17\0|
\b\0j
\18\0d
34082 +
\0|
\r\0j
\19\0\83\0\0\83\ 2\0j
\1a\0|
\r\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\17\0|
\b\0j
\e\0d
34083 +
\0\83\ 1\0j
\1a\0t
\11\0d
\1a\0d
\0d
\1a\0d
\e\0d
\0d
\1a\0d
\1c\0d
\1a\0d
\1a\0d
\1d\0d
\1d\0d
\1e\0d
\e\0g
\r\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1xN
\0d
\f\0|
34084 +
\0f
\ 2\0d
\10\0|
\v\0f
\ 2\0d
\11\0|
\f\0f
\ 2\0g
\ 3\0D]+
\0\
\ 2\0}
\ e\0}
\ f\0|
\0\0j
\17\0|
\b\0j
\e\0|
\ e\0\83\ 1\0j
\1a\0|
\ f\0\83\ 1\0\83\ 1\0\ 1qæ
\ 5W|
\0\0j
\1c\0|
\b\0j
\1d\0\83\0\0d+
\0\83\ 2\0\ 1|
\0\0j
\1c\0|
\b\0j
\1e\0\83\0\0d,
\0\83\ 2\0\ 1|
\0\0j
\1c\0|
\b\0j
\1f\0d
\ 4\0\83\ 1\0d
\13\0\83\ 2\0\ 1|
\0\0j
\1c\0|
\b\0j
\1f\0d
\0\83\ 1\0d
\12\0\83\ 2\0\ 1x9
\0d-
\0d.
\0d/
\0d0
\0g
\ 4\0D]%
\0\
\ 2\0}
\10\0}
\11\0|
\0\0j
\1c\0|
\b\0j
\1f\0|
\11\0\83\ 1\0|
\10\0\83\ 2\0\ 1q
\86\ 6W|
\0\0j
\1c\0|
\b\0j
\0d
\15\0\83\ 1\0d1
\0\83\ 2\0\ 1t
\11\0d
\ 4\0d
\18\0g
\ 2\0\83\ 1\0}
\12\0|
\12\0j
\15\0d
\15\0\83\ 1\0\ 1|
\0\0j
\17\0|
\b\0j
\18\0d
34085 +
\0d
\15\0\83\ 2\0j
\1a\0|
\12\0\83\ 1\0\83\ 1\0\ 1|
\12\0j!
\0d
\f\0g
\ 1\0\83\ 1\0\ 1|
\0\0j
\17\0|
\b\0j
\18\0d
\10\0d
\15\0\83\ 2\0j
\1a\0|
\12\0\83\ 1\0\83\ 1\0\ 1d
\0\0S(2
\0\0\0Ns
\f\0\0\0Pyfile54.medi
\0\0\0g
\0\0\0\0\0\0ð?i
\ 3\0\0\0s
\a\0\0\0aaa [b]s
\a\0\0\0cc [dd]s
\a\0\0\0e [fff]R
\8b\ 2\0\0i
\ 2\0\0\0i
\0\0\0\0i
\a\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0i
\b\0\0\0iÿÿÿÿiþÿÿÿR
\91\ 2\0\0R
\92\ 2\0\0s
\0\0\0MyOther-1R
\93\ 2\0\0R
\94\ 2\0\0i
34086 +
\0\0\0i
\f\0\0\0R
\95\ 2\0\0iúÿÿÿiøÿÿÿiûÿÿÿiùÿÿÿiüÿÿÿs
\0\0\0Family_-4s
\0\0\0Family_-5s
\0\0\0Family_-7s
\0\0\0Family_-8R
\9a\ 2\0\0(
\a\0\0\0s
\0\0\0Family_-4s
\0\0\0Family_-5s
\0\0\0Family_-7s
\0\0\0Family_-8s
\ 5\0\0\0MyFams
\0\0\0MyOther-1s
34087 +
\0\0\0MyOtherFam(
\ 3\0\0\0s
\ 4\0\0\0grp0s
\ 4\0\0\0grp1s
\ 4\0\0\0grpA(
\ 2\0\0\0s
\0\0\0Family_-4iüÿÿÿ(
\ 2\0\0\0s
\0\0\0Family_-5iûÿÿÿ(
\ 2\0\0\0s
\0\0\0Family_-7iùÿÿÿ(
\ 2\0\0\0s
\0\0\0Family_-8iøÿÿÿ(
\ 2\0\0\0s
34088 +
\0\0\0MyOtherFams
\0\0\0Family_-8(
\b\0\0\0s
\f\0\0\0FAMILLE_ZEROs
\0\0\0Family_-4s
\0\0\0Family_-5s
\0\0\0Family_-7s
\0\0\0Family_-8s
\ 5\0\0\0MyFams
\0\0\0MyOther-1s
34089 +
\0\0\0MyOtherFam(
\ 3\0\0\0s
\ 4\0\0\0grp0s
\ 4\0\0\0grp1s
\ 4\0\0\0grpA(
\ 2\0\0\0s
\0\0\0Family_-4iüÿÿÿ(
\ 2\0\0\0s
\0\0\0Family_-5iûÿÿÿ(
\ 2\0\0\0s
\0\0\0Family_-7iùÿÿÿ(
\ 2\0\0\0s
\0\0\0Family_-8iøÿÿÿ(
\ 2\0\0\0s
\0\0\0Family_-8s
34090 +
\0\0\0MyOtherFam(%
\0\0\0R>
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rz
\ 1\0\0RÃ
\ 1\0\0R[
\0\0\0R]
\0\0\0Rn
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0Ra
\0\0\0Re
\0\0\0Rg
\0\0\0Rc
\0\0\0Rj
\0\0\0Rq
\0\0\0Rk
\0\0\0R¶
\0\0\0R·
\0\0\0R
\9b\ 2\0\0RB
\0\0\0t
\b\0\0\0addGroupR0
\0\0\0RG
\0\0\0RC
\0\0\0R1
\0\0\0R
\9e\0\0\0R+
\0\0\0R³
\ 1\0\0R²
\ 1\0\0RL
\0\0\0R
\9a\0\0\0RZ
\0\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0(
\13\0\0\0R
\0\0\0R9
\ 1\0\0R
\83\0\0\0R
\ 3\ 2\0\0Rá
\0\0\0Rî
\0\0\0R
\84\0\0\0R
\85\0\0\0R
\86\0\0\0R
\8e\ 2\0\0RÈ
\ 1\0\0R©
\0\0\0RÇ
\ 1\0\0R
\ 2\0\0R¥
\0\0\0RÔ
\ 1\0\0R¢
\ 2\0\0R£
\ 2\0\0R¼
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\15\0\0\0testMEDUMeshAddGroup1@
\b\0\0s°
\0\0\0\0\ 1\ 6\ 1 \ 1\f\0\r\0\r\0\16\ 1\ f\0\r\ 1\13\ 1\19\ 1\ 4\ 1\13\ 1\1c\ 1\ 4\ 1\13\ 1"
\ 1\ 4\ 1\ f\0\r\0\16\0\16\ 1\ f\0\r\0\13\0\13\0\13\ 1\r\0\10\ 1\r\0\10\ 1\r\0\10\ 2\f\ 13
\0\10\ 1\15\0\10\ 1\12\0\10\ 1\15\0\10\ 1\10\ 1\10\ 1\10\ 1\13\ 1\13\ 2!
\0\r\ 1\10\ 1(
\ 1L
\ 1.
\ 1\1f\ 1\ 4\ 1\16\ 1\16\ 1\19\ 1\19\ 1\1f\ 1\19\ 1\ 4\ 1\19\ 1\12\0\r\ 1"
\ 1\10\ 1"
\ 1\10\ 1\ f\ 1(
\ 1L
\ 1.
\ 1\1f\ 1\ 4\ 1\16\ 1\16\ 1\19\ 1\19\ 1\1f\ 1\19\ 1\ 4\ 1\19\ 1\12\0\r\ 1"
\ 1\10\ 1"
\ 1c
\ 1\0\0\0\f\0\0\0\b\0\0\0C
\0\0\0s)
\ 3\0\0t
\0\0\83\0\0}
\ 1\0|
\ 1\0j
\ 1\0\83\0\0}
\ 2\0|
\ 1\0j
\ 2\0d
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\ 1\0j
\ 1\0\83\0\0|
\ 2\0\18}
\ 3\0~
\ 1\0~
\ 2\0t
\ 3\0\83\0\0}
\ 4\0t
\ 4\0d
\ 3\0d
\ 2\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 5\0d
\ 1\0\83\ 1\0\ 1|
\ 4\0j
\ 6\0|
\ 5\0|
\ 5\0\83\ 2\0\ 1|
\ 4\0j
\a\0\83\0\0}
\ 4\0|
\ 4\0j
\b\0d
\ 4\0\83\ 1\0\ 1|
\ 4\0j
\0t
34091 +
\0\83\ 1\0}
\ 6\0|
\0\0j
\v\0|
\ 4\0j
\ 1\0\83\0\0t
\f\0t
\r\0d$
\0d%
\0d
\a\0|
\ 3\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\v\0|
\ 6\0j
\ 1\0\83\0\0t
\f\0t
\r\0d&
\0d'
\0d
\0|
\ 3\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1t
\ e\0\83\0\0}
\a\0|
\a\0j
\ f\0d
\ 1\0|
\ 4\0\83\ 2\0\ 1|
\0\0j
\v\0|
\a\0j
\ 1\0\83\0\0t
\f\0t
\r\0d(
\0d)
\0d
\ 3\0|
\ 3\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1t
\10\0\83\0\0}
\b\0|
\b\0j
\11\0|
\ 6\0\83\ 1\0\ 1|
\0\0j
\v\0|
\b\0j
\ 1\0\83\0\0t
\f\0t
\r\0d*
\0d+
\0d,
\0|
\ 3\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1t
\12\0\83\0\0}
\0|
\0j
\13\0|
\ 6\0\83\ 1\0\ 1|
\0\0j
\v\0|
\0j
\ 1\0\83\0\0t
\f\0t
\r\0d-
\0d.
\0d/
\0|
\ 3\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\ 6\0j
\14\0d
\16\0d
\ 1\0d
\17\0\83\ 3\0\ 1|
\0j
\13\0|
\ 6\0\83\ 1\0\ 1|
\0\0j
\v\0|
\0j
\ 1\0\83\0\0t
\f\0t
\r\0d0
\0d1
\0d2
\0|
\ 3\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\v\0|
\0d3
\0\19j
\ 1\0\83\0\0t
\f\0t
\r\0d4
\0d5
\0d6
\0|
\ 3\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\ 6\0d
\11\0 }
34093 +
\0j
\14\0d
\1c\0d
\ 2\0d
\17\0\83\ 3\0\ 1t
\0\0j
\15\0d
\ 1\0d
\11\0d
\ 2\0\83\ 3\0}
\v\0|
\v\0j
\b\0d
\1d\0\83\ 1\0\ 1|
\0j
\16\0|
34094 +
\0|
\a\0d
\ 1\0|
\v\0\83\ 4\0\ 1|
\0\0j
\v\0|
\0j
\ 1\0\83\0\0t
\f\0t
\r\0d7
\0d8
\0d9
\0|
\ 3\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\v\0|
\0j
\17\0d
\1d\0\83\ 1\0j
\ 1\0\83\0\0t
\f\0t
\r\0d:
\0d;
\0d
\15\0|
\ 3\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\v\0|
\0d<
\0\19j
\ 1\0\83\0\0t
\f\0t
\r\0d=
\0d>
\0d
\a\0|
\ 3\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1d
\0\0S(?
\0\0\0Ni
\0\0\0\0i
\ 1\0\0\0i
34095 +
\0\0\0R
\86\0\0\0ià
\r\0\0id
\0\0\0i
\ 4\0\0\0iw
\10\0\0i
\b\0\0\0i1
\ f\0\0i
\81\10\0\0i
\ 3\ 3\0\0i(
\0\0\0ig
\ 3\0\0i
\15\0\0\0i/
\ 3\0\0i2
\0\0\0i
\93\ 3\0\0i
\1e\0\0\0i
\ 6\0\0\0i
\ 2\0\0\0g
\0\0\0\0\0\0ð?iÿÿÿÿi:
\ 6\0\0iZ
\0\0\0i
\ 2\a\0\0i
\14\0\0\0g
\0\0\0\0\0\0\0@R
\83\ 1\0\0i,
\0\0i
\82\0\0\0i0
34096 +
\0\0iÌ
\0\0\0iâ
\ 2\0\0iF
\ 3\0\0i|
\r\0\0iD
\ e\0\0i
\13\10\0\0iÛ
\10\0\0iÍ
\ e\0\0iå
\10\0\0iÛ
\ 2\0\0i|
\ 3\0\0i
\ 5\0\0\0iý
\ 2\0\0i±
\ 3\0\0i
\b\0\0\0ià
\ 5\0\0i4
\a\0\0i
\v\0\0\0(
\ 2\0\0\0i
\0\0\0\0iÿÿÿÿiÛ
\ 2\0\0i{
\ 3\0\0i
\ 5\0\0\0iª
\b\0\0i
\94
34097 +
\0\0i
\f\0\0\0iÂ
\0\0\0iÖ
\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0iÿÿÿÿi°
\ 2\0\0id
\ 3\0\0(
\18\0\0\0Rk
\0\0\0t
\11\0\0\0getHeapMemorySizeRx
\ 1\0\0R±
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rc
\0\0\0Râ
\ 1\0\0RB
\0\0\0RV
\ 1\0\0RN
\0\0\0t
\b\0\0\0assertInRm
\0\0\0Rn
\0\0\0R>
\0\0\0Rj
\0\0\0Rà
\0\0\0R%
\ 1\0\0Rô
\0\0\0RY
\ 1\0\0R°
\0\0\0R"
\ 2\0\0R
\89\ 1\0\0R=
\ 2\0\0(
\f\0\0\0R
\0\0\0t
\ 1\0\0\0at
\ 2\0\0\0aat
\0\0\0strMulFacR
\83\0\0\0RÔ
\ 1\0\0R
\b\0\0\0R
\86\0\0\0Rñ
\0\0\0t
\ 3\0\0\0fffRâ
\0\0\0R
\83\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\f\0\0\0testHeapMem1
\87\b\0\0sJ
\0\0\0\0\ 1 \0\f\ 1\10\ 1\10\0\ 3\0\ 3\ 2 \ 1\ f\0\r\ 1\10\ 1\f\ 1\r\ 1\ f\ 1-
\ 1-
\ 2 \ 1\10\ 1-
\ 1 \ 1\r\ 1-
\ 2 \ 1\r\ 1-
\ 1\13\ 1\r\ 1-
\ 11
\ 1
34098 +
\ 1\13\ 1\15\0\r\ 1\16\ 1-
\ 16
\ 11
\ 1c
\ 1\0\0\0\v\0\0\0\ 5\0\0\0C
\0\0\0si
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0\83\0\0}
\ 2\0|
\ 2\0j
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0\83\ 3\0\ 1|
\ 2\0j
\ 2\0d
\ 5\0\83\ 1\0\ 1|
\ 2\0j
\ 3\0d
\ 6\0\83\ 1\0\ 1|
\ 2\0j
\ 4\0d
\a\0\83\ 1\0\ 1t
\ 5\0d
\14\0d
34099 +
\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 6\0d
\v\0\83\ 1\0\ 1|
\ 3\0j
\a\0d
\b\0\83\ 1\0\ 1|
\ 2\0j
\b\0|
\ 3\0\83\ 1\0\ 1|
\ 2\0j
\0d
\ 3\0d
\ 4\0g
\ 2\0\83\ 1\0\ 1|
\ 2\0j
34100 +
\0\83\0\0\ 1t
\v\0\83\0\0}
\ 4\0|
\ 4\0j
\f\0|
\ 2\0\83\ 1\0\ 1t
\r\0d
\0\83\ 1\0}
\ 5\0|
\ 5\0j
\ 6\0d
\ 3\0\83\ 1\0\ 1|
\ 4\0j
\ e\0d
34101 +
\0|
\ 5\0\83\ 2\0\ 1t
\r\0d
\0\83\ 1\0}
\ 6\0|
\ 6\0j
\ 6\0d
\f\0\83\ 1\0\ 1|
\ 4\0j
\ f\0d
34102 +
\0|
\ 6\0\83\ 2\0\ 1t
\r\0d
\r\0\83\ 1\0}
\a\0|
\a\0j
\ 6\0d
\ e\0\83\ 1\0\ 1|
\ 4\0j
\ e\0d
\ f\0|
\a\0\83\ 2\0\ 1t
\r\0d
\10\0\83\ 1\0}
\b\0|
\b\0j
\ 6\0d
\11\0\83\ 1\0\ 1|
\0\0j
\10\0t
\11\0|
\ 4\0j
\ f\0d
34103 +
\0|
\b\0\83\ 4\0\ 1|
\b\0j
\12\0\83\0\0\ 1|
\ 4\0j
\ f\0d
34104 +
\0|
\b\0\83\ 2\0\ 1|
\ 4\0j
\13\0|
\ 1\0d
\12\0\83\ 2\0\ 1t
\v\0|
\ 1\0\83\ 1\0}
\0|
\0j
\14\0\83\0\0}
34106 +
\0j
\16\0|
\ 2\0d
\13\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\17\0|
34107 +
\0j
\18\0\83\0\0d
\b\0\83\ 2\0\ 1|
\0\0j
\17\0|
34108 +
\0j
\19\0\83\0\0d
\12\0\83\ 2\0\ 1t
\1a\0j
\e\0|
\ 1\0\83\ 1\0}
\0|
\0\0j
\15\0t
\1c\0|
\0t
\v\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\15\0t
\1c\0|
\0j
\1d\0\83\0\0t
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\15\0t
\1f\0|
\0j
\1d\0\83\0\0\83\ 1\0d
\ f\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\15\0|
\0j
\14\0\83\0\0j
\16\0|
\ 2\0d
\13\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\15\0\0\0Ns
\f\0\0\0Pyfile55.medgffffff
\ 2@i
\ 4\0\0\0i
\ 5\0\0\0t
\ 2\0\0\0uss
\e\0\0\0Example of Cuve linear mesht
\v\0\0\0buildCLMeshi
\ 3\0\0\0i
\14\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\1c@i
\90\ 1\0\0i
\f\0\0\0i(
\0\0\0i
\0\0\0\0i
\15\0\0\0i
\ f\0\0i
\ 2\0\0\0g
\11ê-
\81\99\97q=i<
\0\0\0(
\0\0\0t
\1a\0\0\0MEDCouplingCurveLinearMeshR°
\0\0\0Rµ
\0\0\0RB
\0\0\0Ri
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rz
\ 1\0\0Rc
\0\0\0t
\14\0\0\0setNodeGridStructureRd
\0\0\0t
\16\0\0\0MEDFileCurveLinearMeshR³
\0\0\0Rk
\0\0\0R¶
\0\0\0R
\98\0\0\0R)
\0\0\0R*
\0\0\0t
\r\0\0\0popBackSilentR
\v\0\0\0R¹
\0\0\0R0
\0\0\0R1
\0\0\0R+
\0\0\0t
\11\0\0\0getSpaceDimensiont
\1d\0\0\0getSpaceDimensionOnNodeStructR'
\0\0\0R(
\0\0\0Rt
\0\0\0R{
\0\0\0R|
\0\0\0Ry
\0\0\0(
\v\0\0\0R
\0\0\0R9
\ 1\0\0R
\ 2\0\0t
\ 2\0\0\0a1R
\83\0\0\0Re
\ 1\0\0t
\ 2\0\0\0d3Ro
\ 1\0\0t
\ 2\0\0\0d4R
\84\0\0\0R
\86\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\14\0\0\0testCurveLinearMesh1¬
\b\0\0sP
\0\0\0\0\ 1\ 6\ 1 \ 1\13\ 1\r\ 1\r\ 1\r\ 1\ f\ 1\r\0\r\ 1\r\ 1\13\ 1
34109 +
\ 2 \ 1\r\ 1\f\0\r\ 1\10\ 1\f\0\r\ 1\10\ 1\f\0\r\ 1\10\ 1\f\0\r\ 1\19\ 1
34110 +
\ 1\10\ 1\10\ 2\f\ 1\f\ 1\19\ 1\16\ 1\16\ 2\ f\ 1\16\ 1\1c\ 1\1f\ 1\1f\ 1c
\ 1\0\0\0\11\0\0\0\ 5\0\0\0C
\0\0\0s
\97\ 4\0\0d
\ 1\0}
\ 1\0t
\0\0\83\0\0}
\ 2\0t
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0g
\ 3\0\83\ 1\0}
\ 3\0|
\ 2\0j
\ 2\0|
\ 3\0|
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 3\0d
\ 5\0\83\ 1\0\ 1t
\ 4\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0|
\ 2\0\83\ 1\0\ 1t
\ 6\0\83\0\0}
\ 5\0|
\ 5\0j
\a\0|
\ 4\0\83\ 1\0\ 1t
\b\0\83\0\0}
\ 6\0t
\0\83\0\0}
\a\0|
\ 6\0j
34111 +
\0|
\a\0\83\ 1\0\ 1|
\ 6\0j
\v\0|
\ 5\0\83\ 1\0\ 1t
\f\0\83\0\0}
\b\0|
\b\0j
\ 3\0d
\ 6\0\83\ 1\0\ 1|
\b\0j
\r\0d
\a\0\83\ 1\0\ 1|
\b\0j
\ e\0d
\b\0\83\ 1\0\ 1|
\b\0j
\ f\0d
\0d
34112 +
\0d
\v\0d
\f\0\83\ 4\0\ 1|
\b\0j
\ f\0d
34113 +
\0d
\r\0d
\ e\0d
\ f\0\83\ 4\0\ 1|
\b\0j
\10\0\83\0\0}
\0|
\0j
\ 3\0d
\10\0\83\ 1\0\ 1|
\0j
\r\0d
\11\0\83\ 1\0\ 1|
\a\0j
\11\0|
\b\0\83\ 1\0\ 1|
\a\0j
\11\0|
\0\83\ 1\0\ 1|
\ 6\0j
\12\0|
\ 1\0d
34114 +
\0\83\ 2\0\ 1t
\0|
\ 1\0\83\ 1\0}
34115 +
\0|
\0\0j
\13\0|
\a\0j
\14\0|
34116 +
\0d
\12\0\83\ 2\0d
\13\0\19\83\ 1\0\ 1|
\0\0j
\15\0|
\a\0d
\0\19d
\15\0\19j
\16\0\83\0\0d
\f\0d
\14\0\83\ 3\0\ 1|
\a\0j
\10\0\83\0\0}
\v\0|
\0j
\10\0\83\0\0}
\f\0|
\0j
\10\0\83\0\0}
\r\0|
\0\0j
\13\0|
\r\0j
\14\0|
\0d
\12\0\83\ 2\0d
\13\0\19\83\ 1\0\ 1|
\0j
\17\0d
\13\0g
\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\r\0j
\14\0|
\0d
\12\0\83\ 2\0d
\13\0\19\f\83\ 1\0\ 1|
\r\0d
\v\0g
\ 1\0=|
\0\0j
\13\0|
\r\0j
\14\0|
\0d
\12\0\83\ 2\0d
\13\0\19\83\ 1\0\ 1|
\0\0j
\18\0t
\19\0|
\a\0d
\0\19j
\1a\0d
\16\0\83\ 3\0\ 1|
\0\0j
\18\0t
\19\0|
\a\0d
\10\0\19j
\1a\0d
\17\0\83\ 3\0\ 1|
\0\0j
\15\0|
\a\0d
\13\0\19d
\18\0\19j
\16\0\83\0\0d
\f\0d
\14\0\83\ 3\0\ 1|
\0\0j
\15\0|
\a\0d
\ 6\0\19d
\19\0\19j
\16\0\83\0\0d
\f\0d
\14\0\83\ 3\0\ 1|
\v\0}
\a\0|
\0\0j
\13\0|
\a\0j
\14\0|
34117 +
\0d
\12\0\83\ 2\0d
\13\0\19\83\ 1\0\ 1|
\0\0j
\13\0|
34118 +
\0d
\10\0\19j
\14\0|
\b\0d
\12\0\83\ 2\0d
\13\0\19\83\ 1\0\ 1|
\0\0j
\13\0|
34119 +
\0d
\10\0\19j
\14\0|
\0d
\12\0\83\ 2\0d
\13\0\19\f\83\ 1\0\ 1|
\0\0j
\15\0|
34120 +
\0d
\13\0\19d
\1a\0\19j
\16\0\83\0\0d
\f\0d
\14\0\83\ 3\0\ 1|
\0\0j
\e\0|
\a\0j
\1c\0\83\0\0d
\e\0\83\ 2\0\ 1t
\f\0|
\ 1\0d
\10\0\83\ 2\0}
\ e\0|
\0\0j
\13\0|
\ e\0j
\14\0|
\f\0d
\12\0\83\ 2\0d
\13\0\19\83\ 1\0\ 1t
\f\0|
\ 1\0\83\ 1\0}
\ e\0|
\0\0j
\13\0|
\ e\0j
\14\0|
\b\0d
\12\0\83\ 2\0d
\13\0\19\83\ 1\0\ 1t
\1d\0|
\ 1\0\83\ 1\0}
\ f\0|
\0\0j
\e\0|
\ f\0j
\1e\0\83\0\0d
\ 6\0\83\ 2\0\ 1|
\0\0j
\15\0|
\ f\0j
\16\0\83\0\0d
\f\0d
\14\0\83\ 3\0\ 1t
\1d\0|
\ 1\0d
\10\0\83\ 2\0}
\ f\0|
\0\0j
\e\0|
\ f\0j
\1e\0\83\0\0d
\10\0\83\ 2\0\ 1|
\0\0j
\15\0|
\ f\0j
\16\0\83\0\0d
\f\0d
\14\0\83\ 3\0\ 1t
\1d\0|
\ 1\0d
\10\0d
34121 +
\0d
\r\0\83\ 4\0}
\ f\0|
\0\0j
\e\0|
\ f\0j
\1e\0\83\0\0d
\10\0\83\ 2\0\ 1|
\0\0j
\15\0|
\ f\0j
\16\0\83\0\0d
\ f\0d
\14\0\83\ 3\0\ 1t
\b\0|
\ 1\0\83\ 1\0}
\10\0|
\0\0j
\e\0d
34122 +
\0|
\10\0j
\1f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\15\0|
\10\0j
\0\83\0\0d
\10\0\19d
\1c\0\19j
\16\0\83\0\0d
\f\0d
\14\0\83\ 3\0\ 1d
\0\0S(
\1d\0\0\0Ns
\f\0\0\0Pyfile56.medg
\0\0\0\0\0\0\0\0g333333ó?g
\0\0\0\0\0\0\f@R
\ 2\0\0t
\ 1\0\0\0As
\17\0\0\0An example of parameterR
\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0g333333
\v@g
\85ëQ¸
\1e¿
\81@i
\ 3\0\0\0gffffff
\16@gD
\8blçû8
\8f@t
\ 1\0\0\0Bs
\10\0\0\0A second exampleg
\9b+¡
\86\9b\84\ 6=i
\0\0\0\0i
\r\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0Rº
\ 2\0\0R»
\ 2\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(!
\0\0\0R±
\0\0\0RY
\0\0\0Rc
\0\0\0RB
\0\0\0R¯
\0\0\0R³
\0\0\0RP
\ 1\0\0R7
\ 2\0\0RK
\ 1\0\0t
\11\0\0\0MEDFileParameterst
\0\0\0setParamsRR
\ 1\0\0t
\17\0\0\0MEDFileParameterMultiTSRi
\0\0\0Rµ
\0\0\0t
\v\0\0\0appendValueRq
\0\0\0t
\0\0\0pushParamR
\v\0\0\0R0
\0\0\0R1
\0\0\0R&
\ 1\0\0t
\b\0\0\0getValuet
\10\0\0\0eraseTimeStepIdsR)
\0\0\0R*
\0\0\0t
\v\0\0\0__getitem__R+
\0\0\0t
\ e\0\0\0getParamsNamest
\19\0\0\0MEDFileParameterDouble1TSRC
\0\0\0t
\11\0\0\0getNumberOfParamst
\0\0\0getParams(
\11\0\0\0R
\0\0\0R9
\ 1\0\0R
\83\0\0\0RÔ
\ 1\0\0R
\86\0\0\0R
\0\0\0t
\ 4\0\0\0dataRå
\0\0\0t
\ 3\0\0\0ptst
\ 4\0\0\0pts2t
\ 2\0\0\0p2t
\ 2\0\0\0p3t
\ 4\0\0\0pts4t
\ 4\0\0\0pts3t
\ 4\0\0\0ptsrt
\ 5\0\0\0p1tsrt
\ 5\0\0\0data2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ f\0\0\0testParameters1Ô
\b\0\0s~
\0\0\0\0\ 1\ 6\ 1 \0\15\0\10\0\r\ 1 \0\r\ 1 \0\r\ 1 \ 1 \ 1\r\0\r\ 1 \ 1\r\0\r\0\r\ 1\16\ 1\16\ 1\f\0\r\0\r\ 1\r\0\r\ 1\10\ 1\f\ 1\1d\ 1!
\ 1\f\ 1\f\ 1\f\ 1\1d\ 1\10\ 1\1e\ 1
34123 +
\ 1\1d\ 1\1a\ 1\1a\ 1!
\ 1!
\ 1\ 6\ 1\1d\ 1!
\ 1"
\ 1!
\ 1\16\ 1\ f\ 1\1d\ 1\f\ 1\1d\ 1\f\ 1\16\ 1\19\ 1\ f\ 1\16\ 1\19\ 1\15\ 1\16\ 1\19\ 1\f\ 1\16\ 1'
\ 1c
\ 1\0\0\0\11\0\0\0\a\0\0\0C
\0\0\0sì
\ 5\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0\83\0\0d
\ 3\0\19}
\ 4\0|
\ 4\0j
\ 3\0\83\0\0\ 1t
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\ 5\0d
\ 3\0|
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0d
\ 4\0|
\ 4\0\83\ 2\0\ 1t
\ 6\0d
\ 5\0d
\ 6\0\83\ 2\0}
\ 6\0g
\0\0t
\a\0d
\ 5\0\83\ 1\0D]
\10\0}
\a\0d
\a\0|
\a\0\16^
\ 2\0qw
\0|
\ 6\0(|
\ 5\0j
\b\0d
\ 3\0|
\ 6\0\83\ 2\0\ 1t
\ 6\0j
\0|
\ 6\0|
\ 6\0|
\ 6\0j
34124 +
\0d
\b\0\83\ 1\0g
\ 3\0\83\ 1\0}
\b\0g
\0\0t
\a\0d
\ 6\0\83\ 1\0D]
\10\0}
\a\0d
\0|
\a\0\16^
\ 2\0qÌ
\0|
\b\0(|
\ 5\0j
\b\0d
\ 4\0|
\b\0\83\ 2\0\ 1|
\b\0j
34126 +
\0d
\ 6\0\83\ 2\0}
\0g
\0\0t
\a\0d
\v\0\83\ 1\0D]
\10\0}
\a\0d
\f\0|
\a\0\16^
\ 2\0q
\12\ 1|
\0(|
\ 5\0j
\b\0d
\r\0|
\0\83\ 2\0\ 1|
\ 5\0j
\v\0|
\ 1\0d
\b\0\83\ 2\0\ 1t
\f\0j
\r\0|
\ 1\0\83\ 1\0}
34127 +
\0|
\0\0j
\ e\0|
\ 5\0j
\ f\0d
\ 3\0\83\ 1\0j
\10\0t
\ 6\0g
\0\0t
\a\0d
\ 5\0\83\ 1\0D]
\10\0}
\a\0d
\a\0|
\a\0\16^
\ 2\0q}
\ 1\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 5\0j
\ f\0d
\ 4\0\83\ 1\0j
\10\0t
\ 6\0g
\0\0t
\a\0d
\ 6\0\83\ 1\0D]
\10\0}
\a\0d
\0|
\a\0\16^
\ 2\0q¿
\ 1\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 5\0j
\ f\0d
\r\0\83\ 1\0j
\10\0t
\ 6\0g
\0\0t
\a\0d
\v\0\83\ 1\0D]
\10\0}
\a\0d
\f\0|
\a\0\16^
\ 2\0q
\ 1\ 2\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ 5\0j
\10\0|
34128 +
\0d
\ e\0\83\ 2\0d
\ 3\0\19\83\ 1\0\ 1|
34129 +
\0j
\ f\0d
\r\0\83\ 1\0j
\11\0d
\ 3\0d
\ 3\0d
\ f\0\83\ 3\0\ 1|
\0\0j
\ e\0|
\ 5\0j
\10\0|
34130 +
\0d
\ e\0\83\ 2\0d
\ 3\0\19\f\83\ 1\0\ 1|
34131 +
\0j
\ f\0d
\r\0\83\ 1\0j
\11\0d
\ 3\0d
\ 3\0d
\10\0\83\ 3\0\ 1|
\0\0j
\ e\0|
\ 5\0j
\10\0|
34132 +
\0d
\ e\0\83\ 2\0d
\ 3\0\19\83\ 1\0\ 1|
\ 5\0j
\12\0\83\0\0}
\v\0|
\0\0j
\ e\0|
\ 5\0j
\10\0|
\v\0d
\ e\0\83\ 2\0d
\ 3\0\19\83\ 1\0\ 1|
\v\0j
\b\0d
\r\0d
\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\ 5\0j
\10\0|
\v\0d
\ e\0\83\ 2\0d
\ 3\0\19\f\83\ 1\0\ 1|
\ 5\0j
\b\0d
\r\0d
\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\ 5\0j
\10\0|
\v\0d
\ e\0\83\ 2\0d
\ 3\0\19\83\ 1\0\ 1|
\ 5\0j
\b\0d
\ 4\0d
\0\0\83\ 2\0\ 1|
\ 5\0j
\v\0|
\ 1\0d
\b\0\83\ 2\0\ 1t
\f\0j
\r\0|
\ 1\0\83\ 1\0}
34134 +
\0j
\ f\0d
\r\0\83\ 1\0d
\0\0\83\ 2\0\ 1|
\0\0j
\ e\0|
34135 +
\0j
\ f\0d
\ 3\0\83\ 1\0j
\10\0t
\ 6\0g
\0\0t
\a\0d
\ 5\0\83\ 1\0D]
\10\0}
\a\0d
\a\0|
\a\0\16^
\ 2\0q
\9f\ 3\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\14\0|
34136 +
\0j
\ f\0d
\ 4\0\83\ 1\0d
\0\0\83\ 2\0\ 1t
\15\0\83\0\0}
\f\0t
\16\0d
\11\0d
\12\0d
\13\0g
\ 3\0\83\ 1\0}
\r\0|
\f\0j
\17\0|
\r\0|
\r\0\83\ 2\0\ 1|
\f\0j
\18\0d
\14\0\83\ 1\0\ 1t
\19\0\83\0\0}
\ e\0|
\ e\0j
\1a\0|
\f\0\83\ 1\0\ 1|
\ e\0j
\b\0d
\ 3\0t
\ 6\0g
\0\0t
\a\0d
34137 +
\0\83\ 1\0D]
\10\0}
\a\0d
\15\0|
\a\0\16^
\ 2\0q?
\ 4\83\ 1\0\83\ 2\0\ 1|
\ e\0j
\b\0d
\r\0t
\ 6\0g
\0\0t
\a\0d
\16\0\83\ 1\0D]
\10\0}
\a\0d
\f\0|
\a\0\16^
\ 2\0qr
\ 4\83\ 1\0\83\ 2\0\ 1|
\ e\0j
\v\0|
\ 2\0d
\b\0\83\ 2\0\ 1t
\f\0j
\r\0|
\ 2\0\83\ 1\0}
\ f\0|
\0\0j
\ e\0|
\ f\0j
\ f\0d
\ 3\0\83\ 1\0j
\10\0t
\ 6\0g
\0\0t
\a\0d
34138 +
\0\83\ 1\0D]
\10\0}
\a\0d
\15\0|
\a\0\16^
\ 2\0qÐ
\ 4\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ f\0j
\ f\0d
\r\0\83\ 1\0j
\10\0t
\ 6\0g
\0\0t
\a\0d
\16\0\83\ 1\0D]
\10\0}
\a\0d
\f\0|
\a\0\16^
\ 2\0q
\12\ 5\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\ e\0j
\10\0|
\ f\0d
\ e\0\83\ 2\0d
\ 3\0\19\83\ 1\0\ 1|
\ f\0j
\ f\0d
\r\0\83\ 1\0j
\11\0d
\ 3\0d
\ 3\0d
\ f\0\83\ 3\0\ 1|
\0\0j
\ e\0|
\ e\0j
\10\0|
\ f\0d
\ e\0\83\ 2\0d
\ 3\0\19\f\83\ 1\0\ 1|
\ f\0j
\ f\0d
\r\0\83\ 1\0j
\11\0d
\ 3\0d
\ 3\0d
\10\0\83\ 3\0\ 1|
\0\0j
\ e\0|
\ e\0j
\10\0|
\ f\0d
\ e\0\83\ 2\0d
\ 3\0\19\83\ 1\0\ 1|
\ e\0j
\12\0\83\0\0}
\10\0|
\0\0j
\ e\0|
\ e\0j
\10\0|
\10\0d
\ e\0\83\ 2\0d
\ 3\0\19\83\ 1\0\ 1d
\0\0S(
\17\0\0\0Ns
\f\0\0\0Pyfile58.meds
\f\0\0\0Pyfile59.medi
\0\0\0\0iÿÿÿÿi
\ 6\0\0\0i
\10\0\0\0s
\11\0\0\0CellL0#%.3d i
\ 2\0\0\0s
\11\0\0\0CellLM1#%.3d i
\ 4\0\0\0i
\f\0\0\0s
\11\0\0\0Node#%.3d i
\ 1\0\0\0g
\11ê-
\81\99\97q=t
\ 1\0\0\0Mt
\ 1\0\0\0Ng
\0\0\0\0\0\0\0\0g
\9a\99\99\99\99\99ñ?gffffff
\ 2@t
\ 5\0\0\0cmeshs
\11\0\0\0Cell#%.3d i
\0\0\0(
\e\0\0\0R
\ 4\0\0\0t
\11\0\0\0build3DSurfMesh_1R
\9b\ 1\0\0R
\9c\ 1\0\0R>
\0\0\0Rj
\0\0\0t
\12\0\0\0DataArrayAsciiCharRn
\0\0\0t
\13\0\0\0setNameFieldAtLevelt
\0\0\0Aggregatet
\b\0\0\0subArrayR
\v\0\0\0R'
\0\0\0R(
\0\0\0R0
\0\0\0t
\13\0\0\0getNameFieldAtLevelR1
\0\0\0R
\9f\0\0\0Rq
\0\0\0R/
\ 2\0\0R+
\0\0\0R±
\0\0\0RY
\0\0\0Rc
\0\0\0RB
\0\0\0R¯
\0\0\0R³
\0\0\0(
\11\0\0\0R
\0\0\0R9
\ 1\0\0Rn
\ 1\0\0R
\83\0\0\0R
\84\0\0\0R
\86\0\0\0t
\v\0\0\0namesCellL0Rî
\0\0\0t
\v\0\0\0namesCellL1t
34139 +
\0\0\0namesNodest
\ 3\0\0\0mmrR
\8d\0\0\0R
\80\0\0\0RÔ
\ 1\0\0t
\ 2\0\0\0cct
\ 3\0\0\0ccrt
\ 5\0\0\0ccCpy(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\0\0\0testNamesOnCellAndNodesInMeshes1
34140 +
\0\0sv
\0\0\0\0\ 1\ 6\ 1\ 6\ 1\f\ 1\10\ 1
34141 +
\ 2 \ 1\10\ 1\10\ 1\ f\ 1$
\ 1\10\ 1!
\ 1$
\ 1\10\ 1\12\ 1$
\ 1\10\ 1\10\ 2\ f\ 1B
\ 1B
\ 1B
\ 1\1d\ 1\1c\ 1\1e\ 1\1c\ 1\1d\ 1\f\ 1\1d\ 2\10\ 1\1e\ 1\10\ 1\1d\ 1\10\ 1\10\ 1\ f\ 1\19\ 1B
\ 1\19\ 2 \ 1\15\ 1\10\ 1\r\ 1 \ 1\r\ 13
\ 13
\ 1\10\ 1\ f\ 1B
\ 1B
\ 1\1d\ 1\1c\ 1\1e\ 1\1c\ 1\1d\ 1\f\ 1\1d\ 1c
\ 1\0\0\0\18\0\0\0\r\0\0\0C
\0\0\0sÍ
\ 2\0\0t
\0\0\83\0\0}
\ 1\0t
\ 1\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0g
\ 5\0\83\ 1\0}
\ 2\0|
\ 1\0j
\ 2\0|
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 1\0j
\ 3\0\83\0\0}
\ 1\0|
\ 1\0j
\ 4\0d
\ 6\0\83\ 1\0\ 1t
\ 5\0d
\a\0d
\b\0d
\0d
34142 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0g
\f\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 4\0d
\13\0\83\ 1\0\ 1t
\ 5\0d
\14\0d
\15\0d
\16\0d
\17\0g
\ 4\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 4\0d
\18\0\83\ 1\0\ 1|
\ 1\0j
\ 6\0\83\0\0}
\ 5\0t
\a\0\83\0\0}
\ 6\0|
\ 6\0j
\b\0d
\a\0|
\ 1\0\83\ 2\0\ 1|
\ 6\0j
\b\0d
\19\0|
\ 5\0\83\ 2\0\ 1|
\ 6\0j
\0d
\a\0|
\ 3\0|
\ 4\0g
\ 2\0\83\ 2\0\ 1|
\ 6\0j
34143 +
\0d
\1a\0d
\0\83\ 2\0\ 1|
\ 6\0j
\v\0d
\a\0\83\ 1\0}
\a\0|
\ 6\0j
\v\0d
\19\0\83\ 1\0}
\b\0|
\ 6\0j
\f\0d
\a\0d
\13\0\83\ 2\0}
\ 3\0|
\ 6\0j
\f\0d
\a\0d
\18\0\83\ 2\0}
\ 4\0|
\ 3\0|
\ 4\0g
\ 2\0}
\0t
\ 5\0|
\a\0j
\r\0\83\0\0\83\ 1\0}
34145 +
\0j
\ e\0d
\19\0\83\ 1\0\ 1x$
\0t
\ f\0|
\0\83\ 1\0D]
\16\0\
\ 2\0}
\v\0}
\f\0|
\v\0|
34146 +
\0|
\f\0<q
\84\ 1W|
\a\0j
\10\0\83\0\0\
\ 5\0}
\r\0}
\ e\0}
\ f\0}
\10\0}
\11\0|
\r\0j
\11\0|
\b\0d
\0\83\ 2\0\
\ 2\0}
\12\0}
\13\0|
\0\0j
\12\0|
\12\0\83\ 1\0\ 1t
\13\0j
\14\0|
\13\0|
\10\0|
\11\0\83\ 3\0\
\ 2\0}
\14\0}
\15\0|
\0\0j
\12\0|
\15\0j
\15\0\83\0\0j
\16\0d
\b\0\83\ 1\0\83\ 1\0\ 1|
\14\0j
\17\0|
34147 +
\0\83\ 1\0\ 1t
\18\0|
\0\83\ 1\0d
\0\0g
\ 1\0\14}
\16\0x3
\0t
\ f\0|
\0\83\ 1\0D]%
\0\
\ 2\0}
\v\0}
\f\0|
\14\0j
\1a\0|
\v\0\83\ 1\0}
\17\0|
\17\0|
\16\0|
\v\0<qB
\ 2W|
\16\0d
\a\0\19j
\e\0t
\ 5\0d
\a\0d
\b\0d
\0d
\14\0d
\f\0d
\r\0d
\ f\0d
\16\0d
\10\0d
\11\0g
34148 +
\0\83\ 1\0\83\ 1\0\ 1|
\16\0d
\b\0\19j
\e\0t
\ 5\0d
34149 +
\0d
\v\0d
\15\0d
\ e\0d
\12\0d
\17\0g
\ 6\0\83\ 1\0\83\ 1\0\ 1d
\0\0S(
\e\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0\10@R
\ 2\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\b\0\0\0i
\0\0\0i
34150 +
\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0R
\95\ 2\0\0i
\ 3\0\0\0i
\a\0\0\0i
\v\0\0\0i
\ f\0\0\0Rè
\ 1\0\0iÿÿÿÿs
\v\0\0\0example.med(
\1c\0\0\0R±
\0\0\0RY
\0\0\0Rc
\0\0\0Râ
\ 1\0\0RB
\0\0\0Rk
\0\0\0t
\v\0\0\0computeSkinR>
\0\0\0Rj
\0\0\0Rl
\0\0\0R
\v\0\0\0R}
\0\0\0RG
\0\0\0R§
\0\0\0t
\r\0\0\0fillWithValueRõ
\0\0\0R
\9b\ 1\0\0t
\12\0\0\0areCellsIncludedInR0
\0\0\0R[
\0\0\0t
\18\0\0\0ExtractFromIndexedArrayst
\ f\0\0\0deltaShiftIndext
\0\0\0isUniformt
\13\0\0\0transformWithIndArrRy
\0\0\0R/
\ 2\0\0t
\f\0\0\0findIdsEqualR1
\0\0\0(
\18\0\0\0R
\0\0\0R
\83\0\0\0RÔ
\ 1\0\0R
\95\ 2\0\0Rè
\ 1\0\0R
\85\0\0\0R
\86\0\0\0Rá
\0\0\0R
\84\0\0\0t
\ 4\0\0\0grpst
\b\0\0\0whichGrpt
\ 5\0\0\0grpIdRç
\ 1\0\0R©
\ 2\0\0t
\ 1\0\0\0bt
\ 2\0\0\0bIR
\80\0\0\0t
\ 2\0\0\0cIR
\ 2\0\0\0R
\b\0\0\0t
\ 2\0\0\0c2t
\ 3\0\0\0c2It
\0\0\0splitOfM1R
\93\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\17\0\0\0testToExportInExamples1K
\0\0sN
\0\0\0\0\ 1 \ 1\e\ 1\10\ 1\f\0\r\ 10
\0\r\ 1\18\0\r\ 1\f\ 1 \ 1\10\ 1\10\ 1\16\ 1\10\ 2\ f\ 1\ f\ 1\12\ 1\12\ 1\f\ 1\12\ 1\r\ 1\19\ 1
34151 +
\ 1\ 4\ 1\e\ 1\18\ 1\r\ 1\e\ 1\1c\ 1\r\ 1\13\ 1\19\ 1\ f\ 1
34152 +
\ 1\ 4\ 15
\ 1)
\ 1c
\ 1\0\0\0\ 2\0\0\0\ 4\0\0\0C
\0\0\0sD
\0\0\0t
\0\0\83\0\0}
\ 1\0|
\ 1\0j
\ 1\0d
\ 1\0\83\ 1\0\ 1|
\0\0j
\ 2\0|
\ 1\0d
\ 2\0\19d
\0\0\83\ 2\0\ 1|
\0\0j
\ 2\0d
\ 1\0t
\ 4\0|
\ 1\0\83\ 1\0\83\ 2\0\ 1d
\0\0S(
\ 3\0\0\0Ni
\ 3\0\0\0i
\0\0\0\0(
\ 5\0\0\0R[
\ 1\0\0R£
\ 1\0\0R+
\0\0\0R/
\ 2\0\0Ry
\0\0\0(
\ 2\0\0\0R
\0\0\0Rl
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\12\0\0\0testBugCorrection1r
\0\0s
34153 +
\0\0\0\0\ 1 \ 1\r\ 1\14\ 1\16\ 1c
\ 1\0\0\0\19\0\0\0\b\0\0\0C
\0\0\0s{
\ 2\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0j
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\0\0j
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 2\0|
\ 2\0d
\ 3\0\83\ 2\0\ 1t
\ 3\0|
\ 1\0\83\ 1\0}
\ 3\0t
\ 3\0|
\ 2\0\83\ 1\0}
\ 4\0x
\9f\0|
\ 3\0j
\ 4\0\83\0\0j
\ 5\0\83\0\0D]
\8b\0}
\ 5\0|
\ 3\0j
\ 4\0\83\0\0|
\ 5\0\19}
\ 6\0|
\ 4\0j
\ 4\0\83\0\0|
\ 5\0\19}
\a\0xb
\0|
\ 6\0j
\ 6\0\83\0\0D]T
\0}
\b\0|
\ 6\0j
\a\0|
\b\0\83\ 1\0}
\0x<
\0|
\0D]4
\0}
34154 +
\0|
\0\0j
\b\0|
\ 6\0j
\0|
\b\0|
34157 +
\0\83\ 2\0\83\ 1\0\83\ 1\0\ 1q¾
\0Wq¢
\0Wqo
\0Wxv
\ 1|
\ 3\0j
\v\0\83\0\0j
\f\0\83\0\0D]b
\ 1}
\v\0|
\ 3\0j
\v\0\83\0\0|
\v\0\19}
\f\0|
\ 4\0j
\v\0\83\0\0|
\v\0\19}
\r\0x9
\ 1|
\f\0j
\r\0\83\0\0D]+
\ 1\
\ 3\0}
\ e\0}
\ f\0}
\10\0|
\f\0|
\ e\0|
\ f\0f
\ 2\0\19}
\11\0|
\r\0|
\ e\0|
\ f\0f
\ 2\0\19}
\12\0t
\ e\0|
\11\0j
\ f\0\83\0\0\83\ 1\0d
\ 4\0k
\ 3\0r
\ e\ 2xá
\0|
\11\0j
\ 6\0\83\0\0d
\ 5\0\19D]k
\0}
\b\0|
\11\0j
\10\0t
\11\0|
\b\0|
\ 6\0\83\ 3\0\
\ 2\0}
\13\0}
\14\0|
\12\0j
\10\0t
\11\0|
\b\0|
\a\0\83\ 3\0\
\ 2\0}
\15\0}
\16\0|
\0\0j
\b\0|
\14\0j
34158 +
\0|
\16\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\b\0|
\13\0j
34159 +
\0|
\15\0d
\ 6\0\83\ 2\0\83\ 1\0\ 1q
\9c\ 1WqD
\ 1x^
\0|
\11\0j
\ 6\0\83\0\0d
\ 5\0\19D]L
\0}
\b\0|
\11\0j
\12\0t
\11\0|
\b\0|
\ 6\0\83\ 3\0}
\17\0|
\12\0j
\12\0t
\11\0|
\b\0|
\a\0\83\ 3\0}
\18\0|
\0\0j
\b\0|
\17\0j
34160 +
\0|
\18\0d
\ 6\0d
\ 6\0\83\ 3\0\83\ 1\0\ 1q
\1f\ 2WqD
\ 1Wq
\11\ 1Wd
\0\0S(
\a\0\0\0Ns
\f\0\0\0Pyfile60.meds
\f\0\0\0Pyfile61.medi
\ 2\0\0\0i
\0\0\0\0i
\ 1\0\0\0g»½×Ùß|Û=(
\13\0\0\0R
\ 4\0\0\0t1
\0\0\0buildACompleteMEDDataStructureWithFieldsOnCells_1R
\v\0\0\0RK
\ 1\0\0RT
\ 1\0\0RU
\ 1\0\0R,
\0\0\0Rß
\0\0\0R0
\0\0\0RG
\0\0\0R1
\0\0\0Ra
\ 1\0\0Rb
\ 1\0\0R÷
\0\0\0Ry
\0\0\0R<
\ 2\0\0R~
\ 1\0\0R
\13\ 1\0\0R
\97\ 1\0\0(
\19\0\0\0R
\0\0\0t
\ 6\0\0\0f1Namet
\ 6\0\0\0f2Namet
\ 2\0\0\0d1Ro
\ 1\0\0t
\ 2\0\0\0mnR
\84\0\0\0R
\85\0\0\0R¥
\0\0\0t
\0\0\0grpsNamest
\a\0\0\0grpNamet
\ 6\0\0\0fieldnRã
\0\0\0Râ
\0\0\0Rv
\ 2\0\0t
\ 5\0\0\0orderRw
\ 2\0\0t
\ 3\0\0\0f1tt
\ 3\0\0\0f2tRz
\ 2\0\0Ry
\ 2\0\0t
\ 4\0\0\0arr2RE
\ 2\0\0t
\ 4\0\0\0f1mct
\ 4\0\0\0f2mc(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt.
\0\0\0testCompareMEDFilesContainingOnlyFieldsOnCell1y
\0\0sP
\0\0\0\0\ 1\ 6\ 1\ 6\ 1\f\ 1\10\ 1\f\ 1\10\ 2\f\0\f\ 1\19\ 1\10\ 1\10\ 1\13\ 1\ f\ 1\r\ 1.
\ 1\ 4\ 1\ 4\ 1\ 4\ 1\19\ 1\10\ 1\10\ 1\1c\ 1\10\ 1\10\ 1\18\ 2\17\ 1\e\ 1\e\ 1\16\ 1\19\ 1\ 4\ 1\ 3\ 3\17\ 1\15\ 1\15\ 1\1c\ 1\ 4\ 2\ 4\ 1\ 4\ 1c
\ 1\0\0\0\14\0\0\0\ 6\0\0\0C
\0\0\0sù
\0\0t
\0\0\83\0\0}
\ 1\0t
\ 1\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0g
\ 5\0\83\ 1\0}
\ 2\0|
\ 1\0j
\ 2\0|
\ 2\0|
\ 2\0|
\ 2\0\83\ 3\0\ 1|
\ 1\0j
\ 3\0\83\0\0}
\ 1\0|
\ 1\0j
\ 4\0\83\0\0d
\ 6\0\19}
\ 3\0|
\ 1\0j
\ 5\0d
\a\0\83\ 1\0\ 1t
\ 6\0d
\ 6\0d
\b\0d
\0d
34161 +
\0g
\ 4\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 5\0d
\v\0\83\ 1\0\ 1t
\ 6\0d
\0d
34162 +
\0d
\f\0d
\r\0g
\ 4\0\83\ 1\0}
\ 5\0|
\ 5\0j
\ 5\0d
\ e\0\83\ 1\0\ 1t
\ 6\0d
\ f\0d
\10\0d
\11\0d
\12\0g
\ 4\0\83\ 1\0}
\ 6\0|
\ 6\0j
\ 5\0d
\13\0\83\ 1\0\ 1t
\ 6\0d
\11\0d
\12\0d
\14\0d
\15\0g
\ 4\0\83\ 1\0}
\a\0|
\a\0j
\ 5\0d
\16\0\83\ 1\0\ 1t
\ 6\0d
\17\0d
\18\0d
\19\0d
\1a\0g
\ 4\0\83\ 1\0}
\b\0|
\b\0j
\ 5\0d
\e\0\83\ 1\0\ 1t
\ 6\0d
\19\0d
\1a\0d
\1c\0d
\1d\0g
\ 4\0\83\ 1\0}
\0|
\0j
\ 5\0d
\1e\0\83\ 1\0\ 1t
\a\0\83\0\0}
34164 +
\0j
\b\0d
\ 6\0|
\ 1\0\83\ 2\0\ 1|
34165 +
\0j
\0d
\ 6\0|
\ 4\0|
\ 5\0g
\ 2\0\83\ 2\0\ 1t
34167 +
\0j
\v\0d
\v\0\83\ 1\0\83\ 1\0}
\v\0t
34169 +
\0j
\v\0d
\ e\0\83\ 1\0\83\ 1\0}
\f\0|
\0\0j
\f\0|
34170 +
\0j
\r\0d
\v\0\83\ 1\0d
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34171 +
\0j
\r\0d
\ e\0\83\ 1\0d!
\0\83\ 2\0\ 1|
34172 +
\0j
\ e\0\83\0\0\ 1|
\0\0j
\f\0|
34173 +
\0j
\r\0d
\v\0\83\ 1\0d"
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34174 +
\0j
\r\0d
\ e\0\83\ 1\0d#
\0\83\ 2\0\ 1|
\0\0j
\ f\0|
34175 +
\0j
\10\0d
\ 6\0d
\v\0\83\ 2\0j
\11\0|
\ 4\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ f\0|
34176 +
\0j
\10\0d
\ 6\0d
\ e\0\83\ 2\0j
\11\0|
\ 5\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\v\0t
34178 +
\0j
\v\0d
\v\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\f\0|
\f\0t
34180 +
\0j
\v\0d
\ e\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1xD
\0|
34181 +
\0j
\12\0d
\ 6\0\83\ 1\0D]3
\0}
\r\0x*
\0|
34182 +
\0j
\13\0|
\r\0\83\ 1\0D]
\19\0}
\ e\0|
\0\0j
\ f\0|
\ e\0d
\ 6\0k
\0\0\83\ 1\0\ 1q
\ 2Wq
\97\ 2Wt
\a\0\83\0\0}
34184 +
\0j
\b\0d
\ 6\0|
\ 1\0\83\ 2\0\ 1|
34185 +
\0j
\b\0d
\1f\0|
\ 3\0\83\ 2\0\ 1|
34186 +
\0j
\0d
\ 6\0|
\ 4\0|
\ 5\0g
\ 2\0\83\ 2\0\ 1|
34187 +
\0j
\0d
\1f\0|
\ 6\0|
\a\0g
\ 2\0\83\ 2\0\ 1t
34189 +
\0j
\v\0d
\v\0\83\ 1\0\83\ 1\0}
\v\0t
34191 +
\0j
\v\0d
\ e\0\83\ 1\0\83\ 1\0}
\f\0t
34193 +
\0j
\v\0d
\13\0\83\ 1\0\83\ 1\0}
\ f\0t
34195 +
\0j
\v\0d
\16\0\83\ 1\0\83\ 1\0}
\10\0|
\0\0j
\f\0|
34196 +
\0j
\r\0d
\v\0\83\ 1\0d$
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34197 +
\0j
\r\0d
\ e\0\83\ 1\0d%
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34198 +
\0j
\r\0d
\13\0\83\ 1\0d&
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34199 +
\0j
\r\0d
\16\0\83\ 1\0d'
\0\83\ 2\0\ 1|
34200 +
\0j
\ e\0\83\0\0\ 1|
\0\0j
\f\0|
34201 +
\0j
\r\0d
\v\0\83\ 1\0d(
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34202 +
\0j
\r\0d
\ e\0\83\ 1\0d)
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34203 +
\0j
\r\0d
\13\0\83\ 1\0d*
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34204 +
\0j
\r\0d
\16\0\83\ 1\0d+
\0\83\ 2\0\ 1|
\0\0j
\ f\0|
34205 +
\0j
\10\0d
\ 6\0d
\v\0\83\ 2\0j
\11\0|
\ 4\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ f\0|
34206 +
\0j
\10\0d
\ 6\0d
\ e\0\83\ 2\0j
\11\0|
\ 5\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ f\0|
34207 +
\0j
\10\0d
\1f\0d
\13\0\83\ 2\0j
\11\0|
\ 6\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ f\0|
34208 +
\0j
\10\0d
\1f\0d
\16\0\83\ 2\0j
\11\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\v\0t
34210 +
\0j
\v\0d
\v\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\f\0|
\f\0t
34212 +
\0j
\v\0d
\ e\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\f\0|
\ f\0t
34214 +
\0j
\v\0d
\13\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\f\0|
\10\0t
34216 +
\0j
\v\0d
\16\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1x[
\0d
\ 6\0d
\1f\0g
\ 2\0D]M
\0}
\11\0xD
\0|
34217 +
\0j
\12\0|
\11\0\83\ 1\0D]3
\0}
\r\0x*
\0|
34218 +
\0j
\13\0|
\r\0\83\ 1\0D]
\19\0}
\ e\0|
\0\0j
\ f\0|
\ e\0d
\ 6\0k
\0\0\83\ 1\0\ 1q
\86\ 5Wqp
\ 5WqZ
\ 5Wt
\a\0\83\0\0}
34220 +
\0j
\b\0d
\ 6\0|
\ 1\0\83\ 2\0\ 1|
34221 +
\0j
\b\0d
\1f\0|
\ 3\0\83\ 2\0\ 1|
34222 +
\0j
\0d
\ 6\0|
\ 4\0|
\ 5\0g
\ 2\0\83\ 2\0\ 1|
34223 +
\0j
\0d
\1f\0|
\ 6\0|
\a\0g
\ 2\0\83\ 2\0\ 1|
34224 +
\0j
\0d
\b\0|
\b\0|
\0g
\ 2\0\83\ 2\0\ 1t
34226 +
\0j
\v\0d
\v\0\83\ 1\0\83\ 1\0}
\v\0t
34228 +
\0j
\v\0d
\ e\0\83\ 1\0\83\ 1\0}
\f\0t
34230 +
\0j
\v\0d
\13\0\83\ 1\0\83\ 1\0}
\ f\0t
34232 +
\0j
\v\0d
\16\0\83\ 1\0\83\ 1\0}
\10\0t
34234 +
\0j
\v\0d
\e\0\83\ 1\0\83\ 1\0}
\12\0t
34236 +
\0j
\v\0d
\1e\0\83\ 1\0\83\ 1\0}
\13\0|
\0\0j
\f\0|
34237 +
\0j
\r\0d
\v\0\83\ 1\0d,
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34238 +
\0j
\r\0d
\ e\0\83\ 1\0d-
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34239 +
\0j
\r\0d
\13\0\83\ 1\0d.
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34240 +
\0j
\r\0d
\16\0\83\ 1\0d/
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34241 +
\0j
\r\0d
\e\0\83\ 1\0d0
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34242 +
\0j
\r\0d
\1e\0\83\ 1\0d1
\0\83\ 2\0\ 1|
34243 +
\0j
\ e\0\83\0\0\ 1|
\0\0j
\f\0|
34244 +
\0j
\r\0d
\v\0\83\ 1\0d2
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34245 +
\0j
\r\0d
\ e\0\83\ 1\0d3
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34246 +
\0j
\r\0d
\13\0\83\ 1\0d4
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34247 +
\0j
\r\0d
\16\0\83\ 1\0d5
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34248 +
\0j
\r\0d
\e\0\83\ 1\0d6
\0\83\ 2\0\ 1|
\0\0j
\f\0|
34249 +
\0j
\r\0d
\1e\0\83\ 1\0d7
\0\83\ 2\0\ 1|
\0\0j
\ f\0|
34250 +
\0j
\10\0d
\ 6\0d
\v\0\83\ 2\0j
\11\0|
\ 4\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ f\0|
34251 +
\0j
\10\0d
\ 6\0d
\ e\0\83\ 2\0j
\11\0|
\ 5\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ f\0|
34252 +
\0j
\10\0d
\1f\0d
\13\0\83\ 2\0j
\11\0|
\ 6\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ f\0|
34253 +
\0j
\10\0d
\1f\0d
\16\0\83\ 2\0j
\11\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ f\0|
34254 +
\0j
\10\0d
\b\0d
\e\0\83\ 2\0j
\11\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ f\0|
34255 +
\0j
\10\0d
\b\0d
\1e\0\83\ 2\0j
\11\0|
\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\v\0t
34257 +
\0j
\v\0d
\v\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\f\0|
\f\0t
34259 +
\0j
\v\0d
\ e\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\f\0|
\ f\0t
34261 +
\0j
\v\0d
\13\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\f\0|
\10\0t
34263 +
\0j
\v\0d
\16\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\f\0|
\12\0t
34265 +
\0j
\v\0d
\e\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\f\0|
\13\0t
34267 +
\0j
\v\0d
\1e\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1x[
\0d
\ 6\0d
\1f\0g
\ 2\0D]M
\0}
\11\0xD
\0|
34268 +
\0j
\12\0|
\11\0\83\ 1\0D]3
\0}
\r\0x*
\0|
34269 +
\0j
\13\0|
\r\0\83\ 1\0D]
\19\0}
\ e\0|
\0\0j
\ f\0|
\ e\0d
\ 6\0k
\0\0\83\ 1\0\ 1q
\89 Wqs Wq] WxD
\0|
34270 +
\0j
\12\0d
\b\0\83\ 1\0D]3
\0}
\r\0x*
\0|
34271 +
\0j
\13\0|
\r\0\83\ 1\0D]
\19\0}
\ e\0|
\0\0j
\ f\0|
\ e\0d
\ 6\0k
\ 4\0\83\ 1\0\ 1qÔ Wq¾ Wd
\0\0S(8
\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0\10@i
\0\0\0\0R
\ 2\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0R®
\ 1\0\0i
\ 5\0\0\0i
\ 6\0\0\0R¯
\ 1\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0t
\ 6\0\0\0g1Facei
\19\0\0\0i
\1a\0\0\0t
\ 6\0\0\0g2Facei
34272 +
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0t
\ 6\0\0\0g1Nodei
\ f\0\0\0i
\10\0\0\0t
\ 6\0\0\0g2Nodeiÿÿÿÿ(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0iÿÿÿÿ(
\ 1\0\0\0iÿÿÿÿ(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0iÿÿÿÿ(
\ 1\0\0\0iÿÿÿÿ(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0iÿÿÿÿ(
\ 1\0\0\0iÿÿÿÿ(
\ 1\0\0\0i
\ 1\0\0\0(
\ 1\0\0\0i
\ 1\0\0\0(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0i
\0\0\0\0(
\ 1\0\0\0iÿÿÿÿ(
\ 1\0\0\0iÿÿÿÿ(
\ 1\0\0\0i
\ 1\0\0\0(
\ 1\0\0\0i
\ 1\0\0\0(
\14\0\0\0R±
\0\0\0RY
\0\0\0Rc
\0\0\0Râ
\ 1\0\0R
\9b\ 1\0\0RB
\0\0\0Rk
\0\0\0R>
\0\0\0Rj
\0\0\0Rl
\0\0\0R
\ 1\ 2\0\0R
\9a\0\0\0R+
\0\0\0R
\9d\0\0\0t
\16\0\0\0normalizeFamIdsMEDFileR0
\0\0\0RG
\0\0\0R1
\0\0\0Rß
\0\0\0t
\15\0\0\0getFamiliesIdsOnGroup(
\14\0\0\0R
\0\0\0R
\83\0\0\0RÔ
\ 1\0\0R
\85\0\0\0R®
\ 1\0\0R¯
\ 1\0\0R
\ 6\ 3\0\0R
\a\ 3\0\0R
\b\ 3\0\0R
\ 3\0\0R
\86\0\0\0t
\ 2\0\0\0s1t
\ 2\0\0\0s2R¶
\ 1\0\0R
\b\0\0\0t
\ 2\0\0\0s3t
\ 2\0\0\0s4R¥
\0\0\0t
\ 2\0\0\0s5t
\ 2\0\0\0s6(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt$
\0\0\0testNonRegBugNormalizeFamIdsMEDFile1§
\0\0sð
\0\0\0\0\ 1 \ 1\e\ 1\13\ 1\f\ 1\10\ 1\r\ 1\18\0\r\ 1\18\0\r\ 1\18\0\r\ 1\18\0\r\ 1\18\0\r\ 1\18\0\r\ 1 \ 1\10\ 1\16\ 1\15\0\15\ 1\19\ 1\19\ 1
34273 +
\ 1\19\ 1\19\ 1"
\ 1"
\ 1\1f\ 1\1f\ 1\16\ 1\16\ 1\13\ 1\ 4\ 1\ 4\ 2 \ 1\10\ 1\10\ 1\16\ 1\16\ 1\15\0\15\ 1\15\0\15\ 1\19\ 1\19\ 1\19\ 1\19\ 1
34274 +
\ 1\19\ 1\19\ 1\19\ 1\19\ 1"
\ 1"
\ 1"
\ 1"
\ 1\1f\ 1\1f\ 1\1f\ 1\1f\ 1\13\ 1\16\ 1\16\ 1\13\ 1\ 4\ 1\ 4\ 1\ 4\ 2 \ 1\10\ 1\10\ 1\16\ 1\16\ 1\16\ 1\15\0\15\ 1\15\0\15\ 1\15\0\15\ 1\19\ 1\19\ 1\19\ 1\19\ 1\19\ 1\19\ 1
34275 +
\ 1\19\ 1\19\ 1\19\ 1\19\ 1\19\ 1\19\ 1"
\ 1"
\ 1"
\ 1"
\ 1"
\ 1"
\ 1\1f\ 1\1f\ 1\1f\ 1\1f\ 1\1f\ 1\1f\ 1\13\ 1\16\ 1\16\ 1\13\ 1\ 4\ 1\ 4\ 1\ 4\ 1\16\ 1\16\ 1\13\ 1\ 4\ 1\ 4\ 1c
\ 1\0\0\0\1c\0\0\0\ e\0\0\0C
\0\0\0si
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0\
\ e\0}
\ 2\0}
\ 3\0}
\ 4\0}
\ 5\0}
\ 6\0}
\a\0}
\b\0}
\0}
34276 +
\0}
\v\0}
\f\0}
\r\0}
\ e\0}
\ f\0t
\ 2\0j
\ 3\0\83\0\0}
\10\0|
\10\0j
\ 4\0|
\ 2\0j
\ 5\0\83\0\0\83\ 1\0\ 1|
\10\0j
\ 6\0d
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\10\0j
\ 6\0d
\ 3\0|
\ 3\0\83\ 2\0\ 1|
\10\0j
\ 6\0d
\ 4\0|
\ 4\0\83\ 2\0\ 1|
\10\0j
\a\0d
\ 2\0|
\ 5\0\83\ 2\0\ 1|
\10\0j
\a\0d
\ 3\0|
\ 6\0\83\ 2\0\ 1|
\10\0j
\a\0d
\ 4\0|
\a\0\83\ 2\0\ 1|
\10\0j
\a\0d
\ 5\0|
\b\0\83\ 2\0\ 1t
\b\0|
\f\0\83\ 1\0}
\11\0x,
\0t
\0|
\11\0\83\ 1\0D]
\1e\0}
\12\0|
\10\0j
34277 +
\0|
\f\0|
\12\0\19|
\r\0|
\12\0\19\83\ 2\0\ 1qä
\0Wt
\b\0|
\ e\0\83\ 1\0}
\13\0x,
\0t
\0|
\13\0\83\ 1\0D]
\1e\0}
\12\0|
\10\0j
\v\0|
\ e\0|
\12\0\19|
\ f\0|
\12\0\19\83\ 2\0\ 1q
\1f\ 1W|
\10\0j
\f\0|
\ 2\0j
\r\0\83\0\0\83\ 1\0\ 1|
\10\0j
\ e\0|
\ 2\0j
\ f\0\83\0\0\83\ 1\0\ 1|
\10\0j
\10\0|
\ 1\0d
\ 6\0\83\ 2\0\ 1t
\11\0j
\ 3\0|
\ 1\0\83\ 1\0}
\14\0t
\11\0j
\ 3\0|
\ 1\0\83\ 1\0}
\15\0t
\12\0|
\ 1\0d
\a\0\83\ 2\0}
\16\0x"
\0|
\16\0D]
\1a\0}
\17\0|
\15\0j
\13\0|
\17\0|
\17\0d
\b\0\17\83\ 2\0\ 1q«
\ 1W|
\15\0j
\10\0|
\ 1\0d
\ 6\0\83\ 2\0\ 1~
\15\0t
\11\0j
\ 3\0|
\ 1\0\83\ 1\0}
\18\0xw
\0|
\16\0D]o
\0}
\17\0xf
\0|
\14\0j
\14\0|
\17\0\83\ 1\0D]U
\0}
\19\0|
\14\0j
\15\0|
\19\0|
\17\0\83\ 2\0}
\1a\0|
\18\0j
\15\0|
\19\0|
\17\0d
\b\0\17\83\ 2\0}
\e\0|
\1a\0j
\f\0|
\17\0d
\b\0\17\83\ 1\0\ 1|
\0\0j
\16\0|
\1a\0j
\17\0|
\e\0\83\ 1\0\83\ 1\0\ 1q
\b\ 2Wqò
\ 1Wd
\0\0S(
\0\0\0Ns
\f\0\0\0Pyfile62.medi
\0\0\0\0iÿÿÿÿiþÿÿÿi
\ 1\0\0\0i
\ 2\0\0\0t
\ 2\0\0\0maRÔ
\ 2\0\0(
\18\0\0\0R
\ 4\0\0\0R×
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0R¶
\0\0\0Ry
\0\0\0Rn
\0\0\0RÙ
\0\0\0RÚ
\0\0\0RB
\0\0\0RC
\0\0\0Ri
\0\0\0R~
\0\0\0R
\v\0\0\0R'
\0\0\0t
\12\0\0\0GetMeshGroupsNamest
\ f\0\0\0changeGroupNameR
\9d\0\0\0RG
\0\0\0R0
\0\0\0R1
\0\0\0(
\1c\0\0\0R
\0\0\0R!
\0\0\0R
\85\0\0\0R
\84\0\0\0Rá
\0\0\0Râ
\0\0\0Rã
\0\0\0Rä
\0\0\0Rå
\0\0\0Ræ
\0\0\0Rç
\0\0\0Rè
\0\0\0Ré
\0\0\0Rê
\0\0\0Rë
\0\0\0Rì
\0\0\0R
\83\0\0\0Rí
\0\0\0Rî
\0\0\0Rï
\0\0\0R
\8e\0\0\0R:
\ 1\0\0t
\r\0\0\0groupNamesIniRh
\ 1\0\0R¢
\0\0\0R¥
\0\0\0t
\ 4\0\0\0arr0R
\ 2\ 3\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt)
\0\0\0testNonRegressionMantis22212ChangeGrpName
\17
34278 +
\0\0sP
\0\0\0\0\ 1\ 6\ 16
\ 1\f\ 1\13\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\f\ 1\13\ 1\18\ 1\ 4\ 1\f\ 1\13\ 1\18\ 1\ 4\ 1\13\ 1\13\ 1\10\ 2\ f\ 1\ f\ 1\ f\ 1\r\ 1\14\ 1\ 4\ 1\10\ 1\ 3\ 2\ f\ 1\r\ 1\16\ 1\12\ 1\16\ 1\11\ 1\16\ 1\ 4\ 1\ 4\ 1c
\ 1\0\0\0\e\0\0\0 \0\0\0C
\0\0\0s
34279 +
\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0\83\0\0}
\ 2\0|
\ 2\0j
\ 3\0\83\0\0}
\ 3\0t
\ 4\0j
\ 5\0\83\0\0}
\ 4\0|
\ 4\0j
\ 6\0|
\ 3\0j
\a\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\b\0d
\ 2\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\0|
\ 3\0j
34280 +
\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\v\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\f\0\83\0\0}
\ 5\0|
\ 5\0j
\r\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\ e\0d
\ 2\0t
\ f\0|
\ 4\0\83\ 3\0}
\ 6\0|
\0\0j
\10\0|
\ 6\0j
\11\0\83\0\0j
\12\0\83\0\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0|
\ 6\0j
\14\0|
\ 2\0d
\a\0d
\ 2\0\83\ 3\0\83\ 1\0\ 1|
\ 5\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\ 5\0j
\15\0\83\0\0\
\ 2\0}
\ 6\0}
\a\0|
\0\0j
\10\0|
\ 6\0j
\16\0\83\0\0|
\ 5\0j
\17\0\83\0\0j
\16\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0|
\a\0d'
\0d(
\0f
\ 2\0d)
\0d*
\0f
\ 2\0d+
\0d,
\0f
\ 2\0d-
\0d.
\0f
\ 2\0g
\ 4\0\83\ 2\0\ 1t
\18\0j
\ 5\0|
\ 1\0\83\ 1\0}
\b\0|
\0\0j
\10\0|
\b\0j
34281 +
\0\83\0\0d
\f\0\83\ 2\0\ 1|
\0\0j
\10\0|
\b\0j
\19\0\83\0\0d
\ 2\0d
\r\0d
\ e\0g
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0t
\1a\0|
\b\0t
\f\0\83\ 2\0\83\ 1\0\ 1|
\ 5\0j
\ e\0t
\ f\0d
\ 2\0|
\ 4\0\83\ 3\0}
\ 6\0|
\0\0j
\10\0|
\ 6\0j
\11\0\83\0\0j
\12\0\83\0\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0|
\ 6\0j
\14\0|
\ 2\0d
\a\0d
\ 2\0\83\ 3\0\83\ 1\0\ 1|
\b\0j
\e\0d
\r\0d
\ 3\0d
\ f\0\83\ 3\0\ 1|
\b\0j
\17\0\83\0\0}
\0|
\0d
\ 3\09}
\0|
\b\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\1c\0j
\ 5\0|
\ 1\0d
\f\0\83\ 2\0}
34283 +
\0j
\1d\0\83\0\0d/
\0d0
\0g
\ 2\0\83\ 2\0\ 1|
\0\0j
\10\0t
\1e\0|
34284 +
\0\83\ 1\0d
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0t
\1a\0|
34285 +
\0t
\1f\0\83\ 2\0\83\ 1\0\ 1|
34286 +
\0d
\ e\0\19j
\ e\0t
\ f\0d
\ 2\0|
\ 4\0\83\ 3\0}
\ 6\0|
\0\0j
\13\0|
\ 6\0j
\14\0|
\ 2\0d
\a\0d
\ 2\0\83\ 3\0\83\ 1\0\ 1|
34287 +
\0j
\ e\0t
\ f\0d
\ 2\0d
\r\0d
\ 2\0|
\ 4\0\83\ 5\0}
\ 6\0|
\0\0j
\13\0|
\ 6\0j
\14\0|
\ 2\0d
\a\0d
\ 2\0\83\ 3\0\83\ 1\0\ 1|
34288 +
\0j
\0\83\0\0}
\v\0|
\v\0j!
\0\83\0\0\ 1|
\v\0j!
\0\83\0\0}
\f\0|
\f\0j
\ e\0d
\ 2\0t
\ f\0|
\ 4\0\83\ 3\0}
\ 6\0|
\0\0j
\13\0|
\ 6\0j
\11\0\83\0\0j
\14\0d
\ 3\0|
\ 2\0j
\11\0\83\0\0\14\83\ 1\0\83\ 1\0\ 1|
\ 2\0j
\e\0d
\ f\0d
\r\0d
\ 3\0\83\ 3\0\ 1|
\ 2\0j
\11\0\83\0\0\ 4\1ed
\ 3\09
\ 2(|
\0\0j
\13\0|
\ 6\0j
\14\0|
\ 2\0d
\a\0d
\ 2\0\83\ 3\0\83\ 1\0\ 1|
\ 2\0j
\11\0\83\0\0\ 4\1ed
\ 3\0:
\ 2(t"
\0d
34289 +
\0d
\b\0\83\ 2\0}
\r\0d
\ 2\0|
\r\0(|
\r\0j#
\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 3\0\83\ 1\0\ 1x3
\0|
34290 +
\0D]+
\0}
\v\0|
\v\0j
\ e\0t
\ f\0d
\ 2\0|
\ 4\0\83\ 3\0}
\ 6\0|
\r\0|
\ 6\0j
\11\0\83\0\07}
\r\0qð
\ 3W|
\0\0j
\13\0|
\r\0j
\14\0d
\b\0|
\ 2\0j
\11\0\83\0\0\14\83\ 1\0\83\ 1\0\ 1t$
\0t%
\0\83\ 1\0}
\ e\0|
\ e\0j
\e\0d
\10\0d
\11\0d
\12\0\83\ 3\0\ 1|
\ e\0j&
\0|
\ 2\0j
\ 3\0\83\0\0\83\ 1\0\ 1t"
\0d
\13\0d
\ 3\0\83\ 2\0}
\ f\0|
\ f\0j#
\0d
\14\0d
\15\0g
\ 2\0\83\ 1\0\ 1t'
\0t(
\0d
\13\0\83\ 1\0\83\ 1\0|
\ f\0d
\0\0d
\0\0\85\ 2\0d
\ 2\0f
\ 2\0<d
\ 3\0|
\ f\0d
\0\0d
\0\0\85\ 2\0d
\ 2\0f
\ 2\0\19\14|
\ f\0d
\0\0d
\0\0\85\ 2\0d
\r\0f
\ 2\0<|
\ e\0j
\0d
\16\0\83\ 1\0\ 1|
\ e\0j)
\0|
\ f\0\83\ 1\0\ 1t
\f\0j
\ 5\0\83\0\0}
\10\0|
\10\0j
\r\0|
\ e\0\83\ 1\0\ 1|
\0\0j
\10\0|
\10\0j*
\0\83\0\0d1
\0\83\ 2\0\ 1|
\0\0j
\10\0|
\10\0j
\19\0\83\0\0d
\11\0d
\12\0d
\10\0g
\ 3\0\83\ 2\0\ 1|
\10\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t$
\0t%
\0\83\ 1\0}
\11\0|
\11\0j
\e\0d
\17\0d
\18\0d
\19\0\83\ 3\0\ 1|
\11\0j&
\0|
\ 2\0j
\ 3\0\83\0\0\83\ 1\0\ 1t"
\0d
\1a\0d
\ 3\0\83\ 2\0}
\12\0|
\ f\0j#
\0d
\e\0d
\1c\0g
\ 2\0\83\ 1\0\ 1t'
\0t(
\0d
\1a\0\83\ 1\0\83\ 1\0|
\12\0d
\0\0d
\0\0\85\ 2\0d
\ 2\0f
\ 2\0<|
\12\0d
\0\0d
\0\0\85\ 2\0d
\ 2\0f
\ 2\0c
\ 2\0\19d
\11\07
\ 3<d
\b\0|
\12\0d
\0\0d
\0\0\85\ 2\0d
\ 2\0f
\ 2\0\19\14|
\12\0d
\0\0d
\0\0\85\ 2\0d
\r\0f
\ 2\0<|
\11\0j
\0d
\1d\0\83\ 1\0\ 1|
\12\0j
\0|
\11\0j
34291 +
\0\83\0\0\83\ 1\0\ 1|
\11\0j)
\0|
\12\0\83\ 1\0\ 1t
\f\0j
\ 5\0\83\0\0}
\13\0t"
\0d
\r\0d
\ 3\0d
\0d
\v\0d
34292 +
\0d
\1e\0d
\11\0d
\1f\0g
\b\0\83\ 1\0}
\14\0|
\14\0j
\0d
\0\83\ 1\0\ 1|
\13\0j+
\0|
\11\0|
\ 4\0d
\ 2\0|
\14\0\83\ 4\0\ 1|
\13\0j,
\0t%
\0d
\ 2\0|
\ 4\0\83\ 3\0\ 1|
\13\0j,
\0t%
\0d
\ 2\0|
\ 4\0\83\ 3\0\
\ 2\0}
\ 6\0}
\a\0|
\a\0j
\0|
\14\0j
34293 +
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\13\0|
\a\0j
\14\0|
\14\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 6\0j
\14\0|
\12\0\83\ 1\0\83\ 1\0\ 1|
\13\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\f\0|
\ 1\0d
\1d\0\83\ 2\0}
\15\0|
\15\0j,
\0t%
\0d
\ 2\0|
\ 4\0\83\ 3\0\
\ 2\0}
\ 6\0}
\a\0|
\a\0j
\0|
\14\0j
34294 +
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\13\0|
\a\0j
\14\0|
\14\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 6\0j
\14\0|
\12\0\83\ 1\0\83\ 1\0\ 1t-
\0t%
\0\83\ 1\0}
\16\0|
\16\0j
\0d!
\0\83\ 1\0\ 1|
\16\0j
\e\0d"
\0d#
\0d$
\0\83\ 3\0\ 1|
\16\0j&
\0|
\ 2\0j
\ 3\0\83\0\0\83\ 1\0\ 1|
\16\0j)
\0|
\ 2\0j
\ 3\0\83\0\0j
\a\0\83\0\0\83\ 1\0\ 1t.
\0j
\ 5\0\83\0\0}
\17\0|
\17\0j
\r\0|
\16\0\83\ 1\0\ 1|
\17\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t/
\0|
\ 1\0\83\ 1\0}
\18\0|
\0\0j
\10\0t
\1e\0|
\18\0\83\ 1\0d
\0\83\ 2\0\ 1g
\0\0|
\18\0D]
\f\0}
\v\0|
\v\0^
\ 2\0q#
\b}
\19\0|
\0\0j
\13\0t
\1a\0|
\19\0d
\ 2\0\19t
\1f\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0t
\1a\0|
\19\0d
\r\0\19t
\1f\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0t
\1a\0|
\19\0d
\ 3\0\19t0
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0t
\1a\0|
\19\0d
\b\0\19t
\1f\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0|
\18\0d
\f\0\19d
\ 2\0\19j
\17\0\83\0\0j1
\0|
\ 2\0j
\11\0\83\0\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\18\0d
\f\0\19d2
\0\19j
\17\0\83\0\0j1
\0d
\ 3\0|
\ 2\0j
\11\0\83\0\0\14\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\18\0d
\1d\0\19d
\ 2\0\19j
\17\0\83\0\0j1
\0|
\12\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\18\0d
\16\0\19d
\10\0\19j
\17\0\83\0\0j1
\0|
\ f\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\18\0d!
\0\19d"
\0\19j
\17\0\83\0\0j1
\0|
\ 2\0j
\ 3\0\83\0\0j
\a\0\83\0\0d
\a\0\83\ 2\0\83\ 1\0\ 1t0
\0|
\ 1\0d!
\0\83\ 2\0}
\1a\0|
\0\0j
\13\0|
\1a\0d"
\0\19j
\17\0\83\0\0j1
\0|
\ 2\0j
\ 3\0\83\0\0j
\a\0\83\0\0d
\a\0\83\ 2\0\83\ 1\0\ 1|
\0\0j2
\0t3
\0t
\1f\0j
\ 5\0|
\ 1\0d!
\0\83\ 4\0\ 1|
\0\0j2
\0t3
\0t0
\0j
\ 5\0|
\ 1\0d
\16\0\83\ 4\0\ 1t.
\0j
\ 5\0|
\ 1\0d!
\0d#
\0d$
\0\83\ 4\0\ 1|
\0\0j2
\0t3
\0t
\f\0j
\ 5\0|
\ 1\0d!
\0d#
\0d$
\0\83\ 6\0\ 1t
\f\0j
\ 5\0|
\ 1\0d
\16\0d
\11\0d
\12\0\83\ 4\0\ 1|
\0\0j2
\0t3
\0t.
\0j
\ 5\0|
\ 1\0d
\16\0d
\11\0d
\12\0\83\ 6\0\ 1|
\0\0j
\10\0|
\18\0j4
\0\83\0\0d3
\0\83\ 2\0\ 1|
\0\0j
\13\0|
\18\0j5
\0d4
\0g
\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\10\0|
\18\0j4
\0\83\0\0d5
\0\83\ 2\0\ 1|
\0\0j
\13\0|
\18\0j5
\0d6
\0g
\ 1\0\83\ 1\0\f\83\ 1\0\ 1d
\0\0S(7
\0\0\0Ns
\f\0\0\0Pyfile63.medi
\0\0\0\0i
\ 2\0\0\0s
\ e\0\0\0power [MW/m^3]s
\10\0\0\0density [g/cm^3]s
\ f\0\0\0temperature [K]g
\11ê-
\81\99\97q=i
\ 3\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0i
\ 5\0\0\0R
\ 1\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0"@i
34295 +
\0\0\0iÿÿÿÿi
\f\0\0\0s
\a\0\0\0aa [u1]s
\v\0\0\0bbbvv [ppp]R
\18\ 1\0\0g
\0\0\0\0\0\03@i
\14\0\0\0iõÿÿÿi
\b\0\0\0s
34296 +
\0\0\0aapfl [u1]s
\ e\0\0\0bbbvvpfl [ppp]t
\15\0\0\0VectorFieldOnNodesPfli
\a\0\0\0i
\v\0\0\0t
\ 4\0\0\0npflt
\18\0\0\0VectorFieldOnNodesDoubleg
\0\0\0\0\0\0=@i
\1e\0\0\0iëÿÿÿR
\19\ 1\0\0t
34297 +
\0\0\03DSurfMesh(
\ 2\0\0\0i
\ 3\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 6\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0(
\ 3\0\0\0i
\0\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\0@(
\ 3\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0g
\0\0\0\0\0\0\b@(
\ 2\0\0\0s
\a\0\0\0aa [u1]s
\v\0\0\0bbbvv [ppp](
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 4\0\0\0s
\f\0\0\03DSurfMesh_1s
\f\0\0\03DSurfMesh_1s
\f\0\0\03DSurfMesh_1s
\f\0\0\03DSurfMesh_1(
\ 2\0\0\0s
\f\0\0\03DSurfMesh_1R
\1c\ 3\0\0(
\ 4\0\0\0R
\1c\ 3\0\0R
\1c\ 3\0\0R
\1c\ 3\0\0R
\1c\ 3\0\0(
\ 2\0\0\0s
\f\0\0\03DSurfMesh_1R
\1c\ 3\0\0(6
\0\0\0R
\ 4\0\0\0R$
\ 1\0\0t
\11\0\0\0convertToIntFieldR¹
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0RB
\0\0\0RC
\0\0\0R
\v\0\0\0t
\12\0\0\0MEDFileIntField1TSR%
\ 1\0\0R
\97\ 1\0\0R
\13\ 1\0\0R+
\0\0\0R)
\ 1\0\0t
\13\0\0\0getInfoOnComponentsR0
\0\0\0R1
\0\0\0R(
\ 1\0\0t
\13\0\0\0getHiddenCppPointerR+
\ 1\0\0t
\16\0\0\0MEDFileAnyTypeField1TSRº
\0\0\0Rt
\0\0\0R°
\0\0\0t
\1a\0\0\0MEDFileAnyTypeFieldMultiTSR÷
\0\0\0Ry
\0\0\0t
\16\0\0\0MEDFileIntFieldMultiTSt
\b\0\0\0__iter__t
\ 4\0\0\0nextRk
\0\0\0RÃ
\ 1\0\0t
\13\0\0\0MEDCouplingFieldIntR
\1c\ 1\0\0R³
\0\0\0Rm
\0\0\0Rn
\0\0\0R{
\ 1\0\0t
\a\0\0\0getInfoR|
\ 1\0\0R~
\ 1\0\0Rw
\ 1\0\0Rà
\0\0\0R[
\ 1\0\0Rô
\0\0\0R
\7f\ 1\0\0R)
\0\0\0R*
\0\0\0RU
\ 1\0\0t
\ f\0\0\0changeMeshNames(
\e\0\0\0R
\0\0\0R9
\ 1\0\0Rã
\0\0\0R
\84\0\0\0R:
\ 1\0\0R;
\ 1\0\0R©
\ 2\0\0Rï
\ 2\0\0RC
\ 1\0\0R
\80\0\0\0t
\ 4\0\0\0ffs1Rv
\ 2\0\0t
\ 6\0\0\0ff2bist
\ 2\0\0\0bct
\ 3\0\0\0nf1t
\ 4\0\0\0narrt
\ 4\0\0\0nff1t
\ 3\0\0\0nf2t
\ 5\0\0\0narr2t
\ 4\0\0\0nff2R
\1a\ 3\0\0t
\a\0\0\0nff2bist
\ 3\0\0\0nf3t
\ 4\0\0\0nff3Rl
\ 1\0\0R¥
\ 1\0\0t
\b\0\0\0nf3_read(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1c\0\0\0testInt32InMEDFileFieldStar1C
34298 +
\0\0sþ
\0\0\0\0\ 1\ 6\ 1\f\ 1\f\ 1\f\ 1\f\ 1\13\ 1\10\ 1\13\ 1\10\ 1 \ 1\r\ 1\15\ 1%
\ 1\1c\ 1\10\ 1\12\ 1"
\ 14
\ 1\ f\ 1\16\ 1\1f\ 1\16\ 1\15\ 1%
\ 1\1c\ 1\13\ 1\f\0
34299 +
\ 1\10\ 1\12\ 1\1c\ 1\16\ 1\16\ 1\19\ 1\1c\ 1\e\ 1\1c\ 1\f\0
34300 +
\0\f\ 1\15\ 1&
\ 1\13\0\11\ 1\1c\0\11\ 1\ f\0\a\0\16\ 1\r\ 1\15\ 1\10\ 1\ 4\ 1 \ 1\f\ 1\13\ 1\13\ 1\ f\0\13\0"
\0*
\ 1\r\0\r\ 1\f\ 1\r\ 1\16\ 1\1f\ 1\10\ 2\f\ 1\13\ 1\13\ 1\ f\0\13\0"
\0\1c\0*
\ 1\r\0\13\0\r\ 1\f\ 1$
\0\r\ 1\16\ 1\13\ 1\e\0\13\ 1\16\ 1\16\ 1\10\ 1\ f\ 1\e\0\13\ 1\16\ 1\16\ 2\f\ 1\r\ 1\13\ 1\13\ 1\19\ 1\f\ 1\r\ 1\10\ 1\f\ 1\16\ 1\19\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 2*
\ 1.
\ 1$
\ 1$
\ 13
\ 2\ f\ 1/
\ 1\19\ 1\19\ 1\16\ 1\1f\ 1\16\ 1\1f\ 2\16\ 1\19\ 1\16\ 1\1a\ 1c
\ 1\0\0\0 \0\0\0\a\0\0\0C
\0\0\0sÉ
\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0t
\ 1\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0\83\ 3\0\ 1|
\ 2\0j
\ 3\0d
\ 5\0\83\ 1\0\ 1t
\ 4\0d
\ 6\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 5\0\83\0\0\ 1t
\ 6\0\83\0\0}
\ 4\0|
\ 4\0j
\a\0d
\ 3\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\b\0d
\a\0\83\ 1\0\ 1t
\0\83\0\0}
\ 5\0|
\ 5\0j
34301 +
\0|
\ 4\0\83\ 1\0\ 1|
\ 5\0j
\v\0|
\ 1\0d
\b\0\83\ 2\0\ 1|
\ 2\0j
34302 +
\0|
\ 4\0\83\ 1\0\ 1t
\ 4\0d
\ 6\0d
\b\0\83\ 2\0}
\ 6\0|
\ 6\0j
\f\0d
\0d
34303 +
\0g
\ 2\0\83\ 1\0\ 1t
\r\0t
\ e\0d
\ 6\0\83\ 1\0\83\ 1\0|
\ 6\0d
\0\0d
\0\0\85\ 2\0d
\ 3\0f
\ 2\0<d
\b\0|
\ 6\0d
\0\0d
\0\0\85\ 2\0d
\ 3\0f
\ 2\0\19\14|
\ 6\0d
\0\0d
\0\0\85\ 2\0d
\v\0f
\ 2\0<|
\ 2\0j
\ f\0|
\ 6\0\83\ 1\0\ 1|
\ 2\0j
\b\0d
\f\0\83\ 1\0\ 1t
\10\0j
\11\0\83\0\0}
\a\0|
\a\0j
\12\0|
\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0|
\a\0j
\14\0\83\0\0d
\ 5\0\83\ 2\0\ 1|
\a\0j
\v\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 2\0d
\r\0d
\v\0d
\ 4\0\83\ 3\0\ 1t
\10\0j
\11\0\83\0\0}
\a\0|
\a\0j
\12\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\v\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 2\0d
\ e\0d
\b\0d
\ 4\0\83\ 3\0\ 1t
\10\0j
\11\0\83\0\0}
\a\0|
\a\0j
\12\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\v\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0t
\15\0|
\ 1\0\83\ 1\0j
\16\0\83\0\0d
\12\0d
\13\0d
\14\0g
\ 3\0t
\17\0f
\ 2\0\83\ 2\0\ 1t
\18\0|
\ 1\0d
\f\0\83\ 2\0}
\b\0|
\b\0j
\b\0d
\ f\0\83\ 1\0\ 1|
\b\0j
\v\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0t
\15\0|
\ 1\0\83\ 1\0j
\16\0\83\0\0d
\15\0d
\16\0d
\17\0g
\ 3\0t
\17\0f
\ 2\0\83\ 2\0\ 1|
\ 2\0j
\ 2\0d
\10\0d
\11\0d
\ 4\0\83\ 3\0\ 1t
\10\0j
\11\0\83\0\0}
\a\0|
\a\0j
\12\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\v\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0t
\15\0|
\ 1\0\83\ 1\0j
\16\0\83\0\0d
\18\0d
\19\0d
\1a\0g
\ 3\0t
\19\0f
\ 2\0\83\ 2\0\ 1|
\0\0j
\13\0t
\15\0|
\ 1\0\83\ 1\0j
\1a\0d
\e\0g
\ 1\0\83\ 1\0j
\16\0\83\0\0d
\1c\0g
\ 1\0t
\17\0f
\ 2\0\83\ 2\0\ 1|
\0\0j
\13\0t
\15\0|
\ 1\0\83\ 1\0j
\e\0d
\1d\0g
\ 1\0\83\ 1\0j
\16\0\83\0\0d
\1e\0d
\1f\0g
\ 2\0t
\19\0f
\ 2\0\83\ 2\0\ 1|
\ 2\0j
\b\0d
\ f\0\83\ 1\0\ 1|
\ 2\0j
\ 2\0d
\10\0d
\11\0d
\ 4\0\83\ 3\0\ 1t
\10\0j
\11\0\83\0\0}
\a\0|
\a\0j
\12\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\v\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0t
\15\0|
\ 1\0\83\ 1\0j
\16\0\83\0\0d
\0d!
\0d"
\0d#
\0g
\ 4\0t
\17\0f
\ 2\0\83\ 2\0\ 1|
\0\0j
\13\0t
\15\0|
\ 1\0\83\ 1\0d
\v\0\19j
\14\0\83\0\0d
\ 5\0\83\ 2\0\ 1d
\0\0S($
\0\0\0Ns
\f\0\0\0Pyfile64.medgü©ñÒMbP?i
\0\0\0\0iÿÿÿÿR®
\ 2\0\0i
\f\0\0\0R
\ 2\0\0i
\ 2\0\0\0s
\a\0\0\0aa [u1]s
\v\0\0\0bbbvv [ppp]i
\ 1\0\0\0R¼
\ 1\0\0gj¼t
\93\18\ 4ð?g5^ºI
\f\ 2\0@RÀ
\ 1\0\0g5^ºI
\f\ 2\b@i
\ 3\0\0\0(
\ 2\0\0\0i
\0\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 1\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 2\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\0\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 1\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 2\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\0\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 1\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 2\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 1\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 1\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 1\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\0\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 2\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\0\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 1\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 2\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 3\0\0\0iÿÿÿÿ(
\1c\0\0\0Rw
\ 1\0\0R
\1c\ 1\0\0R°
\0\0\0Rµ
\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0R²
\0\0\0RB
\0\0\0R¯
\0\0\0R³
\0\0\0R
\v\0\0\0RÃ
\ 1\0\0Rm
\0\0\0Rn
\0\0\0R{
\ 1\0\0Rà
\0\0\0R(
\0\0\0R%
\ 1\0\0R+
\0\0\0t
\0\0\0getDtUnitR[
\ 1\0\0t
\13\0\0\0getCommonIterationsRN
\0\0\0Rô
\0\0\0R.
\0\0\0t#
\0\0\0partOfThisLyingOnSpecifiedTimeStepst&
\0\0\0partOfThisNotLyingOnSpecifiedTimeSteps(
\0\0\0R
\0\0\0R9
\ 1\0\0Rã
\0\0\0R
\80\0\0\0R
\83\0\0\0R
\86\0\0\0RÔ
\ 1\0\0R;
\ 1\0\0t
\ 4\0\0\0ff1s(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\12\0\0\0testMEDFileFields1µ
34304 +
\0\0sf
\0\0\0\0\ 1\ 6\ 1\f\ 1\13\0\r\ 1\f\0
34305 +
\0 \0\10\0\r\ 1 \0\r\0\10\ 1\r\ 1\ f\0\13\0"
\0*
\ 1\r\ 1\r\ 1\f\ 1\r\ 1\16\ 1\10\ 1\13\0\f\0\r\0\10\ 1\13\0\f\0\r\0\10\ 2+
\ 1\ f\ 1\r\ 1\10\ 1+
\ 1\13\0\f\0\r\0\10\ 1+
\ 11
\ 14
\ 1\r\0\13\0\f\0\r\0\10\ 1.
\ 1 \ 1c
\ 1\0\0\0\1a\0\0\0
34306 +
\0\0\0C
\0\0\0sN
\a\0\0d
\ 1\0}
\ 1\0t
\0\0\83\0\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0j
\ 1\0\83\0\0\ 1t
\ 3\0d
\ 2\0d
\ 3\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 4\0\83\0\0\ 1|
\ 2\0j
\ 5\0t
\ 6\0d
\ 4\0d
\ 5\0d
\ 3\0g
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\a\0t
\b\0d(
\0d)
\0d*
\0g
\ 3\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\0d
\b\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 2\0j
34307 +
\0\83\0\0^
\ 2\0q{
\0}
\ 4\0x-
\0t
\v\0|
\ 4\0\83\ 1\0D]
\1f\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\f\0|
\ 3\0d
\ 4\0g
\ 2\0\83\ 1\0\ 1q
\0Wt
\ 3\0j
\r\0|
\ 4\0\83\ 1\0}
\ 4\0t
\ 3\0d
\0d
\ 3\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 4\0\83\0\0\ 1|
\ 6\0j
\ 5\0t
\ e\0d
\ 4\0d
\ 5\0d
\ 3\0d
34308 +
\0g
\ 4\0\83\ 2\0\ 1|
\ 6\0j
\a\0t
\b\0d+
\0d,
\0d-
\0d.
\0g
\ 4\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\0d
\v\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 6\0j
34309 +
\0\83\0\0^
\ 2\0q3
\ 1}
\a\0x1
\0t
\v\0|
\a\0\83\ 1\0D]#
\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\f\0d
\v\0|
\ 3\0\17d
\ 4\0g
\ 2\0\83\ 1\0\ 1qX
\ 1Wt
\ 3\0j
\r\0|
\a\0\83\ 1\0}
\a\0t
\ 3\0j
\r\0|
\ 4\0|
\a\0\83\ 2\0}
\b\0|
\b\0j
\ f\0d
\f\0\83\ 1\0\ 1|
\b\0j
\10\0\83\0\0j
\11\0d
\r\0d
\ e\0g
\ 2\0\83\ 1\0\ 1t
\ 2\0\83\0\0}
\0t
\ 2\0\83\0\0}
34310 +
\0x¦
\ 1t
\0d
\ f\0\83\ 1\0D]
\98\ 1}
\ 3\0d
\10\0d
\11\0g
\ 2\0}
\v\0d
\12\0}
\f\0t
\b\0d
\13\0\83\ 1\0}
\r\0|
\r\0j
\12\0|
\ 3\0d
\ f\0\14\83\ 1\0\ 1|
\r\0j
\13\0d
\ 3\0\83\ 1\0\ 1|
\r\0j
\11\0|
\v\0\83\ 1\0\ 1t
\14\0t
\15\0\83\ 1\0}
\ e\0|
\ e\0j
\ f\0|
\f\0\83\ 1\0\ 1|
\ e\0j
\16\0|
\r\0\83\ 1\0\ 1|
\ e\0j
\17\0|
\b\0\83\ 1\0\ 1|
\ e\0j
\18\0t
\19\0|
\ 3\0d
\ 5\0\17\83\ 1\0d
\14\0\17|
\ 3\0d
\ 5\0\17|
\ 3\0\vd
\ 5\0\18\83\ 3\0\ 1|
\0j
\1a\0|
\ e\0\83\ 1\0\ 1t
\0\0\83\0\0}
\ f\0|
\ f\0j
\e\0|
\ e\0\83\ 1\0\ 1|
34311 +
\0j
\1c\0|
\ f\0\83\ 1\0\ 1|
\0\0j
\1d\0|
34312 +
\0j
\1e\0\83\0\0|
\f\0\83\ 2\0\ 1|
\0\0j
\1d\0|
\0j
\1f\0\83\0\0d/
\0\83\ 2\0\ 1|
\0\0j
\1d\0|
34313 +
\0j
\1f\0\83\0\0d0
\0\83\ 2\0\ 1|
\ 3\0d
\ 5\0k
\ 4\0rå
\ 1|
\r\0j
\11\0d
\10\0d
\15\0g
\ 2\0\83\ 1\0\ 1|
\0\0j
\0t!
\0|
\0j
\1a\0|
\ e\0\83\ 3\0\ 1|
\0\0j
\0t!
\0|
\ f\0j"
\0d
\10\0g
\ 1\0\83\ 3\0\ 1|
\ f\0j"
\0d
\10\0d
\15\0g
\ 2\0\83\ 1\0\ 1|
\0\0j
\0t!
\0|
34314 +
\0j
\1c\0|
\ f\0\83\ 3\0\ 1qå
\ 1qå
\ 1W|
\0j
34315 +
\0\83\0\0}
\10\0|
\0j
34316 +
\0\83\0\0}
\11\0|
\0j
34317 +
\0\83\0\0}
\12\0|
\0j#
\0\83\0\0}
\13\0|
\0\0j$
\0t%
\0|
\0\83\ 1\0d
\ f\0k
\ 2\0o
\ 4t%
\0|
34318 +
\0\83\ 1\0d
\ f\0k
\ 2\0o
\ 4t%
\0|
\10\0\83\ 1\0d
\ f\0k
\ 2\0o
\ 4t%
\0|
\11\0\83\ 1\0d
\ f\0k
\ 2\0o
\ 4t%
\0|
\12\0\83\ 1\0d
\ f\0k
\ 2\0o
\ 4t%
\0|
\13\0\83\ 1\0d
\ f\0k
\ 2\0\83\ 1\0\ 1|
\10\0d
\0\0d
\0\0d
\ 3\0\85\ 3\0=|
\0\0j$
\0t%
\0|
\10\0\83\ 1\0d
\v\0k
\ 2\0oj
\ 4|
\10\0j&
\0\83\0\0d1
\0d2
\0d3
\0d4
\0d5
\0g
\ 5\0k
\ 2\0\83\ 1\0\ 1|
\11\0d
\1d\0d6
\0d
\1e\0g
\ 3\0=|
\0\0j$
\0t%
\0|
\11\0\83\ 1\0d
\1f\0k
\ 2\0oº
\ 4|
\11\0j&
\0\83\0\0d7
\0d8
\0d9
\0d:
\0d;
\0d<
\0d=
\0g
\a\0k
\ 2\0\83\ 1\0\ 1|
\12\0d
\1d\0d>
\0d
\1a\0g
\ 3\0\19}
\14\0|
\0\0j$
\0t'
\0|
\14\0t
\ 2\0\83\ 2\0\83\ 1\0\ 1|
\0\0j$
\0t%
\0|
\14\0\83\ 1\0d
34319 +
\0k
\ 2\0o
\17\ 5|
\14\0j&
\0\83\0\0d?
\0d@
\0dA
\0g
\ 3\0k
\ 2\0\83\ 1\0\ 1|
\12\0d
\0\0d
\0\0d
\0\85\ 3\0\19}
\15\0|
\0\0j$
\0t'
\0|
\15\0t
\ 2\0\83\ 2\0\83\ 1\0\ 1|
\0\0j$
\0t%
\0|
\15\0\83\ 1\0d
\b\0k
\ 2\0ow
\ 5|
\15\0j&
\0\83\0\0dB
\0dC
\0dD
\0dE
\0g
\ 4\0k
\ 2\0\83\ 1\0\ 1t(
\0\83\0\0}
\16\0|
\16\0j)
\0|
\0\83\ 1\0\ 1|
\10\0j
\ f\0d%
\0\83\ 1\0\ 1|
\16\0j)
\0|
\10\0\83\ 1\0\ 1|
\11\0j
\ f\0d&
\0\83\ 1\0\ 1|
\16\0j)
\0|
\11\0\83\ 1\0\ 1|
\12\0j
\ f\0d'
\0\83\ 1\0\ 1|
\16\0j)
\0|
\12\0\83\ 1\0\ 1|
\0\0j$
\0t%
\0|
\16\0\83\ 1\0d
\b\0k
\ 2\0o
\ 6\ 6|
\16\0j*
\0\83\0\0dF
\0k
\ 2\0\83\ 1\0\ 1|
\16\0j+
\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t(
\0|
\ 1\0\83\ 1\0}
\16\0|
\0\0j
\1d\0|
\16\0j,
\0\83\0\0dG
\0dH
\0dI
\0g
\ 3\0t-
\0f
\ 2\0\83\ 2\0\ 1|
\16\0j.
\0|
\16\0j,
\0\83\0\0d
\ 4\0\19\83\ 1\0}
\17\0|
\0\0j$
\0|
\17\0j*
\0\83\0\0dJ
\0k
\ 2\0o
\9a\ 6|
\17\0j,
\0\83\0\0dK
\0dL
\0dM
\0g
\ 3\0t/
\0f
\ 2\0k
\ 2\0\83\ 1\0\ 1|
\17\0d%
\0d
34320 +
\0g
\ 2\0=|
\0\0j$
\0|
\17\0j*
\0\83\0\0dN
\0k
\ 2\0oá
\ 6|
\17\0j,
\0\83\0\0dO
\0dP
\0dQ
\0g
\ 3\0t/
\0f
\ 2\0k
\ 2\0\83\ 1\0\ 1|
\16\0d
\ 4\0d'
\0g
\ 2\0\19}
\18\0|
\0\0j$
\0t'
\0|
\18\0t(
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1d\0|
\18\0j*
\0\83\0\0dR
\0\83\ 2\0\ 1t0
\0\83\0\0}
\19\0|
\19\0j1
\0d
\ 4\0|
\b\0\83\ 2\0\ 1|
\19\0j+
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1d
\0\0S(S
\0\0\0Ns
\f\0\0\0Pyfile65.medt
\ 3\0\0\0trii
\ 2\0\0\0i
\0\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0t
\ 4\0\0\0quadi
\ 3\0\0\0i
\ 5\0\0\0R
\ 2\0\0s
\ 6\0\0\0XX [m]s
\b\0\0\0YYY [km]i
34321 +
\0\0\0s
\a\0\0\0aa [bb]s
\0\0\0ccc [ddd]t
\b\0\0\01stFieldi
\12\0\0\0g
\9a\99\99\99\99\99¹?s
\b\0\0\0eee [dd]iþÿÿÿiüÿÿÿi
\ 6\0\0\0iúÿÿÿi
\b\0\0\0iøÿÿÿiöÿÿÿg
\9a\99\99\99\99\99ñ?i
\0\0\0i
\a\0\0\0iýÿÿÿiûÿÿÿiùÿÿÿi÷ÿÿÿiÿÿÿÿt
\b\0\0\02ndFieldt
\b\0\0\03rdFieldt
\b\0\0\04thField(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0s
\a\0\0\0aa [bb]s
\0\0\0ccc [ddd](
\ 2\0\0\0s
\a\0\0\0aa [bb]s
\0\0\0ccc [ddd](
\ 2\0\0\0i
\ 2\0\0\0iþÿÿÿ(
\ 2\0\0\0i
\ 4\0\0\0iüÿÿÿ(
\ 2\0\0\0i
\ 6\0\0\0iúÿÿÿ(
\ 2\0\0\0i
\b\0\0\0iøÿÿÿ(
\ 2\0\0\0i
34322 +
\0\0\0iöÿÿÿ(
\ 2\0\0\0i
\ 6\0\0\0iúÿÿÿ(
\ 2\0\0\0i
\ 2\0\0\0iþÿÿÿ(
\ 2\0\0\0i
\ 3\0\0\0iýÿÿÿ(
\ 2\0\0\0i
\ 4\0\0\0iüÿÿÿ(
\ 2\0\0\0i
\ 5\0\0\0iûÿÿÿ(
\ 2\0\0\0i
\a\0\0\0iùÿÿÿ(
\ 2\0\0\0i
\b\0\0\0iøÿÿÿ(
\ 2\0\0\0i
\0\0\0i÷ÿÿÿ(
\ 2\0\0\0i
\ 6\0\0\0iúÿÿÿ(
\ 2\0\0\0i
\ 1\0\0\0iÿÿÿÿ(
\ 2\0\0\0i
\ 6\0\0\0iúÿÿÿ(
\ 2\0\0\0i
\0\0\0i÷ÿÿÿ(
\ 2\0\0\0i
34323 +
\0\0\0iöÿÿÿ(
\ 2\0\0\0i
\a\0\0\0iùÿÿÿ(
\ 2\0\0\0i
\ 4\0\0\0iüÿÿÿ(
\ 2\0\0\0i
\ 1\0\0\0iÿÿÿÿ(
\ 4\0\0\0R?
\ 3\0\0R@
\ 3\0\0RA
\ 3\0\0RB
\ 3\0\0(
\ 2\0\0\0i
\ 2\0\0\0iþÿÿÿ(
\ 2\0\0\0i
\ 4\0\0\0iüÿÿÿ(
\ 2\0\0\0i
\b\0\0\0iøÿÿÿ(
\ 4\0\0\0R?
\ 3\0\0R@
\ 3\0\0RA
\ 3\0\0RB
\ 3\0\0(
\ 2\0\0\0i
\ 2\0\0\0iþÿÿÿ(
\ 2\0\0\0i
\ 4\0\0\0iüÿÿÿ(
\ 2\0\0\0i
\b\0\0\0iøÿÿÿ(
\ 2\0\0\0R?
\ 3\0\0RA
\ 3\0\0(
\ 2\0\0\0i
\ 2\0\0\0iþÿÿÿ(
\ 2\0\0\0i
\ 4\0\0\0iüÿÿÿ(
\ 2\0\0\0i
\b\0\0\0iøÿÿÿ(
\ 2\0\0\0R?
\ 3\0\0RB
\ 3\0\0(2
\0\0\0Rà
\0\0\0t
\a\0\0\0__str__Rô
\0\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0Rc
\0\0\0RY
\0\0\0Rn
\0\0\0Rq
\0\0\0Rõ
\0\0\0Rº
\ 1\0\0R[
\ 2\0\0R`
\0\0\0RB
\0\0\0RØ
\0\0\0RÃ
\ 1\0\0Ry
\ 1\0\0Rz
\ 1\0\0Rw
\ 1\0\0R
\13\ 1\0\0R{
\ 1\0\0R³
\0\0\0R°
\0\0\0t
\ 5\0\0\0floatRY
\ 1\0\0R%
\ 1\0\0t
\10\0\0\0pushBackTimeStepR+
\0\0\0RC
\0\0\0R'
\ 3\0\0R)
\0\0\0R*
\0\0\0t
\a\0\0\0setInfot
34324 +
\0\0\0shallowCpyR0
\0\0\0Ry
\0\0\0R
\e\ 1\0\0Rt
\0\0\0R[
\ 1\0\0R\
\ 1\0\0Rb
\ 1\0\0R
\v\0\0\0R8
\ 3\0\0R.
\0\0\0R9
\ 3\0\0RN
\0\0\0R>
\0\0\0Rj
\0\0\0(
\1a\0\0\0R
\0\0\0R9
\ 1\0\0R=
\ 3\0\0Rî
\0\0\0t
\ 4\0\0\0trisRü
\0\0\0R>
\ 3\0\0t
\ 5\0\0\0quadsR
\83\0\0\0t
\a\0\0\0fmts0_0t
\a\0\0\0fmts0_1t
\ 6\0\0\0infos1t
\ 5\0\0\0name1Re
\ 1\0\0R
\b\0\0\0Rú
\0\0\0t
\a\0\0\0fmts0_2t
\a\0\0\0fmts0_3t
\a\0\0\0fmts0_4t
\a\0\0\0fmts0_5t
\a\0\0\0fmts0_6t
\a\0\0\0fmts0_7t
\ 3\0\0\0fs0t
\ 3\0\0\0fs1t
\ 3\0\0\0fs2R
\86\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\12\0\0\0testMEDFileFields2Õ
34325 +
\0\0s²
\0\0\0\0\ 1\ 6\ 2\r\ 1\r\ 2\ f\ 1
34326 +
\0\19\ 1\1c\ 1%
\ 1\19\0\17\ 1\ f\ 1\ f\ 1
34327 +
\0\1c\ 1\1f\ 1%
\ 1\19\0\e\ 1\ f\ 1\12\ 1\r\0\19\ 2 \ 1 \ 2\13\ 1\f\0\ 6\ 1\f\0\11\0\r\0\r\ 1\f\0\r\0\r\0\r\ 1*
\ 1\r\ 1 \0\r\0\r\ 1\16\ 1\16\ 1\16\ 1\f\ 2\13\ 1\16\ 1\19\ 1\13\ 1\16\ 1\ 3\ 2\ 4\ 1\f\ 1\f\ 1\f\ 1\f\ 1s
\ 1\10\ 1:
\ 1\10\ 1@
\ 1\13\ 1\16\ 14
\ 1\13\ 1\16\ 17
\ 2 \ 1\r\ 1\r\0\r\ 1\r\0\r\ 1\r\0\r\ 1+
\ 1\10\ 1\f\ 1%
\ 1\19\ 1:
\ 1\r\ 1:
\ 1\10\ 1\16\ 1\16\ 2 \0\10\0\10\ 1c
\ 1\0\0\0\18\0\0\0 \0\0\0C
\0\0\0sÇ
\ 5\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 3\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 1\0\83\0\0\ 1|
\ 2\0j
\ 2\0t
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0g
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0t
\ 5\0d!
\0d"
\0d#
\0g
\ 3\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\ 6\0d
\b\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 2\0j
\a\0\83\0\0^
\ 2\0qa
\0}
\ 4\0x-
\0t
\b\0|
\ 4\0\83\ 1\0D]
\1f\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\0|
\ 3\0d
\ 4\0g
\ 2\0\83\ 1\0\ 1q
\86\0Wt
\0\0j
34328 +
\0|
\ 4\0\83\ 1\0}
\ 4\0t
\0\0d
\0d
\ 3\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 1\0\83\0\0\ 1|
\ 6\0j
\ 2\0t
\v\0d
\ 4\0d
\ 5\0d
\ 3\0d
34329 +
\0g
\ 4\0\83\ 2\0\ 1|
\ 6\0j
\ 4\0t
\ 5\0d$
\0d%
\0d&
\0d'
\0g
\ 4\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\ 6\0d
\v\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 6\0j
\a\0\83\0\0^
\ 2\0q
\19\ 1}
\a\0x1
\0t
\b\0|
\a\0\83\ 1\0D]#
\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\0d
\v\0|
\ 3\0\17d
\ 4\0g
\ 2\0\83\ 1\0\ 1q>
\ 1Wt
\0\0j
34330 +
\0|
\a\0\83\ 1\0}
\a\0t
\0\0j
34331 +
\0|
\ 4\0|
\a\0\83\ 2\0}
\b\0|
\b\0j
\f\0d
\f\0\83\ 1\0\ 1|
\b\0j
\r\0\83\0\0j
\ e\0d
\r\0d
\ e\0g
\ 2\0\83\ 1\0\ 1t
\ f\0\83\0\0}
\0|
\0j
\10\0d
\ 4\0|
\b\0\83\ 2\0\ 1|
\0j
\11\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\12\0d
\ 4\0d
\ 5\0d
\ 3\0d
34332 +
\0d
\b\0d
\v\0d
\ f\0g
\a\0\83\ 1\0}
34334 +
\0j
\f\0d
\10\0\83\ 1\0\ 1t
\12\0d
\ 4\0d
\ 5\0d
\ 3\0d
34335 +
\0d
\b\0d
\v\0d
\ f\0d
\11\0g
\b\0\83\ 1\0}
\v\0|
\v\0j
\f\0d
\12\0\83\ 1\0\ 1t
\13\0\83\0\0}
\f\0t
\13\0\83\0\0}
\r\0x(
\ 1t
\ 6\0d
\13\0\83\ 1\0D]
\1a\ 1}
\ 3\0d
\14\0d
\15\0g
\ 2\0}
\ e\0d
\16\0}
\ f\0t
\ 5\0d
\17\0\83\ 1\0}
\10\0|
\10\0j
\14\0|
\ 3\0d
\13\0\14\83\ 1\0\ 1|
\10\0j
\15\0d
\ 3\0\83\ 1\0\ 1|
\10\0j
\ e\0|
\ e\0\83\ 1\0\ 1t
\16\0t
\17\0\83\ 1\0}
\11\0|
\11\0j
\f\0|
\ f\0\83\ 1\0\ 1|
\11\0j
\18\0|
\10\0\83\ 1\0\ 1|
\11\0j
\19\0|
\b\0\83\ 1\0\ 1|
\11\0j
\1a\0t
\e\0|
\ 3\0d
\ 5\0\17\83\ 1\0d
\18\0\17|
\ 3\0d
\ 5\0\17|
\ 3\0\vd
\ 5\0\18\83\ 3\0\ 1|
\f\0j
\1c\0|
\11\0|
\0d
\ 4\0|
34336 +
\0\83\ 4\0\ 1t
\1d\0\83\0\0}
\12\0|
\12\0j
\1e\0|
\11\0|
\0d
\ 4\0|
34337 +
\0\83\ 4\0\ 1|
\r\0j
\1f\0|
\12\0\83\ 1\0\ 1|
\0\0j
\0|
\f\0j!
\0\83\0\0d(
\0\83\ 2\0\ 1|
\0\0j
\0|
\r\0j!
\0\83\0\0d)
\0\83\ 2\0\ 1qS
\ 2W|
\0\0j
\0|
\f\0j"
\0\83\0\0d
\13\0d*
\0\14\83\ 2\0\ 1|
\0\0j
\0|
\r\0j"
\0\83\0\0d+
\0\83\ 2\0\ 1|
\f\0j#
\0\83\0\0\ 1|
\0\0j
\0|
\f\0j"
\0\83\0\0d,
\0\83\ 2\0\ 1|
\0\0j$
\0|
\r\0j%
\0d
\19\0\83\ 1\0j&
\0|
\f\0j%
\0d
\19\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\f\0j
\a\0\83\0\0}
\13\0|
\f\0j
\a\0\83\0\0}
\14\0|
\f\0j
\a\0\83\0\0}
\15\0t'
\0\83\0\0}
\16\0|
\16\0j(
\0|
\f\0\83\ 1\0\ 1|
\13\0j
\f\0d
\1a\0\83\ 1\0\ 1|
\16\0j(
\0|
\13\0\83\ 1\0\ 1|
\14\0j
\f\0d
\e\0\83\ 1\0\ 1|
\16\0j(
\0|
\14\0\83\ 1\0\ 1|
\15\0j
\f\0d
\1c\0\83\ 1\0\ 1|
\16\0j(
\0|
\15\0\83\ 1\0\ 1|
\0\0j
\0|
\16\0j"
\0\83\0\0d-
\0\83\ 2\0\ 1t
\13\0\83\0\0}
\17\0xæ
\0t
\ 6\0d
\1d\0\83\ 1\0D]Ø
\0}
\ 3\0d
\14\0d
\15\0g
\ 2\0}
\ e\0d
\16\0}
\ f\0t
\ 5\0d
\1e\0\83\ 1\0}
\10\0|
\10\0j
\14\0|
\ 3\0d
\13\0\14\83\ 1\0\ 1|
\10\0j
\15\0d
\ 3\0\83\ 1\0\ 1|
\10\0j
\ e\0|
\ e\0\83\ 1\0\ 1t
\16\0t
\17\0\83\ 1\0}
\11\0|
\11\0j
\f\0|
\ f\0\83\ 1\0\ 1|
\11\0j
\18\0|
\10\0\83\ 1\0\ 1|
\11\0j
\19\0|
\b\0\83\ 1\0\ 1|
\11\0j
\1a\0t
\e\0|
\ 3\0d
\ 5\0\17\83\ 1\0d
\18\0\17|
\ 3\0d
\ 5\0\17|
\ 3\0\vd
\ 5\0\18\83\ 3\0\ 1t
\1d\0\83\0\0}
\12\0|
\12\0j
\1e\0|
\11\0|
\0d
\ 4\0|
\v\0\83\ 4\0\ 1|
\17\0j
\1f\0|
\12\0\83\ 1\0\ 1q
\9d\ 4W|
\17\0j
\f\0d
\1f\0\83\ 1\0\ 1|
\16\0j(
\0|
\17\0\83\ 1\0\ 1|
\0\0j
\0|
\16\0j"
\0\83\0\0d.
\0\83\ 2\0\ 1|
\16\0j)
\0\83\0\0\ 1|
\16\0j
\11\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1d
\0\0S(/
\0\0\0Ns
\f\0\0\0Pyfile66.medR=
\ 3\0\0i
\ 2\0\0\0i
\0\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0R>
\ 3\0\0i
\ 3\0\0\0i
\ 5\0\0\0R
\ 2\0\0s
\ 6\0\0\0XX [m]s
\b\0\0\0YYY [km]i
\ 6\0\0\0R
\83\ 1\0\0i
\b\0\0\0RE
\ 2\0\0i
34338 +
\0\0\0s
\a\0\0\0aa [bb]s
\0\0\0ccc [ddd]R?
\ 3\0\0i
\ e\0\0\0g
\9a\99\99\99\99\99¹?t
\ e\0\0\0pfl_NORM_QUAD4R@
\ 3\0\0RA
\ 3\0\0RB
\ 3\0\0i
\a\0\0\0i
\10\0\0\0t
\b\0\0\05thFieldt
\ f\0\0\0pfl2_NORM_QUAD4(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0s
\a\0\0\0aa [bb]s
\0\0\0ccc [ddd](
\ 2\0\0\0s
\a\0\0\0aa [bb]s
\0\0\0ccc [ddd](
\ 1\0\0\0RX
\ 3\0\0(
\ 1\0\0\0RX
\ 3\0\0(
\ 1\0\0\0RX
\ 3\0\0(
\ 1\0\0\0RX
\ 3\0\0(
\ 2\0\0\0RX
\ 3\0\0RZ
\ 3\0\0(*
\0\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0Rc
\0\0\0RY
\0\0\0Rn
\0\0\0Rq
\0\0\0Rõ
\0\0\0Rº
\ 1\0\0R[
\ 2\0\0R`
\0\0\0RB
\0\0\0RØ
\0\0\0RÃ
\ 1\0\0R>
\0\0\0Rj
\0\0\0R
\v\0\0\0Rk
\0\0\0Rô
\0\0\0Ry
\ 1\0\0Rz
\ 1\0\0Rw
\ 1\0\0R
\13\ 1\0\0R{
\ 1\0\0R³
\0\0\0R°
\0\0\0RD
\ 3\0\0R
\89\ 1\0\0Rà
\0\0\0R|
\ 1\0\0RE
\ 3\0\0R+
\0\0\0R'
\ 3\0\0R]
\ 2\0\0t
\f\0\0\0zipPflsNamesR0
\0\0\0R=
\ 2\0\0R1
\0\0\0R[
\ 1\0\0R\
\ 1\0\0t
\13\0\0\0checkGlobsCoherency(
\18\0\0\0R
\0\0\0R9
\ 1\0\0R=
\ 3\0\0Rî
\0\0\0RH
\ 3\0\0Rü
\0\0\0R>
\ 3\0\0RI
\ 3\0\0R
\83\0\0\0R
\86\0\0\0R
\83\ 1\0\0RE
\ 2\0\0RJ
\ 3\0\0RK
\ 3\0\0RL
\ 3\0\0RM
\ 3\0\0Re
\ 1\0\0R
\b\0\0\0Rú
\0\0\0RN
\ 3\0\0RO
\ 3\0\0RP
\ 3\0\0RT
\ 3\0\0RQ
\ 3\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\12\0\0\0testMEDFileFields3&
\v\0\0s°
\0\0\0\0\ 1\ 6\ 2\ f\ 1
34339 +
\0\19\ 1\1c\ 1%
\ 1\19\0\17\ 1\ f\ 1\ f\ 1
34340 +
\0\1c\ 1\1f\ 1%
\ 1\19\0\e\ 1\ f\ 1\12\ 1\r\0\19\ 2 \0\10\0\10\ 2!
\0\r\ 1$
\0\r\ 1 \ 1 \ 2\13\ 1\f\0\ 6\ 1\f\0\11\0\r\0\r\ 1\f\0\r\0\r\0\r\ 1*
\ 1\16\ 1 \0\16\0\r\ 1\16\ 1\16\ 1\ 4\ 2\1a\ 1\16\ 1
34341 +
\ 1\16\ 1(
\ 1\f\ 1\f\ 1\f\ 1 \ 1\r\ 1\r\0\r\ 1\r\0\r\ 1\r\0\r\ 1\16\ 2 \ 1\13\ 1\f\0\ 6\ 1\f\0\11\0\r\0\r\ 1\f\0\r\0\r\0\r\ 1*
\ 1 \0\16\0\r\ 1\ 4\ 1\r\0\r\ 1\16\ 1
34342 +
\ 1\10\ 1c
\ 1\0\0\0\17\0\0\0 \0\0\0C
\0\0\0sI
\ 6\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 3\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 1\0\83\0\0\ 1|
\ 2\0j
\ 2\0t
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0g
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0t
\ 5\0d
\0d!
\0d"
\0g
\ 3\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\ 6\0d
\b\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 2\0j
\a\0\83\0\0^
\ 2\0qa
\0}
\ 4\0x-
\0t
\b\0|
\ 4\0\83\ 1\0D]
\1f\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\0|
\ 3\0d
\ 4\0g
\ 2\0\83\ 1\0\ 1q
\86\0Wt
\0\0j
34343 +
\0|
\ 4\0\83\ 1\0}
\ 4\0t
\0\0d
\0d
\ 3\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 1\0\83\0\0\ 1|
\ 6\0j
\ 2\0t
\v\0d
\ 4\0d
\ 5\0d
\ 3\0d
34344 +
\0g
\ 4\0\83\ 2\0\ 1|
\ 6\0j
\ 4\0t
\ 5\0d#
\0d$
\0d%
\0d&
\0g
\ 4\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\ 6\0d
\v\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 6\0j
\a\0\83\0\0^
\ 2\0q
\19\ 1}
\a\0x1
\0t
\b\0|
\a\0\83\ 1\0D]#
\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\0d
\v\0|
\ 3\0\17d
\ 4\0g
\ 2\0\83\ 1\0\ 1q>
\ 1Wt
\0\0j
34345 +
\0|
\a\0\83\ 1\0}
\a\0t
\0\0j
34346 +
\0|
\ 4\0|
\a\0\83\ 2\0}
\b\0|
\b\0j
\f\0d
\f\0\83\ 1\0\ 1|
\b\0j
\r\0\83\0\0j
\ e\0d
\r\0d
\ e\0g
\ 2\0\83\ 1\0\ 1t
\ f\0\83\0\0}
\0|
\0j
\10\0d
\ 4\0|
\b\0\83\ 2\0\ 1|
\0j
\11\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\12\0d
\ 4\0d
\ 5\0d
\ 3\0d
34347 +
\0d
\b\0d
\v\0d
\ f\0g
\a\0\83\ 1\0}
34349 +
\0j
\f\0d
\10\0\83\ 1\0\ 1t
\12\0d
\ 4\0d
\ 5\0d
\ 3\0d
34350 +
\0d
\b\0d
\v\0d
\ f\0d
\11\0g
\b\0\83\ 1\0}
\v\0|
\v\0j
\f\0d
\12\0\83\ 1\0\ 1t
\13\0\83\0\0}
\f\0t
\14\0\83\0\0}
\r\0d
\13\0d
\14\0d
\15\0g
\ 3\0}
\ e\0xö
\0t
\ 6\0d
\16\0\83\ 1\0D]è
\0}
\ 3\0d
\17\0}
\ f\0t
\ 5\0d
\18\0\83\ 1\0}
\10\0|
\10\0j
\15\0|
\ 3\0d
\16\0\14\83\ 1\0\ 1|
\10\0j
\16\0d
34351 +
\0\83\ 1\0\ 1|
\10\0j
\ e\0|
\ e\0\83\ 1\0\ 1t
\17\0t
\18\0\83\ 1\0}
\11\0|
\11\0j
\f\0|
\ f\0\83\ 1\0\ 1|
\11\0j
\19\0|
\10\0\83\ 1\0\ 1|
\11\0j
\1a\0|
\b\0\83\ 1\0\ 1|
\11\0j
\e\0t
\1c\0|
\ 3\0d
\ 5\0\17\83\ 1\0d
\19\0\17|
\ 3\0d
\ 5\0\17|
\ 3\0\vd
\ 5\0\18\83\ 3\0\ 1t
\1d\0\83\0\0}
\12\0|
\12\0j
\1e\0|
\11\0|
\0d
\ 4\0|
34352 +
\0\83\ 4\0\ 1|
\r\0j
\1f\0|
\12\0\83\ 1\0\ 1|
\0\0j
\0|
\r\0j!
\0\83\0\0t"
\0|
\ e\0\83\ 1\0\83\ 2\0\ 1qb
\ 2W|
\f\0j#
\0|
\r\0\83\ 1\0\ 1|
\0\0j
\0d
\ 5\0t$
\0|
\f\0\83\ 1\0\83\ 2\0\ 1|
\r\0j%
\0\83\0\0}
\13\0|
\0\0j
\0d
34353 +
\0t$
\0|
\13\0\83\ 1\0\83\ 2\0\ 1x$
\0|
\13\0D]
\1c\0}
\ 5\0|
\0\0j
\0d
\16\0t$
\0|
\ 5\0\83\ 1\0\83\ 2\0\ 1q
\9a\ 3Wx$
\0|
\13\0D]
\1c\0}
\ 5\0|
\0\0j&
\0t'
\0|
\ 5\0t
\14\0\83\ 2\0\83\ 1\0\ 1qÁ
\ 3Wx>
\0|
\13\0D]6
\0}
\ 5\0|
\ 5\0j
\f\0d
\1a\0|
\ 5\0j(
\0\83\0\0t)
\0j*
\0|
\ 5\0j!
\0\83\0\0d
\ 4\0\19\83\ 1\0f
\ 2\0\16\83\ 1\0\ 1qè
\ 3W|
\f\0j+
\0|
\13\0\83\ 1\0\ 1|
\0\0j
\0d
\b\0t$
\0|
\f\0\83\ 1\0\83\ 2\0\ 1x$
\0|
\f\0D]
\1c\0}
\ 5\0|
\0\0j
\0d
\16\0t$
\0|
\ 5\0\83\ 1\0\83\ 2\0\ 1qL
\ 4W|
\0\0j
\0|
\f\0j,
\0\83\0\0d'
\0\83\ 2\0\ 1|
\0\0j
\0|
\f\0j-
\0\83\0\0d(
\0\83\ 2\0\ 1|
\f\0j
\11\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1~
\f\0t
\13\0|
\ 1\0\83\ 1\0}
\14\0|
\0\0j
\0|
\14\0j,
\0\83\0\0d)
\0\83\ 2\0\ 1|
\0\0j
\0|
\14\0j-
\0\83\0\0d*
\0\83\ 2\0\ 1|
\0\0j
\0d
\b\0t$
\0|
\14\0\83\ 1\0\83\ 2\0\ 1xI
\ 1t
\ 6\0d
\16\0\83\ 1\0D];
\ 1}
\ 3\0x¹
\0t
\b\0d
\1c\0d
\1d\0d
\1e\0g
\ 3\0\83\ 1\0D]¢
\0\
\ 2\0}
\15\0}
\16\0|
\14\0|
\16\0\19|
\ 3\0\19}
\12\0|
\12\0j.
\0t
\18\0d
\ 4\0|
\0\83\ 3\0}
\11\0t
\ 5\0d
\18\0\83\ 1\0}
\10\0|
\10\0j
\15\0|
\ 3\0d
\16\0\14\83\ 1\0\ 1|
\10\0j
\16\0d
34354 +
\0\83\ 1\0\ 1|
\10\0d
\0\0d
\0\0\85\ 2\0|
\15\0f
\ 2\0\19}
\10\0|
\10\0j/
\0d
\ 4\0|
\ e\0|
\15\0\19\83\ 2\0\ 1|
\0\0j&
\0|
\10\0j0
\0|
\11\0j1
\0\83\0\0d
\1f\0\83\ 2\0\83\ 1\0\ 1q"
\ 5W|
\14\0d
\17\0\19|
\ 3\0\19}
\12\0|
\12\0j.
\0t
\18\0d
\ 4\0|
\0\83\ 3\0}
\11\0t
\ 5\0d
\18\0\83\ 1\0}
\10\0|
\10\0j
\15\0|
\ 3\0d
\16\0\14\83\ 1\0\ 1|
\10\0j
\16\0d
34355 +
\0\83\ 1\0\ 1|
\10\0j
\ e\0|
\ e\0\83\ 1\0\ 1|
\0\0j&
\0|
\10\0j0
\0|
\11\0j1
\0\83\0\0d
\1f\0\83\ 2\0\83\ 1\0\ 1q
\ 6\ 5Wd
\0\0S(+
\0\0\0Ns
\f\0\0\0Pyfile67.medR=
\ 3\0\0i
\ 2\0\0\0i
\0\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0R>
\ 3\0\0i
\ 3\0\0\0i
\ 5\0\0\0R
\ 2\0\0s
\ 6\0\0\0XX [m]s
\b\0\0\0YYY [km]i
\ 6\0\0\0R
\83\ 1\0\0i
\b\0\0\0RE
\ 2\0\0s
\a\0\0\0aa [bb]s
\0\0\0ccc [ddd]s
\v\0\0\0ZZZZ [MW*s]i
34356 +
\0\0\0R?
\ 3\0\0i
\15\0\0\0g
\9a\99\99\99\99\99¹?s
\ 5\0\0\0%s_%sRX
\ 3\0\0t
\v\0\0\01stField_aat
\f\0\0\01stField_ccct
\r\0\0\01stField_ZZZZg
\82vIhÂ%<=(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 1\0\0\0s
\ e\0\0\0pfl_NORM_QUAD4(
\ 1\0\0\0s
\ e\0\0\0pfl_NORM_QUAD4(
\ 1\0\0\0s
\ e\0\0\0pfl_NORM_QUAD4(
\ 1\0\0\0s
\ e\0\0\0pfl_NORM_QUAD4(2
\0\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0Rc
\0\0\0RY
\0\0\0Rn
\0\0\0Rq
\0\0\0Rõ
\0\0\0Rº
\ 1\0\0R[
\ 2\0\0R`
\0\0\0RB
\0\0\0RØ
\0\0\0RÃ
\ 1\0\0R>
\0\0\0Rj
\0\0\0R
\v\0\0\0Rk
\0\0\0R[
\ 1\0\0Rô
\0\0\0Ry
\ 1\0\0Rz
\ 1\0\0Rw
\ 1\0\0R
\13\ 1\0\0R{
\ 1\0\0R³
\0\0\0R°
\0\0\0RD
\ 3\0\0Rà
\0\0\0R|
\ 1\0\0RE
\ 3\0\0R+
\0\0\0R'
\ 3\0\0t
\ 5\0\0\0tupleR\
\ 1\0\0Ry
\0\0\0t
\ f\0\0\0splitComponentsR0
\0\0\0Rt
\0\0\0RC
\0\0\0t
\0\0\0DataArrayt
\12\0\0\0GetVarNameFromInfot
34357 +
\0\0\0pushFieldsR]
\ 2\0\0R<
\ 2\0\0R
\97\ 1\0\0R
\97\0\0\0R1
\0\0\0R)
\ 1\0\0(
\17\0\0\0R
\0\0\0R9
\ 1\0\0R=
\ 3\0\0Rî
\0\0\0RH
\ 3\0\0Rü
\0\0\0R>
\ 3\0\0RI
\ 3\0\0R
\83\0\0\0R
\86\0\0\0R
\83\ 1\0\0RE
\ 2\0\0Rl
\ 1\0\0RK
\ 3\0\0RL
\ 3\0\0RM
\ 3\0\0Re
\ 1\0\0R
\b\0\0\0Rú
\0\0\0R¤
\0\0\0RU
\ 3\0\0t
\ 1\0\0\0jt
\0\0\0fieldName(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\14\0\0\0testSplitComponents1g
\v\0\0s²
\0\0\0\0\ 1\ 6\ 2\ f\ 1
34358 +
\0\19\ 1\1c\ 1%
\ 1\19\0\17\ 1\ f\ 1\ f\ 1
34359 +
\0\1c\ 1\1f\ 1%
\ 1\19\0\e\ 1\ f\ 1\12\ 1\r\0\19\ 2 \0\10\0\10\ 2!
\0\r\ 1$
\0\r\ 1 \ 1 \ 2\ f\ 1\13\ 1\ 6\ 1\f\0\11\0\r\0\r\ 1\f\0\r\0\r\0\r\ 1*
\ 1 \0\16\0\r\ 1\1c\ 1\ 4\ 1\r\ 1\16\ 1\f\ 1\16\ 1\r\0\1a\ 1\r\0\1a\ 1\r\ 10
\ 1\ 4\ 1\r\ 1\16\ 1\r\0\1a\ 1\16\ 1\16\ 2\10\0\ 3\ 2\f\ 1\16\ 1\16\ 1\16\ 1\13\ 1"
\ 1\ e\ 1\15\ 1\f\0\11\0\r\0\16\0\14\ 1\1f\ 1\ 4\ 1\ e\ 1\15\ 1\f\0\11\0\r\0\r\ 1\1f\ 1\ 4\ 1c
\ 1\0\0\0\15\0\0\0\a\0\0\0C
\0\0\0sÄ
\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 3\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 1\0\83\0\0\ 1|
\ 2\0j
\ 2\0t
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0g
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0t
\ 5\0d%
\0d&
\0d'
\0g
\ 3\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\ 6\0d
\b\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 2\0j
\a\0\83\0\0^
\ 2\0qa
\0}
\ 4\0x-
\0t
\b\0|
\ 4\0\83\ 1\0D]
\1f\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\0|
\ 3\0d
\ 4\0g
\ 2\0\83\ 1\0\ 1q
\86\0Wt
\0\0j
34360 +
\0|
\ 4\0\83\ 1\0}
\ 4\0t
\0\0d
\0d
\ 3\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 1\0\83\0\0\ 1|
\ 6\0j
\ 2\0t
\v\0d
\ 4\0d
\ 5\0d
\ 3\0d
34361 +
\0g
\ 4\0\83\ 2\0\ 1|
\ 6\0j
\ 4\0t
\ 5\0d(
\0d)
\0d*
\0d+
\0g
\ 4\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\ 6\0d
\v\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 6\0j
\a\0\83\0\0^
\ 2\0q
\19\ 1}
\a\0x1
\0t
\b\0|
\a\0\83\ 1\0D]#
\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\0d
\v\0|
\ 3\0\17d
\ 4\0g
\ 2\0\83\ 1\0\ 1q>
\ 1Wt
\0\0j
34362 +
\0|
\a\0\83\ 1\0}
\a\0t
\0\0j
34363 +
\0|
\ 4\0|
\a\0\83\ 2\0}
\b\0|
\b\0j
\f\0d
\f\0\83\ 1\0\ 1|
\b\0j
\r\0\83\0\0j
\ e\0d
\r\0d
\ e\0g
\ 2\0\83\ 1\0\ 1t
\ f\0\83\0\0}
\0|
\0j
\10\0d
\ 4\0|
\b\0\83\ 2\0\ 1t
\11\0\83\0\0}
34364 +
\0t
\12\0t
\13\0t
\14\0\83\ 2\0}
\v\0|
\v\0j
\15\0|
\b\0\83\ 1\0\ 1t
\ 5\0|
\b\0j
\16\0\83\0\0d
\ 3\0\14\83\ 1\0}
\f\0|
\f\0j
\17\0\83\0\0\ 1|
\f\0j
\18\0d
\ 3\0\83\ 1\0\ 1|
\f\0j
\ e\0d
\ f\0d
\10\0g
\ 2\0\83\ 1\0\ 1|
\v\0j
\19\0|
\f\0\83\ 1\0\ 1|
\v\0j
\f\0d
\11\0\83\ 1\0\ 1|
\v\0j
\1a\0\83\0\0\ 1|
34365 +
\0j
\e\0|
\v\0\83\ 1\0\ 1d
34366 +
\0d
\ 4\0d,
\0d
\12\0d
\12\0f
\ 4\0g
\ 1\0f
\ 2\0d
\b\0d
\ 4\0d-
\0d
\12\0d
\12\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 2\0}
\r\0|
\0\0j
\1c\0|
34367 +
\0j
\1d\0\83\0\0|
\r\0\83\ 2\0\ 1|
34368 +
\0j
\1e\0\83\0\0}
\ e\0|
\0\0j
\1c\0|
\ e\0j
\1d\0\83\0\0|
\r\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\f\0j
\0\83\0\0j!
\0|
\ e\0j"
\0\83\0\0\83\ 1\0\83\ 1\0\ 1|
\ e\0j#
\0\83\0\0}
\ f\0|
\0\0j
\1f\0|
\ f\0j"
\0\83\0\0j!
\0|
34369 +
\0j"
\0\83\0\0d
\14\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\ f\0j
\1d\0\83\0\0|
\r\0\83\ 2\0\ 1~
\f\0~
\v\0~
34370 +
\0~
\ f\0~
\ e\0~
\r\0t
\11\0\83\0\0}
34371 +
\0t
\12\0t
\13\0t
\14\0\83\ 2\0}
\v\0|
\v\0j
\15\0|
\b\0d
\15\0 \83\ 1\0\ 1t
\ 5\0d.
\0\83\ 1\0}
\f\0|
\f\0j
\17\0\83\0\0\ 1|
\f\0j
\18\0d
\ 3\0\83\ 1\0\ 1|
\f\0j
\ e\0d
\16\0d
\17\0g
\ 2\0\83\ 1\0\ 1|
\v\0j
\19\0|
\f\0\83\ 1\0\ 1|
\v\0j
\f\0d
\18\0\83\ 1\0\ 1|
\v\0j
\1a\0\83\0\0\ 1t$
\0j%
\0d
\ 4\0d
\15\0d
\ 5\0\83\ 3\0}
\10\0|
\10\0j
\f\0d
\19\0\83\ 1\0\ 1|
34372 +
\0j&
\0|
\v\0|
\0d
\ 4\0|
\10\0\83\ 4\0\ 1d
34373 +
\0d
\ 4\0d/
\0d
\12\0d
\12\0f
\ 4\0g
\ 1\0f
\ 2\0d
\b\0d
\ 4\0d0
\0d
\1a\0d
\12\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 2\0}
\r\0|
\0\0j
\1c\0|
34374 +
\0j
\1d\0\83\0\0|
\r\0\83\ 2\0\ 1|
34375 +
\0j
\1e\0\83\0\0}
\ e\0|
\0\0j
\1f\0t'
\0|
\ e\0t(
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\ e\0j
\1d\0\83\0\0|
\r\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\f\0j
\0\83\0\0j!
\0|
\ e\0j"
\0\83\0\0\83\ 1\0\83\ 1\0\ 1|
\ e\0j#
\0\83\0\0}
\ f\0|
\0\0j
\1f\0t'
\0|
\ f\0t
\11\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\ f\0j"
\0\83\0\0j!
\0|
34376 +
\0j"
\0\83\0\0d
\14\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\ f\0j
\1d\0\83\0\0|
\r\0\83\ 2\0\ 1t)
\0\83\0\0}
34377 +
\0t
\12\0t
\13\0t
\14\0\83\ 2\0}
\v\0|
\v\0j
\15\0|
\b\0d
\15\0 \83\ 1\0\ 1t
\ 5\0d1
\0\83\ 1\0}
\f\0|
\f\0j
\17\0\83\0\0\ 1|
\f\0j
\18\0d
\ 3\0\83\ 1\0\ 1|
\f\0j
\ e\0d
\ f\0d
\10\0g
\ 2\0\83\ 1\0\ 1|
\v\0j
\19\0|
\f\0\83\ 1\0\ 1|
\v\0j
\f\0d
\e\0\83\ 1\0\ 1|
\v\0j*
\0d
\1c\0d
\ 4\0d
\1d\0\83\ 3\0\ 1|
\v\0j
\1a\0\83\0\0\ 1|
34378 +
\0j+
\0|
\v\0|
\0d
\ 4\0|
\10\0\83\ 4\0\ 1t
\12\0t
\13\0t
\14\0\83\ 2\0}
\v\0|
\v\0j
\15\0|
\b\0d
\15\0 \83\ 1\0\ 1t
\ 5\0d2
\0\83\ 1\0}
\f\0|
\f\0j
\17\0d
\1e\0\83\ 1\0\ 1|
\f\0j
\18\0d
\ 3\0\83\ 1\0\ 1|
\f\0j
\ e\0d
\ f\0d
\10\0g
\ 2\0\83\ 1\0\ 1|
\v\0j
\19\0|
\f\0\83\ 1\0\ 1|
\v\0j
\f\0d
\e\0\83\ 1\0\ 1|
\v\0j*
\0d
\1f\0d
\ 5\0d
\0\83\ 3\0\ 1|
\v\0j
\1a\0\83\0\0\ 1|
34379 +
\0j+
\0|
\v\0|
\0d
\ 4\0|
\10\0\83\ 4\0\ 1t
\12\0t
\13\0t
\14\0\83\ 2\0}
\v\0|
\v\0j
\15\0|
\b\0d
\15\0 \83\ 1\0\ 1t
\ 5\0d3
\0\83\ 1\0}
\f\0|
\f\0j
\17\0d!
\0\83\ 1\0\ 1|
\f\0j
\18\0d
\ 3\0\83\ 1\0\ 1|
\f\0j
\ e\0d
\ f\0d
\10\0g
\ 2\0\83\ 1\0\ 1|
\v\0j
\19\0|
\f\0\83\ 1\0\ 1|
\v\0j
\f\0d
\e\0\83\ 1\0\ 1|
\v\0j*
\0d"
\0d
\ 3\0d#
\0\83\ 3\0\ 1|
\v\0j
\1a\0\83\0\0\ 1|
34380 +
\0j+
\0|
\v\0|
\0d
\ 4\0|
\10\0\83\ 4\0\ 1|
34381 +
\0j
\1e\0\83\0\0}
\ f\0|
\0\0j
\1f\0t'
\0|
\ f\0t,
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\ f\0j-
\0\83\0\0d4
\0d5
\0d6
\0g
\ 3\0\83\ 2\0\ 1x
\83\0t.
\0d
\ 4\0d
\1e\0d!
\0g
\ 3\0|
\ f\0j-
\0\83\0\0\83\ 2\0D]c
\0\
\ 2\0}
\11\0\
\ 3\0}
\12\0}
\13\0}
\14\0|
\0\0j
\1c\0|
\ f\0j
\1d\0|
\12\0|
\13\0\83\ 2\0|
\r\0\83\ 2\0\ 1|
\ f\0j"
\0|
\12\0|
\13\0\83\ 2\0}
\f\0|
\f\0j/
\0t$
\0j%
\0|
\11\0|
\11\0d
\15\0\17d
\ 5\0\83\ 3\0\83\ 1\0\ 1qZ
\aW|
\0\0j
\1c\0|
\ f\0j0
\0\83\0\0d7
\0\83\ 2\0\ 1|
\0j1
\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1|
\ f\0j1
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1|
\ f\0j#
\0\83\0\0}
\ f\0|
\0\0j
\1f\0t'
\0|
\ f\0t)
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\ f\0j-
\0\83\0\0d8
\0d9
\0d:
\0g
\ 3\0\83\ 2\0\ 1x
\8c\0t.
\0d
\ 4\0d
\1e\0d!
\0g
\ 3\0|
\ f\0j-
\0\83\0\0\83\ 2\0D]l
\0\
\ 2\0}
\11\0\
\ 3\0}
\12\0}
\13\0}
\14\0|
\0\0j
\1c\0|
\ f\0j
\1d\0|
\12\0|
\13\0\83\ 2\0|
\r\0\83\ 2\0\ 1|
\ f\0j"
\0|
\12\0|
\13\0\83\ 2\0}
\f\0|
\f\0j/
\0t$
\0j%
\0|
\11\0|
\11\0d
\15\0\17d
\ 5\0\83\ 3\0j2
\0\83\0\0d$
\0\83\ 2\0\ 1qW
\bW|
\0\0j
\1c\0|
\ f\0j0
\0\83\0\0d;
\0\83\ 2\0\ 1t3
\0j4
\0|
\ 1\0d
\e\0\83\ 2\0}
\ f\0|
\0\0j
\1f\0t'
\0|
\ f\0t,
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\ f\0j-
\0\83\0\0d<
\0d=
\0d>
\0g
\ 3\0\83\ 2\0\ 1x
\83\0t.
\0d
\ 4\0d
\1e\0d!
\0g
\ 3\0|
\ f\0j-
\0\83\0\0\83\ 2\0D]c
\0\
\ 2\0}
\11\0\
\ 3\0}
\12\0}
\13\0}
\14\0|
\0\0j
\1f\0|
\ f\0j
\1d\0|
\12\0|
\13\0\83\ 2\0|
\r\0\83\ 2\0\ 1|
\ f\0j"
\0|
\12\0|
\13\0\83\ 2\0}
\f\0|
\f\0j/
\0t$
\0j%
\0|
\11\0|
\11\0d
\15\0\17d
\ 5\0\83\ 3\0\83\ 1\0\ 1qC W|
\0\0j
\1c\0|
\ f\0j0
\0\83\0\0d?
\0\83\ 2\0\ 1d
\0\0S(@
\0\0\0Ns
\f\0\0\0Pyfile68.medR=
\ 3\0\0i
\ 2\0\0\0i
\0\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0R>
\ 3\0\0i
\ 3\0\0\0i
\ 5\0\0\0R
\ 2\0\0s
\ 6\0\0\0XX [m]s
\b\0\0\0YYY [km]s
\ 6\0\0\0X [km]s
\a\0\0\0YY [mm]t
\0\0\0FieldCellR&
\0\0\0i
\0\0\0g
\82vIhÂ%<=i
\a\0\0\0s
\a\0\0\0XX [pm]s
\b\0\0\0YYY [hm]t
\f\0\0\0FieldCellPflR
\83\ 1\0\0RX
\ 3\0\0t
\ e\0\0\0FieldCellMTimeg
\9a\99\99\99\99\99¹?i
34382 +
\0\0\0id
\0\0\0g
\9a\99\99\99\99\99ñ?i
\v\0\0\0iÈ
\0\0\0gÍÌÌÌÌÌ
\0@i
\f\0\0\0g
\9b+¡
\86\9b\84\ 6=(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\0\0\0i
\ e\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\a\0\0\0i
\ e\0\0\0i
\ e\0\0\0i
\ e\0\0\0(
\ 3\0\0\0i
\0\0\0\0i
34383 +
\0\0\0g
\9a\99\99\99\99\99¹?(
\ 3\0\0\0i
\ 1\0\0\0i
\v\0\0\0g
\9a\99\99\99\99\99ñ?(
\ 3\0\0\0i
\ 2\0\0\0i
\f\0\0\0gÍÌÌÌÌÌ
\0@(
\ 3\0\0\0s
\ e\0\0\0pfl_NORM_QUAD4s
\ e\0\0\0pfl_NORM_QUAD4s
\ e\0\0\0pfl_NORM_QUAD4(
\ 3\0\0\0i
\0\0\0\0i
34384 +
\0\0\0g
\9a\99\99\99\99\99¹?(
\ 3\0\0\0i
\ 1\0\0\0i
\v\0\0\0g
\9a\99\99\99\99\99ñ?(
\ 3\0\0\0i
\ 2\0\0\0i
\f\0\0\0gÍÌÌÌÌÌ
\0@(
\ 3\0\0\0s
\ e\0\0\0pfl_NORM_QUAD4s
\ e\0\0\0pfl_NORM_QUAD4s
\ e\0\0\0pfl_NORM_QUAD4(
\ 3\0\0\0i
\0\0\0\0i
34385 +
\0\0\0g
\9a\99\99\99\99\99¹?(
\ 3\0\0\0i
\ 1\0\0\0i
\v\0\0\0g
\9a\99\99\99\99\99ñ?(
\ 3\0\0\0i
\ 2\0\0\0i
\f\0\0\0gÍÌÌÌÌÌ
\0@(
\ 1\0\0\0s
\ e\0\0\0pfl_NORM_QUAD4(5
\0\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0Rc
\0\0\0RY
\0\0\0Rn
\0\0\0Rq
\0\0\0Rõ
\0\0\0Rº
\ 1\0\0R[
\ 2\0\0R`
\0\0\0RB
\0\0\0RØ
\0\0\0RÃ
\ 1\0\0R>
\0\0\0Rj
\0\0\0Rà
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0RX
\ 1\0\0R³
\0\0\0R§
\0\0\0Ry
\ 1\0\0Rz
\ 1\0\0R{
\ 1\0\0Rd
\0\0\0R%
\ 1\0\0R+
\0\0\0RÄ
\ 1\0\0t
\f\0\0\0convertToIntR0
\0\0\0t
\ f\0\0\0convertToIntArrR1
\0\0\0R+
\ 1\0\0t
\ f\0\0\0convertToDoubleRk
\0\0\0R"
\ 2\0\0R|
\ 1\0\0Rt
\0\0\0R
\1e\ 3\0\0Rô
\0\0\0R°
\0\0\0R
\89\ 1\0\0R#
\ 3\0\0R÷
\0\0\0RS
\ 1\0\0R
\7f\ 1\0\0R]
\ 2\0\0R
\v\0\0\0t
\ f\0\0\0convertToDblArrR"
\ 3\0\0R(
\0\0\0(
\15\0\0\0R
\0\0\0R9
\ 1\0\0R=
\ 3\0\0Rî
\0\0\0RH
\ 3\0\0Rü
\0\0\0R>
\ 3\0\0RI
\ 3\0\0R
\83\0\0\0R
\86\0\0\0RB
\ 2\0\0Rä
\0\0\0RÔ
\ 1\0\0t
\ 6\0\0\0fspExpt
\ 4\0\0\0ff0iR;
\ 1\0\0R
\83\ 1\0\0t
\ 4\0\0\0deltRu
\ 2\0\0Rv
\ 2\0\0R
\8c\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testMEDFileFieldConvertTo1¬
\v\0\0s
\ 2\ 1\0\0\0\ 1\ 6\ 2\ f\ 1
34386 +
\0\19\ 1\1c\ 1%
\ 1\19\0\17\ 1\ f\ 1\ f\ 1
34387 +
\0\1c\ 1\1f\ 1%
\ 1\19\0\e\ 1\ f\ 1\12\ 1\r\0\19\ 1 \0\10\ 2 \ 1\ f\0\r\0\16\0
34388 +
\0\r\0\13\0\r\0\r\ 1
34389 +
\ 1\r\ 26
\ 1\16\ 2\f\ 1\16\ 1"
\ 2\f\ 1%
\ 1\16\ 2\12\ 1 \ 1\ f\0\11\0\f\0
34390 +
\0\r\0\13\0\r\0\r\ 1
34391 +
\ 1\15\0\r\ 1\16\ 16
\ 1\16\ 2\f\ 1\16\ 1\16\ 1"
\ 2\f\ 1\16\ 1%
\ 1\16\ 2 \ 1\ f\0\11\0\f\0
34392 +
\0\r\0\13\0\r\0\r\0\13\ 1
34393 +
\ 1\16\ 1\ f\0\11\0\f\0\r\0\r\0\13\0\r\0\r\0\13\ 1
34394 +
\ 1\16\ 1\ f\0\11\0\f\0\r\0\r\0\13\0\r\0\r\0\13\ 1
34395 +
\ 1\16\ 1\f\ 1\16\ 1\1f\ 14
\ 1\1c\ 1\12\ 1 \ 1\ 4\ 1\16\ 2\10\ 1\10\ 2\f\ 1\16\ 1\1f\ 14
\ 1\1c\ 1\12\ 1)
\ 1\ 4\ 1\16\ 2\12\ 1\16\ 1\1f\ 14
\ 1\1c\ 1\12\ 1 \ 1\ 4\ 1\16\ 1c
\ 1\0\0\0\17\0\0\0 \0\0\0C
\0\0\0sõ
\0\0d
\ 1\0}
\ 1\0t
\0\0\83\0\0}
\ 2\0|
\ 2\0j
\ 1\0\83\0\0}
\ 3\0|
\ 2\0j
\ 2\0d
\ 2\0d
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 1\0\83\0\0|
\ 3\0\18}
\ 4\0~
\ 2\0~
\ 3\0t
\ 3\0d
\ 4\0d
\ 5\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 4\0\83\0\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\ 2\0d
\ 3\0d
\ 5\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\a\0t
\b\0d5
\0d6
\0d7
\0g
\ 3\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\0d
\b\0\83\ 1\0D]
\12\0}
\ 6\0|
\ 5\0j
34396 +
\0\83\0\0^
\ 2\0q
\9c\0}
\a\0x-
\0t
\v\0|
\a\0\83\ 1\0D]
\1f\0\
\ 2\0}
\ 6\0}
\b\0|
\b\0j
\f\0|
\ 6\0d
\ 2\0g
\ 2\0\83\ 1\0\ 1qÁ
\0Wt
\ 3\0j
\r\0|
\a\0\83\ 1\0}
\a\0t
\ 3\0d
\0d
\ 5\0\83\ 2\0}
\0|
\0j
\ 4\0\83\0\0\ 1|
\0j
\ 5\0t
\ e\0d
\ 2\0d
\ 3\0d
\ 5\0d
34397 +
\0g
\ 4\0\83\ 2\0\ 1|
\0j
\a\0t
\b\0d8
\0d9
\0d:
\0d;
\0g
\ 4\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\0d
\v\0\83\ 1\0D]
\12\0}
\ 6\0|
\0j
34398 +
\0\83\0\0^
\ 2\0qT
\ 1}
34400 +
\0\83\ 1\0D]#
\0\
\ 2\0}
\ 6\0}
\b\0|
\b\0j
\f\0d
\v\0|
\ 6\0\17d
\ 2\0g
\ 2\0\83\ 1\0\ 1qy
\ 1Wt
\ 3\0j
\r\0|
34402 +
\0t
\ 3\0j
\r\0|
\a\0|
34403 +
\0\83\ 2\0}
\v\0|
\v\0j
\ f\0d
\f\0\83\ 1\0\ 1|
\v\0j
\10\0\83\0\0j
\11\0d
\r\0d
\ e\0g
\ 2\0\83\ 1\0\ 1t
\12\0\83\0\0}
\f\0|
\f\0j
\13\0d
\ 2\0|
\v\0\83\ 2\0\ 1|
\f\0j
\14\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1t
\15\0\83\0\0}
\r\0t
\16\0t
\17\0t
\18\0\83\ 2\0}
\ e\0|
\ e\0j
\19\0|
\v\0\83\ 1\0\ 1t
\b\0|
\v\0j
\1a\0\83\0\0d
\ 5\0\14\83\ 1\0}
\ f\0|
\ f\0j
\e\0\83\0\0\ 1|
\ f\0j
\1c\0d
\ 5\0\83\ 1\0\ 1|
\ f\0j
\11\0d
\ f\0d
\10\0g
\ 2\0\83\ 1\0\ 1|
\ e\0j
\1d\0|
\ f\0\83\ 1\0\ 1|
\ e\0j
\ f\0d
\11\0\83\ 1\0\ 1|
\ e\0j
\1e\0\83\0\0\ 1|
\r\0j
\1f\0|
\ e\0\83\ 1\0\ 1|
\r\0j
\14\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1d
34404 +
\0d
\ 2\0d<
\0d
\12\0d
\12\0f
\ 4\0g
\ 1\0f
\ 2\0d
\13\0d
\ 2\0d=
\0d
\12\0d
\12\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 2\0}
\10\0|
\0\0j
\0|
\r\0j!
\0\83\0\0|
\10\0\83\ 2\0\ 1t
\15\0\83\0\0}
\r\0t
\16\0t
\17\0t
\18\0\83\ 2\0}
\ e\0|
\ e\0j
\19\0|
\v\0d
\15\0 \83\ 1\0\ 1t
\b\0d>
\0\83\ 1\0}
\ f\0|
\ f\0j
\e\0\83\0\0\ 1|
\ f\0j
\1c\0d
\ 5\0\83\ 1\0\ 1|
\ f\0j
\11\0d
\16\0d
\17\0g
\ 2\0\83\ 1\0\ 1|
\ e\0j
\1d\0|
\ f\0\83\ 1\0\ 1|
\ e\0j
\ f\0d
\18\0\83\ 1\0\ 1|
\ e\0j
\1e\0\83\0\0\ 1t
\0\0j"
\0d
\ 2\0d
\15\0d
\ 3\0\83\ 3\0}
\11\0|
\11\0j
\ f\0d
\19\0\83\ 1\0\ 1|
\r\0j#
\0|
\ e\0|
\f\0d
\ 2\0|
\11\0\83\ 4\0\ 1d
34405 +
\0d
\ 2\0d?
\0d
\12\0d
\12\0f
\ 4\0g
\ 1\0f
\ 2\0d
\13\0d
\ 2\0d@
\0d
\1a\0d
\12\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 2\0}
\10\0|
\0\0j
\0|
\r\0j!
\0\83\0\0|
\10\0\83\ 2\0\ 1|
\r\0j
\14\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\15\0|
\ 1\0t$
\0\83\ 2\0}
\r\0|
\0\0j
\0|
\r\0j%
\0\83\0\0d
\11\0\83\ 2\0\ 1|
\0\0j&
\0|
\r\0j'
\0\83\0\0j(
\0\83\0\0\f\83\ 1\0\ 1|
\0\0j
\0|
\r\0j'
\0\83\0\0j)
\0\83\0\0d
\ f\0d
\10\0g
\ 2\0\83\ 2\0\ 1|
\r\0j
\ 1\0\83\0\0}
\12\0|
\0\0j*
\0|
\12\0t+
\0t
\0d
\e\0d
\1c\0d
\ 5\0|
\ 4\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\r\0j,
\0\83\0\0\ 1t
\b\0d
\1d\0\83\ 1\0}
\ f\0|
\ f\0j
\e\0\83\0\0\ 1|
\ f\0j
\1c\0d
\ 5\0\83\ 1\0\ 1|
\0\0j&
\0|
\r\0j'
\0\83\0\0j-
\0|
\ f\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\0|
\r\0j
\ 1\0\83\0\0|
\12\0\18dB
\0\83\ 2\0\ 1t
\15\0|
\ 1\0d
\18\0t$
\0\83\ 3\0}
\r\0|
\0\0j
\0|
\r\0j'
\0\83\0\0j)
\0\83\0\0d
\16\0d
\17\0g
\ 2\0\83\ 2\0\ 1|
\r\0j
\ 1\0\83\0\0}
\12\0|
\0\0j*
\0|
\12\0t+
\0t
\0d
\0d!
\0d"
\0|
\ 4\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\r\0j,
\0\83\0\0\ 1t
\b\0d#
\0\83\ 1\0}
\ f\0|
\ f\0j
\e\0\83\0\0\ 1|
\ f\0j
\1c\0d
\ 5\0\83\ 1\0\ 1|
\0\0j&
\0|
\r\0j'
\0\83\0\0j-
\0|
\ f\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\0|
\r\0j
\ 1\0\83\0\0|
\12\0\18dD
\0\83\ 2\0\ 1|
\r\0j,
\0\83\0\0\ 1|
\0\0j&
\0|
\r\0j'
\0\83\0\0j-
\0|
\ f\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\0|
\r\0j
\ 1\0\83\0\0|
\12\0\18dF
\0\83\ 2\0\ 1|
\r\0j'
\0\83\0\0j.
\0d
\b\0d
\ 3\0d$
\0\83\ 3\0\ 1|
\0\0j&
\0|
\r\0j'
\0\83\0\0j-
\0|
\ f\0d
\1e\0\83\ 2\0\f\83\ 1\0\ 1|
\r\0j,
\0\83\0\0\ 1|
\0\0j&
\0|
\r\0j'
\0\83\0\0j-
\0|
\ f\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\r\0j'
\0\83\0\0j.
\0d
\b\0d
\ 3\0d$
\0\83\ 3\0\ 1|
\0\0j&
\0|
\r\0j'
\0\83\0\0j-
\0|
\ f\0d
\1e\0\83\ 2\0\f\83\ 1\0\ 1|
\r\0j/
\0\83\0\0\ 1|
\0\0j
\0|
\r\0j'
\0\83\0\0j0
\0d
\b\0d
\ 3\0\83\ 2\0d$
\0\83\ 2\0\ 1|
\0\0j&
\0|
\r\0j'
\0\83\0\0j-
\0|
\ f\0d
\1e\0\83\ 2\0\f\83\ 1\0\ 1|
\r\0j
\ 1\0\83\0\0}
\12\0|
\0\0j*
\0|
\12\0t+
\0t
\0d%
\0d&
\0d
\ 5\0|
\ 4\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\r\0j1
\0\83\0\0\ 1|
\r\0j
\ 1\0\83\0\0|
\12\0\18}
\13\0|
\0\0j
\0|
\13\0d'
\0\83\ 2\0\ 1|
\r\0j,
\0\83\0\0\ 1|
\0\0j
\0|
\r\0j
\ 1\0\83\0\0|
\12\0\18d
\ 2\0\83\ 2\0\ 1t
\15\0|
\ 1\0d
\18\0d(
\0d(
\0t$
\0\83\ 5\0}
\r\0|
\r\0j
\ 1\0\83\0\0}
\12\0|
\0\0j*
\0|
\12\0t+
\0t
\0d)
\0d*
\0d"
\0|
\ 4\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\r\0j,
\0\83\0\0\ 1|
\0\0j&
\0|
\r\0j'
\0\83\0\0j-
\0|
\ f\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\0|
\r\0j
\ 1\0\83\0\0|
\12\0\18dH
\0\83\ 2\0\ 1d+
\0}
\14\0t2
\0\83\0\0}
\r\0xÏ
\0t
\0d,
\0\83\ 1\0D]Á
\0}
\15\0t
\16\0t
\17\0t
\18\0\83\ 2\0}
\ e\0|
\ e\0j
\19\0|
\v\0\83\ 1\0\ 1t
\b\0|
\v\0j
\1a\0\83\0\0d
\ 5\0\14\83\ 1\0}
\ f\0|
\ f\0j
\e\0t3
\0|
\15\0d-
\0\17\83\ 1\0\83\ 1\0\ 1|
\ f\0j
\1c\0d
\ 5\0\83\ 1\0\ 1|
\ f\0j
\11\0d
\ f\0d
\10\0g
\ 2\0\83\ 1\0\ 1|
\ e\0j
\1d\0|
\ f\0\83\ 1\0\ 1|
\ e\0j
\ f\0|
\14\0\83\ 1\0\ 1|
\ e\0j4
\0t3
\0|
\15\0\83\ 1\0d.
\0\17|
\15\0d#
\0|
\15\0\17\83\ 3\0\ 1|
\ e\0j
\1e\0\83\0\0\ 1|
\r\0j5
\0|
\ e\0\83\ 1\0\ 1q5
\bW|
\r\0j
\14\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t6
\0j7
\0|
\ 1\0|
\14\0t$
\0\83\ 3\0}
\r\0|
\r\0j
\ 1\0\83\0\0}
\12\0|
\0\0j*
\0|
\12\0t+
\0t
\0d/
\0d0
\0dJ
\0|
\ 4\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\r\0j,
\0\83\0\0\ 1|
\0\0j
\0|
\r\0j
\ 1\0\83\0\0|
\12\0\18dM
\0\83\ 2\0\ 1~
\r\0t8
\0|
\ 1\0t$
\0\83\ 2\0}
\16\0|
\16\0j
\ 1\0\83\0\0}
\12\0|
\0\0j*
\0|
\12\0t+
\0t
\0d3
\0d4
\0dN
\0t9
\0|
\16\0\83\ 1\0\17|
\ 4\0\14\17\83\ 2\0\83\ 1\0\83\ 2\0\ 1|
\16\0j,
\0\83\0\0\ 1|
\0\0j
\0|
\16\0j
\ 1\0\83\0\0|
\12\0\18dQ
\0dS
\0\17dU
\0\17\83\ 2\0\ 1d
\0\0S(V
\0\0\0Ns
\f\0\0\0Pyfile69.medi
\0\0\0\0i
\ 1\0\0\0R=
\ 3\0\0i
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\1e\0\0\0R>
\ 3\0\0i
\ 3\0\0\0i(
\0\0\0R
\ 2\0\0s
\ 6\0\0\0XX [m]s
\b\0\0\0YYY [km]s
\ 6\0\0\0X [km]s
\a\0\0\0YY [mm]Ri
\ 3\0\0R&
\0\0\0i
\ 4\0\0\0iF
\0\0\0i2
\0\0\0s
\a\0\0\0XX [pm]s
\b\0\0\0YYY [hm]Rj
\ 3\0\0R
\83\ 1\0\0RX
\ 3\0\0i¶
\0\0\0i
\1c\ 2\0\0i
\8c\0\0\0g
\9b+¡
\86\9b\84\ 6=i
\b\0\0\0i^
\ 1\0\0iX
\ 2\0\0i
\ 6\0\0\0id
\0\0\0g
\0\0\0\0\0\0\16@iL
\ 4\0\0ix
\ 5\0\0iàüÿÿiÿÿÿÿi+
\ 1\0\0il
\ 2\0\0t
\10\0\0\0FieldCellMultiTSi
\14\0\0\0iè
\ 3\0\0g
\9a\99\99\99\99\99¹?i
\15\0\0iü#
\0\0iP
\0\0\0i
\1a\0\0\0i×
\14\0\0i/'
\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\1e\0\0\0(
\ 2\0\0\0i
\1e\0\0\0iF
\0\0\0id
\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\1e\0\0\0(
\ 2\0\0\0i
\1e\0\0\0i2
\0\0\0i0
\ 2\0\0i`
\ 4\0\0i
\90\ 1\0\0i
\ 3\0\0i
\90\ 1\0\0i
\ 3\0\0i
\90\ 1\0\0i
\ 3\0\0ij
\0\0\0ik
\0\0\0ix
\ 5\0\0iÀ+
\0\0i
\80W
\0\0i
\82\0\0\0ix
\ 5\0\0iÀ+
\0\0i
\80W
\0\0i0
\ 2\0\0i`
\ 4\0\0i
\90\ 1\0\0i
\ 3\0\0(:
\0\0\0Rk
\0\0\0R§
\ 2\0\0Rx
\ 1\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0Rc
\0\0\0RY
\0\0\0Rn
\0\0\0Rq
\0\0\0Rõ
\0\0\0Rº
\ 1\0\0R[
\ 2\0\0R`
\0\0\0RB
\0\0\0RØ
\0\0\0RÃ
\ 1\0\0R>
\0\0\0Rj
\0\0\0R
\v\0\0\0Rà
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0RX
\ 1\0\0R³
\0\0\0R§
\0\0\0Ry
\ 1\0\0Rz
\ 1\0\0R{
\ 1\0\0Rd
\0\0\0R%
\ 1\0\0R+
\0\0\0RÄ
\ 1\0\0R"
\ 2\0\0R|
\ 1\0\0RN
\0\0\0RC
\0\0\0R0
\0\0\0R+
\ 1\0\0t
\v\0\0\0isAllocatedR
\1f\ 3\0\0R¨
\ 2\0\0Rm
\0\0\0t
34406 +
\0\0\0loadArraysR
\7f\ 1\0\0R
\9f\0\0\0t
\15\0\0\0loadArraysIfNecessaryRÓ
\ 1\0\0t
\f\0\0\0unloadArraysRô
\0\0\0RD
\ 3\0\0R°
\0\0\0RY
\ 1\0\0R"
\ 3\0\0R(
\0\0\0R[
\ 1\0\0Ry
\0\0\0(
\17\0\0\0R
\0\0\0R9
\ 1\0\0R©
\ 2\0\0Rª
\ 2\0\0R«
\ 2\0\0R=
\ 3\0\0Rî
\0\0\0RH
\ 3\0\0Rü
\0\0\0R>
\ 3\0\0RI
\ 3\0\0R
\83\0\0\0R
\86\0\0\0RB
\ 2\0\0Rä
\0\0\0RÔ
\ 1\0\0Rp
\ 3\0\0R
\83\ 1\0\0t
\ f\0\0\0heap_memory_reft
\ 3\0\0\0hmdRg
\ 3\0\0R
\8c\0\0\0R¥
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1e\0\0\0testMEDFileFieldPartialLoading
\ e\f\0\0s
\f\ 1\0\0\0\ 1\ 6\ 2 \0\f\ 1\10\ 1\10\0\ 3\0\ 3\ 2\ f\ 1
34407 +
\0\19\ 1\1c\ 1%
\ 1\19\0\17\ 1\ f\ 1\ f\ 1
34408 +
\0\1c\ 1\1f\ 1%
\ 1\19\0\e\ 1\ f\ 1\12\ 1\r\0\19\ 1 \0\10\0\10\ 2 \ 1\ f\0\r\0\16\0
34409 +
\0\r\0\13\0\r\0\r\ 1
34410 +
\ 1\r\ 1\10\ 26
\ 1\16\ 2 \ 1\ f\0\11\0\f\0
34411 +
\0\r\0\13\0\r\0\r\ 1
34412 +
\ 1\15\0\r\ 1\16\ 16
\ 1\16\ 1\10\ 2\ f\ 1\16\ 1\1a\ 1"
\ 1\f\ 1'
\ 1
34414 +
\0\r\ 1\1f\ 1\1a\ 2\12\ 1"
\ 1\f\ 1'
\ 1
34416 +
\0\r\ 1\1f\ 1\1a\ 1
34417 +
\ 1\1f\ 1\1a\ 1\19\ 1 \ 1
34418 +
\ 1\1f\ 1\19\ 1 \ 1
34419 +
\ 1"
\ 1 \ 1\f\ 1'
\ 1
34421 +
\ 1\1a\ 2\18\ 1\f\ 1'
\ 1
34422 +
\ 1\1f\ 1\1a\ 2\ 6\ 1 \ 1\13\ 1\ f\0\r\0\16\0\17\0\r\0\13\0\r\0\r\ 1!
\ 1
34423 +
\ 1\r\ 1\ 4\ 1\10\ 2\15\ 1\f\ 1'
\ 1
34424 +
\ 1\1a\ 1\ 3\ 2\ f\ 1\f\ 11
\ 1
34425 +
\ 1"
\ 1c
\ 1\0\0\0\ 2\0\0\0\ 3\0\0\0C
\0\0\0s
\19\0\0t
\0\0\83\0\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oT
\0|
\ 1\0j
\ 3\0\83\0\0oT
\0|
\ 1\0j
\ 4\0\83\0\0oT
\0|
\ 1\0j
\ 5\0\83\0\0oT
\0|
\ 1\0j
\ 6\0\83\0\0oT
\0|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1|
\ 1\0j
\b\0\83\0\0\ 1|
\ 1\0j
\0\83\0\0\ 1t
\0\0d
\ 1\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\foÉ
\0|
\ 1\0j
\ 3\0\83\0\0\foÉ
\0|
\ 1\0j
\ 4\0\83\0\0\foÉ
\0|
\ 1\0j
\ 5\0\83\0\0\foÉ
\0|
\ 1\0j
\ 6\0\83\0\0\foÉ
\0|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\ 2\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o)
\ 1|
\ 1\0j
\ 3\0\83\0\0\fo)
\ 1|
\ 1\0j
\ 4\0\83\0\0\fo)
\ 1|
\ 1\0j
\ 5\0\83\0\0\fo)
\ 1|
\ 1\0j
\ 6\0\83\0\0\fo)
\ 1|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\ 3\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo
\89\ 1|
\ 1\0j
\ 3\0\83\0\0o
\89\ 1|
\ 1\0j
\ 4\0\83\0\0\fo
\89\ 1|
\ 1\0j
\ 5\0\83\0\0\fo
\89\ 1|
\ 1\0j
\ 6\0\83\0\0\fo
\89\ 1|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\ 4\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oè
\ 1|
\ 1\0j
\ 3\0\83\0\0oè
\ 1|
\ 1\0j
\ 4\0\83\0\0\foè
\ 1|
\ 1\0j
\ 5\0\83\0\0\foè
\ 1|
\ 1\0j
\ 6\0\83\0\0\foè
\ 1|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\ 5\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\foH
\ 2|
\ 1\0j
\ 3\0\83\0\0\foH
\ 2|
\ 1\0j
\ 4\0\83\0\0oH
\ 2|
\ 1\0j
\ 5\0\83\0\0\foH
\ 2|
\ 1\0j
\ 6\0\83\0\0\foH
\ 2|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\ 6\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o§
\ 2|
\ 1\0j
\ 3\0\83\0\0\fo§
\ 2|
\ 1\0j
\ 4\0\83\0\0o§
\ 2|
\ 1\0j
\ 5\0\83\0\0\fo§
\ 2|
\ 1\0j
\ 6\0\83\0\0\fo§
\ 2|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\a\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo
\ 6\ 3|
\ 1\0j
\ 3\0\83\0\0o
\ 6\ 3|
\ 1\0j
\ 4\0\83\0\0o
\ 6\ 3|
\ 1\0j
\ 5\0\83\0\0\fo
\ 6\ 3|
\ 1\0j
\ 6\0\83\0\0\fo
\ 6\ 3|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\b\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0od
\ 3|
\ 1\0j
\ 3\0\83\0\0od
\ 3|
\ 1\0j
\ 4\0\83\0\0od
\ 3|
\ 1\0j
\ 5\0\83\0\0\fod
\ 3|
\ 1\0j
\ 6\0\83\0\0\fod
\ 3|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\foÄ
\ 3|
\ 1\0j
\ 3\0\83\0\0\foÄ
\ 3|
\ 1\0j
\ 4\0\83\0\0\foÄ
\ 3|
\ 1\0j
\ 5\0\83\0\0oÄ
\ 3|
\ 1\0j
\ 6\0\83\0\0\foÄ
\ 3|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
34426 +
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o#
\ 4|
\ 1\0j
\ 3\0\83\0\0\fo#
\ 4|
\ 1\0j
\ 4\0\83\0\0\fo#
\ 4|
\ 1\0j
\ 5\0\83\0\0o#
\ 4|
\ 1\0j
\ 6\0\83\0\0\fo#
\ 4|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\v\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo
\82\ 4|
\ 1\0j
\ 3\0\83\0\0o
\82\ 4|
\ 1\0j
\ 4\0\83\0\0\fo
\82\ 4|
\ 1\0j
\ 5\0\83\0\0o
\82\ 4|
\ 1\0j
\ 6\0\83\0\0\fo
\82\ 4|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\f\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oà
\ 4|
\ 1\0j
\ 3\0\83\0\0oà
\ 4|
\ 1\0j
\ 4\0\83\0\0\foà
\ 4|
\ 1\0j
\ 5\0\83\0\0oà
\ 4|
\ 1\0j
\ 6\0\83\0\0\foà
\ 4|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\r\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo?
\ 5|
\ 1\0j
\ 3\0\83\0\0\fo?
\ 5|
\ 1\0j
\ 4\0\83\0\0o?
\ 5|
\ 1\0j
\ 5\0\83\0\0o?
\ 5|
\ 1\0j
\ 6\0\83\0\0\fo?
\ 5|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\ e\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o
\9d\ 5|
\ 1\0j
\ 3\0\83\0\0\fo
\9d\ 5|
\ 1\0j
\ 4\0\83\0\0o
\9d\ 5|
\ 1\0j
\ 5\0\83\0\0o
\9d\ 5|
\ 1\0j
\ 6\0\83\0\0\fo
\9d\ 5|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\ f\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\foû
\ 5|
\ 1\0j
\ 3\0\83\0\0oû
\ 5|
\ 1\0j
\ 4\0\83\0\0oû
\ 5|
\ 1\0j
\ 5\0\83\0\0oû
\ 5|
\ 1\0j
\ 6\0\83\0\0\foû
\ 5|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\10\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oX
\ 6|
\ 1\0j
\ 3\0\83\0\0oX
\ 6|
\ 1\0j
\ 4\0\83\0\0oX
\ 6|
\ 1\0j
\ 5\0\83\0\0oX
\ 6|
\ 1\0j
\ 6\0\83\0\0\foX
\ 6|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\11\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo¸
\ 6|
\ 1\0j
\ 3\0\83\0\0\fo¸
\ 6|
\ 1\0j
\ 4\0\83\0\0\fo¸
\ 6|
\ 1\0j
\ 5\0\83\0\0\fo¸
\ 6|
\ 1\0j
\ 6\0\83\0\0o¸
\ 6|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\12\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o
\17\a|
\ 1\0j
\ 3\0\83\0\0\fo
\17\a|
\ 1\0j
\ 4\0\83\0\0\fo
\17\a|
\ 1\0j
\ 5\0\83\0\0\fo
\17\a|
\ 1\0j
\ 6\0\83\0\0o
\17\a|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\13\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fov
\a|
\ 1\0j
\ 3\0\83\0\0ov
\a|
\ 1\0j
\ 4\0\83\0\0\fov
\a|
\ 1\0j
\ 5\0\83\0\0\fov
\a|
\ 1\0j
\ 6\0\83\0\0ov
\a|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\14\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oÔ
\a|
\ 1\0j
\ 3\0\83\0\0oÔ
\a|
\ 1\0j
\ 4\0\83\0\0\foÔ
\a|
\ 1\0j
\ 5\0\83\0\0\foÔ
\a|
\ 1\0j
\ 6\0\83\0\0oÔ
\a|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\15\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo3
\b|
\ 1\0j
\ 3\0\83\0\0\fo3
\b|
\ 1\0j
\ 4\0\83\0\0o3
\b|
\ 1\0j
\ 5\0\83\0\0\fo3
\b|
\ 1\0j
\ 6\0\83\0\0o3
\b|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\16\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o
\91\b|
\ 1\0j
\ 3\0\83\0\0\fo
\91\b|
\ 1\0j
\ 4\0\83\0\0o
\91\b|
\ 1\0j
\ 5\0\83\0\0\fo
\91\b|
\ 1\0j
\ 6\0\83\0\0o
\91\b|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\17\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\foï
\b|
\ 1\0j
\ 3\0\83\0\0oï
\b|
\ 1\0j
\ 4\0\83\0\0oï
\b|
\ 1\0j
\ 5\0\83\0\0\foï
\b|
\ 1\0j
\ 6\0\83\0\0oï
\b|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\18\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oL |
\ 1\0j
\ 3\0\83\0\0oL |
\ 1\0j
\ 4\0\83\0\0oL |
\ 1\0j
\ 5\0\83\0\0\foL |
\ 1\0j
\ 6\0\83\0\0oL |
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\19\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo« |
\ 1\0j
\ 3\0\83\0\0\fo« |
\ 1\0j
\ 4\0\83\0\0\fo« |
\ 1\0j
\ 5\0\83\0\0o« |
\ 1\0j
\ 6\0\83\0\0o« |
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\1a\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o
34427 +|
\ 1\0j
\ 3\0\83\0\0\fo
34428 +|
\ 1\0j
\ 4\0\83\0\0\fo
34429 +|
\ 1\0j
\ 5\0\83\0\0o
34430 +|
\ 1\0j
\ 6\0\83\0\0o
34431 +|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\e\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fog
34432 +|
\ 1\0j
\ 3\0\83\0\0og
34433 +|
\ 1\0j
\ 4\0\83\0\0\fog
34434 +|
\ 1\0j
\ 5\0\83\0\0og
34435 +|
\ 1\0j
\ 6\0\83\0\0og
34436 +|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\1c\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oÄ
34437 +|
\ 1\0j
\ 3\0\83\0\0oÄ
34438 +|
\ 1\0j
\ 4\0\83\0\0\foÄ
34439 +|
\ 1\0j
\ 5\0\83\0\0oÄ
34440 +|
\ 1\0j
\ 6\0\83\0\0oÄ
34441 +|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\1d\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo"
\v|
\ 1\0j
\ 3\0\83\0\0\fo"
\v|
\ 1\0j
\ 4\0\83\0\0o"
\v|
\ 1\0j
\ 5\0\83\0\0o"
\v|
\ 1\0j
\ 6\0\83\0\0o"
\v|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\1e\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o
\7f\v|
\ 1\0j
\ 3\0\83\0\0\fo
\7f\v|
\ 1\0j
\ 4\0\83\0\0o
\7f\v|
\ 1\0j
\ 5\0\83\0\0o
\7f\v|
\ 1\0j
\ 6\0\83\0\0o
\7f\v|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\1f\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\foÜ
\v|
\ 1\0j
\ 3\0\83\0\0oÜ
\v|
\ 1\0j
\ 4\0\83\0\0oÜ
\v|
\ 1\0j
\ 5\0\83\0\0oÜ
\v|
\ 1\0j
\ 6\0\83\0\0oÜ
\v|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o8
\f|
\ 1\0j
\ 3\0\83\0\0o8
\f|
\ 1\0j
\ 4\0\83\0\0o8
\f|
\ 1\0j
\ 5\0\83\0\0o8
\f|
\ 1\0j
\ 6\0\83\0\0o8
\f|
\ 1\0j
\a\0\83\0\0\f\83\ 1\0\ 1t
\0\0d!
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo
\98\f|
\ 1\0j
\ 3\0\83\0\0\fo
\98\f|
\ 1\0j
\ 4\0\83\0\0\fo
\98\f|
\ 1\0j
\ 5\0\83\0\0\fo
\98\f|
\ 1\0j
\ 6\0\83\0\0\fo
\98\f|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d"
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o÷
\f|
\ 1\0j
\ 3\0\83\0\0\fo÷
\f|
\ 1\0j
\ 4\0\83\0\0\fo÷
\f|
\ 1\0j
\ 5\0\83\0\0\fo÷
\f|
\ 1\0j
\ 6\0\83\0\0\fo÷
\f|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d#
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\foV
\r|
\ 1\0j
\ 3\0\83\0\0oV
\r|
\ 1\0j
\ 4\0\83\0\0\foV
\r|
\ 1\0j
\ 5\0\83\0\0\foV
\r|
\ 1\0j
\ 6\0\83\0\0\foV
\r|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d$
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o´
\r|
\ 1\0j
\ 3\0\83\0\0o´
\r|
\ 1\0j
\ 4\0\83\0\0\fo´
\r|
\ 1\0j
\ 5\0\83\0\0\fo´
\r|
\ 1\0j
\ 6\0\83\0\0\fo´
\r|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d%
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo
\13\ e|
\ 1\0j
\ 3\0\83\0\0\fo
\13\ e|
\ 1\0j
\ 4\0\83\0\0o
\13\ e|
\ 1\0j
\ 5\0\83\0\0\fo
\13\ e|
\ 1\0j
\ 6\0\83\0\0\fo
\13\ e|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d&
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oq
\ e|
\ 1\0j
\ 3\0\83\0\0\foq
\ e|
\ 1\0j
\ 4\0\83\0\0oq
\ e|
\ 1\0j
\ 5\0\83\0\0\foq
\ e|
\ 1\0j
\ 6\0\83\0\0\foq
\ e|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d'
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\foÏ
\ e|
\ 1\0j
\ 3\0\83\0\0oÏ
\ e|
\ 1\0j
\ 4\0\83\0\0oÏ
\ e|
\ 1\0j
\ 5\0\83\0\0\foÏ
\ e|
\ 1\0j
\ 6\0\83\0\0\foÏ
\ e|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d(
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o,
\ f|
\ 1\0j
\ 3\0\83\0\0o,
\ f|
\ 1\0j
\ 4\0\83\0\0o,
\ f|
\ 1\0j
\ 5\0\83\0\0\fo,
\ f|
\ 1\0j
\ 6\0\83\0\0\fo,
\ f|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d)
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo
\8b\ f|
\ 1\0j
\ 3\0\83\0\0\fo
\8b\ f|
\ 1\0j
\ 4\0\83\0\0\fo
\8b\ f|
\ 1\0j
\ 5\0\83\0\0o
\8b\ f|
\ 1\0j
\ 6\0\83\0\0\fo
\8b\ f|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d*
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oé
\ f|
\ 1\0j
\ 3\0\83\0\0\foé
\ f|
\ 1\0j
\ 4\0\83\0\0\foé
\ f|
\ 1\0j
\ 5\0\83\0\0oé
\ f|
\ 1\0j
\ 6\0\83\0\0\foé
\ f|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d+
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\foG
\10|
\ 1\0j
\ 3\0\83\0\0oG
\10|
\ 1\0j
\ 4\0\83\0\0\foG
\10|
\ 1\0j
\ 5\0\83\0\0oG
\10|
\ 1\0j
\ 6\0\83\0\0\foG
\10|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d,
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o¤
\10|
\ 1\0j
\ 3\0\83\0\0o¤
\10|
\ 1\0j
\ 4\0\83\0\0\fo¤
\10|
\ 1\0j
\ 5\0\83\0\0o¤
\10|
\ 1\0j
\ 6\0\83\0\0\fo¤
\10|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d-
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo
\ 2\11|
\ 1\0j
\ 3\0\83\0\0\fo
\ 2\11|
\ 1\0j
\ 4\0\83\0\0o
\ 2\11|
\ 1\0j
\ 5\0\83\0\0o
\ 2\11|
\ 1\0j
\ 6\0\83\0\0\fo
\ 2\11|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d.
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o_
\11|
\ 1\0j
\ 3\0\83\0\0\fo_
\11|
\ 1\0j
\ 4\0\83\0\0o_
\11|
\ 1\0j
\ 5\0\83\0\0o_
\11|
\ 1\0j
\ 6\0\83\0\0\fo_
\11|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d/
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo¼
\11|
\ 1\0j
\ 3\0\83\0\0o¼
\11|
\ 1\0j
\ 4\0\83\0\0o¼
\11|
\ 1\0j
\ 5\0\83\0\0o¼
\11|
\ 1\0j
\ 6\0\83\0\0\fo¼
\11|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d0
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o
\18\12|
\ 1\0j
\ 3\0\83\0\0o
\18\12|
\ 1\0j
\ 4\0\83\0\0o
\18\12|
\ 1\0j
\ 5\0\83\0\0o
\18\12|
\ 1\0j
\ 6\0\83\0\0\fo
\18\12|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d1
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fow
\12|
\ 1\0j
\ 3\0\83\0\0\fow
\12|
\ 1\0j
\ 4\0\83\0\0\fow
\12|
\ 1\0j
\ 5\0\83\0\0\fow
\12|
\ 1\0j
\ 6\0\83\0\0ow
\12|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d2
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oÕ
\12|
\ 1\0j
\ 3\0\83\0\0\foÕ
\12|
\ 1\0j
\ 4\0\83\0\0\foÕ
\12|
\ 1\0j
\ 5\0\83\0\0\foÕ
\12|
\ 1\0j
\ 6\0\83\0\0oÕ
\12|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d3
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo3
\13|
\ 1\0j
\ 3\0\83\0\0o3
\13|
\ 1\0j
\ 4\0\83\0\0\fo3
\13|
\ 1\0j
\ 5\0\83\0\0\fo3
\13|
\ 1\0j
\ 6\0\83\0\0o3
\13|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d4
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o
\90\13|
\ 1\0j
\ 3\0\83\0\0o
\90\13|
\ 1\0j
\ 4\0\83\0\0\fo
\90\13|
\ 1\0j
\ 5\0\83\0\0\fo
\90\13|
\ 1\0j
\ 6\0\83\0\0o
\90\13|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d5
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\foî
\13|
\ 1\0j
\ 3\0\83\0\0\foî
\13|
\ 1\0j
\ 4\0\83\0\0oî
\13|
\ 1\0j
\ 5\0\83\0\0\foî
\13|
\ 1\0j
\ 6\0\83\0\0oî
\13|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d6
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oK
\14|
\ 1\0j
\ 3\0\83\0\0\foK
\14|
\ 1\0j
\ 4\0\83\0\0oK
\14|
\ 1\0j
\ 5\0\83\0\0\foK
\14|
\ 1\0j
\ 6\0\83\0\0oK
\14|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d7
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo¨
\14|
\ 1\0j
\ 3\0\83\0\0o¨
\14|
\ 1\0j
\ 4\0\83\0\0o¨
\14|
\ 1\0j
\ 5\0\83\0\0\fo¨
\14|
\ 1\0j
\ 6\0\83\0\0o¨
\14|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d8
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o
\ 4\15|
\ 1\0j
\ 3\0\83\0\0o
\ 4\15|
\ 1\0j
\ 4\0\83\0\0o
\ 4\15|
\ 1\0j
\ 5\0\83\0\0\fo
\ 4\15|
\ 1\0j
\ 6\0\83\0\0o
\ 4\15|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d9
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fob
\15|
\ 1\0j
\ 3\0\83\0\0\fob
\15|
\ 1\0j
\ 4\0\83\0\0\fob
\15|
\ 1\0j
\ 5\0\83\0\0ob
\15|
\ 1\0j
\ 6\0\83\0\0ob
\15|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d:
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o¿
\15|
\ 1\0j
\ 3\0\83\0\0\fo¿
\15|
\ 1\0j
\ 4\0\83\0\0\fo¿
\15|
\ 1\0j
\ 5\0\83\0\0o¿
\15|
\ 1\0j
\ 6\0\83\0\0o¿
\15|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d;
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo
\1c\16|
\ 1\0j
\ 3\0\83\0\0o
\1c\16|
\ 1\0j
\ 4\0\83\0\0\fo
\1c\16|
\ 1\0j
\ 5\0\83\0\0o
\1c\16|
\ 1\0j
\ 6\0\83\0\0o
\1c\16|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d<
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0ox
\16|
\ 1\0j
\ 3\0\83\0\0ox
\16|
\ 1\0j
\ 4\0\83\0\0\fox
\16|
\ 1\0j
\ 5\0\83\0\0ox
\16|
\ 1\0j
\ 6\0\83\0\0ox
\16|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d=
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\foÕ
\16|
\ 1\0j
\ 3\0\83\0\0\foÕ
\16|
\ 1\0j
\ 4\0\83\0\0oÕ
\16|
\ 1\0j
\ 5\0\83\0\0oÕ
\16|
\ 1\0j
\ 6\0\83\0\0oÕ
\16|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d>
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0o1
\17|
\ 1\0j
\ 3\0\83\0\0\fo1
\17|
\ 1\0j
\ 4\0\83\0\0o1
\17|
\ 1\0j
\ 5\0\83\0\0o1
\17|
\ 1\0j
\ 6\0\83\0\0o1
\17|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d?
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\fo
\8d\17|
\ 1\0j
\ 3\0\83\0\0o
\8d\17|
\ 1\0j
\ 4\0\83\0\0o
\8d\17|
\ 1\0j
\ 5\0\83\0\0o
\8d\17|
\ 1\0j
\ 6\0\83\0\0o
\8d\17|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d@
\0\83\ 1\0}
\ 1\0|
\0\0j
\ 1\0|
\ 1\0j
\ 2\0\83\0\0oè
\17|
\ 1\0j
\ 3\0\83\0\0oè
\17|
\ 1\0j
\ 4\0\83\0\0oè
\17|
\ 1\0j
\ 5\0\83\0\0oè
\17|
\ 1\0j
\ 6\0\83\0\0oè
\17|
\ 1\0j
\a\0\83\0\0\83\ 1\0\ 1t
\0\0d@
\0\83\ 1\0}
\ 1\0|
\ 1\0j
34442 +
\0t
\v\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d?
\0\83\ 2\0\ 1|
\ 1\0j
34443 +
\0t
\ e\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d@
\0\83\ 2\0\ 1|
\ 1\0j
\ f\0t
\v\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d>
\0\83\ 2\0\ 1|
\ 1\0j
\ f\0t
\ e\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d@
\0\83\ 2\0\ 1|
\ 1\0j
\10\0t
\v\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d<
\0\83\ 2\0\ 1|
\ 1\0j
\10\0t
\ e\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d@
\0\83\ 2\0\ 1|
\ 1\0j
\11\0t
\v\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d8
\0\83\ 2\0\ 1|
\ 1\0j
\11\0t
\ e\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d@
\0\83\ 2\0\ 1|
\ 1\0j
\12\0t
\v\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d0
\0\83\ 2\0\ 1|
\ 1\0j
\12\0t
\ e\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d@
\0\83\ 2\0\ 1|
\ 1\0j
\13\0t
\v\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d
\0\83\ 2\0\ 1|
\ 1\0j
\13\0t
\ e\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 1\0j
\r\0\83\0\0d@
\0\83\ 2\0\ 1d
\0\0S(A
\0\0\0Ni
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
34444 +
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\19\0\0\0i
\1a\0\0\0i
\e\0\0\0i
\1c\0\0\0i
\1d\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i#
\0\0\0i$
\0\0\0i%
\0\0\0i&
\0\0\0i'
\0\0\0i(
\0\0\0i)
\0\0\0i*
\0\0\0i+
\0\0\0i,
\0\0\0i-
\0\0\0i.
\0\0\0i/
\0\0\0i0
\0\0\0i1
\0\0\0i2
\0\0\0i3
\0\0\0i4
\0\0\0i5
\0\0\0i6
\0\0\0i7
\0\0\0i8
\0\0\0i9
\0\0\0i:
\0\0\0i;
\0\0\0i<
\0\0\0i=
\0\0\0i>
\0\0\0i?
\0\0\0(
\14\0\0\0t
\17\0\0\0MEDFileMeshReadSelectorR0
\0\0\0t
\18\0\0\0isCellFamilyFieldReadingt
\18\0\0\0isNodeFamilyFieldReadingt
\16\0\0\0isCellNameFieldReadingt
\16\0\0\0isNodeNameFieldReadingt
\15\0\0\0isCellNumFieldReadingt
\15\0\0\0isNodeNumFieldReadingRC
\ 3\0\0t
\b\0\0\0__repr__t
\19\0\0\0setCellFamilyFieldReadingRN
\0\0\0R+
\0\0\0t
\a\0\0\0getCodeR.
\0\0\0t
\19\0\0\0setNodeFamilyFieldReadingt
\17\0\0\0setCellNameFieldReadingt
\17\0\0\0setNodeNameFieldReadingt
\16\0\0\0setCellNumFieldReadingt
\16\0\0\0setNodeNumFieldReading(
\ 2\0\0\0R
\0\0\0t
\ 3\0\0\0mrs(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1c\0\0\0testMEDFileMeshReadSelector1}
\f\0\0s<
\ 1\0\0\0\ 1 \ 1O
\ 1
34446 +
\ 2\f\ 1U
\ 1\f\ 1T
\ 1\f\ 1T
\ 1\f\ 1S
\ 1\f\ 1T
\ 1\f\ 1S
\ 1\f\ 1S
\ 1\f\ 1R
\ 1\f\ 1T
\ 1\f\ 1S
\ 1\f\ 1S
\ 1\f\ 1R
\ 1\f\ 1S
\ 1\f\ 1R
\ 1\f\ 1R
\ 1\f\ 1Q
\ 1\f\ 1T
\ 1\f\ 1S
\ 1\f\ 1S
\ 1\f\ 1R
\ 1\f\ 1S
\ 1\f\ 1R
\ 1\f\ 1R
\ 1\f\ 1Q
\ 1\f\ 1S
\ 1\f\ 1R
\ 1\f\ 1R
\ 1\f\ 1Q
\ 1\f\ 1R
\ 1\f\ 1Q
\ 1\f\ 1Q
\ 1\f\ 1P
\ 1\f\ 1T
\ 1\f\ 1S
\ 1\f\ 1S
\ 1\f\ 1R
\ 1\f\ 1S
\ 1\f\ 1R
\ 1\f\ 1R
\ 1\f\ 1Q
\ 1\f\ 1S
\ 1\f\ 1R
\ 1\f\ 1R
\ 1\f\ 1Q
\ 1\f\ 1R
\ 1\f\ 1Q
\ 1\f\ 1Q
\ 1\f\ 1P
\ 1\f\ 1S
\ 1\f\ 1R
\ 1\f\ 1R
\ 1\f\ 1Q
\ 1\f\ 1R
\ 1\f\ 1Q
\ 1\f\ 1Q
\ 1\f\ 1P
\ 1\f\ 1R
\ 1\f\ 1Q
\ 1\f\ 1Q
\ 1\f\ 1P
\ 1\f\ 1Q
\ 1\f\ 1P
\ 1\f\ 1P
\ 1\f\ 1O
\ 2\f\ 1\r\ 1\16\ 1\r\ 1\16\ 1\r\ 1\16\ 1\r\ 1\16\ 1\r\ 1\16\ 1\r\ 1\16\ 1\r\ 1\16\ 1\r\ 1\16\ 1\r\ 1\16\ 1\r\ 1\16\ 1\r\ 1\16\ 1\r\ 1\16\ 1c
\ 1\0\0\0\18\0\0\0\a\0\0\0C
\0\0\0s
\95
34447 +
\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 3\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 1\0\83\0\0\ 1|
\ 2\0j
\ 2\0t
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0g
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0t
\ 5\0d!
\0d"
\0d#
\0g
\ 3\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\ 6\0d
\b\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 2\0j
\a\0\83\0\0^
\ 2\0qa
\0}
\ 4\0x-
\0t
\b\0|
\ 4\0\83\ 1\0D]
\1f\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\0|
\ 3\0d
\ 4\0g
\ 2\0\83\ 1\0\ 1q
\86\0Wt
\0\0j
34448 +
\0|
\ 4\0\83\ 1\0}
\ 4\0t
\0\0d
\0d
\ 3\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 1\0\83\0\0\ 1|
\ 6\0j
\ 2\0t
\v\0d
\ 4\0d
\ 5\0d
\ 3\0d
34449 +
\0g
\ 4\0\83\ 2\0\ 1|
\ 6\0j
\ 4\0t
\ 5\0d$
\0d%
\0d&
\0d'
\0g
\ 4\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\ 6\0d
\v\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 6\0j
\a\0\83\0\0^
\ 2\0q
\19\ 1}
\a\0x1
\0t
\b\0|
\a\0\83\ 1\0D]#
\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\0d
\v\0|
\ 3\0\17d
\ 4\0g
\ 2\0\83\ 1\0\ 1q>
\ 1Wt
\0\0j
34450 +
\0|
\a\0\83\ 1\0}
\a\0t
\0\0j
34451 +
\0|
\ 4\0|
\a\0\83\ 2\0}
\b\0|
\b\0j
\f\0d
\f\0\83\ 1\0\ 1|
\b\0j
\r\0\83\0\0j
\ e\0d
\r\0d
\ e\0g
\ 2\0\83\ 1\0\ 1|
\b\0j
\ f\0\83\0\0d
\ 4\0\19}
\0t
\10\0\83\0\0}
34453 +
\0j
\11\0|
\b\0|
\0g
\ 2\0\83\ 1\0\ 1t
\12\0d
\ 5\0d
\ 3\0d
34454 +
\0d
\v\0d
\ f\0g
\ 5\0\83\ 1\0}
\v\0|
\v\0j
\f\0d
\10\0\83\ 1\0\ 1t
\12\0d
\ 5\0d
\ 3\0d
34455 +
\0d
\v\0d
\11\0d
\12\0g
\ 6\0\83\ 1\0}
\f\0|
\f\0j
\f\0d
\13\0\83\ 1\0\ 1|
34456 +
\0j
\13\0d
\ 4\0|
\v\0|
\f\0g
\ 2\0\83\ 2\0\ 1t
\12\0j
\14\0d
\ 4\0d
\14\0d
\ 3\0\83\ 3\0}
\r\0|
\r\0j
\f\0d
\15\0\83\ 1\0\ 1t
\12\0j
\14\0d
\ 5\0d
\14\0d
\11\0\83\ 3\0}
\ e\0|
\ e\0j
\f\0d
\16\0\83\ 1\0\ 1|
34457 +
\0j
\13\0d
\17\0|
\r\0|
\ e\0g
\ 2\0\83\ 2\0\ 1t
\12\0j
\14\0d
\ 4\0d
\14\0d
\ 3\0\83\ 3\0}
\ f\0|
\ f\0j
\f\0d
\18\0\83\ 1\0\ 1t
\12\0j
\14\0d
\ 5\0d
\14\0d
\11\0\83\ 3\0}
\10\0|
\10\0j
\f\0d
\19\0\83\ 1\0\ 1|
34458 +
\0j
\13\0d
\ 5\0|
\ f\0|
\10\0g
\ 2\0\83\ 2\0\ 1|
34459 +
\0j
\15\0d
\ 4\0t
\12\0j
\14\0d
\ 3\0d
\1a\0d
\ 5\0\83\ 3\0\83\ 2\0\ 1|
34460 +
\0j
\15\0d
\17\0t
\12\0j
\14\0d
34461 +
\0d
\e\0d
\ 5\0\83\ 3\0\83\ 2\0\ 1|
34462 +
\0j
\15\0d
\ 5\0t
\12\0j
\14\0d
\b\0d
\1c\0d
\ 5\0\83\ 3\0\83\ 2\0\ 1|
34463 +
\0j
\16\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\17\0j
\18\0|
\ 1\0d
\f\0d
\17\0d
\17\0t
\19\0\83\0\0\83\ 5\0}
34465 +
\0j
\1a\0\83\0\0}
\11\0|
34466 +
\0j
\e\0d
\ 4\0\83\ 1\0\ 1|
34467 +
\0j
\e\0d
\17\0\83\ 1\0\ 1|
34468 +
\0j
\1a\0\83\0\0}
\12\0|
\0\0j
\1c\0|
\12\0|
\11\0\18d+
\0k
\ 5\0\83\ 1\0\ 1t
\17\0j
\18\0|
\ 1\0t
\19\0d
\ 4\0\83\ 1\0\83\ 2\0}
34469 +
\0|
\0\0j
\1d\0t
\1e\0|
34470 +
\0j
\1f\0\83\0\0\83\ 1\0d
\ 4\0\83\ 2\0\ 1|
\0\0j
\1c\0|
34471 +
\0j
\e\0d
\ 4\0\83\ 1\0j
\0|
\b\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34472 +
\0j
\e\0d
\17\0\83\ 1\0j
\0|
\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34473 +
\0j!
\0d
\ 4\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34474 +
\0j!
\0d
\17\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34475 +
\0j!
\0d
\ 5\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34476 +
\0j#
\0d
\ 4\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34477 +
\0j#
\0d
\17\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34478 +
\0j#
\0d
\ 5\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\12\0|
34479 +
\0j
\1a\0\83\0\0\18}
\13\0|
\0\0j
\1c\0|
\13\0d
\b\0d,
\0\14d
34480 +
\0\14d.
\0\17k
\ 5\0\83\ 1\0\ 1t
\17\0j
\18\0|
\ 1\0t
\19\0d
\ 5\0\83\ 1\0\83\ 2\0}
34481 +
\0|
\0\0j
\1d\0t
\1e\0|
34482 +
\0j
\1f\0\83\0\0\83\ 1\0d
\ f\0\83\ 2\0\ 1|
\0\0j
\1c\0|
34483 +
\0j
\e\0d
\ 4\0\83\ 1\0j
\0|
\b\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34484 +
\0j
\e\0d
\17\0\83\ 1\0j
\0|
\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34485 +
\0j!
\0d
\ 4\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34486 +
\0j!
\0d
\17\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34487 +
\0j!
\0d
\ 5\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34488 +
\0j#
\0d
\ 4\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34489 +
\0j#
\0d
\17\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34490 +
\0j#
\0d
\ 5\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\12\0|
34491 +
\0j
\1a\0\83\0\0\18}
\14\0|
\0\0j
\1c\0|
\14\0|
\13\0k
\0\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\14\0d
\b\0d/
\0\14d
\ 5\0\14d1
\0\17k
\ 5\0\83\ 1\0\ 1t
\10\0|
\ 1\0t
\19\0d
34492 +
\0\83\ 1\0\83\ 2\0}
34493 +
\0|
\0\0j
\1d\0t
\1e\0|
34494 +
\0j
\1f\0\83\0\0\83\ 1\0d
\ f\0\83\ 2\0\ 1|
\0\0j
\1c\0|
34495 +
\0j
\e\0d
\ 4\0\83\ 1\0j
\0|
\b\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34496 +
\0j
\e\0d
\17\0\83\ 1\0j
\0|
\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34497 +
\0j!
\0d
\ 4\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34498 +
\0j!
\0d
\17\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34499 +
\0j!
\0d
\ 5\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34500 +
\0j#
\0d
\ 4\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34501 +
\0j#
\0d
\17\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34502 +
\0j#
\0d
\ 5\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\12\0|
34503 +
\0j
\1a\0\83\0\0\18}
\15\0|
\0\0j
\1c\0|
\15\0|
\14\0k
\0\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\15\0d
\b\0d2
\0\14d
\ 5\0\14d4
\0\17k
\ 5\0\83\ 1\0\ 1t
\10\0|
\ 1\0d
\f\0d
\17\0d
\17\0t
\19\0d
\1f\0\83\ 1\0\83\ 5\0}
34504 +
\0|
\0\0j
\1d\0t
\1e\0|
34505 +
\0j
\1f\0\83\0\0\83\ 1\0d
\ f\0\83\ 2\0\ 1|
\0\0j
\1c\0|
34506 +
\0j
\e\0d
\ 4\0\83\ 1\0j
\0|
\b\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34507 +
\0j
\e\0d
\17\0\83\ 1\0j
\0|
\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34508 +
\0j!
\0d
\ 4\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34509 +
\0j!
\0d
\17\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34510 +
\0j!
\0d
\ 5\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34511 +
\0j#
\0d
\ 4\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34512 +
\0j#
\0d
\17\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34513 +
\0j#
\0d
\ 5\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\12\0|
34514 +
\0j
\1a\0\83\0\0\18}
\16\0|
\0\0j
\1c\0|
\16\0|
\15\0k
\0\0\83\ 1\0\ 1|
\0\0j
\1c\0|
\16\0d6
\0k
\ 5\0\83\ 1\0\ 1t
\10\0j
\18\0|
\ 1\0d
\f\0d
\17\0d
\17\0t
\19\0d
\0\83\ 1\0\83\ 5\0}
34515 +
\0|
\0\0j
\1d\0t
\1e\0|
34516 +
\0j
\1f\0\83\0\0\83\ 1\0d
\ f\0\83\ 2\0\ 1|
\0\0j
\1c\0|
34517 +
\0j
\e\0d
\ 4\0\83\ 1\0j
\0|
\b\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34518 +
\0j
\e\0d
\17\0\83\ 1\0j
\0|
\0d
\1e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34519 +
\0j!
\0d
\ 4\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34520 +
\0j!
\0d
\17\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34521 +
\0j!
\0d
\ 5\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34522 +
\0j#
\0d
\ 4\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34523 +
\0j#
\0d
\17\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34524 +
\0j#
\0d
\ 5\0\83\ 1\0d
\0\0k
\ 3\0\83\ 1\0\ 1|
\12\0|
34525 +
\0j
\1a\0\83\0\0\18}
\17\0|
\0\0j
\1c\0|
\17\0|
\16\0k
\0\0\83\ 1\0\ 1|
\0\0j
\1d\0|
\17\0d
\ 4\0\83\ 2\0\ 1d
\0\0S(7
\0\0\0Ns
\f\0\0\0Pyfile70.medR=
\ 3\0\0i
\ 2\0\0\0i
\0\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0R>
\ 3\0\0i
\ 3\0\0\0i
\ 5\0\0\0R
\ 2\0\0s
\ 6\0\0\0XX [m]s
\b\0\0\0YYY [km]i
\ 6\0\0\0R
\93\ 2\0\0i
\a\0\0\0i
\b\0\0\0R
\95\ 2\0\0i
\0\0\0Rè
\ 1\0\0t
\ 4\0\0\0grp3iÿÿÿÿt
\ 4\0\0\0grp4t
\ 4\0\0\0grp5i
\v\0\0\0i#
\0\0\0i$
\0\0\0i
\0\0\0g
\82vIhÂ%<=i
\13\0\0\0i3
\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0i)
\0\0\0i¤
\0\0\0iH
\ 1\0\0i(
\ 1\0\0i)
\0\0\0i
\80\0\0\0i
\80\ 1\0\0i)
\0\0\0i
\80\0\0\0i
\80\ 1\0\0i)
\0\0\0i
\80\0\0\0i
\80\0\0\0i
\80\0\0\0i
\0\ 1\0\0($
\0\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0Rc
\0\0\0RY
\0\0\0Rn
\0\0\0Rq
\0\0\0Rõ
\0\0\0Rº
\ 1\0\0R[
\ 2\0\0R`
\0\0\0RB
\0\0\0RØ
\0\0\0RÃ
\ 1\0\0R
\9b\ 1\0\0R>
\0\0\0RR
\ 1\0\0Rk
\0\0\0Rl
\0\0\0R"
\ 2\0\0R
\98\0\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0R|
\ 3\0\0R§
\ 2\0\0R}
\0\0\0R0
\0\0\0R+
\0\0\0Ry
\0\0\0R²
\ 1\0\0R1
\0\0\0R
\9e\0\0\0R/
\ 2\0\0R
\8c\ 2\0\0(
\18\0\0\0R
\0\0\0R9
\ 1\0\0R=
\ 3\0\0Rî
\0\0\0RH
\ 3\0\0Rü
\0\0\0R>
\ 3\0\0RI
\ 3\0\0R
\83\0\0\0R
\84\0\0\0R
\86\0\0\0R
\93\ 2\0\0R
\95\ 2\0\0Rè
\ 1\0\0R
\8d\ 3\0\0R
\8e\ 3\0\0R
\8f\ 3\0\0t
\ f\0\0\0b4_ref_heap_memt
\f\0\0\0ref_heap_memt
\ 6\0\0\0delta1t
\ 6\0\0\0delta2t
\ 6\0\0\0delta3t
\ 6\0\0\0delta4t
\ 6\0\0\0delta5(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\17\0\0\0testPartialReadOfMeshes
\1e\r\0\0sâ
\0\0\0\0\ 1\ 6\ 2\ f\ 1
34526 +
\0\19\ 1\1c\ 1%
\ 1\19\0\17\ 1\ f\ 1\ f\ 1
34527 +
\0\1c\ 1\1f\ 1%
\ 1\19\0\e\ 1\ f\ 1\12\ 1\r\0\19\ 1\10\ 1 \0\13\ 2\e\0\r\ 1\1e\0\r\ 1\16\ 1\15\0\r\ 1\15\0\r\ 1\16\ 1\15\0\r\ 1\15\0\r\ 1\16\ 1\1f\ 1\1f\ 1\1f\ 2\10\ 2\1e\ 1\f\ 1\r\ 1\r\ 1\f\ 2\17\ 2\18\ 1\1c\ 1"
\ 1"
\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\10\ 1\1f\ 2\18\ 1\1c\ 1"
\ 1"
\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\10\ 1\13\ 1\1f\ 2\15\ 1\1c\ 1"
\ 1"
\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\10\ 1\13\ 1\1f\ 2\1e\ 1\1c\ 1"
\ 1"
\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\10\ 1\13\ 1\13\ 2!
\ 1\1c\ 1"
\ 1"
\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\10\ 1\13\ 1\10\ 1c
\ 1\0\0\0\ f\0\0\0\r\0\0\0C
\0\0\0sE
\a\0\0t
\0\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0|
\ 1\0j
\ 1\0\83\0\0\ 1|
\ 1\0j
\ 2\0t
\ 3\0d
\ 3\0d
\ 4\0d
\ 2\0g
\ 3\0\83\ 2\0\ 1|
\ 1\0j
\ 4\0t
\ 5\0d#
\0d$
\0d%
\0g
\ 3\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\ 6\0d
\a\0\83\ 1\0D]
\12\0}
\ 2\0|
\ 1\0j
\a\0\83\0\0^
\ 2\0q[
\0}
\ 3\0x-
\0t
\b\0|
\ 3\0\83\ 1\0D]
\1f\0\
\ 2\0}
\ 2\0}
\ 4\0|
\ 4\0j
\0|
\ 2\0d
\ 3\0g
\ 2\0\83\ 1\0\ 1q
\80\0Wt
\0\0j
34528 +
\0|
\ 3\0\83\ 1\0}
\ 3\0t
\0\0d
\b\0d
\ 2\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 1\0\83\0\0\ 1|
\ 5\0j
\ 2\0t
\v\0d
\ 3\0d
\ 4\0d
\ 2\0d
\0g
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\ 4\0t
\ 5\0d&
\0d'
\0d(
\0d)
\0g
\ 4\0\83\ 1\0\83\ 1\0\ 1g
\0\0t
\ 6\0d
34529 +
\0\83\ 1\0D]
\12\0}
\ 2\0|
\ 5\0j
\a\0\83\0\0^
\ 2\0q
\13\ 1}
\ 6\0x1
\0t
\b\0|
\ 6\0\83\ 1\0D]#
\0\
\ 2\0}
\ 2\0}
\ 4\0|
\ 4\0j
\0d
34530 +
\0|
\ 2\0\17d
\ 3\0g
\ 2\0\83\ 1\0\ 1q8
\ 1Wt
\0\0j
34531 +
\0|
\ 6\0\83\ 1\0}
\ 6\0t
\0\0j
34532 +
\0|
\ 3\0|
\ 6\0\83\ 2\0}
\a\0|
\a\0j
\f\0d
\v\0\83\ 1\0\ 1|
\a\0j
\r\0\83\0\0j
\ e\0d
\f\0d
\r\0g
\ 2\0\83\ 1\0\ 1|
\a\0j
\ f\0\83\0\0d
\ 3\0\19}
\b\0t
\10\0\83\0\0}
\0|
\0j
\11\0|
\a\0|
\b\0g
\ 2\0\83\ 1\0\ 1t
\12\0\83\0\0}
34533 +
\0t
\13\0t
\14\0\83\ 1\0}
\v\0t
\ 5\0d
\ e\0\83\ 1\0}
\f\0|
\f\0j
\15\0d
\ f\0\83\ 1\0\ 1|
\v\0j
\16\0|
\f\0\83\ 1\0\ 1|
\v\0j
\f\0d
\10\0\83\ 1\0\ 1t
\17\0d
\ 3\0d
\ 4\0d
\ 2\0d
\0d
\a\0d
34534 +
\0d
\11\0g
\a\0\83\ 1\0}
\r\0|
\r\0j
\f\0d
\12\0\83\ 1\0\ 1|
34535 +
\0j
\18\0|
\v\0|
\0d
\ 3\0|
\r\0\83\ 4\0\ 1t
\12\0\83\0\0}
34536 +
\0t
\13\0t
\14\0\83\ 1\0}
\v\0t
\ 5\0d
\13\0\83\ 1\0}
\f\0|
\f\0j
\15\0d
\ f\0\83\ 1\0\ 1|
\v\0j
\16\0|
\f\0\83\ 1\0\ 1|
\v\0j
\f\0d
\10\0\83\ 1\0\ 1t
\17\0d
\ 3\0d
\ 4\0d
\ 2\0d
\0d
\a\0d
34537 +
\0d
\11\0g
\a\0\83\ 1\0}
\r\0|
\r\0j
\f\0d
\12\0\83\ 1\0\ 1|
\0\0j
\19\0t
\1a\0|
34538 +
\0j
\18\0|
\v\0|
\0d
\ 3\0|
\r\0\83\ 6\0\ 1t
\12\0\83\0\0}
34539 +
\0t
\13\0t
\e\0\83\ 1\0}
\v\0t
\ 5\0d
\ e\0\83\ 1\0}
\f\0|
\f\0j
\15\0d
\ f\0\83\ 1\0\ 1|
\v\0j
\16\0|
\f\0\83\ 1\0\ 1|
\v\0j
\f\0d
\10\0\83\ 1\0\ 1t
\17\0d
\ 4\0d
\ 2\0d
\0d
34540 +
\0d
\11\0d
\ e\0d
\13\0g
\a\0\83\ 1\0}
\r\0|
\r\0j
\f\0d
\12\0\83\ 1\0\ 1|
34541 +
\0j
\18\0|
\v\0|
\0d
\ 3\0|
\r\0\83\ 4\0\ 1|
\0\0j
\1c\0|
34542 +
\0j
\1d\0\83\0\0j
\1e\0|
\f\0d
\14\0\83\ 2\0\83\ 1\0\ 1t
\12\0\83\0\0}
34543 +
\0t
\13\0t
\1f\0\83\ 1\0}
\v\0t
\ 5\0d
\15\0\83\ 1\0}
\f\0|
\f\0j
\15\0d
\ f\0\83\ 1\0\ 1|
\v\0j
\16\0|
\f\0\83\ 1\0\ 1|
\v\0j
\f\0d
\10\0\83\ 1\0\ 1t
\17\0d
\ 4\0d
\ 2\0d
\0d
34544 +
\0d
\11\0d
\ e\0d
\13\0g
\a\0\83\ 1\0}
\r\0|
\r\0j
\f\0d
\12\0\83\ 1\0\ 1|
\v\0j
\0|
\a\0|
\r\0\19\83\ 1\0\ 1|
\v\0j!
\0d
\ 3\0d
\ 4\0g
\ 2\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 6\0d
\ 6\0g
\ 6\0d
\16\0d
\16\0d
\17\0d
\17\0d
\18\0d
\18\0g
\ 6\0d
\16\0d
\19\0d
\18\0g
\ 3\0\83\ 4\0\ 1|
\v\0j!
\0d
\ 2\0g
\ 1\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 6\0d
\ 6\0g
\ 6\0d
\16\0d
\16\0g
\ 2\0d
\ 6\0g
\ 1\0\83\ 4\0\ 1|
\v\0j!
\0d
\0d
\a\0d
34545 +
\0d
\11\0g
\ 4\0d
\ 5\0d
\ 5\0d
\ 6\0d
\ 5\0d
\ 6\0d
\ 6\0d
\ 5\0d
\ 6\0g
\b\0d
\18\0d
\18\0d
\1a\0d
\1a\0d
\16\0d
\16\0d
\e\0d
\e\0d
\1c\0d
\1c\0g
34546 +
\0d
\1a\0d
\16\0d
\e\0d
\1d\0d
\1e\0g
\ 5\0\83\ 4\0\ 1|
\v\0j
\0d
\0\0\83\ 1\0\ 1|
34547 +
\0j
\18\0|
\v\0|
\0d
\ 3\0|
\r\0\83\ 4\0\ 1|
\0\0j
\1c\0|
34548 +
\0j
\1d\0\83\0\0j
\1e\0|
\f\0d
\14\0\83\ 2\0\83\ 1\0\ 1t
\ 5\0d
\1f\0\83\ 1\0}
\f\0|
\f\0j
\15\0d
\0\83\ 1\0\ 1|
\v\0j
\16\0|
\f\0\83\ 1\0\ 1|
\0\0j
\19\0t
\1a\0|
34549 +
\0j
\18\0|
\v\0|
\0d
\ 3\0|
\r\0\83\ 6\0\ 1t
\ 5\0d
\15\0\83\ 1\0}
\f\0|
\f\0j
\15\0d
\ f\0\83\ 1\0\ 1|
\0\0j
\1c\0|
34550 +
\0j
\1d\0\83\0\0j
\1e\0|
\f\0d
\14\0\83\ 2\0\83\ 1\0\ 1t
\12\0\83\0\0}
34551 +
\0t
\13\0t#
\0\83\ 1\0}
\v\0t
\ 5\0d!
\0\83\ 1\0}
\f\0|
\f\0j
\15\0d
\ f\0\83\ 1\0\ 1|
\v\0j
\16\0|
\f\0\83\ 1\0\ 1|
\v\0j
\f\0d
\10\0\83\ 1\0\ 1t
\17\0d
\ 4\0d
\ 2\0d
\0d
34552 +
\0d
\11\0d
\ e\0d
\13\0g
\a\0\83\ 1\0}
\r\0|
\r\0j
\f\0d
\12\0\83\ 1\0\ 1|
34553 +
\0j
\18\0|
\v\0|
\0d
\ 3\0|
\r\0\83\ 4\0\ 1|
\0\0j
\1c\0|
34554 +
\0j
\1d\0\83\0\0j
\1e\0|
\f\0d
\14\0\83\ 2\0\83\ 1\0\ 1t
\ 5\0d
\1f\0\83\ 1\0}
\ e\0|
\ e\0j
\15\0d"
\0\83\ 1\0\ 1|
\v\0j
\16\0|
\ e\0\83\ 1\0\ 1|
\0\0j
\19\0t
\1a\0|
34555 +
\0j
\18\0|
\v\0|
\0d
\ 3\0|
\r\0\83\ 6\0\ 1|
\0\0j
\1c\0|
34556 +
\0j
\1d\0\83\0\0j
\1e\0|
\f\0d
\14\0\83\ 2\0\83\ 1\0\ 1t
\12\0\83\0\0}
34557 +
\0|
\0\0j
\19\0t
\1a\0|
34558 +
\0j
\18\0|
\v\0|
\0d
\ 3\0|
\r\0\83\ 6\0\ 1|
\0\0j
\19\0t
\1a\0|
34559 +
\0j
\18\0|
\v\0|
\0d
\ 3\0|
\r\0\83\ 6\0\ 1|
\v\0j
\16\0|
\f\0\83\ 1\0\ 1|
34560 +
\0j
\18\0|
\v\0|
\0d
\ 3\0|
\r\0\83\ 4\0\ 1d
\0\0S(*
\0\0\0NR=
\ 3\0\0i
\ 2\0\0\0i
\0\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0R>
\ 3\0\0i
\ 3\0\0\0i
\ 5\0\0\0R
\ 2\0\0s
\ 6\0\0\0XX [m]s
\b\0\0\0YYY [km]i
\a\0\0\0iè
\ 3\0\0t
\0\0\0anonymousi
\ 6\0\0\0R
\83\ 1\0\0i
\b\0\0\0g»½×Ùß|Û=i
\e\0\0\0g333333Ó?gffffffæ?g
\9a\99\99\99\99\99¹?g333333ã?g
\9a\99\99\99\99\99É?g
\9a\99\99\99\99\99Ù?g
\0\0\0\0\0\0à?gìQ¸
\1e\85ë±?g¸
\1e\85ëQ¸
\9e?i
\1a\0\0\0i
\10\ 4\0\0i
\19\0\0\0i
\1a\ 4\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0ð?(
\ 2\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0($
\0\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0Rc
\0\0\0RY
\0\0\0Rn
\0\0\0Rq
\0\0\0Rõ
\0\0\0Rº
\ 1\0\0R[
\ 2\0\0R`
\0\0\0RB
\0\0\0RØ
\0\0\0RÃ
\ 1\0\0R
\9b\ 1\0\0R>
\0\0\0RR
\ 1\0\0Rà
\0\0\0Rw
\ 1\0\0R
\1c\ 1\0\0Ry
\ 1\0\0R{
\ 1\0\0Rk
\0\0\0R|
\ 1\0\0R)
\0\0\0R*
\0\0\0R
\13\ 1\0\0R0
\0\0\0R+
\ 1\0\0R1
\0\0\0R
\a\ 1\0\0R³
\0\0\0R\
\ 2\0\0R/
\ 2\0\0R
\ f\ 1\0\0(
\ f\0\0\0R
\0\0\0R=
\ 3\0\0Rî
\0\0\0RH
\ 3\0\0Rü
\0\0\0R>
\ 3\0\0RI
\ 3\0\0R
\83\0\0\0R
\84\0\0\0R
\86\0\0\0Rú
\0\0\0R
\b\0\0\0R
\82\ 1\0\0R
\83\ 1\0\0t
\ 5\0\0\0vals2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testCheckCompatibilityPfl1
\92\r\0\0sº
\0\0\0\0\ 2\ f\ 1
34561 +
\0\19\ 1\1c\ 1%
\ 1\19\0\17\ 1\ f\ 1\ f\ 1
34562 +
\0\1c\ 1\1f\ 1%
\ 1\19\0\e\ 1\ f\ 1\12\ 1\r\0\19\ 1\10\ 1 \0\13\ 2 \ 1\f\ 1\f\0\r\ 1\r\ 1\r\ 1!
\0\r\ 1\16\ 2 \ 1\f\ 1\f\0\r\ 1\r\ 1\r\ 1!
\0\r\ 1\1f\ 2 \ 1\f\ 1\f\0\r\ 1\r\ 1\r\ 1!
\0\r\ 1\16\ 1\1f\ 2 \ 1\f\ 1\f\0\r\ 1\r\ 1\r\ 1!
\0\r\ 1\11\ 1I
\ 14
\ 1g
\ 1\r\ 1\16\ 1\1f\ 1\f\0\r\0\r\ 1\1f\ 1\f\0\r\ 1\1f\ 2 \ 1\f\ 1\f\0\r\ 1\r\ 1\r\ 1!
\0\r\ 1\16\ 1\1f\ 1\f\0\r\ 1\r\ 1\1f\ 1\1f\ 2 \ 1\1f\ 1\1f\ 1\r\ 1\16\ 1c
\ 1\0\0\0\a\0\0\0\14\0\0\0C
\0\0\0s
\1a\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\ 3\0|
\ 3\0j
\ 3\0|
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0\83\0\0}
\ 4\0t
\ 5\0d
\ 3\0d
\ 4\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 3\0|
\ 4\0j
\ 6\0\83\0\0\83\ 1\0\ 1|
\ 5\0j
\a\0d
\ 5\0\83\ 1\0\ 1t
\b\0\83\0\0}
\ 6\0|
\ 6\0j
\0d
\ 5\0|
\ 5\0\83\ 2\0\ 1|
\ 6\0j
34563 +
\0d
\ 4\0t
\v\0t
\f\0t
\r\0d
\ 6\0d
\a\0\83\ 2\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\ 6\0j
\ e\0d
\ 4\0t
\v\0d
\b\0d
\b\0d
\b\0d
\b\0d
\b\0d
\0d
\0d
\0d
\0d
\0d
\0d
\ 5\0d
\b\0d
34566 +
\0g
\10\0\83\ 1\0\83\ 2\0\ 1|
\ 6\0j
\ f\0|
\ 1\0d
\v\0\83\ 2\0\ 1~
\ 6\0~
\ 2\0~
\ 3\0~
\ 4\0~
\ 5\0t
\10\0j
\11\0|
\ 1\0\83\ 1\0}
\ 6\0|
\0\0j
\12\0d
\ e\0|
\ 6\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\14\0|
\ 6\0j
\ 6\0\83\0\0j
\15\0t
\0\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0g
\10\0\83\ 1\0d
\r\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\14\0|
\ 6\0j
\16\0d
\ 4\0\83\ 1\0j
\15\0t
\v\0t
\f\0t
\r\0d
\ 6\0d
\a\0\83\ 2\0\83\ 1\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\14\0|
\ 6\0j
\17\0d
\ 4\0\83\ 1\0j
\15\0t
\v\0d
\b\0d
\b\0d
\b\0d
\b\0d
\b\0d
\0d
\0d
\0d
\0d
\0d
\0d
\ 5\0d
\b\0d
34569 +
\0g
\10\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1d
\0\0S(
\1f\0\0\0Ns
\f\0\0\0Pyfile71.medi
\ 4\0\0\0R
\ 2\0\0i
\ 1\0\0\0i
\0\0\0\0i
34570 +
\0\0\0i
\1a\0\0\0iÿÿÿÿiþÿÿÿiýÿÿÿi
\ 2\0\0\0i
\ 3\0\0\0g
\11ê-
\81\99\97q=(
\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 2\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 2\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 3\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0(
\ 2\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 3\0\0\0(
\18\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0R[
\0\0\0RØ
\0\0\0R]
\0\0\0R>
\0\0\0Rj
\0\0\0R
\98\0\0\0Rk
\0\0\0Rm
\0\0\0Rn
\0\0\0R¶
\0\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0R+
\0\0\0R,
\0\0\0R0
\0\0\0R1
\0\0\0R
\8c\ 2\0\0R
\9e\0\0\0(
\a\0\0\0R
\0\0\0R9
\ 1\0\0R©
\ 2\0\0R
\80\0\0\0Rá
\0\0\0R{
\ 2\0\0R
\83\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\15\0\0\0testWRMeshWithNoCellsä
\r\0\0s*
\0\0\0\0\ 1\ 6\ 1\f\0
34571 +
\ 1 \0\10\0\f\ 1\ f\0\13\0\r\ 1 \ 1\10\ 1%
\ 1F
\ 1\10\ 1\ f\ 2\ f\ 1\16\ 1U
\ 14
\ 1U
\ 1c
\ 1\0\0\0\14\0\0\0
34572 +
\0\0\0C
\0\0\0sÔ
\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0t
\ 1\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 2\0\83\0\0\ 1|
\ 2\0j
\ 3\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 4\0\83\ 1\0\ 1|
\ 2\0j
\ 4\0t
\ 5\0d
\a\0d
\a\0d
\b\0d
\b\0d
\b\0d
\a\0d
\a\0d
\b\0g
\b\0d
\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1g
\0\0t
\ 6\0d
\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 2\0j
\a\0\83\0\0^
\ 2\0qv
\0}
\ 4\0x7
\0t
\b\0|
\ 4\0\83\ 1\0D])
\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\0t
34574 +
\0\14d
\a\0g
\ 2\0\83\ 1\0\ 1q
\9b\0Wt
\0\0j
\v\0|
\ 4\0\83\ 1\0j
\f\0\83\0\0}
\ 6\0|
\ 6\0j
\r\0\83\0\0\ 1g
\0\0t
\ 6\0d
\v\0\83\ 1\0D]
\12\0}
\ 3\0|
\ 2\0j
\a\0\83\0\0^
\ 2\0qô
\0}
\ 4\0x7
\0t
\b\0|
\ 4\0\83\ 1\0D])
\0\
\ 2\0}
\ 3\0}
\ 5\0|
\ 5\0j
\0t
34577 +
\0g
\ 2\0\83\ 1\0\ 1q
\19\ 1Wt
\0\0j
\v\0|
\ 4\0\83\ 1\0j
\f\0\83\0\0}
\a\0|
\a\0j
\r\0\83\0\0\ 1|
\a\0j
\ e\0\83\0\0\ 1t
\ f\0j
\10\0|
\ 6\0|
\a\0\83\ 2\0}
\ 2\0t
\11\0\83\0\0}
\b\0|
\b\0j
\12\0d
\ 3\0|
\ 2\0\83\ 2\0\ 1t
\13\0d
\ 3\0d
\ 4\0d
\ 6\0g
\ 3\0\83\ 1\0}
\0|
\0j
\14\0d
\f\0\83\ 1\0\ 1t
\13\0d
\0d
\r\0d
\ e\0g
\ 3\0\83\ 1\0}
34579 +
\0j
\14\0d
\ f\0\83\ 1\0\ 1t
\13\0d
\ 3\0d
\ 5\0d
\ 4\0d
\0d
\v\0d
\r\0g
\ 6\0\83\ 1\0}
\v\0|
\v\0j
\14\0d
\10\0\83\ 1\0\ 1|
\b\0j
\15\0d
\ 3\0|
\0|
34580 +
\0|
\v\0g
\ 3\0\83\ 2\0\ 1|
\b\0j
\16\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1~
\b\0t
\11\0|
\ 1\0\83\ 1\0}
\f\0|
\0\0j
\17\0|
\f\0j
\18\0d
\ 3\0d
\f\0\83\ 2\0j
\19\0|
\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\17\0|
\f\0j
\18\0d
\ 3\0d
\ f\0\83\ 2\0j
\19\0|
34581 +
\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\17\0|
\f\0j
\18\0d
\ 3\0d
\10\0\83\ 2\0j
\19\0|
\v\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\17\0|
\f\0j
\1a\0d
\ 3\0\83\ 1\0j
\19\0|
\ 2\0d
\11\0\83\ 2\0\83\ 1\0\ 1t
\e\0t
\1c\0\83\ 1\0}
\r\0|
\r\0j
\14\0d
\12\0\83\ 1\0\ 1|
\r\0j
\1d\0|
\ 2\0\83\ 1\0\ 1t
\ 5\0d
\13\0\83\ 1\0}
\ e\0|
\ e\0j
\1e\0\83\0\0\ 1t
\ 5\0d
\13\0\83\ 1\0}
\ f\0|
\ f\0j
\1e\0d
\14\0\83\ 1\0\ 1t
\ 5\0j
\1f\0|
\ e\0|
\ f\0\83\ 2\0}
\10\0|
\10\0j
\0d
\15\0d
\16\0g
\ 2\0\83\ 1\0\ 1|
\r\0j!
\0|
\10\0\83\ 1\0\ 1|
\r\0j"
\0\83\0\0\ 1|
\r\0j#
\0d
\17\0d
\ 5\0d
\ 4\0\83\ 3\0\ 1t$
\0\83\0\0}
\11\0|
\11\0j%
\0|
\r\0\83\ 1\0\ 1|
\11\0j
\16\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t$
\0|
\ 1\0\83\ 1\0}
\12\0|
\12\0j&
\0t
\1c\0d
\ 3\0|
\f\0\83\ 3\0}
\13\0|
\0\0j
\17\0|
\13\0j
\19\0|
\r\0d
\11\0d
\11\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\18\0\0\0Ns
\f\0\0\0Pyfile72.medR
\ 2\0\0i
\0\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0g
\0\0\0\0\0\0ø?i
\ 5\0\0\0R
\93\ 2\0\0i
\ 6\0\0\0i
\a\0\0\0R
\95\ 2\0\0Rè
\ 1\0\0g
\11ê-
\81\99\97q=t
\f\0\0\0MyFirstFieldi
\0\0\0id
\0\0\0s
\a\0\0\0mm [kg]s
\a\0\0\0sds [m]gffffff
\16@('
\0\0\0Rz
\0\0\0R`
\0\0\0R]
\0\0\0R^
\0\0\0Rc
\0\0\0RY
\0\0\0Rn
\0\0\0Rq
\0\0\0Rõ
\0\0\0Rº
\ 1\0\0RD
\ 3\0\0t
\10\0\0\0Merge1SGTUMeshesRâ
\ 1\0\0t
\10\0\0\0convertAllToPolyt
\1d\0\0\0convertLinearCellsToQuadraticR[
\0\0\0R[
\ 2\0\0R>
\0\0\0Rj
\0\0\0Rk
\0\0\0RB
\0\0\0Rl
\0\0\0R
\v\0\0\0R0
\0\0\0RG
\0\0\0R1
\0\0\0R}
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0R³
\0\0\0Ry
\ 1\0\0t
\ 4\0\0\0MeldRÃ
\ 1\0\0R{
\ 1\0\0Rd
\0\0\0R°
\0\0\0Rà
\0\0\0R%
\ 1\0\0R
\97\ 1\0\0(
\14\0\0\0R
\0\0\0R9
\ 1\0\0R
\83\0\0\0Rî
\0\0\0R
\0\0\0Rü
\0\0\0Rá
\0\0\0R
\84\0\0\0R
\86\0\0\0R
\93\ 2\0\0R
\95\ 2\0\0Rè
\ 1\0\0t
\a\0\0\0mm_readR
\b\0\0\0R
\17\ 3\0\0Rz
\ 2\0\0RÔ
\ 1\0\0Rñ
\0\0\0t
\a\0\0\0ff_readt
\ 6\0\0\0f_read(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testWRQPolyg1÷
\r\0\0sl
\0\0\0\0\ 1\ 6\ 1\ f\0
34582 +
\ 1\19\ 11
\ 2%
\ 1\19\ 1\1d\ 1\ 4\ 1\15\ 1
34583 +
\ 2%
\ 1\19\ 1\1d\ 1\ 4\ 1\15\ 1
34585 +
\ 2\12\ 2 \ 1\10\ 1\15\0\r\ 1\15\0\r\ 1\1e\0\r\ 1\19\ 2\10\ 1\ 3\ 2\f\ 1"
\ 1"
\ 1"
\ 1"
\ 2\f\0\r\ 1\r\ 1\f\0
34586 +
\ 1\f\0\r\ 1\12\0\13\ 1\r\0
34587 +
\ 1\13\ 1 \ 1\r\ 1\10\ 2\f\ 1\15\ 1\1c\ 1c
\ 1\0\0\0\f\0\0\0 \0\0\0C
\0\0\0sï
\ 3\0\0d
\ 1\0}
\ 1\0t
\0\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0g
\ 6\0\83\ 1\0}
\ 2\0t
\ 1\0d
\ 5\0d
\ 3\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 2\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0\83\0\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 2\0d
\ 6\0d
\a\0d
\ 3\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\b\0d
\ 3\0d
\a\0d
\ 4\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 6\0\83\0\0\ 1t
\a\0\83\0\0}
\ 4\0|
\ 4\0j
\b\0d
\ 2\0|
\ 3\0\83\ 2\0\ 1t
\0\83\0\0}
\ 5\0|
\ 5\0j
34588 +
\0|
\ 4\0\83\ 1\0\ 1t
\v\0\83\0\0}
\ 6\0d
\b\0d
\12\0g
\ 1\0\14}
\a\0t
\r\0\83\0\0}
\b\0|
\ 6\0j
\ e\0|
\b\0\83\ 1\0\ 1t
\ f\0t
\10\0\83\ 1\0}
\0|
\0j
\11\0|
\ 3\0\83\ 1\0\ 1|
\0j
\12\0d
\0\83\ 1\0\ 1|
\0j
\13\0d
34589 +
\0d
\ 4\0d
\ 4\0\83\ 3\0\ 1|
\0j
\14\0d
\v\0\83\ 1\0\ 1t
\0\0d
\f\0d
\ 6\0d
\a\0d
\ 4\0d
\ 6\0d
\a\0d
\ 4\0d
\f\0g
\b\0\83\ 1\0|
\a\0d
\ 2\0<|
\a\0d
\ 2\0\19j
\15\0d
\ 2\0d
\r\0\83\ 2\0\ 1|
\0j
\16\0|
\a\0d
\ 2\0\19\83\ 1\0\ 1|
\b\0j
\17\0|
\0\83\ 1\0\ 1|
\0j
\13\0d
\ e\0d
\ 3\0d
\ 4\0\83\ 3\0\ 1t
\0\0d
\ 4\0d
\f\0d
\ 6\0d
\a\0d
\f\0d
\ 6\0d
\a\0d
\ 4\0g
\b\0\83\ 1\0|
\a\0d
\ 4\0<|
\a\0d
\ 4\0\19j
\15\0d
\ 2\0d
\r\0\83\ 2\0\ 1|
\0j
\16\0|
\a\0d
\ 4\0\19\83\ 1\0\ 1|
\b\0j
\17\0|
\0\83\ 1\0\ 1|
\0j
\13\0d
\ f\0d
\a\0d
\ 4\0\83\ 3\0\ 1t
\0\0d
\a\0d
\ 4\0d
\f\0d
\ 6\0d
\ 4\0d
\f\0d
\ 6\0d
\a\0g
\b\0\83\ 1\0|
\a\0d
\ 3\0<|
\a\0d
\ 3\0\19j
\15\0d
\ 2\0d
\r\0\83\ 2\0\ 1|
\0j
\16\0|
\a\0d
\ 3\0\19\83\ 1\0\ 1|
\b\0j
\17\0|
\0\83\ 1\0\ 1|
\0j
\13\0d
\10\0d
\b\0d
\ 4\0\83\ 3\0\ 1t
\0\0d
\ 6\0d
\a\0d
\ 4\0d
\f\0d
\a\0d
\ 4\0d
\f\0d
\ 6\0g
\b\0\83\ 1\0|
\a\0d
\a\0<|
\a\0d
\a\0\19j
\15\0d
\ 2\0d
\r\0\83\ 2\0\ 1|
\0j
\16\0|
\a\0d
\a\0\19\83\ 1\0\ 1|
\b\0j
\17\0|
\0\83\ 1\0\ 1xz
\0t
\18\0|
\a\0\83\ 1\0D]l
\0\
\ 2\0}
34590 +
\0}
\v\0|
\0\0j
\19\0|
\ 6\0d
\ 2\0\19|
34591 +
\0\19j
\1a\0\83\0\0j
\e\0|
\v\0d
\11\0\83\ 2\0\83\ 1\0\ 1|
\ 6\0d
\ 2\0\19|
34592 +
\0\19j
\1c\0\83\0\0\ 1|
\0\0j
\19\0|
\ 6\0d
\ 2\0\19|
34593 +
\0\19j
\1a\0\83\0\0j
\e\0|
\v\0d
\11\0\83\ 2\0\83\ 1\0\ 1qÛ
\ 2W|
\ 6\0j
\1c\0\83\0\0\ 1xA
\0t
\18\0|
\a\0\83\ 1\0D]3
\0\
\ 2\0}
34594 +
\0}
\v\0|
\0\0j
\19\0|
\ 6\0d
\ 2\0\19|
34595 +
\0\19j
\1a\0\83\0\0j
\e\0|
\v\0d
\11\0\83\ 2\0\83\ 1\0\ 1qb
\ 3W|
\ 6\0d
\ 2\0\19j
\1c\0\83\0\0\ 1xA
\0t
\18\0|
\a\0\83\ 1\0D]3
\0\
\ 2\0}
34596 +
\0}
\v\0|
\0\0j
\19\0|
\ 6\0d
\ 2\0\19|
34597 +
\0\19j
\1a\0\83\0\0j
\e\0|
\v\0d
\11\0\83\ 2\0\83\ 1\0\ 1q´
\ 3Wd
\12\0S(
\19\0\0\0s
\99\0\0\0
34598 + This test checks that a call to loadArraysIfNecessary works (does nothing) on field data structure whatever its level 1TS, MTS, Fields.
34599 + s
\f\0\0\0Pyfile77.medi
\0\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0R
\ 2\0\0i
\ 5\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0R
\0\0\0g
\9a\99\99\99\99\99ñ?t
\v\0\0\0myELNOFieldi
\a\0\0\0t
\ 5\0\0\0Comp0g
\9a\99\99\99\99\99\ 1@gffffff
34600 +@g
\9a\99\99\99\99\99\11@g
\11ê-
\81\99\97q=N(
\ 3\0\0\0i
\0\0\0\0i
\0\0\0\0i
\0\0\0\0(
\ 3\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0i
\0\0\0\0(
\ 3\0\0\0i
\ 1\0\0\0i
\0\0\0\0i
\0\0\0\0(
\ 3\0\0\0i
\ 1\0\0\0i
\ 1\0\0\0i
\0\0\0\0(
\ 3\0\0\0i
\ 2\0\0\0i
\0\0\0\0i
\0\0\0\0(
\ 3\0\0\0i
\0\0\0\0i
\ 1\0\0\0i
\0\0\0\0(
\1d\0\0\0RY
\0\0\0R[
\0\0\0Rc
\0\0\0R]
\0\0\0R^
\0\0\0R`
\0\0\0Rb
\0\0\0R>
\0\0\0Rj
\0\0\0RP
\ 1\0\0R7
\ 2\0\0R[
\ 1\0\0R/
\ 2\0\0Rô
\0\0\0R\
\ 1\0\0Rw
\ 1\0\0R
\ f\ 1\0\0R³
\0\0\0Rµ
\0\0\0R°
\0\0\0RB
\0\0\0R
\97\0\0\0R{
\ 1\0\0RY
\ 1\0\0Rõ
\0\0\0R0
\0\0\0R+
\ 1\0\0R1
\0\0\0Rw
\ 3\0\0(
\f\0\0\0R
\0\0\0R9
\ 1\0\0R
\81\0\0\0R
\83\0\0\0R
\86\0\0\0R
\0\0\0Rl
\ 1\0\0t
\ 4\0\0\0arrsRB
\ 2\0\0Rä
\0\0\0Rî
\0\0\0RÔ
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt'
\0\0\0testLoadIfNecessaryOnFromScratchFields0.
\ e\0\0sl
\0\0\0\0\ 4\ 6\ 1\1e\ 1\ f\0\r\ 1
34602 +
\ 2 \0\10\ 1 \0\r\ 1 \ 1\r\ 2 \0\r\ 1\f\0\r\0\r\ 1\13\ 1\r\ 1(
\0\14\ 1\11\ 1\r\ 2\13\ 1(
\0\14\ 1\11\ 1\r\ 2\13\ 1(
\0\14\ 1\11\ 1\r\ 2\13\ 1(
\0\14\ 1\11\ 1\r\ 2\19\ 1'
\ 1\12\ 1'
\ 1\ 4\ 1
34603 +
\ 1\19\ 1'
\ 1\ 4\ 1\ e\ 1\19\ 1'
\ 1\ 4\ 1c
\ 1\0\0\0\11\0\0\0\1c\0\0\0C
\0\0\0sQ
\ 6\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 2\0d
\ 3\0d
\ 5\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 3\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ 2\0d
\ 5\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0d
\ 5\0d
\ 5\0d
\ 3\0g
\e\0d
\ 6\0d
\a\0\83\ 3\0}
\ 2\0d
\b\0d
\a\0d
\0d
34605 +
\0d
\0d
\v\0d
\0d
\f\0d
\v\0d
\r\0d
\ e\0d
\0d
\a\0d
\ e\0d
\ f\0d
\f\0d
\0g
\12\0}
\ 3\0t
\ 1\0d
\10\0d
\a\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 2\0|
\ 2\0\83\ 1\0\ 1|
\ 4\0j
\ 3\0\83\0\0\ 1xx
\0d
\b\0d
34606 +
\0d
\v\0d
\a\0g
\ 4\0d
34607 +
\0d
\v\0d
\a\0d
\0g
\ 4\0d
\v\0d
\a\0d
\0d
\f\0g
\ 4\0d
\a\0d
\0d
\f\0d
\r\0g
\ 4\0d
\0d
\f\0d
\r\0d
\ e\0g
\ 4\0d
\f\0d
\r\0d
\ e\0d
\ f\0g
\ 4\0g
\ 6\0D]
\16\0}
\ 5\0|
\ 4\0j
\ 4\0t
\ 5\0|
\ 5\0\83\ 2\0\ 1q,
\ 1Wxx
\0d
\b\0d
34608 +
\0d
\v\0d
\a\0d
\0g
\ 5\0d
34609 +
\0d
\v\0d
\a\0d
\0d
\f\0g
\ 5\0d
\v\0d
\a\0d
\0d
\f\0d
\r\0g
\ 5\0d
\a\0d
\0d
\f\0d
\r\0d
\ e\0g
\ 5\0d
\0d
\f\0d
\r\0d
\ e\0d
\ f\0g
\ 5\0g
\ 5\0D]
\16\0}
\ 5\0|
\ 4\0j
\ 4\0t
\ 6\0|
\ 5\0\83\ 2\0\ 1q§
\ 1Wxr
\0d
\b\0d
34610 +
\0d
\v\0d
\a\0d
\0d
\f\0g
\ 6\0d
34611 +
\0d
\v\0d
\a\0d
\0d
\f\0d
\r\0g
\ 6\0d
\v\0d
\a\0d
\0d
\f\0d
\r\0d
\ e\0g
\ 6\0d
\a\0d
\0d
\f\0d
\r\0d
\ e\0d
\ f\0g
\ 6\0g
\ 4\0D]
\16\0}
\ 5\0|
\ 4\0j
\ 4\0t
\a\0|
\ 5\0\83\ 2\0\ 1q
\1c\ 2W|
\ 4\0j
\b\0\83\0\0\ 1t
\ 1\0\83\0\0}
\ 6\0|
\ 6\0j
\0d
\10\0\83\ 1\0\ 1|
\ 6\0j
34612 +
\0d
\v\0\83\ 1\0\ 1|
\ 6\0j
\ 3\0d
\f\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0t
\v\0d
\a\0|
\ 3\0d
\0d
\ e\0!
\83\ 3\0\ 1|
\ 6\0j
\ 4\0t
\v\0d
\a\0|
\ 3\0d
\ e\0d
\11\0!
\83\ 3\0\ 1|
\ 6\0j
\ 4\0t
\f\0d
\0|
\ 3\0d
\b\0d
\0!
\83\ 3\0\ 1|
\ 6\0j
\ 4\0t
\f\0d
\0|
\ 3\0d
\11\0d
\12\0!
\83\ 3\0\ 1|
\ 6\0j
\ 4\0t
\f\0d
\0|
\ 3\0d
\12\0d
\13\0!
\83\ 3\0\ 1|
\ 6\0j
\ 2\0|
\ 2\0\83\ 1\0\ 1t
\ 1\0d
\10\0d
\b\0\83\ 2\0}
\a\0|
\a\0j
\ 2\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\ 3\0\83\0\0\ 1|
\a\0j
\ 4\0t
\r\0d
\v\0g
\ 1\0\83\ 2\0\ 1|
\a\0j
\ 4\0t
\r\0d
\a\0g
\ 1\0\83\ 2\0\ 1|
\a\0j
\ 4\0t
\r\0d
\0g
\ 1\0\83\ 2\0\ 1|
\a\0j
\ 4\0t
\r\0d
\f\0g
\ 1\0\83\ 2\0\ 1t
\ e\0\83\0\0}
\b\0|
\b\0j
\ f\0d
\b\0|
\ 4\0\83\ 2\0\ 1|
\b\0j
\ f\0d
\14\0|
\ 6\0\83\ 2\0\ 1|
\b\0j
\ f\0d
\15\0|
\a\0\83\ 2\0\ 1|
\b\0j
\10\0|
\ 1\0d
\v\0\83\ 2\0\ 1t
\11\0j
\12\0|
\ 1\0\83\ 1\0}
\b\0t
\13\0\83\0\0}
\0t
\14\0\83\0\0}
34613 +
\0t
\15\0\83\0\0}
\v\0x
\99\0|
\b\0j
\16\0\83\0\0D]
\8b\0}
\f\0x
\82\0|
\b\0j
\17\0|
\f\0\83\ 1\0D]q
\0}
\r\0|
\b\0j
\18\0|
\r\0\83\ 1\0}
\ e\0t
\19\0t
\1a\0\83\ 1\0}
\ f\0|
\ f\0j
\e\0|
\ e\0\83\ 1\0\ 1t
\0\0|
\ f\0j
\1c\0\83\0\0\83\ 1\0}
\10\0|
\10\0j
\1d\0\83\0\0\ 1|
\ f\0j
\1e\0|
\10\0\83\ 1\0\ 1|
\ f\0j
\0d
\16\0\83\ 1\0\ 1|
\v\0j
\1f\0|
\ f\0\83\ 1\0\ 1q
\a\ 4Wqñ
\ 3W|
\0\0j
\0|
\b\0j
\16\0\83\0\0d
\1e\0\83\ 2\0\ 1x$
\0d
\b\0d
\14\0d
\15\0g
\ 3\0D]
\13\0}
\f\0|
\b\0j!
\0|
\f\0\83\ 1\0\ 1q¦
\ 4W|
34614 +
\0j"
\0|
\v\0\83\ 1\0\ 1|
\0j#
\0|
34615 +
\0\83\ 1\0\ 1|
\0j
\10\0|
\ 1\0d
\b\0\83\ 2\0\ 1~
\0~
34616 +
\0~
\v\0t
\13\0|
\ 1\0\83\ 1\0}
\0|
\0\0j
\0t$
\0|
\0\83\ 1\0d
34617 +
\0\83\ 2\0\ 1|
\0\0j
\0t$
\0|
\0d
\b\0\19\83\ 1\0d
34618 +
\0\83\ 2\0\ 1|
\0d
\b\0\19d
\b\0\19}
\v\0|
\0\0j
\0|
\v\0j%
\0\83\0\0d
\b\0d
\b\0d
\1f\0d
\17\0d
\17\0f
\ 4\0g
\ 1\0f
\ 2\0d
\a\0d
\b\0d
\0d
\17\0d
\17\0f
\ 4\0g
\ 1\0f
\ 2\0d
\0d
\b\0d!
\0d
\17\0d
\17\0f
\ 4\0g
\ 1\0f
\ 2\0d
\12\0d
\b\0d"
\0d
\17\0d
\17\0f
\ 4\0g
\ 1\0f
\ 2\0d
\18\0d
\b\0d#
\0d
\17\0d
\17\0f
\ 4\0g
\ 1\0f
\ 2\0d
\1a\0d
\b\0d$
\0d
\17\0d
\17\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 6\0\83\ 2\0\ 1|
\0\0j&
\0|
\v\0j'
\0\83\0\0j(
\0t
\0\0d
\b\0d
34619 +
\0d
\v\0d
\a\0d
\b\0d
34622 +
\0d
\v\0d
\a\0d
\0d
\f\0d
\b\0d
34623 +
\0d
\v\0d
\a\0d
\0d
\b\0d
34624 +
\0d
\v\0d
\a\0g
\18\0\83\ 1\0d
\1c\0\83\ 2\0\83\ 1\0\ 1d
\1d\0S(%
\0\0\0s¡
\0\0\0 This test is very important, because the same mechanism is used by the MEDReader to generate a field on all the mesh without any processing and memory.
34625 + s
\f\0\0\0Pyfile78.medg333333Ó¿g
\0\0\0\0\0\0\0\0g
\9a\99\99\99\99\99É?gffffffæ?i
\0\0\0i
\ 3\0\0\0i
\0\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0R
\ 2\0\0i
34626 +
\0\0\0i
\ e\0\0\0i
\12\0\0\0iÿÿÿÿiýÿÿÿRä
\0\0\0R&
\0\0\0i
\ f\0\0\0i
\14\0\0\0i
\10\0\0\0i
\18\0\0\0g
\11ê-
\81\99\97q=N(
\ 3\0\0\0i
\0\0\0\0iÿÿÿÿiýÿÿÿ(
\ 2\0\0\0i
\0\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0(
\ 2\0\0\0i
\ 6\0\0\0i
\0\0\0(
\ 2\0\0\0i
\0\0\0i
\ f\0\0\0(
\ 2\0\0\0i
\ f\0\0\0i
\14\0\0\0(
\ 2\0\0\0i
\14\0\0\0i
\18\0\0\0()
\0\0\0RY
\0\0\0R[
\0\0\0Rc
\0\0\0R]
\0\0\0R^
\0\0\0t
\v\0\0\0NORM_TETRA4t
34627 +
\0\0\0NORM_PYRA5t
\v\0\0\0NORM_PENTA6R
\0\ 2\0\0RB
\0\0\0R\
\0\0\0R_
\0\0\0R`
\0\0\0Rg
\0\0\0R>
\0\0\0Rj
\0\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0R[
\ 1\0\0Rô
\0\0\0Rà
\0\0\0R,
\0\0\0Rr
\0\0\0Rs
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0R³
\0\0\0t
\19\0\0\0getNumberOfTuplesExpectedRy
\ 1\0\0R{
\ 1\0\0R%
\ 1\0\0R+
\0\0\0Rx
\0\0\0RE
\ 3\0\0R\
\ 1\0\0Ry
\0\0\0RÄ
\ 1\0\0R0
\0\0\0R+
\ 1\0\0R1
\0\0\0(
\11\0\0\0R
\0\0\0R9
\ 1\0\0R
\81\0\0\0R
\82\0\0\0Rá
\0\0\0Rü
\0\0\0R
\84\0\0\0R
\16\ 2\0\0R
\86\0\0\0Rl
\ 1\0\0Rm
\ 1\0\0Rú
\0\0\0R¥
\0\0\0t
\ 2\0\0\0gtt
\ 2\0\0\0p0R
\b\0\0\0RÔ
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt+
\0\0\0testField1TSSetFieldNoProfileSBTPerGeoTypese
\ e\0\0s
\8a\0\0\0\0\ 3\ 6\ 1c
\ 1<
\ 1\ f\0\r\ 1
34628 +
\ 1g
\ 1\10\ 1\ 4\ 1g
\ 1\10\ 1\ 4\ 1a
\ 1\10\ 1\ 4\ 1
34629 +
\ 1 \0\r\ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\r\ 1\ f\0\r\ 1
34630 +
\ 1\13\ 1\13\ 1\13\ 1\13\ 2 \ 1\10\ 1\10\ 1\10\ 1\10\ 2\ f\ 1 \ 1 \ 1 \ 1\13\ 1\16\ 1\ f\ 1\f\0\r\ 1\12\0
34631 +
\ 1\r\0\r\ 1\r\ 1\ 4\ 1\ 4\ 1\16\ 1\16\ 1\r\ 1\ 4\ 1\r\ 1\r\ 1\10\ 1 \ 2\f\ 1\16\ 1\1a\ 1\ e\ 1¦
\ 1m
\ 1c
\ 1\0\0\0\a\0\0\0\1c\0\0\0C
\0\0\0sú
\ 2\0\0d
\ 1\0}
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 5\0d
\ 4\0d
\ 6\0d
\ 4\0d
\a\0d
\ 6\0d
\b\0d
\0d
\ 4\0d
\ 3\0d
\0d
34632 +
\0d
\a\0d
\ 4\0g
\12\0}
\ 2\0t
\0\0\83\0\0}
\ 3\0t
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 2\0d
\ 6\0\83\ 1\0\ 1t
\ 3\0d
\v\0d
\v\0d
\f\0d
\r\0d
\v\0d
\f\0d
\ e\0d
\v\0d
\f\0d
\v\0d
\r\0d
\f\0d
\r\0d
\r\0d
\f\0d
\ e\0d
\r\0d
\f\0d
\v\0d
\ e\0d
\f\0d
\r\0d
\ e\0d
\f\0d
\ e\0d
\ e\0d
\f\0g
\e\0d
\ f\0d
\ 3\0\83\ 3\0}
\ 5\0|
\ 4\0j
\ 4\0d
\a\0\83\ 1\0\ 1|
\ 4\0j
\ 5\0t
\ 6\0d
\ 3\0|
\ 2\0d
\ 4\0d
\0!
\83\ 3\0\ 1|
\ 4\0j
\ 5\0t
\ 6\0d
\ 3\0|
\ 2\0d
\0d
\10\0!
\83\ 3\0\ 1|
\ 4\0j
\ 5\0t
\a\0d
\ 4\0|
\ 2\0d
\ 2\0d
\ 4\0!
\83\ 3\0\ 1|
\ 4\0j
\ 5\0t
\a\0d
\ 4\0|
\ 2\0d
\10\0d
\11\0!
\83\ 3\0\ 1|
\ 4\0j
\ 5\0t
\a\0d
\ 4\0|
\ 2\0d
\11\0d
\12\0!
\83\ 3\0\ 1|
\ 4\0j
\b\0|
\ 5\0\83\ 1\0\ 1|
\ 3\0j
\0d
\ 2\0|
\ 4\0\83\ 2\0\ 1t
\ 1\0\83\0\0}
\ 6\0|
\ 6\0j
\ 2\0d
\ 2\0\83\ 1\0\ 1|
\ 6\0j
\b\0|
\ 5\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0\83\0\0\ 1|
\ 6\0j
\ 5\0t
34633 +
\0d
\ 6\0g
\ 1\0\83\ 2\0\ 1|
\ 6\0j
\ 5\0t
34634 +
\0d
\ 3\0g
\ 1\0\83\ 2\0\ 1|
\ 6\0j
\ 5\0t
34635 +
\0d
\ 4\0g
\ 1\0\83\ 2\0\ 1|
\ 6\0j
\ 5\0t
34636 +
\0d
\a\0g
\ 1\0\83\ 2\0\ 1|
\ 3\0j
\0d
\13\0|
\ 6\0\83\ 2\0\ 1|
\0\0j
\v\0|
\ 3\0j
\f\0\83\0\0d
\14\0\83\ 2\0\ 1|
\0\0j
\v\0|
\ 3\0j
\r\0d
\ 2\0\83\ 1\0j
\f\0\83\0\0d
\14\0\83\ 2\0\ 1|
\ 3\0j
\ e\0\83\0\0\ 1|
\0\0j
\v\0|
\ 3\0j
\ f\0t
\ 6\0\83\ 1\0j
\f\0\83\0\0d
\14\0\83\ 2\0\ 1|
\ 3\0j
\10\0d
\15\0\83\ 1\0\ 1|
\0\0j
\v\0|
\ 3\0j
\f\0\83\0\0d
\15\0\83\ 2\0\ 1|
\0\0j
\v\0|
\ 3\0j
\ f\0t
\ 6\0\83\ 1\0j
\f\0\83\0\0d
\15\0\83\ 2\0\ 1|
\0\0j
\v\0|
\ 3\0j
\ f\0t
\a\0\83\ 1\0j
\f\0\83\0\0d
\15\0\83\ 2\0\ 1|
\0\0j
\v\0|
\ 3\0j
\ f\0t
34637 +
\0\83\ 1\0j
\f\0\83\0\0d
\15\0\83\ 2\0\ 1|
\0\0j
\v\0|
\ 3\0j
\r\0d
\ 2\0\83\ 1\0j
\f\0\83\0\0d
\15\0\83\ 2\0\ 1d
\16\0S(
\17\0\0\0s
\13\ 1\0\0 This test is a small but important one for MEDReader in sauv mode. When .sauv file is loaded the conversion is performed in memory and a preparation is done then.
34638 + This preparation makes access to internal MEDCouplingMesh pointers whose name must be updated.
34639 + s
\f\0\0\0Pyfile79.medi
\0\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0g333333Ó¿g
\0\0\0\0\0\0\0\0g
\9a\99\99\99\99\99É?gffffffæ?i
\0\0\0i
34640 +
\0\0\0i
\ e\0\0\0i
\12\0\0\0iþÿÿÿR&
\0\0\0t
\ 3\0\0\0abcN(
\11\0\0\0R>
\0\0\0R[
\0\0\0R\
\0\0\0RY
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0Rc
\0\0\0Rj
\0\0\0Rg
\0\0\0R+
\0\0\0RC
\0\0\0R}
\0\0\0t
\17\0\0\0forceComputationOfPartsRs
\0\0\0RB
\0\0\0(
\a\0\0\0R
\0\0\0R9
\ 1\0\0R
\82\0\0\0R
\86\0\0\0Rá
\0\0\0R
\81\0\0\0R
\85\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\17\0\0\0testMEDFileUMeshSetName«
\ e\0\0sD
\0\0\0\0\ 4\ 6\ 1<
\ 1 \ 1 \0\r\ 1c
\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\r\ 1\10\ 1 \0\r\0\r\ 1
34641 +
\ 1\13\ 1\13\ 1\13\ 1\13\ 1\10\ 1\16\ 1\1f\ 1
34642 +
\ 1\1f\ 1\r\ 1\16\ 1\1f\ 1\1f\ 1\1f\ 1\1f\ 1c
\ 1\0\0\0\ e\0\0\0\1c\0\0\0C
\0\0\0s«
\a\0\0d
\ 1\0}
\ 1\0t
\0\0\83\0\0}
\ 2\0|
\ 2\0j
\ 1\0d
\ 2\0\83\ 1\0\ 1t
\ 2\0d
\ 3\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 3\0\83\0\0\ 1|
\ 2\0j
\ 4\0|
\ 3\0|
\ 3\0\83\ 2\0\ 1|
\ 2\0j
\ 5\0\83\0\0}
\ 4\0|
\0\0j
\ 6\0d
\ 4\0|
\ 4\0\83\ 2\0\ 1t
\a\0t
\b\0\83\ 1\0}
\ 5\0|
\ 5\0j
\ 1\0d
\ 5\0\83\ 1\0\ 1|
\ 5\0j
\0|
\ 2\0\83\ 1\0\ 1t
\ 2\0|
\ 4\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 3\0\83\0\0\ 1t
34643 +
\0\83\0\0}
\ 6\0|
\ 6\0j
\0|
\ 2\0\83\ 1\0\ 1t
\v\0\83\0\0}
\a\0x¬
\0t
\f\0|
\ 4\0\83\ 1\0D]
\9e\0}
\b\0t
\r\0|
\b\0\83\ 1\0d
\ 6\0\17|
\b\0d
\a\0\17|
\b\0\vd
\b\0\18f
\ 3\0}
\0|
\ 5\0j
\ e\0|
\0\8c\0\0\ 1t
\ 2\0|
\ 4\0\83\ 1\0}
34644 +
\0t
\ f\0|
\ 4\0\83\ 1\0}
\v\0|
\v\0j
\ 3\0|
\b\0\83\ 1\0\ 1|
\v\0|
\ 4\0;}
\v\0|
\ 3\0|
34645 +
\0|
\v\0<|
\ 5\0j
\10\0|
34646 +
\0\83\ 1\0\ 1t
\11\0\83\0\0}
\f\0|
\f\0j
\12\0|
\ 5\0\83\ 1\0\ 1|
\a\0j
\13\0|
\f\0\83\ 1\0\ 1qÆ
\0W|
\a\0j
\14\0\83\0\0\ 1|
\0\0j
\15\0|
\a\0d
\0\19j
\16\0\83\0\0j
\17\0t
\ 2\0d
34647 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\19\0\83\ 1\0d#
\0\83\ 2\0\83\ 1\0\ 1t
\18\0\83\0\0}
\r\0|
\r\0j
\19\0|
\a\0\83\ 1\0\ 1|
\0\0j
\15\0|
\r\0d
\0\19d
\0\19j
\16\0\83\0\0j
\17\0t
\ 2\0d
34648 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\19\0\83\ 1\0d#
\0\83\ 2\0\83\ 1\0\ 1|
\r\0j
\14\0\83\0\0\ 1|
\0\0j
\15\0|
\r\0d
\0\19d
\0\19j
\16\0\83\0\0j
\17\0t
\ 2\0d
34649 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\19\0\83\ 1\0d#
\0\83\ 2\0\83\ 1\0\ 1|
\r\0d
\0\19d
\0\19}
\f\0|
\0\0j
\15\0|
\f\0j
\16\0\83\0\0j
\17\0t
\ 2\0d
34650 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\19\0\83\ 1\0d#
\0\83\ 2\0\83\ 1\0\ 1|
\f\0j
\14\0\83\0\0\ 1|
\0\0j
\15\0|
\f\0j
\16\0\83\0\0j
\17\0t
\ 2\0d
34651 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\19\0\83\ 1\0d#
\0\83\ 2\0\83\ 1\0\ 1|
\ 6\0j
\1a\0|
\ 1\0d
\b\0\83\ 2\0\ 1|
\r\0j
\1a\0|
\ 1\0d
\0\83\ 2\0\ 1~
\ 2\0~
\a\0~
\ 6\0~
\ 5\0~
\f\0t
\e\0j
\1c\0|
\ 1\0\83\ 1\0}
\ 6\0t
\v\0|
\ 1\0\83\ 1\0}
\a\0|
\0\0j
\15\0|
\a\0d
\0\19j
\16\0\83\0\0j
\17\0t
\ 2\0d
34652 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\19\0\83\ 1\0d#
\0\83\ 2\0\83\ 1\0\ 1|
\a\0j
\14\0\83\0\0\ 1|
\0\0j
\15\0|
\a\0d
\0\19j
\16\0\83\0\0j
\1d\0\83\0\0\f\83\ 1\0\ 1|
\a\0j
\1e\0\83\0\0\ 1|
\0\0j
\15\0|
\a\0d
\0\19j
\16\0\83\0\0j
\17\0t
\ 2\0d
34653 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\19\0\83\ 1\0d#
\0\83\ 2\0\83\ 1\0\ 1~
\ 6\0~
\a\0t
\18\0|
\ 1\0\83\ 1\0}
\r\0|
\0\0j
\15\0|
\r\0d
\0\19d
\0\19j
\16\0\83\0\0j
\17\0t
\ 2\0d
34654 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\19\0\83\ 1\0d#
\0\83\ 2\0\83\ 1\0\ 1|
\r\0j
\14\0\83\0\0\ 1|
\0\0j
\15\0|
\r\0d
\0\19d
\0\19j
\16\0\83\0\0j
\1d\0\83\0\0\f\83\ 1\0\ 1|
\r\0j
\1e\0\83\0\0\ 1|
\0\0j
\15\0|
\r\0d
\0\19d
\0\19j
\16\0\83\0\0j
\17\0t
\ 2\0d
34655 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\19\0\83\ 1\0d#
\0\83\ 2\0\83\ 1\0\ 1~
\r\0t
\11\0|
\ 1\0\83\ 1\0}
\f\0|
\0\0j
\15\0|
\f\0j
\16\0\83\0\0j
\17\0t
\ 2\0d
34656 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\19\0\83\ 1\0d#
\0\83\ 2\0\83\ 1\0\ 1|
\f\0j
\14\0\83\0\0\ 1|
\0\0j
\15\0|
\f\0j
\16\0\83\0\0j
\1d\0\83\0\0\f\83\ 1\0\ 1|
\f\0j
\1e\0\83\0\0\ 1|
\0\0j
\15\0|
\f\0j
\16\0\83\0\0j
\17\0t
\ 2\0d
34657 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\19\0\83\ 1\0d#
\0\83\ 2\0\83\ 1\0\ 1d
\0\0S($
\0\0\0Ns
\f\0\0\0Pyfile80.medRÕ
\ 2\0\0i
\ 6\0\0\0i
\19\0\0\0t
\v\0\0\0FieldOnCellg
\9a\99\99\99\99\99¹?i
\ 1\0\0\0i
\ 2\0\0\0i
\0\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0\10@g
\0\0\0\0\0\0\14@g
\0\0\0\0\0\0\18@g
\0\0\0\0\0\0\1c@g
\0\0\0\0\0\0 @g
\0\0\0\0\0\0"@g
\0\0\0\0\0\0$@g
\0\0\0\0\0\0&@g
\0\0\0\0\0\0(@g
\0\0\0\0\0\0*@g
\0\0\0\0\0\0,@g
\0\0\0\0\0\0.@g
\0\0\0\0\0\00@g
\0\0\0\0\0\01@g
\0\0\0\0\0\02@g
\0\0\0\0\0\03@g
\0\0\0\0\0\04@g
\0\0\0\0\0\05@g
\0\0\0\0\0\06@g
\0\0\0\0\0\07@g
\0\0\0\0\0\08@g
\11ê-
\81\99\97q=(
\1f\0\0\0R±
\0\0\0RB
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rc
\0\0\0R§
\0\0\0R+
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0R³
\0\0\0R¯
\0\0\0Rô
\0\0\0Rn
\0\0\0RD
\ 3\0\0R°
\0\0\0Rk
\0\0\0R{
\ 1\0\0Rà
\0\0\0R%
\ 1\0\0RE
\ 3\0\0t
\e\0\0\0unloadArraysWithoutDataLossR0
\0\0\0R+
\ 1\0\0R1
\0\0\0R[
\ 1\0\0R\
\ 1\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0Ru
\ 3\0\0Rw
\ 3\0\0(
\ e\0\0\0R
\0\0\0R!
\0\0\0R
\83\0\0\0RÔ
\ 1\0\0t
\a\0\0\0nbCellsR
\b\0\0\0R
\86\0\0\0Rm
\ 1\0\0Rî
\0\0\0R
\8c\0\0\0R
\ 2\ 3\0\0t
\ 4\0\0\0permRú
\0\0\0Rl
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt-
\0\0\0testMEDFileFieldsUnloadArraysWithoutDataLoss1Ï
\ e\0\0s
\82\0\0\0\0\ 1\ 6\ 1 \0\r\ 1\f\0
34658 +
\ 1\10\ 1\f\ 1\10\ 1\f\ 1\r\0\r\ 1\f\0
34659 +
\ 1 \ 1\r\ 2 \ 2\13\ 1"
\ 1\r\ 1\f\ 1\f\0\r\0
34661 +
\ 1\r\ 1 \ 1\r\ 1\r\ 1\ 4\ 1
34662 +
\ 1t
\ 1 \0\r\ 1x
\ 1
34664 +
\ 1p
\ 1\10\ 1\10\ 1\ f\ 2\ f\ 1\f\ 1t
\ 1
34666 +
\ 1t
\ 1\ 6\ 1\f\ 1x
\ 1
34668 +
\ 1x
\ 1\ 3\ 1\f\ 1p
\ 1
34670 +
\ 1p
\ 1c
\ 1\0\0\0\14\0\0\0;
\0\0\0C
\0\0\0sp
\r\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\ 3\0|
\ 3\0j
\ 3\0|
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0\83\0\0}
\ 3\0|
\ 3\0j
\ 5\0d
\ 3\0\83\ 1\0\ 1|
\ 3\0j
\ 6\0d
\ 4\0d
\ 5\0\83\ 2\0\ 1d
\ 6\0d
\a\0d
\b\0g
\ 3\0}
\ 4\0|
\ 3\0j
\a\0\83\0\0j
\b\0|
\ 4\0\83\ 1\0\ 1|
\ 3\0j
\0\83\0\0\ 1t
34671 +
\0\83\0\0}
\ 5\0|
\ 5\0j
\v\0d
\0|
\ 3\0\83\ 2\0\ 1t
\ 2\0\83\0\0}
\ 6\0|
\ 6\0j
\ 3\0|
\ 2\0\83\ 1\0\ 1|
\ 6\0j
\ 5\0d
\ 3\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0\83\0\0}
\ 6\0|
\ 6\0j
\ 3\0|
\ 3\0j
\a\0\83\0\0\83\ 1\0\ 1|
\ 5\0j
\v\0d
34672 +
\0|
\ 6\0\83\ 2\0\ 1t
\f\0d
\ 4\0d
\ 2\0d
\v\0d
\f\0d
\r\0d
\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0g
\19\0\83\ 1\0}
\a\0t
\f\0d!
\0d"
\0d#
\0d$
\0d%
\0d
\0d&
\0d
34673 +
\0d'
\0d(
\0d)
\0d*
\0d+
\0d,
\0d-
\0d.
\0d/
\0d0
\0d1
\0d2
\0d3
\0d4
\0d5
\0d6
\0d7
\0g
\19\0\83\ 1\0}
\b\0t
\r\0d8
\0d
\1f\0\83\ 2\0}
\0g
\0\0t
\ e\0d8
\0\83\ 1\0D]
\10\0}
34675 +
\0\16^
\ 2\0q¿
\ 1|
\0(t
\f\0d
\ 4\0d
\13\0d
\0d
\ e\0d
\ f\0g
\ 5\0\83\ 1\0}
\v\0t
\f\0d!
\0d*
\0d
\0d&
\0d
34676 +
\0g
\ 5\0\83\ 1\0}
\f\0|
\ 5\0j
\ f\0d
\0|
\a\0\83\ 2\0\ 1|
\ 5\0j
\10\0d
\0|
\b\0\83\ 2\0\ 1|
\ 5\0j
\11\0d
\0|
\0\83\ 2\0\ 1|
\ 5\0j
\ f\0d
34677 +
\0|
\v\0\83\ 2\0\ 1|
\ 5\0j
\10\0d
34678 +
\0|
\f\0\83\ 2\0\ 1t
\f\0d
\15\0d
\1f\0d
\1e\0d
\e\0d
\1a\0d
\f\0d
\14\0d
\r\0d
\1c\0d
\1d\0d
\0d
\16\0d
\19\0d
\18\0d
\17\0d:
\0d;
\0d<
\0d=
\0d>
\0d?
\0d@
\0dA
\0dB
\0d8
\0dC
\0dD
\0dE
\0dF
\0dG
\0dH
\0dI
\0dJ
\0dK
\0dL
\0dM
\0g$
\0\83\ 1\0}
\r\0t
\f\0d,
\0d6
\0d5
\0d2
\0d1
\0d$
\0d+
\0d%
\0d3
\0d4
\0d7
\0d-
\0d0
\0d/
\0d.
\0dN
\0dO
\0dP
\0dQ
\0dR
\0dS
\0dT
\0dU
\0dV
\0dW
\0dX
\0dY
\0dZ
\0d[
\0d\
\0d]
\0d^
\0d_
\0d`
\0da
\0db
\0g$
\0\83\ 1\0}
\ e\0t
\r\0dL
\0d
\1f\0\83\ 2\0}
\ f\0g
\0\0t
\ e\0dL
\0\83\ 1\0D]
\10\0}
34680 +
\0\16^
\ 2\0qh
\ 3|
\ f\0(|
\ 5\0j
\ f\0d
\ f\0|
\r\0\83\ 2\0\ 1|
\ 5\0j
\10\0d
\ f\0|
\ e\0\83\ 2\0\ 1|
\ 5\0j
\11\0d
\ f\0|
\ f\0\83\ 2\0\ 1|
\ 5\0j
\12\0dd
\0de
\0\83\ 2\0\ 1|
\ 5\0j
\12\0df
\0dg
\0\83\ 2\0\ 1|
\ 5\0j
\13\0dd
\0dh
\0di
\0g
\ 2\0\83\ 2\0\ 1|
\ 5\0j
\13\0df
\0di
\0dj
\0g
\ 2\0\83\ 2\0\ 1|
\ 5\0j
\14\0|
\ 1\0d
\ e\0\83\ 2\0\ 1t
34681 +
\0j
\15\0|
\ 1\0d
\ 3\0t
\16\0g
\ 1\0d
\0d
\f\0d
\ f\0g
\ 3\0\83\ 4\0}
\10\0|
\0\0j
\17\0|
\10\0j
\18\0\83\0\0t
\16\0g
\ 1\0\83\ 2\0\ 1|
\0\0j
\19\0|
\10\0j
\1a\0t
\16\0\83\ 1\0j
\e\0\83\0\0j
\1c\0t
\f\0d
\ f\0d
\0d
\ 2\0d
\v\0d
\ e\0d
\ f\0d
\v\0d
\11\0d
\ 4\0d
\ e\0d
\11\0d
\10\0d
\13\0d
\ 4\0d
\10\0d
\f\0d
\12\0d
\13\0d
\f\0d
\r\0d
\v\0d
\ 2\0d
\14\0d
\15\0d
\11\0d
\v\0d
\15\0d
\16\0d
\10\0d
\11\0d
\16\0d
\0d
\f\0d
\10\0d
\0d
\1f\0d
\r\0d
\f\0d
\1f\0d
\1e\0g(
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1t
\0\0d
\0d
\0d
\0f
\ 3\0d
\ f\0d
\0d
\0f
\ 3\0d
\ e\0d
\0d
\0f
\ 3\0d
\ 4\0d
\0d
\0f
\ 3\0d
\13\0d
\0d
\0f
\ 3\0d
\12\0d
\0d
\0f
\ 3\0d
\0d
\ f\0d
\0f
\ 3\0d
\ f\0d
\ f\0d
\0f
\ 3\0d
\ e\0d
\ f\0d
\0f
\ 3\0d
\ 4\0d
\ f\0d
\0f
\ 3\0d
\13\0d
\ f\0d
\0f
\ 3\0d
\12\0d
\ f\0d
\0f
\ 3\0d
\0d
\ e\0d
\0f
\ 3\0d
\ f\0d
\ e\0d
\0f
\ 3\0d
\ e\0d
\ e\0d
\0f
\ 3\0d
\ 4\0d
\ e\0d
\0f
\ 3\0d
\13\0d
\ e\0d
\0f
\ 3\0d
\12\0d
\ e\0d
\0f
\ 3\0g
\12\0\83\ 1\0}
\11\0|
\11\0j
\b\0|
\ 4\0\83\ 1\0\ 1|
\0\0j
\19\0|
\10\0j
\a\0\83\0\0j
\1c\0|
\11\0dk
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\19\0|
\10\0j
\1d\0d
\0\83\ 1\0j
\1c\0|
\b\0d
\f\0 \83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\10\0j
\1e\0d
\0\83\ 1\0j
\1c\0|
\a\0d
\f\0 \83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\10\0j
\1f\0d
\0\83\ 1\0j
\1c\0|
\0d
\f\0 \83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\10\0j
\1d\0d
\ f\0\83\ 1\0j
\1c\0|
\ e\0d
\1d\0 \83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\10\0j
\1e\0d
\ f\0\83\ 1\0j
\1c\0|
\r\0d
\1d\0 \83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\10\0j
\1f\0d
\ f\0\83\ 1\0j
\1c\0|
\ f\0d
\1d\0 \83\ 1\0\83\ 1\0\ 1t
34682 +
\0j
\15\0|
\ 1\0d
\ 3\0t
\16\0g
\ 1\0d
\r\0d8
\0d
\ f\0g
\ 3\0\83\ 4\0}
\12\0|
\0\0j
\17\0|
\12\0j
\18\0\83\0\0t
\16\0g
\ 1\0\83\ 2\0\ 1|
\0\0j
\19\0|
\12\0j
\1a\0t
\16\0\83\ 1\0j
\e\0\83\0\0j
\1c\0t
\f\0d
\ f\0d
\0d
\ 2\0d
\v\0d
\ e\0d
\ f\0d
\v\0d
\11\0d
\ 4\0d
\ e\0d
\11\0d
\10\0d
\13\0d
\ 4\0d
\10\0d
\f\0d
\ 2\0d
\12\0d
\r\0d
\14\0d
\v\0d
\ 2\0d
\14\0d
\15\0d
\11\0d
\v\0d
\15\0d
\16\0d
\10\0d
\11\0d
\16\0d
\0d
\f\0d
\10\0d
\0d
\1f\0d
\14\0d
\r\0d
\1e\0d
\1d\0d
\15\0d
\14\0d
\1d\0d
\1c\0d
\16\0d
\15\0d
\1c\0d
\e\0d
\0d
\16\0d
\e\0d
\1a\0d
\1f\0d
\0d
\1a\0d
\19\0g8
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1t
\0\0d
\ f\0d
\ e\0d
\0f
\ 3\0d
\ e\0d
\ e\0d
\0f
\ 3\0d
\ 4\0d
\ e\0d
\0f
\ 3\0d
\13\0d
\ e\0d
\0f
\ 3\0d
\12\0d
\ e\0d
\0f
\ 3\0d
\0d
\ 4\0d
\0f
\ 3\0d
\ f\0d
\ 4\0d
\0f
\ 3\0d
\ e\0d
\ 4\0d
\0f
\ 3\0d
\ 4\0d
\ 4\0d
\0f
\ 3\0d
\13\0d
\ 4\0d
\0f
\ 3\0d
\12\0d
\ 4\0d
\0f
\ 3\0d
\0d
\13\0d
\0f
\ 3\0d
\ f\0d
\13\0d
\0f
\ 3\0d
\ e\0d
\13\0d
\0f
\ 3\0d
\ 4\0d
\13\0d
\0f
\ 3\0d
\13\0d
\13\0d
\0f
\ 3\0d
\12\0d
\13\0d
\0f
\ 3\0d
\0d
\12\0d
\0f
\ 3\0d
\ f\0d
\12\0d
\0f
\ 3\0d
\ e\0d
\12\0d
\0f
\ 3\0d
\ 4\0d
\12\0d
\0f
\ 3\0d
\13\0d
\12\0d
\0f
\ 3\0d
\12\0d
\12\0d
\0f
\ 3\0g
\17\0\83\ 1\0}
\11\0|
\11\0j
\b\0|
\ 4\0\83\ 1\0\ 1|
\0\0j
\19\0|
\12\0j
\a\0\83\0\0j
\1c\0|
\11\0dk
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\19\0|
\12\0j
\1d\0d
\0\83\ 1\0j
\1c\0|
\b\0d
\r\0\1f\83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\12\0j
\1e\0d
\0\83\ 1\0j
\1c\0|
\a\0d
\r\0\1f\83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\12\0j
\1f\0d
\0\83\ 1\0j
\1c\0|
\0d
\r\0\1f\83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\12\0j
\1d\0d
\ f\0\83\ 1\0j
\1c\0|
\ e\0d
\15\0\1f\83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\12\0j
\1e\0d
\ f\0\83\ 1\0j
\1c\0|
\r\0d
\15\0\1f\83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\12\0j
\1f\0d
\ f\0\83\ 1\0j
\1c\0|
\ f\0d
\15\0\1f\83\ 1\0\83\ 1\0\ 1t
34683 +
\0j
\15\0|
\ 1\0d
\ 3\0t
\0t
\16\0g
\ 2\0d
\0d
\12\0d
\ f\0d
\ f\0d
\f\0d
\ f\0g
\ 6\0\83\ 4\0}
\13\0|
\0\0j
\17\0|
\13\0j
\18\0\83\0\0t
\16\0t
\0g
\ 2\0\83\ 2\0\ 1|
\0\0j
\19\0|
\13\0j
\1d\0d
\0\83\ 1\0j
\1c\0|
\b\0d
\ f\0d
\f\0!
\83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\13\0j
\1e\0d
\0\83\ 1\0j
\1c\0|
\a\0d
\ f\0d
\f\0!
\83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\13\0j
\1f\0d
\0\83\ 1\0j
\1c\0|
\0d
\ f\0d
\f\0!
\83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\13\0j
\1d\0d
34684 +
\0\83\ 1\0j
\1c\0|
\f\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\13\0j
\1e\0d
34685 +
\0\83\ 1\0j
\1c\0|
\v\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\13\0j
\1f\0d
34686 +
\0\83\ 1\0t!
\0k
\b\0\83\ 1\0\ 1|
\0\0j
\19\0|
\13\0j
\1a\0t
\16\0\83\ 1\0j
\e\0\83\0\0j
\1c\0t
\f\0d
\ e\0d
\ f\0d
\v\0d
\11\0d
\ 4\0d
\ e\0d
\11\0d
\10\0d
\13\0d
\ 4\0d
\10\0d
\f\0d
\12\0d
\13\0d
\f\0d
\r\0d
\v\0d
\ 2\0d
\14\0d
\15\0d
\11\0d
\v\0d
\15\0d
\16\0d
\10\0d
\11\0d
\16\0d
\0d
\f\0d
\10\0d
\0d
\1f\0d
\r\0d
\f\0d
\1f\0d
\1e\0g$
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\13\0j
\1a\0t
\0\83\ 1\0j
\e\0\83\0\0j
\1c\0t
\f\0d
\0d
\ f\0d
\ f\0d
\ e\0d
\ e\0d
\ 4\0d
\ 4\0d
\13\0d
\13\0d
\12\0g
34687 +
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1t
\0\0d
\0d
\0d
\0f
\ 3\0d
\ f\0d
\0d
\0f
\ 3\0d
\ e\0d
\0d
\0f
\ 3\0d
\ 4\0d
\0d
\0f
\ 3\0d
\13\0d
\0d
\0f
\ 3\0d
\12\0d
\0d
\0f
\ 3\0d
\0d
\ f\0d
\0f
\ 3\0d
\ f\0d
\ f\0d
\0f
\ 3\0d
\ e\0d
\ f\0d
\0f
\ 3\0d
\ 4\0d
\ f\0d
\0f
\ 3\0d
\13\0d
\ f\0d
\0f
\ 3\0d
\12\0d
\ f\0d
\0f
\ 3\0d
\0d
\ e\0d
\0f
\ 3\0d
\ f\0d
\ e\0d
\0f
\ 3\0d
\ e\0d
\ e\0d
\0f
\ 3\0d
\ 4\0d
\ e\0d
\0f
\ 3\0d
\13\0d
\ e\0d
\0f
\ 3\0d
\12\0d
\ e\0d
\0f
\ 3\0g
\12\0\83\ 1\0}
\11\0|
\11\0j
\b\0|
\ 4\0\83\ 1\0\ 1|
\0\0j
\19\0|
\13\0j
\a\0\83\0\0j
\1c\0|
\11\0dk
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\19\0|
\13\0j
\1d\0d
\ f\0\83\ 1\0j
\1c\0|
\ e\0d
\1d\0 \83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\13\0j
\1e\0d
\ f\0\83\ 1\0j
\1c\0|
\r\0d
\1d\0 \83\ 1\0\83\ 1\0\ 1|
\0\0j
\19\0|
\13\0j
\1f\0d
\ f\0\83\ 1\0j
\1c\0|
\ f\0d
\1d\0 \83\ 1\0\83\ 1\0\ 1dl
\0S(m
\0\0\0s
\ e\ 1\0\0 This method tests MEDFileUMesh.LoadPart that loads only a part of a specified mesh in a MED file. The part is specfied using a slice of cell ids. Only nodes on which cells lies are loaded to reduce at most the amount of
34688 + memory of the returned instance.
34689 + s
\f\0\0\0Pyfile81.medi
\ 6\0\0\0Rn
\ 2\0\0i
\ 3\0\0\0g
\0\0\0\0\0\0\0\0s
\ 6\0\0\0aa [b]s
\a\0\0\0cc [de]s
\b\0\0\0gg [klm]i
\0\0\0\0iÿÿÿÿi
\a\0\0\0i
34690 +
\0\0\0i
\v\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0i
\0\0\0i
\b\0\0\0i
\ 5\0\0\0i
\ 4\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0i
\18\0\0\0i
\17\0\0\0i
\16\0\0\0i
\15\0\0\0i
\14\0\0\0i
\13\0\0\0i
\12\0\0\0i
\11\0\0\0i
\10\0\0\0i
\ f\0\0\0iýÿÿÿiúÿÿÿiùÿÿÿiöÿÿÿiõÿÿÿiþÿÿÿi÷ÿÿÿiøÿÿÿiûÿÿÿiüÿÿÿiôÿÿÿióÿÿÿiòÿÿÿièÿÿÿiéÿÿÿiêÿÿÿiëÿÿÿiìÿÿÿiíÿÿÿiîÿÿÿiïÿÿÿiðÿÿÿiñÿÿÿi
\19\0\0\0s
\11\0\0\0Cell#%.3d i"
\0\0\0i!
\0\0\0i
\0\0\0i
\1f\0\0\0i
\1e\0\0\0i
\1d\0\0\0i
\1c\0\0\0i
\e\0\0\0i
\1a\0\0\0i-
\0\0\0i,
\0\0\0i+
\0\0\0i*
\0\0\0i)
\0\0\0i(
\0\0\0i'
\0\0\0i&
\0\0\0i%
\0\0\0i$
\0\0\0i#
\0\0\0iÞÿÿÿißÿÿÿiàÿÿÿiáÿÿÿiâÿÿÿiãÿÿÿiäÿÿÿiåÿÿÿiæÿÿÿiçÿÿÿiÓÿÿÿiÔÿÿÿiÕÿÿÿiÖÿÿÿi×ÿÿÿiØÿÿÿiÙÿÿÿiÚÿÿÿiÛÿÿÿiÜÿÿÿiÝÿÿÿs
\11\0\0\0Node#%.3d t
\ 4\0\0\0Fam7iM
\0\0\0t
\ 4\0\0\0Fam8iX
\0\0\0t
\ 4\0\0\0Grp0t
\ 4\0\0\0Grp1Rß
\ 1\0\0g
\11ê-
\81\99\97q=N("
\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0RB
\0\0\0t
\14\0\0\0changeSpaceDimensionRØ
\0\0\0RÃ
\ 1\0\0R
\0\ 2\0\0R>
\0\0\0Rj
\0\0\0Rk
\0\0\0R×
\ 2\0\0Rn
\0\0\0R
\98\0\0\0R¶
\0\0\0RØ
\ 2\0\0R·
\0\0\0t
\11\0\0\0setGroupsOnFamilyR
\v\0\0\0t
34691 +
\0\0\0LoadPartOfR`
\0\0\0R+
\0\0\0t
\ e\0\0\0getAllGeoTypesR0
\0\0\0Rs
\0\0\0Rv
\0\0\0R1
\0\0\0R
\9e\0\0\0R
\8c\ 2\0\0RÛ
\ 2\0\0Re
\0\0\0R/
\ 2\0\0(
\14\0\0\0R
\0\0\0R!
\0\0\0RÔ
\ 1\0\0R
\83\0\0\0R?
\ 1\0\0R
\86\0\0\0R
\84\0\0\0t
\ 6\0\0\0renum0t
\0\0\0famField0RÜ
\ 2\0\0Rî
\0\0\0t
\a\0\0\0renumM1t
34692 +
\0\0\0famFieldM1t
\ 6\0\0\0renum1t
\0\0\0famField1RÞ
\ 2\0\0R
\8e\0\0\0R
\ 3\ 2\0\0R:
\ 1\0\0R¢
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\19\0\0\0testMEDFileUMeshLoadPart1
\ e\ f\0\0s¨
\0\0\0\0\ 4\ 6\ 1\f\0
34693 +
\ 1 \0\10\ 1\f\ 1\r\ 1\10\ 1\ f\ 1\13\ 1
34694 +
\ 1 \ 1\10\ 1 \0\r\0\r\ 1\f\0\13\ 1\10\ 1W
\ 1W
\ 1\ f\ 1$
\ 1\e\ 1\e\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1x
\ 1x
\ 1\ f\ 1$
\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\16\ 1\16\ 1\10\ 2$
\ 1\19\ 1£
\ 1ä
\0\r\ 1\1f\ 1#
\ 1#
\ 1#
\ 1#
\ 1#
\ 1#
\ 2$
\ 1\19\ 1Ó
\ 1ÿ
\0!
\0\r\ 1\1f\ 1#
\ 1#
\ 1#
\ 1#
\ 1#
\ 1#
\ 20
\ 1\1c\ 1&
\ 1&
\ 1&
\ 1\1f\ 1\1f\ 1\1c\ 1\97\ 1I
\ 1ä
\0\r\ 1\1f\ 1#
\ 1#
\ 1#
\ 1c
\ 1\0\0\0\v\0\0\0\a\0\0\0C
\0\0\0s
\1a\ 4\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0d
\ 4\0g
\ 2\0}
\ 3\0t
\0\0d
\ 5\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\ 5\0|
\ 5\0j
\ 3\0|
\ 4\0|
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\ 5\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\ 6\0d
\ 6\0d
\a\0\83\ 2\0\ 1d
\b\0d
\0d
34695 +
\0g
\ 3\0}
\ 6\0|
\ 5\0j
\a\0\83\0\0j
\b\0|
\ 6\0\83\ 1\0\ 1|
\ 5\0j
\0\83\0\0\ 1t
34696 +
\0t
\v\0t
\f\0\83\ 2\0}
\a\0|
\a\0j
\r\0|
\ 5\0\83\ 1\0\ 1|
\a\0j
\ 5\0d
\v\0\83\ 1\0\ 1t
\0\0d
\f\0d
\r\0\83\ 2\0}
\ 4\0|
\ 4\0j
\b\0|
\ 3\0\83\ 1\0\ 1t
\ e\0t
\ f\0d
\f\0\83\ 1\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\ f\0f
\ 2\0<t
\ e\0t
\ f\0d
\10\0d
\11\0\83\ 2\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\12\0f
\ 2\0<|
\a\0j
\10\0|
\ 4\0\83\ 1\0\ 1t
\11\0|
\ 1\0|
\a\0t
\12\0\83\ 3\0\ 1t
34697 +
\0t
\13\0t
\f\0\83\ 2\0}
\a\0|
\a\0j
\r\0|
\ 5\0\83\ 1\0\ 1|
\a\0j
\ 5\0d
\13\0\83\ 1\0\ 1t
\0\0d
\14\0d
\r\0\83\ 2\0}
\ 4\0|
\ 4\0j
\b\0|
\ 3\0\83\ 1\0\ 1t
\ e\0t
\ f\0d
\15\0d
\16\0\83\ 2\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\ f\0f
\ 2\0<t
\ e\0t
\ f\0d
\17\0d
\18\0\83\ 2\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\12\0f
\ 2\0<|
\a\0j
\10\0|
\ 4\0\83\ 1\0\ 1|
\a\0j
\14\0\83\0\0\ 1t
\15\0|
\ 1\0|
\a\0\83\ 2\0\ 1t
\16\0\83\0\0}
\b\0t
\17\0j
\18\0|
\ 1\0|
\ 2\0t
\19\0g
\ 1\0d
\ f\0d
\ 5\0d
\12\0g
\ 3\0\83\ 4\0}
\0|
\b\0j
\1a\0|
\0\83\ 1\0\ 1t
\e\0j
\18\0|
\ 1\0t
\1c\0|
\b\0\83\ 3\0}
34699 +
\0d
\12\0\19d
\ f\0\19j
\1e\0\83\0\0d
\19\0d
\12\0d&
\0d
\e\0d
\e\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 1\0\83\ 2\0\ 1t
\16\0\83\0\0}
\b\0t
\17\0j
\18\0|
\ 1\0|
\ 2\0t
\19\0g
\ 1\0d
\ 6\0d
\1c\0d
\12\0g
\ 3\0\83\ 4\0}
\0|
\b\0j
\1a\0|
\0\83\ 1\0\ 1t
\e\0j
\18\0|
\ 1\0t
\1c\0|
\b\0\83\ 3\0}
34703 +
\0d
\ f\0\19d
\ f\0\19j
\0\83\0\0\ 1t
\0\0d
\1d\0d
\r\0\83\ 2\0}
\ 4\0t
\ e\0t
\ f\0d
\ 6\0d
\1c\0\83\ 2\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\ f\0f
\ 2\0<t
\ e\0t
\ f\0d
\1e\0d
\1f\0\83\ 2\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\12\0f
\ 2\0<|
\ 4\0j
\b\0|
\ 3\0\83\ 1\0\ 1|
\0\0j!
\0|
34704 +
\0d
\ f\0\19d
\ f\0\19j"
\0\83\0\0j#
\0|
\ 4\0d
\0\83\ 2\0\83\ 1\0\ 1|
34705 +
\0d
\12\0\19d
\ f\0\19j
\0\83\0\0\ 1t
\0\0d!
\0d
\r\0\83\ 2\0}
\ 4\0t
\ e\0t
\ f\0d"
\0d#
\0\83\ 2\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\ f\0f
\ 2\0<t
\ e\0t
\ f\0d$
\0d%
\0\83\ 2\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\12\0f
\ 2\0<|
\ 4\0j
\b\0|
\ 3\0\83\ 1\0\ 1|
\0\0j!
\0|
34706 +
\0d
\12\0\19d
\ f\0\19j"
\0\83\0\0j#
\0|
\ 4\0d
\0\83\ 2\0\83\ 1\0\ 1d
\ e\0S('
\0\0\0s
\7f\0\0\0This method tests partial loading on fields on CELL. It is the same principle than those in testMEDFileUMeshLoadPart1.
34707 + s
\f\0\0\0Pyfile82.medRn
\ 2\0\0s
\a\0\0\0aa [kg]s
\0\0\0bbb [m/s]i
\ 6\0\0\0i
\ 3\0\0\0g
\0\0\0\0\0\0\0\0s
\ 6\0\0\0aa [b]s
\a\0\0\0cc [de]s
\b\0\0\0gg [klm]t
\ 5\0\0\0Fieldi
\19\0\0\0i
\ 2\0\0\0Ni
\0\0\0\0id
\0\0\0i}
\0\0\0i
\ 1\0\0\0t
\0\0\0FieldNodei$
\0\0\0iÈ
\0\0\0iì
\0\0\0i,
\ 1\0\0iP
\ 1\0\0i(
\0\0\0i
\ e\0\0\0R&
\0\0\0i
\ f\0\0\0i
\f\0\0\0ig
\0\0\0is
\0\0\0g
\11ê-
\81\99\97q=i
\15\0\0\0iË
\0\0\0ià
\0\0\0i/
\ 1\0\0iD
\ 1\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ e\0\0\0($
\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0RB
\0\0\0R¼
\ 3\0\0RØ
\0\0\0RÃ
\ 1\0\0R
\0\ 2\0\0Rw
\ 1\0\0R
\13\ 1\0\0RX
\ 1\0\0R³
\0\0\0Rm
\0\0\0Rn
\0\0\0R{
\ 1\0\0R_
\ 2\0\0R.
\0\0\0R
\1c\ 1\0\0Rd
\0\0\0t!
\0\0\0WriteFieldUsingAlreadyWrittenMeshRP
\ 1\0\0R>
\0\0\0R¾
\ 3\0\0R`
\0\0\0R7
\ 2\0\0R[
\ 1\0\0RN
\0\0\0R+
\0\0\0RÄ
\ 1\0\0Rq
\0\0\0Rv
\ 3\0\0R0
\0\0\0R+
\ 1\0\0R1
\0\0\0(
\v\0\0\0R
\0\0\0R!
\0\0\0t
\b\0\0\0meshNamet
\ 6\0\0\0composRÔ
\ 1\0\0R
\83\0\0\0R?
\ 1\0\0R
\b\0\0\0R
\0\0\0R
\86\0\0\0Rl
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testMEDFileFieldsLoadPart1a
\ f\0\0sn
\0\0\0\0\ 3\ 6\ 1\ 6\ 1\f\ 1\f\0
34708 +
\ 1 \0\10\ 1\f\ 1\r\ 1\10\ 1\ f\ 1\13\ 1
34709 +
\ 1\ f\0\r\ 1\r\ 1\ f\0\r\ 1"
\ 1%
\ 1\r\ 1\10\ 1\ f\0\r\ 1\r\ 1\ f\0\r\ 1%
\ 1%
\ 1\r\ 1
34710 +
\ 1\r\ 2 \ 1$
\ 1\r\ 1\15\ 16
\ 2 \ 1$
\ 1\r\ 1\15\ 1\f\ 1\12\ 1\ f\0%
\0%
\ 1\r\ 1'
\ 1\12\ 1\ f\0%
\0%
\ 1\r\ 1'
\ 1c
\ 1\0\0\0\ 4\0\0\0\ 6\0\0\0C
\0\0\0s¬
\0\0\0d
\ 1\0}
\ 1\0t
\0\0d
34711 +
\0d
\v\0d
\f\0g
\ 3\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 1\0d
\ 5\0d
\ 6\0d
\a\0g
\ 3\0\83\ 1\0\ 1t
\ 2\0\83\0\0}
\ 3\0|
\ 3\0j
\ 3\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\b\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\ 6\0j
\a\0|
\ 1\0\83\ 1\0}
\ 3\0|
\0\0j
\b\0|
\ 3\0j
\0\83\0\0d
\b\0\83\ 2\0\ 1|
\0\0j
34712 +
\0|
\ 3\0j
\v\0\83\0\0j
\f\0|
\ 2\0d
\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
\r\0\0\0Ns
\f\0\0\0Pyfile83.medi
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0s
\ 6\0\0\0aa [m]s
\a\0\0\0bbb [s]s
34713 +
\0\0\0cccc [m/s]R
\ 2\0\0g
\11ê-
\81\99\97q=(
\ 3\0\0\0i
\0\0\0\0i
\0\0\0\0i
\0\0\0\0(
\ 3\0\0\0i
\ 1\0\0\0i
\0\0\0\0i
\0\0\0\0(
\ 3\0\0\0i
\ 2\0\0\0i
\0\0\0\0i
\0\0\0\0(
\r\0\0\0RY
\0\0\0RÃ
\ 1\0\0R>
\0\0\0Rc
\0\0\0RB
\0\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0R+
\0\0\0RC
\0\0\0R0
\0\0\0RØ
\0\0\0R1
\0\0\0(
\ 4\0\0\0R
\0\0\0R!
\0\0\0R
\ 3\ 2\0\0R
\86\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\18\0\0\0testMEDFileWithoutCells1
\94\ f\0\0s
\16\0\0\0\0\ 1\ 6\ 1\15\ 1\16\ 1 \ 1\r\ 1\r\ 1\10\ 2\ f\ 1\16\ 1\1f\ 1c
\ 1\0\0\0\f\0\0\0\v\0\0\0C
\0\0\0s[
\ 4\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0d
\ 4\0g
\ 2\0}
\ 3\0t
\0\0d
\ 5\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\ 5\0|
\ 5\0j
\ 3\0|
\ 4\0|
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\ 5\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\ 6\0d
\ 6\0d
\a\0\83\ 2\0\ 1d
\b\0d
\0d
34714 +
\0g
\ 3\0}
\ 6\0|
\ 5\0j
\a\0\83\0\0j
\b\0|
\ 6\0\83\ 1\0\ 1|
\ 5\0j
\0\83\0\0\ 1t
34715 +
\0t
\v\0t
\f\0\83\ 2\0}
\a\0|
\a\0j
\r\0|
\ 5\0\83\ 1\0\ 1|
\a\0j
\ 5\0d
\v\0\83\ 1\0\ 1t
\0\0d
\f\0d
\r\0\83\ 2\0}
\ 4\0|
\ 4\0j
\b\0|
\ 3\0\83\ 1\0\ 1t
\ e\0t
\ f\0d
\f\0\83\ 1\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\ f\0f
\ 2\0<t
\ e\0t
\ f\0d
\10\0d
\11\0\83\ 2\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\12\0f
\ 2\0<|
\a\0j
\10\0|
\ 4\0\83\ 1\0\ 1t
\11\0|
\ 1\0|
\a\0t
\12\0\83\ 3\0\ 1t
34716 +
\0t
\13\0t
\f\0\83\ 2\0}
\a\0|
\a\0j
\r\0|
\ 5\0\83\ 1\0\ 1|
\a\0j
\ 5\0d
\13\0\83\ 1\0\ 1t
\0\0d
\14\0d
\r\0\83\ 2\0}
\ 4\0|
\ 4\0j
\b\0|
\ 3\0\83\ 1\0\ 1t
\ e\0t
\ f\0d
\15\0d
\16\0\83\ 2\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\ f\0f
\ 2\0<t
\ e\0t
\ f\0d
\17\0d
\18\0\83\ 2\0\83\ 1\0|
\ 4\0d
\ e\0d
\ e\0\85\ 2\0d
\12\0f
\ 2\0<|
\a\0j
\10\0|
\ 4\0\83\ 1\0\ 1|
\a\0j
\14\0\83\0\0\ 1t
\15\0|
\ 1\0|
\a\0\83\ 2\0\ 1t
\16\0\83\0\0}
\b\0t
\17\0j
\18\0|
\ 1\0|
\ 2\0t
\19\0g
\ 1\0d
\19\0d
\ 5\0d
\12\0g
\ 3\0\83\ 4\0}
\0|
\b\0j
\1a\0|
\0\83\ 1\0\ 1|
\0j
\e\0d
\ f\0t
\19\0\83\ 2\0}
34718 +
\0j
\1d\0\83\0\0t
\1e\0d
\19\0d
\ 5\0d
\12\0\83\ 3\0\83\ 2\0\ 1|
\0j
\e\0d
\12\0\83\ 1\0}
34720 +
\0j
\1d\0\83\0\0t
\1e\0d
\19\0d
\1a\0d
\12\0\83\ 3\0\83\ 2\0\ 1|
\0\0j
\1f\0|
34721 +
\0j
\0\83\0\0d
\e\0k
\ 2\0oÄ
\ 2|
34722 +
\0j
\0\83\0\0|
\0j!
\0\83\0\0k
\ 2\0\83\ 1\0\ 1|
\0j"
\0\83\0\0\ 1|
\0j
\e\0d
\ f\0t
\19\0\83\ 2\0}
34724 +
\0j
\1d\0\83\0\0t
\1e\0d
\19\0d
\ 5\0d
\12\0\83\ 3\0\83\ 2\0\ 1|
\0j
\e\0d
\12\0\83\ 1\0}
34726 +
\0j
\0\83\0\0d
\1c\0k
\ 2\0oB
\ 3|
34727 +
\0j
\0\83\0\0|
\0j!
\0\83\0\0k
\ 2\0\83\ 1\0\ 1|
\0\0j
\1f\0|
34728 +
\0j#
\0\83\0\0j$
\0t%
\0d
\19\0d
\1d\0d
\ 5\0d
\1e\0d
\e\0d
\1f\0d
\0d!
\0g
\b\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1t&
\0j
\18\0|
\ 1\0t'
\0|
\b\0\83\ 3\0}
\v\0|
\v\0d
\ f\0\19d
\ f\0\19j(
\0\83\0\0\ 1t
\0\0d5
\0d6
\0g
\ 2\0\83\ 1\0}
\ 4\0|
\ 4\0j
\b\0|
\ 3\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\v\0d
\ f\0\19d
\ f\0\19j)
\0\83\0\0j$
\0|
\ 4\0d$
\0\83\ 2\0\83\ 1\0\ 1|
\v\0d
\12\0\19d
\ f\0\19j(
\0\83\0\0\ 1t
\0\0d7
\0d8
\0d9
\0d:
\0d;
\0d<
\0d=
\0d>
\0g
\b\0\83\ 1\0}
\ 4\0|
\ 4\0j
\b\0|
\ 3\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\v\0d
\12\0\19d
\ f\0\19j)
\0\83\0\0j$
\0|
\ 4\0d$
\0\83\ 2\0\83\ 1\0\ 1d
\ e\0S(?
\0\0\0s
\8b\0\0\0 Test close to Pyfile82.med except that here zipCoords on MEDFileUMesh is invoked here to see if the PartDef is correctly updated.
34729 + s
\f\0\0\0Pyfile84.medRn
\ 2\0\0s
\a\0\0\0aa [kg]s
\0\0\0bbb [m/s]i
\ 6\0\0\0i
\ 3\0\0\0g
\0\0\0\0\0\0\0\0s
\ 6\0\0\0aa [b]s
\a\0\0\0cc [de]s
\b\0\0\0gg [klm]RÇ
\ 3\0\0i
\19\0\0\0i
\ 2\0\0\0Ni
\0\0\0\0id
\0\0\0i}
\0\0\0i
\ 1\0\0\0RÈ
\ 3\0\0i$
\0\0\0iÈ
\0\0\0iì
\0\0\0i,
\ 1\0\0iP
\ 1\0\0i
\ 4\0\0\0i
\ e\0\0\0i
34730 +
\0\0\0i
\b\0\0\0i
\ 5\0\0\0i
\a\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0ih
\0\0\0ii
\0\0\0g
\11ê-
\81\99\97q=iÌ
\0\0\0i0
\ 1\0\0iÍ
\0\0\0i1
\ 1\0\0iÎ
\0\0\0i2
\ 1\0\0iÏ
\0\0\0i3
\ 1\0\0iÒ
\0\0\0i6
\ 1\0\0iÓ
\0\0\0i7
\ 1\0\0iÔ
\0\0\0i8
\ 1\0\0iÕ
\0\0\0i9
\ 1\0\0(
\ 2\0\0\0i
\ 4\0\0\0ih
\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0ii
\0\0\0(
\ 2\0\0\0iÌ
\0\0\0i0
\ 1\0\0(
\ 2\0\0\0iÍ
\0\0\0i1
\ 1\0\0(
\ 2\0\0\0iÎ
\0\0\0i2
\ 1\0\0(
\ 2\0\0\0iÏ
\0\0\0i3
\ 1\0\0(
\ 2\0\0\0iÒ
\0\0\0i6
\ 1\0\0(
\ 2\0\0\0iÓ
\0\0\0i7
\ 1\0\0(
\ 2\0\0\0iÔ
\0\0\0i8
\ 1\0\0(
\ 2\0\0\0iÕ
\0\0\0i9
\ 1\0\0(*
\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0RB
\0\0\0R¼
\ 3\0\0RØ
\0\0\0RÃ
\ 1\0\0R
\0\ 2\0\0Rw
\ 1\0\0R
\13\ 1\0\0RX
\ 1\0\0R³
\0\0\0Rm
\0\0\0Rn
\0\0\0R{
\ 1\0\0R_
\ 2\0\0R.
\0\0\0R
\1c\ 1\0\0Rd
\0\0\0RÉ
\ 3\0\0RP
\ 1\0\0R>
\0\0\0R¾
\ 3\0\0R`
\0\0\0R7
\ 2\0\0t
\11\0\0\0getPartDefAtLevelR+
\0\0\0t
\b\0\0\0getSlicet
\ 5\0\0\0sliceR0
\0\0\0t
\10\0\0\0getNumberOfElemsRÐ
\ 1\0\0Rs
\ 2\0\0t
\ 5\0\0\0toDAIR1
\0\0\0Rk
\0\0\0R[
\ 1\0\0RN
\0\0\0Rv
\ 3\0\0R+
\ 1\0\0(
\f\0\0\0R
\0\0\0R!
\0\0\0RÊ
\ 3\0\0RË
\ 3\0\0RÔ
\ 1\0\0R
\83\0\0\0R?
\ 1\0\0R
\b\0\0\0R
\0\0\0R
\86\0\0\0t
\ 3\0\0\0spdRl
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testZipCoordsWithLoadPart1¢
\ f\0\0sp
\0\0\0\0\ 3\ 6\ 1\ 6\ 1\f\ 1\f\0
34731 +
\ 1 \0\10\ 1\f\ 1\r\ 1\10\ 1\ f\ 1\13\ 1
34732 +
\ 1\ f\0\r\ 1\r\ 1\ f\0\r\ 1"
\ 1%
\ 1\r\ 1\10\ 1\ f\0\r\ 1\r\ 1\ f\0\r\ 1%
\ 1%
\ 1\r\ 1
34733 +
\ 1\r\ 2 \ 1$
\ 1\r\ 1\12\ 1"
\ 1\ f\ 1"
\ 11
\ 1
34734 +
\ 1\12\ 1"
\ 1\ f\ 11
\ 1:
\ 1\15\ 1\12\ 1\12\ 1\r\ 1'
\ 1\12\ 1$
\ 1\r\ 1'
\ 1c
\ 1\0\0\0\ 4\0\0\0\13\0\0\0C
\0\0\0sú
\0\0\0t
\0\0\83\0\0}
\ 1\0|
\ 1\0j
\ 1\0t
\ 2\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0g
\ 5\0\83\ 1\0t
\ 2\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0g
\ 5\0\83\ 1\0\83\ 2\0\ 1|
\ 1\0j
\ 3\0d
\ 6\0\83\ 1\0\ 1t
\ 4\0\83\0\0}
\ 2\0|
\ 2\0j
\ 5\0|
\ 1\0\83\ 1\0\ 1t
\ 6\0d
\ 2\0d
\ 4\0d
\ 5\0d
\a\0d
\b\0g
\ 5\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 3\0d
\0\83\ 1\0\ 1|
\ 2\0j
\a\0d
\ 1\0|
\ 3\0g
\ 1\0\83\ 2\0\ 1|
\0\0j
\b\0|
\ 2\0j
\0d
\ 1\0\83\ 1\0j
34737 +
\0d
\v\0d
\v\0d
\v\0d
34746 +
\0g
\10\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1d
\f\0S(
\r\0\0\0s\
\0\0\0 Non regression test to check that setGroupsAtLevel is available with MEDFileCMesh.
34747 + i
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0Rn
\ 2\0\0i
\ 5\0\0\0i
\a\0\0\0t
34748 +
\0\0\0MyAssemblyiÿÿÿÿiþÿÿÿN(
\v\0\0\0R±
\0\0\0Rc
\0\0\0RY
\0\0\0RB
\0\0\0R¯
\0\0\0R³
\0\0\0Rk
\0\0\0Rl
\0\0\0R0
\0\0\0R
\9e\0\0\0R1
\0\0\0(
\ 4\0\0\0R
\0\0\0R
\83\0\0\0R
\86\0\0\0Rç
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\0\0\0testMEDFileCMeshSetGroupsAtLevelÙ
\ f\0\0s
\14\0\0\0\0\ 3 \0:
\ 1\r\ 1 \0\r\ 1\e\0\r\ 1\13\ 1U
\ 1c
\ 1\0\0\0\19\0\0\0\9b\ 3\0\0C
\0\0\0s¤$
\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0d
\ 4\0}
\ 4\0t
\0\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0g
\ 4\0\83\ 1\0}
\ 5\0t
\0\0d
\ 5\0d
\0d
34749 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\a\0g
\f\0\83\ 1\0}
\ 6\0t
\ 1\0d
\13\0\83\ 1\0}
\a\0|
\a\0j
\ 2\0\83\0\0\ 1t
\ 3\0\83\0\0}
\b\0|
\b\0j
\ 4\0|
\a\0|
\a\0\83\ 2\0\ 1|
\b\0j
\ 5\0\83\0\0}
\b\0|
\ 5\0j
\ 6\0|
\b\0j
\a\0\83\0\0\83\ 1\0}
\0|
\b\0|
\0\19}
\b\0|
\b\0j
\b\0\83\0\0\ 1|
\b\0|
\ 6\0\19}
34750 +
\0|
\b\0|
\ 6\0j
\ 6\0|
\b\0j
\a\0\83\0\0\83\ 1\0\19}
\v\0|
34751 +
\0j
\0d
\ 5\0\83\ 1\0\ 1t
34753 +
\0|
\v\0g
\ 2\0\83\ 1\0}
\b\0|
\b\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\b\0j
\r\0\83\0\0\
\ 5\0}
\f\0}
\a\0}
\r\0}
\ e\0}
\ f\0|
\ f\0j
\ e\0\83\0\0j
\ f\0d
\0\83\ 1\0}
\10\0t
\10\0\83\0\0}
\11\0|
\11\0j
\11\0d
\ 5\0|
\b\0\83\ 2\0\ 1|
\11\0j
\11\0d
\14\0|
\f\0\83\ 2\0\ 1t
\0\0d
\ 5\0d
\0d
34754 +
\0d
\v\0d
\ 6\0d
\15\0d
\b\0d
\16\0d
\17\0g
\0\83\ 1\0}
\12\0|
\12\0j
\f\0d
\18\0\83\ 1\0\ 1|
\11\0j
\12\0d
\ 5\0|
\12\0g
\ 1\0\83\ 2\0\ 1|
\10\0}
\13\0|
\13\0j
\f\0d
\19\0\83\ 1\0\ 1|
\11\0j
\12\0d
\14\0|
\13\0g
\ 1\0\83\ 2\0\ 1|
\11\0j
\13\0|
\ 1\0d
34755 +
\0\83\ 2\0\ 1t
\ 1\0d
\v\0\83\ 1\0}
\a\0|
\a\0j
\ 2\0\83\0\0\ 1t
\ 3\0\83\0\0}
\14\0|
\14\0j
\ 4\0|
\a\0\83\ 1\0\ 1|
\14\0j
\ 5\0\83\0\0}
\14\0|
\14\0j
\f\0|
\ 3\0\83\ 1\0\ 1|
\14\0j
\14\0d
\v\0\83\ 1\0\ 1|
\14\0j
\ 4\0|
\14\0j
\15\0\83\0\0d
\1a\0d
\1a\0\85\ 2\0d
\0d
34756 +
\0d
\ 5\0g
\ 3\0f
\ 2\0\19\83\ 1\0\ 1t
\10\0\83\0\0}
\15\0|
\15\0j
\11\0d
\ 5\0|
\14\0\83\ 2\0\ 1|
\15\0j
\13\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1t
\16\0j
\17\0|
\ 1\0|
\ 2\0\83\ 2\0}
\16\0t
\16\0j
\17\0|
\ 1\0|
\ 3\0\83\ 2\0}
\15\0|
\15\0j
\18\0d
\ 5\0\83\ 1\0}
\17\0|
\16\0j
\19\0|
\17\0d
\ 5\0\83\ 2\0}
\18\0|
\0\0j
\1a\0|
\18\0j
\e\0\83\0\0|
\16\0j
\e\0\83\0\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\18\0j
\1c\0d
\ 5\0\83\ 1\0d
\e\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\18\0j
\1c\0d
\14\0\83\ 1\0d
\1c\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\18\0j
\1d\0\83\0\0d
\18\0d
\1d\0d
\1e\0d
\19\0d
\1f\0d
\0f
\ 6\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\18\0j
\1e\0d
\18\0\83\ 1\0d
\14\0f
\ 1\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\18\0j
\1e\0d
\1e\0\83\ 1\0d
\14\0f
\ 1\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\18\0j
\1e\0d
\1d\0\83\ 1\0d
\ 5\0f
\ 1\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\18\0j
\1e\0d
\19\0\83\ 1\0d!
\0f
\ 1\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\18\0j
\1e\0d
\0\83\ 1\0d!
\0f
\ 1\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\18\0j
\1e\0d
\1f\0\83\ 1\0d
\14\0f
\ 1\0\83\ 2\0\ 1t
\ 1\0d"
\0d#
\0d#
\0f
\ 3\0d$
\0d#
\0d#
\0f
\ 3\0d%
\0d#
\0d#
\0f
\ 3\0d&
\0d#
\0d#
\0f
\ 3\0d#
\0d"
\0d#
\0f
\ 3\0d"
\0d"
\0d#
\0f
\ 3\0d$
\0d"
\0d#
\0f
\ 3\0d%
\0d"
\0d#
\0f
\ 3\0d&
\0d"
\0d#
\0f
\ 3\0d'
\0d"
\0d#
\0f
\ 3\0d#
\0d$
\0d#
\0f
\ 3\0d"
\0d$
\0d#
\0f
\ 3\0d$
\0d$
\0d#
\0f
\ 3\0d%
\0d$
\0d#
\0f
\ 3\0d&
\0d$
\0d#
\0f
\ 3\0d'
\0d$
\0d#
\0f
\ 3\0d#
\0d%
\0d#
\0f
\ 3\0d"
\0d%
\0d#
\0f
\ 3\0d$
\0d%
\0d#
\0f
\ 3\0d%
\0d%
\0d#
\0f
\ 3\0d&
\0d%
\0d#
\0f
\ 3\0d'
\0d%
\0d#
\0f
\ 3\0d#
\0d&
\0d#
\0f
\ 3\0d"
\0d&
\0d#
\0f
\ 3\0d$
\0d&
\0d#
\0f
\ 3\0d%
\0d&
\0d#
\0f
\ 3\0d&
\0d&
\0d#
\0f
\ 3\0d'
\0d&
\0d#
\0f
\ 3\0d"
\0d'
\0d#
\0f
\ 3\0d$
\0d'
\0d#
\0f
\ 3\0d%
\0d'
\0d#
\0f
\ 3\0d&
\0d'
\0d#
\0f
\ 3\0d"
\0d#
\0d"
\0f
\ 3\0d$
\0d#
\0d"
\0f
\ 3\0d%
\0d#
\0d"
\0f
\ 3\0d&
\0d#
\0d"
\0f
\ 3\0d#
\0d"
\0d"
\0f
\ 3\0d"
\0d"
\0d"
\0f
\ 3\0d$
\0d"
\0d"
\0f
\ 3\0d%
\0d"
\0d"
\0f
\ 3\0d&
\0d"
\0d"
\0f
\ 3\0d'
\0d"
\0d"
\0f
\ 3\0d#
\0d$
\0d"
\0f
\ 3\0d"
\0d$
\0d"
\0f
\ 3\0d$
\0d$
\0d"
\0f
\ 3\0d%
\0d$
\0d"
\0f
\ 3\0d&
\0d$
\0d"
\0f
\ 3\0d'
\0d$
\0d"
\0f
\ 3\0d#
\0d%
\0d"
\0f
\ 3\0d"
\0d%
\0d"
\0f
\ 3\0d$
\0d%
\0d"
\0f
\ 3\0d%
\0d%
\0d"
\0f
\ 3\0d&
\0d%
\0d"
\0f
\ 3\0d'
\0d%
\0d"
\0f
\ 3\0d#
\0d&
\0d"
\0f
\ 3\0d"
\0d&
\0d"
\0f
\ 3\0d$
\0d&
\0d"
\0f
\ 3\0d%
\0d&
\0d"
\0f
\ 3\0d&
\0d&
\0d"
\0f
\ 3\0d'
\0d&
\0d"
\0f
\ 3\0d"
\0d'
\0d"
\0f
\ 3\0d$
\0d'
\0d"
\0f
\ 3\0d%
\0d'
\0d"
\0f
\ 3\0d&
\0d'
\0d"
\0f
\ 3\0d"
\0d#
\0d$
\0f
\ 3\0d$
\0d#
\0d$
\0f
\ 3\0d%
\0d#
\0d$
\0f
\ 3\0d&
\0d#
\0d$
\0f
\ 3\0d#
\0d"
\0d$
\0f
\ 3\0d"
\0d"
\0d$
\0f
\ 3\0d$
\0d"
\0d$
\0f
\ 3\0d%
\0d"
\0d$
\0f
\ 3\0d&
\0d"
\0d$
\0f
\ 3\0d'
\0d"
\0d$
\0f
\ 3\0d#
\0d$
\0d$
\0f
\ 3\0d"
\0d$
\0d$
\0f
\ 3\0d$
\0d$
\0d$
\0f
\ 3\0d%
\0d$
\0d$
\0f
\ 3\0d&
\0d$
\0d$
\0f
\ 3\0d'
\0d$
\0d$
\0f
\ 3\0d#
\0d%
\0d$
\0f
\ 3\0d"
\0d%
\0d$
\0f
\ 3\0d$
\0d%
\0d$
\0f
\ 3\0d%
\0d%
\0d$
\0f
\ 3\0d&
\0d%
\0d$
\0f
\ 3\0d'
\0d%
\0d$
\0f
\ 3\0d#
\0d&
\0d$
\0f
\ 3\0d"
\0d&
\0d$
\0f
\ 3\0d$
\0d&
\0d$
\0f
\ 3\0d%
\0d&
\0d$
\0f
\ 3\0d&
\0d&
\0d$
\0f
\ 3\0d'
\0d&
\0d$
\0f
\ 3\0d"
\0d'
\0d$
\0f
\ 3\0d$
\0d'
\0d$
\0f
\ 3\0d%
\0d'
\0d$
\0f
\ 3\0d&
\0d'
\0d$
\0f
\ 3\0g`
\0\83\ 1\0}
\ f\0|
\0\0j
\1f\0|
\18\0j
\15\0\83\0\0j
\0|
\ f\0d(
\0\83\ 2\0\83\ 1\0\ 1t
\0\0d)
\0d
\0d
\ 5\0d
\15\0d*
\0d+
\0d,
\0d)
\0d
\0d
\15\0d
\13\0d*
\0d,
\0d-
\0d)
\0d
34757 +
\0d
\0d
\13\0d.
\0d*
\0d-
\0d)
\0d
34758 +
\0d
\13\0d
\f\0d.
\0d-
\0d/
\0d)
\0d
\v\0d
34759 +
\0d
\f\0d0
\0d.
\0d/
\0d)
\0d
\v\0d
\f\0d
\r\0d0
\0d/
\0d1
\0d)
\0d
\15\0d
\ 6\0d2
\0d,
\0d3
\0d4
\0d)
\0d
\15\0d2
\0d5
\0d,
\0d4
\0d6
\0d)
\0d7
\0d
\r\0d8
\0d9
\0d1
\0d:
\0d)
\0d7
\0d8
\0d;
\0d9
\0d:
\0d<
\0d)
\0d5
\0d2
\0d)
\0d6
\0d4
\0d=
\0d)
\0d5
\0d)
\0d
\10\0d6
\0d=
\0d>
\0d)
\0d;
\0d8
\0d
\a\0d<
\0d:
\0d?
\0d)
\0d;
\0d
\a\0d@
\0d<
\0d?
\0dA
\0d)
\0d
\10\0d)
\0dB
\0d>
\0d=
\0dC
\0d)
\0d
\10\0dB
\0dD
\0d>
\0dC
\0dE
\0d)
\0d@
\0d
\a\0d
\17\0dA
\0d?
\0dF
\0d)
\0d@
\0d
\17\0dG
\0dA
\0dF
\0dH
\0d)
\0d
\b\0dD
\0dI
\0dJ
\0dE
\0dK
\0d)
\0d
\b\0dI
\0dL
\0dJ
\0dK
\0dM
\0d)
\0d
\16\0d
\b\0dL
\0dN
\0dJ
\0dM
\0d)
\0d
\16\0dL
\0dO
\0dN
\0dM
\0dP
\0d)
\0d
\17\0d
\16\0dO
\0dF
\0dN
\0dP
\0d)
\0d
\17\0dO
\0dQ
\0dF
\0dP
\0dR
\0d)
\0d*
\0d+
\0d,
\0dS
\0dT
\0dU
\0d)
\0d*
\0d,
\0d-
\0dS
\0dU
\0dV
\0d)
\0d.
\0d*
\0d-
\0d
\e\0dS
\0dV
\0d)
\0d.
\0d-
\0d/
\0d
\e\0dV
\0dW
\0d)
\0d0
\0d.
\0d/
\0dX
\0d
\e\0dW
\0d)
\0d0
\0d/
\0d1
\0dX
\0dW
\0dY
\0d)
\0d,
\0d3
\0d4
\0dU
\0dZ
\0d[
\0d)
\0d,
\0d4
\0d6
\0dU
\0d[
\0d\
\0d)
\0d9
\0d1
\0d:
\0d]
\0dY
\0d^
\0d)
\0d9
\0d:
\0d<
\0d]
\0d^
\0d_
\0d)
\0d6
\0d4
\0d=
\0d\
\0d[
\0d`
\0d)
\0d6
\0d=
\0d>
\0d\
\0d`
\0da
\0d)
\0d<
\0d:
\0d?
\0d_
\0d^
\0db
\0d)
\0d<
\0d?
\0dA
\0d_
\0db
\0dc
\0d)
\0d>
\0d=
\0dC
\0da
\0d`
\0dd
\0d)
\0d>
\0dC
\0dE
\0da
\0dd
\0de
\0d)
\0dA
\0d?
\0dF
\0dc
\0db
\0df
\0d)
\0dA
\0dF
\0dH
\0dc
\0df
\0dg
\0d)
\0dJ
\0dE
\0dK
\0dh
\0de
\0di
\0d)
\0dJ
\0dK
\0dM
\0dh
\0di
\0dj
\0d)
\0dN
\0dJ
\0dM
\0dk
\0dh
\0dj
\0d)
\0dN
\0dM
\0dP
\0dk
\0dj
\0dl
\0d)
\0dF
\0dN
\0dP
\0df
\0dk
\0dl
\0d)
\0dF
\0dP
\0dR
\0df
\0dl
\0dm
\0d
\11\0d
\13\0d
\15\0d5
\0d
\ e\0d-
\0d,
\0d6
\0dn
\0d
\11\0d
\f\0d
\13\0d
\ e\0d
\ f\0d/
\0d-
\0dn
\0do
\0d
\11\0d
\r\0d
\f\0d
\ f\0d8
\0d1
\0d/
\0do
\0d:
\0d
\11\0d
\ e\0d5
\0d
\10\0d
\11\0dn
\0d6
\0d>
\0dp
\0d
\11\0d
\ f\0d
\ e\0d
\11\0d
\12\0do
\0dn
\0dp
\0dq
\0d
\11\0d8
\0d
\ f\0d
\12\0d
\a\0d:
\0do
\0dq
\0d?
\0d
\11\0d
\11\0d
\10\0dD
\0d
\b\0dp
\0d>
\0dE
\0dJ
\0d
\11\0d
\12\0d
\11\0d
\b\0d
\16\0dq
\0dp
\0dJ
\0dN
\0d
\11\0d
\a\0d
\12\0d
\16\0d
\17\0d?
\0dq
\0dN
\0dF
\0d
\11\0d-
\0d,
\0d6
\0dn
\0dV
\0dU
\0d\
\0dr
\0d
\11\0d/
\0d-
\0dn
\0do
\0dW
\0dV
\0dr
\0ds
\0d
\11\0d1
\0d/
\0do
\0d:
\0dY
\0dW
\0ds
\0d^
\0d
\11\0dn
\0d6
\0d>
\0dp
\0dr
\0d\
\0da
\0dt
\0d
\11\0do
\0dn
\0dp
\0dq
\0ds
\0dr
\0dt
\0du
\0d
\11\0d:
\0do
\0dq
\0d?
\0d^
\0ds
\0du
\0db
\0d
\11\0dp
\0d>
\0dE
\0dJ
\0dt
\0da
\0de
\0dh
\0d
\11\0dq
\0dp
\0dJ
\0dN
\0du
\0dt
\0dh
\0dk
\0d
\11\0d?
\0dq
\0dN
\0dF
\0db
\0du
\0dk
\0df
\0gò
\ 1\83\ 1\0}
\ f\0|
\0\0j
\1f\0|
\18\0d
\ 5\0\19j!
\0\83\0\0j
\0|
\ f\0\83\ 1\0\83\ 1\0\ 1t
\0\0d
\ 5\0d
\f\0d8
\0d@
\0dI
\0d0
\0d4
\0d>
\0dJ
\0dR
\0dV
\0ds
\0db
\0dg
\0dv
\0dw
\0dx
\0dy
\0dz
\0d{
\0d|
\0d}
\0d~
\0d
\7f\0d
\80\0d
\81\0d
\82\0d
\83\0d
\84\0d
\85\0d
\86\0d
\87\0d
\88\0d
\89\0d
\8a\0d
\8b\0d
\8c\0d
\8d\0d
\8e\0d
\8f\0d
\90\0d
\91\0d
\92\0d
\93\0d
\94\0d
\95\0d
\96\0d
\97\0d
\98\0d
\99\0d
\9a\0d
\9b\0d
\9c\0d
\9d\0d
\9e\0d
\9f\0d
\0d¡
\0d¢
\0d£
\0d¤
\0d¥
\0d¦
\0d§
\0d¨
\0d©
\0dª
\0gC
\0\83\ 1\0}
\ f\0|
\0\0j
\1f\0|
\18\0d
\ 5\0\19j"
\0\83\0\0j
\0|
\ f\0\83\ 1\0\83\ 1\0\ 1t
\0\0d
\v\0d
\0d
\ 5\0d
\15\0d
\v\0d
\0d
\15\0d
\13\0d
\v\0d
34760 +
\0d
\0d
\13\0d
\v\0d
34761 +
\0d
\13\0d
\f\0d
\v\0d
\v\0d
34762 +
\0d
\f\0d
\v\0d
\v\0d
\f\0d
\r\0d
\v\0d
\15\0d
\ 6\0d2
\0d
\v\0d
\15\0d2
\0d5
\0d
\v\0d7
\0d
\r\0d8
\0d
\v\0d7
\0d8
\0d;
\0d
\v\0d5
\0d2
\0d)
\0d
\v\0d5
\0d)
\0d
\10\0d
\v\0d;
\0d8
\0d
\a\0d
\v\0d;
\0d
\a\0d@
\0d
\v\0d
\10\0d)
\0dB
\0d
\v\0d
\10\0dB
\0dD
\0d
\v\0d@
\0d
\a\0d
\17\0d
\v\0d@
\0d
\17\0dG
\0d
\v\0d
\b\0dD
\0dI
\0d
\v\0d
\b\0dI
\0dL
\0d
\v\0d
\16\0d
\b\0dL
\0d
\v\0d
\16\0dL
\0dO
\0d
\v\0d
\17\0d
\16\0dO
\0d
\v\0d
\17\0dO
\0dQ
\0d
\v\0dS
\0dT
\0dU
\0d
\v\0dS
\0dU
\0dV
\0d
\v\0d
\e\0dS
\0dV
\0d
\v\0d
\e\0dV
\0dW
\0d
\v\0dX
\0d
\e\0dW
\0d
\v\0dX
\0dW
\0dY
\0d
\v\0dU
\0dZ
\0d[
\0d
\v\0dU
\0d[
\0d\
\0d
\v\0d]
\0dY
\0d^
\0d
\v\0d]
\0d^
\0d_
\0d
\v\0d\
\0d[
\0d`
\0d
\v\0d\
\0d`
\0da
\0d
\v\0d_
\0d^
\0db
\0d
\v\0d_
\0db
\0dc
\0d
\v\0da
\0d`
\0dd
\0d
\v\0da
\0dd
\0de
\0d
\v\0dc
\0db
\0df
\0d
\v\0dc
\0df
\0dg
\0d
\v\0dh
\0de
\0di
\0d
\v\0dh
\0di
\0dj
\0d
\v\0dk
\0dh
\0dj
\0d
\v\0dk
\0dj
\0dl
\0d
\v\0df
\0dk
\0dl
\0d
\v\0df
\0dl
\0dm
\0d
\ 6\0d
\0d
\ 5\0d+
\0d*
\0d
\ 6\0d
\ 5\0d
\15\0d,
\0d+
\0d
\ 6\0d
\15\0d
\0d*
\0d,
\0d
\ 6\0d
\15\0d
\13\0d-
\0d,
\0d
\ 6\0d
\13\0d
\0d*
\0d-
\0d
\ 6\0d
34763 +
\0d
\0d*
\0d.
\0d
\ 6\0d
\13\0d
34764 +
\0d.
\0d-
\0d
\ 6\0d
\13\0d
\f\0d/
\0d-
\0d
\ 6\0d
\f\0d
34765 +
\0d.
\0d/
\0d
\ 6\0d
\v\0d
34766 +
\0d.
\0d0
\0d
\ 6\0d
\f\0d
\v\0d0
\0d/
\0d
\ 6\0d
\f\0d
\r\0d1
\0d/
\0d
\ 6\0d
\r\0d
\v\0d0
\0d1
\0d
\ 6\0d
\15\0d
\ 6\0d3
\0d,
\0d
\ 6\0d
\ 6\0d2
\0d4
\0d3
\0d
\ 6\0d2
\0d
\15\0d,
\0d4
\0d
\ 6\0d2
\0d5
\0d6
\0d4
\0d
\ 6\0d5
\0d
\15\0d,
\0d6
\0d
\ 6\0d7
\0d
\r\0d1
\0d9
\0d
\ 6\0d
\r\0d8
\0d:
\0d1
\0d
\ 6\0d8
\0d7
\0d9
\0d:
\0d
\ 6\0d8
\0d;
\0d<
\0d:
\0d
\ 6\0d;
\0d7
\0d9
\0d<
\0d
\ 6\0d2
\0d)
\0d=
\0d4
\0d
\ 6\0d)
\0d5
\0d6
\0d=
\0d
\ 6\0d)
\0d
\10\0d>
\0d=
\0d
\ 6\0d
\10\0d5
\0d6
\0d>
\0d
\ 6\0d8
\0d
\a\0d?
\0d:
\0d
\ 6\0d
\a\0d;
\0d<
\0d?
\0d
\ 6\0d
\a\0d@
\0dA
\0d?
\0d
\ 6\0d@
\0d;
\0d<
\0dA
\0d
\ 6\0d)
\0dB
\0dC
\0d=
\0d
\ 6\0dB
\0d
\10\0d>
\0dC
\0d
\ 6\0dB
\0dD
\0dE
\0dC
\0d
\ 6\0dD
\0d
\10\0d>
\0dE
\0d
\ 6\0d
\a\0d
\17\0dF
\0d?
\0d
\ 6\0d
\17\0d@
\0dA
\0dF
\0d
\ 6\0d
\17\0dG
\0dH
\0dF
\0d
\ 6\0dG
\0d@
\0dA
\0dH
\0d
\ 6\0d
\b\0dD
\0dE
\0dJ
\0d
\ 6\0dD
\0dI
\0dK
\0dE
\0d
\ 6\0dI
\0d
\b\0dJ
\0dK
\0d
\ 6\0dI
\0dL
\0dM
\0dK
\0d
\ 6\0dL
\0d
\b\0dJ
\0dM
\0d
\ 6\0d
\16\0d
\b\0dJ
\0dN
\0d
\ 6\0dL
\0d
\16\0dN
\0dM
\0d
\ 6\0dL
\0dO
\0dP
\0dM
\0d
\ 6\0dO
\0d
\16\0dN
\0dP
\0d
\ 6\0d
\17\0d
\16\0dN
\0dF
\0d
\ 6\0dO
\0d
\17\0dF
\0dP
\0d
\ 6\0dO
\0dQ
\0dR
\0dP
\0d
\ 6\0dQ
\0d
\17\0dF
\0dR
\0d
\ 6\0d5
\0d
\ e\0dn
\0d6
\0d
\ 6\0d
\ e\0d
\13\0d-
\0dn
\0d
\ 6\0d
\ e\0d
\ f\0do
\0dn
\0d
\ 6\0d
\ f\0d
\f\0d/
\0do
\0d
\ 6\0d
\ f\0d8
\0d:
\0do
\0d
\ 6\0d
\10\0d
\11\0dp
\0d>
\0d
\ 6\0d
\11\0d
\ e\0dn
\0dp
\0d
\ 6\0d
\11\0d
\12\0dq
\0dp
\0d
\ 6\0d
\12\0d
\ f\0do
\0dq
\0d
\ 6\0d
\12\0d
\a\0d?
\0dq
\0d
\ 6\0d
\b\0d
\11\0dp
\0dJ
\0d
\ 6\0d
\16\0d
\12\0dq
\0dN
\0d
\ 6\0d*
\0d+
\0dT
\0dS
\0d
\ 6\0d+
\0d,
\0dU
\0dT
\0d
\ 6\0d,
\0d*
\0dS
\0dU
\0d
\ 6\0d,
\0d-
\0dV
\0dU
\0d
\ 6\0d-
\0d*
\0dS
\0dV
\0d
\ 6\0d.
\0d*
\0dS
\0d
\e\0d
\ 6\0d-
\0d.
\0d
\e\0dV
\0d
\ 6\0d-
\0d/
\0dW
\0dV
\0d
\ 6\0d/
\0d.
\0d
\e\0dW
\0d
\ 6\0d0
\0d.
\0d
\e\0dX
\0d
\ 6\0d/
\0d0
\0dX
\0dW
\0d
\ 6\0d/
\0d1
\0dY
\0dW
\0d
\ 6\0d1
\0d0
\0dX
\0dY
\0d
\ 6\0d,
\0d3
\0dZ
\0dU
\0d
\ 6\0d3
\0d4
\0d[
\0dZ
\0d
\ 6\0d4
\0d,
\0dU
\0d[
\0d
\ 6\0d4
\0d6
\0d\
\0d[
\0d
\ 6\0d6
\0d,
\0dU
\0d\
\0d
\ 6\0d9
\0d1
\0dY
\0d]
\0d
\ 6\0d1
\0d:
\0d^
\0dY
\0d
\ 6\0d:
\0d9
\0d]
\0d^
\0d
\ 6\0d:
\0d<
\0d_
\0d^
\0d
\ 6\0d<
\0d9
\0d]
\0d_
\0d
\ 6\0d4
\0d=
\0d`
\0d[
\0d
\ 6\0d=
\0d6
\0d\
\0d`
\0d
\ 6\0d=
\0d>
\0da
\0d`
\0d
\ 6\0d>
\0d6
\0d\
\0da
\0d
\ 6\0d:
\0d?
\0db
\0d^
\0d
\ 6\0d?
\0d<
\0d_
\0db
\0d
\ 6\0d?
\0dA
\0dc
\0db
\0d
\ 6\0dA
\0d<
\0d_
\0dc
\0d
\ 6\0d=
\0dC
\0dd
\0d`
\0d
\ 6\0dC
\0d>
\0da
\0dd
\0d
\ 6\0dC
\0dE
\0de
\0dd
\0d
\ 6\0dE
\0d>
\0da
\0de
\0d
\ 6\0d?
\0dF
\0df
\0db
\0d
\ 6\0dF
\0dA
\0dc
\0df
\0d
\ 6\0dF
\0dH
\0dg
\0df
\0d
\ 6\0dH
\0dA
\0dc
\0dg
\0d
\ 6\0dJ
\0dE
\0de
\0dh
\0d
\ 6\0dE
\0dK
\0di
\0de
\0d
\ 6\0dK
\0dJ
\0dh
\0di
\0d
\ 6\0dK
\0dM
\0dj
\0di
\0d
\ 6\0dM
\0dJ
\0dh
\0dj
\0d
\ 6\0dN
\0dJ
\0dh
\0dk
\0d
\ 6\0dM
\0dN
\0dk
\0dj
\0d
\ 6\0dM
\0dP
\0dl
\0dj
\0d
\ 6\0dP
\0dN
\0dk
\0dl
\0d
\ 6\0dF
\0dN
\0dk
\0df
\0d
\ 6\0dP
\0dF
\0df
\0dl
\0d
\ 6\0dP
\0dR
\0dm
\0dl
\0d
\ 6\0dR
\0dF
\0df
\0dm
\0d
\ 6\0d6
\0dn
\0dr
\0d\
\0d
\ 6\0dn
\0d-
\0dV
\0dr
\0d
\ 6\0dn
\0do
\0ds
\0dr
\0d
\ 6\0do
\0d/
\0dW
\0ds
\0d
\ 6\0do
\0d:
\0d^
\0ds
\0d
\ 6\0d>
\0dp
\0dt
\0da
\0d
\ 6\0dp
\0dn
\0dr
\0dt
\0d
\ 6\0dp
\0dq
\0du
\0dt
\0d
\ 6\0dq
\0do
\0ds
\0du
\0d
\ 6\0dq
\0d?
\0db
\0du
\0d
\ 6\0dJ
\0dp
\0dt
\0dh
\0d
\ 6\0dN
\0dq
\0du
\0dk
\0d
\ 6\0d
\13\0d
\15\0d5
\0d
\ e\0d
\ 6\0d
\f\0d
\13\0d
\ e\0d
\ f\0d
\ 6\0d
\r\0d
\f\0d
\ f\0d8
\0d
\ 6\0d
\ e\0d5
\0d
\10\0d
\11\0d
\ 6\0d
\ f\0d
\ e\0d
\11\0d
\12\0d
\ 6\0d8
\0d
\ f\0d
\12\0d
\a\0d
\ 6\0d
\11\0d
\10\0dD
\0d
\b\0d
\ 6\0d
\12\0d
\11\0d
\b\0d
\16\0d
\ 6\0d
\a\0d
\12\0d
\16\0d
\17\0d
\ 6\0dV
\0dU
\0d\
\0dr
\0d
\ 6\0dW
\0dV
\0dr
\0ds
\0d
\ 6\0dY
\0dW
\0ds
\0d^
\0d
\ 6\0dr
\0d\
\0da
\0dt
\0d
\ 6\0ds
\0dr
\0dt
\0du
\0d
\ 6\0d^
\0ds
\0du
\0db
\0d
\ 6\0dt
\0da
\0de
\0dh
\0d
\ 6\0du
\0dt
\0dh
\0dk
\0d
\ 6\0db
\0du
\0dk
\0df
\0g
\9a\ 3\83\ 1\0}
\ f\0|
\0\0j
\1f\0|
\18\0d
\14\0\19j!
\0\83\0\0j
\0|
\ f\0\83\ 1\0\83\ 1\0\ 1t
\0\0d
\ 5\0d
\ 6\0d
\r\0d
\ e\0d)
\0d
\a\0d
\b\0dI
\0d+
\0d3
\0d1
\0dn
\0d=
\0d?
\0dJ
\0dK
\0dT
\0dZ
\0dY
\0dr
\0d`
\0db
\0dh
\0di
\0d«
\0d¬
\0d
\0d®
\0dx
\0d¯
\0d°
\0d±
\0d²
\0d³
\0d´
\0d|
\0dµ
\0d¶
\0d·
\0d¸
\0d¹
\0dº
\0d
\80\0d»
\0d¼
\0d½
\0d¾
\0d¿
\0dÀ
\0dÁ
\0dÂ
\0dÃ
\0dÄ
\0d
\87\0dÅ
\0dÆ
\0dÇ
\0dÈ
\0dÉ
\0dÊ
\0d
\8c\0dË
\0dÌ
\0dÍ
\0dÎ
\0dÏ
\0dÐ
\0d
\91\0dÑ
\0dÒ
\0dÓ
\0dÔ
\0dÕ
\0dÖ
\0d
\96\0d×
\0dØ
\0dÙ
\0dÚ
\0dÛ
\0dÜ
\0dÝ
\0dÞ
\0dß
\0d
\9c\0dà
\0dá
\0dâ
\0dã
\0dä
\0då
\0dæ
\0dç
\0d¡
\0dè
\0dé
\0dê
\0dë
\0dì
\0dí
\0dî
\0dï
\0d¦
\0dð
\0dñ
\0dò
\0dó
\0dô
\0dõ
\0dö
\0d÷
\0dø
\0dù
\0dú
\0dû
\0dü
\0dý
\0dþ
\0dÿ
\0d
\0\ 1d
\ 1\ 1d
\ 2\ 1d
\ 3\ 1d
\ 4\ 1d
\ 5\ 1d
\ 6\ 1d
\a\ 1d
\b\ 1d
\ 1d
34767 +
\ 1d
\v\ 1d
\f\ 1d
\r\ 1d
\ e\ 1d
\ f\ 1d
\10\ 1d
\11\ 1d
\12\ 1d
\13\ 1d
\14\ 1d
\15\ 1d
\16\ 1d
\17\ 1d
\18\ 1d
\19\ 1d
\1a\ 1d
\e\ 1d
\1c\ 1d
\1d\ 1d
\1e\ 1d
\1f\ 1d
\ 1d!
\ 1d"
\ 1d#
\ 1d$
\ 1d%
\ 1d&
\ 1d'
\ 1d(
\ 1d)
\ 1d*
\ 1d+
\ 1d,
\ 1d-
\ 1d.
\ 1d/
\ 1d0
\ 1d1
\ 1d2
\ 1d3
\ 1d4
\ 1d5
\ 1d6
\ 1d7
\ 1d8
\ 1d9
\ 1d:
\ 1d;
\ 1d<
\ 1d=
\ 1d>
\ 1d?
\ 1d@
\ 1dA
\ 1dB
\ 1dC
\ 1dD
\ 1dE
\ 1dF
\ 1dG
\ 1dH
\ 1dI
\ 1dJ
\ 1dK
\ 1gÃ
\0\83\ 1\0}
\ f\0|
\0\0j
\1f\0|
\18\0d
\14\0\19j"
\0\83\0\0j
\0|
\ f\0\83\ 1\0\83\ 1\0\ 1t
\0\0d
\0d
\0d
\ 5\0d
\0d
\ 5\0d
\15\0d
\0d
\15\0d
\0d
\0d
\15\0d
\13\0d
\0d
\13\0d
\0d
\0d
34769 +
\0d
\0d
\13\0d
\f\0d
\0d
\f\0d
34771 +
\0d
\0d
\f\0d
\v\0d
\0d
\f\0d
\r\0d
\0d
\r\0d
\v\0d
\0d
\15\0d
\ 6\0d
\0d
\ 6\0d2
\0d
\0d2
\0d
\15\0d
\0d2
\0d5
\0d
\0d5
\0d
\15\0d
\0d7
\0d
\r\0d
\0d
\r\0d8
\0d
\0d8
\0d7
\0d
\0d8
\0d;
\0d
\0d;
\0d7
\0d
\0d2
\0d)
\0d
\0d)
\0d5
\0d
\0d)
\0d
\10\0d
\0d
\10\0d5
\0d
\0d8
\0d
\a\0d
\0d
\a\0d;
\0d
\0d
\a\0d@
\0d
\0d@
\0d;
\0d
\0d)
\0dB
\0d
\0dB
\0d
\10\0d
\0dB
\0dD
\0d
\0dD
\0d
\10\0d
\0d
\a\0d
\17\0d
\0d
\17\0d@
\0d
\0d
\17\0dG
\0d
\0dG
\0d@
\0d
\0d
\b\0dD
\0d
\0dD
\0dI
\0d
\0dI
\0d
\b\0d
\0dI
\0dL
\0d
\0dL
\0d
\b\0d
\0d
\16\0d
\b\0d
\0dL
\0d
\16\0d
\0dL
\0dO
\0d
\0dO
\0d
\16\0d
\0d
\17\0d
\16\0d
\0dO
\0d
\17\0d
\0dO
\0dQ
\0d
\0dQ
\0d
\17\0d
\0d5
\0d
\ e\0d
\0d
\ e\0d
\13\0d
\0d
\ e\0d
\ f\0d
\0d
\ f\0d
\f\0d
\0d
\ f\0d8
\0d
\0d
\10\0d
\11\0d
\0d
\11\0d
\ e\0d
\0d
\11\0d
\12\0d
\0d
\12\0d
\ f\0d
\0d
\12\0d
\a\0d
\0d
\b\0d
\11\0d
\0d
\16\0d
\12\0d
\0dS
\0dT
\0d
\0dT
\0dU
\0d
\0dU
\0dS
\0d
\0dU
\0dV
\0d
\0dV
\0dS
\0d
\0d
\e\0dS
\0d
\0dV
\0d
\e\0d
\0dV
\0dW
\0d
\0dW
\0d
\e\0d
\0dX
\0d
\e\0d
\0dW
\0dX
\0d
\0dW
\0dY
\0d
\0dY
\0dX
\0d
\0dU
\0dZ
\0d
\0dZ
\0d[
\0d
\0d[
\0dU
\0d
\0d[
\0d\
\0d
\0d\
\0dU
\0d
\0d]
\0dY
\0d
\0dY
\0d^
\0d
\0d^
\0d]
\0d
\0d^
\0d_
\0d
\0d_
\0d]
\0d
\0d[
\0d`
\0d
\0d`
\0d\
\0d
\0d`
\0da
\0d
\0da
\0d\
\0d
\0d^
\0db
\0d
\0db
\0d_
\0d
\0db
\0dc
\0d
\0dc
\0d_
\0d
\0d`
\0dd
\0d
\0dd
\0da
\0d
\0dd
\0de
\0d
\0de
\0da
\0d
\0db
\0df
\0d
\0df
\0dc
\0d
\0df
\0dg
\0d
\0dg
\0dc
\0d
\0dh
\0de
\0d
\0de
\0di
\0d
\0di
\0dh
\0d
\0di
\0dj
\0d
\0dj
\0dh
\0d
\0dk
\0dh
\0d
\0dj
\0dk
\0d
\0dj
\0dl
\0d
\0dl
\0dk
\0d
\0df
\0dk
\0d
\0dl
\0df
\0d
\0dl
\0dm
\0d
\0dm
\0df
\0d
\0d\
\0dr
\0d
\0dr
\0dV
\0d
\0dr
\0ds
\0d
\0ds
\0dW
\0d
\0ds
\0d^
\0d
\0da
\0dt
\0d
\0dt
\0dr
\0d
\0dt
\0du
\0d
\0du
\0ds
\0d
\0du
\0db
\0d
\0dh
\0dt
\0d
\0dk
\0du
\0g
\80\ 1\83\ 1\0}
\ f\0|
\0\0j
\1f\0|
\18\0d!
\0\19j!
\0\83\0\0j
\0|
\ f\0\83\ 1\0\83\ 1\0\ 1t
\0\0dL
\ 1\83\ 1\0}
\ f\0|
\ f\0j
\ 2\0\83\0\0\ 1|
\ f\0d
\v\09}
\ f\0|
\0\0j
\1f\0|
\18\0d!
\0\19j"
\0\83\0\0j
\0|
\ f\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1a\0|
\18\0j#
\0d
\14\0d
\18\0\83\ 2\0j
\e\0\83\0\0d
\18\0\83\ 2\0\ 1|
\0\0j
\1a\0|
\18\0j#
\0d!
\0d
\19\0\83\ 2\0j
\e\0\83\0\0d
\19\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\18\0j#
\0d
\14\0d
\18\0\83\ 2\0j$
\0t
\0\0d
\ 5\0d
\0d
34772 +
\0d
\v\0d
\ 6\0d
\15\0d¼
\0dM
\ 1dN
\ 1g
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\18\0j#
\0d
\14\0d
\1e\0\83\ 2\0j$
\0t
\0\0d
\b\0d
\16\0d
\17\0dG
\0dI
\0dL
\0dO
\ 1dP
\ 1dQ
\ 1g
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\18\0j#
\0d!
\0d
\19\0\83\ 2\0j$
\0t
\0\0d
\ 5\0d
\0d
\15\0d7
\0d
\ e\0d
\ f\0d8
\0d
\11\0dB
\0dD
\0dO
\0dQ
\0d*
\0d,
\0d-
\0d1
\0d4
\0d:
\0dp
\0dq
\0g
\14\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\18\0j#
\0d!
\0d
\0\83\ 2\0j$
\0t
\0\0dT
\0dS
\0dU
\0d]
\0dr
\0ds
\0d^
\0dt
\0dd
\0de
\0dl
\0dm
\0dR
\ 1dS
\ 1dT
\ 1d
\0dU
\ 1dV
\ 1dW
\ 1dX
\ 1g
\14\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\18\0j#
\0d
\ 5\0d
\1d\0\83\ 2\0j$
\0t
\0\0d
\ 5\0d
\0d
34773 +
\0d
\v\0d
\ 6\0d
\15\0d
\b\0d
\16\0d
\17\0dG
\0dI
\0dL
\0d=
\0d>
\0dp
\0dN
\0dF
\0dH
\0g
\12\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1f\0|
\18\0j#
\0d
\14\0d
\1f\0\83\ 2\0j$
\0t
\0\0d=
\0d>
\0dA
\0dN
\0dK
\0dM
\0dP
\0d
\e\0dV
\0dW
\0d^
\0d_
\0da
\0dc
\0dd
\0dh
\0df
\0dl
\0dv
\0dY
\ 1dx
\0dZ
\ 1d[
\ 1d\
\ 1d±
\0d]
\ 1dz
\0d^
\ 1d_
\ 1d`
\ 1da
\ 1db
\ 1dc
\ 1dd
\ 1de
\ 1d·
\0d~
\0df
\ 1dg
\ 1dh
\ 1g(
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\18\0j
\f\0di
\ 1\83\ 1\0\ 1|
\18\0j
\13\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1d
\1a\0S(j
\ 1\0\0s5
\0\0\0 New functionality of MEDFileUMesh.buildExtrudedMesh.s
\f\0\0\0Pyfile85.medRn
\ 2\0\0t
\ 6\0\0\0Mesh1Dt
\ 6\0\0\0Mesh3Di
\0\0\0\0i
\ 4\0\0\0i
\14\0\0\0i
\18\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\a\0\0\0i
\b\0\0\0i
\f\0\0\0i
\r\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0i
\ 6\0\0\0iÿÿÿÿi
\ 5\0\0\0i
\19\0\0\0i
\1a\0\0\0R
\93\ 2\0\0R
\95\ 2\0\0NiB
\0\0\0iÂ
\0\0\0t
\r\0\0\0grp0_extrudedt
\b\0\0\0grp0_topt
\r\0\0\0grp1_extrudedt
\b\0\0\0grp1_topiþÿÿÿg
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0\10@g
\0\0\0\0\0\0\14@g
\11ê-
\81\99\97q=i
\10\0\0\0i!
\0\0\0i
\0\0\0i%
\0\0\0i&
\0\0\0i"
\0\0\0i'
\0\0\0i#
\0\0\0i(
\0\0\0i
34774 +
\0\0\0i$
\0\0\0i*
\0\0\0i
\v\0\0\0i+
\0\0\0i
\0\0\0i
\ e\0\0\0i)
\0\0\0i.
\0\0\0i
\ f\0\0\0i/
\0\0\0i0
\0\0\0i1
\0\0\0i4
\0\0\0i
\15\0\0\0i5
\0\0\0i
\16\0\0\0i6
\0\0\0i
\17\0\0\0i7
\0\0\0i:
\0\0\0i
\e\0\0\0i;
\0\0\0i
\1c\0\0\0i8
\0\0\0i<
\0\0\0i
\1d\0\0\0i=
\0\0\0i9
\0\0\0i
\1e\0\0\0i>
\0\0\0i
\1f\0\0\0i?
\0\0\0iA
\0\0\0i@
\0\0\0iE
\0\0\0iF
\0\0\0iG
\0\0\0iC
\0\0\0iH
\0\0\0iD
\0\0\0iJ
\0\0\0iK
\0\0\0iI
\0\0\0iN
\0\0\0iO
\0\0\0iP
\0\0\0iQ
\0\0\0iT
\0\0\0iU
\0\0\0iV
\0\0\0iW
\0\0\0iZ
\0\0\0i[
\0\0\0iX
\0\0\0i\
\0\0\0i]
\0\0\0iY
\0\0\0i^
\0\0\0i_
\0\0\0i,
\0\0\0i-
\0\0\0i2
\0\0\0i3
\0\0\0iL
\0\0\0iM
\0\0\0iR
\0\0\0iS
\0\0\0ib
\0\0\0ii
\0\0\0ip
\0\0\0iw
\0\0\0i~
\0\0\0i
\85\0\0\0i
\8c\0\0\0i
\93\0\0\0i
\9a\0\0\0i¡
\0\0\0i¨
\0\0\0i¯
\0\0\0i¶
\0\0\0i½
\0\0\0iÄ
\0\0\0iË
\0\0\0iÒ
\0\0\0iÙ
\0\0\0ià
\0\0\0iç
\0\0\0iî
\0\0\0iõ
\0\0\0iü
\0\0\0i
\ 3\ 1\0\0i
34775 +
\ 1\0\0i
\11\ 1\0\0i
\18\ 1\0\0i
\1f\ 1\0\0i&
\ 1\0\0i-
\ 1\0\0i4
\ 1\0\0i;
\ 1\0\0iB
\ 1\0\0iI
\ 1\0\0iP
\ 1\0\0iY
\ 1\0\0ib
\ 1\0\0ik
\ 1\0\0it
\ 1\0\0i}
\ 1\0\0i
\86\ 1\0\0i
\8f\ 1\0\0i
\98\ 1\0\0i¡
\ 1\0\0iª
\ 1\0\0i³
\ 1\0\0i¼
\ 1\0\0iÅ
\ 1\0\0iÎ
\ 1\0\0i×
\ 1\0\0ià
\ 1\0\0ié
\ 1\0\0iò
\ 1\0\0i`
\0\0\0id
\0\0\0ih
\0\0\0il
\0\0\0it
\0\0\0ix
\0\0\0i|
\0\0\0i
\80\0\0\0i
\84\0\0\0i
\88\0\0\0i
\90\0\0\0i
\94\0\0\0i
\98\0\0\0i
\9c\0\0\0i
\0\0\0i¤
\0\0\0i¬
\0\0\0i°
\0\0\0i´
\0\0\0i¸
\0\0\0i¼
\0\0\0iÀ
\0\0\0iÅ
\0\0\0iÊ
\0\0\0iÏ
\0\0\0iÔ
\0\0\0iÞ
\0\0\0iã
\0\0\0iè
\0\0\0ií
\0\0\0iò
\0\0\0i÷
\0\0\0i
\ 1\ 1\0\0i
\ 6\ 1\0\0i
\v\ 1\0\0i
\10\ 1\0\0i
\15\ 1\0\0i
\1a\ 1\0\0i$
\ 1\0\0i)
\ 1\0\0i.
\ 1\0\0i3
\ 1\0\0i8
\ 1\0\0i=
\ 1\0\0iG
\ 1\0\0iL
\ 1\0\0iQ
\ 1\0\0iV
\ 1\0\0i[
\ 1\0\0i`
\ 1\0\0ie
\ 1\0\0ij
\ 1\0\0io
\ 1\0\0iy
\ 1\0\0i~
\ 1\0\0i
\83\ 1\0\0i
\88\ 1\0\0i
\8d\ 1\0\0i
\92\ 1\0\0i
\97\ 1\0\0i
\9c\ 1\0\0i¦
\ 1\0\0i«
\ 1\0\0i°
\ 1\0\0iµ
\ 1\0\0iº
\ 1\0\0i¿
\ 1\0\0iÄ
\ 1\0\0iÉ
\ 1\0\0iÓ
\ 1\0\0iØ
\ 1\0\0iÝ
\ 1\0\0iâ
\ 1\0\0iç
\ 1\0\0iì
\ 1\0\0iñ
\ 1\0\0iö
\ 1\0\0iû
\ 1\0\0i
\0\ 2\0\0i
\ 5\ 2\0\0i
34776 +
\ 2\0\0i
\ f\ 2\0\0i
\14\ 2\0\0i
\19\ 2\0\0i
\1e\ 2\0\0i#
\ 2\0\0i(
\ 2\0\0i-
\ 2\0\0i2
\ 2\0\0i7
\ 2\0\0i<
\ 2\0\0iA
\ 2\0\0iF
\ 2\0\0iK
\ 2\0\0iP
\ 2\0\0iU
\ 2\0\0iZ
\ 2\0\0i_
\ 2\0\0id
\ 2\0\0ii
\ 2\0\0in
\ 2\0\0is
\ 2\0\0ix
\ 2\0\0i}
\ 2\0\0i
\82\ 2\0\0i
\87\ 2\0\0i
\8c\ 2\0\0i
\91\ 2\0\0i
\96\ 2\0\0i
\9b\ 2\0\0i
\ 2\0\0i¥
\ 2\0\0iª
\ 2\0\0i¯
\ 2\0\0i´
\ 2\0\0i¹
\ 2\0\0i¾
\ 2\0\0iÃ
\ 2\0\0iÈ
\ 2\0\0iÍ
\ 2\0\0iÒ
\ 2\0\0i×
\ 2\0\0iÜ
\ 2\0\0iá
\ 2\0\0iæ
\ 2\0\0ië
\ 2\0\0ið
\ 2\0\0iõ
\ 2\0\0iú
\ 2\0\0iÿ
\ 2\0\0i
\ 4\ 3\0\0i
\ 3\0\0i
\ e\ 3\0\0i
\13\ 3\0\0i
\18\ 3\0\0i
\1d\ 3\0\0i"
\ 3\0\0i'
\ 3\0\0i,
\ 3\0\0i1
\ 3\0\0i6
\ 3\0\0i;
\ 3\0\0i@
\ 3\0\0iE
\ 3\0\0iJ
\ 3\0\0iO
\ 3\0\0iT
\ 3\0\0iY
\ 3\0\0i^
\ 3\0\0ic
\ 3\0\0ih
\ 3\0\0im
\ 3\0\0ir
\ 3\0\0iw
\ 3\0\0i|
\ 3\0\0i
\81\ 3\0\0i
\86\ 3\0\0i
\8b\ 3\0\0i
\90\ 3\0\0i
\95\ 3\0\0i
\9a\ 3\0\0i
\81\0\0\0i±
\0\0\0i²
\0\0\0i¹
\0\0\0iº
\0\0\0i»
\0\0\0ia
\0\0\0ie
\0\0\0if
\0\0\0ij
\0\0\0in
\0\0\0ir
\0\0\0is
\0\0\0ic
\0\0\0iq
\0\0\0iu
\0\0\0iy
\0\0\0i}
\0\0\0i
\82\0\0\0i
\86\0\0\0i
\87\0\0\0i
\8e\0\0\0i
\8f\0\0\0i
\91\0\0\0i
\95\0\0\0i
\96\0\0\0i
\9e\0\0\0i¢
\0\0\0i£
\0\0\0t
\f\0\0\0MeshExtruded(%
\0\0\0Rk
\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0t
\ f\0\0\0buildComplementR§
\0\0\0Rs
\ 2\0\0t
34777 +
\0\0\0simplexizeR[
\0\0\0t
\18\0\0\0MergeUMeshesOnSameCoordsRB
\0\0\0R
\9b\ 1\0\0Rè
\ 2\0\0Rë
\ 2\0\0R>
\0\0\0Rj
\0\0\0Rl
\0\0\0R
\v\0\0\0R¼
\ 3\0\0RØ
\0\0\0R'
\0\0\0R(
\0\0\0R}
\0\0\0t
\11\0\0\0buildExtrudedMeshR+
\0\0\0RC
\0\0\0t
\17\0\0\0getNumberOfCellsAtLevelR²
\ 1\0\0RÛ
\0\0\0R0
\0\0\0R1
\0\0\0Rv
\0\0\0Rw
\0\0\0RG
\0\0\0R
\7f\ 1\0\0(
\19\0\0\0R
\0\0\0R!
\0\0\0t
34779 +
\0\0\0meshName1Dt
\r\0\0\0meshName3DOutRú
\ 2\0\0Ro
\ 1\0\0R©
\ 2\0\0R
\83\0\0\0t
\ 3\0\0\0d1cRá
\0\0\0R
\84\0\0\0t
\a\0\0\0mMinus1Rï
\ 2\0\0R
\80\0\0\0Re
\ 1\0\0R
\ 2\0\0\0R
\86\0\0\0R
\93\ 2\0\0R
\95\ 2\0\0R
\93\ 1\0\0t
\ 4\0\0\0mm1Dt
\ 4\0\0\0mm2Dt
\ 3\0\0\0m1Dt
\ 4\0\0\0mm3D(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt"
\0\0\0testMEDFileUMeshBuildExtrudedMesh1ä
\ f\0\0sØ
\0\0\0\0\ 2\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 2\18\ 10
\ 2\f\0
34780 +
\ 1 \0\10\ 1\f\ 1\15\ 1
34783 +
\0\19\ 1\r\ 1\15\ 1\r\ 1\e\ 1\15\ 2 \ 1\10\0\10\ 1'
\0\r\ 1\13\ 1\ 6\0\r\ 1\13\ 1\10\ 2\f\0
34784 +
\ 1 \0\r\0\f\ 1\r\ 1\r\ 1,
\ 1 \ 1\10\ 1\10\ 2\12\ 1\12\ 1\ f\ 1\12\ 2\1c\ 1\19\ 1\19\ 1(
\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1ÿ
\0ÿ
\0ÿ
\0ÿ
\0\90\ 1\1f\ 1ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ç
\ 1 \ 1Õ
\ 1 \ 1ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ä
\ 1 \ 1ÿ
\0ÿ
\0W
\ 1 \ 1ÿ
\0ÿ
\0ÿ
\0ÿ
\0\90\ 1 \ 1\f\0
34786 +
\ 1 \ 2"
\ 1"
\ 1C
\ 1C
\ 1d
\ 1d
\ 1^
\ 1 \ 1\r\ 1\10\ 1s
\ e\0\0\0requires numpyc
\ 1\0\0\0\11\0\0\0\13\0\0\0C
\0\0\0sÄ
\ 6\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 4\0g
\12\0d
\ 5\0d
\ 6\0\83\ 3\0}
\ 2\0|
\ 2\0j
\ 1\0d
\a\0d
\b\0g
\ 2\0\83\ 1\0\ 1d
\0d
34787 +
\0d
\v\0d
\f\0d
\f\0d
\v\0d
\ 6\0d
\v\0d
\r\0d
\ 6\0d
\ e\0d
\ f\0d
\v\0d
34788 +
\0d
\ f\0d
\10\0d
\r\0d
\v\0g
\12\0}
\ 3\0t
\ 2\0\83\0\0}
\ 4\0|
\ 4\0j
\ 3\0d
\ 6\0\83\ 1\0\ 1|
\ 4\0j
\ 4\0d
\r\0\83\ 1\0\ 1|
\ 4\0j
\ 5\0t
\ 6\0d
34789 +
\0|
\ 3\0d
\v\0d
\ f\0!
\83\ 3\0\ 1|
\ 4\0j
\ 5\0t
\ 6\0d
34790 +
\0|
\ 3\0d
\ f\0d
\11\0!
\83\ 3\0\ 1|
\ 4\0j
\ 5\0t
\a\0d
\v\0|
\ 3\0d
\0d
\v\0!
\83\ 3\0\ 1|
\ 4\0j
\ 5\0t
\b\0d
\v\0|
\ 3\0d
\11\0d
\12\0!
\83\ 3\0\ 1|
\ 4\0j
\ 5\0t
\b\0d
\v\0|
\ 3\0d
\12\0d
\13\0!
\83\ 3\0\ 1|
\ 4\0j
\0\83\0\0\ 1|
\ 4\0j
34791 +
\0|
\ 2\0\83\ 1\0\ 1|
\ 4\0j
\v\0\83\0\0\ 1t
\ 2\0j
\f\0\83\0\0}
\ 5\0|
\ 5\0j
\ 3\0d
\f\0\83\ 1\0\ 1|
\ 5\0j
\ 4\0d
34792 +
\0\83\ 1\0\ 1|
\ 5\0j
\ 5\0t
\r\0d
\ 6\0d
\f\0d
\v\0g
\ 2\0\83\ 3\0\ 1|
\ 5\0j
\ 5\0t
\r\0d
\ 6\0d
34793 +
\0d
\ e\0g
\ 2\0\83\ 3\0\ 1|
\ 5\0j
\ 5\0t
\ e\0d
34794 +
\0d
\ 6\0d
\10\0d
\r\0g
\ 3\0\83\ 3\0\ 1|
\ 5\0j
\0\83\0\0\ 1|
\ 5\0j
34795 +
\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\v\0\83\0\0\ 1t
\ 2\0j
\f\0\83\0\0}
\ 6\0|
\ 6\0j
\ 3\0d
\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0d
\v\0\83\ 1\0\ 1|
\ 6\0j
\ 5\0t
\ f\0d
\f\0d
\f\0g
\ 1\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0t
\ f\0d
\f\0d
34796 +
\0g
\ 1\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0t
\ f\0d
\f\0d
\ 6\0g
\ 1\0\83\ 3\0\ 1|
\ 6\0j
\ 5\0t
\ f\0d
\f\0d
\ e\0g
\ 1\0\83\ 3\0\ 1|
\ 6\0j
\0\83\0\0\ 1|
\ 6\0j
34797 +
\0|
\ 2\0\83\ 1\0\ 1|
\ 6\0j
\v\0\83\0\0\ 1t
\10\0j
\f\0\83\0\0}
\a\0|
\0\0j
\11\0|
\a\0j
\12\0\83\0\0\83\ 1\0\ 1|
\a\0j
\13\0d
\14\0\83\ 1\0\ 1|
\a\0j
\14\0d
\15\0\83\ 1\0\ 1|
\a\0j
34798 +
\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0|
\a\0d
\16\0<|
\ 4\0|
\a\0d
\0<|
\a\0j
\15\0d
\0t
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\ f\0g
\ 5\0\83\ 1\0\83\ 2\0\ 1|
\ 6\0|
\a\0d
\e\0<|
\a\0j
\15\0d
\e\0t
\16\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0g
\ 4\0\83\ 1\0\83\ 2\0\ 1t
\16\0j
\f\0\83\0\0}
\b\0|
\b\0j
\17\0d
\f\0d
34799 +
\0g
\ 2\0d
\ 6\0d
\f\0\83\ 3\0\ 1|
\b\0j
\13\0d
\0\83\ 1\0\ 1t
\16\0j
\f\0\83\0\0}
\0|
\0j
\17\0d
\f\0d
\ 6\0d
34801 +
\0d
\f\0\83\ 3\0\ 1|
\0j
\13\0d!
\0\83\ 1\0\ 1|
\a\0j
\18\0d
\0|
\b\0|
\0g
\ 2\0t
\19\0\83\ 3\0\ 1t
\16\0j
\f\0\83\0\0}
34803 +
\0j
\17\0d
\0d
\f\0d
\ 6\0g
\ 3\0d
34804 +
\0d
\f\0\83\ 3\0\ 1|
34805 +
\0j
\13\0d
\0\83\ 1\0\ 1t
\16\0j
\f\0\83\0\0}
\v\0|
\v\0j
\17\0d
\0d
\ 6\0g
\ 2\0d
\ 6\0d
\f\0\83\ 3\0\ 1|
\v\0j
\13\0d!
\0\83\ 1\0\ 1|
\a\0j
\18\0d
\16\0|
34806 +
\0|
\v\0g
\ 2\0t
\19\0\83\ 3\0\ 1t
\16\0j
\f\0\83\0\0}
\f\0|
\f\0j
\17\0t
\1a\0t
\e\0d
\10\0\83\ 1\0\83\ 1\0d
\10\0d
\f\0\83\ 3\0\ 1|
\f\0j
\13\0d
\0\83\ 1\0\ 1t
\16\0j
\f\0\83\0\0}
\r\0|
\r\0j
\17\0t
\1a\0t
\e\0d
\ 5\0\83\ 1\0\83\ 1\0d
\ 5\0d
\f\0\83\ 3\0\ 1|
\r\0j
\13\0d!
\0\83\ 1\0\ 1|
\a\0j
\18\0d
\f\0|
\f\0|
\r\0g
\ 2\0t
\19\0\83\ 3\0\ 1|
\a\0j
\1c\0d
\0d"
\0\83\ 2\0\ 1|
\a\0j
\1d\0d
\0d
\0t
\19\0\83\ 3\0}
\ e\0|
\0\0j
\11\0|
\b\0j
\1e\0|
\ e\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
\1d\0d
\0d!
\0t
\19\0\83\ 3\0}
\ e\0|
\0\0j
\11\0|
\0j
\1e\0|
\ e\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
\1d\0d
\16\0d
\0t
\19\0\83\ 3\0}
\ e\0|
\0\0j
\11\0|
34807 +
\0j
\1e\0|
\ e\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
\1d\0d
\16\0d!
\0t
\19\0\83\ 3\0}
\ e\0|
\0\0j
\11\0|
\v\0j
\1e\0|
\ e\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
\1d\0d
\f\0d
\0t
\19\0\83\ 3\0}
\ e\0|
\0\0j
\11\0|
\f\0j
\1e\0|
\ e\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
\1d\0d
\f\0d!
\0t
\19\0\83\ 3\0}
\ e\0|
\0\0j
\11\0|
\r\0j
\1e\0|
\ e\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\11\0|
\a\0j
\1f\0d"
\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
\1d\0d
\0d"
\0\83\ 2\0}
\ e\0t
\0j!
\0|
\a\0t
\0j"
\0\83\ 2\0}
\ f\0t
\0j#
\0|
\ f\0\83\ 1\0}
\10\0|
\0\0j
\11\0|
\a\0j
\1e\0|
\10\0d#
\0\83\ 2\0d
\0\19\83\ 1\0\ 1|
\0\0j$
\0|
\a\0j%
\0\83\0\0t&
\0\83\ 2\0\ 1|
\a\0j'
\0t(
\0\83\ 1\0\ 1t
\0j!
\0|
\a\0t
\0j"
\0\83\ 2\0}
\ f\0t
\0j#
\0|
\ f\0\83\ 1\0}
\10\0|
\0\0j
\11\0|
\a\0j
\1e\0|
\10\0d#
\0\83\ 2\0d
\0\19\83\ 1\0\ 1|
\0\0j$
\0|
\10\0j%
\0\83\0\0t(
\0\83\ 2\0\ 1d
\0\0S($
\0\0\0Ns
\f\0\0\0Pyfile86.medg333333Ó¿g
\9a\99\99\99\99\99É?gffffffæ?i
\0\0\0i
\ 2\0\0\0Rª
\ 2\0\0t
\ 3\0\0\0bbbi
\0\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
34808 +
\0\0\0i
\ e\0\0\0i
\12\0\0\0RT
\0\0\0RU
\0\0\0iÿÿÿÿi
\0\0\0i)
\0\0\0i2
\0\0\0i8
\0\0\0iþÿÿÿif
\0\0\0i4
\0\0\0i-
\0\0\0i?
\0\0\0RV
\0\0\0RW
\0\0\0RX
\0\0\0g
\11ê-
\81\99\97q=()
\0\0\0RY
\0\0\0RÃ
\ 1\0\0R[
\0\0\0R\
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0Ra
\0\0\0Rb
\0\0\0Rc
\0\0\0Rd
\0\0\0R(
\0\0\0Re
\0\0\0Rf
\0\0\0Rg
\0\0\0R>
\0\0\0R0
\0\0\0Rh
\0\0\0RB
\0\0\0Ri
\0\0\0R
\98\0\0\0Rk
\0\0\0RZ
\0\0\0Rl
\0\0\0RN
\0\0\0Rm
\0\0\0Rn
\0\0\0Ro
\0\0\0RG
\0\0\0R1
\0\0\0Rp
\0\0\0t
\ 6\0\0\0picklet
\ 5\0\0\0dumpst
\10\0\0\0HIGHEST_PROTOCOLt
\ 5\0\0\0loadsR+
\0\0\0t
\v\0\0\0getAxisTypet
\a\0\0\0AX_CARTt
\v\0\0\0setAxisTypet
\ 6\0\0\0AX_CYL(
\11\0\0\0R
\0\0\0RO
\0\0\0R
\80\0\0\0R
\82\0\0\0R
\83\0\0\0R
\84\0\0\0R
\85\0\0\0R
\86\0\0\0R
\87\0\0\0R
\88\0\0\0RQ
\0\0\0R
\89\0\0\0R
\8a\0\0\0R
\8b\0\0\0R
\8c\0\0\0R
\r\0\0\0R¢
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testMEDFileUMeshPickeling15
\10\0\0s´
\0\0\0\0\ 2\ 6\ 1H
\ 1\13\ 1<
\ 1 \ 1\r\ 1\r\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 1
34810 +
\ 1\f\ 1\r\ 1\r\ 1\19\ 1\19\ 1\1c\ 1
34812 +
\ 1\f\ 1\r\ 1\r\ 1\16\ 1\16\ 1\16\ 1\16\ 1
34814 +
\ 2\f\ 1\13\ 1\r\ 1\r\ 1\r\ 1
34817 +
\ 1"
\ 2\f\ 1\19\ 1\r\ 1\f\ 1\1c\ 1\r\ 1\19\ 1\f\ 1\1c\ 1\r\ 1\f\ 1\19\ 1\r\ 1\19\ 1\f\ 1\1f\ 1\r\ 1\f\ 1\1f\ 1\r\ 1\19\ 1\10\ 2\15\ 1\16\ 1\15\ 1\16\ 1\15\ 1\16\ 1\15\ 1\16\ 1\15\ 1\16\ 1\15\ 1\16\ 1\16\ 1\12\ 2\15\ 1\ f\ 1\1d\ 1\16\ 2\r\ 1\15\ 1\ f\ 1\1d\ 1\16\ 1c
\ 1\0\0\0\13\0\0\0\ 6\0\0\0C
\0\0\0sÂ
\ 4\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0d
\ 4\0}
\ 4\0d
\ 5\0}
\ 5\0t
\0\0\83\0\0}
\ 6\0t
\ 1\0|
\ 1\0\83\ 1\0}
\a\0|
\a\0j
\ 2\0\83\0\0\ 1|
\ 6\0j
\ 3\0|
\a\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0\83\0\0}
\ 6\0|
\ 6\0j
\ 5\0|
\ 5\0\83\ 1\0\ 1t
\ 6\0\83\0\0}
\b\0x
\8d\0t
\a\0|
\ 4\0\83\ 1\0D]
\7f\0}
\0t
\b\0t
\0\83\ 1\0}
34820 +
\0|
\ 6\0\83\ 1\0\ 1t
\ 1\0|
\ 1\0\83\ 1\0}
\a\0|
\a\0j
\ 2\0\83\0\0\ 1|
\a\0|
\09}
\a\0|
34821 +
\0j
\v\0|
\a\0\83\ 1\0\ 1|
34822 +
\0j
\ 5\0|
\ 2\0\83\ 1\0\ 1|
34823 +
\0j
\f\0t
\r\0|
\0\83\ 1\0|
\0d
\ 6\0\83\ 3\0\ 1|
\b\0j
\ e\0|
34824 +
\0\83\ 1\0\ 1qy
\0Wt
\ f\0\83\0\0}
\v\0|
\ 6\0|
\v\0d
\ 6\0<|
\b\0j
\10\0|
\ 3\0d
\a\0\83\ 2\0\ 1|
\v\0j
\10\0|
\ 3\0d
\ 6\0\83\ 2\0\ 1t
\11\0|
\ 3\0t
\12\0\83\ 2\0}
\f\0t
\11\0j
\13\0|
\ 3\0t
\0t
\14\0f
\ 2\0g
\ 1\0t
\12\0\83\ 3\0}
\r\0|
\f\0j
\15\0\83\0\0\ 1|
\r\0j
\15\0\83\0\0\ 1xI
\0t
\a\0|
\ 4\0\83\ 1\0D];
\0}
\0|
\0\0j
\16\0|
\f\0|
\ 2\0\19|
\0\19j
\17\0\83\0\0j
\18\0|
\r\0|
\ 2\0\19|
\0\19j
\17\0\83\0\0d
\b\0\83\ 2\0\83\ 1\0\ 1q}
\ 1Wt
\0\0\83\0\0}
\ e\0|
\ e\0j
\ 3\0t
\ 1\0d
\ 6\0d
\0d
\a\0d
34825 +
\0g
\ 4\0\83\ 1\0t
\ 1\0d
\ 6\0d
\0g
\ 2\0\83\ 1\0\83\ 2\0\ 1|
\ e\0j
\ 4\0\83\0\0}
\ e\0|
\ e\0j
\19\0d
\ 6\0\83\ 1\0\ 1t
\0\0\83\0\0}
\ f\0|
\ f\0j
\ 3\0t
\ 1\0d
34826 +
\0d
\v\0d
\f\0g
\ 3\0\83\ 1\0t
\ 1\0d
\ 6\0d
\0g
\ 2\0\83\ 1\0\83\ 2\0\ 1|
\ f\0j
\ 4\0\83\0\0}
\ f\0t
\1a\0j
\e\0|
\ e\0|
\ f\0\83\ 2\0}
\10\0|
\10\0j
\ 5\0|
\ 5\0\83\ 1\0\ 1t
\ 6\0\83\0\0}
\b\0x
\8d\0t
\a\0|
\ 4\0\83\ 1\0D]
\7f\0}
\0t
\b\0t
\1c\0\83\ 1\0}
34829 +
\0|
\10\0\83\ 1\0\ 1t
\ 1\0d
\r\0\83\ 1\0}
\a\0|
\a\0j
\ 2\0\83\0\0\ 1|
\a\0|
\09}
\a\0|
34830 +
\0j
\v\0|
\a\0\83\ 1\0\ 1|
34831 +
\0j
\ 5\0|
\ 2\0\83\ 1\0\ 1|
34832 +
\0j
\f\0t
\r\0|
\0\83\ 1\0|
\0d
\ 6\0\83\ 3\0\ 1|
\b\0j
\ e\0|
34833 +
\0\83\ 1\0\ 1q
\81\ 2Wt
\ f\0\83\0\0}
\v\0|
\10\0|
\v\0d
\ 6\0<|
\v\0d
\ 6\0=|
\0\0j
\1d\0|
\v\0j
\1e\0\83\0\0d
\ f\0\83\ 2\0\ 1|
\10\0|
\v\0d
\ 6\0<|
\0\0j
\1d\0|
\v\0j
\1e\0\83\0\0d
\10\0\83\ 2\0\ 1|
\b\0j
\10\0|
\ 3\0d
\a\0\83\ 2\0\ 1t
\11\0|
\ 3\0t
\12\0\83\ 2\0}
\f\0t
\11\0j
\13\0|
\ 3\0t
\1c\0t
\1f\0f
\ 2\0g
\ 1\0t
\12\0\83\ 3\0}
\r\0t
\ 6\0j
\13\0|
\ 3\0|
\ 2\0t
\1c\0t
\0f
\ 2\0g
\ 1\0t
\12\0\83\ 4\0}
\11\0t
\11\0j
\13\0|
\ 3\0t
\1c\0t
\1f\0f
\ 2\0t
\1c\0t
\0f
\ 2\0g
\ 2\0t
\12\0\83\ 3\0}
\12\0|
\f\0j
\15\0\83\0\0\ 1|
\r\0j
\15\0\83\0\0\ 1|
\11\0j
\15\0\83\0\0\ 1|
\12\0j
\15\0\83\0\0\ 1xº
\0t
\a\0|
\ 4\0\83\ 1\0D]¬
\0}
\0|
\0\0j
\16\0|
\f\0|
\ 2\0\19|
\0\19j
\17\0\83\0\0d
\ e\0 j
\18\0|
\r\0|
\ 2\0\19|
\0\19j
\17\0\83\0\0d
\b\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\16\0|
\f\0|
\ 2\0\19|
\0\19j
\17\0\83\0\0d
\ e\0d
\r\0!j
\18\0|
\11\0|
\0\19j
\17\0\83\0\0d
\b\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\16\0|
\f\0|
\ 2\0\19|
\0\19j
\17\0\83\0\0j
\18\0|
\12\0|
\ 2\0\19|
\0\19j
\17\0\83\0\0d
\b\0\83\ 2\0\83\ 1\0\ 1q
\ e\ 4Wd
\0\0S(
\11\0\0\0Ni
\v\0\0\0t
\a\0\0\0myFields
\f\0\0\0Pyfile87.medi
34834 +
\0\0\0Rn
\ 2\0\0i
\0\0\0\0i
\ 2\0\0\0g
\11ê-
\81\99\97q=i
\ 1\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\b\0\0\0i
\ 6\0\0\0(
\0\0\0\0(
\ 1\0\0\0i
\0\0\0\0(!
\0\0\0R±
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rc
\0\0\0Râ
\ 1\0\0RB
\0\0\0Rô
\0\0\0Rn
\0\0\0Rw
\ 1\0\0R
\1c\ 1\0\0R³
\0\0\0R{
\ 1\0\0R°
\0\0\0RD
\ 3\0\0RY
\ 1\0\0R>
\0\0\0R
\v\0\0\0R[
\ 1\0\0RN
\0\0\0t
\14\0\0\0LoadSpecificEntitiest
34835 +
\0\0\0NORM_ERRORRw
\ 3\0\0R0
\0\0\0R+
\ 1\0\0R1
\0\0\0Rß
\ 3\0\0R[
\0\0\0R[
\ 2\0\0R
\13\ 1\0\0R+
\0\0\0R,
\0\0\0R_
\0\0\0R`
\0\0\0(
\13\0\0\0R
\0\0\0t
\a\0\0\0nbNodesRg
\ 3\0\0R!
\0\0\0t
\ 5\0\0\0nbPdtRÊ
\ 3\0\0R
\83\0\0\0RÔ
\ 1\0\0Rm
\ 1\0\0Rî
\0\0\0R
\b\0\0\0R
\86\0\0\0Rl
\ 1\0\0RV
\ 3\0\0R
\84\0\0\0R
\85\0\0\0R
\16\ 2\0\0t
\ 3\0\0\0fs3t
\ 3\0\0\0fs4(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt&
\0\0\0testMEDFileFieldsLoadSpecificEntities1
\97\10\0\0s
\98\0\0\0\0\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 2 \ 1\f\0
34836 +
\ 1\r\ 1\f\ 1\r\ 2 \ 1\13\ 1\f\ 1\r\ 1\f\0
34838 +
\ 1\r\ 1\r\ 1\19\ 1\r\ 1\ 4\ 2 \0
34839 +
\ 1\10\ 1\10\ 2\ f\ 1\1e\ 1
34841 +
\ 1\13\ 15
\ 1\ 4\ 1 \0.
\0\f\0\r\ 1 \0+
\0\f\ 1\12\0\r\ 1 \ 1\13\ 1\f\ 1\r\ 1\f\0
34843 +
\ 1\r\ 1\r\ 1\19\ 1\r\ 1\ 4\ 1 \0
34845 +
\ 1\16\ 1\10\ 1\ f\ 1\1e\ 1!
\ 1'
\ 1
34849 +
\ 1\13\ 19
\ 18
\ 15
\ 1\ 4\ 1c
\ 1\0\0\0\1f\0\0\0\b\0\0\0C
\0\0\0s¡
\ 3\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0d
\ 4\0}
\ 4\0d
\ 5\0}
\ 5\0d
\ 6\0}
\ 6\0t
\0\0\83\0\0}
\a\0t
\ 1\0|
\ 1\0\83\ 1\0}
\b\0|
\b\0j
\ 2\0\83\0\0\ 1|
\a\0j
\ 3\0|
\b\0\83\ 1\0\ 1|
\a\0j
\ 4\0\83\0\0}
\a\0|
\a\0j
\ 5\0|
\ 5\0\83\ 1\0\ 1|
\ 4\0|
\ 6\0\1a}
\0t
\ 6\0\83\0\0}
34850 +
\0xô
\0t
\a\0|
\0\83\ 1\0D]æ
\0}
\v\0t
\b\0\83\0\0}
\f\0t
\0j
34851 +
\0t
\v\0d
\a\0|
\ 4\0d
\b\0\83\ 3\0|
\v\0|
\0\83\ 3\0}
\r\0x¦
\0t
\a\0|
\r\0j
\f\0|
\r\0j
\r\0|
\r\0j
\ e\0\83\ 3\0D]
\89\0}
\ e\0t
\ f\0t
\10\0\83\ 1\0}
\ f\0|
\ f\0j
\11\0|
\a\0\83\ 1\0\ 1t
\ 1\0|
\ 1\0\83\ 1\0}
\b\0|
\b\0j
\ 2\0\83\0\0\ 1|
\b\0|
\ e\09}
\b\0|
\ f\0j
\12\0|
\b\0\83\ 1\0\ 1|
\ f\0j
\ 5\0d
\0|
\ 2\0|
\v\0f
\ 2\0\16\83\ 1\0\ 1|
\ f\0j
\13\0t
\14\0|
\ e\0\83\ 1\0|
\ e\0d
\a\0\83\ 3\0\ 1|
\f\0j
\15\0|
\ f\0\83\ 1\0\ 1qÕ
\0W|
34852 +
\0j
\16\0|
\f\0\83\ 1\0\ 1q
\89\0Wt
\17\0\83\0\0}
\10\0|
\a\0|
\10\0d
\a\0<|
34854 +
\0\83\ 2\0\ 1|
\10\0j
\18\0|
\ 3\0d
\a\0\83\ 2\0\ 1d
\v\0\84\0\0}
\11\0d
\f\0d
\0\0l
\19\0}
\12\0t
\1a\0|
\ 3\0\83\ 1\0}
\13\0i
\0\0}
\14\0|
\12\0j
\e\0d
\r\0\83\ 1\0}
\15\0x
\85\0|
\13\0D]}
\0}
\16\0|
\16\0d
\0\0d
\0\0d
\f\0\85\ 3\0\19}
\17\0|
\15\0j
\1c\0|
\17\0\83\ 1\0}
\a\0|
\a\0rP
\ 2|
\11\0|
\14\0|
\a\0j
\1d\0d
34855 +
\0\83\ 1\0d
\0\0d
\0\0d
\f\0\85\ 3\0\19|
\a\0j
\1d\0d
\b\0\83\ 1\0d
\0\0d
\0\0d
\f\0\85\ 3\0\19\83\ 3\0\ 1qã
\ 1|
\11\0|
\14\0|
\16\0d
\ e\0\83\ 3\0\ 1qã
\ 1Wt
\ 6\0\83\0\0}
\18\0xë
\0|
\14\0D]ã
\0}
\19\0|
\14\0|
\19\0\19d
\ e\0g
\ 1\0k
\ 3\0r
\ 2t
\1e\0|
\14\0|
\19\0\19d
\ f\0d
\10\0\84\0\0\83\ 1\ 1|
\14\0|
\19\0<n
\0\0g
\0\0}
\1a\0x;
\0|
\14\0|
\19\0\19D]/
\0}
\e\0|
\1a\0j
\1f\0t
\b\0j
\0|
\ 3\0|
\19\0|
\e\0\17t
\10\0t!
\0f
\ 2\0g
\ 1\0\83\ 3\0\83\ 1\0\ 1q¾
\ 2W|
\1a\0j"
\0\83\0\0\ 1|
\1a\0j#
\0\83\0\0}
\1c\0t$
\0|
\1a\0\83\ 1\0}
\1d\0x'
\0t
\a\0|
\1d\0\83\ 1\0D]
\19\0}
\1e\0|
\1c\0j%
\0|
\1a\0j#
\0\83\0\0\83\ 1\0\ 1q
\ 3W|
\1c\0j
\ 5\0|
\19\0\83\ 1\0\ 1|
\18\0j
\16\0|
\1c\0\83\ 1\0\ 1qt
\ 2W|
\0\0j&
\0|
\18\0d
\a\0\19j'
\0\83\0\0g
\0\0t
\a\0|
\ 4\0\83\ 1\0D]
\e\0}
\ e\0|
\ e\0d
\a\0t
\14\0|
\ e\0\83\ 1\0f
\ 3\0^
\ 2\0q{
\ 3\83\ 2\0\ 1d
\0\0S(
\11\0\0\0Ni
\v\0\0\0R÷
\ 3\0\0s
\f\0\0\0Pyfile88.medi,
\ 1\0\0Rn
\ 2\0\0id
\0\0\0i
\0\0\0\0i
\ 1\0\0\0s
\ 5\0\0\0%s_%di
\ 2\0\0\0c
\ 3\0\0\0\ 3\0\0\0\ 3\0\0\0S
\0\0\0s1
\0\0\0|
\ 1\0|
\0\0k
\ 6\0r
\0|
\0\0|
\ 1\0\19j
\0\0|
\ 2\0\83\ 1\0\ 1n
\r\0|
\ 2\0g
\ 1\0|
\0\0|
\ 1\0<d
\0\0S(
\ 1\0\0\0N(
\ 1\0\0\0t
\ 6\0\0\0append(
\ 3\0\0\0Re
\ 1\0\0t
\ 3\0\0\0keyt
\ 3\0\0\0val(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\f\0\0\0appendInDictÿ
\10\0\0s
\b\0\0\0\0\ 1\f\ 1\14\ 2\r\ 1iÿÿÿÿs
\11\0\0\0([\d]+)([\s\S]+)$R&
\0\0\0R
\0\ 4\0\0c
\ 1\0\0\0\ 1\0\0\0\ 2\0\0\0S
\0\0\0s
34856 +
\0\0\0t
\0\0|
\0\0\83\ 1\0S(
\ 1\0\0\0N(
\ 1\0\0\0t
\ 3\0\0\0int(
\ 1\0\0\0t
\ 1\0\0\0x(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\b\0\0\0<lambda>
\16\11\0\0s
\0\0\0\0((
\0\0\0R±
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rc
\0\0\0Râ
\ 1\0\0RB
\0\0\0R[
\ 1\0\0Rn
\0\0\0Rô
\0\0\0Rc
\ 3\0\0t
\b\0\0\0GetSliceRÐ
\ 3\0\0t
\ 5\0\0\0startt
\ 4\0\0\0stopt
\ 4\0\0\0stepRw
\ 1\0\0R
\1c\ 1\0\0R³
\0\0\0R{
\ 1\0\0R°
\0\0\0RD
\ 3\0\0RY
\ 1\0\0R\
\ 1\0\0R>
\0\0\0R
\v\0\0\0t
\ 2\0\0\0ret
\10\0\0\0GetAllFieldNamest
\a\0\0\0compilet
\ 5\0\0\0matchRü
\ 1\0\0t
\ 6\0\0\0sortedRÿ
\ 3\0\0Rø
\ 3\0\0Rù
\ 3\0\0t
\a\0\0\0reverset
\ 3\0\0\0popRy
\0\0\0t
\11\0\0\0pushBackTimeStepsR+
\0\0\0R÷
\0\0\0(
\1f\0\0\0R
\0\0\0Rú
\ 3\0\0Rg
\ 3\0\0R!
\0\0\0Rû
\ 3\0\0RÊ
\ 3\0\0t
\ 6\0\0\0maxPdtR
\83\0\0\0RÔ
\ 1\0\0t
\0\0\0nbOfFieldRl
\ 1\0\0Rf
\ 3\0\0Rm
\ 1\0\0t
\ 1\0\0\0sRî
\0\0\0R
\b\0\0\0R
\86\0\0\0R
\ 2\ 4\0\0R
34857 +
\ 4\0\0t
\0\0\0allFieldst
\r\0\0\0allFieldsDictt
\ 3\0\0\0patR
\r\0\0\0t
\ 5\0\0\0stRevRV
\ 3\0\0t
\ 1\0\0\0kt
\ 5\0\0\0fmts2Rv
\ 2\0\0t
\ 6\0\0\0zeResut
\ 6\0\0\0nbItert
\ 2\0\0\0ii(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\16\0\0\0testMEDFileLotsOfTSRW1Ü
\10\0\0s
\86\0\0\0\0\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 2\ 6\ 1 \ 1\f\0
34858 +
\ 1\r\ 1\f\ 1\r\ 2
34859 +
\ 1 \ 1\13\ 1 \ 1!
\ 1"
\ 1\f\ 1\r\ 1\f\0
34861 +
\ 1\r\ 1\17\ 1\19\ 1\r\ 1\ 4\ 1\r\ 1\ 4\ 2 \0
34862 +
\ 1\10\ 1\10\ 2 \ 6\f\ 1\f\ 1\ 6\ 1\ f\ 1\r\ 1\13\ 1\ f\ 1\ 6\ 1<
\ 1\ 3\ 2\10\ 2\ 4\ 1 \ 1\r\ 1\13\ 1\1d\ 1\ 3\ 1\ 6\ 1\11\ 1)
\ 1\ 4\ 1
34863 +
\ 1\f\ 1\f\ 1\13\ 1\13\ 1\ 4\ 1\r\ 1\r\ 1\ 4\ 1B
\ 1c
\ 1\0\0\0\19\0\0\0\14\ 1\0\0C
\0\0\0sX
\ e\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0\83\0\0}
\ 3\0t
\ 1\0d
\ 3\0d
\ 3\0d
\ 3\0f
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0f
\ 3\0d
\ 3\0d
\ 4\0d
\ 4\0f
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0f
\ 3\0d
\ 4\0d
\ 3\0d
\ 3\0f
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0f
\ 3\0d
\ 4\0d
\ 4\0d
\ 4\0f
\ 3\0d
\ 4\0d
\ 4\0d
\ 3\0f
\ 3\0d
\ 3\0d
\ 3\0d
\ 5\0f
\ 3\0d
\ 3\0d
\ 5\0d
\ 4\0f
\ 3\0d
\ 3\0d
\ 4\0d
\ 5\0f
\ 3\0d
\ 3\0d
\ 5\0d
\ 3\0f
\ 3\0d
\ 4\0d
\ 3\0d
\ 5\0f
\ 3\0d
\ 4\0d
\ 5\0d
\ 4\0f
\ 3\0d
\ 4\0d
\ 4\0d
\ 5\0f
\ 3\0d
\ 4\0d
\ 5\0d
\ 3\0f
\ 3\0d
\ 5\0d
\ 3\0d
\ 3\0f
\ 3\0d
\ 5\0d
\ 3\0d
\ 4\0f
\ 3\0d
\ 5\0d
\ 4\0d
\ 3\0f
\ 3\0d
\ 5\0d
\ 4\0d
\ 4\0f
\ 3\0d
\ 3\0d
\ 6\0d
\a\0f
\ 3\0d
\ 4\0d
\ 6\0d
\a\0f
\ 3\0d
\b\0d
\ 3\0d
\b\0f
\ 3\0d
\b\0d
\ 4\0d
\b\0f
\ 3\0d
\b\0d
\b\0d
\ 3\0f
\ 3\0d
\b\0d
\b\0d
\ 4\0f
\ 3\0d
\0d
34864 +
\0d
\v\0f
\ 3\0d
\f\0d
\r\0d
\ e\0f
\ 3\0g
\1c\0\83\ 1\0}
\ 4\0t
\ 2\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\ f\0d
\14\0d
\11\0d
\10\0d
\13\0d
\ f\0d
\15\0d
\11\0d
\14\0d
\16\0d
\ f\0d
\11\0d
\17\0d
\18\0d
\13\0d
\ f\0d
\13\0d
\19\0d
\17\0d
\1a\0d
\ f\0d
\17\0d
\18\0d
\1a\0d
\e\0d
\ f\0d
\1c\0d
\18\0d
\11\0d
\15\0d
\ f\0d
\16\0d
\11\0d
\e\0d
\15\0d
\ f\0d
\11\0d
\17\0d
\16\0d
\e\0d
\ f\0d
\13\0d
\11\0d
\16\0d
\14\0d
\ f\0d
\18\0d
\12\0d
\1c\0d
\11\0d
\ f\0d
\1d\0d
\18\0d
\1c\0d
\1e\0d
\ f\0d
\1e\0d
\1f\0d
\15\0d
\1c\0d
\ f\0d
\1d\0d
\1e\0d
\0d
\18\0d
\ f\0d
\15\0d
\16\0d!
\0d
\e\0d
\ f\0d
\15\0d!
\0d
\ f\0d"
\0d
\ f\0d
\11\0d
\12\0d
\1c\0d
\14\0d
\ f\0d#
\0d
\15\0d
\1c\0d
\14\0d
\ f\0d
\15\0d"
\0d
\e\0d!
\0d
\ f\0d
\16\0d!
\0d$
\0d%
\0d
\ f\0d
\15\0d
\18\0d
\e\0d"
\0d
\ f\0d
\1e\0d
\1c\0d
\15\0d
\18\0d
\ f\0d#
\0d
\15\0d
\1f\0d
\1c\0d
\ f\0d
\1e\0d
\15\0d
\1f\0d
\ f\0d
\ f\0d$
\0d
\17\0d
\16\0d%
\0d
\ f\0d
\15\0d
\14\0d#
\0d
\16\0d
\ f\0d
\16\0d
\15\0d!
\0d#
\0d
\ f\0d
\e\0d
\17\0d
\16\0d$
\0d
\ f\0d
\e\0d"
\0d&
\0d!
\0d
\ f\0d%
\0d'
\0d$
\0d
\17\0d
\ f\0d
\16\0d%
\0d(
\0d#
\0d
\ f\0d
\13\0d
\11\0d
\17\0d
\16\0d
\ f\0d#
\0d
\15\0d!
\0d
\ f\0d
\ f\0d
\18\0d"
\0d
\0d)
\0d
\ f\0d
\ f\0d
\15\0d"
\0d
\1e\0d
\ f\0d
\ f\0d
\15\0d
\1f\0d#
\0d
\ f\0d!
\0d
\16\0d#
\0d%
\0d
\ f\0d
\1c\0d
\11\0d
\14\0d
\15\0d
\ f\0d
\1d\0d
\12\0d
\1c\0d
\18\0d
\ f\0d
\11\0d
\e\0d
\18\0d
\17\0d
\ f\0d
\16\0d
\e\0d$
\0d!
\0d
\ f\0d
\12\0d
\11\0d
\10\0d
\14\0d
\ f\0d
\1e\0d
\15\0d"
\0d
\18\0d
\ f\0d
\18\0d
\1a\0d"
\0d)
\0d
\ f\0d
\ f\0d"
\0d!
\0d&
\0d
\ f\0d
\1d\0d*
\0d
\12\0d
\0d
\ f\0d
\1d\0d
\1e\0d
\1c\0d
\1f\0d
\ f\0d"
\0d
\1e\0d
\18\0d
\0d
\ f\0d
\18\0d
\11\0d
\13\0d
\12\0d
\ f\0d
\16\0d#
\0d(
\0d
\14\0d
\ f\0d
\e\0d
\1a\0d"
\0d
\18\0d
\ f\0d!
\0d$
\0d&
\0d
\e\0d
\ f\0d
\1d\0d
\18\0d
\0d
\12\0d
\ f\0d
\18\0d
\11\0d
\15\0d
\e\0d
\ f\0d
\17\0d
\13\0d
\1a\0d
\18\0g
\13\ 1\83\ 1\0}
\ 5\0t
\ 2\0d
\19\0d(
\0d
\0d$
\0d
\18\0d
\1c\0d+
\0d,
\0d-
\0d.
\0d/
\0d0
\0d1
\0d2
\0d3
\0d4
\0d5
\0d6
\0d7
\0d8
\0d9
\0d:
\0d;
\0d<
\0d=
\0d>
\0d?
\0d@
\0dA
\0dB
\0dC
\0dD
\0dE
\0dF
\0dG
\0dH
\0dI
\0dJ
\0dK
\0dL
\0dM
\0dN
\0dO
\0dP
\0dQ
\0dR
\0dS
\0dT
\0dU
\0dV
\0dW
\0dX
\0dY
\0dZ
\0d[
\0d\
\0g8
\0\83\ 1\0}
\ 6\0t
\ 3\0|
\ 2\0d)
\0\83\ 2\0}
\a\0|
\a\0j
\ 4\0|
\ 4\0\83\ 1\0\ 1|
\a\0j
\ 5\0|
\ 5\0|
\ 6\0\83\ 2\0\ 1|
\a\0|
\ 3\0d
\19\0<t
\ 2\0d)
\0d
\13\0d
\18\0d
\1a\0d)
\0d
\13\0d
\12\0d
\18\0d)
\0d
\12\0d*
\0d
\0d)
\0d
\18\0d
\12\0d
\0d)
\0d
\19\0d
\13\0d
\1a\0d)
\0d
\12\0d
\13\0d
\10\0d)
\0d
\18\0d
\0d)
\0d)
\0d
\1a\0d
\18\0d)
\0d)
\0d$
\0d!
\0d%
\0d)
\0d(
\0d%
\0d#
\0d)
\0d!
\0d#
\0d%
\0d)
\0d$
\0d%
\0d'
\0d)
\0d
\ f\0d
\1f\0d#
\0d)
\0d
\ f\0d#
\0d!
\0d)
\0d&
\0d
\ f\0d!
\0d)
\0d&
\0d!
\0d$
\0d)
\0d(
\0d
\16\0d%
\0d)
\0d'
\0d%
\0d
\17\0d)
\0d
\14\0d
\10\0d
\13\0d)
\0d
\17\0d
\13\0d
\19\0d)
\0d(
\0d
\14\0d
\16\0d)
\0d%
\0d
\16\0d
\17\0d)
\0d
\16\0d
\14\0d
\13\0d)
\0d
\17\0d
\16\0d
\13\0d)
\0d
\0d*
\0d
\1d\0d)
\0d&
\0d"
\0d
\ f\0d)
\0d
\ f\0d
\1e\0d
\1f\0d)
\0d)
\0d
\0d"
\0d)
\0d
\1e\0d
\1d\0d
\1f\0d)
\0d"
\0d
\1e\0d
\ f\0d)
\0d
\0d
\1d\0d
\1e\0d)
\0d
\0d
\1e\0d"
\0d)
\0d)
\0d"
\0d
\1a\0d)
\0d&
\0d
\e\0d"
\0d)
\0d$
\0d'
\0d
\17\0d)
\0d
\1a\0d
\17\0d
\19\0d)
\0d&
\0d$
\0d
\e\0d)
\0d"
\0d
\e\0d
\1a\0d)
\0d
\e\0d$
\0d
\17\0d)
\0d
\1a\0d
\e\0d
\17\0d)
\0d
\12\0d
\1d\0d*
\0d)
\0d
\1d\0d
\1c\0d
\1f\0d)
\0d
\14\0d(
\0d#
\0d)
\0d
\10\0d
\14\0d
\12\0d)
\0d
\1c\0d#
\0d
\1f\0d)
\0d
\12\0d
\1c\0d
\1d\0d)
\0d
\14\0d#
\0d
\1c\0d)
\0d
\14\0d
\1c\0d
\12\0gÀ
\0\83\ 1\0}
\b\0t
\ 2\0d
\19\0d'
\0d
\13\0d%
\0d
\17\0d
\18\0d
\e\0d]
\0d^
\0d_
\0d-
\0d`
\0da
\0db
\0dc
\0d1
\0dd
\0de
\0df
\0dg
\0d5
\0dh
\0di
\0dj
\0dk
\0d9
\0dl
\0dm
\0dn
\0do
\0d=
\0dp
\0dq
\0dr
\0ds
\0dA
\0dt
\0du
\0dv
\0dw
\0dE
\0dx
\0dy
\0dz
\0d{
\0dI
\0d|
\0d}
\0d~
\0g1
\0\83\ 1\0}
\0t
\ 3\0|
\ 2\0d*
\0\83\ 2\0}
34866 +
\0j
\ 4\0|
\ 4\0\83\ 1\0\ 1|
34867 +
\0j
\ 5\0|
\b\0|
\0\83\ 2\0\ 1|
34868 +
\0|
\ 3\0d
\7f\0<t
\ 2\0d
\19\0d
\13\0d
\13\0d
\10\0d
\10\0d
\12\0d
\12\0d*
\0d)
\0d
\0d
\0d*
\0d
\19\0d
\1a\0d
\1a\0d)
\0d'
\0d%
\0d%
\0d(
\0d(
\0d#
\0d#
\0d
\1f\0d&
\0d
\ f\0d
\ f\0d
\1f\0d'
\0d$
\0d$
\0d&
\0d
\19\0d
\17\0d
\17\0d'
\0d
\10\0d
\14\0d
\14\0d(
\0d)
\0d"
\0d"
\0d&
\0d*
\0d
\1d\0d
\1d\0d
\1f\0g0
\0\83\ 1\0}
\v\0t
\ 6\0|
\ 2\0t
\a\0\83\ 2\0}
\f\0|
\f\0j
\b\0|
\v\0\83\ 1\0\ 1|
\f\0j
\ 4\0|
\ 4\0\83\ 1\0\ 1|
\f\0j
\0\83\0\0|
\ 3\0d
\80\0<t
\ 2\0d0
\0\83\ 1\0}
\r\0d
\19\0|
\r\0(|
\ 3\0j
34869 +
\0d
\19\0|
\r\0\83\ 2\0\ 1|
\ 3\0j
34870 +
\0d
\10\0t
\ 2\0d
\19\0d
\19\0d*
\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0g
\1c\0\83\ 1\0\83\ 2\0\ 1t
\ 2\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\81\0d
\81\0d
\81\0d
\81\0d
\81\0d
\81\0d
\81\0d
\81\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0g0
\0\83\ 1\0}
\ e\0|
\ 3\0j
34871 +
\0d
\7f\0|
\ e\0\83\ 2\0\ 1t
\ 2\0d
\19\0d
\19\0d
\82\0d
\82\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0g
\18\0\83\ 1\0}
\ f\0|
\ 3\0j
34872 +
\0d
\80\0|
\ f\0\83\ 2\0\ 1xH
\0d
\83\0d
\19\0f
\ 2\0d
\84\0d
\81\0f
\ 2\0d
\85\0d
\82\0f
\ 2\0d
\86\0d*
\0f
\ 2\0f
\ 4\0D]
\1c\0\
\ 2\0}
\10\0}
\11\0|
\ 3\0j
\v\0|
\10\0|
\11\0\83\ 2\0\ 1q^
\vWxH
\0d
\87\0d
\84\0f
\ 1\0f
\ 2\0d
\88\0d
\85\0f
\ 1\0f
\ 2\0d
\89\0d
\86\0f
\ 1\0f
\ 2\0g
\ 3\0D]
\1c\0\
\ 2\0}
\12\0}
\13\0|
\ 3\0j
\f\0|
\12\0|
\13\0\83\ 2\0\ 1q©
\vW|
\ 3\0j
\r\0|
\ 1\0d*
\0\83\ 2\0\ 1t
\ e\0j
\ f\0|
\ 1\0\83\ 1\0}
\ 3\0|
\ 3\0j
\10\0d
\7f\0d
\87\0\83\ 2\0}
\12\0|
\12\0j
\11\0\83\0\0}
\14\0|
\14\0j
\12\0d
\8a\0\83\ 1\0\ 1|
\ 3\0j
\13\0d
\10\0|
\14\0\83\ 2\0\ 1|
\ 3\0j
\14\0\83\0\0\ 1|
\0\0j
\15\0|
\14\0j
\16\0|
\ 3\0j
\17\0d
\10\0d
\8a\0\83\ 2\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\15\0|
\ 3\0j
\18\0d
\19\0\83\ 1\0j
\16\0|
\r\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\15\0|
\ 3\0j
\18\0d
\7f\0\83\ 1\0j
\16\0|
\ e\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\15\0|
\ 3\0j
\18\0d
\80\0\83\ 1\0j
\16\0|
\ f\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\15\0|
\ 3\0j
\18\0d
\10\0\83\ 1\0j
\16\0t
\ 2\0d
\19\0d
\19\0d*
\0d
\19\0d
\12\0d
\12\0d
\12\0d
\12\0d
\19\0d
\19\0d
\19\0d
\19\0d
\12\0d
\12\0d
\12\0d
\12\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\12\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0d
\19\0g
\1c\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1d
\87\0d
\84\0f
\ 1\0f
\ 2\0d
\88\0d
\85\0f
\ 1\0f
\ 2\0d
\89\0d
\86\0f
\ 1\0f
\ 2\0d
\8a\0d
\8b\0f
\ 1\0f
\ 2\0g
\ 4\0}
\15\0d
\83\0d
\19\0f
\ 2\0d
\84\0d
\81\0f
\ 2\0d
\85\0d
\82\0f
\ 2\0d
\86\0d*
\0f
\ 2\0d
\8b\0d
\12\0f
\ 2\0g
\ 5\0}
\16\0|
\0\0j
\19\0t
\1a\0|
\ 3\0j
\e\0\83\0\0\83\ 1\0g
\0\0|
\15\0D]
\10\0}
\17\0|
\17\0d
\19\0\19^
\ 2\0qª
\r\83\ 2\0\ 1x-
\0|
\15\0D]%
\0\
\ 2\0}
\17\0}
\13\0|
\0\0j
\19\0|
\ 3\0j
\1c\0|
\17\0\83\ 1\0|
\13\0\83\ 2\0\ 1qÈ
\rW|
\0\0j
\19\0t
\1a\0|
\ 3\0j
\1d\0\83\0\0\83\ 1\0g
\0\0|
\16\0D]
\10\0}
\17\0|
\17\0d
\19\0\19^
\ 2\0q
\r\ e\83\ 2\0\ 1x-
\0|
\16\0D]%
\0\
\ 2\0}
\17\0}
\18\0|
\0\0j
\19\0|
\ 3\0j
\1e\0|
\17\0\83\ 1\0|
\18\0\83\ 2\0\ 1q+
\ eWd
\8c\0S(
\8d\0\0\0sZ
\0\0\0 Test for bug EDF10720. The aim of this test is the call of MEDFileMesh.rearrangeFamilies.s
\f\0\0\0Pyfile89.medt
34873 +
\0\0\0Maillage_2g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0i@g
\0\0\0\0\0\0Y@g¹-Qö'8]@gGÒ® ØÇT@gº-Qö'8]@g¥J(ßL±O@g
\vFÛ¯Ð
\11L@gFhU´
\9cî]@gE
\99\ 5YG@a@gd
\81åÙ
\83\ 2]@gyU ¶×ù]@i
\ e\0\0\0i
\ 1\0\0\0i
\1a\0\0\0i
\0\0\0i
\b\0\0\0i
\11\0\0\0i
\e\0\0\0i
\16\0\0\0i
\10\0\0\0i
\14\0\0\0i
\0\0\0\0i
\v\0\0\0i
\18\0\0\0i
\19\0\0\0i
\13\0\0\0i
\17\0\0\0i
\ 6\0\0\0i
34874 +
\0\0\0i
\15\0\0\0i
\12\0\0\0i
\r\0\0\0i
\ f\0\0\0i
\f\0\0\0i
\a\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\1e\0\0\0i#
\0\0\0i(
\0\0\0i-
\0\0\0i2
\0\0\0i7
\0\0\0i<
\0\0\0iA
\0\0\0iF
\0\0\0iK
\0\0\0iP
\0\0\0iU
\0\0\0iZ
\0\0\0i_
\0\0\0id
\0\0\0ii
\0\0\0in
\0\0\0is
\0\0\0ix
\0\0\0i}
\0\0\0i
\82\0\0\0i
\87\0\0\0i
\8c\0\0\0i
\91\0\0\0i
\96\0\0\0i
\9b\0\0\0i
\0\0\0i¥
\0\0\0iª
\0\0\0i¯
\0\0\0i´
\0\0\0i¹
\0\0\0i¾
\0\0\0iÃ
\0\0\0iÈ
\0\0\0iÍ
\0\0\0iÒ
\0\0\0i×
\0\0\0iÜ
\0\0\0iá
\0\0\0iæ
\0\0\0ië
\0\0\0ið
\0\0\0iõ
\0\0\0iú
\0\0\0iÿ
\0\0\0i
\ 4\ 1\0\0i
\ 1\0\0i
\ e\ 1\0\0i
\13\ 1\0\0i
\1c\0\0\0i
\0\0\0i$
\0\0\0i,
\0\0\0i0
\0\0\0i4
\0\0\0i8
\0\0\0i@
\0\0\0iD
\0\0\0iH
\0\0\0iL
\0\0\0iT
\0\0\0iX
\0\0\0i\
\0\0\0i`
\0\0\0ih
\0\0\0il
\0\0\0ip
\0\0\0it
\0\0\0i|
\0\0\0i
\80\0\0\0i
\84\0\0\0i
\88\0\0\0i
\90\0\0\0i
\94\0\0\0i
\98\0\0\0i
\9c\0\0\0i¤
\0\0\0i¨
\0\0\0i¬
\0\0\0i°
\0\0\0i¸
\0\0\0i¼
\0\0\0iÀ
\0\0\0iÿÿÿÿiþÿÿÿiúÿÿÿiùÿÿÿR
\9a\ 2\0\0s
\ f\0\0\0FAM_-6_Groupe_1s
\ f\0\0\0FAM_-7_Groupe_2t
\ e\0\0\0FAM_2_Groupe_3t
\b\0\0\0Groupe_1t
\b\0\0\0Groupe_2t
\b\0\0\0Groupe_3t
\ 4\0\0\0TOTOt
\b\0\0\0Family_9N(
\1f\0\0\0R>
\0\0\0RY
\0\0\0Rk
\0\0\0R[
\0\0\0Rc
\0\0\0Rÿ
\ 1\0\0Rz
\0\0\0Re
\0\0\0t
\14\0\0\0setNodalConnectivityRâ
\ 1\0\0R¶
\0\0\0R·
\0\0\0R
\9b\ 2\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0R?
\0\0\0t
\15\0\0\0computeFetchedNodeIdsRB
\0\0\0R¥
\ 2\0\0t
\11\0\0\0rearrangeFamiliesR0
\0\0\0R1
\0\0\0RG
\0\0\0R
\9e\0\0\0R+
\0\0\0Rm
\0\0\0R²
\ 1\0\0R
\9a\0\0\0R³
\ 1\0\0t
\v\0\0\0getFamilyId(
\19\0\0\0R
\0\0\0R!
\0\0\0RÊ
\ 3\0\0R
\86\0\0\0R
\81\0\0\0R
\14\ 2\0\0t
\ 3\0\0\0c0iRá
\0\0\0t
\ 2\0\0\0c1t
\ 3\0\0\0c1iR
\84\0\0\0Rò
\ 2\0\0R
\85\0\0\0Rê
\ 1\0\0Rë
\ 1\0\0Rì
\ 1\0\0R
\b\0\0\0t
\ 3\0\0\0fidRç
\ 1\0\0t
\ 4\0\0\0famst
\ 3\0\0\0dait
\a\0\0\0allGrpst
\a\0\0\0allFamsRü
\0\0\0t
\ 5\0\0\0eltId(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1f\0\0\0testMEDFileMeshRearrangeFamIds1(
\11\0\0sx
\0\0\0\0\ 2\ 6\ 1\ 6\ 1 \ 1ÿ
\0]
\ 2ÿ
\0ÿ
\0ÿ
\0H
\ 1´
\ 1\ f\0\r\ 1\10\ 1
34875 +
\ 2ÿ
\0ÿ
\0N
\ 1\9f\ 1\ f\0\r\ 1\10\ 1
34876 +
\ 2\9c\ 1\ f\ 1\r\0\r\ 1\10\ 2\f\0\a\ 1\10\ 1j
\ 1\9c\ 1\10\ 1T
\ 1\10\ 27
\ 1\14\ 17
\ 1\14\ 1\10\ 2\ f\ 1\12\ 1\f\ 1\r\ 1\10\ 1
34877 +
\ 1"
\ 1\1f\ 1\1f\ 1\1f\ 1y
\ 16
\ 13
\ 13
\ 1\13\ 1\1d\ 13
\ 1\13\ 1\1d\ 1c
\ 1\0\0\0 \0\0\0\ 6\0\0\0C
\0\0\0sz
\ 2\0\0t
\0\0\83\0\0}
\ 1\0d
\ 1\0}
\ 2\0t
\ 1\0\83\0\0}
\ 3\0t
\ 2\0\83\0\0}
\ 4\0t
\ 3\0d
\ 2\0\83\ 1\0}
\ 5\0|
\ 5\0j
\ 4\0\83\0\0\ 1|
\ 4\0j
\ 5\0|
\ 5\0\83\ 1\0\ 1|
\ 4\0j
\ 6\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\a\0|
\ 4\0\83\ 1\0\ 1t
\b\0t
\0\83\ 1\0}
\ 6\0|
\ 6\0j
\a\0|
\ 4\0\83\ 1\0\ 1|
\ 6\0j
34878 +
\0t
\ 3\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 4\0\83\ 1\0\83\ 1\0\ 1|
\ 6\0j
\ 6\0d
\a\0\83\ 1\0\ 1|
\ 6\0j
\v\0\83\0\0\ 1t
\f\0d
\b\0d
\0d
34879 +
\0d
\v\0g
\ 4\0\83\ 1\0}
\a\0|
\a\0j
\ 6\0d
\f\0\83\ 1\0\ 1|
\ 1\0j
\r\0|
\ 6\0|
\ 3\0d
\b\0|
\a\0\83\ 4\0\ 1|
\0\0j
\ e\0|
\ 1\0j
\ f\0\83\0\0d
\ f\0\83\ 2\0\ 1|
\ 1\0j
\10\0t
\0d
\b\0|
\ 3\0\83\ 3\0}
\b\0|
\0\0j
\11\0|
\ 6\0j
\12\0|
\b\0d
\r\0d
\r\0\83\ 3\0\83\ 1\0\ 1~
\ 1\0~
\ 3\0~
\ 6\0~
\b\0~
\a\0t
\0\0\83\0\0}
\ 1\0d
\ 1\0}
\ 2\0t
\13\0\83\0\0}
\ 3\0t
\ 2\0\83\0\0}
\ 4\0t
\ 3\0d
\ 2\0\83\ 1\0}
\ 5\0|
\ 5\0j
\ 4\0\83\0\0\ 1|
\ 4\0j
\ 5\0|
\ 5\0\83\ 1\0\ 1|
\ 4\0j
\ 6\0|
\ 2\0\83\ 1\0\ 1|
\ 4\0j
\14\0\83\0\0}
\ 4\0|
\ 4\0|
\ 3\0d
\b\0<t
\b\0t
\0\83\ 1\0}
\ 6\0|
\ 6\0j
\a\0|
\ 4\0\83\ 1\0\ 1|
\ 6\0j
34880 +
\0t
\ 3\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 4\0\83\ 1\0\83\ 1\0\ 1|
\ 6\0j
\ 6\0d
\a\0\83\ 1\0\ 1|
\ 6\0j
\v\0\83\0\0\ 1t
\f\0d
\b\0d
\0d
34881 +
\0d
\v\0g
\ 4\0\83\ 1\0}
\a\0|
\a\0j
\ 6\0d
\f\0\83\ 1\0\ 1|
\ 1\0j
\r\0|
\ 6\0|
\ 3\0d
\b\0|
\a\0\83\ 4\0\ 1|
\0\0j
\ e\0|
\ 1\0j
\ f\0\83\0\0d
\10\0\83\ 2\0\ 1|
\ 1\0j
\10\0t
\0d
\b\0|
\ 3\0\83\ 3\0}
\b\0|
\0\0j
\11\0|
\ 6\0j
\12\0|
\b\0d
\r\0d
\r\0\83\ 3\0\83\ 1\0\ 1d
\ e\0S(
\11\0\0\0so
\0\0\0 Non regression test. For structured mesh, push a false partial field in MEDFileField1TS using setFieldProfile.R
\ 2\0\0i
\ 5\0\0\0g333333ó?gffffff
\ 2@g333333
\v@g
\0\0\0\0\0\0\12@RÇ
\ 3\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0t
\ 4\0\0\0TUTUg
\11ê-
\81\99\97q=N(
\0\0\0\0(
\0\0\0\0(
\15\0\0\0Rà
\0\0\0R¯
\0\0\0R±
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rc
\0\0\0RB
\0\0\0R³
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0R{
\ 1\0\0Rd
\0\0\0Rk
\0\0\0R|
\ 1\0\0R+
\0\0\0R]
\ 2\0\0R
\97\ 1\0\0R0
\0\0\0R1
\0\0\0R>
\0\0\0Râ
\ 1\0\0(
\0\0\0R
\0\0\0Rñ
\0\0\0RÊ
\ 3\0\0R
\86\0\0\0R
\83\0\0\0RÔ
\ 1\0\0t
\ 5\0\0\0fieldR
\83\ 1\0\0t
\ 6\0\0\0field2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1c\0\0\0testNonRegrCMeshSetFieldPfl1c
\11\0\0sV
\0\0\0\0\ 2 \ 1\ 6\ 1 \ 1 \0\f\0
34882 +
\ 1\r\ 1\r\ 1\r\ 1\f\ 1\r\ 1\1f\ 1\r\ 1
34883 +
\ 1\18\0\r\ 1\16\ 1\16\ 1\15\ 1\1c\ 1\ f\ 2 \ 1\ 6\ 1 \ 1 \0\f\0
34884 +
\ 1\r\ 1\r\ 1\f\ 1
34885 +
\ 1\f\ 1\r\ 1\1f\ 1\r\ 1
34886 +
\ 1\18\0\r\ 1\16\ 1\16\ 1\15\ 1\1c\ 1c
\ 1\0\0\0\18\0\0\0\a\0\0\0C
\0\0\0sÍ
\ 3\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0t
\0\0d
\ 4\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\ 5\0|
\ 5\0j
\ 3\0|
\ 4\0|
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\ 4\0\83\0\0}
\ 5\0t
\ 5\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0g
\ 4\0\83\ 1\0}
\ 6\0|
\ 5\0|
\ 6\0\19}
\a\0|
\a\0j
\ 6\0d
\0\83\ 1\0\ 1|
\ 5\0|
\ 6\0j
\a\0|
\ 5\0j
\b\0\83\0\0\83\ 1\0\19}
\b\0t
\0j
34887 +
\0|
\a\0|
\b\0\83\ 2\0}
\ 5\0|
\ 5\0j
\v\0d
\ 5\0d
34888 +
\0\83\ 2\0\ 1t
\0\0d
\ 5\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\0|
\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\0j
\ 4\0\83\0\0}
\0|
\0j
\v\0d
\ 5\0d
34889 +
\0\83\ 2\0\ 1|
\0j
\ 3\0|
\0j
\f\0\83\0\0d
\0\0d
\0\0\85\ 2\0d
\v\0d
\f\0d
\0g
\ 3\0f
\ 2\0\19\83\ 1\0\ 1|
\ 5\0j
\r\0\83\0\0|
\0j
\r\0\83\0\0d
\v\0\18\14}
34890 +
\0|
\ 5\0j
\ e\0|
\0d
\0\83\ 2\0}
\v\0|
\v\0j
\ f\0\83\0\0\ 1|
\v\0j
\10\0|
\ 1\0\83\ 1\0\ 1|
\ 5\0}
\f\0|
\f\0j
\ 3\0|
\v\0j
\f\0\83\0\0\83\ 1\0\ 1|
\f\0j
\11\0|
34891 +
\0\83\ 1\0\ 1|
\f\0j
\10\0|
\ 1\0\83\ 1\0\ 1|
\f\0j
\12\0\83\0\0\ 1|
\f\0j
\13\0\83\0\0}
\0|
\0j
\10\0|
\ 1\0\83\ 1\0\ 1t
\0j
\14\0|
\v\0j
\f\0\83\0\0\83\ 1\0}
\r\0|
\r\0j
\10\0|
\ 1\0\83\ 1\0\ 1|
\r\0d
\f\0d
\r\0d
\ e\0g
\ 3\0\19}
\r\0t
\15\0\83\0\0}
\ e\0|
\v\0|
\ e\0d
\0<|
\f\0|
\ e\0d
\ f\0<|
\0|
\ e\0d
\10\0<|
\r\0|
\ e\0d
\11\0<t
\ 5\0d
\v\0d
\f\0d
\ 5\0d
\ 4\0g
\ 4\0\83\ 1\0}
\ f\0|
\ f\0j
\10\0d
\12\0\83\ 1\0\ 1t
\ 5\0d
\0d
\v\0g
\ 2\0\83\ 1\0}
\10\0|
\10\0j
\10\0d
\13\0\83\ 1\0\ 1t
\ 5\0d
\0d
\v\0d
\14\0d
\15\0d
\ e\0g
\ 5\0\83\ 1\0}
\11\0|
\11\0j
\10\0d
\16\0\83\ 1\0\ 1t
\ 5\0d
\17\0d
\ 6\0d
\18\0d
\19\0d
\1a\0g
\ 5\0\83\ 1\0}
\12\0|
\12\0j
\10\0d
\e\0\83\ 1\0\ 1t
\ 5\0d
\0d
\v\0d
\1c\0d
\b\0d
\18\0g
\ 5\0\83\ 1\0}
\13\0|
\13\0j
\10\0d
\1d\0\83\ 1\0\ 1t
\ 5\0d
\1e\0d
\1f\0d
\0d!
\0g
\ 4\0\83\ 1\0}
\14\0|
\14\0j
\10\0d"
\0\83\ 1\0\ 1t
\ 5\0d
\f\0d
\ 5\0d
\r\0d
\ 4\0d
\1f\0d!
\0g
\ 6\0\83\ 1\0}
\15\0|
\15\0j
\10\0d#
\0\83\ 1\0\ 1|
\ e\0j
\16\0d
\0|
\14\0|
\15\0g
\ 2\0\83\ 2\0\ 1|
\ e\0j
\16\0d
\ f\0|
\11\0|
\12\0|
\13\0g
\ 3\0\83\ 2\0\ 1|
\ e\0j
\16\0d
\10\0|
\ f\0|
\10\0g
\ 2\0\83\ 2\0\ 1|
\ e\0j
\17\0d
\0d
34892 +
\0\83\ 2\0}
\16\0|
\16\0j
\18\0|
\ 3\0d
\f\0\83\ 2\0\ 1|
\16\0j
\19\0d
34893 +
\0\83\ 1\0}
\17\0|
\0\0j
\1a\0|
\ e\0j
\e\0|
\17\0d$
\0\83\ 2\0d
\0\19\83\ 1\0\ 1d
\0\0S(%
\0\0\0NR
\ 2\0\0s
\f\0\0\0Pyfile90.meds
\f\0\0\0Pyfile91.medi
\ 5\0\0\0i
\ 3\0\0\0i
\a\0\0\0i
\v\0\0\0i
\ f\0\0\0i
\0\0\0\0g
\0\0\0\0\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0i
34894 +
\0\0\0iÿÿÿÿiþÿÿÿiýÿÿÿt
\ 4\0\0\0Eastt
\a\0\0\0Corner1i
\b\0\0\0i
\0\0\0t
\0\0\0SouthFacei
\ 6\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0t
\0\0\0NorthFacei
\r\0\0\0t
\b\0\0\0DiagFacei
\14\0\0\0i
\15\0\0\0i
\17\0\0\0i
\18\0\0\0t
\ 4\0\0\0vol1t
\ 4\0\0\0vol2g
\11ê-
\81\99\97q=(
\1c\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0Rk
\0\0\0Rß
\ 3\0\0RÞ
\ 3\0\0R§
\0\0\0R[
\0\0\0Rà
\ 3\0\0R¼
\ 3\0\0RØ
\0\0\0RÐ
\ 1\0\0Rá
\ 3\0\0R
\9c\ 1\0\0RB
\0\0\0t
\16\0\0\0shiftNodeNumbersInConnR
\0\ 2\0\0Rä
\ 2\0\0t
\15\0\0\0Build0DMeshFromCoordsR>
\0\0\0Rl
\0\0\0t
\11\0\0\0linearToQuadraticR
\v\0\0\0t
\11\0\0\0quadraticToLinearR0
\0\0\0R1
\0\0\0(
\18\0\0\0R
\0\0\0RÊ
\ 3\0\0R!
\0\0\0t
\0\0\0fileName2RÔ
\ 1\0\0R
\83\0\0\0Re
\ 1\0\0R
\84\0\0\0R
\85\0\0\0Rê
\ 3\0\0Rò
\ 1\0\0t
\ 3\0\0\0m3Dt
\ 3\0\0\0m2Dt
\ 3\0\0\0m0DR
\86\0\0\0t
\b\0\0\0grpEdge0t
\b\0\0\0grpEdge1t
\f\0\0\0grpFaceSoutht
\f\0\0\0grpFaceNortht
\b\0\0\0diagFaceR=
\ 4\0\0R>
\ 4\0\0t
\ 6\0\0\0mmOut1t
\ 6\0\0\0mmOut2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt(
\0\0\0testMEDFileUMeshLinearToQuadraticAndRev1
\8c\11\0\0s|
\0\0\0\0\ 1\ 6\ 1\ 6\ 1\ 6\ 1\f\0
34895 +
\ 1 \0\10\ 1\f\ 1\18\ 1
34896 +
\ 1\r\ 1\19\ 1\12\ 1\10\ 1\f\0
34897 +
\ 1 \0\r\0\f\0\10\ 1,
\ 1\1a\ 1\12\ 1
34898 +
\ 1\r\ 1\ 6\0\13\0\r\0\r\0
34899 +
\ 1\f\0\r\ 1\15\0\r\0\13\ 2 \ 1
34903 +
\ 1\18\0\r\ 1\12\0\r\ 1\e\0\r\ 1\e\0\r\ 1\e\0\r\ 1\18\0\r\ 1\1e\0\r\ 1\16\ 1\19\ 1\16\ 2\12\ 1\10\ 1\ f\ 1\1d\ 1c
\ 1\0\0\0\r\0\0\0
34904 +
\0\0\0C
\0\0\0s
\7f\ 3\0\0t
\0\0\83\0\0}
\ 1\0t
\ 1\0d
\ 1\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 2\0\83\0\0\ 1t
\ 1\0d
\ 2\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 2\0\83\0\0\ 1|
\ 1\0j
\ 3\0|
\ 2\0|
\ 3\0\83\ 2\0\ 1|
\ 1\0j
\ 4\0d
\ 3\0\83\ 1\0\ 1t
\ 5\0\83\0\0}
\ 4\0|
\ 4\0j
\ 6\0|
\ 1\0\83\ 1\0\ 1t
\a\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0g
\ 5\0\83\ 1\0}
\ 5\0|
\ 5\0j
\ 4\0d
\0\83\ 1\0\ 1|
\ 4\0j
\b\0d
34905 +
\0|
\ 5\0\83\ 2\0\ 1t
\a\0d
\ 4\0d
\ 2\0d
\ 5\0d
\v\0d
\f\0d
\r\0d
\b\0g
\a\0\83\ 1\0}
\ 6\0|
\ 6\0j
\ 4\0d
\ e\0\83\ 1\0\ 1|
\ 4\0j
\b\0d
34906 +
\0|
\ 6\0\83\ 2\0\ 1t
\a\0d
34907 +
\0d
\ f\0d
\10\0d
\11\0d
\12\0g
\ 5\0\83\ 1\0}
\a\0|
\a\0j
\ 4\0d
\13\0\83\ 1\0\ 1|
\ 4\0j
\b\0d
34908 +
\0|
\a\0\83\ 2\0\ 1t
\a\0d
\14\0g
\ 1\0\83\ 1\0}
\b\0|
\b\0j
\ 4\0d
\15\0\83\ 1\0\ 1|
\ 4\0j
\b\0d
34909 +
\0|
\b\0\83\ 2\0\ 1xB
\0|
\ 5\0|
\ 6\0|
\a\0|
\b\0g
\ 4\0D].
\0}
\0|
\0\0j
\0|
\ 4\0j
34911 +
\0|
\0j
\v\0\83\0\0\83\ 2\0j
\f\0|
\0\83\ 1\0\83\ 1\0\ 1qU
\ 1W|
\0\0j
\r\0|
\ 4\0j
\ e\0\83\0\0d
\1c\0\83\ 2\0\ 1d
\16\0}
34912 +
\0xW
\0|
\ 5\0|
\ 6\0|
\a\0|
\b\0g
\ 4\0D]C
\0}
\0|
\0j
\ f\0\83\0\0}
\v\0|
\v\0|
34913 +
\07}
\v\0|
\v\0j
\ 4\0d
\17\0|
\0j
\v\0\83\0\0\16\83\ 1\0\ 1|
\ 4\0j
\b\0d
\ f\0|
\v\0\83\ 2\0\ 1q¶
\ 1W|
\0\0j
\r\0|
\ 4\0j
\ e\0\83\0\0d
\1d\0\83\ 2\0\ 1xB
\0|
\ 5\0|
\ 6\0|
\a\0|
\b\0g
\ 4\0D].
\0}
\0|
\0\0j
\0|
\ 4\0j
34915 +
\0|
\0j
\v\0\83\0\0\83\ 2\0j
\f\0|
\0\83\ 1\0\83\ 1\0\ 1q&
\ 2Wxg
\0|
\ 5\0|
\ 6\0|
\a\0|
\b\0g
\ 4\0D]S
\0}
\0|
\0|
34916 +
\0\17}
\f\0|
\f\0j
\ 4\0d
\17\0|
\0j
\v\0\83\0\0\16\83\ 1\0\ 1|
\0\0j
\0|
\ 4\0j
34917 +
\0d
\ f\0d
\17\0|
\0j
\v\0\83\0\0\16\83\ 2\0j
\f\0|
\f\0\83\ 1\0\83\ 1\0\ 1qk
\ 2W|
\ 4\0j
\10\0\83\0\0\ 1xB
\0|
\ 5\0|
\ 6\0|
\a\0|
\b\0g
\ 4\0D].
\0}
\0|
\0\0j
\0|
\ 4\0j
34919 +
\0|
\0j
\v\0\83\0\0\83\ 2\0j
\f\0|
\0\83\ 1\0\83\ 1\0\ 1qß
\ 2Wxg
\0|
\ 5\0|
\ 6\0|
\a\0|
\b\0g
\ 4\0D]S
\0}
\0|
\0|
34920 +
\0\17}
\f\0|
\f\0j
\ 4\0d
\17\0|
\0j
\v\0\83\0\0\16\83\ 1\0\ 1|
\0\0j
\0|
\ 4\0j
34921 +
\0d
\ f\0d
\17\0|
\0j
\v\0\83\0\0\16\83\ 2\0j
\f\0|
\f\0\83\ 1\0\83\ 1\0\ 1q$
\ 3Wd
\0\0S(
\1e\0\0\0Ni
\0\0\0i
\ 4\0\0\0R
\ 2\0\0i
\ 3\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\15\0\0\0i
\16\0\0\0R
\93\ 2\0\0i
\0\0\0\0i
\b\0\0\0i
\12\0\0\0i
\13\0\0\0R
\95\ 2\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
34922 +
\0\0\0i
\v\0\0\0Rè
\ 1\0\0i
\17\0\0\0R
\8d\ 3\0\0i
\f\0\0\0s
\a\0\0\0%s_nodet
\0\0\0grp0_nodet
\0\0\0grp1_nodet
\0\0\0grp2_nodet
\0\0\0grp3_node(
\ 4\0\0\0s
\ 4\0\0\0grp0s
\ 4\0\0\0grp1s
\ 4\0\0\0grp2s
\ 4\0\0\0grp3(
\b\0\0\0s
\ 4\0\0\0grp0RO
\ 4\0\0s
\ 4\0\0\0grp1RP
\ 4\0\0s
\ 4\0\0\0grp2RQ
\ 4\0\0s
\ 4\0\0\0grp3RR
\ 4\0\0(
\11\0\0\0R±
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rc
\0\0\0RB
\0\0\0R¯
\0\0\0R³
\0\0\0Rk
\0\0\0R¥
\ 2\0\0R0
\0\0\0RG
\0\0\0RC
\0\0\0R1
\0\0\0R+
\0\0\0R²
\ 1\0\0Rq
\0\0\0R
34923 +
\ 3\0\0(
\r\0\0\0R
\0\0\0R
\83\0\0\0t
\ 4\0\0\0arrXt
\ 4\0\0\0arrYR
\86\0\0\0R
\93\ 2\0\0R
\95\ 2\0\0Rè
\ 1\0\0R
\8d\ 3\0\0Rç
\ 1\0\0Rò
\ 1\0\0Ré
\ 1\0\0t
\ 6\0\0\0grpExp(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\18\0\0\0testMEDFileMeshAddGroup1·
\11\0\0sZ
\0\0\0\0\ 1 \ 1\f\0
34925 +
\ 1\10\ 1\r\ 1 \ 1\r\ 1\e\0\r\ 1\10\ 1!
\0\r\ 1\10\ 1\e\0\r\ 1\10\ 1\ f\0\r\ 1\10\ 1\19\ 1,
\ 1\16\ 1\ 6\ 1\19\ 1\f\0
34926 +
\0\17\ 1\14\ 1\16\ 1\19\ 1,
\ 1\19\ 1
34928 +
\ 1\19\ 1,
\ 1\19\ 1
34929 +
\0\17\ 10
\ 1c
\ 1\0\0\0\v\0\0\0
34930 +
\0\0\0C
\0\0\0sZ
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0d
\16\0d
\17\0d
\18\0g
\ 3\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 1\0d
\ 5\0d
\ 6\0d
\a\0g
\ 3\0\83\ 1\0\ 1t
\ 2\0\83\0\0}
\ 3\0|
\ 3\0j
\ 3\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\b\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0d
\0\83\ 1\0\ 1|
\ 3\0j
\ 6\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\a\0t
\b\0d
\ 3\0d
\ 4\0d
34931 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0g
\b\0\83\ 1\0\83\ 1\0}
\ 4\0t
\a\0t
\b\0d
\10\0d
\11\0d
\12\0d
\13\0g
\ 4\0\83\ 1\0t
\0t
\0\83\ 3\0}
\ 5\0t
34932 +
\0\83\0\0}
\ 6\0|
\ 6\0j
\v\0|
\ 5\0\83\ 1\0\ 1|
\ 6\0j
\v\0|
\ 4\0\83\ 1\0\ 1t
\f\0\83\0\0}
\a\0|
\a\0j
\r\0|
\ 6\0\83\ 1\0\ 1|
\a\0j
\ e\0d
\b\0\83\ 1\0\ 1|
\a\0j
\ f\0d
\b\0\83\ 1\0\ 1|
\a\0j
\ 5\0d
\14\0\83\ 1\0\ 1|
\a\0j
\10\0d
\15\0\83\ 1\0\ 1|
\a\0j
\11\0d
\ 3\0\83\ 1\0\ 1|
\0\0j
\12\0|
\a\0j
\13\0\83\0\0d
\b\0\83\ 2\0\ 1|
\0\0j
\12\0|
\a\0j
\14\0\83\0\0d
\b\0\83\ 2\0\ 1|
\0\0j
\12\0|
\a\0j
\15\0\83\0\0d
\14\0\83\ 2\0\ 1|
\0\0j
\12\0|
\a\0j
\16\0\83\0\0d
\15\0\83\ 2\0\ 1|
\0\0j
\12\0|
\a\0j
\17\0\83\0\0d
\ 3\0\83\ 2\0\ 1t
\18\0\83\0\0}
\b\0|
\b\0j
\19\0|
\a\0\83\ 1\0\ 1|
\b\0j
\ 6\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\18\0|
\ 1\0|
\ 3\0j
\1a\0\83\0\0\83\ 2\0}
\0|
\0\0j
\12\0|
\0j
\e\0\83\0\0d
\ 3\0\83\ 2\0\ 1|
\0j
\1c\0d
\ 2\0\83\ 1\0}
34934 +
\0j
\1e\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\1f\0t
\0|
\0j
\1c\0d
\ 3\0\83\ 3\0\ 1|
\0\0j
\1f\0t
\0|
\0j!
\0d
\ 3\0\83\ 3\0\ 1|
\0j!
\0d
\ 2\0\83\ 1\0\ 1d
\0\0S(
\19\0\0\0Ns
\f\0\0\0Pyfile92.medi
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0s
\ 6\0\0\0x [cm]s
\ 6\0\0\0y [cm]s
\ 6\0\0\0z [cm]t
\ 4\0\0\0maa1s
\v\0\0\0un maillagei
\ 3\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
34935 +
\0\0\0i
\v\0\0\0i
\f\0\0\0t
\11\0\0\0joint_descriptiont
\a\0\0\0joint_1(
\ 3\0\0\0i
\0\0\0\0i
\0\0\0\0i
\0\0\0\0(
\ 3\0\0\0i
\ 1\0\0\0i
\0\0\0\0i
\0\0\0\0(
\ 3\0\0\0i
\ 2\0\0\0i
\0\0\0\0i
\0\0\0\0("
\0\0\0RY
\0\0\0RÃ
\ 1\0\0R>
\0\0\0Rc
\0\0\0RB
\0\0\0Ri
\0\0\0R
\v\0\0\0t
\1a\0\0\0MEDFileJointCorrespondenceRk
\0\0\0R_
\0\0\0t
\13\0\0\0MEDFileJointOneStept
\12\0\0\0pushCorrespondencet
\f\0\0\0MEDFileJointt
\b\0\0\0pushStept
\10\0\0\0setLocalMeshNamet
\11\0\0\0setRemoteMeshNamet
\f\0\0\0setJointNamet
\ f\0\0\0setDomainNumberR+
\0\0\0t
\10\0\0\0getLocalMeshNamet
\11\0\0\0getRemoteMeshNameR~
\0\0\0t
\f\0\0\0getJointNamet
\ f\0\0\0getDomainNumbert
\r\0\0\0MEDFileJointst
\0\0\0pushJointRC
\0\0\0t
\11\0\0\0getNumberOfJointst
\r\0\0\0getJointAtPosR0
\0\0\0R1
\0\0\0R)
\0\0\0R*
\0\0\0t
\11\0\0\0destroyJointAtPos(
\v\0\0\0R
\0\0\0R!
\0\0\0R
\ 3\ 2\0\0R
\86\0\0\0t
\ f\0\0\0node_correspondt
\ f\0\0\0cell_correspondt
\ e\0\0\0one_step_jointt
\0\0\0one_jointt
\ 6\0\0\0jointst
\a\0\0\0jointsRt
\ 2\0\0\0jR(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\11\0\0\0testMEDFileJoint1Ü
\11\0\0sH
\0\0\0\0\ 1\ 6\ 1\15\ 1\16\ 1 \ 1\r\ 1\r\ 1\r\ 1\10\ 1*
\ 1$
\ 1 \ 1\r\ 1\r\ 1 \ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1 \ 1\r\ 1\10\ 2\15\ 1\16\ 1\ f\ 1\16\ 1\16\ 1\16\ 1\r\ 1c
\ 1\0\0\0\ e\0\0\0\ 6\0\0\0C
\0\0\0s
\91\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0d
\14\0d
\15\0d
\16\0g
\ 3\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 1\0d
\ 5\0d
\ 6\0d
\a\0g
\ 3\0\83\ 1\0\ 1t
\ 2\0\83\0\0}
\ 3\0|
\ 3\0j
\ 3\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0d
\b\0\83\ 1\0\ 1|
\ 3\0j
\ 5\0d
\0\83\ 1\0\ 1t
\ 6\0t
\a\0d
34936 +
\0d
\v\0d
\f\0d
\r\0g
\ 4\0\83\ 1\0\83\ 1\0}
\ 4\0t
\ 6\0t
\a\0d
\ e\0d
\ f\0g
\ 2\0\83\ 1\0t
\b\0t
\0\83\ 3\0}
\ 5\0t
34938 +
\0\83\0\0}
\a\0t
\v\0\83\0\0}
\b\0t
\v\0\83\0\0}
\0|
\ 6\0j
\f\0|
\ 4\0\83\ 1\0\ 1|
\b\0j
\r\0|
\ 6\0\83\ 1\0\ 1|
\a\0j
\f\0|
\ 5\0\83\ 1\0\ 1|
\a\0j
\f\0|
\ 4\0\83\ 1\0\ 1|
\0j
\r\0|
\a\0\83\ 1\0\ 1|
\b\0j
\ e\0d
\b\0\83\ 1\0\ 1|
\b\0j
\ f\0d
\b\0\83\ 1\0\ 1|
\b\0j
\ 5\0d
\10\0\83\ 1\0\ 1|
\b\0j
\10\0d
\11\0\83\ 1\0\ 1|
\b\0j
\11\0d
\ 3\0\83\ 1\0\ 1|
\0j
\ e\0d
\b\0\83\ 1\0\ 1|
\0j
\ f\0d
\b\0\83\ 1\0\ 1|
\0j
\ 5\0d
\12\0\83\ 1\0\ 1|
\0j
\10\0d
\13\0\83\ 1\0\ 1|
\0j
\11\0d
\ 4\0\83\ 1\0\ 1t
\12\0\83\0\0}
34940 +
\0j
\13\0|
\b\0\83\ 1\0\ 1|
34941 +
\0j
\13\0|
\0\83\ 1\0\ 1|
\ 3\0j
\14\0|
34942 +
\0\83\ 1\0\ 1|
\ 3\0j
\15\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\16\0j
\17\0|
\ 1\0\83\ 1\0}
\ 3\0|
\0\0j
\18\0|
\ 3\0j
\19\0\83\0\0d
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\1a\0\83\0\0}
\v\0|
\0\0j
\18\0|
\v\0j
\e\0\83\0\0|
\ 3\0j
\1c\0\83\0\0\83\ 2\0\ 1|
\0\0j
\18\0t
\1d\0|
\v\0\83\ 1\0d
\ 4\0\83\ 2\0\ 1|
\v\0d
\ 2\0\19}
\f\0|
\v\0d
\ 3\0\19}
\r\0|
\0\0j
\1e\0|
\f\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\1e\0|
\r\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\0|
\f\0j!
\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\0|
\r\0j!
\0|
\0\83\ 1\0\83\ 1\0\ 1d
\0\0S(
\17\0\0\0Ns
\f\0\0\0Pyfile93.medi
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0s
\ 6\0\0\0x [cm]s
\ 6\0\0\0y [cm]s
\ 6\0\0\0z [cm]RW
\ 4\0\0s
\v\0\0\0un maillagei
\r\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0t
\13\0\0\0joint_description_1RY
\ 4\0\0t
\13\0\0\0joint_description_2t
\a\0\0\0joint_2(
\ 3\0\0\0i
\0\0\0\0i
\0\0\0\0i
\0\0\0\0(
\ 3\0\0\0i
\ 1\0\0\0i
\0\0\0\0i
\0\0\0\0(
\ 3\0\0\0i
\ 2\0\0\0i
\0\0\0\0i
\0\0\0\0("
\0\0\0RY
\0\0\0RÃ
\ 1\0\0R>
\0\0\0Rc
\0\0\0RB
\0\0\0Ri
\0\0\0RZ
\ 4\0\0Rk
\0\0\0R©
\ 3\0\0R«
\ 3\0\0R[
\ 4\0\0R]
\ 4\0\0R\
\ 4\0\0R^
\ 4\0\0R_
\ 4\0\0R`
\ 4\0\0Ra
\ 4\0\0Rb
\ 4\0\0Rg
\ 4\0\0Rh
\ 4\0\0t
\0\0\0setJointsR
\v\0\0\0R'
\0\0\0R(
\0\0\0R+
\0\0\0Ri
\ 4\0\0t
\0\0\0getJointst
\v\0\0\0getMeshNameRC
\0\0\0Ry
\0\0\0t
\v\0\0\0assertFalseR/
\ 2\0\0R0
\0\0\0R1
\0\0\0(
\ e\0\0\0R
\0\0\0t
34943 +
\0\0\0fileNameWrR
\ 3\ 2\0\0R
\86\0\0\0Rl
\ 4\0\0Rm
\ 4\0\0Rn
\ 4\0\0t
\ e\0\0\0two_step_jointRo
\ 4\0\0t
\0\0\0two_jointRp
\ 4\0\0Rq
\ 4\0\0t
\a\0\0\0jointR1t
\a\0\0\0jointR2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\11\0\0\0testMEDFileJoint2
\ 3\12\0\0sZ
\0\0\0\0\ 1\ 6\ 1\15\ 1\16\ 1 \ 1\r\ 1\r\ 1\r\ 1\1e\ 1\1e\ 1 \ 1 \ 1 \ 1 \ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1 \ 1\r\ 1\r\ 1\r\ 1\10\ 2\ f\ 1\16\ 1\f\ 1\1c\ 1\16\ 1
34945 +
\ 1\13\ 1\13\ 1\16\ 1\16\ 1c
\ 1\0\0\0\f\0\0\0
34946 +
\0\0\0C
\0\0\0su
\ 2\0\0t
\0\0t
\ 1\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0g
\b\0\83\ 1\0\83\ 1\0}
\ 1\0t
\0\0t
\ 1\0d
\0d
34947 +
\0d
\v\0d
\f\0g
\ 4\0\83\ 1\0t
\ 2\0t
\ 2\0\83\ 3\0}
\ 2\0t
\0\0t
\ 1\0d
\0d
34948 +
\0d
\v\0g
\ 3\0\83\ 1\0t
\ 2\0t
\ 2\0\83\ 3\0}
\ 3\0t
\0\0t
\ 1\0d
\0d
34949 +
\0d
\v\0d
\f\0g
\ 4\0\83\ 1\0t
\ 2\0t
\ 3\0\83\ 3\0}
\ 4\0t
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\ 5\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\ 5\0|
\ 1\0\83\ 1\0\ 1t
\ 4\0\83\0\0}
\ 6\0|
\ 6\0j
\ 5\0|
\ 2\0\83\ 1\0\ 1|
\ 6\0j
\ 5\0|
\ 1\0\83\ 1\0\ 1t
\ 4\0\83\0\0}
\a\0|
\a\0j
\ 5\0|
\ 1\0\83\ 1\0\ 1|
\a\0j
\ 5\0|
\ 2\0\83\ 1\0\ 1t
\ 4\0\83\0\0}
\b\0|
\b\0j
\ 5\0|
\ 2\0\83\ 1\0\ 1t
\ 4\0\83\0\0}
\0|
\0j
\ 5\0|
\ 3\0\83\ 1\0\ 1t
\ 4\0\83\0\0}
34951 +
\0j
\ 5\0|
\ 4\0\83\ 1\0\ 1|
\0\0j
\ 6\0|
\ 5\0j
\a\0|
\ 6\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 6\0|
\ 5\0j
\a\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\b\0|
\ 5\0j
\a\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\b\0|
\b\0j
\a\0|
\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\b\0|
\b\0j
\a\0|
34952 +
\0\83\ 1\0\83\ 1\0\ 1t
\0\83\0\0}
\v\0|
\v\0j
34953 +
\0|
\ 5\0\83\ 1\0\ 1|
\v\0j
\v\0d
\r\0\83\ 1\0\ 1|
\v\0j
\f\0d
\ e\0\83\ 1\0\ 1|
\v\0j
\r\0d
\ f\0\83\ 1\0\ 1|
\v\0j
\ e\0d
\10\0\83\ 1\0\ 1|
\v\0j
\ f\0d
\ 1\0\83\ 1\0\ 1|
\0\0j
\10\0d
\r\0|
\v\0j
\11\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ e\0|
\v\0j
\12\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ f\0|
\v\0j
\13\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\ 1\0|
\v\0j
\14\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0d
\10\0|
\v\0j
\15\0\83\0\0\83\ 2\0\ 1d
\0\0S(
\11\0\0\0Ni
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
34954 +
\0\0\0i
\v\0\0\0i
\f\0\0\0RW
\ 4\0\0t
\ 4\0\0\0maa2RX
\ 4\0\0RY
\ 4\0\0(
\16\0\0\0RZ
\ 4\0\0Rk
\0\0\0R_
\0\0\0R`
\0\0\0R[
\ 4\0\0R\
\ 4\0\0R0
\0\0\0R1
\0\0\0Rz
\ 4\0\0R]
\ 4\0\0R^
\ 4\0\0R_
\ 4\0\0R`
\ 4\0\0Ri
\0\0\0Ra
\ 4\0\0Rb
\ 4\0\0R+
\0\0\0Rc
\ 4\0\0Rd
\ 4\0\0R~
\0\0\0Rf
\ 4\0\0Re
\ 4\0\0(
\f\0\0\0R
\0\0\0Rl
\ 4\0\0Rm
\ 4\0\0t
\ f\0\0\0cell_correspon2t
\ f\0\0\0cell_correspon3t
34960 +
\0\0\0joint1st_6Ro
\ 4\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyRs
\ 4\0\03
\12\0\0sJ
\0\0\0\0\ 1*
\ 1$
\ 1!
\ 1$
\ 1 \ 1\r\ 1\r\ 1 \ 1\r\ 1\r\ 1 \ 1\r\ 1\r\ 1 \ 1\r\ 1 \ 1\r\ 1 \ 1\r\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1 \ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\r\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1t
\ 5\0\0\0linuxs*
\0\0\0stderr redirection not ported on Windows ?c
\ 1\0\0\0
34961 +
\0\0\0\ 5\0\0\0C
\0\0\0s`
\ 1\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0d
\ 4\0l
\0\0}
\ 3\0|
\ 3\0j
\ 1\0j
\ 2\0|
\ 1\0\83\ 1\0r:
\0|
\ 3\0j
\ 3\0|
\ 1\0\83\ 1\0\ 1n
\0\0t
\ 4\0\83\0\0}
\ 4\0t
\ 5\0d
\ 5\0\83\ 1\0}
\ 5\0|
\ 5\0j
\ 6\0\83\0\0\ 1|
\ 4\0j
\a\0|
\ 5\0|
\ 5\0\83\ 2\0\ 1t
\b\0\83\0\0}
\ 6\0|
\ 6\0j
\0|
\ 4\0\83\ 1\0\ 1|
\ 6\0j
34962 +
\0d
\ 6\0\83\ 1\0\ 1|
\ 6\0j
\v\0|
\ 1\0d
\a\0\83\ 2\0\ 1|
\ 3\0j
\f\0|
\ 1\0d
\b\0\83\ 2\0\ 1t
\r\0t
\ e\0\83\ 1\0}
\a\0|
\a\0j
34963 +
\0d
\0\83\ 1\0\ 1|
\a\0j
\0|
\ 4\0\83\ 1\0\ 1|
\a\0j
\ f\0t
\ 5\0d
34964 +
\0\83\ 1\0\83\ 1\0\ 1d
\v\0|
\a\0j
\10\0\83\0\0(|
\a\0j
\11\0\83\0\0\ 1t
\12\0\83\0\0}
\b\0|
\b\0j
\13\0|
\a\0\83\ 1\0\ 1t
\14\0|
\ 2\0\83\ 1\0}
\0|
\0\0j
\15\0t
\16\0|
\b\0j
\v\0|
\ 1\0d
\f\0\83\ 4\0\ 1~
\0|
\ 3\0j
\ 1\0j
\ 2\0|
\ 2\0\83\ 1\0r\
\ 1|
\ 3\0j
\ 3\0|
\ 2\0\83\ 1\0\ 1n
\0\0d
\ 4\0S(
\r\0\0\0su
\0\0\0 EDF11242 : check status of MED file calls to detect problems immediately. Sorry this test generates awful messages !s
\f\0\0\0Pyfile94.meds
\f\0\0\0Pyfile94.erriÿÿÿÿNi
\v\0\0\0R
\ 2\0\0i
\ 2\0\0\0i$
\ 1\0\0R5
\ 4\0\0id
\0\0\0g
\0\0\0\0\0\0Y@i
\0\0\0\0(
\17\0\0\0R
\11\0\0\0t
\ 4\0\0\0patht
\ 6\0\0\0existst
\ 6\0\0\0removeR±
\0\0\0RY
\0\0\0Ry
\ 1\0\0Rc
\0\0\0R¯
\0\0\0R³
\0\0\0RB
\0\0\0R
\v\0\0\0t
\ 5\0\0\0chmodRw
\ 1\0\0R
\13\ 1\0\0R{
\ 1\0\0R)
\ 1\0\0Rd
\0\0\0Rà
\0\0\0R%
\ 1\0\0R
\ 6\0\0\0R)
\0\0\0R*
\0\0\0(
34965 +
\0\0\0R
\0\0\0R9
\ 1\0\0t
\b\0\0\0errfnameR
\11\0\0\0R
\83\0\0\0RÔ
\ 1\0\0R
\86\0\0\0R
\b\0\0\0Rú
\0\0\0R
\93\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\14\0\0\0testMEDFileSafeCall0Z
\12\0\0s:
\0\0\0\0\ 3\ 6\ 1\ 6\ 2\f\ 2\12\ 1\r\ 1\ 3\ 2 \ 1\f\0
34966 +
\ 1\10\ 1 \ 1\r\ 1\r\ 1\10\ 2\10\ 2\f\ 1\r\ 1\r\ 1\13\ 1\r\ 1
34967 +
\ 1 \ 1\r\ 2\f\ 1\19\ 1\ 3\ 2\12\ 1\10\ 2c
\ 1\0\0\0\ 5\0\0\0\ 3\0\0\0C
\0\0\0sÝ
\0\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\ 3\0|
\ 3\0j
\ 3\0|
\ 2\0|
\ 2\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0d
\ 3\0\83\ 1\0\ 1t
\ 5\0\83\0\0}
\ 4\0|
\ 4\0j
\ 6\0|
\ 3\0\83\ 1\0\ 1|
\ 4\0j
\a\0t
\b\0\83\ 1\0\ 1|
\ 4\0j
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\ 5\0|
\ 1\0\83\ 1\0}
\ 4\0|
\0\0j
34968 +
\0|
\ 4\0j
\v\0\83\0\0d
\ 5\0\83\ 2\0\ 1|
\ 4\0j
\a\0t
\f\0\83\ 1\0\ 1|
\ 4\0j
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\ 5\0|
\ 1\0\83\ 1\0}
\ 4\0|
\0\0j
\r\0|
\ 4\0j
\v\0\83\0\0d
\ 5\0k
\ 3\0\83\ 1\0\ 1d
\ 6\0S(
\a\0\0\0sE
\0\0\0 Non regression test to check the effectiveness of univ write status.s
\f\0\0\0Pyfile95.medi
34969 +
\0\0\0R
\ 2\0\0i
\ 2\0\0\0R&
\0\0\0N(
\ e\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0RB
\0\0\0R¯
\0\0\0R³
\0\0\0t
\13\0\0\0setUnivNameWrStatusRN
\0\0\0R
\v\0\0\0R+
\0\0\0R{
\0\0\0R.
\0\0\0R0
\0\0\0(
\ 5\0\0\0R
\0\0\0R9
\ 1\0\0RÔ
\ 1\0\0R
\83\0\0\0R
\86\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ f\0\0\0testUnivStatus1
\82\12\0\0s"
\0\0\0\0\ 2\ 6\ 1\f\0
34970 +
\ 1 \0\10\0\r\ 1 \0\r\ 1\r\ 1\10\ 1\f\ 1\16\ 1\r\ 1\10\ 1\f\ 1\19\ 1c
\ 1\0\0\0\ 6\0\0\0\ 5\0\0\0C
\0\0\0s¸
\0\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 3\0\83\ 2\0}
\ 2\0|
\ 2\0j
\ 1\0t
\ 2\0g
\0\0d
\ 4\0d
\ 3\0\83\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ 3\0t
\ 4\0g
\0\0\83\ 1\0t
\ 4\0d
\ 4\0g
\ 1\0\83\ 1\0\83\ 2\0\ 1t
\ 5\0\83\0\0}
\ 3\0|
\ 3\0j
\ 6\0d
\ 4\0|
\ 2\0\83\ 2\0\ 1|
\ 3\0j
\a\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\ 5\0|
\ 1\0\83\ 1\0}
\ 4\0|
\0\0j
\b\0d
\ 2\0|
\ 4\0j
\0\83\0\0\83\ 2\0\ 1|
\ 4\0j
34971 +
\0\83\0\0}
\ 5\0|
\0\0j
\b\0d
\ 6\0|
\ 5\0\83\ 2\0\ 1d
\ 5\0S(
\a\0\0\0si
\0\0\0 MEDLoader should be able to consistently write and read an empty mesh (coords array
34972 + with 0 tuples s
\f\0\0\0Pyfile96.medR
\8b\ 2\0\0i
\ 2\0\0\0i
\0\0\0\0N(
\0\0\0\0(
\v\0\0\0R[
\0\0\0Rc
\0\0\0RY
\0\0\0Rÿ
\ 1\0\0Rk
\0\0\0R>
\0\0\0Rj
\0\0\0R
\v\0\0\0R+
\0\0\0RC
\0\0\0R,
\0\0\0(
\ 6\0\0\0R
\0\0\0R9
\ 1\0\0R
\83\0\0\0R
\ 2\0\0t
\ 4\0\0\0mfu2t
\ 3\0\0\0lvl(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testEmptyMesh
\92\12\0\0s
\16\0\0\0\0\ 3\ 6\ 1\ f\ 1\19\ 1\1f\ 1 \ 1\10\ 1\10\ 1\f\ 1\16\ 1\f\ 1c
\ 1\0\0\0\11\0\0\0\ 4\0\0\0C
\0\0\0s
\85\ 1\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0d
\ 4\0}
\ 4\0d
\ 5\0}
\ 5\0t
\0\0|
\ 5\0\83\ 1\0}
\ 6\0|
\ 6\0j
\ 1\0\83\0\0\ 1|
\ 6\0|
\ 5\0d
\ 6\0\18:}
\ 6\0|
\ 6\0|
\ 4\09}
\ 6\0t
\ 2\0\83\0\0}
\a\0|
\a\0j
\ 3\0|
\ 6\0|
\ 6\0|
\ 6\0\83\ 3\0\ 1|
\a\0j
\ 4\0\83\0\0}
\a\0|
\a\0j
\ 5\0|
\ 1\0\83\ 1\0\ 1t
\ 6\0\83\0\0}
\b\0|
\a\0|
\b\0d
\a\0<|
\a\0j
\a\0\83\0\0}
\0|
\0|
\b\0d
\b\0<|
\0j
\b\0\83\0\0d
\0d
\0\85\ 2\0d
34975 +
\0j
\0|
\ 4\0d
\v\0\18|
\ 4\0d
\v\0\17\83\ 2\0}
\v\0|
\v\0j
\ 5\0|
\ 2\0\83\ 1\0\ 1|
34976 +
\0j
\0d
\r\0d
\ e\0\83\ 2\0}
\f\0|
\f\0j
\ 5\0|
\ 3\0\83\ 1\0\ 1|
\b\0j
34977 +
\0d
\b\0|
\v\0|
\f\0g
\ 2\0\83\ 2\0\ 1t
\v\0j
\f\0|
\b\0d
34978 +
\0\83\ 2\0}
\r\0t
\v\0j
\r\0|
\r\0\83\ 1\0}
\ e\0t
\v\0j
\f\0|
\ e\0d
34979 +
\0\83\ 2\0}
\ f\0t
\v\0j
\r\0|
\ f\0\83\ 1\0}
\10\0|
\0\0j
\ e\0|
\b\0j
\ f\0|
\10\0d
\v\0\83\ 2\0d
\a\0\19\83\ 1\0\ 1d
\0S(
\ f\0\0\0s[
\0\0\0 Check that pickalization can be performed on a unpickalized instance. Non regression test.t
\ 6\0\0\0Mesh_1t
\ 4\0\0\0HAUTt
\ 4\0\0\0BASEg
\0\0\0\0\0\0ð?i
\ 3\0\0\0i
\ 1\0\0\0i
\0\0\0\0iÿÿÿÿNi
\ 2\0\0\0g
\11ê-
\81\99\97q=g
\0\0\0\0\0\0\0\0g
\11ê-
\81\99\97q½g
\11ê-
\81\99\97q=(
\10\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0RB
\0\0\0R>
\0\0\0Rä
\ 2\0\0t
\17\0\0\0computeCellCenterOfMasst
\ e\0\0\0findIdsInRangeRl
\0\0\0Rî
\ 3\0\0Rï
\ 3\0\0Rñ
\ 3\0\0R0
\0\0\0R1
\0\0\0(
\11\0\0\0R
\0\0\0Rh
\ 1\0\0t
\b\0\0\0grpName1t
\b\0\0\0grpName2t
\a\0\0\0hauteurt
\10\0\0\0nbOfNodesPerAxisRÔ
\ 1\0\0R
\83\0\0\0R
\ 2\0\0R
\84\0\0\0t
\ 5\0\0\0bary1R
\95\ 2\0\0Rè
\ 1\0\0R
\r\0\0\0R
\86\0\0\0t
\ 3\0\0\0st2R¢
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testMEDFileUMeshPickeling2¡
\12\0\0s:
\0\0\0\0\ 3\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1\f\0
34981 +
\ 1 \0\13\0\f\0\r\ 1 \0
34983 +
\ 2\1c\ 1\1a\0\r\ 1\12\0\r\ 1\16\ 2\12\ 1\ f\ 1\12\ 1\ f\ 1\1d\ 1c
\ 1\0\0\0\11\0\0\0\81\0\0\0C
\0\0\0s)
\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0\83\0\0}
\ 3\0t
\ 1\0d
\ 3\0d
\ 3\0d
\ 3\0f
\ 3\0d
\ 4\0d
\ 3\0d
\ 3\0f
\ 3\0d
\ 5\0d
\ 3\0d
\ 3\0f
\ 3\0d
\ 6\0d
\ 3\0d
\ 3\0f
\ 3\0d
\ 3\0d
\a\0d
\ 3\0f
\ 3\0d
\ 4\0d
\a\0d
\ 3\0f
\ 3\0d
\ 5\0d
\a\0d
\ 3\0f
\ 3\0d
\ 6\0d
\a\0d
\ 3\0f
\ 3\0d
\ 3\0d
\b\0d
\ 3\0f
\ 3\0d
\ 4\0d
\b\0d
\ 3\0f
\ 3\0d
\ 5\0d
\b\0d
\ 3\0f
\ 3\0d
\ 6\0d
\b\0d
\ 3\0f
\ 3\0d
\ 3\0d
\0d
\ 3\0f
\ 3\0d
\ 4\0d
\0d
\ 3\0f
\ 3\0d
\ 5\0d
\0d
\ 3\0f
\ 3\0d
\ 6\0d
\0d
\ 3\0f
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0f
\ 3\0d
\ 4\0d
\ 3\0d
\ 4\0f
\ 3\0d
\ 5\0d
\ 3\0d
\ 4\0f
\ 3\0d
\ 6\0d
\ 3\0d
\ 4\0f
\ 3\0d
\ 3\0d
\a\0d
\ 4\0f
\ 3\0d
\ 4\0d
\a\0d
\ 4\0f
\ 3\0d
\ 5\0d
\a\0d
\ 4\0f
\ 3\0d
\ 6\0d
\a\0d
\ 4\0f
\ 3\0d
\ 3\0d
\b\0d
\ 4\0f
\ 3\0d
\ 4\0d
\b\0d
\ 4\0f
\ 3\0d
\ 5\0d
\b\0d
\ 4\0f
\ 3\0d
\ 6\0d
\b\0d
\ 4\0f
\ 3\0d
\ 3\0d
\0d
\ 4\0f
\ 3\0d
\ 4\0d
\0d
\ 4\0f
\ 3\0d
\ 5\0d
\0d
\ 4\0f
\ 3\0d
\ 6\0d
\0d
\ 4\0f
\ 3\0d
\ 4\0d
\ 3\0d
34984 +
\0f
\ 3\0d
\ 4\0d
\v\0d
\ 3\0f
\ 3\0d
\f\0d
\ 3\0d
\ 3\0f
\ 3\0d
\ 5\0d
\ 3\0d
34985 +
\0f
\ 3\0d
\ 5\0d
\v\0d
\ 3\0f
\ 3\0d
\ 4\0d
\a\0d
34986 +
\0f
\ 3\0d
\f\0d
\a\0d
\ 3\0f
\ 3\0d
\ 5\0d
\a\0d
34987 +
\0f
\ 3\0d
\ 4\0d
\v\0d
\ 4\0f
\ 3\0d
\f\0d
\ 3\0d
\ 4\0f
\ 3\0d
\ 5\0d
\v\0d
\ 4\0f
\ 3\0d
\f\0d
\a\0d
\ 4\0f
\ 3\0d
\ 4\0d
\v\0d
34988 +
\0f
\ 3\0d
\f\0d
\ 3\0d
34989 +
\0f
\ 3\0d
\f\0d
\v\0d
\ 3\0f
\ 3\0d
\ 5\0d
\v\0d
34990 +
\0f
\ 3\0d
\f\0d
\a\0d
34991 +
\0f
\ 3\0d
\f\0d
\v\0d
\ 4\0f
\ 3\0d
\f\0d
\v\0d
34992 +
\0f
\ 3\0g3
\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 2\0d
\r\0d
\ e\0d
\ f\0g
\ 3\0\83\ 1\0\ 1t
\ 3\0d
\10\0d
\11\0d
\12\0d
\13\0d
\v\0d
\14\0d
\15\0d
\ 4\0d
\12\0d
\13\0d
\ 4\0d
\15\0d
\10\0d
\16\0d
\17\0d
\18\0d
\11\0d
\19\0d
\17\0d
\16\0d
\12\0d
\1a\0d
\17\0d
\19\0d
\13\0d
\18\0d
\17\0d
\1a\0d
\v\0d
\e\0d
\1c\0d
\ 6\0d
\14\0d
\1d\0d
\1c\0d
\e\0d
\15\0d
\1e\0d
\1c\0d
\1d\0d
\ 4\0d
\ 6\0d
\1c\0d
\1e\0d
\12\0d
\1a\0d
\1f\0d
\0d
\13\0d!
\0d
\1f\0d
\1a\0d
\ 4\0d
\1e\0d
\1f\0d!
\0d
\15\0d
\0d
\1f\0d
\1e\0g<
\0\83\ 1\0}
\ 5\0t
\ 4\0|
\ 2\0t
\ 5\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 6\0|
\ 4\0\83\ 1\0\ 1|
\ 6\0j
\a\0|
\ 5\0\83\ 1\0\ 1|
\ 6\0|
\ 3\0d"
\0<t
\ 3\0d#
\0d$
\0d
\11\0d
\12\0d
\a\0d
\ 3\0d
\10\0d
\13\0d
\15\0d
\14\0d
\ 5\0d%
\0d
\ 4\0d
\v\0d
34993 +
\0d&
\0d
\0d#
\0d
\12\0d'
\0d(
\0d
\a\0d
\13\0d)
\0d'
\0d
\12\0d
\15\0d*
\0d)
\0d
\13\0d
\ 4\0d+
\0d*
\0d
\15\0d%
\0d,
\0d+
\0d
\ 4\0d&
\0d-
\0d.
\0d
\0d'
\0d/
\0d0
\0d(
\0d)
\0d
\b\0d/
\0d'
\0d*
\0d1
\0d
\b\0d)
\0d+
\0d2
\0d1
\0d*
\0d,
\0d3
\0d2
\0d+
\0d-
\0d4
\0d
\12\0d
\19\0d5
\0d
\0d
\1a\0d
\17\0d6
\0d
\1f\0d
\19\0d
\11\0d7
\0d5
\0d
\17\0d
\16\0d8
\0d6
\0d5
\0d7
\0d
\14\0d
\1d\0d6
\0d8
\0d
\e\0d
\1c\0d
\0d5
\0d
\1d\0d
\15\0d
\1f\0d6
\0d
\1c\0d
\1e\0d
\17\0d
\16\0d8
\0d6
\0d
\18\0d
\10\0d9
\0d:
\0d
\1a\0d
\17\0d6
\0d
\1f\0d
\13\0d
\18\0d:
\0d!
\0d
\1f\0d6
\0d
\1c\0d
\1e\0d!
\0d:
\0d
\ 6\0d
\ 4\0d6
\0d8
\0d
\e\0d
\1c\0d:
\0d9
\0d
\v\0d
\ 6\0g
\80\0\83\ 1\0}
\a\0t
\ 4\0|
\ 2\0t
\b\0\83\ 2\0}
\b\0|
\b\0j
\ 6\0|
\ 4\0\83\ 1\0\ 1|
\b\0j
\a\0|
\a\0\83\ 1\0\ 1|
\b\0|
\ 3\0d
\ 3\0<d;
\0|
\ 3\0j
\0d"
\0\83\ 1\0(d
\ 3\0|
\ 3\0j
\0d
\ 3\0\83\ 1\0(|
\ 3\0j
34994 +
\0d<
\0d"
\0\83\ 2\0\ 1|
\ 3\0j
34995 +
\0d=
\0d;
\0\83\ 2\0\ 1|
\ 3\0j
34996 +
\0d>
\0d?
\0\83\ 2\0\ 1|
\ 3\0j
\v\0d@
\0d"
\0d;
\0d?
\0g
\ 3\0\83\ 2\0\ 1dA
\0}
\0dB
\0}
34997 +
\0|
\ 3\0j
\f\0\83\0\0\ 1|
\ 3\0j
\r\0\83\0\0}
\v\0|
\v\0j
\ e\0|
\0\83\ 1\0}
\f\0|
\f\0j
\ f\0|
34998 +
\0\83\ 1\0\ 1t
\ 3\0d
\ 3\0d
34999 +
\0f
\ 2\0d
\ 3\0d
\a\0f
\ 2\0d
\ 3\0d
\13\0f
\ 2\0d
\ 3\0d
\ 4\0f
\ 2\0d
\10\0d&
\0f
\ 2\0d
\10\0d(
\0f
\ 2\0d
\10\0d)
\0f
\ 2\0d
\10\0d+
\0f
\ 2\0d
\v\0d-
\0f
\ 2\0d
\v\0d0
\0f
\ 2\0d
\v\0d
\b\0f
\ 2\0d
\v\0d2
\0f
\ 2\0g
\f\0\83\ 1\0}
\r\0|
\f\0j
\10\0d"
\0|
\r\0\83\ 2\0\ 1|
\0\0j
\11\0|
\f\0j
\12\0\83\0\0j
\13\0\83\0\0d
\10\0\83\ 2\0\ 1|
\0\0j
\14\0|
\f\0j
\12\0\83\0\0j
\15\0t
\ 5\0\83\ 1\0j
\16\0|
\r\0\83\ 1\0\83\ 1\0\ 1|
\f\0j
\12\0\83\0\0j
\17\0\83\0\0\ 1|
\0\0j
\11\0|
\f\0j
\12\0\83\0\0j
\13\0\83\0\0d
\ 3\0\83\ 2\0\ 1|
\f\0j
\12\0\83\0\0j
\18\0t
\ 5\0|
\r\0\83\ 2\0\ 1|
\0\0j
\11\0|
\f\0j
\12\0\83\0\0j
\13\0\83\0\0d
\10\0\83\ 2\0\ 1|
\0\0j
\14\0|
\f\0j
\12\0\83\0\0j
\15\0t
\ 5\0\83\ 1\0j
\16\0|
\r\0\83\ 1\0\83\ 1\0\ 1|
\ 3\0j
\19\0\83\0\0\ 1|
\ 3\0j
\f\0\83\0\0\ 1|
\ 3\0j
\r\0\83\0\0}
\v\0|
\v\0j
\ e\0|
\0\83\ 1\0}
\f\0|
\f\0j
\ f\0|
35000 +
\0\83\ 1\0\ 1|
\f\0j
\1a\0\83\0\0}
\ e\0|
\ e\0j
\18\0t
\ 5\0|
\r\0\83\ 2\0\ 1|
\0\0j
\11\0|
\f\0j
\12\0\83\0\0j
\13\0\83\0\0d
\10\0\83\ 2\0\ 1|
\0\0j
\14\0|
\f\0j
\12\0\83\0\0j
\15\0t
\ 5\0\83\ 1\0j
\16\0|
\r\0\83\ 1\0\83\ 1\0\ 1|
\ 3\0j
\e\0\83\0\0}
\ f\0|
\0\0j
\14\0|
\ 3\0j
\16\0|
\ f\0dC
\0\83\ 2\0d
\ 3\0\19\83\ 1\0\ 1|
\0\0j
\11\0|
\ f\0j
\r\0\83\0\0j
\13\0\83\0\0d
\10\0\83\ 2\0\ 1|
\0\0j
\14\0|
\ f\0j
\r\0\83\0\0j
\1c\0d
\ 3\0\83\ 1\0j
\12\0\83\0\0j
\15\0t
\ 5\0\83\ 1\0j
\16\0|
\r\0\83\ 1\0\83\ 1\0\ 1d
\v\0|
\ f\0j
\r\0\83\0\0j
\1c\0d
\ 3\0\83\ 1\0j
\12\0\83\0\0j
\15\0t
\ 5\0\83\ 1\0d
\ 3\0d
\ 3\0f
\ 2\0<|
\0\0j
\14\0|
\ 3\0j
\16\0|
\ f\0dC
\0\83\ 2\0d
\ 3\0\19\f\83\ 1\0\ 1d
\ 3\0|
\ f\0j
\r\0\83\0\0j
\1c\0d
\ 3\0\83\ 1\0j
\12\0\83\0\0j
\15\0t
\ 5\0\83\ 1\0d
\ 3\0d
\ 3\0f
\ 2\0<|
\0\0j
\14\0|
\ 3\0j
\16\0|
\ f\0dC
\0\83\ 2\0d
\ 3\0\19\83\ 1\0\ 1|
\ 3\0j
\1d\0|
\ 1\0d
\v\0\83\ 2\0\ 1t
\1e\0j
\1f\0|
\ 1\0\83\ 1\0}
\10\0|
\0\0j
\14\0|
\ 3\0j
\16\0|
\10\0dC
\0\83\ 2\0d
\ 3\0\19\83\ 1\0\ 1dD
\0S(E
\0\0\0s9
\0\0\0 First check of equivalence implementation in MEDFileMeshs
\f\0\0\0Pyfile97.medt
\ 4\0\0\0M_01i
\0\0\0\0i
\ 6\0\0\0i
\13\0\0\0i$
\0\0\0i
\ 4\0\0\0i
\r\0\0\0i
\18\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0g
\0\0\0\0\0\0)@s
\ e\0\0\0X [Sans_unite]s
\ e\0\0\0Y [Sans_unite]s
\ e\0\0\0Z [Sans_unite]i
\ 1\0\0\0i
\11\0\0\0i
\15\0\0\0i
\ 5\0\0\0i
\12\0\0\0i
\16\0\0\0i
\0\0\0i,
\0\0\0i!
\0\0\0i(
\0\0\0i%
\0\0\0i#
\0\0\0i/
\0\0\0i*
\0\0\0i'
\0\0\0i0
\0\0\0i+
\0\0\0i&
\0\0\0iÿÿÿÿi
\14\0\0\0i
\10\0\0\0i
\17\0\0\0i
\a\0\0\0i
\19\0\0\0i
\b\0\0\0i
\0\0\0i
\1a\0\0\0i
35001 +
\0\0\0i
\e\0\0\0i
\v\0\0\0i
\1c\0\0\0i
\1d\0\0\0i
\f\0\0\0i
\1e\0\0\0i
\ e\0\0\0i
\1f\0\0\0i
\ f\0\0\0i1
\0\0\0i2
\0\0\0i)
\0\0\0i-
\0\0\0i"
\0\0\0i.
\0\0\0iþÿÿÿs
\10\0\0\0HOMARD________-1s
\10\0\0\0HOMARD________-2s
\10\0\0\0HOMARD________-3iýÿÿÿt
\ 6\0\0\0HOMARDt
\1f\0\0\0MAILLES_A_RECOLLER_APRES_HOMARDs¾
\0\0\0Cette equivalence decrit les mailles a recoller. Dans chaque correspondance, le premier numero est celui de la maille coupee ; le second numero est celui d'une des petites mailles en regard.g
\11ê-
\81\99\97q=N(
\0\0\0R>
\0\0\0RY
\0\0\0RÃ
\ 1\0\0Rk
\0\0\0Rz
\0\0\0R`
\0\0\0Rc
\0\0\0R&
\ 4\0\0R¸
\0\0\0R
\9e\0\0\0RÙ
\0\0\0RÚ
\0\0\0t
\16\0\0\0initializeEquivalencest
\ f\0\0\0getEquivalencest
\1e\0\0\0appendEmptyEquivalenceWithNameRi
\0\0\0R{
\ 1\0\0R+
\0\0\0t
\a\0\0\0getCellt
\ 4\0\0\0sizeR0
\0\0\0R)
\ 1\0\0R1
\0\0\0t
\ 5\0\0\0cleart
\ f\0\0\0setArrayForTypet
\10\0\0\0killEquivalencest
\b\0\0\0initCellRq
\0\0\0t
\ e\0\0\0getEquivalenceR
\v\0\0\0R'
\0\0\0R(
\0\0\0(
\11\0\0\0R
\0\0\0R!
\0\0\0RÊ
\ 3\0\0R
\86\0\0\0R
\ 3\ 2\0\0t
\ 6\0\0\0connQ4R
\84\0\0\0t
\ 6\0\0\0connH8Rá
\0\0\0t
\ 6\0\0\0eqNamet
\ 6\0\0\0descEqt
\ 3\0\0\0eqst
\ 3\0\0\0eq0t
\ 4\0\0\0corrR
\80\0\0\0R¢
\0\0\0t
\ 3\0\0\0mm3(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\17\0\0\0testMEDFileEquivalence1º
\12\0\0sx
\0\0\0\0\ 2\ 6\ 1\ 6\ 1 \ 1ÿ
\0ÿ
\0r
\ 1\16\ 1À
\ 1\ f\0\r\0\r\0
35002 +
\ 1ÿ
\0\8d\ 1\ f\0\r\0\r\0
35003 +
\ 1\10\ 1\10\ 1\10\ 1\10\ 1\10\ 1\19\ 2\ 6\ 1\ 6\ 1
35004 +
\ 1\f\ 1\ f\ 1\r\ 1x
\ 1\10\ 1\1c\ 1%
\ 1\10\ 1\1c\ 1\16\ 1\1c\ 1%
\ 1
35006 +
\ 1\f\ 1\ f\ 1\r\ 1\f\ 1\10\ 1\1c\ 1%
\ 1\f\ 1\1d\ 1\1c\ 14
\ 1.
\ 1\1e\ 1.
\ 1\1d\ 1\10\ 2\ f\ 1\1d\ 1c
\ 1\0\0\0 \0\0\0\ 6\0\0\0C
\0\0\0sÿ
\ 1\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0t
\0\0j
\ 1\0\83\0\0\16}
\ 3\0t
\ 2\0d
\ 4\0\83\ 1\0}
\ 4\0|
\ 4\0j
\ 3\0\83\0\0\ 1t
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\ 5\0|
\ 4\0|
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\ 6\0\83\0\0}
\ 5\0t
\a\0\83\0\0}
\ 6\0|
\ 5\0|
\ 6\0d
\ 5\0<|
\ 6\0j
\b\0|
\ 2\0\83\ 1\0\ 1|
\ 6\0j
\0d
\ 6\0d
\ 5\0\83\ 2\0\ 1d
\a\0|
\ 6\0j
35007 +
\0d
\ 5\0\83\ 1\0d
\b\0)|
\ 6\0j
\0d
\0|
\ 3\0d
\ 5\0\16\16d
\a\0\83\ 2\0\ 1|
\ 6\0j
\v\0d
\0|
\ 3\0d
\ 5\0\16\16d
35008 +
\0g
\ 1\0\83\ 2\0\ 1t
\f\0d
\v\0\83\ 1\0}
\a\0d
\ 5\0|
\a\0(d
\f\0|
\a\0d
\r\0d
\ e\0d
\ 4\0d
\ f\0g
\ 4\0<|
\ 6\0j
\r\0d
\r\0|
\a\0\83\ 2\0\ 1|
\ 6\0j
\0d
\0|
\ 3\0d
\r\0\16\16d
\f\0\83\ 2\0\ 1|
\ 6\0j
\v\0d
\0|
\ 3\0d
\r\0\16\16d
35009 +
\0g
\ 1\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\ f\0\83\0\0d
\15\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\10\0\83\0\0d
\16\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\ 6\0j
\11\0d
35010 +
\0\83\ 1\0d
\17\0\83\ 2\0\ 1|
\ 6\0j
\12\0|
\ 1\0d
\ e\0\83\ 2\0\ 1t
\0\0j
\13\0|
\ 1\0\83\ 1\0}
\b\0|
\0\0j
\14\0|
\ 6\0j
\15\0|
\b\0d
\13\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ e\0|
\b\0j
\ f\0\83\0\0d
\18\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\b\0j
\10\0\83\0\0d
\19\0\83\ 2\0\ 1|
\0\0j
\ e\0|
\b\0j
\11\0d
35011 +
\0\83\ 1\0d
\1a\0\83\ 2\0\ 1d
\14\0S(
\e\0\0\0s}
\0\0\0Non regression bug EDF11911. For serial killers using same family name to store both cells and nodes ! Only sky is the limit.s
\f\0\0\0Pyfile98.medR
\ 2\0\0s
\a\0\0\0%s%%04ii
\ 4\0\0\0i
\0\0\0\0R
\9a\ 2\0\0iüÿÿÿiýÿÿÿs
\ 6\0\0\0RIDF%st
\ 3\0\0\0RIDi
\10\0\0\0i
\ 3\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0s
\ e\0\0\0RIDF!/__\!0000s
\ e\0\0\0RIDF!/__\!0001t
\ 4\0\0\0RIDFg¼
\89Ø
\97²Ò
\9c<N(
\ 3\0\0\0s
\f\0\0\0FAMILLE_ZEROs
\ e\0\0\0RIDF!/__\!0000s
\ e\0\0\0RIDF!/__\!0001(
\ 3\0\0\0s
\f\0\0\0FAMILLE_ZEROR¹
\ 4\0\0R¹
\ 4\0\0(
\ 2\0\0\0iüÿÿÿi
\ 3\0\0\0(
\ 3\0\0\0s
\f\0\0\0FAMILLE_ZEROs
\ e\0\0\0RIDF!/__\!0000s
\ e\0\0\0RIDF!/__\!0001(
\ 3\0\0\0s
\f\0\0\0FAMILLE_ZEROR¹
\ 4\0\0R¹
\ 4\0\0(
\ 2\0\0\0iüÿÿÿi
\ 3\0\0\0(
\16\0\0\0R'
\0\0\0t
\11\0\0\0GetMagicFamilyStrRY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0R>
\0\0\0RB
\0\0\0R·
\0\0\0R
\9e\0\0\0R½
\ 3\0\0Rk
\0\0\0R¶
\0\0\0R+
\0\0\0R³
\ 1\0\0t#
\0\0\0getFamiliesNamesWithFilePointOfViewR
\v\ 3\0\0R
\v\0\0\0R(
\0\0\0R0
\0\0\0R1
\0\0\0(
\0\0\0R
\0\0\0R!
\0\0\0RÊ
\ 3\0\0t
\a\0\0\0magicStRÔ
\ 1\0\0R
\83\0\0\0R
\86\0\0\0Re
\ 1\0\0R¢
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1d\0\0\0testMEDFileForFamiliesPlayer1ò
\12\0\0s>
\0\0\0\0\ 2\ 6\ 1\ 6\ 1\10\ 1\f\0
35012 +
\ 1 \0\10\ 1\f\ 1 \ 1
35013 +
\ 1\r\ 1\10\ 1\13\ 1\18\ 1\e\ 1\f\0\a\0\16\ 1\10\ 1\18\ 1\e\ 1\16\ 1\16\ 1\19\ 1\10\ 2\ f\ 1\19\ 1\16\ 1\16\ 1\19\ 1c
\ 1\0\0\0\r\0\0\0\ 6\0\0\0C
\0\0\0s)
\f\0\0t
\0\0d
\ 1\0\83\ 1\0}
\ 1\0|
\ 1\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\ 2\0|
\ 2\0j
\ 3\0|
\ 1\0|
\ 1\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0\83\0\0}
\ 2\0t
\ 5\0\83\0\0}
\ 3\0|
\ 2\0|
\ 3\0d
\ 2\0<|
\ 3\0j
\ 6\0\83\0\0\ 1t
\a\0d
\ 3\0\83\ 1\0}
\ 4\0d
\ 2\0|
\ 4\0(t
\a\0d
\ 4\0\83\ 1\0}
\ 5\0d
\ 2\0|
\ 5\0(|
\ 3\0j
\b\0d
\ 2\0|
\ 5\0\83\ 2\0\ 1|
\ 3\0j
\b\0d
\ 5\0|
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\0d
\ 6\0\83\ 1\0\ 1|
\ 3\0j
35014 +
\0d
\a\0\83\ 1\0\ 1|
\ 3\0j
\v\0d
\b\0d
\ 1\0d
\0\83\ 3\0\ 1|
\ 3\0j
\f\0d
35015 +
\0d
\v\0\83\ 2\0\ 1|
\ 3\0j
\r\0d
\f\0d
35016 +
\0g
\ 1\0\83\ 2\0\ 1|
\ 3\0j
\ e\0d
\r\0\83\ 1\0\ 1|
\ 3\0j
\ f\0\83\0\0j
\10\0\83\0\0}
\ 6\0|
\ 3\0d
\ 2\0\19j
\11\0\83\0\0j
\10\0\83\0\0}
\a\0|
\0\0j
\12\0|
\ 6\0|
\ 3\0d
\ 2\0\19j
\ f\0\83\0\0j
\10\0\83\0\0\83\ 2\0\ 1|
\ 3\0d
\ 2\0\19j
\13\0\83\0\0j
\10\0\83\0\0}
\b\0|
\ 3\0j
\14\0t
\15\0\83\ 1\0j
\11\0\83\0\0j
\10\0\83\0\0}
\0|
\0\0j
\12\0|
\ 6\0|
\ 3\0j
\14\0t
\15\0\83\ 1\0j
\ f\0\83\0\0j
\10\0\83\0\0\83\ 2\0\ 1|
\ 3\0j
\16\0t
\17\0\83\ 1\0\ 1|
\ 3\0j
\18\0\83\0\0}
35018 +
\0j
\19\0\83\0\0t
\1a\0\83\ 2\0\ 1|
\ 3\0j
\16\0t
\1a\0\83\ 1\0\ 1|
\0\0j
\e\0t
\1c\0|
35019 +
\0t
\ 5\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\e\0|
\ 3\0j
\10\0\83\0\0|
35020 +
\0j
\10\0\83\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\e\0|
\ 6\0|
\ 3\0j
\ f\0\83\0\0j
\10\0\83\0\0k
\ 2\0\83\ 1\0\ 1|
\0\0j
\e\0|
\ 6\0|
35021 +
\0j
\ f\0\83\0\0j
\10\0\83\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\12\0|
35022 +
\0j
\ f\0\83\0\0j
\10\0\83\0\0|
35023 +
\0d
\ 2\0\19j
\ f\0\83\0\0j
\10\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35024 +
\0j
\ f\0\83\0\0j
\10\0\83\0\0|
35025 +
\0j
\14\0t
\15\0\83\ 1\0j
\ f\0\83\0\0j
\10\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35026 +
\0d
\ 2\0\19j
\11\0\83\0\0j
\10\0\83\0\0|
\a\0\83\ 2\0\ 1|
\0\0j
\12\0|
35027 +
\0d
\ 2\0\19j
\13\0\83\0\0j
\10\0\83\0\0|
\b\0\83\ 2\0\ 1|
\0\0j
\12\0|
35028 +
\0j
\14\0t
\15\0\83\ 1\0j
\11\0\83\0\0j
\10\0\83\0\0|
\0\83\ 2\0\ 1|
\0\0j
\12\0|
35029 +
\0j
\1d\0\83\0\0|
\ 3\0j
\1d\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35030 +
\0j
\1e\0\83\0\0|
\ 3\0j
\1e\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35031 +
\0j
\1f\0\83\0\0|
\ 3\0j
\1f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35032 +
\0j
\1f\0\83\0\0|
\ 3\0j
\1f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35033 +
\0j
\0\83\0\0|
\ 3\0j
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35034 +
\0j!
\0\83\0\0|
\ 3\0j!
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35035 +
\0j"
\0\83\0\0|
\ 3\0j"
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0g
\0\0|
35036 +
\0j"
\0\83\0\0D]
\15\0}
\v\0|
35037 +
\0j#
\0|
\v\0\83\ 1\0^
\ 2\0qá
\ 3g
\0\0|
\ 3\0j"
\0\83\0\0D]
\15\0}
\f\0|
\ 3\0j#
\0|
\f\0\83\ 1\0^
\ 2\0q
\ 6\ 4\83\ 2\0\ 1|
\0\0j
\12\0|
\ 3\0j$
\0d
\ 2\0\83\ 1\0j
\10\0\83\0\0|
\ 5\0j
\10\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35038 +
\0j$
\0d
\ 2\0\83\ 1\0j
\10\0\83\0\0|
\ 5\0j
\10\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
\ 3\0j$
\0d
\ 5\0\83\ 1\0j
\10\0\83\0\0|
\ 4\0j
\10\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35039 +
\0j$
\0d
\ 5\0\83\ 1\0j
\10\0\83\0\0|
\ 4\0j
\10\0\83\0\0\83\ 2\0\ 1|
\ 3\0j
\16\0t
\1a\0\83\ 1\0\ 1|
\ 3\0j
\18\0\83\0\0}
35041 +
\0j
\19\0\83\0\0t
\1a\0\83\ 2\0\ 1|
\0\0j
\e\0t
\1c\0|
35042 +
\0t
\ 5\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\e\0|
\ 3\0j
\10\0\83\0\0|
35043 +
\0j
\10\0\83\0\0k
\ 2\0\83\ 1\0\ 1t
\0\0d
\ 1\0\83\ 1\0}
\ 1\0|
\ 1\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\ 2\0|
\ 2\0j
\ 3\0|
\ 1\0|
\ 1\0\83\ 2\0\ 1|
\ 2\0j%
\0\83\0\0}
\ 2\0t&
\0\83\0\0}
\ 3\0|
\ 3\0j'
\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\16\0t
\17\0\83\ 1\0\ 1|
\ 3\0j
\b\0d
\ 2\0|
\ 5\0\83\ 2\0\ 1|
\ 3\0j
\b\0d
\ 5\0|
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\0d
\ 6\0\83\ 1\0\ 1|
\ 3\0j
35044 +
\0d
\a\0\83\ 1\0\ 1|
\ 3\0j
\v\0d
\b\0d
\ 1\0d
\0\83\ 3\0\ 1|
\ 3\0j
\f\0d
35045 +
\0d
\v\0\83\ 2\0\ 1|
\ 3\0j
\r\0d
\f\0d
35046 +
\0g
\ 1\0\83\ 2\0\ 1|
\ 3\0j
\ e\0d
\r\0\83\ 1\0\ 1|
\ 3\0j(
\0\83\0\0j
\ f\0\83\0\0j
\10\0\83\0\0}
\ 6\0|
\ 3\0j
\18\0\83\0\0}
35048 +
\0j
\19\0\83\0\0t
\1a\0\83\ 2\0\ 1|
\0\0j
\e\0t
\1c\0|
35049 +
\0t&
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\e\0|
\ 3\0j
\10\0\83\0\0|
35050 +
\0j
\10\0\83\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\e\0|
\ 6\0|
\ 3\0j(
\0\83\0\0j
\ f\0\83\0\0j
\10\0\83\0\0k
\ 2\0\83\ 1\0\ 1|
\0\0j
\e\0|
\ 6\0|
35051 +
\0j(
\0\83\0\0j
\ f\0\83\0\0j
\10\0\83\0\0k
\ 3\0\83\ 1\0\ 1|
\0\0j
\12\0|
35052 +
\0j(
\0\83\0\0j)
\0\83\0\0|
\ 3\0j(
\0\83\0\0j)
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35053 +
\0j
\1d\0\83\0\0|
\ 3\0j
\1d\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35054 +
\0j
\1e\0\83\0\0|
\ 3\0j
\1e\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35055 +
\0j
\1f\0\83\0\0|
\ 3\0j
\1f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35056 +
\0j
\1f\0\83\0\0|
\ 3\0j
\1f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35057 +
\0j
\0\83\0\0|
\ 3\0j
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35058 +
\0j!
\0\83\0\0|
\ 3\0j!
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35059 +
\0j"
\0\83\0\0|
\ 3\0j"
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0g
\0\0|
35060 +
\0j"
\0\83\0\0D]
\15\0}
\v\0|
35061 +
\0j#
\0|
\v\0\83\ 1\0^
\ 2\0q
\ag
\0\0|
\ 3\0j"
\0\83\0\0D]
\15\0}
\f\0|
\ 3\0j#
\0|
\f\0\83\ 1\0^
\ 2\0qÒ
\a\83\ 2\0\ 1|
\0\0j
\12\0|
\ 3\0j$
\0d
\ 2\0\83\ 1\0j
\10\0\83\0\0|
\ 5\0j
\10\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35062 +
\0j$
\0d
\ 2\0\83\ 1\0j
\10\0\83\0\0|
\ 5\0j
\10\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
\ 3\0j$
\0d
\ 5\0\83\ 1\0j
\10\0\83\0\0|
\ 4\0j
\10\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35063 +
\0j$
\0d
\ 5\0\83\ 1\0j
\10\0\83\0\0|
\ 4\0j
\10\0\83\0\0\83\ 2\0\ 1|
\ 3\0j
\16\0t
\1a\0\83\ 1\0\ 1|
\ 3\0j
\18\0\83\0\0}
35065 +
\0j
\19\0\83\0\0t
\1a\0\83\ 2\0\ 1|
\0\0j
\e\0t
\1c\0|
35066 +
\0t&
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\e\0|
\ 3\0j
\10\0\83\0\0|
35067 +
\0j
\10\0\83\0\0k
\ 2\0\83\ 1\0\ 1t
\0\0d
\ 1\0\83\ 1\0}
\ 1\0|
\ 1\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\ 2\0|
\ 2\0j
\ 3\0|
\ 1\0|
\ 1\0\83\ 2\0\ 1t*
\0\83\0\0}
\ 3\0|
\ 3\0j'
\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\16\0t
\17\0\83\ 1\0\ 1|
\ 3\0j
\b\0d
\ 2\0|
\ 5\0\83\ 2\0\ 1|
\ 3\0j
\b\0d
\ 5\0|
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\0d
\ 6\0\83\ 1\0\ 1|
\ 3\0j
35068 +
\0d
\a\0\83\ 1\0\ 1|
\ 3\0j
\v\0d
\b\0d
\ 1\0d
\0\83\ 3\0\ 1|
\ 3\0j
\f\0d
35069 +
\0d
\v\0\83\ 2\0\ 1|
\ 3\0j
\r\0d
\f\0d
35070 +
\0g
\ 1\0\83\ 2\0\ 1|
\ 3\0j
\ e\0d
\r\0\83\ 1\0\ 1|
\ 3\0j
\18\0\83\0\0}
35072 +
\0j
\19\0\83\0\0t
\1a\0\83\ 2\0\ 1|
\0\0j
\e\0t
\1c\0|
35073 +
\0t&
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\12\0|
35074 +
\0j(
\0\83\0\0j)
\0\83\0\0|
\ 3\0j(
\0\83\0\0j)
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35075 +
\0j
\1d\0\83\0\0|
\ 3\0j
\1d\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35076 +
\0j
\1e\0\83\0\0|
\ 3\0j
\1e\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35077 +
\0j
\1f\0\83\0\0|
\ 3\0j
\1f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35078 +
\0j
\1f\0\83\0\0|
\ 3\0j
\1f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35079 +
\0j
\0\83\0\0|
\ 3\0j
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35080 +
\0j!
\0\83\0\0|
\ 3\0j!
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35081 +
\0j"
\0\83\0\0|
\ 3\0j"
\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0g
\0\0|
35082 +
\0j"
\0\83\0\0D]
\15\0}
\v\0|
35083 +
\0j#
\0|
\v\0\83\ 1\0^
\ 2\0qì
35084 +g
\0\0|
\ 3\0j"
\0\83\0\0D]
\15\0}
\f\0|
\ 3\0j#
\0|
\f\0\83\ 1\0^
\ 2\0q
\11\v\83\ 2\0\ 1|
\0\0j
\12\0|
\ 3\0j$
\0d
\ 2\0\83\ 1\0j
\10\0\83\0\0|
\ 5\0j
\10\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35085 +
\0j$
\0d
\ 2\0\83\ 1\0j
\10\0\83\0\0|
\ 5\0j
\10\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
\ 3\0j$
\0d
\ 5\0\83\ 1\0j
\10\0\83\0\0|
\ 4\0j
\10\0\83\0\0\83\ 2\0\ 1|
\0\0j
\12\0|
35086 +
\0j$
\0d
\ 5\0\83\ 1\0j
\10\0\83\0\0|
\ 4\0j
\10\0\83\0\0\83\ 2\0\ 1|
\ 3\0j
\16\0t
\1a\0\83\ 1\0\ 1|
\ 3\0j
\18\0\83\0\0}
35088 +
\0j
\19\0\83\0\0t
\1a\0\83\ 2\0\ 1|
\0\0j
\e\0t
\1c\0|
35089 +
\0t*
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\e\0|
\ 3\0j
\10\0\83\0\0|
35090 +
\0j
\10\0\83\0\0k
\ 2\0\83\ 1\0\ 1d
\ e\0S(
\ f\0\0\0sl
\0\0\0 This test is advanced to be sure that no unnecessary copies had been made during cartesianization process. i
\ 4\0\0\0i
\0\0\0\0i
\10\0\0\0i
\0\0\0i
\ 1\0\0\0R©
\ 2\0\0Rï
\ 2\0\0i
\ 3\0\0\0g
\0\0\0\0\0\0\14@R
\80\0\0\0iüÿÿÿRe
\ 1\0\0R
\0\0\0N(+
\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0R>
\0\0\0R±
\ 3\0\0Rk
\0\0\0R¶
\0\0\0RB
\0\0\0Ri
\0\0\0R°
\0\0\0RÙ
\0\0\0R
\9b\ 2\0\0Rµ
\0\0\0RØ
\0\0\0R
\ 3\0\0Rv
\0\0\0R+
\0\0\0Rw
\0\0\0Rs
\0\0\0R`
\0\0\0Rô
\ 3\0\0Rõ
\ 3\0\0t
\f\0\0\0cartesianizeRò
\ 3\0\0Ró
\ 3\0\0R0
\0\0\0Rt
\0\0\0RC
\0\0\0R~
\0\0\0Rº
\0\0\0R»
\0\0\0R²
\ 1\0\0R³
\ 1\0\0R)
\ 4\0\0R
\9e\0\0\0t
\10\0\0\0buildCurveLinearR²
\ 2\0\0R³
\0\0\0R¹
\0\0\0t
\14\0\0\0getNodeGridStructureR¯
\0\0\0(
\r\0\0\0R
\0\0\0RÔ
\ 1\0\0R
\83\0\0\0R
\86\0\0\0t
\ 2\0\0\0d0Rú
\ 2\0\0Rê
\ 1\0\0Rë
\ 1\0\0Rì
\ 1\0\0t
\ 4\0\0\0ref3R¢
\0\0\0Rü
\0\0\0t
\ 4\0\0\0elt2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\12\0\0\0testCartesianizer1
\11\13\0\0s
\f\ 1\0\0\0\ 3\f\0
35091 +
\0 \0\10\0\f\ 1 \0
35093 +
\ 1\f\0\a\ 1\f\0\a\ 1\10\0\10\ 1\r\0\r\0\13\0\10\0\13\0\r\ 1\12\ 1\16\ 1 \ 1\16\ 1\e\ 1%
\ 1\r\ 1\f\ 1\16\ 1\r\ 1\16\ 1\1f\ 1\1f\ 1\1f\ 1,
\ 11
\ 1 \ 1 \ 1%
\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1T
\ 1%
\ 1%
\ 1%
\ 1%
\ 2\r\ 1\f\ 1\16\ 1\16\ 1\1f\ 2\f\0
35094 +
\0 \0\10\0\f\ 1 \0\r\0\r\ 1\10\0\10\ 1\r\0\r\0\13\0\10\0\13\0\r\ 1\18\ 1\f\ 1\16\ 1\16\ 1\1f\ 1%
\ 1%
\ 1(
\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1T
\ 1%
\ 1%
\ 1%
\ 1%
\ 2\r\ 1\f\ 1\16\ 1\16\ 1\1f\ 2\f\0
35095 +
\0 \0\10\ 1 \0\r\0\r\ 1\10\0\10\ 1\r\0\r\0\13\0\10\0\13\0\r\ 1\f\ 1\16\ 1\16\ 1(
\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1T
\ 1%
\ 1%
\ 1%
\ 1%
\ 2\r\ 1\f\ 1\16\ 1\16\ 1\1f\ 1c
\ 1\0\0\0\a\0\0\0
35096 +
\0\0\0C
\0\0\0s{
\ 4\0\0t
\0\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0|
\ 1\0j
\ 1\0t
\ 2\0d
\ e\0g
\ 1\0d
\ 5\0\14d
\ 5\0d
\ 2\0\83\ 3\0\83\ 1\0\ 1|
\ 1\0j
\ 3\0t
\ 4\0t
\ 5\0d
\ 6\0d
\a\0d
\ 2\0t
\ 5\0d
\a\0d
\ 2\0d
\b\0g
\b\0\83\ 1\0t
\ 4\0d
\ 6\0d
\ 5\0d
\0g
\ 3\0\83\ 1\0\83\ 2\0\ 1|
\ 1\0j
\ 6\0\83\0\0\
\ 5\0}
\ 2\0}
\ 3\0}
\ 3\0}
\ 3\0}
\ 3\0t
\a\0\83\0\0}
\ 4\0|
\ 4\0j
\b\0d
\ 6\0|
\ 1\0\83\ 2\0\ 1|
\ 4\0j
\b\0d
35097 +
\0|
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\0\83\0\0\ 1|
\ 4\0j
35098 +
\0\83\0\0}
\ 5\0t
\ 4\0d
\ 2\0g
\ 1\0d
\ 5\0\14\83\ 1\0}
\ 6\0|
\ 4\0j
\v\0d
\a\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\f\0d
\v\0\83\ 1\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1|
\ 5\0}
\ 4\0|
\ 4\0j
35099 +
\0\83\0\0}
\ 5\0t
\ 4\0d
\ 2\0g
\ 1\0d
\ 5\0\14\83\ 1\0}
\ 6\0|
\ 4\0j
\ f\0d
\a\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\f\0d
\v\0\83\ 1\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1|
\ 5\0}
\ 4\0|
\ 4\0j
35100 +
\0\83\0\0}
\ 5\0|
\ 4\0j
\ f\0d
\a\0t
\ 4\0d
\ 2\0g
\ 1\0d
\ 5\0\14\83\ 1\0\83\ 2\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1|
\ 5\0}
\ 4\0|
\ 4\0j
35101 +
\0\83\0\0}
\ 5\0t
\10\0d
\f\0g
\ 1\0d
\ 5\0\14\83\ 1\0}
\ 6\0|
\ 4\0j
\11\0d
\a\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\f\0d
\v\0\83\ 1\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1|
\ 5\0}
\ 4\0|
\ 4\0j
35102 +
\0\83\0\0}
\ 5\0t
\ 4\0d
\ 2\0g
\ 1\0d
\ 2\0\14\83\ 1\0}
\ 6\0|
\ 4\0j
\v\0d
\ 6\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\f\0d
\v\0\83\ 1\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1|
\ 5\0}
\ 4\0|
\ 4\0j
35103 +
\0\83\0\0}
\ 5\0t
\ 4\0d
\ 2\0g
\ 1\0d
\ 2\0\14\83\ 1\0}
\ 6\0|
\ 4\0j
\ f\0d
\ 6\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\f\0d
\v\0\83\ 1\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1|
\ 5\0}
\ 4\0|
\ 4\0j
35104 +
\0\83\0\0}
\ 5\0|
\ 4\0j
\ f\0d
\ 6\0t
\ 4\0d
\ 2\0g
\ 1\0d
\ 2\0\14\83\ 1\0\83\ 2\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1|
\ 5\0}
\ 4\0|
\ 4\0j
35105 +
\0\83\0\0}
\ 5\0t
\10\0d
\f\0g
\ 1\0d
\ 2\0\14\83\ 1\0}
\ 6\0|
\ 4\0j
\11\0d
\ 6\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\f\0d
\v\0\83\ 1\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1|
\ 5\0}
\ 4\0|
\ 4\0j
35106 +
\0\83\0\0}
\ 5\0t
\ 4\0d
\ 2\0g
\ 1\0d
\r\0\14\83\ 1\0}
\ 6\0|
\ 4\0j
\v\0d
35107 +
\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\f\0d
\v\0\83\ 1\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1|
\ 5\0}
\ 4\0|
\ 4\0j
35108 +
\0\83\0\0}
\ 5\0t
\ 4\0d
\ 2\0g
\ 1\0d
\r\0\14\83\ 1\0}
\ 6\0|
\ 4\0j
\ f\0d
35109 +
\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\f\0d
\v\0\83\ 1\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1|
\ 5\0}
\ 4\0|
\ 4\0j
35110 +
\0\83\0\0}
\ 5\0|
\ 4\0j
\ f\0d
35111 +
\0t
\ 4\0d
\ 2\0g
\ 1\0d
\r\0\14\83\ 1\0\83\ 2\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1|
\ 5\0}
\ 4\0|
\ 4\0j
35112 +
\0\83\0\0}
\ 5\0t
\10\0d
\f\0g
\ 1\0d
\r\0\14\83\ 1\0}
\ 6\0|
\ 4\0j
\11\0d
35113 +
\0|
\ 6\0\83\ 2\0\ 1|
\ 6\0j
\f\0d
\v\0\83\ 1\0\ 1|
\0\0j
\r\0t
\ e\0|
\ 4\0j
\0\83\ 2\0\ 1d
\0\0S(
\ f\0\0\0Nt
\ 2\0\0\02di
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0i
\b\0\0\0iÿÿÿÿi#
\0\0\0s
\10\0\0\0tutu xi
\ 5\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\12\0\0\0R[
\0\0\0Rc
\0\0\0RY
\0\0\0Rÿ
\ 1\0\0Rk
\0\0\0R_
\0\0\0R
\9b\ 1\0\0R>
\0\0\0Rj
\0\0\0R
\0\ 2\0\0Rq
\0\0\0R¶
\0\0\0t
\a\0\0\0reAllocR)
\0\0\0R*
\0\0\0R
\98\0\0\0R×
\ 2\0\0RØ
\ 2\0\0(
\a\0\0\0R
\0\0\0R
\85\0\0\0R
\84\0\0\0R
\ 6\ 2\0\0t
\ 3\0\0\0mumt
\ 4\0\0\0mum2RÔ
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\12\0\0\0testCheckCoherency{
\13\0\0s
\92\0\0\0\0\ 1\ f\ 1 \ 1=
\ 1\e\ 1 \ 1\10\ 1\10\ 1
35114 +
\ 1\f\ 3\13\ 1\10\0\r\ 1\13\ 1\ 6\0\f\ 1\13\ 1\10\0\r\ 1\13\ 1\ 6\0\f\ 1\1d\ 1\13\ 1\ 6\0\f\ 1\13\ 1\10\0\r\ 1\13\ 3\ 6\0\f\ 1\13\ 1\10\0\r\ 1\13\ 1\ 6\0\f\ 1\13\ 1\10\0\r\ 1\13\ 1\ 6\0\f\ 1\1d\ 1\13\ 1\ 6\0\f\ 1\13\ 1\10\0\r\ 1\13\ 3\ 6\0\f\ 1\13\ 1\10\0\r\ 1\13\ 1\ 6\0\f\ 1\13\ 1\10\0\r\ 1\13\ 1\ 6\0\f\ 1\1d\ 1\13\ 1\ 6\0\f\ 1\13\ 1\10\0\r\ 1c
\ 1\0\0\0\a\0\0\0
35115 +
\0\0\0C
\0\0\0s]
\ 1\0\0t
\0\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0|
\ 1\0j
\ 1\0t
\ 2\0d
\f\0g
\ 1\0d
\ 5\0\14d
\ 5\0d
\ 2\0\83\ 3\0\83\ 1\0\ 1|
\ 1\0j
\ 3\0t
\ 4\0t
\ 5\0d
\ 6\0d
\a\0d
\ 2\0t
\ 5\0d
\a\0d
\ 2\0d
\b\0g
\b\0\83\ 1\0t
\ 4\0d
\ 6\0d
\ 5\0d
\0g
\ 3\0\83\ 1\0\83\ 2\0\ 1|
\ 1\0j
\ 6\0\83\0\0\
\ 5\0}
\ 2\0}
\ 3\0}
\ 3\0}
\ 3\0}
\ 3\0t
\a\0\83\0\0}
\ 4\0|
\ 4\0j
\b\0d
\ 6\0|
\ 1\0\83\ 2\0\ 1|
\ 4\0j
\b\0d
35116 +
\0|
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\0\83\0\0\ 1|
\ 4\0j
35117 +
\0\83\0\0\ 1t
\ 4\0|
\ 1\0j
\v\0\83\0\0d
\a\0\83\ 2\0}
\ 5\0|
\ 5\0j
\f\0d
\a\0\83\ 1\0\ 1t
\ 4\0|
\ 2\0j
\v\0\83\0\0d
\a\0\83\ 2\0}
\ 6\0|
\ 6\0j
\f\0d
\a\0\83\ 1\0\ 1|
\ 4\0j
\r\0d
\ 6\0|
\ 5\0\83\ 2\0\ 1|
\ 4\0j
\r\0d
35118 +
\0|
\ 6\0\83\ 2\0\ 1|
\0\0j
\ e\0t
\ f\0|
\ 4\0j
35119 +
\0\83\ 2\0\ 1|
\ 4\0j
\r\0d
35120 +
\0|
\ 6\0d
\v\0\17\83\ 2\0\ 1|
\ 4\0j
35121 +
\0\83\0\0\ 1d
\0\0S(
\r\0\0\0NRÅ
\ 4\0\0i
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0i
\b\0\0\0iÿÿÿÿid
\0\0\0(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\10\0\0\0R[
\0\0\0Rc
\0\0\0RY
\0\0\0Rÿ
\ 1\0\0Rk
\0\0\0R_
\0\0\0R
\9b\ 1\0\0R>
\0\0\0Rj
\0\0\0R
\0\ 2\0\0t
\15\0\0\0checkSMESHConsistencyR§
\0\0\0Ry
\ 1\0\0R
\98\0\0\0R)
\0\0\0R*
\0\0\0(
\a\0\0\0R
\0\0\0R
\85\0\0\0R
\84\0\0\0R
\ 6\ 2\0\0RÇ
\ 4\0\0Ræ
\0\0\0Rç
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\19\0\0\0testCheckSMESHConsistency¸
\13\0\0s&
\0\0\0\0\ 1\ f\ 1 \ 1=
\ 1\e\ 1 \ 1\10\ 1\10\ 1
35123 +
\ 1\15\0\r\ 1\15\0\r\ 1\10\ 1\10\ 1\13\ 1\14\ 1
35124 +
\ 1c
\ 1\0\0\0\a\0\0\0
35125 +
\0\0\0C
\0\0\0s6
\ 1\0\0t
\0\0d
\ 1\0d
\ 2\0\83\ 2\0}
\ 1\0|
\ 1\0j
\ 1\0t
\ 2\0d
\v\0g
\ 1\0d
\ 5\0\14d
\ 5\0d
\ 2\0\83\ 3\0\83\ 1\0\ 1|
\ 1\0j
\ 3\0t
\ 4\0t
\ 5\0d
\ 6\0d
\a\0d
\ 2\0t
\ 5\0d
\a\0d
\ 2\0d
\b\0g
\b\0\83\ 1\0t
\ 4\0d
\ 6\0d
\ 5\0d
\0g
\ 3\0\83\ 1\0\83\ 2\0\ 1|
\ 1\0j
\ 6\0\83\0\0\
\ 5\0}
\ 2\0}
\ 3\0}
\ 3\0}
\ 3\0}
\ 3\0t
\a\0\83\0\0}
\ 4\0|
\ 4\0j
\b\0d
\ 6\0|
\ 1\0\83\ 2\0\ 1|
\ 4\0j
\b\0d
35126 +
\0|
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\0\83\0\0\ 1t
\ 4\0|
\ 1\0j
35127 +
\0\83\0\0d
\a\0\83\ 2\0}
\ 5\0|
\ 5\0j
\v\0d
\a\0\83\ 1\0\ 1t
\ 4\0|
\ 2\0j
35128 +
\0\83\0\0d
\a\0\83\ 2\0}
\ 6\0|
\ 6\0j
\v\0d
\a\0\83\ 1\0\ 1|
\ 4\0j
\f\0d
\ 6\0|
\ 5\0\83\ 2\0\ 1|
\ 4\0j
\f\0d
35129 +
\0|
\ 6\0\83\ 2\0\ 1|
\ 4\0j
\r\0\83\0\0\ 1|
\ 4\0j
\ e\0\83\0\0\ 1d
\0\0S(
\f\0\0\0NRÅ
\ 4\0\0i
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?i
\ 4\0\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 3\0\0\0i
\b\0\0\0iÿÿÿÿ(
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ f\0\0\0R[
\0\0\0Rc
\0\0\0RY
\0\0\0Rÿ
\ 1\0\0Rk
\0\0\0R_
\0\0\0R
\9b\ 1\0\0R>
\0\0\0Rj
\0\0\0R
\0\ 2\0\0R§
\0\0\0Ry
\ 1\0\0R
\98\0\0\0t
\17\0\0\0clearNodeAndCellNumbersRÊ
\ 4\0\0(
\a\0\0\0R
\0\0\0R
\85\0\0\0R
\84\0\0\0R
\ 6\ 2\0\0RÇ
\ 4\0\0Ræ
\0\0\0Rç
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\e\0\0\0testClearNodeAndCellNumbersË
\13\0\0s"
\0\0\0\0\ 1\ f\ 1 \ 1=
\ 1\e\ 1 \ 1\10\ 1\10\ 1
35130 +
\ 1\15\0\r\ 1\15\0\r\ 1\10\ 1\10\ 1
35132 +
\ 1c
\ 1\0\0\0\v\0\0\0\r\0\0\0C
\0\0\0s1
\ 2\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 4\0\83\ 1\0}
\ 3\0t
\0\0d
\ 3\0d
\ 4\0d
\ 5\0g
\ 3\0\83\ 1\0}
\ 4\0t
\ 1\0\83\0\0}
\ 5\0|
\ 5\0j
\ 2\0|
\ 3\0|
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\ 3\0|
\ 1\0\83\ 1\0\ 1t
\ 4\0\83\0\0}
\ 6\0|
\ 6\0j
\ 5\0|
\ 5\0\83\ 1\0\ 1t
\ 6\0d
\ 3\0d
\a\0d
\a\0d
\b\0d
\a\0d
\ 3\0g
\ 6\0\83\ 1\0}
\a\0t
\ 6\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 6\0d
\0d
\ 4\0d
\ 5\0d
35133 +
\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ 3\0g
\f\0\83\ 1\0}
\b\0|
\ 6\0j
\a\0d
\ 3\0|
\a\0\83\ 2\0\ 1|
\ 6\0j
\a\0d
\ 4\0|
\b\0\83\ 2\0\ 1|
\ 6\0j
\b\0|
\ 2\0d
\ 5\0\83\ 2\0\ 1t
\0j
35134 +
\0|
\ 2\0\83\ 1\0}
\ 6\0|
\0\0j
\v\0|
\ 6\0j
\f\0d
\ 3\0\83\ 1\0d
\0\0k
\0\83\ 1\0\ 1|
\0\0j
\v\0|
\ 6\0j
\f\0d
\ 4\0\83\ 1\0d
\0\0k
\0\83\ 1\0\ 1|
\ 6\0j
\a\0d
\ 3\0d
\0\0\83\ 2\0\ 1|
\ 6\0j
\a\0d
\ 4\0d
\0\0\83\ 2\0\ 1|
\0\0j
\v\0|
\ 6\0j
\f\0d
\ 3\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\v\0|
\ 6\0j
\f\0d
\ 4\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\ 6\0j
\ e\0\83\0\0}
\0|
\0\0j
\v\0|
\0j
\f\0d
\ 3\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\v\0|
\0j
\f\0d
\ 4\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\ 6\0j
\b\0|
\ 2\0d
\ 5\0\83\ 2\0\ 1t
\0j
35137 +
\0j
\f\0d
\ 3\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1|
\0\0j
\v\0|
35138 +
\0j
\f\0d
\ 4\0\83\ 1\0d
\0\0k
\b\0\83\ 1\0\ 1d
\0\0S(
\v\0\0\0NR
\ 2\0\0s
\f\0\0\0Pyfile99.medi
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0iþÿÿÿiÿÿÿÿi
\ 4\0\0\0i
\a\0\0\0(
\ f\0\0\0RY
\0\0\0R±
\0\0\0Rc
\0\0\0RB
\0\0\0R¯
\0\0\0R³
\0\0\0Rk
\0\0\0R¶
\0\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0R0
\0\0\0R
\9e\0\0\0R/
\ 2\0\0Rq
\0\0\0(
\v\0\0\0R
\0\0\0RÊ
\ 3\0\0R9
\ 1\0\0RS
\ 4\0\0RT
\ 4\0\0R
\83\0\0\0R
\86\0\0\0t
35140 +
\0\0\0famNodeIdsR¶
\ 4\0\0R¢
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1e\0\0\0testCMeshSetFamilyFieldArrNullÜ
\13\0\0s:
\0\0\0\0\ 1\ 6\ 1\ 6\ 1\18\ 1\15\ 1 \0\10\0\r\ 1 \0\r\ 1\1e\ 10
\ 1\10\ 1\10\ 1\10\ 1\ f\ 1\1c\ 1\1c\ 1\10\ 1\10\ 1\1c\ 1\1c\ 1\f\ 1\1c\ 1\1c\ 1\10\ 1\ f\ 1\1c\ 1\1c\ 1c
\ 1\0\0\0\10\0\0\0\ 5\0\0\0C
\0\0\0sq
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0g
\ 4\0\83\ 1\0}
\ 2\0t
\0\0d
\ 2\0d
\ 3\0d
\ 4\0g
\ 3\0\83\ 1\0}
\ 3\0t
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 2\0|
\ 2\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\ 3\0d
\ 6\0\83\ 1\0\ 1t
\ 4\0\83\0\0}
\ 5\0|
\ 5\0j
\ 5\0|
\ 4\0\83\ 1\0\ 1t
\ 6\0\83\0\0}
\ 6\0d
\a\0}
\a\0t
\a\0d
\ 3\0d
\ 5\0d
\b\0g
\ 3\0\83\ 1\0}
\b\0|
\b\0j
\ 3\0|
\a\0\83\ 1\0\ 1t
\b\0t
\0\83\ 1\0}
\0|
\0j
\ 5\0|
\ 4\0\83\ 1\0\ 1d
\0}
35143 +
\0d
\ 3\0d
\ 3\0\83\ 3\0\ 1|
\0j
\ 3\0|
35144 +
\0\83\ 1\0\ 1t
\a\0d
\v\0d
\f\0d
\r\0g
\ 3\0\83\ 1\0}
\v\0|
\0j
\v\0|
\v\0\83\ 1\0\ 1|
\ 6\0j
\f\0|
\0|
\ 5\0d
\ 2\0|
\b\0\83\ 4\0\ 1|
\ 5\0j
\r\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1|
\ 6\0j
\r\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\ e\0j
\ f\0|
\ 1\0\83\ 1\0}
\ 5\0t
\10\0j
\ f\0|
\ 1\0\83\ 1\0}
\ 6\0|
\0\0j
\11\0t
\12\0|
\ 6\0t
\ 6\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 6\0j
\14\0\83\0\0|
35145 +
\0\83\ 2\0\ 1|
\0\0j
\13\0t
\15\0|
\ 6\0\83\ 1\0d
\ 3\0\83\ 2\0\ 1|
\ 6\0d
\ 2\0\19}
\f\0|
\f\0j
\16\0t
\0d
\ 2\0|
\ 5\0\83\ 3\0\
\ 2\0}
\r\0}
\ e\0|
\0\0j
\13\0|
\ e\0j
\14\0\83\0\0|
\a\0\83\ 2\0\ 1|
\0\0j
\13\0|
\r\0j
\14\0\83\0\0|
35146 +
\0\83\ 2\0\ 1|
\0\0j
\11\0|
\r\0j
\17\0|
\v\0\83\ 1\0\83\ 1\0\ 1|
\f\0j
\18\0t
\0d
\ 2\0|
\ 5\0\83\ 3\0}
\ f\0|
\0\0j
\11\0|
\ f\0j
\19\0\83\0\0j
\17\0|
\v\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ f\0j
\1a\0\83\0\0|
\0j
\1a\0\83\0\0\83\ 2\0\ 1|
\0\0j
\13\0|
\ f\0j
\e\0\83\0\0j
\1c\0\83\0\0t
\15\0|
\v\0\83\ 1\0\83\ 2\0\ 1d
\0\0S(
\ e\0\0\0Ns
\r\0\0\0Pyfile100.medi
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0Rn
\ 2\0\0t
\ 3\0\0\0PFLi
\ 5\0\0\0R³
\ 3\0\0g333333ó?ie
\0\0\0if
\0\0\0ig
\0\0\0(
\1d\0\0\0RY
\0\0\0R±
\0\0\0Rc
\0\0\0RB
\0\0\0R¯
\0\0\0R³
\0\0\0R#
\ 3\0\0Rk
\0\0\0R&
\ 3\0\0R
\13\ 1\0\0R°
\0\0\0R{
\ 1\0\0R
\89\ 1\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0R"
\ 3\0\0R0
\0\0\0Rt
\0\0\0R+
\0\0\0RC
\0\0\0Ry
\0\0\0R~
\ 1\0\0R
\7f\ 1\0\0R
\97\ 1\0\0R)
\ 1\0\0Rº
\0\0\0R¹
\0\0\0R§
\0\0\0(
\10\0\0\0R
\0\0\0R9
\ 1\0\0RS
\ 4\0\0RT
\ 4\0\0R
\ 2\0\0R
\86\0\0\0Rm
\ 1\0\0t
\a\0\0\0pflNameR
\83\ 1\0\0R
\b\0\0\0Rg
\ 3\0\0RÔ
\ 1\0\0Rú
\0\0\0t
\ 5\0\0\0ftestR2
\ 2\0\0t
\ 6\0\0\0ftest2(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\0\0\0testAppendFieldProfileOnIntFieldø
\13\0\0sJ
\0\0\0\0\ 1\ 6\ 1\18\ 1\15\ 1 \0\10\0\r\ 1 \ 1\r\ 2 \ 1\ 6\ 1\15\0\r\ 1\f\0\r\ 1\ 6\ 1\13\0\r\ 1\15\0\r\ 1\16\ 2\10\ 1\10\ 2\ f\ 1\ f\ 1\16\ 1\16\ 1\16\ 1
35147 +
\ 1\e\ 1\16\ 1\16\ 1\16\ 1\15\ 1\1c\ 1\1c\ 1"
\ 1c
\ 1\0\0\0\15\0\0\0\19\0\0\0C
\0\0\0sÈ
\ 6\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0\83\0\0}
\ 3\0t
\ 1\0dE
\0dF
\0dG
\0g
\ 3\0\83\ 1\0}
\ 4\0t
\ 2\0d
\f\0d
\ 4\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\ 5\0j
\ 4\0\83\0\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\r\0d
\ 5\0d
\ 4\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\ 3\0d
\ e\0d
\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\b\0d
\a\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
35148 +
\0d
\v\0d
\ f\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\a\0d
\10\0d
\11\0d
\12\0d
\13\0g
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\a\0d
\14\0d
\15\0d
\16\0d
\17\0g
\ 4\0\83\ 2\0\ 1|
\ 5\0|
\ 3\0d
\r\0<|
\ 3\0j
\b\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\ 1\0d
\v\0d
\ f\0d
\18\0d
\19\0d
\10\0d
\11\0g
\ 6\0\83\ 1\0}
\ 6\0t
\0t
35149 +
\0\83\ 1\0}
\a\0|
\a\0j
\v\0|
\ 6\0\83\ 1\0\ 1|
\a\0j
\f\0|
\ 5\0\83\ 1\0\ 1|
\a\0j
\r\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\ e\0d
\1a\0d
\b\0d
\a\0\83\ 3\0\ 1|
\a\0j
\ f\0\83\0\0}
\b\0t
\10\0\83\0\0}
\0|
\0j
\11\0|
\a\0\83\ 1\0\ 1|
\0j
\b\0|
\ 1\0d
\r\0\83\ 2\0\ 1|
\ 6\0d
\e\0\17}
35151 +
\0\83\ 1\0\ 1|
\a\0j
\ e\0d
\1c\0d
\ 6\0d
35152 +
\0\83\ 3\0\ 1t
\12\0\83\0\0}
\0|
\0j
\13\0|
\a\0\83\ 1\0\ 1|
\0j
\b\0|
\ 1\0d
\r\0\83\ 2\0\ 1|
\a\0j
\ f\0\83\0\0}
\v\0t
\14\0j
\15\0|
\ 1\0\83\ 1\0}
\ 3\0t
\12\0|
\ 1\0|
\ 2\0d
\b\0d
\a\0\83\ 4\0}
\f\0|
\f\0j
\16\0|
\ 3\0\83\ 1\0}
\r\0|
\0\0j
\17\0|
\b\0j
\18\0|
\r\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1t
\12\0|
\ 1\0|
\ 2\0d
\ 6\0d
35153 +
\0\83\ 4\0}
\f\0|
\f\0j
\16\0|
\ 3\0\83\ 1\0}
\ e\0|
\0\0j
\17\0|
\v\0j
\18\0|
\ e\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1t
\10\0|
\ 1\0|
\ 2\0\83\ 2\0}
\ f\0|
\0\0j
\17\0|
\v\0j
\18\0|
\ f\0j
\16\0d
\ 6\0d
35154 +
\0|
\ 3\0\83\ 3\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1t
\0t
\19\0\83\ 1\0}
\10\0t
\ 1\0d
\1e\0d
\1f\0d
\0g
\ 3\0\83\ 1\0}
35156 +
\0j
\1a\0d
\r\0d!
\0\83\ 2\0\ 1|
\10\0j
\v\0|
35157 +
\0\83\ 1\0\ 1|
\10\0j
\f\0|
\ 5\0\83\ 1\0\ 1|
\10\0j
\ e\0d"
\0d#
\0d$
\0\83\ 3\0\ 1|
\10\0j
\r\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\b\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\12\0\83\0\0}
\0|
\0j
\13\0|
\10\0\83\ 1\0\ 1|
\0j
\b\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\14\0j
\15\0|
\ 1\0\83\ 1\0}
\ 3\0t
\12\0|
\ 1\0|
\ 2\0d#
\0d$
\0\83\ 4\0}
\f\0|
\0\0j
\17\0|
\10\0j
\18\0|
\f\0j
\16\0|
\ 3\0\83\ 1\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1t
\10\0|
\ 1\0|
\ 2\0\83\ 2\0}
\ f\0|
\0\0j
\17\0|
\10\0j
\18\0|
\ f\0j
\16\0d#
\0d$
\0|
\ 3\0\83\ 3\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1t
\0t
\e\0\83\ 1\0}
\11\0|
\11\0j
\f\0|
\ 5\0\83\ 1\0\ 1t
\ 1\0d
\r\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ e\0d
\0d
\b\0d
\a\0d
\ 6\0d
35158 +
\0d
\v\0d
\ f\0d
\18\0d
\19\0d%
\0d&
\0d'
\0d(
\0d)
\0d*
\0g
\14\0\83\ 1\0}
\12\0|
\11\0j
\v\0|
\12\0\83\ 1\0\ 1|
\11\0j
\ e\0d+
\0d
\ 4\0d
\ 3\0\83\ 3\0\ 1|
\11\0j
\r\0|
\ 2\0\83\ 1\0\ 1|
\11\0j
\1c\0\83\0\0\ 1|
\ 3\0j
\b\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\12\0\83\0\0}
\0|
\0j
\13\0|
\11\0\83\ 1\0\ 1|
\0j
\b\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\14\0j
\15\0|
\ 1\0\83\ 1\0}
\ 3\0t
\12\0|
\ 1\0|
\ 2\0d
\ 4\0d
\ 3\0\83\ 4\0}
\f\0|
\0\0j
\17\0|
\11\0j
\18\0|
\f\0j
\16\0|
\ 3\0\83\ 1\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1t
\0t
\1d\0\83\ 1\0}
\13\0|
\13\0j
\f\0|
\ 5\0\83\ 1\0\ 1|
\13\0j
\r\0|
\ 2\0\83\ 1\0\ 1|
\13\0j
\1e\0t
\ 6\0d,
\0d,
\0d-
\0d,
\0d-
\0d-
\0g
\ 6\0d.
\0d.
\0d/
\0d/
\0d0
\0d0
\0d1
\0d1
\0d+
\0d+
\0g
35159 +
\0d/
\0d0
\0d.
\0d2
\0d3
\0g
\ 5\0\83\ 4\0\ 1|
\13\0j
\1e\0t
\a\0d,
\0d,
\0d-
\0d,
\0d-
\0d-
\0d,
\0d-
\0g
\b\0d0
\0d1
\0d4
\0d5
\0g
\ 4\0d5
\0d0
\0g
\ 2\0\83\ 4\0\ 1|
\13\0j
\ e\0d6
\0d
\ e\0d
\0\83\ 3\0\ 1t
\ 1\0d
\r\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ e\0d
\v\0d
\ f\0d
\18\0d
\19\0d%
\0d7
\0d8
\0d9
\0d#
\0d$
\0d:
\0d;
\0d<
\0d=
\0d>
\0d?
\0d@
\0dA
\0dB
\0g
\18\0\83\ 1\0}
\14\0|
\14\0j
\1a\0d
\r\0dC
\0\83\ 2\0\ 1|
\13\0j
\v\0|
\14\0\83\ 1\0\ 1|
\13\0j
\1c\0\83\0\0\ 1|
\ 3\0j
\b\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\12\0\83\0\0}
\0|
\0j
\13\0|
\13\0\83\ 1\0\ 1|
\0j
\b\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\14\0j
\15\0|
\ 1\0\83\ 1\0}
\ 3\0t
\12\0|
\ 1\0|
\ 2\0d
\ e\0d
\0\83\ 4\0}
\f\0|
\0\0j
\17\0|
\13\0j
\18\0|
\f\0j
\16\0|
\ 3\0\83\ 1\0d
\1d\0d
\1d\0\83\ 3\0\83\ 1\0\ 1dD
\0S(H
\0\0\0s
\99\0\0\0Check for all spatial discretization of field (cells,nodes,elno,gauss) for double field that all is OK. Here no profile and only top level is considered.s
\r\0\0\0Pyfile101.medt
\ 6\0\0\0field1i
\ 3\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0i
\b\0\0\0i
\a\0\0\0i
\ 6\0\0\0i
\ 5\0\0\0i
\0\0\0i
35160 +
\0\0\0R
\ 2\0\0i
\0\0\0\0i
\ 4\0\0\0i
\v\0\0\0id
\0\0\0ie
\0\0\0if
\0\0\0ig
\0\0\0ih
\0\0\0ii
\0\0\0ij
\0\0\0ik
\0\0\0i
\f\0\0\0i
\r\0\0\0g
\0\0\0\0\0\0\0@iè
\ 3\0\0g
\0\0\0\0\0\0\b@g
\11ê-
\81\99\97q=iÈ
\0\0\0iÉ
\0\0\0iÊ
\0\0\0t
\ 4\0\0\0tutug
\0\0\0\0\0\06@i
\17\0\0\0i
\18\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\9a\99\99\99\99\99¹?g
\9a\99\99\99\99\99É?g333333Ó?g
\9a\99\99\99\99\99Ù?g
\9a\99\99\99\99\99©?gffffffÖ?g333333ã?gffffffæ?g
\0\0\0\0\0\0Ð?i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i-
\0\0\0i.
\0\0\0i7
\0\0\0i8
\0\0\0R°
\ 3\0\0N(
\ 3\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0(
\ 3\0\0\0i
\b\0\0\0i
\a\0\0\0i
\ 6\0\0\0(
\ 3\0\0\0i
\ 5\0\0\0i
\0\0\0i
35161 +
\0\0\0(
\1f\0\0\0R>
\0\0\0RY
\0\0\0R[
\0\0\0Rc
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0R
\v\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0R{
\ 1\0\0R³
\0\0\0RB
\0\0\0R°
\0\0\0Rq
\0\0\0Rô
\0\0\0RY
\ 1\0\0Rà
\0\0\0R%
\ 1\0\0R'
\0\0\0R(
\0\0\0R5
\ 4\0\0R0
\0\0\0R1
\0\0\0R
\1c\ 1\0\0R
\97\0\0\0R
\ f\ 1\0\0Rd
\0\0\0R
\a\ 1\0\0t
\1a\0\0\0setGaussLocalizationOnType(
\15\0\0\0R
\0\0\0R9
\ 1\0\0Rg
\ 3\0\0R
\86\0\0\0R
\ 3\ 2\0\0R
\83\0\0\0R
\17\ 3\0\0R
\b\0\0\0Rä
\0\0\0Rñ
\0\0\0R
\ 2\ 3\0\0Rã
\0\0\0Rú
\0\0\0t
\ 5\0\0\0ftst0t
\ 5\0\0\0ftst1Rm
\ 1\0\0Râ
\0\0\0R
35162 +
\ 1\0\0t
\ 4\0\0\0arr3R
\f\ 1\0\0t
\ 4\0\0\0arr4(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testMEDFileFieldEasyField1
\1c\14\0\0s²
\0\0\0\0\ 3\ 6\ 1\ 6\ 1 \ 1\15\ 1\ f\0\r\ 1
35163 +
\ 1\19\ 1\19\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1
35164 +
\ 1\10\ 1\1e\ 1\f\0\r\0\r\ 1\r\0\13\ 1\f\ 1 \0\r\ 1\10\ 1
35165 +
\0\r\ 1\13\0 \0\r\ 1\10\ 1\f\ 2\ f\ 1\15\ 1\ f\ 1\1c\ 1\15\ 1\ f\ 1\1c\ 1\ f\ 1+
\ 2\f\0\15\0\10\0\r\0\r\0\13\ 1\r\ 1\10\ 1 \0\r\0\10\ 2\ f\ 1\15\ 1%
\ 1\ f\ 1+
\ 2\f\0\r\0H
\0\r\0\13\ 1\r\0
35166 +
\ 1\10\0 \0\r\0\10\ 2\ f\ 1\15\ 1%
\ 2\f\0\r\0\r\ 1U
\ 1@
\0\13\ 1T
\0\10\0\r\ 1
35167 +
\ 1\10\0 \0\r\0\10\ 2\ f\ 1\15\ 1%
\ 1c
\ 1\0\0\0\15\0\0\0\19\0\0\0C
\0\0\0sÈ
\ 6\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0\83\0\0}
\ 3\0t
\ 1\0dE
\0dF
\0dG
\0g
\ 3\0\83\ 1\0}
\ 4\0t
\ 2\0d
\f\0d
\ 4\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\ 5\0j
\ 4\0\83\0\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\r\0d
\ 5\0d
\ 4\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\ 3\0d
\ e\0d
\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\b\0d
\a\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
35168 +
\0d
\v\0d
\ f\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\a\0d
\10\0d
\11\0d
\12\0d
\13\0g
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\a\0d
\14\0d
\15\0d
\16\0d
\17\0g
\ 4\0\83\ 2\0\ 1|
\ 5\0|
\ 3\0d
\r\0<|
\ 3\0j
\b\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\0d
\v\0d
\ f\0d
\18\0d
\19\0d
\10\0d
\11\0g
\ 6\0\83\ 1\0}
\ 6\0t
35169 +
\0t
\v\0\83\ 1\0}
\a\0|
\a\0j
\f\0|
\ 6\0\83\ 1\0\ 1|
\a\0j
\r\0|
\ 5\0\83\ 1\0\ 1|
\a\0j
\ e\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\ f\0d
\1a\0d
\b\0d
\a\0\83\ 3\0\ 1|
\a\0j
\10\0\83\0\0}
\b\0t
\11\0\83\0\0}
\0|
\0j
\12\0|
\a\0\83\ 1\0\ 1|
\0j
\b\0|
\ 1\0d
\r\0\83\ 2\0\ 1|
\ 6\0d
\e\0\17}
35171 +
\0\83\ 1\0\ 1|
\a\0j
\ f\0d
\1c\0d
\ 6\0d
35172 +
\0\83\ 3\0\ 1t
\13\0\83\0\0}
\0|
\0j
\14\0|
\a\0\83\ 1\0\ 1|
\0j
\b\0|
\ 1\0d
\r\0\83\ 2\0\ 1|
\a\0j
\10\0\83\0\0}
\v\0t
\15\0j
\16\0|
\ 1\0\83\ 1\0}
\ 3\0t
\13\0|
\ 1\0|
\ 2\0d
\b\0d
\a\0\83\ 4\0}
\f\0|
\f\0j
\17\0|
\ 3\0\83\ 1\0}
\r\0|
\0\0j
\18\0|
\b\0j
\19\0|
\r\0d
\1d\0d
\r\0\83\ 3\0\83\ 1\0\ 1t
\13\0|
\ 1\0|
\ 2\0d
\ 6\0d
35173 +
\0\83\ 4\0}
\f\0|
\f\0j
\17\0|
\ 3\0\83\ 1\0}
\ e\0|
\0\0j
\18\0|
\v\0j
\19\0|
\ e\0d
\1d\0d
\r\0\83\ 3\0\83\ 1\0\ 1t
\11\0|
\ 1\0|
\ 2\0\83\ 2\0}
\ f\0|
\0\0j
\18\0|
\v\0j
\19\0|
\ f\0j
\17\0d
\ 6\0d
35174 +
\0|
\ 3\0\83\ 3\0d
\1d\0d
\r\0\83\ 3\0\83\ 1\0\ 1t
35175 +
\0t
\1a\0\83\ 1\0}
\10\0t
\0d
\1e\0d
\1f\0d
\0g
\ 3\0\83\ 1\0}
35177 +
\0j
\e\0d
\r\0d!
\0\83\ 2\0\ 1|
\10\0j
\f\0|
35178 +
\0\83\ 1\0\ 1|
\10\0j
\r\0|
\ 5\0\83\ 1\0\ 1|
\10\0j
\ f\0d"
\0d#
\0d$
\0\83\ 3\0\ 1|
\10\0j
\ e\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\b\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\13\0\83\0\0}
\0|
\0j
\14\0|
\10\0\83\ 1\0\ 1|
\0j
\b\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\15\0j
\16\0|
\ 1\0\83\ 1\0}
\ 3\0t
\13\0|
\ 1\0|
\ 2\0d#
\0d$
\0\83\ 4\0}
\f\0|
\0\0j
\18\0|
\10\0j
\19\0|
\f\0j
\17\0|
\ 3\0\83\ 1\0d
\1d\0d
\r\0\83\ 3\0\83\ 1\0\ 1t
\11\0|
\ 1\0|
\ 2\0\83\ 2\0}
\ f\0|
\0\0j
\18\0|
\10\0j
\19\0|
\ f\0j
\17\0d#
\0d$
\0|
\ 3\0\83\ 3\0d
\1d\0d
\r\0\83\ 3\0\83\ 1\0\ 1t
35179 +
\0t
\1c\0\83\ 1\0}
\11\0|
\11\0j
\r\0|
\ 5\0\83\ 1\0\ 1t
\0d
\r\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ e\0d
\0d
\b\0d
\a\0d
\ 6\0d
35180 +
\0d
\v\0d
\ f\0d
\18\0d
\19\0d%
\0d&
\0d'
\0d(
\0d)
\0d*
\0g
\14\0\83\ 1\0}
\12\0|
\11\0j
\f\0|
\12\0\83\ 1\0\ 1|
\11\0j
\ f\0d+
\0d
\ 4\0d
\ 3\0\83\ 3\0\ 1|
\11\0j
\ e\0|
\ 2\0\83\ 1\0\ 1|
\11\0j
\1d\0\83\0\0\ 1|
\ 3\0j
\b\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\13\0\83\0\0}
\0|
\0j
\14\0|
\11\0\83\ 1\0\ 1|
\0j
\b\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\15\0j
\16\0|
\ 1\0\83\ 1\0}
\ 3\0t
\13\0|
\ 1\0|
\ 2\0d
\ 4\0d
\ 3\0\83\ 4\0}
\f\0|
\0\0j
\18\0|
\11\0j
\19\0|
\f\0j
\17\0|
\ 3\0\83\ 1\0d
\1d\0d
\r\0\83\ 3\0\83\ 1\0\ 1t
35181 +
\0t
\1e\0\83\ 1\0}
\13\0|
\13\0j
\r\0|
\ 5\0\83\ 1\0\ 1|
\13\0j
\ e\0|
\ 2\0\83\ 1\0\ 1|
\13\0j
\1f\0t
\ 6\0d,
\0d,
\0d-
\0d,
\0d-
\0d-
\0g
\ 6\0d.
\0d.
\0d/
\0d/
\0d0
\0d0
\0d1
\0d1
\0d+
\0d+
\0g
35182 +
\0d/
\0d0
\0d.
\0d2
\0d3
\0g
\ 5\0\83\ 4\0\ 1|
\13\0j
\1f\0t
\a\0d,
\0d,
\0d-
\0d,
\0d-
\0d-
\0d,
\0d-
\0g
\b\0d0
\0d1
\0d4
\0d5
\0g
\ 4\0d5
\0d0
\0g
\ 2\0\83\ 4\0\ 1|
\13\0j
\ f\0d6
\0d
\ e\0d
\0\83\ 3\0\ 1t
\0d
\r\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ e\0d
\v\0d
\ f\0d
\18\0d
\19\0d%
\0d7
\0d8
\0d9
\0d#
\0d$
\0d:
\0d;
\0d<
\0d=
\0d>
\0d?
\0d@
\0dA
\0dB
\0g
\18\0\83\ 1\0}
\14\0|
\14\0j
\e\0d
\r\0dC
\0\83\ 2\0\ 1|
\13\0j
\f\0|
\14\0\83\ 1\0\ 1|
\13\0j
\1d\0\83\0\0\ 1|
\ 3\0j
\b\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\13\0\83\0\0}
\0|
\0j
\14\0|
\13\0\83\ 1\0\ 1|
\0j
\b\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\15\0j
\16\0|
\ 1\0\83\ 1\0}
\ 3\0t
\13\0|
\ 1\0|
\ 2\0d
\ e\0d
\0\83\ 4\0}
\f\0|
\0\0j
\18\0|
\13\0j
\19\0|
\f\0j
\17\0|
\ 3\0\83\ 1\0d
\1d\0d
\r\0\83\ 3\0\83\ 1\0\ 1dD
\0S(H
\0\0\0sí
\0\0\0Same thantestMEDFileFieldEasyField1 except that here intfields are considered.
35183 + Check for all spatial discretization of field (cells,nodes,elno,gauss) for int field that all is OK. Here no profile and only top level is considered.s
\r\0\0\0Pyfile102.medRÖ
\ 4\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0i
\b\0\0\0i
\a\0\0\0i
\ 6\0\0\0i
\ 5\0\0\0i
\0\0\0i
35184 +
\0\0\0R
\ 2\0\0i
\0\0\0\0i
\ 4\0\0\0i
\v\0\0\0id
\0\0\0ie
\0\0\0if
\0\0\0ig
\0\0\0ih
\0\0\0ii
\0\0\0ij
\0\0\0ik
\0\0\0i
\f\0\0\0i
\r\0\0\0g
\0\0\0\0\0\0\0@iè
\ 3\0\0g
\0\0\0\0\0\0\b@g
\11ê-
\81\99\97q=iÈ
\0\0\0iÉ
\0\0\0iÊ
\0\0\0R×
\ 4\0\0g
\0\0\0\0\0\06@i
\17\0\0\0i
\18\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\9a\99\99\99\99\99¹?g
\9a\99\99\99\99\99É?g333333Ó?g
\9a\99\99\99\99\99Ù?g
\9a\99\99\99\99\99©?gffffffÖ?g333333ã?gffffffæ?g
\0\0\0\0\0\0Ð?i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i-
\0\0\0i.
\0\0\0i7
\0\0\0i8
\0\0\0R°
\ 3\0\0N(
\ 3\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0(
\ 3\0\0\0i
\b\0\0\0i
\a\0\0\0i
\ 6\0\0\0(
\ 3\0\0\0i
\ 5\0\0\0i
\0\0\0i
35185 +
\0\0\0(
\0\0\0R>
\0\0\0RY
\0\0\0R[
\0\0\0Rc
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0R
\v\0\0\0Rk
\0\0\0R&
\ 3\0\0R
\13\ 1\0\0R{
\ 1\0\0R³
\0\0\0RB
\0\0\0R°
\0\0\0Rq
\0\0\0R#
\ 3\0\0RY
\ 1\0\0R
\1e\ 3\0\0R%
\ 1\0\0R'
\0\0\0R(
\0\0\0R5
\ 4\0\0R0
\0\0\0R1
\0\0\0R
\1c\ 1\0\0R
\97\0\0\0R
\ f\ 1\0\0Rd
\0\0\0R
\a\ 1\0\0RØ
\ 4\0\0(
\15\0\0\0R
\0\0\0R9
\ 1\0\0Rg
\ 3\0\0R
\86\0\0\0R
\ 3\ 2\0\0R
\83\0\0\0R
\17\ 3\0\0R
\b\0\0\0Rä
\0\0\0Rñ
\0\0\0R
\ 2\ 3\0\0Rã
\0\0\0Rú
\0\0\0RÙ
\ 4\0\0RÚ
\ 4\0\0Rm
\ 1\0\0Râ
\0\0\0R
35186 +
\ 1\0\0RÛ
\ 4\0\0R
\f\ 1\0\0RÜ
\ 4\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testMEDFileFieldEasyField2a
\14\0\0s²
\0\0\0\0\ 4\ 6\ 1\ 6\ 1 \ 1\15\ 1\ f\0\r\ 1
35187 +
\ 1\19\ 1\19\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1
35188 +
\ 1\10\ 1\1e\ 1\f\0\r\0\r\ 1\r\0\13\ 1\f\ 1 \0\r\ 1\10\ 1
35189 +
\0\r\ 1\13\0 \0\r\ 1\10\ 1\f\ 2\ f\ 1\15\ 1\ f\ 1\1c\ 1\15\ 1\ f\ 1\1c\ 1\ f\ 1+
\ 2\f\0\15\0\10\0\r\0\r\0\13\ 1\r\ 1\10\ 1 \0\r\0\10\ 2\ f\ 1\15\ 1%
\ 1\ f\ 1+
\ 2\f\0\r\0H
\0\r\0\13\ 1\r\0
35190 +
\ 1\10\0 \0\r\0\10\ 2\ f\ 1\15\ 1%
\ 2\f\0\r\0\r\ 1U
\ 1@
\0\13\ 1T
\0\10\0\r\ 1
35191 +
\ 1\10\0 \0\r\0\10\ 2\ f\ 1\15\ 1%
\ 1c
\ 1\0\0\0\ e\0\0\0\19\0\0\0C
\0\0\0s
\ 6\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0\83\0\0}
\ 3\0t
\ 1\0d@
\0dA
\0dB
\0g
\ 3\0\83\ 1\0}
\ 4\0t
\ 2\0d
\f\0d
\ 4\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\ 5\0j
\ 4\0\83\0\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\r\0d
\ 5\0d
\ 4\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\ 3\0d
\ e\0d
\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\b\0d
\a\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
35192 +
\0d
\v\0d
\ f\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\a\0d
\10\0d
\11\0d
\12\0d
\13\0g
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\a\0d
\14\0d
\15\0d
\16\0d
\17\0g
\ 4\0\83\ 2\0\ 1|
\ 5\0|
\ 3\0d
\18\0<t
\ 2\0d
\f\0d
\ 3\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0\83\0\0\ 1|
\ 6\0j
\ 5\0t
\b\0d
\ 3\0d
\ 4\0d
\0d
\r\0g
\ 4\0\83\ 2\0\ 1|
\ 6\0j
\ 5\0t
\b\0d
\a\0d
\b\0d
\ 3\0d
\ 4\0g
\ 4\0\83\ 2\0\ 1|
\ 6\0|
\ 3\0d
\r\0<|
\ 3\0j
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
35193 +
\0t
\v\0\83\ 1\0}
\a\0|
\a\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\r\0t
\ 1\0dC
\0dD
\0g
\ 2\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
\ e\0|
\ 3\0d
\r\0\19\83\ 1\0\ 1|
\a\0j
\ f\0d
\19\0d
\ 5\0d
\ 4\0\83\ 3\0\ 1t
\10\0\83\0\0}
\b\0|
\b\0j
\11\0|
\a\0\83\ 1\0\ 1|
\b\0j
\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\12\0j
\13\0|
\ 1\0\83\ 1\0}
\ 3\0t
\10\0|
\ 1\0|
\ 2\0d
\ 5\0d
\ 4\0\83\ 4\0}
\b\0|
\0\0j
\14\0|
\a\0j
\15\0|
\b\0j
\16\0|
\ 3\0\83\ 1\0d
\1a\0d
\1a\0\83\ 3\0\83\ 1\0\ 1t
35194 +
\0t
\v\0\83\ 1\0}
\a\0|
\a\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\r\0t
\ 1\0dE
\0dF
\0dG
\0dH
\0dI
\0dJ
\0g
\ 6\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
\ e\0|
\ 3\0d
\18\0\19\83\ 1\0\ 1|
\a\0j
\ f\0d
\e\0d
\ 3\0d
\ e\0\83\ 3\0\ 1|
\a\0j
\17\0\83\0\0\ 1|
\ 3\0j
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\10\0\83\0\0}
\b\0|
\b\0j
\11\0|
\a\0\83\ 1\0\ 1|
\b\0j
\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\12\0j
\13\0|
\ 1\0\83\ 1\0}
\ 3\0t
\10\0|
\ 1\0|
\ 2\0d
\ 3\0d
\ e\0\83\ 4\0}
\b\0|
\0\0j
\14\0|
\a\0j
\15\0|
\b\0j
\16\0|
\ 3\0\83\ 1\0d
\1a\0d
\1a\0\83\ 3\0\83\ 1\0\ 1t
35195 +
\0t
\18\0\83\ 1\0}
\0|
\0j
\ e\0|
\ 3\0d
\18\0\19\83\ 1\0\ 1t
\ 1\0d
\r\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ e\0d
\0d
\b\0d
\a\0d
\ 6\0d
35196 +
\0d
\v\0d
\ f\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0g
\14\0\83\ 1\0}
35198 +
\0\83\ 1\0\ 1|
\0j
\ f\0d$
\0d
\ 4\0d
\ 3\0\83\ 3\0\ 1|
\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\0j
\17\0\83\0\0\ 1|
\ 3\0j
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\10\0\83\0\0}
\v\0|
\v\0j
\11\0|
\0\83\ 1\0\ 1|
\v\0j
\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\12\0j
\13\0|
\ 1\0\83\ 1\0}
\ 3\0t
\10\0|
\ 1\0|
\ 2\0d
\ 4\0d
\ 3\0\83\ 4\0}
\b\0|
\0\0j
\14\0|
\0j
\15\0|
\b\0j
\16\0|
\ 3\0\83\ 1\0d
\1a\0d
\1a\0\83\ 3\0\83\ 1\0\ 1t
35199 +
\0t
\19\0\83\ 1\0}
\f\0|
\f\0j
\ e\0|
\ 3\0d
\18\0\19\83\ 1\0\ 1|
\f\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\f\0j
\1a\0t
\ 6\0d%
\0d%
\0d&
\0d%
\0d&
\0d&
\0g
\ 6\0d'
\0d'
\0d(
\0d(
\0d)
\0d)
\0d*
\0d*
\0d$
\0d$
\0g
35200 +
\0d(
\0d)
\0d'
\0d+
\0d,
\0g
\ 5\0\83\ 4\0\ 1|
\f\0j
\1a\0t
\a\0d%
\0d%
\0d&
\0d%
\0d&
\0d&
\0d%
\0d&
\0g
\b\0d)
\0d*
\0d-
\0d.
\0g
\ 4\0d.
\0d)
\0g
\ 2\0\83\ 4\0\ 1|
\f\0j
\ f\0d/
\0d
\ e\0d
\0\83\ 3\0\ 1t
\ 1\0d
\r\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ e\0d
\v\0d
\ f\0d
\1c\0d
\1d\0d
\1e\0d0
\0d1
\0d2
\0d3
\0d4
\0d5
\0d6
\0d7
\0d8
\0d9
\0d:
\0d;
\0d<
\0d=
\0g
\18\0\83\ 1\0}
\r\0|
\r\0j
\e\0d
\r\0d>
\0\83\ 2\0\ 1|
\f\0j
\r\0|
\r\0\83\ 1\0\ 1|
\f\0j
\17\0\83\0\0\ 1|
\ 3\0j
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\10\0\83\0\0}
\v\0|
\v\0j
\11\0|
\f\0\83\ 1\0\ 1|
\v\0j
\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\12\0j
\13\0|
\ 1\0\83\ 1\0}
\ 3\0t
\10\0|
\ 1\0|
\ 2\0d
\ e\0d
\0\83\ 4\0}
\b\0|
\0\0j
\14\0|
\f\0j
\15\0|
\b\0j
\16\0|
\ 3\0\83\ 1\0d
\1a\0d
\1a\0\83\ 3\0\83\ 1\0\ 1d?
\0S(K
\0\0\0s
\9f\0\0\0Here a multi level mesh. And field on cells lying on different level of this mesh. Show how "field" method deal with that. Here on field double are considered.s
\r\0\0\0Pyfile103.medRÖ
\ 4\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0i
\b\0\0\0i
\a\0\0\0i
\ 6\0\0\0i
\ 5\0\0\0i
\0\0\0i
35201 +
\0\0\0R
\ 2\0\0i
\0\0\0\0i
\ 4\0\0\0i
\v\0\0\0id
\0\0\0ie
\0\0\0if
\0\0\0ig
\0\0\0ih
\0\0\0ii
\0\0\0ij
\0\0\0ik
\0\0\0iÿÿÿÿg
\0\0\0\0\0\0\10@g
\11ê-
\81\99\97q=g
\0\0\0\0\0\00@i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\9a\99\99\99\99\99¹?g
\9a\99\99\99\99\99É?g333333Ó?g
\9a\99\99\99\99\99Ù?g
\9a\99\99\99\99\99©?gffffffÖ?g333333ã?gffffffæ?g
\0\0\0\0\0\0Ð?i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i-
\0\0\0i.
\0\0\0i7
\0\0\0i8
\0\0\0R°
\ 3\0\0N(
\ 3\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0(
\ 3\0\0\0i
\b\0\0\0i
\a\0\0\0i
\ 6\0\0\0(
\ 3\0\0\0i
\ 5\0\0\0i
\0\0\0i
35202 +
\0\0\0(
\ 2\0\0\0i
\0\0\0\0id
\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0ie
\0\0\0(
\ 2\0\0\0i
\0\0\0\0id
\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0ie
\0\0\0(
\ 2\0\0\0i
\0\0\0\0id
\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0ie
\0\0\0(
\ 2\0\0\0i
\0\0\0\0id
\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0ie
\0\0\0(
\1c\0\0\0R>
\0\0\0RY
\0\0\0R[
\0\0\0Rc
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0R©
\ 3\0\0R
\v\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0RB
\0\0\0R{
\ 1\0\0R³
\0\0\0R°
\0\0\0Rà
\0\0\0R%
\ 1\0\0R'
\0\0\0R(
\0\0\0R0
\0\0\0R1
\0\0\0R5
\ 4\0\0Rd
\0\0\0R
\ f\ 1\0\0R
\a\ 1\0\0RØ
\ 4\0\0R
\97\0\0\0(
\ e\0\0\0R
\0\0\0R9
\ 1\0\0Rg
\ 3\0\0R
\86\0\0\0R
\ 3\ 2\0\0R
\83\0\0\0Rá
\0\0\0Rã
\0\0\0Rú
\0\0\0R
35203 +
\ 1\0\0RÛ
\ 4\0\0Rñ
\0\0\0R
\f\ 1\0\0RÜ
\ 4\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testMEDFileFieldEasyField3§
\14\0\0s
\9a\0\0\0\0\ 2\ 6\ 1\ 6\ 1 \ 1\15\ 1\ f\0\r\ 1
35204 +
\ 1\19\ 1\19\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1
35207 +
\ 1\10\ 2\f\0\r\0\19\0\11\0\13\ 1 \0\r\0\10\ 2\ f\0\15\ 1%
\ 2\f\0\r\0%
\ 1\11\ 1\13\ 1
35208 +
\ 1\10\ 1 \0\r\0\10\ 2\ f\0\15\ 1%
\ 2\f\ 1\11\ 1H
\0\r\0\13\ 1\r\0
35209 +
\ 1\10\0 \0\r\0\10\ 2\ f\0\15\ 1%
\ 2\f\ 1\11\ 1\r\ 1U
\ 1@
\0\13\ 1T
\0\10\0\r\ 1
35210 +
\ 1\10\0 \0\r\0\10\ 1\ f\0\15\ 1%
\ 1c
\ 1\0\0\0\ e\0\0\0\19\0\0\0C
\0\0\0s
\ 6\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0\83\0\0}
\ 3\0t
\ 1\0d@
\0dA
\0dB
\0g
\ 3\0\83\ 1\0}
\ 4\0t
\ 2\0d
\f\0d
\ 4\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\ 5\0j
\ 4\0\83\0\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\r\0d
\ 5\0d
\ 4\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\ 3\0d
\ e\0d
\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\b\0d
\a\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
35211 +
\0d
\v\0d
\ f\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\a\0d
\10\0d
\11\0d
\12\0d
\13\0g
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\a\0d
\14\0d
\15\0d
\16\0d
\17\0g
\ 4\0\83\ 2\0\ 1|
\ 5\0|
\ 3\0d
\18\0<t
\ 2\0d
\f\0d
\ 3\0\83\ 2\0}
\ 6\0|
\ 6\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0\83\0\0\ 1|
\ 6\0j
\ 5\0t
\b\0d
\ 3\0d
\ 4\0d
\0d
\r\0g
\ 4\0\83\ 2\0\ 1|
\ 6\0j
\ 5\0t
\b\0d
\a\0d
\b\0d
\ 3\0d
\ 4\0g
\ 4\0\83\ 2\0\ 1|
\ 6\0|
\ 3\0d
\r\0<|
\ 3\0j
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
35212 +
\0t
\v\0\83\ 1\0}
\a\0|
\a\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\r\0t
\ e\0dC
\0dD
\0g
\ 2\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
\ f\0|
\ 3\0d
\r\0\19\83\ 1\0\ 1|
\a\0j
\10\0d
\19\0d
\ 5\0d
\ 4\0\83\ 3\0\ 1t
\11\0\83\0\0}
\b\0|
\b\0j
\12\0|
\a\0\83\ 1\0\ 1|
\b\0j
\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\13\0j
\14\0|
\ 1\0\83\ 1\0}
\ 3\0t
\11\0|
\ 1\0|
\ 2\0d
\ 5\0d
\ 4\0\83\ 4\0}
\b\0|
\0\0j
\15\0|
\a\0j
\16\0|
\b\0j
\17\0|
\ 3\0\83\ 1\0d
\1a\0d
\r\0\83\ 3\0\83\ 1\0\ 1t
35213 +
\0t
\v\0\83\ 1\0}
\a\0|
\a\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\a\0j
\r\0t
\ e\0dE
\0dF
\0dG
\0dH
\0dI
\0dJ
\0g
\ 6\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
\ f\0|
\ 3\0d
\18\0\19\83\ 1\0\ 1|
\a\0j
\10\0d
\e\0d
\ 3\0d
\ e\0\83\ 3\0\ 1|
\a\0j
\18\0\83\0\0\ 1|
\ 3\0j
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\11\0\83\0\0}
\b\0|
\b\0j
\12\0|
\a\0\83\ 1\0\ 1|
\b\0j
\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\13\0j
\14\0|
\ 1\0\83\ 1\0}
\ 3\0t
\11\0|
\ 1\0|
\ 2\0d
\ 3\0d
\ e\0\83\ 4\0}
\b\0|
\0\0j
\15\0|
\a\0j
\16\0|
\b\0j
\17\0|
\ 3\0\83\ 1\0d
\1a\0d
\r\0\83\ 3\0\83\ 1\0\ 1t
35214 +
\0t
\19\0\83\ 1\0}
\0|
\0j
\ f\0|
\ 3\0d
\18\0\19\83\ 1\0\ 1t
\ e\0d
\r\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ e\0d
\0d
\b\0d
\a\0d
\ 6\0d
35215 +
\0d
\v\0d
\ f\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0g
\14\0\83\ 1\0}
35217 +
\0\83\ 1\0\ 1|
\0j
\10\0d$
\0d
\ 4\0d
\ 3\0\83\ 3\0\ 1|
\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\0j
\18\0\83\0\0\ 1|
\ 3\0j
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\11\0\83\0\0}
\v\0|
\v\0j
\12\0|
\0\83\ 1\0\ 1|
\v\0j
\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\13\0j
\14\0|
\ 1\0\83\ 1\0}
\ 3\0t
\11\0|
\ 1\0|
\ 2\0d
\ 4\0d
\ 3\0\83\ 4\0}
\b\0|
\0\0j
\15\0|
\0j
\16\0|
\b\0j
\17\0|
\ 3\0\83\ 1\0d
\1a\0d
\r\0\83\ 3\0\83\ 1\0\ 1t
35218 +
\0t
\1a\0\83\ 1\0}
\f\0|
\f\0j
\ f\0|
\ 3\0d
\18\0\19\83\ 1\0\ 1|
\f\0j
\f\0|
\ 2\0\83\ 1\0\ 1|
\f\0j
\e\0t
\ 6\0d%
\0d%
\0d&
\0d%
\0d&
\0d&
\0g
\ 6\0d'
\0d'
\0d(
\0d(
\0d)
\0d)
\0d*
\0d*
\0d$
\0d$
\0g
35219 +
\0d(
\0d)
\0d'
\0d+
\0d,
\0g
\ 5\0\83\ 4\0\ 1|
\f\0j
\e\0t
\a\0d%
\0d%
\0d&
\0d%
\0d&
\0d&
\0d%
\0d&
\0g
\b\0d)
\0d*
\0d-
\0d.
\0g
\ 4\0d.
\0d)
\0g
\ 2\0\83\ 4\0\ 1|
\f\0j
\10\0d/
\0d
\ e\0d
\0\83\ 3\0\ 1t
\ e\0d
\r\0d
\ 5\0d
\ 4\0d
\ 3\0d
\ e\0d
\v\0d
\ f\0d
\1c\0d
\1d\0d
\1e\0d0
\0d1
\0d2
\0d3
\0d4
\0d5
\0d6
\0d7
\0d8
\0d9
\0d:
\0d;
\0d<
\0d=
\0g
\18\0\83\ 1\0}
\r\0|
\r\0j
\1c\0d
\r\0d>
\0\83\ 2\0\ 1|
\f\0j
\r\0|
\r\0\83\ 1\0\ 1|
\f\0j
\18\0\83\0\0\ 1|
\ 3\0j
\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\11\0\83\0\0}
\v\0|
\v\0j
\12\0|
\f\0\83\ 1\0\ 1|
\v\0j
\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\13\0j
\14\0|
\ 1\0\83\ 1\0}
\ 3\0t
\11\0|
\ 1\0|
\ 2\0d
\ e\0d
\0\83\ 4\0}
\b\0|
\0\0j
\15\0|
\f\0j
\16\0|
\b\0j
\17\0|
\ 3\0\83\ 1\0d
\1a\0d
\r\0\83\ 3\0\83\ 1\0\ 1d?
\0S(K
\0\0\0s7
\0\0\0 Same than testMEDFileFieldEasyField3 but with integerss
\r\0\0\0Pyfile104.medRÖ
\ 4\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0i
\b\0\0\0i
\a\0\0\0i
\ 6\0\0\0i
\ 5\0\0\0i
\0\0\0i
35220 +
\0\0\0R
\ 2\0\0i
\0\0\0\0i
\ 4\0\0\0i
\v\0\0\0id
\0\0\0ie
\0\0\0if
\0\0\0ig
\0\0\0ih
\0\0\0ii
\0\0\0ij
\0\0\0ik
\0\0\0iÿÿÿÿg
\0\0\0\0\0\0\10@g
\11ê-
\81\99\97q=g
\0\0\0\0\0\00@i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\9a\99\99\99\99\99¹?g
\9a\99\99\99\99\99É?g333333Ó?g
\9a\99\99\99\99\99Ù?g
\9a\99\99\99\99\99©?gffffffÖ?g333333ã?gffffffæ?g
\0\0\0\0\0\0Ð?i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i-
\0\0\0i.
\0\0\0i7
\0\0\0i8
\0\0\0R°
\ 3\0\0N(
\ 3\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0(
\ 3\0\0\0i
\b\0\0\0i
\a\0\0\0i
\ 6\0\0\0(
\ 3\0\0\0i
\ 5\0\0\0i
\0\0\0i
35221 +
\0\0\0(
\ 2\0\0\0i
\0\0\0\0id
\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0ie
\0\0\0(
\ 2\0\0\0i
\0\0\0\0id
\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0ie
\0\0\0(
\ 2\0\0\0i
\0\0\0\0id
\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0ie
\0\0\0(
\ 2\0\0\0i
\0\0\0\0id
\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0ie
\0\0\0(
\1d\0\0\0R>
\0\0\0RY
\0\0\0R[
\0\0\0Rc
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0R©
\ 3\0\0R
\v\0\0\0R&
\ 3\0\0R
\13\ 1\0\0RB
\0\0\0R{
\ 1\0\0Rk
\0\0\0R³
\0\0\0R°
\0\0\0R
\1e\ 3\0\0R%
\ 1\0\0R'
\0\0\0R(
\0\0\0R0
\0\0\0R1
\0\0\0R5
\ 4\0\0Rd
\0\0\0R
\ f\ 1\0\0R
\a\ 1\0\0RØ
\ 4\0\0R
\97\0\0\0(
\ e\0\0\0R
\0\0\0R9
\ 1\0\0Rg
\ 3\0\0R
\86\0\0\0R
\ 3\ 2\0\0R
\83\0\0\0Rá
\0\0\0Rã
\0\0\0Rú
\0\0\0R
35222 +
\ 1\0\0RÛ
\ 4\0\0Rñ
\0\0\0R
\f\ 1\0\0RÜ
\ 4\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testMEDFileFieldEasyField4â
\14\0\0s
\9a\0\0\0\0\ 2\ 6\ 1\ 6\ 1 \ 1\15\ 1\ f\0\r\ 1
35223 +
\ 1\19\ 1\19\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1
35226 +
\ 1\10\ 2\f\0\r\0\19\0\11\0\13\ 1 \0\r\0\10\ 2\ f\0\15\ 1%
\ 2\f\0\r\0%
\ 1\11\ 1\13\ 1
35227 +
\ 1\10\ 1 \0\r\0\10\ 2\ f\0\15\ 1%
\ 2\f\ 1\11\ 1H
\0\r\0\13\ 1\r\0
35228 +
\ 1\10\0 \0\r\0\10\ 2\ f\0\15\ 1%
\ 2\f\ 1\11\ 1\r\ 1U
\ 1@
\0\13\ 1T
\0\10\0\r\ 1
35229 +
\ 1\10\0 \0\r\0\10\ 1\ f\0\15\ 1%
\ 1c
\ 1\0\0\0\ e\0\0\0\ 6\0\0\0C
\0\0\0s
\15\ 3\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0\83\0\0}
\ 3\0t
\ 1\0d
\1f\0d
\0d!
\0g
\ 3\0\83\ 1\0}
\ 4\0t
\ 2\0d
\f\0d
\ 4\0\83\ 2\0}
\ 5\0|
\ 5\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\ 5\0j
\ 4\0\83\0\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\r\0d
\ 5\0d
\ 4\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\ 3\0d
\ e\0d
\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
\b\0d
\a\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\ 6\0d
35230 +
\0d
\v\0d
\ f\0g
\ 3\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\a\0d
\10\0d
\11\0d
\12\0d
\13\0g
\ 4\0\83\ 2\0\ 1|
\ 5\0j
\ 5\0t
\a\0d
\14\0d
\15\0d
\16\0d
\17\0g
\ 4\0\83\ 2\0\ 1|
\ 5\0|
\ 3\0d
\r\0<|
\ 3\0j
\b\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\0d
\r\0d
\ 4\0d
\ 3\0d
\0g
\ 4\0\83\ 1\0}
\ 6\0|
\ 6\0j
35231 +
\0d
\18\0\83\ 1\0\ 1|
\ 5\0j
\v\0\83\0\0|
\ 6\0\19}
\a\0|
\a\0j
35232 +
\0|
\ 5\0j
\f\0\83\0\0\83\ 1\0\ 1t
\ 1\0d
\v\0d
\ f\0d
\19\0d
\1a\0g
\ 4\0\83\ 1\0}
\b\0t
\r\0t
\ e\0\83\ 1\0}
\0|
\0j
\ f\0|
\b\0\83\ 1\0\ 1|
\0j
\10\0|
\a\0\83\ 1\0\ 1|
\0j
35233 +
\0|
\ 2\0\83\ 1\0\ 1|
\0j
\11\0d
\e\0d
\b\0d
\a\0\83\ 3\0\ 1|
\0j
\12\0\83\0\0\ 1t
\13\0\83\0\0}
35235 +
\0j
\14\0|
\0|
\ 3\0d
\r\0|
\ 6\0\83\ 4\0\ 1|
35236 +
\0j
\b\0|
\ 1\0d
\r\0\83\ 2\0\ 1t
\15\0j
\16\0|
\ 1\0\83\ 1\0}
\ 3\0t
\17\0|
\ 1\0|
\ 2\0d
\b\0d
\a\0\83\ 4\0}
\v\0|
\0\0j
\18\0|
\0j
\19\0|
\v\0j
\1a\0|
\ 3\0\83\ 1\0d
\1c\0d
\1c\0\83\ 3\0\83\ 1\0\ 1t
\ 2\0d
\f\0d
\ 3\0\83\ 2\0}
\f\0|
\f\0j
\ 3\0|
\ 4\0\83\ 1\0\ 1|
\f\0j
\ 4\0\83\0\0\ 1|
\f\0j
\ 5\0t
\e\0d
\ 3\0d
\ 4\0d
\0d
\r\0g
\ 4\0\83\ 2\0\ 1|
\f\0j
\ 5\0t
\e\0d
\a\0d
\b\0d
\ 3\0d
\ 4\0g
\ 4\0\83\ 2\0\ 1t
\0\0\83\0\0}
\r\0|
\f\0|
\r\0d
\r\0<|
\ 5\0|
\r\0d
\1d\0<t
\17\0\83\0\0}
35238 +
\0j
\1c\0|
\0|
\r\0d
\1d\0|
\ 6\0\83\ 4\0\ 1t
\15\0j
\16\0|
\ 1\0\83\ 1\0}
\ 3\0t
\17\0|
\ 1\0|
\ 2\0d
\b\0d
\a\0\83\ 4\0}
\v\0|
\0\0j
\18\0|
\0j
\19\0|
\v\0j
\1a\0|
\ 3\0\83\ 1\0d
\1c\0d
\1c\0\83\ 3\0\83\ 1\0\ 1d
\1e\0S("
\0\0\0sO
\0\0\0More and more difficult now look at how profiles are managed by "field" method.s
\r\0\0\0Pyfile105.medRÖ
\ 4\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0i
\b\0\0\0i
\a\0\0\0i
\ 6\0\0\0i
\ 5\0\0\0i
\0\0\0i
35239 +
\0\0\0R
\ 2\0\0i
\0\0\0\0i
\ 4\0\0\0i
\v\0\0\0id
\0\0\0ie
\0\0\0if
\0\0\0ig
\0\0\0ih
\0\0\0ii
\0\0\0ij
\0\0\0ik
\0\0\0R
\83\ 1\0\0i
\f\0\0\0i
\r\0\0\0g
\0\0\0\0\0\0\0@g
\11ê-
\81\99\97q=iÿÿÿÿN(
\ 3\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0(
\ 3\0\0\0i
\b\0\0\0i
\a\0\0\0i
\ 6\0\0\0(
\ 3\0\0\0i
\ 5\0\0\0i
\0\0\0i
35240 +
\0\0\0(
\1d\0\0\0R>
\0\0\0RY
\0\0\0R[
\0\0\0Rc
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0R
\v\0\0\0Rk
\0\0\0RB
\0\0\0Rq
\0\0\0RC
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0R{
\ 1\0\0R³
\0\0\0R°
\0\0\0Rd
\0\0\0Rô
\0\0\0R
\89\ 1\0\0R'
\0\0\0R(
\0\0\0Rà
\0\0\0R0
\0\0\0R1
\0\0\0R5
\ 4\0\0R©
\ 3\0\0R|
\ 1\0\0(
\ e\0\0\0R
\0\0\0R9
\ 1\0\0Rg
\ 3\0\0R
\86\0\0\0R
\ 3\ 2\0\0R
\83\0\0\0R
\83\ 1\0\0R
\85\0\0\0R
\17\ 3\0\0R
\b\0\0\0Rñ
\0\0\0Rú
\0\0\0Rá
\0\0\0R¢
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testMEDFileFieldEasyField5
\1d\15\0\0s\
\0\0\0\0\ 2\ 6\ 1\ 6\ 1 \ 1\15\ 1\ f\0\r\ 1
35241 +
\ 1\19\ 1\19\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1
35242 +
\ 1\10\ 1\18\0\r\ 1\10\0\13\ 2\18\ 1\f\0\r\0\r\ 1\r\0\13\0
35243 +
\ 1 \0\16\ 1\10\ 2\ f\0\15\ 1%
\ 2\ f\0\r\ 1
35244 +
\ 1\1c\ 1\1c\ 1 \ 1
35246 +
\ 2 \0\16\ 2\ f\0\15\ 1%
\ 1c
\ 1\0\0\0$
\0\0\0\11\0\0\0C
\0\0\0sC
\v\0\0t
\0\0d?
\0d@
\0dA
\0dB
\0dC
\0dD
\0dE
\0dF
\0dG
\0dH
\0dI
\0dJ
\0dK
\0dL
\0dM
\0g
\ f\0\83\ 1\0}
\ 1\0d
\ 6\0}
\ 2\0t
\ 1\0|
\ 2\0d
\ 3\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 2\0|
\ 1\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0\83\0\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\a\0d
\ 5\0d
\ 4\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\a\0d
\b\0d
\ 5\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\0d
35247 +
\0d
\a\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\0d
\v\0d
35248 +
\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 1\0d
\f\0d
\ 2\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 1\0d
\r\0d
\f\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\ 2\0d
\f\0d
\0d
\ 3\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\ 3\0d
\0d
\a\0d
\ 4\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\a\0d
35249 +
\0d
\ e\0d
\b\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\f\0d
\ f\0d
\v\0d
\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 4\0t
\ 6\0d
\r\0d
\10\0d
\ f\0d
\f\0g
\ 4\0\83\ 2\0\ 1t
\ 1\0|
\ 2\0d
\ 2\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 2\0|
\ 1\0\83\ 1\0\ 1|
\ 4\0j
\ 3\0\83\0\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
\10\0d
\r\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
\r\0d
\ 1\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
\ 1\0d
\ 2\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
\ 2\0d
\ 3\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
\ 3\0d
\ 4\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
\ 4\0d
\ 5\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
\ 5\0d
\b\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
\b\0d
\ e\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
\ e\0d
35250 +
\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
35251 +
\0d
\v\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
\v\0d
\ f\0g
\ 2\0\83\ 2\0\ 1|
\ 4\0j
\ 4\0t
\a\0d
\ f\0d
\10\0g
\ 2\0\83\ 2\0\ 1t
\b\0\83\0\0}
\ 5\0|
\ 3\0|
\ 5\0d
\ 1\0<|
\ 4\0|
\ 5\0d
\11\0<t
\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\f\0d
\0d
\a\0d
\v\0d
35253 +
\0\83\ 1\0}
\ 6\0i
\0\0}
\a\0t
\0d
\ 1\0d
\ 3\0d
\ 4\0d
\ 5\0d
\f\0d
\0g
\ 6\0\83\ 1\0|
\a\0d
\ 1\0<t
\0d
\ 3\0d
\ 4\0d
\ 5\0d
\r\0d
\b\0g
\ 5\0\83\ 1\0|
\a\0d
\11\0<t
35254 +
\0\83\0\0}
\b\0|
\0\0j
\v\0|
\ 5\0j
\f\0|
\a\0\83\ 1\0j
\r\0|
\ 6\0\83\ 1\0\83\ 1\0\ 1|
\ 6\0|
\a\0d
\ 2\0<d
\12\0}
\0t
\ e\0\83\0\0}
35256 +
\0\83\ 1\0\ 1dN
\0}
\v\0d
\14\0g
\ 1\0}
\f\0t
\0\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0g
\v\0\83\ 1\0}
\r\0|
\r\0j
\10\0|
\f\0\83\ 1\0\ 1t
\11\0t
\12\0\83\ 1\0}
\ e\0|
\ e\0j
\13\0|
\v\0\8c\0\0\ 1|
\ e\0j
\14\0|
\r\0\83\ 1\0\ 1|
\ e\0j
\15\0|
\ 3\0\83\ 1\0\ 1|
\ e\0j
\16\0|
\0\83\ 1\0\ 1t
\11\0t
\12\0\83\ 1\0}
\ f\0|
\ f\0j
\13\0|
\v\0\8c\0\0\ 1|
\ f\0j
\14\0t
\0\0d
\0d!
\0d"
\0d#
\0d$
\0d%
\0d&
\0d'
\0d(
\0d)
\0d*
\0d+
\0g
\f\0\83\ 1\0\83\ 1\0\ 1|
\ f\0j
\15\0|
\ 4\0\83\ 1\0\ 1|
\ f\0j
\16\0|
\0\83\ 1\0\ 1|
\ f\0j
\17\0\83\0\0j
\10\0|
\f\0\83\ 1\0\ 1t
\11\0t
\18\0\83\ 1\0}
\10\0|
\10\0j
\13\0|
\v\0\8c\0\0\ 1|
\10\0j
\14\0t
\0\0d,
\0d-
\0d.
\0d/
\0d0
\0d1
\0d2
\0d3
\0d4
\0d5
\0d6
\0d7
\0d8
\0d9
\0d:
\0g
\ f\0\83\ 1\0\83\ 1\0\ 1|
\10\0j
\15\0|
\ 3\0\83\ 1\0\ 1|
\10\0j
\16\0|
\0\83\ 1\0\ 1|
\10\0j
\17\0\83\0\0j
\10\0|
\f\0\83\ 1\0\ 1t
\19\0\83\0\0}
\11\0|
\11\0j
\1a\0|
\ e\0\83\ 1\0\ 1|
\11\0j
\1a\0|
\ f\0\83\ 1\0\ 1|
\11\0j
\1a\0|
\10\0\83\ 1\0\ 1|
35257 +
\0j
\e\0|
\11\0\83\ 1\0\ 1|
\ 5\0j
\1c\0|
\a\0\83\ 1\0}
\12\0|
\b\0j
\1c\0|
\a\0|
\ 5\0\83\ 2\0}
\13\0|
\0\0j
\1d\0t
\1e\0|
\13\0\83\ 1\0d
\ 2\0\83\ 2\0\ 1|
\13\0d
\ 1\0\19}
\14\0|
\0\0j
\1d\0t
\1e\0|
\14\0\83\ 1\0d
\ 2\0\83\ 2\0\ 1|
\14\0d
\ 1\0\19}
\11\0|
\0\0j
\1f\0t
\0|
\11\0j!
\0|
\12\0\83\ 3\0\ 1|
\0\0j
\v\0|
\12\0d
\ 1\0\19j"
\0\83\0\0j
\r\0|
\ 3\0|
\a\0d
\ 1\0\19\19j"
\0\83\0\0d;
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\v\0|
\12\0d
\11\0\19j"
\0\83\0\0j
\r\0|
\ 4\0|
\a\0d
\11\0\19\19j"
\0\83\0\0d;
\0\83\ 2\0\83\ 1\0\ 1|
\ 3\0j#
\0\83\0\0|
\a\0d
\ 1\0\19\19}
\15\0|
\15\0j$
\0|
\a\0d
\ 2\0\19j%
\0|
\ 5\0j&
\0\83\0\0\83\ 1\0t
\1e\0|
\a\0d
\ 2\0\19\83\ 1\0\83\ 2\0\ 1|
\15\0j
\16\0|
\ 3\0j'
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\v\0|
\12\0d
\ 1\0\19j
\r\0|
\15\0d;
\0\83\ 2\0\83\ 1\0\ 1|
\ 4\0j#
\0\83\0\0|
\a\0d
\11\0\19\19}
\16\0|
\16\0j$
\0|
\a\0d
\ 2\0\19j%
\0|
\ 5\0j&
\0\83\0\0\83\ 1\0t
\1e\0|
\a\0d
\ 2\0\19\83\ 1\0\83\ 2\0\ 1|
\16\0j
\16\0|
\ 3\0j'
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\v\0|
\12\0d
\ 1\0\19j
\r\0|
\15\0d;
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\v\0|
\12\0d
\11\0\19j
\r\0|
\16\0d;
\0\83\ 2\0\83\ 1\0\ 1|
\11\0j(
\0t
\12\0d
\ 1\0|
\12\0\83\ 3\0}
\17\0|
\17\0j)
\0\83\0\0\ 1|
\0\0j
\1d\0|
\17\0j*
\0\83\0\0t
\12\0\83\ 2\0\ 1|
\0\0j
\v\0|
\17\0j+
\0\83\0\0j
\r\0|
\15\0d;
\0\83\ 2\0\83\ 1\0\ 1t
\0\0d
\15\0d
\17\0d
\18\0d
\19\0d
\e\0d
\1c\0g
\ 6\0\83\ 1\0}
\18\0|
\18\0j
\10\0|
\f\0\83\ 1\0\ 1|
\0\0j
\v\0|
\17\0j
\17\0\83\0\0j
\r\0|
\18\0d;
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1d\0|
\17\0j,
\0\83\0\0t-
\0|
\v\0\83\ 1\0\83\ 2\0\ 1|
\11\0j(
\0t
\12\0d
\11\0|
\12\0\83\ 3\0}
\19\0|
\19\0j)
\0\83\0\0\ 1|
\0\0j
\1d\0|
\19\0j*
\0\83\0\0t
\12\0\83\ 2\0\ 1|
\0\0j
\v\0|
\19\0j+
\0\83\0\0j
\r\0|
\16\0d;
\0\83\ 2\0\83\ 1\0\ 1t
\0\0d"
\0d#
\0d$
\0d%
\0d)
\0g
\ 5\0\83\ 1\0}
\1a\0|
\1a\0j
\10\0|
\f\0\83\ 1\0\ 1|
\0\0j
\v\0|
\19\0j
\17\0\83\0\0j
\r\0|
\1a\0d;
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1d\0|
\19\0j,
\0\83\0\0t-
\0|
\v\0\83\ 1\0\83\ 2\0\ 1|
\11\0j(
\0t
\18\0d
\ 1\0|
\12\0\83\ 3\0}
\e\0|
\e\0j)
\0\83\0\0\ 1t
\0\0d,
\0d-
\0d.
\0d/
\0d0
\0d2
\0d3
\0d4
\0d8
\0d9
\0g
35258 +
\0\83\ 1\0}
\1c\0|
\1c\0j
\10\0|
\f\0\83\ 1\0\ 1|
\0\0j
\v\0|
\e\0j
\17\0\83\0\0j
\r\0|
\1c\0d;
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1d\0|
\e\0j,
\0\83\0\0t-
\0|
\v\0\83\ 1\0\83\ 2\0\ 1t
35259 +
\0\83\0\0}
\b\0t
\ e\0\83\0\0}
35261 +
\0\83\ 1\0\ 1dO
\0dP
\0dQ
\0g
\ 3\0}
\1d\0x
\9e\0t.
\0|
\1d\0\83\ 1\0D]
\90\0\
\ 2\0}
\1e\0}
\1f\0t
\11\0t
\12\0\83\ 1\0}
\ e\0|
\ e\0j
\13\0|
\1f\0\8c\0\0\ 1|
\r\0|
\1e\0d>
\0\14\17}
\0|
\ e\0j
\14\0|
\0\83\ 1\0\ 1|
\ e\0j
\15\0|
\ 3\0\83\ 1\0\ 1|
\ e\0j
\16\0|
\0\83\ 1\0\ 1|
\ e\0j
\17\0\83\0\0j
\10\0|
\f\0\83\ 1\0\ 1t
\19\0\83\0\0}
\11\0|
\11\0j
\1a\0|
\ e\0\83\ 1\0\ 1|
35262 +
\0j
\e\0|
\11\0\83\ 1\0\ 1qo W|
\b\0j
\1c\0|
\a\0|
\ 5\0\83\ 2\0}!
\0|
\0\0j
\1d\0t
\1e\0|!
\0\83\ 1\0d
\ 2\0\83\ 2\0\ 1|!
\0d
\ 1\0\19}
\14\0|
\0\0j
\1d\0t
\1e\0|
\14\0\83\ 1\0t
\1e\0|
\1d\0\83\ 1\0\83\ 2\0\ 1xë
\0t.
\0t/
\0|
\14\0|
\1d\0\83\ 2\0\83\ 1\0D]Ô
\0\
\ 2\0}
\1e\0\
\ 2\0}"
\0}
\1f\0|"
\0j!
\0|
\12\0\83\ 1\0}#
\0|#
\0j)
\0\83\0\0\ 1|
\0\0j
\1d\0|#
\0j*
\0\83\0\0t
\12\0\83\ 2\0\ 1t
\0\0d
\15\0d
\17\0d
\18\0d
\19\0d
\e\0d
\1c\0g
\ 6\0\83\ 1\0}
\18\0|
\18\0j
\10\0|
\f\0\83\ 1\0\ 1|
\18\0|
\1e\0d>
\0\147}
\18\0|
\0\0j
\v\0|#
\0j+
\0\83\0\0j
\r\0|
\15\0d;
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\v\0|#
\0j
\17\0\83\0\0j
\r\0|
\18\0d;
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\1d\0|#
\0j,
\0\83\0\0t-
\0|
\1f\0\83\ 1\0\83\ 2\0\ 1qg
35263 +Wd
\0\0S(R
\0\0\0Ni
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0R
\ 2\0\0i
\b\0\0\0i
\0\0\0i
\a\0\0\0i
\r\0\0\0i
\f\0\0\0i
\ 6\0\0\0i
\ 5\0\0\0i
\ e\0\0\0i
\v\0\0\0i
35264 +
\0\0\0iÿÿÿÿt
\ 6\0\0\0Field0g
\0\0\0\0\0\800@s
\b\0\0\0toto [m]id
\0\0\0ie
\0\0\0if
\0\0\0ig
\0\0\0ih
\0\0\0ii
\0\0\0ij
\0\0\0ik
\0\0\0il
\0\0\0im
\0\0\0in
\0\0\0iÈ
\0\0\0iÉ
\0\0\0iÊ
\0\0\0iË
\0\0\0iÌ
\0\0\0iÍ
\0\0\0iÎ
\0\0\0iÏ
\0\0\0iÐ
\0\0\0iÑ
\0\0\0iÒ
\0\0\0iÓ
\0\0\0i,
\ 1\0\0i-
\ 1\0\0i.
\ 1\0\0i/
\ 1\0\0i0
\ 1\0\0i1
\ 1\0\0i2
\ 1\0\0i3
\ 1\0\0i4
\ 1\0\0i5
\ 1\0\0i6
\ 1\0\0i7
\ 1\0\0i8
\ 1\0\0i9
\ 1\0\0i:
\ 1\0\0g
\11ê-
\81\99\97q=g
\0\0\0\0\0\801@g
\0\0\0\0\0\802@g
\0\0\0\0\0@
\8f@(
\ 2\0\0\0i
\0\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 2\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\ 2\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\ 1\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 2\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\ 2\0\0\0(
\ 3\0\0\0g
\0\0\0\0\0\800@i
\ 3\0\0\0i
\ 4\0\0\0(
\ 3\0\0\0g
\0\0\0\0\0\800@i
\ 3\0\0\0i
\ 4\0\0\0(
\ 3\0\0\0g
\0\0\0\0\0\801@i
\ 4\0\0\0i
\ 5\0\0\0(
\ 3\0\0\0g
\0\0\0\0\0\802@i
\ 5\0\0\0i
\ 6\0\0\0(0
\0\0\0RY
\0\0\0R[
\0\0\0Rc
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0Re
\0\0\0R>
\0\0\0Rk
\0\0\0R[
\ 1\0\0R0
\0\0\0t
\0\0\0deduceNodeSubPartFromCellSubPartR1
\0\0\0Rô
\0\0\0R\
\ 1\0\0RÃ
\ 1\0\0Rw
\ 1\0\0R
\13\ 1\0\0R°
\0\0\0R{
\ 1\0\0R³
\0\0\0RB
\0\0\0R)
\ 1\0\0R
\1c\ 1\0\0Rà
\0\0\0R%
\ 1\0\0RE
\ 3\0\0t
\v\0\0\0extractPartR+
\0\0\0Ry
\0\0\0R)
\0\0\0R*
\0\0\0R5
\ 4\0\0R
\99\ 4\0\0Rq
\0\0\0t
\r\0\0\0renumberNodest
\12\0\0\0invertArrayN2O2O2NRÐ
\ 1\0\0RC
\0\0\0R
\97\ 1\0\0Rd
\0\0\0RÎ
\ 1\0\0R¹
\0\0\0Rº
\0\0\0Rm
\0\0\0Rõ
\0\0\0RS
\ 1\0\0($
\0\0\0R
\0\0\0R
\ 3\ 2\0\0RÊ
\ 3\0\0Rá
\0\0\0R
\84\0\0\0R
\86\0\0\0R
\17\ 3\0\0t
\ 3\0\0\0tabRl
\ 1\0\0t
\ 6\0\0\0fname0Rm
\ 1\0\0t
\ 2\0\0\0t0t
\ 2\0\0\0ict
\ 6\0\0\0arr0_0Rä
\0\0\0Rã
\0\0\0Râ
\0\0\0Rú
\0\0\0t
\ 5\0\0\0mmOutt
\a\0\0\0fsPart0t
\ 5\0\0\0fmtsPt
\ 6\0\0\0m0Partt
\ 6\0\0\0m1Partt
\ 6\0\0\0f0Partt
\a\0\0\0arr0Expt
\ 6\0\0\0f1Partt
\a\0\0\0arr1Expt
\ 6\0\0\0f2Partt
\a\0\0\0arr2Expt
\ 3\0\0\0tssRî
\0\0\0R¾
\0\0\0t
\ 5\0\0\0myarrt
\a\0\0\0fsPart1t
\ 5\0\0\0f1tsPt
\ 5\0\0\0fPart(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\10\0\0\0testExtractPart1F
\15\0\0s
\1c\ 1\0\0\0\ 19
\ 1\ 6\ 1\ f\0\r\0
35265 +
\ 1\19\ 1\19\ 1\19\ 1\19\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 2\ f\0\r\0
35266 +
\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1\16\ 1 \ 1
35268 +
\ 1*
\ 1\ 6\ 1"
\ 1\1f\ 1 \ 1\1f\ 1
35269 +
\ 2\ 6\ 1 \0\r\ 1\ 6\ 1 \ 1-
\0\r\ 1\f\0\r\0\r\ 1\r\0\r\ 1\f\0\r\07
\ 1\r\0\r\0\13\ 1\f\0\r\0@
\ 1\r\0\r\0\13\ 1 \0\r\0\r\0\r\ 1\r\ 2\ f\ 2\12\ 1\16\ 1
35271 +
\ 1\16\ 21
\ 11
\ 2\14\0-
\0\13\ 1\1d\ 1\14\0-
\0\13\ 1\1d\ 1\1d\ 2\15\0
35272 +
\ 1\16\ 1\1f\ 1\1e\0\r\ 1\1f\0\1c\ 1\15\0
35273 +
\ 1\16\ 1\1f\ 1\e\0\r\ 1\1f\0\1c\ 2\15\0
35274 +
\ 1*
\0\r\ 1\1f\0\1c\ 2 \0 \0\r\ 1\ f\ 1\19\ 1\f\0\r\ 1\ e\ 1\r\ 1\r\0\r\0\13\ 1 \0\r\0\r\ 1\ 4\ 1\12\ 1\16\ 1
35275 +
\ 1\1c\ 1(
\ 1\ f\0
35276 +
\ 1\16\ 1\1e\0\r\0\ e\ 1\1f\ 1\1f\ 1\1c\ 1\ 4\ 1c
\ 1\0\0\0!
\0\0\0\10\0\0\0\ 3\0\0\0sª
\f\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0d
\ 3\0}
\ 3\0d
\ 4\0}
\ 4\0t
\0\0\83\0\0}
\ 5\0t
\ 1\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
35277 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0g
\f\0d
\0d
\b\0\83\ 3\0}
\ 6\0|
\ 6\0j
\ 2\0d
\11\0d
\12\0d
\13\0g
\ 3\0\83\ 1\0\ 1|
\ 5\0j
\ 3\0|
\ 6\0\83\ 1\0\ 1t
\ 4\0|
\ 4\0d
\b\0\83\ 2\0}
\a\0|
\a\0j
\ 5\0\83\0\0\ 1|
\a\0j
\ 3\0|
\ 6\0\83\ 1\0\ 1|
\a\0j
\ 6\0t
\a\0d
\14\0d
\ 5\0d
\ 6\0d
\b\0g
\ 4\0\83\ 2\0\ 1|
\a\0j
\ 6\0t
\a\0d
\0d
\v\0d
\f\0d
\ e\0g
\ 4\0\83\ 2\0\ 1|
\a\0j
\ 6\0t
\b\0d
\ f\0d
\15\0d
\a\0d
35278 +
\0d
\r\0d
\10\0g
\ 6\0\83\ 2\0\ 1|
\a\0j
\ 6\0t
\b\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0g
\ 6\0\83\ 2\0\ 1|
\a\0j
\ 6\0t
\b\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0g
\ 6\0\83\ 2\0\ 1|
\a\0|
\ 5\0d
\14\0<|
\ 5\0j
\0d
\14\0t
35279 +
\0d
\ 5\0d
\ 6\0d
\b\0d
\0d
\v\0g
\ 5\0\83\ 1\0\83\ 2\0\ 1|
\ 5\0j
\v\0d
\14\0t
35281 +
\0d
\r\0d
\10\0d
\16\0d
\17\0g
\ 5\0\83\ 1\0\83\ 2\0\ 1t
\ 4\0|
\ 4\0d
\ 6\0\83\ 2\0}
\b\0|
\b\0j
\ 5\0\83\0\0\ 1|
\b\0j
\ 3\0|
\ 6\0\83\ 1\0\ 1|
\b\0j
\ 6\0t
\f\0d
\14\0d
\ 5\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\b\0j
\ 6\0t
\f\0d
\b\0d
\0d
\v\0g
\ 3\0\83\ 2\0\ 1|
\b\0j
\ 6\0t
\r\0d
\f\0d
\ e\0d
\ f\0d
\15\0g
\ 4\0\83\ 2\0\ 1|
\b\0j
\ 6\0t
\r\0d
\a\0d
35282 +
\0d
\r\0d
\10\0g
\ 4\0\83\ 2\0\ 1|
\b\0j
\ 6\0t
\r\0d
\16\0d
\17\0d
\18\0d
\19\0g
\ 4\0\83\ 2\0\ 1|
\b\0j
\ 6\0t
\r\0d
\1a\0d
\e\0d
\1c\0d
\1d\0g
\ 4\0\83\ 2\0\ 1|
\b\0|
\ 5\0d"
\0<|
\ 5\0j
\0d"
\0t
35283 +
\0d
\f\0d
\ e\0d
\ f\0d
\15\0d
\a\0d
35284 +
\0g
\ 6\0\83\ 1\0\83\ 2\0\ 1|
\ 5\0j
\v\0d"
\0t
35285 +
\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0g
\ 6\0\83\ 1\0\83\ 2\0\ 1x+
\0t
\ e\0d
\ 5\0d
\a\0\83\ 2\0D]
\1a\0}
\0|
\ 5\0j
\ f\0d#
\0|
\0\16|
\0\83\ 2\0\ 1qÄ
\ 2W|
\ 5\0j
\ f\0d$
\0d
\14\0\83\ 2\0\ 1|
\ 5\0j
\ f\0d%
\0d&
\0\83\ 2\0\ 1|
\ 5\0j
\10\0d'
\0d(
\0d)
\0g
\ 2\0\83\ 2\0\ 1|
\ 5\0j
\10\0d*
\0d(
\0d)
\0g
\ 2\0\83\ 2\0\ 1|
\ 5\0j
\0d
\ 5\0t
35286 +
\0d
\r\0d
\10\0d
\16\0d
\17\0g
\ 4\0\83\ 1\0\83\ 2\0\ 1|
\ 5\0j
\v\0d
\ 5\0t
35287 +
\0d
\1e\0d
\1f\0d
\0d!
\0g
\ 4\0\83\ 1\0\83\ 2\0\ 1t
\0\0\83\0\0}
35288 +
\0t
\ 1\0d
\15\0d
\a\0d+
\0d
35289 +
\0d
\r\0d,
\0d
\10\0d
\16\0d-
\0d
\17\0d
\18\0d.
\0d
\19\0d
\1a\0d/
\0g
\ f\0d
\v\0d
\b\0\83\ 3\0}
\ 6\0|
\ 6\0j
\ 2\0d
\11\0d
\12\0d
\13\0g
\ 3\0\83\ 1\0\ 1|
35290 +
\0j
\ 3\0|
\ 6\0\83\ 1\0\ 1t
\ 4\0|
\ 4\0d
\b\0\83\ 2\0}
\v\0|
\v\0j
\ 5\0\83\0\0\ 1|
\v\0j
\ 3\0|
\ 6\0\83\ 1\0\ 1|
\v\0j
\ 6\0t
\a\0d&
\0d0
\0d1
\0d2
\0g
\ 4\0\83\ 2\0\ 1|
\v\0j
\ 6\0t
\a\0d3
\0d4
\0d5
\0d6
\0g
\ 4\0\83\ 2\0\ 1|
\v\0j
\ 6\0t
\a\0d7
\0d8
\0d9
\0d:
\0g
\ 4\0\83\ 2\0\ 1|
\v\0j
\ 6\0t
\b\0d;
\0d<
\0d=
\0d>
\0d?
\0d@
\0g
\ 6\0\83\ 2\0\ 1|
\v\0|
35293 +
\0dA
\0dB
\0dC
\0dD
\0g
\ 4\0\83\ 1\0\83\ 2\0\ 1|
35295 +
\0dE
\0dF
\0dG
\0dH
\0g
\ 4\0\83\ 1\0\83\ 2\0\ 1t
\ 4\0|
\ 4\0d
\ 6\0\83\ 2\0}
\f\0|
\f\0j
\ 5\0\83\0\0\ 1|
\f\0j
\ 3\0|
\ 6\0\83\ 1\0\ 1|
\f\0j
\ 6\0t
\f\0d&
\0d0
\0d1
\0g
\ 3\0\83\ 2\0\ 1|
\f\0j
\ 6\0t
\f\0d2
\0d3
\0d4
\0g
\ 3\0\83\ 2\0\ 1|
\f\0j
\ 6\0t
\f\0d5
\0d6
\0d7
\0g
\ 3\0\83\ 2\0\ 1|
\f\0j
\ 6\0t
\r\0d8
\0d9
\0d:
\0d;
\0g
\ 4\0\83\ 2\0\ 1|
\f\0j
\ 6\0t
\r\0d<
\0d=
\0d>
\0d?
\0g
\ 4\0\83\ 2\0\ 1|
\f\0j
\ 6\0t
\r\0d@
\0dI
\0dJ
\0dK
\0g
\ 4\0\83\ 2\0\ 1|
\f\0j
\ 6\0t
\r\0dL
\0dM
\0dN
\0dO
\0g
\ 4\0\83\ 2\0\ 1|
\f\0j
\ 6\0t
\r\0dP
\0dQ
\0dR
\0dS
\0g
\ 4\0\83\ 2\0\ 1|
\f\0|
35298 +
\0dT
\0dU
\0dV
\0dW
\0dX
\0dY
\0dZ
\0d[
\0g
\b\0\83\ 1\0\83\ 2\0\ 1|
35300 +
\0d\
\0d]
\0d^
\0d_
\0d`
\0da
\0db
\0dc
\0g
\b\0\83\ 1\0\83\ 2\0\ 1x/
\0t
\ e\0d
\ 5\0d
\r\0\83\ 2\0D]
\1e\0}
\0|
35301 +
\0j
\ f\0dd
\0|
\0\16|
\0d+
\0\17\83\ 2\0\ 1q:
\ 6W|
35302 +
\0j
\ f\0d%
\0d&
\0\83\ 2\0\ 1|
35303 +
\0j
\ f\0d$
\0d
\14\0\83\ 2\0\ 1|
35304 +
\0j
\10\0d'
\0de
\0df
\0g
\ 2\0\83\ 2\0\ 1|
35305 +
\0j
\10\0dg
\0dh
\0di
\0g
\ 2\0\83\ 2\0\ 1|
35307 +
\0d;
\0d<
\0d=
\0d>
\0d?
\0g
\ 5\0\83\ 1\0\83\ 2\0\ 1|
35309 +
\0dM
\0dN
\0dO
\0dP
\0dQ
\0g
\ 5\0\83\ 1\0\83\ 2\0\ 1t
\0\0j
\11\0|
\ 5\0|
35310 +
\0g
\ 2\0\83\ 1\0}
\r\0dj
\0\84\0\0\89\0\0\88\0\0\88\a\0|
\r\0\83\ 2\0\ 1dk
\0}
\ e\0d
\91\0}
\ f\0d
\92\0\89\b\0dn
\0do
\0g
\ 2\0}
\10\0t
\12\0\83\0\0}
\11\0t
\13\0\83\0\0}
\12\0t
\14\0t
\15\0\83\ 1\0\89\ 1\0\88\ 1\0j
\16\0|
\ 5\0d
\14\0\19\83\ 1\0\ 1\88\ 1\0j
\17\0|
\ e\0\83\ 1\0\ 1t
\ 1\0d
\93\0d
\94\0d
\95\0d
\96\0d
\97\0g
\ 5\0\83\ 1\0}
\13\0|
\13\0j
\ 2\0|
\10\0\83\ 1\0\ 1\88\ 1\0j
\18\0|
\13\0\83\ 1\0\ 1\88\ 1\0j
\19\0|
\ f\0\8c\0\0\ 1\88\ 1\0j
\1a\0dp
\0\83\ 1\0\ 1\88\ 1\0j
\e\0\83\0\0\ 1|
\12\0j
\1c\0\88\ 1\0\83\ 1\0\ 1t
\14\0t
\15\0\83\ 1\0\89\ 2\0\88\ 2\0j
\16\0|
\ 5\0d"
\0\19\83\ 1\0\ 1\88\ 2\0j
\17\0|
\ e\0\83\ 1\0\ 1t
\ 1\0d
\98\0d
\99\0d
\9a\0d
\9b\0d
\9c\0d
\9d\0g
\ 6\0\83\ 1\0}
\14\0|
\14\0j
\ 2\0|
\10\0\83\ 1\0\ 1\88\ 2\0j
\18\0|
\14\0\83\ 1\0\ 1\88\ 2\0j
\19\0|
\ f\0\8c\0\0\ 1\88\ 2\0j
\1a\0dp
\0\83\ 1\0\ 1\88\ 2\0j
\e\0\83\0\0\ 1|
\12\0j
\1c\0\88\ 2\0\83\ 1\0\ 1t
\14\0t
\1d\0\83\ 1\0\89\ 3\0\88\ 3\0j
\16\0|
\ 5\0d
\14\0\19\83\ 1\0\ 1\88\ 3\0j
\17\0|
\ e\0\83\ 1\0\ 1t
\ 1\0d
\9e\0d
\9f\0d
\0d¡
\0g
\ 4\0\83\ 1\0}
\15\0|
\15\0j
\ 2\0|
\10\0\83\ 1\0\ 1\88\ 3\0j
\18\0|
\15\0\83\ 1\0\ 1\88\ 3\0j
\19\0|
\ f\0\8c\0\0\ 1\88\ 3\0j
\1a\0dp
\0\83\ 1\0\ 1\88\ 3\0j
\e\0\83\0\0\ 1|
\12\0j
\1c\0\88\ 3\0\83\ 1\0\ 1|
\11\0j
\1e\0|
\12\0\83\ 1\0\ 1|
\12\0j
\1f\0\83\0\0}
\16\0|
\16\0j
\19\0\88\b\0d
\ 5\0\19\88\b\0d
\ 6\0\19\88\b\0d
\14\0\19\83\ 3\0\ 1|
\16\0j
\0\83\0\0\ 4\1edq
\07
\ 2(|
\11\0j
\1e\0|
\16\0\83\ 1\0\ 1t
\12\0\83\0\0}
\17\0t
\13\0\83\0\0}
\18\0t
\14\0t
\15\0\83\ 1\0\89\ 4\0\88\ 4\0j
\16\0|
35311 +
\0d
\14\0\19\83\ 1\0\ 1\88\ 4\0j
\17\0|
\ e\0\83\ 1\0\ 1t
\ 1\0d¢
\0d£
\0d¤
\0d¥
\0g
\ 4\0\83\ 1\0}
\19\0|
\19\0j
\ 2\0|
\10\0\83\ 1\0\ 1\88\ 4\0j
\18\0|
\19\0\83\ 1\0\ 1\88\ 4\0j
\19\0|
\ f\0\8c\0\0\ 1\88\ 4\0j
\1a\0dp
\0\83\ 1\0\ 1\88\ 4\0j
\e\0\83\0\0\ 1|
\18\0j
\1c\0\88\ 4\0\83\ 1\0\ 1t
\14\0t
\15\0\83\ 1\0\89\ 5\0\88\ 5\0j
\16\0|
35312 +
\0d"
\0\19\83\ 1\0\ 1\88\ 5\0j
\17\0|
\ e\0\83\ 1\0\ 1t
\ 1\0d¦
\0d§
\0d¨
\0d©
\0dª
\0d«
\0d¬
\0d
\0g
\b\0\83\ 1\0}
\1a\0|
\1a\0j
\ 2\0|
\10\0\83\ 1\0\ 1\88\ 5\0j
\18\0|
\1a\0\83\ 1\0\ 1\88\ 5\0j
\19\0|
\ f\0\8c\0\0\ 1\88\ 5\0j
\1a\0dp
\0\83\ 1\0\ 1\88\ 5\0j
\e\0\83\0\0\ 1|
\18\0j
\1c\0\88\ 5\0\83\ 1\0\ 1t
\14\0t
\1d\0\83\ 1\0\89\ 6\0\88\ 6\0j
\16\0|
35313 +
\0d
\14\0\19\83\ 1\0\ 1\88\ 6\0j
\17\0|
\ e\0\83\ 1\0\ 1t
\ 1\0d®
\0d¯
\0d°
\0d±
\0d²
\0g
\ 5\0\83\ 1\0}
\e\0|
\e\0j
\ 2\0|
\10\0\83\ 1\0\ 1\88\ 6\0j
\18\0|
\e\0\83\ 1\0\ 1\88\ 6\0j
\19\0|
\ f\0\8c\0\0\ 1\88\ 6\0j
\1a\0dp
\0\83\ 1\0\ 1\88\ 6\0j
\e\0\83\0\0\ 1|
\18\0j
\1c\0\88\ 6\0\83\ 1\0\ 1|
\17\0j
\1e\0|
\18\0\83\ 1\0\ 1|
\18\0j
\1f\0\83\0\0}
\1c\0|
\1c\0j
\19\0\88\b\0d
\ 5\0\19\88\b\0d
\ 6\0\19\88\b\0d
\14\0\19\83\ 3\0\ 1|
\1c\0j
\0\83\0\0\ 4\1edq
\07
\ 2(|
\17\0j
\1e\0|
\1c\0\83\ 1\0\ 1t!
\0\83\0\0}
\1d\0|
\1d\0j"
\0t#
\0\83\0\0\83\ 1\0\ 1|
\1d\0j$
\0\83\0\0j%
\0|
\ 5\0\83\ 1\0\ 1|
\1d\0j&
\0t'
\0\83\0\0\83\ 1\0\ 1|
\1d\0j(
\0\83\0\0j)
\0|
\11\0\83\ 1\0\ 1t!
\0\83\0\0}
\1e\0|
\1e\0j"
\0t#
\0\83\0\0\83\ 1\0\ 1|
\1e\0j$
\0\83\0\0j%
\0|
35314 +
\0\83\ 1\0\ 1|
\1e\0j&
\0t'
\0\83\0\0\83\ 1\0\ 1|
\1e\0j(
\0\83\0\0j)
\0|
\17\0\83\ 1\0\ 1t!
\0j
\11\0|
\1d\0|
\1e\0g
\ 2\0\83\ 1\0}
\1f\0\87\0\0\87\ 1\0\87\ 2\0\87\ 3\0\87\ 4\0\87\ 5\0\87\ 6\0\87\a\0\87\b\0f
\0d
\8f\0\86\0\0}
\0|
\0\88\a\0|
\1f\0\83\ 2\0\ 1|
\1d\0j*
\0|
\ 1\0d
\ 6\0\83\ 2\0\ 1|
\1e\0j*
\0|
\ 2\0d
\ 6\0\83\ 2\0\ 1t!
\0j
\11\0t!
\0|
\ 1\0\83\ 1\0t!
\0|
\ 2\0\83\ 1\0g
\ 2\0\83\ 1\0}
\1f\0|
\0\88\a\0|
\1f\0\83\ 2\0\ 1d
\90\0S(³
\0\0\0sj
\0\0\0 Testing of MEDFileData::Aggregate and MEDFileUMesh::Aggregate and MEDFileUMesh::getAllDistributionOfType s
\ f\0\0\0Pyfile106_1.meds
\ f\0\0\0Pyfile106_2.meds
\ f\0\0\0Pyfile106_3.medR
\ 2\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
35315 +
\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\v\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\f\0\0\0i
\a\0\0\0i
\b\0\0\0i
\r\0\0\0s
\ 6\0\0\0aa [m]s
\b\0\0\0bbb [kg]s
\0\0\0cccc [MW]i
\0\0\0\0i
\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\19\0\0\0iÿÿÿÿs
\ 3\0\0\0F%dR
\9a\ 2\0\0t
\ 2\0\0\0H1id
\0\0\0t
\ 5\0\0\0myGRPR
\85\ 1\0\0t
\ 2\0\0\0F6t
\ 6\0\0\0myGRP1i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0ie
\0\0\0if
\0\0\0ig
\0\0\0ih
\0\0\0ii
\0\0\0ij
\0\0\0ik
\0\0\0il
\0\0\0im
\0\0\0in
\0\0\0io
\0\0\0ip
\0\0\0iq
\0\0\0ir
\0\0\0is
\0\0\0it
\0\0\0iu
\0\0\0i(
\0\0\0i)
\0\0\0i*
\0\0\0i+
\0\0\0i2
\0\0\0i3
\0\0\0i4
\0\0\0i5
\0\0\0iv
\0\0\0iw
\0\0\0ix
\0\0\0iy
\0\0\0iz
\0\0\0i{
\0\0\0i|
\0\0\0i}
\0\0\0i~
\0\0\0i
\7f\0\0\0i
\80\0\0\0iÈ
\0\0\0iÉ
\0\0\0iÊ
\0\0\0iË
\0\0\0iÌ
\0\0\0iÍ
\0\0\0iÎ
\0\0\0iÏ
\0\0\0i,
\ 1\0\0i-
\ 1\0\0i.
\ 1\0\0i/
\ 1\0\0i0
\ 1\0\0i1
\ 1\0\0i2
\ 1\0\0i3
\ 1\0\0s
\ 3\0\0\0G%dRW
\0\0\0t
\ 2\0\0\0G6t
\ 6\0\0\0myGRP2t
\ 2\0\0\0G4t
\ 2\0\0\0G7c
\ 2\0\0\0\ 5\0\0\0D
\0\0\0S
\0\0\0sò
\ 4\0\0t
\0\0d~
\0d
\7f\0d
\80\0d
\81\0d
\82\0d
\83\0d
\84\0d
\85\0d
\86\0g
\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 1\0d
\18\0d
\19\0d
\1a\0g
\ 3\0\83\ 1\0\ 1|
\0\0j
\ 2\0|
\ 1\0j
\ 3\0\83\0\0j
\ 4\0|
\ 2\0d
\e\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ 2\0|
\ 1\0d
\1c\0\19j
\ 5\0\83\0\0j
\ 4\0t
\ 6\0d
\10\0d
\1c\0d
\ 1\0d
\ 2\0d
\ 4\0d
\10\0d
\ 5\0d
\a\0d
\b\0d
35316 +
\0d
\10\0d
\1d\0d
\1e\0d
\1f\0d
\0d
\10\0d!
\0d"
\0d#
\0d$
\0d
\10\0d%
\0d&
\0d'
\0d(
\0d
\13\0d
\v\0d
\r\0d
\ 3\0d
\ 6\0d
\0d
\f\0d
\13\0d
\10\0d
\12\0d
\13\0d
\15\0d
\16\0d)
\0d
\13\0d*
\0d+
\0d,
\0d-
\0d.
\0d/
\0d
\13\0d0
\0d1
\0d2
\0d3
\0d4
\0d5
\0g5
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 2\0|
\ 1\0d
\1c\0\19j
\a\0\83\0\0j
\ 4\0t
\ 6\0d
\1c\0d
\a\0d
\ 3\0d
\12\0d*
\0d/
\0d
\11\0d6
\0d7
\0d8
\0g
35317 +
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 2\0|
\ 1\0d9
\0\19j
\ 5\0\83\0\0j
\ 4\0t
\ 6\0d
\ 4\0d
\1c\0d
\ 1\0d
\ 2\0d
\ 4\0d
\ 4\0d
\ 5\0d
\a\0d
\ 4\0d
\1d\0d
\1e\0d
\1f\0d
\ 4\0d
\0d!
\0d"
\0d
\ 4\0d#
\0d$
\0d%
\0d
\ 5\0d
\b\0d
35318 +
\0d
\v\0d
\r\0d
\ 5\0d
\ 3\0d
\ 6\0d
\0d
\f\0d
\ 5\0d
\10\0d
\12\0d
\13\0d
\15\0d
\ 5\0d
\16\0d)
\0d*
\0d+
\0d
\ 5\0d&
\0d'
\0d(
\0d0
\0d
\ 5\0d1
\0d2
\0d3
\0d4
\0d
\ 5\0d5
\0d:
\0d;
\0d<
\0d
\ 5\0d=
\0d>
\0d?
\0d@
\0d
\ 5\0dA
\0dB
\0dC
\0dD
\0gA
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 2\0|
\ 1\0d9
\0\19j
\a\0\83\0\0j
\ 4\0t
\ 6\0d
\1c\0d
\ 5\0d
\v\0d
\0d
\13\0d*
\0d/
\0d
\ e\0dE
\0dF
\0dG
\0dH
\0dI
\0dJ
\0dK
\0g
\ f\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 2\0|
\ 1\0j
\b\0d
\1c\0\83\ 1\0j
\ 4\0t
\ 6\0d
\ 1\0d
\ 2\0dF
\0dL
\0dM
\0d
\ 4\0d
\ 5\0d
\a\0dN
\0g
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 2\0|
\ 1\0j
\0d
\1c\0\83\ 1\0j
\ 4\0t
\ 6\0d
\ 6\0d
\0dH
\0dO
\0dP
\0d
\f\0d
\10\0d
\12\0d8
\0g
\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 2\0|
\ 1\0j
\b\0d9
\0\83\ 1\0j
\ 4\0t
\ 6\0d
\b\0d
35319 +
\0dQ
\0dR
\0dS
\0d
\v\0d
\r\0d
\ 3\0d
\ 6\0dT
\0dU
\0dV
\0dW
\0dX
\0g
\ e\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 2\0|
\ 1\0j
\0d9
\0\83\ 1\0j
\ 4\0t
\ 6\0d
\13\0d
\15\0dY
\0dZ
\0d[
\0d
\16\0d)
\0d*
\0d+
\0d\
\0d]
\0d^
\0d_
\0d`
\0g
\ e\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1d
\87\0d
\88\0d
\89\0d
\8a\0d
\8b\0d
\8c\0d
\8d\0d
\8e\0d
\8f\0d
\90\0d
\91\0d
\92\0d
\93\0d
\94\0d
\95\0d
\96\0d
\97\0d
\98\0d
\99\0d
\9a\0d
\9b\0d
\9c\0g
\16\0}
\ 3\0|
\0\0j
35320 +
\0t
\v\0|
\ 1\0j
\f\0\83\0\0\83\ 1\0t
\v\0g
\0\0|
\ 3\0D]
\10\0}
\ 4\0|
\ 4\0d
\1c\0\19^
\ 2\0q&
\ 4\83\ 1\0\83\ 2\0\ 1|
\0\0j
35321 +
\0t
\v\0g
\0\0|
\ 1\0j
\f\0\83\0\0D]
\15\0}
\ 4\0|
\ 1\0j
\r\0|
\ 4\0\83\ 1\0^
\ 2\0qV
\ 4\83\ 1\0t
\v\0g
\0\0|
\ 3\0D]
\10\0}
\ 4\0|
\ 4\0d
\ 1\0\19^
\ 2\0q{
\ 4\83\ 1\0\83\ 2\0\ 1|
\0\0j
35322 +
\0|
\ 1\0j
\ e\0\83\0\0d
\9d\0\83\ 2\0\ 1|
\0\0j
35323 +
\0|
\ 1\0j
\ f\0\83\0\0t
\10\0d
\a\0f
\ 2\0t
\11\0d
\r\0f
\ 2\0t
\12\0d
\a\0f
\ 2\0t
\13\0d
\ 5\0f
\ 2\0t
\14\0d
\r\0f
\ 2\0g
\ 5\0\83\ 2\0\ 1d
\0\0S(
\9e\0\0\0Ni
\ 1\0\0\0i
\ 2\0\0\0i
35324 +
\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\v\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\f\0\0\0i
\a\0\0\0i
\b\0\0\0i
\r\0\0\0i
\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\ e\0\0\0i
\0\0\0i
\ f\0\0\0i
\10\0\0\0i!
\0\0\0i
\11\0\0\0i
\12\0\0\0i"
\0\0\0s
\ 6\0\0\0aa [m]s
\b\0\0\0bbb [kg]s
\0\0\0cccc [MW]g
\11ê-
\81\99\97q=i
\0\0\0\0ih
\0\0\0ii
\0\0\0ij
\0\0\0ik
\0\0\0il
\0\0\0im
\0\0\0in
\0\0\0io
\0\0\0ip
\0\0\0iq
\0\0\0ir
\0\0\0is
\0\0\0i
\13\0\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\19\0\0\0it
\0\0\0iu
\0\0\0iv
\0\0\0iw
\0\0\0ix
\0\0\0iy
\0\0\0i'
\0\0\0i.
\0\0\0i5
\0\0\0iÿÿÿÿiz
\0\0\0i{
\0\0\0i|
\0\0\0i}
\0\0\0i~
\0\0\0i
\7f\0\0\0i
\80\0\0\0i
\81\0\0\0i
\82\0\0\0i
\83\0\0\0i
\84\0\0\0i#
\0\0\0i(
\0\0\0i-
\0\0\0i2
\0\0\0i7
\0\0\0i<
\0\0\0iA
\0\0\0i)
\0\0\0i*
\0\0\0i+
\0\0\0i3
\0\0\0i4
\0\0\0iÈ
\0\0\0iÉ
\0\0\0iÊ
\0\0\0iË
\0\0\0iÌ
\0\0\0iÍ
\0\0\0iÎ
\0\0\0iÏ
\0\0\0i,
\ 1\0\0i-
\ 1\0\0i.
\ 1\0\0i/
\ 1\0\0i0
\ 1\0\0i1
\ 1\0\0i2
\ 1\0\0i3
\ 1\0\0R
\9a\ 2\0\0Rr
\ 1\0\0R
\85\ 1\0\0t
\ 2\0\0\0F3t
\ 2\0\0\0F4t
\ 2\0\0\0F5Rÿ
\ 4\0\0t
\ 2\0\0\0F7t
\ 2\0\0\0F8t
\ 2\0\0\0F9RV
\0\0\0t
\ 3\0\0\0G10t
\ 3\0\0\0G11RW
\0\0\0t
\ 2\0\0\0G3R
\ 3\ 5\0\0t
\ 2\0\0\0G5R
\ 1\ 5\0\0i$
\0\0\0R
\ 4\ 5\0\0i%
\0\0\0t
\ 2\0\0\0G8i&
\0\0\0t
\ 2\0\0\0G9Rý
\ 4\0\0id
\0\0\0Rþ
\ 4\0\0R
\0\ 5\0\0R
\ 2\ 5\0\0(
\ 3\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
35325 +
\0\0\0(
\ 3\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\v\0\0\0(
\ 3\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\f\0\0\0(
\ 3\0\0\0i
\a\0\0\0i
\b\0\0\0i
\r\0\0\0(
\ 3\0\0\0i
\0\0\0i
35326 +
\0\0\0i
\1e\0\0\0(
\ 3\0\0\0i
\v\0\0\0i
\f\0\0\0i
\1f\0\0\0(
\ 3\0\0\0i
\r\0\0\0i
\ e\0\0\0i
\0\0\0(
\ 3\0\0\0i
\ f\0\0\0i
\10\0\0\0i!
\0\0\0(
\ 3\0\0\0i
\11\0\0\0i
\12\0\0\0i"
\0\0\0(
\ 2\0\0\0s
\f\0\0\0FAMILLE_ZEROi
\0\0\0\0(
\ 2\0\0\0s
\ 2\0\0\0F1i
\ 1\0\0\0(
\ 2\0\0\0s
\ 2\0\0\0F2i
\ 2\0\0\0(
\ 2\0\0\0R
\ 5\ 5\0\0i
\ 3\0\0\0(
\ 2\0\0\0R
\ 6\ 5\0\0i
\ 4\0\0\0(
\ 2\0\0\0R
\a\ 5\0\0i
\ 5\0\0\0(
\ 2\0\0\0Rÿ
\ 4\0\0i
\ 6\0\0\0(
\ 2\0\0\0R
\b\ 5\0\0i
\a\0\0\0(
\ 2\0\0\0R
\ 5\0\0i
\b\0\0\0(
\ 2\0\0\0R
35327 +
\ 5\0\0i
\0\0\0(
\ 2\0\0\0s
\ 2\0\0\0G1i
\1f\0\0\0(
\ 2\0\0\0R
\v\ 5\0\0i(
\0\0\0(
\ 2\0\0\0R
\f\ 5\0\0i)
\0\0\0(
\ 2\0\0\0s
\ 2\0\0\0G2i
\0\0\0(
\ 2\0\0\0R
\r\ 5\0\0i!
\0\0\0(
\ 2\0\0\0R
\ 3\ 5\0\0i"
\0\0\0(
\ 2\0\0\0R
\ e\ 5\0\0i#
\0\0\0(
\ 2\0\0\0R
\ 1\ 5\0\0i$
\0\0\0(
\ 2\0\0\0R
\ 4\ 5\0\0i%
\0\0\0(
\ 2\0\0\0R
\ f\ 5\0\0i&
\0\0\0(
\ 2\0\0\0R
\10\ 5\0\0i'
\0\0\0(
\ 2\0\0\0Rý
\ 4\0\0id
\0\0\0(
\ 3\0\0\0Rþ
\ 4\0\0R
\0\ 5\0\0R
\ 2\ 5\0\0(
\15\0\0\0RY
\0\0\0RÃ
\ 1\0\0R0
\0\0\0RØ
\0\0\0R1
\0\0\0Rv
\0\0\0Rk
\0\0\0Rw
\0\0\0R
\9e\0\0\0R
\8c\ 2\0\0R+
\0\0\0R
\ 1\ 2\0\0R³
\ 1\0\0R)
\ 4\0\0R²
\ 1\0\0t
\19\0\0\0getAllDistributionOfTypesR_
\0\0\0R`
\0\0\0R©
\ 3\0\0R«
\ 3\0\0Rù
\ 3\0\0(
\ 5\0\0\0t
\ 6\0\0\0testerR
\86\0\0\0t
\ 6\0\0\0cooExpt
\0\0\0refFamIdsRü
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\0\0\0CheckMesh
\0\16\0\0s"
\0\0\0\0\ 1'
\0\16\ 1\1f\ 1Å
\ 1D
\ 1é
\ 1S
\ 1@
\ 1@
\ 1O
\ 1O
\ 1H
\ 19
\ 1U
\ 1\16\ 1C
\ 1t
\a\0\0\0zeFieldgffffff
\ 2@gffffff
\16@s
\ 6\0\0\0dd [W]s
\b\0\0\0eee [kA]R
\0\0\0iÐ
\a\0\0i
\96\0\0\0i
\97\0\0\0i
\98\0\0\0i
\99\0\0\0i6
\0\0\0i
\9a\0\0\0i7
\0\0\0i
\9b\0\0\0i8
\0\0\0i
\9c\0\0\0i9
\0\0\0i
\9d\0\0\0i
\9e\0\0\0i;
\0\0\0i
\9f\0\0\0i<
\0\0\0i
\0\0\0i=
\0\0\0i¡
\0\0\0i>
\0\0\0i¢
\0\0\0i?
\0\0\0i£
\0\0\0i@
\0\0\0i¤
\0\0\0iA
\0\0\0i¥
\0\0\0iB
\0\0\0i¦
\0\0\0c
\ 2\0\0\0\f\0\0\0\ 5\0\0\0\13\0\0\0s³
\ 3\0\0|
\0\0j
\0\0t
\ 1\0|
\ 1\0j
\ 2\0\83\0\0\83\ 1\0d
\ 1\0\83\ 2\0\ 1|
\0\0j
\0\0t
\ 1\0|
\ 1\0j
\ 3\0\83\0\0\83\ 1\0d
\ 1\0\83\ 2\0\ 1\88\0\0\88\a\0|
\ 1\0j
\ 2\0\83\0\0d
\ 2\0\19\83\ 2\0\ 1|
\0\0j
\0\0t
\ 1\0|
\ 1\0j
\ 3\0\83\0\0d
\ 2\0\19\83\ 1\0d
\ 3\0\83\ 2\0\ 1|
\ 1\0j
\ 3\0\83\0\0d
\ 2\0\19d
\ 2\0\19}
\ 2\0|
\ 2\0j
\ 4\0t
\ 5\0d
\ 2\0|
\ 1\0j
\ 2\0\83\0\0d
\ 2\0\19\83\ 3\0}
\ 3\0t
\ 6\0j
\a\0\88\ 1\0\88\ 4\0g
\ 2\0\83\ 1\0}
\ 4\0|
\ 4\0j
\b\0\83\0\0j
\0\83\0\0j
35328 +
\0\83\0\0}
\ 5\0|
\ 4\0j
\v\0|
\ 5\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0|
\ 3\0d
\ 4\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 1\0j
\ 2\0\83\0\0d
\ 2\0\19\83\ 3\0}
\ 6\0t
\ 6\0j
\a\0\88\ 2\0\88\ 5\0g
\ 2\0\83\ 1\0}
\ 4\0|
\ 4\0j
\b\0\83\0\0j
\0\83\0\0j
35329 +
\0\83\0\0}
\ 5\0|
\ 4\0j
\v\0|
\ 5\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0|
\ 6\0d
\ 4\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1|
\ 2\0j
\ 4\0t
\ e\0d
\ 2\0|
\ 1\0j
\ 2\0\83\0\0d
\ 2\0\19\83\ 3\0}
\a\0t
\ 6\0j
\a\0\88\ 3\0\88\ 6\0g
\ 2\0\83\ 1\0}
\ 4\0|
\ 4\0j
\b\0\83\0\0j
\0\83\0\0j
35330 +
\0\83\0\0}
\ 5\0|
\ 4\0j
\v\0|
\ 5\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0|
\a\0d
\ 4\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1|
\ 1\0j
\ 3\0\83\0\0d
\ 2\0\19d
\ 1\0\19}
\b\0|
\b\0j
\ 4\0t
\ 5\0d
\ 2\0|
\ 1\0j
\ 2\0\83\0\0d
\ 2\0\19\83\ 3\0}
\0t
\ 6\0j
\a\0\88\ 1\0\88\ 4\0g
\ 2\0\83\ 1\0}
\ 4\0|
\ 4\0j
\b\0\83\0\0j
\0\83\0\0j
35331 +
\0\83\0\0}
\ 5\0|
\ 4\0j
\v\0|
\ 5\0\83\ 1\0\ 1|
\ 4\0j
\ f\0\88\b\0\8c\0\0\ 1|
\ 4\0j
\10\0\83\0\0\ 4\1ed
\ 6\07
\ 2(|
\0\0j
\f\0|
\ 4\0j
\r\0|
\0d
\ 4\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1|
\b\0j
\ 4\0t
\ 5\0d
\ 5\0|
\ 1\0j
\ 2\0\83\0\0d
\ 2\0\19\83\ 3\0}
35332 +
\0t
\ 6\0j
\a\0\88\ 2\0\88\ 5\0g
\ 2\0\83\ 1\0}
\ 4\0|
\ 4\0j
\b\0\83\0\0j
\0\83\0\0j
35333 +
\0\83\0\0}
\ 5\0|
\ 4\0j
\v\0|
\ 5\0\83\ 1\0\ 1|
\ 4\0j
\ f\0\88\b\0\8c\0\0\ 1|
\ 4\0j
\10\0\83\0\0\ 4\1ed
\ 6\07
\ 2(|
\0\0j
\f\0|
\ 4\0j
\r\0|
35334 +
\0d
\ 4\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1|
\b\0j
\ 4\0t
\ e\0d
\ 2\0|
\ 1\0j
\ 2\0\83\0\0d
\ 2\0\19\83\ 3\0}
\v\0t
\ 6\0j
\a\0\88\ 3\0\88\ 6\0g
\ 2\0\83\ 1\0}
\ 4\0|
\ 4\0j
\b\0\83\0\0j
\0\83\0\0j
35335 +
\0\83\0\0}
\ 5\0|
\ 4\0j
\v\0|
\ 5\0\83\ 1\0\ 1|
\ 4\0j
\ f\0\88\b\0\8c\0\0\ 1|
\ 4\0j
\10\0\83\0\0\ 4\1ed
\ 6\07
\ 2(|
\0\0j
\f\0|
\ 4\0j
\r\0|
\v\0d
\ 4\0d
\ 4\0\83\ 3\0\83\ 1\0\ 1d
\0\0S(
\a\0\0\0Ni
\ 1\0\0\0i
\0\0\0\0i
\ 2\0\0\0g
\11ê-
\81\99\97q=iÿÿÿÿiÐ
\a\0\0(
\11\0\0\0R+
\0\0\0Ry
\0\0\0RT
\ 1\0\0Ra
\ 1\0\0R
\97\ 1\0\0R
\13\ 1\0\0Rw
\ 1\0\0t
\v\0\0\0MergeFieldsR¹
\0\0\0Rq
\0\0\0R
\9c\ 1\0\0R
\88\ 1\0\0R0
\0\0\0R1
\0\0\0R
\1c\ 1\0\0R°
\0\0\0R)
\ 1\0\0(
\f\0\0\0R
\12\ 5\0\0R>
\ 2\0\0t
\ 4\0\0\0zeF1t
\ 6\0\0\0zeF1_1R0
\ 2\0\0R
\8f\ 2\0\0t
\ 6\0\0\0zeF1_2t
\ 6\0\0\0zeF1_3t
\ 4\0\0\0zeF2t
\ 6\0\0\0zeF2_1t
\ 6\0\0\0zeF2_2t
\ 6\0\0\0zeF2_3(
\0\0\0R
\15\ 5\0\0t
\ 4\0\0\0f1_1t
\ 4\0\0\0f1_2t
\ 4\0\0\0f1_3t
\ 4\0\0\0f2_1t
\ 4\0\0\0f2_2t
\ 4\0\0\0f2_3R
\0\0\0t
\ 2\0\0\0t2(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\b\0\0\0CheckMFD\
\16\0\0sT
\0\0\0\0\ 1\1c\ 1\1c\ 1\17\ 1 \ 1\14\ 1\1f\ 1\15\ 1\18\ 1\r\ 1\1c\ 1\1f\ 1\15\ 1\18\ 1\r\ 1\1c\ 1\1f\ 1\15\ 1\18\ 1\r\ 1\1c\ 2\14\ 1\1f\ 1\15\ 1\18\ 1\r\ 1\r\0\11\ 1\1c\ 1\1f\ 1\15\ 1\18\ 1\r\ 1\r\0\11\ 1\1c\ 1\1f\ 1\15\ 1\18\ 1\r\ 1\r\0\11\ 1N(
\ 3\0\0\0gffffff
\ 2@i
\ 3\0\0\0i
\ 5\0\0\0(
\ 3\0\0\0gffffff
\16@i
\a\0\0\0i
\f\0\0\0(
\ 2\0\0\0i
35336 +
\0\0\0in
\0\0\0(
\ 2\0\0\0i
\v\0\0\0io
\0\0\0(
\ 2\0\0\0i
\f\0\0\0ip
\0\0\0(
\ 2\0\0\0i
\r\0\0\0iq
\0\0\0(
\ 2\0\0\0i
\ e\0\0\0ir
\0\0\0(
\ 2\0\0\0i
\ f\0\0\0is
\0\0\0(
\ 2\0\0\0i
\10\0\0\0it
\0\0\0(
\ 2\0\0\0i
\11\0\0\0iu
\0\0\0(
\ 2\0\0\0i
\12\0\0\0iv
\0\0\0(
\ 2\0\0\0i
\13\0\0\0iw
\0\0\0(
\ 2\0\0\0i
\14\0\0\0ix
\0\0\0(
\ 2\0\0\0i
\15\0\0\0iy
\0\0\0(
\ 2\0\0\0i
\16\0\0\0iz
\0\0\0(
\ 2\0\0\0i
\17\0\0\0i{
\0\0\0(
\ 2\0\0\0i
\18\0\0\0i|
\0\0\0(
\ 2\0\0\0i2
\0\0\0i
\96\0\0\0(
\ 2\0\0\0i3
\0\0\0i
\97\0\0\0(
\ 2\0\0\0i4
\0\0\0i
\98\0\0\0(
\ 2\0\0\0i5
\0\0\0i
\99\0\0\0(
\ 2\0\0\0i6
\0\0\0i
\9a\0\0\0(
\ 2\0\0\0i7
\0\0\0i
\9b\0\0\0(
\ 2\0\0\0i8
\0\0\0i
\9c\0\0\0(
\ 2\0\0\0i9
\0\0\0i
\9d\0\0\0(
\ 2\0\0\0i
\9e\0\0\0i
\9e\0\0\0(
\ 2\0\0\0i;
\0\0\0i
\9f\0\0\0(
\ 2\0\0\0i<
\0\0\0i
\0\0\0(
\ 2\0\0\0i=
\0\0\0i¡
\0\0\0(
\ 2\0\0\0i>
\0\0\0i¢
\0\0\0(
\ 2\0\0\0i?
\0\0\0i£
\0\0\0(
\ 2\0\0\0i@
\0\0\0i¤
\0\0\0(
\ 2\0\0\0iA
\0\0\0i¥
\0\0\0(
\ 2\0\0\0iB
\0\0\0i¦
\0\0\0(+
\0\0\0R>
\0\0\0RY
\0\0\0RÃ
\ 1\0\0Rc
\0\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R©
\ 3\0\0R«
\ 3\0\0R¶
\0\0\0Rk
\0\0\0R
\98\0\0\0R_
\0\0\0R`
\0\0\0Rn
\0\0\0R·
\0\0\0R
\9b\ 2\0\0RÙ
\ 2\0\0Rô
\0\0\0Rà
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0R³
\0\0\0RB
\0\0\0R{
\ 1\0\0R°
\0\0\0Rµ
\0\0\0Rd
\0\0\0R%
\ 1\0\0R
\1c\ 1\0\0RE
\ 3\0\0Rq
\0\0\0R+
\ 1\0\0RK
\ 1\0\0RR
\ 1\0\0RP
\ 1\0\0RT
\ 1\0\0R7
\ 2\0\0R]
\ 1\0\0R[
\ 1\0\0Ra
\ 1\0\0R\
\ 1\0\0R
\v\0\0\0(!
\0\0\0R
\0\0\0t
\ 6\0\0\0fname1Rn
\ 1\0\0t
\ 6\0\0\0fname3RÊ
\ 3\0\0R:
\ 1\0\0R©
\0\0\0t
\ 5\0\0\0mm1_0t
\ 5\0\0\0mm1_1Rî
\0\0\0R¢
\0\0\0t
\ 5\0\0\0mm2_0t
\ 5\0\0\0mm2_1R
\86\0\0\0Rg
\ 3\0\0t
\ 2\0\0\0t1t
\ 5\0\0\0infoct
\ 5\0\0\0fmts1t
\ 5\0\0\0f1ts1Rz
\ 2\0\0R
\ 2\ 3\0\0RÛ
\ 4\0\0t
\ 5\0\0\0f1ts2R
\1a\ 4\0\0t
\ 5\0\0\0f1ts3RÜ
\ 4\0\0t
\ 4\0\0\0arr5t
\ 4\0\0\0arr6t
\ 5\0\0\0f1ts4t
\ 4\0\0\0mfd1t
\ 4\0\0\0mfd2R>
\ 2\0\0R'
\ 5\0\0(
\0\0\0\0(
\0\0\0R
\15\ 5\0\0R
\ 5\0\0R!
\ 5\0\0R"
\ 5\0\0R#
\ 5\0\0R$
\ 5\0\0R%
\ 5\0\0R
\0\0\0R&
\ 5\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1f\0\0\0testSymmetryPlusAggregationMFD1³
\15\0\0s\
\ 1\0\0\0\ 2\ 6\ 1\ 6\ 1\ 6\ 1\ 6\ 1 \ 16
\0\16\ 1\r\ 1\ f\0
35337 +
\ 1\r\ 1\1c\ 1\1c\ 1"
\ 1"
\ 1"
\ 1
35339 +
\ 1\r\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1
35340 +
\ 1(
\ 1(
\ 1\16\ 1\18\ 1\10\ 1\10\ 1\16\ 1\16\ 1"
\ 1"
\ 2 \ 1?
\0\16\ 1\r\ 1\ f\0
35341 +
\ 1\r\ 1\1c\ 1\1c\ 1\1c\ 1"
\ 1
35343 +
\ 1\r\ 1\19\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1\1c\ 1
35344 +
\ 1.
\ 1.
\ 1\16\ 1\1c\ 1\10\ 1\10\ 1\16\ 1\16\ 1%
\ 1%
\ 2\15\ 2 \11\r\ 2\ 6\ 1\ 6\ 1\ 6\ 1\f\ 2 \ 1 \ 1\f\0\11\0\r\ 1\e\ 1\r\ 1\r\0\r\0\r\ 1
35345 +
\ 1\r\ 2\f\0\11\0\r\ 1\1e\ 1\r\ 1\r\0\r\0\r\ 1
35346 +
\ 1\r\ 1\f\0\11\0\r\ 1\18\ 1\r\ 1\r\0\r\0\r\ 1
35347 +
\ 1\r\ 1\r\ 2\f\ 1\1f\ 1\11\ 1\r\ 2 \ 1 \ 1\f\0\11\0\r\ 1\18\ 1\r\ 1\r\0\r\0\r\ 1
35348 +
\ 1\r\ 1\f\0\11\0\r\ 1$
\ 1\r\ 1\r\0\r\0\r\ 1
35349 +
\ 1\r\ 1\f\0\11\0\r\ 1\e\ 1\r\ 1\r\0\r\0\r\ 1
35350 +
\ 1\r\ 1\r\ 2\f\ 1\1f\ 1\11\ 1\r\ 2 \ 1\10\ 1\13\ 1\10\ 1\13\ 2 \ 1\10\ 1\13\ 1\10\ 1\13\ 2\15\ 1')
\r\ 1\10\0\10\ 1!
\ 1\r\ 1c
\ 1\0\0\0\v\0\0\0\a\0\0\0C
\0\0\0s
\ 5\ 1\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0g
\ 4\0\83\ 1\0}
\ 2\0t
\0\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 5\0\83\ 1\0}
\ 3\0t
\0\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0g
\ 6\0\83\ 1\0}
\ 4\0t
\ 1\0\83\0\0}
\ 5\0|
\ 5\0j
\ 2\0|
\ 2\0|
\ 3\0|
\ 4\0\83\ 3\0\ 1|
\ 5\0j
\ 3\0d
\b\0\83\ 1\0\ 1t
\ 4\0|
\ 5\0\83\ 1\0}
\ 6\0t
\ 5\0|
\ 6\0\83\ 1\0}
\a\0|
\a\0j
\ 6\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1|
\a\0j
\a\0\83\0\0}
\b\0t
\b\0j
\0|
\ 1\0\83\ 1\0}
\0|
\0j
\a\0\83\0\0}
35352 +
\0|
\ 6\0j
\v\0|
\b\0d
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
35354 +
\0d
\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(
35355 +
\0\0\0Ns
\r\0\0\0Pyfile107.medi
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0R
\ 2\0\0g
\11ê-
\81\99\97q=(
\f\0\0\0RY
\0\0\0R±
\0\0\0Rc
\0\0\0RB
\0\0\0t
\1d\0\0\0MEDCouplingMappedExtrudedMeshR>
\0\0\0R
\v\0\0\0t
\15\0\0\0convertToExtrudedMeshR'
\0\0\0R(
\0\0\0R0
\0\0\0R1
\0\0\0(
\v\0\0\0R
\0\0\0R9
\ 1\0\0RS
\ 4\0\0RT
\ 4\0\0t
\ 4\0\0\0arrZt
\ 6\0\0\0mesh3Dt
\ 2\0\0\0exR
\86\0\0\0t
\ 3\0\0\0ex2R¢
\0\0\0t
\ 3\0\0\0ex3(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\11\0\0\0testExtrudedMesh1
\8b\16\0\0s
\0\0\0\0\ 1\ 6\ 1\18\0\e\0\1e\ 1 \0\13\0\r\ 1\f\ 1\f\ 1\10\ 1\f\ 1\ f\ 1\f\ 1\19\ 1\19\ 1s
\ 5\0\0\03.2.1s1
\0\0\0This test requires at least MEDFile version 3.2.1s
\ 5\0\0\04.0.0s@
\0\0\0This test is not compatible with MEDFile version 4.0.0 and abovec
\ 1\0\0\0\ 6\0\0\0\ 6\0\0\0C
\0\0\0s)
\ 1\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0d
\ 3\0d
\ 4\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 1\0t
\ 2\0d
\ 5\0d
\ 5\0d
\ 4\0d
\ 4\0g
\ 4\0d
\ 6\0d
\ 6\0\83\ 3\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0\83\0\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0d
\ 4\0d
\ 5\0g
\ 2\0\83\ 2\0\ 1t
\ 6\0\83\0\0}
\ 4\0|
\ 3\0|
\ 4\0d
\ 5\0<|
\ 4\0j
\a\0d
\a\0d
\ 5\0\83\ 2\0\ 1|
\ 4\0j
\b\0|
\ 1\0d
\ 6\0\83\ 2\0\ 1t
\0t
35356 +
\0|
\ 1\0\83\ 1\0\83\ 1\0j
\v\0d
\ 6\0 d
\b\0d
\ 5\0g
\ 2\0k
\ 2\0s¾
\0t
\f\0\82\ 1\0t
\ 6\0|
\ 1\0\83\ 1\0}
\ 5\0|
\0\0j
\r\0|
\ 4\0j
\ e\0|
\ 5\0d
\0\83\ 2\0\83\ 1\0\ 1|
\ 4\0j
\ f\0|
\ 2\0d
\ 6\0\83\ 2\0\ 1t
\0t
35357 +
\0|
\ 2\0\83\ 1\0\83\ 1\0j
\v\0d
\ 6\0 t
\10\0t
\11\0\83\0\0d
\ 6\0 \83\ 1\0k
\ 2\0s%
\ 1t
\f\0\82\ 1\0d
\0\0S(
35358 +
\0\0\0Ns
\r\0\0\0Pyfile108.meds
\r\0\0\0Pyfile109.medR
\ 2\0\0i
\ 1\0\0\0i
\0\0\0\0i
\ 2\0\0\0R
\9a\ 2\0\0i
\ 3\0\0\0g
\11ê-
\81\99\97q=(
\12\0\0\0R[
\0\0\0Rc
\0\0\0RY
\0\0\0R]
\0\0\0R^
\0\0\0Re
\0\0\0R>
\0\0\0R·
\0\0\0t
\a\0\0\0write30R
\ 5\0\0\0t
\17\0\0\0MEDFileVersionOfFileStrt
\a\0\0\0versiont
\ e\0\0\0AssertionErrorR0
\0\0\0R1
\0\0\0R
\v\0\0\0Rm
\0\0\0t
\ e\0\0\0MEDFileVersion(
\ 6\0\0\0R
\0\0\0R9
\ 1\0\0Rn
\ 1\0\0R
\83\0\0\0R
\86\0\0\0R¢
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\ f\0\0\0testWriteInto30
\99\16\0\0s
\0\0\0\0\ 4\ 6\ 1\ 6\ 1\ f\0%
\0
35360 +
\ 1\10\ 2\10\ 1+
\ 1\f\ 1\19\ 2\10\ 12
\ 1c
\ 1\0\0\0#
\0\0\0\13\0\0\0C
\0\0\0s1
\a\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 3\0d
\ 3\0d
\ 4\0d
\ 3\0d
\ 2\0d
\ 4\0d
\ 3\0d
\ 4\0d
\ 4\0d
\ 4\0g
\12\0d
\ 5\0d
\ 6\0\83\ 3\0}
\ 2\0t
\ 1\0d
\a\0d
\ 6\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 2\0d
\b\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0t
\ 4\0d
\0d
35361 +
\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 4\0d
35362 +
\0d
\b\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 5\0d
\v\0d
\f\0d
35363 +
\0d
\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 5\0d
\f\0d
\r\0d
\ e\0d
35364 +
\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 3\0t
\ 5\0d
35365 +
\0d
\ e\0d
\ f\0d
\b\0g
\ 4\0\83\ 2\0\ 1|
\ 3\0j
\ 6\0\83\0\0\ 1|
\ 3\0j
\a\0|
\ 2\0\83\ 1\0\ 1t
\ 1\0|
\ 3\0j
\b\0\83\0\0d
\0\83\ 2\0}
\ 4\0|
\ 4\0j
\ 2\0d
\ 5\0\83\ 1\0\ 1d
\v\0d
\0d
\v\0d
\f\0d
\f\0d
35369 +
\0d
\0d
\ 6\0d
\f\0d
\r\0d
\b\0d
\ f\0g
\12\0}
\ 5\0x7
\0t
\0d
\ 5\0\83\ 1\0D])
\0}
\ 6\0|
\ 4\0j
\ 3\0t
35370 +
\0|
\ 5\0d
\ 6\0|
\ 6\0\14d
\ 6\0|
\ 6\0\14d
\ 6\0\17!
\83\ 2\0\ 1qr
\ 1W|
\ 4\0j
\ 6\0\83\0\0\ 1|
\ 4\0j
\a\0|
\ 2\0\83\ 1\0\ 1t
\v\0\83\0\0}
\a\0|
\a\0j
\f\0d
\v\0|
\ 3\0\83\ 2\0\ 1|
\a\0j
\f\0d
\10\0|
\ 4\0\83\ 2\0\ 1d
\f\0}
\b\0d
\ 6\0}
\0d
\11\0}
35371 +
\0t
\r\0t
\ e\0t
\ f\0\83\ 2\0}
\v\0|
\v\0j
\10\0d
\12\0\83\ 1\0\ 1|
\v\0j
\11\0|
35372 +
\0|
\b\0|
\0\83\ 3\0\ 1t
\12\0d
\v\0d
\0d
\ 6\0d
\f\0d
35373 +
\0g
\ 5\0\83\ 1\0}
\f\0|
\f\0j
\10\0d
\13\0\83\ 1\0\ 1t
\0\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0g
\ 5\0\83\ 1\0}
\r\0|
\v\0j
\13\0|
\r\0\83\ 1\0\ 1t
\14\0\83\0\0}
\ e\0|
\ e\0j
\15\0|
\v\0|
\a\0d
\v\0|
\f\0\83\ 4\0\ 1t
\r\0t
\ e\0t
\ f\0\83\ 2\0}
\ f\0|
\ f\0j
\10\0d
\19\0\83\ 1\0\ 1|
\ f\0j
\11\0|
35374 +
\0|
\b\0|
\0\83\ 3\0\ 1t
\12\0d
\v\0d
\0d
\ 6\0d
\f\0d
35375 +
\0d
\b\0d
\r\0g
\a\0\83\ 1\0}
\10\0|
\10\0j
\10\0d
\1a\0\83\ 1\0\ 1t
\0\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0g
\a\0\83\ 1\0}
\11\0|
\ f\0j
\13\0|
\11\0\83\ 1\0\ 1t
\14\0\83\0\0}
\12\0|
\12\0j
\15\0|
\ f\0|
\a\0d
\10\0|
\10\0\83\ 4\0\ 1t
\16\0\83\0\0}
\13\0|
\13\0j
\17\0t
\18\0\83\0\0\83\ 1\0\ 1|
\13\0j
\19\0t
\1a\0\83\0\0\83\ 1\0\ 1|
\13\0j
\e\0\83\0\0j
\1c\0|
\a\0\83\ 1\0\ 1t
\1d\0\83\0\0}
\14\0|
\14\0j
\1e\0|
\ e\0\83\ 1\0\ 1|
\13\0j
\1f\0\83\0\0j
\0|
\14\0\83\ 1\0\ 1|
\13\0j!
\0\83\0\0}
\15\0t
\16\0|
\15\0\83\ 1\0}
\16\0|
\0\0j"
\0t#
\0|
\16\0j
\e\0\83\0\0\83\ 1\0d
\0\83\ 2\0\ 1|
\0\0j"
\0t#
\0|
\16\0j
\1f\0\83\0\0\83\ 1\0d
\0\83\ 2\0\ 1|
\0\0j"
\0t#
\0|
\16\0j
\1f\0\83\0\0d
\v\0\19\83\ 1\0d
\0\83\ 2\0\ 1|
\0\0j$
\0|
\16\0j
\e\0\83\0\0d
\v\0\19j%
\0|
\13\0j
\e\0\83\0\0d
\v\0\19d"
\0\83\ 2\0\83\ 1\0\ 1|
\16\0j
\1f\0\83\0\0d
\v\0\19d
\v\0\19j&
\0|
\16\0j
\e\0\83\0\0d
\v\0\19\83\ 1\0}
\17\0|
\13\0j
\1f\0\83\0\0d
\v\0\19d
\v\0\19j&
\0|
\13\0j
\e\0\83\0\0d
\v\0\19\83\ 1\0}
\18\0|
\0\0j$
\0|
\17\0j%
\0|
\18\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1t'
\0j(
\0|
\13\0t'
\0j)
\0\83\ 2\0}
\19\0t'
\0j*
\0|
\19\0\83\ 1\0}
\1a\0|
\0\0j"
\0t#
\0|
\1a\0j
\e\0\83\0\0\83\ 1\0d
\0\83\ 2\0\ 1|
\0\0j"
\0t#
\0|
\1a\0j
\1f\0\83\0\0\83\ 1\0d
\0\83\ 2\0\ 1|
\0\0j"
\0t#
\0|
\1a\0j
\1f\0\83\0\0d
\v\0\19\83\ 1\0d
\0\83\ 2\0\ 1|
\0\0j$
\0|
\1a\0j
\e\0\83\0\0d
\v\0\19j%
\0|
\13\0j
\e\0\83\0\0d
\v\0\19d"
\0\83\ 2\0\83\ 1\0\ 1|
\1a\0j
\1f\0\83\0\0d
\v\0\19d
\v\0\19j&
\0|
\1a\0j
\e\0\83\0\0d
\v\0\19\83\ 1\0}
\e\0|
\0\0j$
\0|
\e\0j%
\0|
\18\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1t'
\0j(
\0|
\13\0j
\1f\0\83\0\0t'
\0j)
\0\83\ 2\0}
\19\0t'
\0j*
\0|
\19\0\83\ 1\0}
\1c\0|
\1c\0d
\v\0\19d
\v\0\19j&
\0|
\1a\0j
\e\0\83\0\0d
\v\0\19\83\ 1\0}
\1d\0|
\0\0j$
\0|
\1d\0j%
\0|
\18\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1t'
\0j(
\0|
\13\0j
\1f\0\83\0\0d
\v\0\19t'
\0j)
\0\83\ 2\0}
\19\0t'
\0j*
\0|
\19\0\83\ 1\0}
\1e\0|
\1e\0d
\v\0\19j&
\0|
\1a\0j
\e\0\83\0\0d
\v\0\19\83\ 1\0}
\1f\0|
\0\0j$
\0|
\1f\0j%
\0|
\18\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1t'
\0j(
\0|
\13\0j
\1f\0\83\0\0d
\v\0\19d
\v\0\19t'
\0j)
\0\83\ 2\0}
\19\0t'
\0j*
\0|
\19\0\83\ 1\0}
\0|
\0j&
\0|
\1a\0j
\e\0\83\0\0d
\v\0\19\83\ 1\0}!
\0|
\0\0j$
\0|!
\0j%
\0|
\18\0d"
\0d"
\0\83\ 3\0\83\ 1\0\ 1t'
\0j(
\0|
\13\0j
\e\0\83\0\0t'
\0j)
\0\83\ 2\0}
\19\0t'
\0j*
\0|
\19\0\83\ 1\0}"
\0|
\0\0j"
\0t#
\0|"
\0\83\ 1\0d
\0\83\ 2\0\ 1|
\0\0j$
\0|"
\0d
\v\0\19j%
\0|
\13\0j
\e\0\83\0\0d
\v\0\19d"
\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(#
\0\0\0Ns
\r\0\0\0Pyfile110.medg
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0ð?i
\0\0\0i
\ 2\0\0\0Rn
\ 2\0\0i
\ 5\0\0\0i
\ 1\0\0\0i
\ 4\0\0\0i
\0\0\0\0i
\ 3\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\b\0\0\0iÿÿÿÿg
\0\0\0\0\0\0\12@Ro
\ 2\0\0Rp
\ 2\0\0i
35376 +
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0Rq
\ 2\0\0Rr
\ 2\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\19\0\0\0i
\1a\0\0\0g
\11ê-
\81\99\97q=(+
\0\0\0RY
\0\0\0R[
\0\0\0R]
\0\0\0R^
\0\0\0R_
\0\0\0R`
\0\0\0Rb
\0\0\0Rc
\0\0\0RC
\0\0\0Rn
\0\0\0Re
\0\0\0R>
\0\0\0Rj
\0\0\0Rw
\ 1\0\0R
\1c\ 1\0\0RX
\ 1\0\0RB
\0\0\0R°
\0\0\0Rk
\0\0\0R{
\ 1\0\0Rà
\0\0\0R|
\ 1\0\0RK
\ 1\0\0RR
\ 1\0\0RP
\ 1\0\0R]
\ 1\0\0R[
\ 1\0\0RT
\ 1\0\0R7
\ 2\0\0Rô
\0\0\0RE
\ 3\0\0Ra
\ 1\0\0R\
\ 1\0\0t
\0\0\0serializeR+
\0\0\0Ry
\0\0\0R0
\0\0\0R1
\0\0\0R5
\ 4\0\0Rî
\ 3\0\0Rï
\ 3\0\0Rð
\ 3\0\0Rñ
\ 3\0\0(#
\0\0\0R
\0\0\0R9
\ 1\0\0R
\ 3\ 2\0\0Rá
\0\0\0R
\84\0\0\0Rt
\ 2\0\0Rî
\0\0\0R
\83\0\0\0Ru
\ 2\0\0Rv
\ 2\0\0Rw
\ 2\0\0Ro
\ 2\0\0Rx
\ 2\0\0RÔ
\ 1\0\0Rä
\0\0\0Rq
\ 2\0\0Ry
\ 2\0\0Rz
\ 2\0\0Rã
\0\0\0R>
\ 2\0\0Rm
\ 1\0\0Re
\ 1\0\0R8
\ 5\0\0RC
\ 1\0\0Rñ
\0\0\0R
\r\0\0\0t
\ 4\0\0\0mfd3R
\ 1\0\0Rý
\ 3\0\0R
\v\ 1\0\0t
\ 5\0\0\0fmts5t
\ 3\0\0\0ff5t
\ 5\0\0\0f1ts6t
\ 3\0\0\0ff6t
\ 3\0\0\0ms7(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt"
\0\0\0testPickelizationOfMEDFileObjects1¬
\16\0\0s¨
\0\0\0\0\ 2\ 6\ 1H
\ 1\ f\ 1\r\ 1\19\ 1\19\ 1\1c\ 1\1c\ 1\1c\ 1
35377 +
\ 1\r\ 1\15\ 1\r\ 1<
\ 1\13\ 1#
\ 1\ 4\ 1
35378 +
\ 1\r\ 2 \ 1\10\ 1\10\ 2\ 6\0\ 6\0\ 6\ 1\ f\ 1\r\ 1\13\ 1\e\0\r\ 1\e\ 1\r\ 1 \ 1\16\ 1\ f\ 1\r\ 1\13\ 1!
\0\r\ 1!
\ 1\r\ 1 \ 1\16\ 1 \ 1\10\0\10\ 1\13\ 1 \0\r\ 1\13\ 2\f\ 1\f\ 1\1c\ 1\1c\ 1 \ 1-
\ 1'
\ 1'
\ 1\1c\ 2\15\ 1\ f\ 2\1c\ 1\1c\ 1 \ 1-
\ 1'
\ 1\1c\ 2\e\ 1\ f\ 1!
\ 1\1c\ 2\1f\ 1\ f\ 1\1d\ 1\1c\ 2#
\ 1\ f\ 1\19\ 1\1c\ 2\e\ 1\ f\ 1\16\ 1'
\ 1c
\ 1\0\0\0\f\0\0\0\ 5\0\0\0C
\0\0\0s
\14\ 3\0\0|
\0\0j
\0\0\83\0\0\ 1t
\ 1\0j
\ 2\0d
\ 1\0\83\ 1\0}
\ 1\0|
\0\0j
\ 3\0t
\ 4\0|
\ 1\0t
\ 5\0\83\ 2\0\83\ 1\0\ 1t
\ 6\0j
\a\0|
\ 1\0t
\ 6\0j
\b\0\83\ 2\0}
\ 2\0t
\ 6\0j
\0|
\ 2\0\83\ 1\0}
\ 3\0|
\0\0j
\ 3\0t
\ 4\0|
\ 3\0t
\ 5\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ 3\0|
\ 1\0j
35379 +
\0\83\0\0j
\v\0|
\ 3\0j
35380 +
\0\83\0\0d
\ 2\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\f\0\83\0\0\ 1t
\ 1\0j
\ 2\0d
\ 3\0\83\ 1\0}
\ 1\0|
\0\0j
\ 3\0t
\ 4\0|
\ 1\0t
\r\0\83\ 2\0\83\ 1\0\ 1t
\ 6\0j
\a\0|
\ 1\0t
\ 6\0j
\b\0\83\ 2\0}
\ 2\0t
\ 6\0j
\0|
\ 2\0\83\ 1\0}
\ 4\0|
\0\0j
\ 3\0t
\ 4\0|
\ 4\0t
\r\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ 3\0|
\ 1\0j
35381 +
\0\83\0\0j
\v\0|
\ 4\0j
35382 +
\0\83\0\0d
\ 2\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ e\0\83\0\0\ 1t
\ f\0d
\ 4\0\83\ 1\0}
\ 5\0t
\10\0d
\ 4\0\83\ 1\0}
\ 6\0|
\0\0j
\ 3\0t
\ 4\0|
\ 5\0d
\ 5\0\19t
\11\0\83\ 2\0\83\ 1\0\ 1t
\ 6\0j
\a\0|
\ 5\0d
\ 5\0\19t
\ 6\0j
\b\0\83\ 2\0}
\ 2\0t
\ 6\0j
\0|
\ 2\0\83\ 1\0}
\a\0|
\0\0j
\12\0t
\13\0|
\ 5\0d
\ 5\0\19\83\ 1\0t
\13\0|
\a\0\83\ 1\0\83\ 2\0\ 1|
\0\0j
\ 3\0t
\ 4\0|
\a\0t
\11\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ 3\0|
\a\0d
\ 5\0\19j
\14\0|
\ 6\0d
\ 5\0\19\83\ 1\0j
\v\0|
\ 5\0d
\ 5\0\19d
\ 5\0\19j
\14\0|
\ 6\0d
\ 5\0\19\83\ 1\0d
\ 2\0d
\ 5\0\83\ 3\0\83\ 1\0\ 1t
\ 6\0j
\a\0|
\ 5\0d
\ 5\0\19d
\ 5\0\19t
\ 6\0j
\b\0\83\ 2\0}
\ 2\0t
\ 6\0j
\0|
\ 2\0\83\ 1\0}
\b\0|
\0\0j
\ 3\0t
\ 4\0|
\b\0t
\15\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ 3\0|
\b\0j
\14\0|
\ 6\0d
\ 5\0\19\83\ 1\0j
\v\0|
\ 5\0d
\ 5\0\19d
\ 5\0\19j
\14\0|
\ 6\0d
\ 5\0\19\83\ 1\0d
\ 2\0d
\ 5\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\16\0\83\0\0\ 1t
\17\0d
\ 6\0\83\ 1\0}
\0t
\ 6\0j
\a\0|
\0t
\ 6\0j
\b\0\83\ 2\0}
\ 2\0t
\ 6\0j
\0|
\ 2\0\83\ 1\0}
35383 +
\0|
\0\0j
\12\0t
\13\0|
\0\83\ 1\0t
\13\0|
35384 +
\0\83\ 1\0\83\ 2\0\ 1x?
\0t
\18\0t
\13\0|
\0\83\ 1\0\83\ 1\0D]+
\0}
\v\0|
\0\0j
\ 3\0|
\0|
\v\0\19j
\v\0|
35385 +
\0|
\v\0\19d
\ 2\0\83\ 2\0d
\ 5\0\19\83\ 1\0\ 1qá
\ 2Wd
\0\0S(
\a\0\0\0Ns
\10\0\0\0MEDFileMesh5.medg
\11ê-
\81\99\97q=s
\f\0\0\0Pyfile55.meds
\f\0\0\0Pyfile63.medi
\0\0\0\0s
\f\0\0\0Pyfile56.med(
\19\0\0\0R¿
\0\0\0R'
\0\0\0R(
\0\0\0R0
\0\0\0Rt
\0\0\0R¯
\0\0\0Rî
\ 3\0\0Rï
\ 3\0\0Rð
\ 3\0\0Rñ
\ 3\0\0R¹
\0\0\0R1
\0\0\0R¹
\ 2\0\0R²
\ 2\0\0R6
\ 3\0\0R[
\ 1\0\0RP
\ 1\0\0R#
\ 3\0\0R+
\0\0\0Ry
\0\0\0R5
\ 4\0\0R
\1e\ 3\0\0RÒ
\ 2\0\0R¼
\ 2\0\0Rn
\0\0\0(
\f\0\0\0R
\0\0\0R
\86\0\0\0R
\r\0\0\0R¢
\0\0\0R¶
\ 4\0\0Rý
\ 3\0\0t
\ 3\0\0\0ms4RJ
\ 5\0\0RL
\ 5\0\0t
\ 6\0\0\0paramst
\a\0\0\0params7Rî
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt"
\0\0\0testPickelizationOfMEDFileObjects2
\ 6\17\0\0sH
\0\0\0\0\ 3
35386 +
\ 1\ f\ 1\16\ 1\15\ 1\ f\ 1\16\ 1%
\ 2
35387 +
\ 1\ f\ 1\16\ 1\15\ 1\ f\ 1\16\ 1%
\ 1
35388 +
\ 2\f\ 1\f\ 1\1a\ 1\19\ 1\ f\ 1 \ 1\16\ 1B
\ 2\1d\ 1\ f\ 1\16\ 1>
\ 2
35389 +
\ 1\f\ 1\15\ 1\ f\ 1\1c\ 1\19\ 1%
\ 1\ 4\ 1c
\ 1\0\0\0\b\0\0\0\b\0\0\0C
\0\0\0sé
\ 1\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 1\0\83\0\0\ 1t
\ 2\0j
\ 3\0|
\ 2\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 4\0d
\ 3\0\83\ 1\0\ 1t
\ 5\0\83\0\0}
\ 4\0|
\ 3\0|
\ 4\0d
\ 4\0<|
\0\0j
\ 6\0|
\ 4\0j
\a\0d
\ 5\0\83\ 1\0\f\83\ 1\0\ 1t
\b\0d
\ 6\0d
\a\0d
\b\0d
\0d
\ 4\0g
\ 5\0\83\ 1\0}
\ 5\0|
\ 5\0j
\0\83\0\0}
\ 6\0|
\ 4\0j
35390 +
\0d
\ 5\0|
\ 5\0\83\ 2\0\ 1|
\ 4\0j
\v\0\83\0\0\ 1|
\0\0j
\f\0t
\r\0|
\ 4\0j
35393 +
\0d
\0\85\ 3\0\19\83\ 4\0\ 1|
\ 4\0j
\v\0\83\0\0\ 1|
\0\0j
\ e\0|
\ 5\0j
\ f\0\83\0\0|
\ 4\0j
\a\0d
\ 5\0\83\ 1\0j
\ f\0\83\0\0\83\ 2\0\ 1|
\0\0j
\ 6\0|
\ 4\0j
\a\0d
\ 5\0\83\ 1\0j
\10\0|
\ 6\0\83\ 1\0\83\ 1\0\ 1|
\ 4\0j
\11\0|
\ 1\0d
\0\83\ 2\0\ 1t
\12\0j
\13\0|
\ 1\0\83\ 1\0}
\a\0|
\0\0j
\ 6\0|
\ 4\0j
\10\0|
\a\0d
\v\0\83\ 2\0d
\ 4\0\19\83\ 1\0\ 1|
\0\0j
\ 6\0|
\a\0j
\a\0d
\ 5\0\83\ 1\0j
\10\0|
\ 6\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
\a\0d
\ 5\0\83\ 1\0j
\14\0d
\ 4\0d
\ 4\0d
\f\0\83\ 3\0\ 1|
\0\0j
\ 6\0|
\ 4\0j
\10\0|
\a\0d
\v\0\83\ 2\0d
\ 4\0\19\f\83\ 1\0\ 1|
\a\0j
\a\0d
\ 5\0\83\ 1\0j
\14\0d
\ 4\0d
\ 4\0d
\ 6\0\83\ 3\0\ 1|
\0\0j
\ 6\0|
\ 4\0j
\10\0|
\a\0d
\v\0\83\ 2\0d
\ 4\0\19\83\ 1\0\ 1d
35394 +
\0S(
\r\0\0\0s8
\0\0\0Test global number on nodes here. Used by partitionners.s
\r\0\0\0Pyfile112.medi
\ 5\0\0\0R
\ 2\0\0i
\0\0\0\0i
\ 1\0\0\0i
\a\0\0\0i
\b\0\0\0i
\0\0\0i
\ 2\0\0\0Ng
\11ê-
\81\99\97q=i
35395 +
\0\0\0(
\15\0\0\0RY
\0\0\0Ry
\ 1\0\0R[
\0\0\0t
\15\0\0\0Build1DMeshFromCoordsRB
\0\0\0R>
\0\0\0R0
\0\0\0t
\18\0\0\0getGlobalNumFieldAtLevelRk
\0\0\0Rq
\0\0\0t
\18\0\0\0setGlobalNumFieldAtLevelR
\0\ 2\0\0R)
\0\0\0R*
\0\0\0R+
\0\0\0R
\ 3\0\0R1
\0\0\0R
\v\0\0\0R'
\0\0\0R(
\0\0\0R
\9f\0\0\0(
\b\0\0\0R
\0\0\0R9
\ 1\0\0RÔ
\ 1\0\0R
\83\0\0\0R
\86\0\0\0Re
\ 1\0\0t
\ 4\0\0\0dRefR¢
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\15\0\0\0testGlobalNumOnNodes12
\17\0\0s2
\0\0\0\0\ 2\ 6\ 1\f\0
35396 +
\ 1\ f\ 1\r\ 1 \ 1
35397 +
\ 1\17\ 1\e\ 1\f\ 1\10\ 1
35399 +
\ 1%
\ 1\1f\ 1\10\ 1\ f\ 1\1d\ 1\1f\ 1\1c\ 1\1e\ 1\1c\ 1\1d\ 1c
\ 1\0\0\0\11\0\0\0\a\0\0\0C
\0\0\0sÙ
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0\83\ 1\0}
\ 2\0|
\ 2\0j
\ 1\0\83\0\0\ 1t
\ 2\0j
\ 3\0|
\ 2\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 4\0d
\ 3\0\83\ 1\0\ 1t
\ 5\0\83\0\0}
\ 4\0|
\ 3\0|
\ 4\0d
\ 4\0<d
\ 5\0}
\ 5\0d
\18\0}
\ 6\0t
\ 6\0t
\a\0\83\ 1\0}
\a\0|
\a\0j
\b\0|
\ 3\0\83\ 1\0\ 1|
\a\0j
\ 4\0|
\ 5\0\83\ 1\0\ 1|
\a\0j
\0t
\0\0d
\0d
35400 +
\0d
\v\0d
\f\0d
\r\0g
\ 5\0\83\ 1\0\83\ 1\0\ 1|
\a\0j
35401 +
\0|
\ 6\0\8c\0\0\ 1t
\ 6\0t
\v\0\83\ 1\0}
\b\0|
\b\0j
\b\0|
\ 3\0\83\ 1\0\ 1|
\b\0j
\ 4\0|
\ 5\0\83\ 1\0\ 1|
\b\0j
\0t
\0\0d
\ e\0d
\ f\0d
\10\0d
\11\0g
\ 4\0\83\ 1\0\83\ 1\0\ 1|
\b\0j
35402 +
\0|
\ 6\0\8c\0\0\ 1t
\f\0\83\0\0}
\0|
\0j
\r\0|
\a\0\83\ 1\0\ 1|
\0j
\r\0|
\b\0\83\ 1\0\ 1|
\0\0j
\ e\0t
\ f\0|
\0j
\10\0\83\0\0\83\ 1\0t
\ f\0t
\a\0t
\v\0g
\ 2\0\83\ 1\0\83\ 2\0\ 1|
\0j
\11\0\83\0\0}
35404 +
\0j
\12\0\83\0\0\ 4\1ed
\b\07
\ 2(|
35406 +
\0d
\12\0d
\13\0d
\14\0\83\ 3\0\ 1t
\13\0\83\0\0}
\v\0|
\v\0j
\14\0|
\0\83\ 1\0\ 1|
\v\0j
\14\0|
35407 +
\0\83\ 1\0\ 1|
\ 4\0j
\15\0|
\ 1\0d
\b\0\83\ 2\0\ 1|
\v\0j
\15\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1t
\16\0j
\17\0t
\a\0t
\18\0f
\ 2\0g
\ 1\0\83\ 1\0}
\f\0t
\19\0j
\1a\0|
\ 1\0\83\ 1\0}
\ 4\0t
\e\0|
\ 1\0t
\1c\0|
\f\0\83\ 3\0}
\r\0|
\r\0j
\1d\0\83\0\0\ 1|
\0\0j
\ e\0t
\1e\0|
\r\0\83\ 1\0d
\a\0\83\ 2\0\ 1|
\r\0d
\ 4\0\19}
\v\0|
\0\0j
\ e\0t
\1e\0|
\v\0\83\ 1\0d
\b\0\83\ 2\0\ 1|
\v\0d
\ 4\0\19}
\ e\0|
\v\0d
\a\0\19}
\ f\0|
\0\0j
\ e\0|
\ e\0j
\10\0\83\0\0t
\a\0g
\ 1\0\83\ 2\0\ 1|
\0\0j
\1f\0|
\ e\0j
\0|
\ 4\0\83\ 1\0j!
\0|
\a\0d
\15\0d
\15\0\83\ 3\0\83\ 1\0\ 1|
\a\0j
\11\0\83\0\0}
\10\0|
\10\0d
\16\07}
\10\0|
\10\0j
35408 +
\0d
\14\0d
\12\0d
\13\0\83\ 3\0\ 1|
\0\0j
\1f\0|
\ f\0j
\0|
\ 4\0\83\ 1\0j!
\0|
\10\0d
\15\0d
\15\0\83\ 3\0\83\ 1\0\ 1d
\17\0S(
\19\0\0\0ss
\0\0\0Test for advanced API on read to speed up read phase for users with "huge" number of time steps (more than 10 000).s
\r\0\0\0Pyfile113.medi
\ 5\0\0\0R
\ 2\0\0i
\0\0\0\0RÇ
\ 3\0\0g
\0\0\0\0\0\0\14@i
\ 1\0\0\0i
\ 2\0\0\0g
\0\0\0\0\0\0\0\0g
\9a\99\99\99\99\99¹?g
\9a\99\99\99\99\99É?g333333Ó?g
\9a\99\99\99\99\99Ù?g
\0\0\0\0\0\0ð?g
\9a\99\99\99\99\99ñ?g333333ó?gÍÌÌÌÌÌô?i
\ 3\0\0\0i
\ 4\0\0\0g
\0\0\0\0\0\0\18@g
\11ê-
\81\99\97q=g
\0\0\0\0\0\0\0@N(
\ 3\0\0\0g
\0\0\0\0\0\0\14@i
\ 1\0\0\0i
\ 2\0\0\0("
\0\0\0RY
\0\0\0Ry
\ 1\0\0R[
\0\0\0RT
\ 5\0\0RB
\0\0\0R>
\0\0\0Rw
\ 1\0\0R
\1c\ 1\0\0R³
\0\0\0R{
\ 1\0\0R°
\0\0\0R
\13\ 1\0\0Rà
\0\0\0R%
\ 1\0\0R+
\0\0\0R
\ 1\ 2\0\0R
\81\ 1\0\0Rq
\0\0\0R+
\ 1\0\0Rô
\0\0\0RE
\ 3\0\0R
\v\0\0\0t
\ f\0\0\0MEDFileEntitiest
\0\0\0BuildFromRù
\ 3\0\0R'
\0\0\0R(
\0\0\0R[
\ 1\0\0RN
\0\0\0Rv
\ 3\0\0Ry
\0\0\0R0
\0\0\0R5
\ 4\0\0R1
\0\0\0(
\11\0\0\0R
\0\0\0R9
\ 1\0\0RÔ
\ 1\0\0R
\83\0\0\0R
\86\0\0\0Rg
\ 3\0\0t
\ 3\0\0\0ts1Rã
\0\0\0Râ
\0\0\0Rú
\0\0\0t
\ 6\0\0\0f1ts_2Rm
\ 1\0\0t
\ 3\0\0\0entRl
\ 1\0\0RB
\ 2\0\0R;
\ 1\0\0R
35409 +
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testPartialReadOfEntities1M
\17\0\0s^
\0\0\0\0\ 2\ 6\ 1\f\0
35410 +
\ 1\ f\ 1\r\ 1 \ 1
35411 +
\ 2\ 6\ 1\ 6\ 1\f\0\r\0\r\ 1"
\ 1\r\ 1\f\0\r\0\r\ 1\1f\ 1\r\ 1 \ 1\r\ 1\r\ 1(
\ 1\f\ 1\11\ 1\13\ 1 \ 1\r\ 1\r\ 2\10\ 1\10\ 2\18\ 1\ f\ 1\12\ 1
35416 +
\0\13\ 1%
\ 1c
\ 1\0\0\0\e\0\0\0 \0\0\0C
\0\0\0sÅ
35417 +
\0\0d
\ 1\0}
\ 1\0t
\0\0j
\ 1\0\83\0\0}
\ 2\0|
\ 2\0j
\ 2\0\83\0\0}
\ 2\0|
\ 2\0j
\ 3\0\83\0\0}
\ 3\0t
\ 4\0j
\ 5\0\83\0\0}
\ 4\0|
\ 4\0j
\ 6\0|
\ 3\0j
\a\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\b\0d
\ 2\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\0|
\ 3\0j
35418 +
\0\83\0\0\83\ 1\0\ 1|
\ 4\0j
\v\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\f\0\83\0\0}
\ 5\0|
\ 5\0j
\r\0|
\ 2\0\83\ 1\0\ 1|
\ 5\0j
\ e\0d
\ 2\0t
\ f\0|
\ 4\0\83\ 3\0}
\ 6\0|
\0\0j
\10\0|
\ 6\0j
\11\0\83\0\0j
\12\0\83\0\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0|
\ 6\0j
\14\0|
\ 2\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
\ 5\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\ 5\0j
\15\0\83\0\0\
\ 2\0}
\ 6\0}
\a\0|
\0\0j
\10\0|
\ 6\0j
\16\0\83\0\0|
\ 5\0j
\17\0\83\0\0j
\16\0\83\0\0\83\ 2\0\ 1|
\0\0j
\10\0|
\a\0d)
\0d*
\0f
\ 2\0d+
\0d,
\0f
\ 2\0d-
\0d.
\0f
\ 2\0d/
\0d0
\0f
\ 2\0g
\ 4\0\83\ 2\0\ 1t
\18\0j
\ 5\0|
\ 1\0\83\ 1\0}
\b\0|
\0\0j
\10\0|
\b\0j
35419 +
\0\83\0\0d
\f\0\83\ 2\0\ 1|
\0\0j
\10\0|
\b\0j
\19\0\83\0\0d
\ 2\0d
\r\0d
\ e\0g
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0t
\1a\0|
\b\0t
\f\0\83\ 2\0\83\ 1\0\ 1|
\ 5\0j
\ e\0t
\ f\0d
\ 2\0|
\ 4\0\83\ 3\0}
\ 6\0|
\0\0j
\10\0|
\ 6\0j
\11\0\83\0\0j
\12\0\83\0\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0|
\ 6\0j
\14\0|
\ 2\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
\b\0j
\e\0d
\r\0d
\ 3\0d
\ f\0\83\ 3\0\ 1|
\b\0j
\17\0\83\0\0}
\0|
\0d
\ 3\09}
\0|
\b\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\1c\0j
\ 5\0|
\ 1\0d
\f\0\83\ 2\0}
35421 +
\0j
\1d\0\83\0\0d1
\0d2
\0g
\ 2\0\83\ 2\0\ 1|
\0\0j
\10\0t
\1e\0|
35422 +
\0\83\ 1\0d
\ 3\0\83\ 2\0\ 1|
\0\0j
\13\0t
\1a\0|
35423 +
\0t
\1f\0\83\ 2\0\83\ 1\0\ 1|
35424 +
\0d
\ e\0\19j
\ e\0t
\ f\0d
\ 2\0|
\ 4\0\83\ 3\0}
\ 6\0|
\0\0j
\13\0|
\ 6\0j
\14\0|
\ 2\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
35425 +
\0j
\ e\0t
\ f\0d
\ 2\0d
\r\0d
\ 2\0|
\ 4\0\83\ 5\0}
\ 6\0|
\0\0j
\13\0|
\ 6\0j
\14\0|
\ 2\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
35426 +
\0j
\0\83\0\0}
\v\0|
\v\0j!
\0\83\0\0\ 1|
\v\0j!
\0\83\0\0}
\f\0|
\f\0j
\ e\0d
\ 2\0t
\ f\0|
\ 4\0\83\ 3\0}
\ 6\0|
\0\0j
\13\0|
\ 6\0j
\11\0\83\0\0j
\14\0d
\ 3\0|
\ 2\0j
\11\0\83\0\0\14d
\10\0\83\ 2\0\83\ 1\0\ 1|
\ 2\0j
\e\0d
\ f\0d
\r\0d
\ 3\0\83\ 3\0\ 1|
\ 2\0j
\11\0\83\0\0\ 4\1ed
\ 3\09
\ 2(|
\0\0j
\13\0|
\ 6\0j
\14\0|
\ 2\0d
\a\0d
\a\0\83\ 3\0\83\ 1\0\ 1|
\ 2\0j
\11\0\83\0\0\ 4\1ed
\ 3\0:
\ 2(t"
\0d
35427 +
\0d
\b\0\83\ 2\0}
\r\0d
\ 2\0|
\r\0(|
\r\0j#
\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 3\0\83\ 1\0\ 1x3
\0|
35428 +
\0D]+
\0}
\v\0|
\v\0j
\ e\0t
\ f\0d
\ 2\0|
\ 4\0\83\ 3\0}
\ 6\0|
\r\0|
\ 6\0j
\11\0\83\0\07}
\r\0qó
\ 3W|
\0\0j
\13\0|
\r\0j
\14\0d
\b\0|
\ 2\0j
\11\0\83\0\0\14d
\10\0\83\ 2\0\83\ 1\0\ 1t$
\0t%
\0\83\ 1\0}
\ e\0|
\ e\0j
\e\0d
\11\0d
\12\0d
\13\0\83\ 3\0\ 1|
\ e\0j&
\0|
\ 2\0j
\ 3\0\83\0\0\83\ 1\0\ 1t"
\0d
\14\0d
\ 3\0\83\ 2\0}
\ f\0|
\ f\0j#
\0d
\15\0d
\16\0g
\ 2\0\83\ 1\0\ 1t'
\0t(
\0d
\14\0\83\ 1\0\83\ 1\0|
\ f\0d
\17\0d
\17\0\85\ 2\0d
\ 2\0f
\ 2\0<d
\ 3\0|
\ f\0d
\17\0d
\17\0\85\ 2\0d
\ 2\0f
\ 2\0\19\14|
\ f\0d
\17\0d
\17\0\85\ 2\0d
\r\0f
\ 2\0<|
\ e\0j
\0d
\18\0\83\ 1\0\ 1|
\ e\0j)
\0|
\ f\0\83\ 1\0\ 1t
\f\0j
\ 5\0\83\0\0}
\10\0|
\10\0j
\r\0|
\ e\0\83\ 1\0\ 1|
\0\0j
\10\0|
\10\0j*
\0\83\0\0d3
\0\83\ 2\0\ 1|
\0\0j
\10\0|
\10\0j
\19\0\83\0\0d
\12\0d
\13\0d
\11\0g
\ 3\0\83\ 2\0\ 1|
\10\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t$
\0t%
\0\83\ 1\0}
\11\0|
\11\0j
\e\0d
\19\0d
\1a\0d
\e\0\83\ 3\0\ 1|
\11\0j&
\0|
\ 2\0j
\ 3\0\83\0\0\83\ 1\0\ 1t"
\0d
\1c\0d
\ 3\0\83\ 2\0}
\12\0|
\ f\0j#
\0d
\1d\0d
\1e\0g
\ 2\0\83\ 1\0\ 1t'
\0t(
\0d
\1c\0\83\ 1\0\83\ 1\0|
\12\0d
\17\0d
\17\0\85\ 2\0d
\ 2\0f
\ 2\0<|
\12\0d
\17\0d
\17\0\85\ 2\0d
\ 2\0f
\ 2\0c
\ 2\0\19d
\12\07
\ 3<d
\b\0|
\12\0d
\17\0d
\17\0\85\ 2\0d
\ 2\0f
\ 2\0\19\14|
\12\0d
\17\0d
\17\0\85\ 2\0d
\r\0f
\ 2\0<|
\11\0j
\0d
\1f\0\83\ 1\0\ 1|
\12\0j
\0|
\11\0j
35429 +
\0\83\0\0\83\ 1\0\ 1|
\11\0j)
\0|
\12\0\83\ 1\0\ 1t
\f\0j
\ 5\0\83\0\0}
\13\0t+
\0d
\r\0d
\ 3\0d
\0d
\v\0d
35430 +
\0d
\0d
\12\0d!
\0g
\b\0\83\ 1\0}
\14\0|
\14\0j
\0d"
\0\83\ 1\0\ 1|
\13\0j,
\0|
\11\0|
\ 4\0d
\ 2\0|
\14\0\83\ 4\0\ 1|
\13\0j-
\0t%
\0d
\ 2\0|
\ 4\0\83\ 3\0\ 1|
\13\0j-
\0t%
\0d
\ 2\0|
\ 4\0\83\ 3\0\
\ 2\0}
\ 6\0}
\a\0|
\a\0j
\0|
\14\0j
35431 +
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\13\0|
\a\0j
\14\0|
\14\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 6\0j
\14\0|
\12\0d
\10\0\83\ 2\0\83\ 1\0\ 1|
\13\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\f\0|
\ 1\0d
\1f\0\83\ 2\0}
\15\0|
\15\0j-
\0t%
\0d
\ 2\0|
\ 4\0\83\ 3\0\
\ 2\0}
\ 6\0}
\a\0|
\a\0j
\0|
\14\0j
35432 +
\0\83\0\0\83\ 1\0\ 1|
\0\0j
\13\0|
\a\0j
\14\0|
\14\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\13\0|
\ 6\0j
\14\0|
\12\0d
\10\0\83\ 2\0\83\ 1\0\ 1t.
\0t%
\0\83\ 1\0}
\16\0|
\16\0j
\0d#
\0\83\ 1\0\ 1|
\16\0j
\e\0d$
\0d%
\0d&
\0\83\ 3\0\ 1|
\16\0j&
\0|
\ 2\0j
\ 3\0\83\0\0\83\ 1\0\ 1|
\16\0j)
\0|
\ 2\0j
\ 3\0\83\0\0j
\a\0\83\0\0\83\ 1\0\ 1t/
\0j
\ 5\0\83\0\0}
\17\0|
\17\0j
\r\0|
\16\0\83\ 1\0\ 1|
\17\0j
\v\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t0
\0|
\ 1\0\83\ 1\0}
\18\0|
\0\0j
\10\0t
\1e\0|
\18\0\83\ 1\0d
\0\83\ 2\0\ 1g
\0\0|
\18\0D]
\f\0}
\v\0|
\v\0^
\ 2\0q/
\b}
\19\0|
\0\0j
\13\0t
\1a\0|
\19\0d
\ 2\0\19t
\1f\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0t
\1a\0|
\19\0d
\r\0\19t
\1f\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0t
\1a\0|
\19\0d
\ 3\0\19t1
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0t
\1a\0|
\19\0d
\b\0\19t
\1f\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0|
\18\0d
\f\0\19d
\ 2\0\19j
\17\0\83\0\0j2
\0|
\ 2\0j
\11\0\83\0\0d
\10\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0|
\18\0d
\f\0\19d4
\0\19j
\17\0\83\0\0j2
\0d
\ 3\0|
\ 2\0j
\11\0\83\0\0\14d
\10\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0|
\18\0d
\1f\0\19d
\ 2\0\19j
\17\0\83\0\0j2
\0|
\12\0d
\10\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0|
\18\0d
\18\0\19d
\11\0\19j
\17\0\83\0\0j2
\0|
\ f\0d
\10\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\13\0|
\18\0d#
\0\19d$
\0\19j
\17\0\83\0\0j2
\0|
\ 2\0j
\ 3\0\83\0\0j
\a\0\83\0\0d
\a\0\83\ 2\0\83\ 1\0\ 1t1
\0|
\ 1\0d#
\0\83\ 2\0}
\1a\0|
\0\0j
\13\0|
\1a\0d$
\0\19j
\17\0\83\0\0j2
\0|
\ 2\0j
\ 3\0\83\0\0j
\a\0\83\0\0d
\a\0\83\ 2\0\83\ 1\0\ 1|
\0\0j3
\0t4
\0t
\1f\0j
\ 5\0|
\ 1\0d#
\0\83\ 4\0\ 1|
\0\0j3
\0t4
\0t1
\0j
\ 5\0|
\ 1\0d
\18\0\83\ 4\0\ 1t/
\0j
\ 5\0|
\ 1\0d#
\0d%
\0d&
\0\83\ 4\0\ 1|
\0\0j3
\0t4
\0t
\f\0j
\ 5\0|
\ 1\0d#
\0d%
\0d&
\0\83\ 6\0\ 1t
\f\0j
\ 5\0|
\ 1\0d
\18\0d
\12\0d
\13\0\83\ 4\0\ 1|
\0\0j3
\0t4
\0t/
\0j
\ 5\0|
\ 1\0d
\18\0d
\12\0d
\13\0\83\ 6\0\ 1|
\0\0j
\10\0|
\18\0j5
\0\83\0\0d5
\0\83\ 2\0\ 1|
\0\0j
\13\0|
\18\0j6
\0d6
\0g
\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\10\0|
\18\0j5
\0\83\0\0d7
\0\83\ 2\0\ 1|
\0\0j
\13\0|
\18\0j6
\0d8
\0g
\ 1\0\83\ 1\0\f\83\ 1\0\ 1d
\17\0S(9
\0\0\0s5
\0\0\0Like testInt32InMEDFileFieldStar1 but with float32 :)s
\r\0\0\0Pyfile114.medi
\0\0\0\0i
\ 2\0\0\0s
\ e\0\0\0power [MW/m^3]s
\10\0\0\0density [g/cm^3]s
\ f\0\0\0temperature [K]g
\11ê-
\81\99\97q=i
\ 3\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0i
\ 5\0\0\0R
\ 1\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@gH¯¼
\9aò×z>g
\0\0\0\0\0\0"@i
35433 +
\0\0\0iÿÿÿÿi
\f\0\0\0s
\a\0\0\0aa [u1]s
\v\0\0\0bbbvv [ppp]NR
\18\ 1\0\0g
\0\0\0\0\0\03@i
\14\0\0\0iõÿÿÿi
\b\0\0\0s
35434 +
\0\0\0aapfl [u1]s
\ e\0\0\0bbbvvpfl [ppp]R
\19\ 3\0\0i
\a\0\0\0i
\v\0\0\0R
\1a\ 3\0\0R
\e\ 3\0\0g
\0\0\0\0\0\0=@i
\1e\0\0\0iëÿÿÿR
\19\ 1\0\0R
\1c\ 3\0\0(
\ 2\0\0\0i
\ 3\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0i
\ 2\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 2\0\0\0i
\ 4\0\0\0(
\ 2\0\0\0i
\ 6\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0i
\0\0\0\0(
\ 2\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0(
\ 3\0\0\0i
\0\0\0\0i
\ 1\0\0\0g
\0\0\0\0\0\0\0@(
\ 3\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0g
\0\0\0\0\0\0\b@(
\ 2\0\0\0s
\a\0\0\0aa [u1]s
\v\0\0\0bbbvv [ppp](
\ 2\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0(
\ 4\0\0\0s
\f\0\0\03DSurfMesh_1s
\f\0\0\03DSurfMesh_1s
\f\0\0\03DSurfMesh_1s
\f\0\0\03DSurfMesh_1(
\ 2\0\0\0s
\f\0\0\03DSurfMesh_1s
35435 +
\0\0\03DSurfMesh(
\ 4\0\0\0s
35439 +
\0\0\03DSurfMesh(
\ 2\0\0\0s
\f\0\0\03DSurfMesh_1s
35440 +
\0\0\03DSurfMesh(7
\0\0\0R
\ 4\0\0\0R$
\ 1\0\0t
\13\0\0\0convertToFloatFieldR¹
\0\0\0R>
\0\0\0R(
\0\0\0Rc
\0\0\0RØ
\0\0\0Rj
\0\0\0RB
\0\0\0RC
\0\0\0R
\v\0\0\0t
\14\0\0\0MEDFileFloatField1TSR%
\ 1\0\0R
\97\ 1\0\0R
\13\ 1\0\0R+
\0\0\0R)
\ 1\0\0R
\1f\ 3\0\0R0
\0\0\0R1
\0\0\0R(
\ 1\0\0R
\ 3\0\0R+
\ 1\0\0R!
\ 3\0\0Rº
\0\0\0Rt
\0\0\0R°
\0\0\0R"
\ 3\0\0R÷
\0\0\0Ry
\0\0\0t
\18\0\0\0MEDFileFloatFieldMultiTSR$
\ 3\0\0R%
\ 3\0\0t
\ e\0\0\0DataArrayFloatRÃ
\ 1\0\0t
\15\0\0\0MEDCouplingFieldFloatR
\1c\ 1\0\0R³
\0\0\0Rm
\0\0\0Rn
\0\0\0R{
\ 1\0\0R'
\ 3\0\0Rk
\0\0\0R|
\ 1\0\0R~
\ 1\0\0Rw
\ 1\0\0Rà
\0\0\0R[
\ 1\0\0Rô
\0\0\0R
\7f\ 1\0\0R)
\0\0\0R*
\0\0\0RU
\ 1\0\0R(
\ 3\0\0(
\e\0\0\0R
\0\0\0R9
\ 1\0\0Rã
\0\0\0R
\84\0\0\0R:
\ 1\0\0R;
\ 1\0\0R©
\ 2\0\0Rï
\ 2\0\0RC
\ 1\0\0R
\80\0\0\0R)
\ 3\0\0Rv
\ 2\0\0R*
\ 3\0\0R+
\ 3\0\0R,
\ 3\0\0R-
\ 3\0\0R.
\ 3\0\0R/
\ 3\0\0R0
\ 3\0\0R1
\ 3\0\0R
\1a\ 3\0\0R2
\ 3\0\0R3
\ 3\0\0R4
\ 3\0\0Rl
\ 1\0\0R¥
\ 1\0\0R5
\ 3\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1e\0\0\0testFloat32InMEDFileFieldStar1z
\17\0\0sþ
\0\0\0\0\ 2\ 6\ 1\f\ 1\f\ 1\f\ 1\f\ 1\13\ 1\10\ 1\13\ 1\10\ 1 \ 1\r\ 1\15\ 1%
\ 1\1c\ 1\10\ 1\12\ 1"
\ 14
\ 1\ f\ 1\16\ 1\1f\ 1\16\ 1\15\ 1%
\ 1\1c\ 1\13\ 1\f\0
35441 +
\ 1\10\ 1\12\ 1\1c\ 1\16\ 1\16\ 1\19\ 1\1c\ 1\e\ 1\1c\ 1\f\0
35442 +
\0\f\ 1\15\ 1)
\ 1\13\0\11\ 1\1c\0\11\ 1\ f\0\a\0\16\ 1\r\ 1\15\ 1\10\ 1\ 4\ 1#
\ 1\f\ 1\13\ 1\13\ 1\ f\0\13\0"
\0*
\ 1\r\0\r\ 1\f\ 1\r\ 1\16\ 1\1f\ 1\10\ 2\f\ 1\13\ 1\13\ 1\ f\0\13\0"
\0\1c\0*
\ 1\r\0\13\0\r\ 1\f\ 1$
\0\r\ 1\16\ 1\13\ 1\e\0\13\ 1\16\ 1\19\ 1\10\ 1\ f\ 1\e\0\13\ 1\16\ 1\19\ 2\f\ 1\r\ 1\13\ 1\13\ 1\19\ 1\f\ 1\r\ 1\10\ 1\f\ 1\16\ 1\19\ 1\1a\ 1\1a\ 1\1a\ 1\1a\ 2-
\ 11
\ 1'
\ 1'
\ 13
\ 2\ f\ 1/
\ 1\19\ 1\19\ 1\16\ 1\1f\ 1\16\ 1\1f\ 2\16\ 1\19\ 1\16\ 1\1a\ 1c
\ 1\0\0\0\f\0\0\0\15\0\0\0C
\0\0\0sÇ
\ 1\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0g
\12\0\83\ 1\0}
\ 2\0t
\ 1\0d
\ 5\0d
\ 6\0\83\ 2\0}
\ 3\0|
\ 3\0j
\ 2\0|
\ 2\0\83\ 1\0\ 1|
\ 3\0j
\ 3\0d
\a\0\83\ 1\0\ 1|
\ 3\0j
\ 4\0t
\ 5\0t
\ 6\0t
\a\0d
\b\0\83\ 1\0\83\ 1\0\83\ 2\0\ 1|
\ 3\0j
\b\0\83\0\0\ 1t
\0t
35443 +
\0\83\ 1\0}
\ 4\0|
\ 4\0j
\v\0|
\ 3\0\83\ 1\0\ 1|
\ 4\0j
\f\0d
\0\83\ 1\0\ 1|
\ 4\0j
\r\0t
\0\0t
\ 6\0t
\a\0d
\b\0\83\ 1\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\ 4\0j
\b\0\83\0\0\ 1|
\ 3\0j
\ e\0\83\0\0\
\ 5\0}
\ 5\0}
\ 6\0}
\a\0}
\b\0}
\0t
\0t
35446 +
\0j
\v\0|
\ 3\0\83\ 1\0\ 1|
35449 +
\0j
\r\0t
\0\0t
\ 6\0t
\a\0d
\b\0\83\ 1\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
35450 +
\0j
\b\0\83\0\0\ 1t
\ f\0|
\ 1\0|
35451 +
\0t
\10\0\83\ 3\0\ 1t
\11\0|
\ 1\0\83\ 1\0}
\v\0|
\0\0j
\12\0|
35452 +
\0j
\13\0|
\v\0d
\v\0d
\v\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\14\0|
\v\0j
\15\0\83\0\0j
\16\0\83\0\0d
\a\0\83\ 2\0\ 1|
\0\0j
\14\0|
\v\0j
\15\0\83\0\0j
\17\0d
\f\0\83\ 1\0t
\ 5\0\83\ 2\0\ 1d
\r\0S(
\0\0\0s'
\0\0\0EDF8478 : Test of read/write of penta18s
\r\0\0\0Pyfile115.medg
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0à?R
\ 2\0\0i
\ 3\0\0\0i
\ 1\0\0\0i
\12\0\0\0t
\ e\0\0\0FieldOnPenta18t
\11\0\0\0FieldOnPenta18Subg
\11ê-
\81\99\97q=i
\0\0\0\0N(
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0ð?(
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 3\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0(
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 3\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0ð?(
\ 3\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?(
\ 3\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0ð?(
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\0\0(
\ 3\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0(
\ 3\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\0\0(
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0à?(
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0à?(
\ 3\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0à?(
\ 3\0\0\0g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0à?(
\ 3\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0à?(
\ 3\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0à?(
\18\0\0\0RY
\0\0\0R[
\0\0\0Rc
\0\0\0R]
\0\0\0R^
\0\0\0t
\f\0\0\0NORM_PENTA18Rm
\0\0\0Rn
\0\0\0Rd
\0\0\0Rw
\ 1\0\0R
\1c\ 1\0\0R³
\0\0\0RB
\0\0\0R{
\ 1\0\0R
\9b\ 1\0\0R_
\ 2\0\0R.
\0\0\0t
\0\0\0ReadFieldR0
\0\0\0R1
\0\0\0R+
\0\0\0R¹
\0\0\0R§
\0\0\0t
\r\0\0\0getTypeOfCell(
\f\0\0\0R
\0\0\0R9
\ 1\0\0RÔ
\ 1\0\0R
\83\0\0\0R
\b\0\0\0R
\85\0\0\0Re
\ 1\0\0t
\ 2\0\0\0dit
\ 2\0\0\0rdt
\ 3\0\0\0rdiRâ
\0\0\0R
35453 +
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\r\0\0\0testPenta18_1í
\17\0\0s<
\0\0\0\0\ 2\ 6\ 1\ 3\ 1 \ 1 \ 1 \ 1 \ 1 \ 1\12\ 1\ f\ 1\r\ 1\r\ 1\1c\ 1
35454 +
\ 2\f\ 1\r\ 1\r\ 1\1f\ 1
35455 +
\ 2\e\ 2\f\ 1\r\ 1\r\ 1\1f\ 1
35456 +
\ 1\10\ 1\f\ 1\1c\ 1\1c\ 1\1f\ 1c
\ 1\0\0\0\f\0\0\0\ 5\0\0\0C
\0\0\0sÆ
\ 1\0\0d
\ 1\0}
\ 1\0d
\ 2\0}
\ 2\0t
\0\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0g
\ 4\0\83\ 1\0}
\ 3\0t
\ 1\0\83\0\0}
\ 4\0|
\ 4\0j
\ 2\0|
\ 3\0|
\ 3\0\83\ 2\0\ 1|
\ 4\0j
\ 3\0\83\0\0}
\ 4\0|
\ 4\0j
\ 4\0d
\a\0\83\ 1\0\ 1t
\ 5\0\83\0\0}
\ 5\0|
\ 4\0|
\ 5\0d
\ 3\0<t
\ 6\0t
\a\0\83\ 1\0}
\ 6\0|
\ 6\0j
\b\0|
\ 4\0\83\ 1\0\ 1t
\0|
\ 4\0j
35457 +
\0\83\0\0\83\ 1\0}
\a\0|
\a\0j
\v\0\83\0\0\ 1|
\ 6\0j
\f\0|
\a\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0d
\b\0\83\ 1\0\ 1t
\r\0\83\0\0}
\b\0|
\b\0j
\ e\0|
\ 6\0\83\ 1\0\ 1|
\ 5\0j
\ f\0|
\ 1\0d
\ 5\0\83\ 2\0\ 1|
\b\0j
\ f\0|
\ 1\0d
\ 3\0\83\ 2\0\ 1t
\10\0t
\a\0\83\ 1\0}
\ 6\0|
\ 6\0j
\b\0|
\ 4\0\83\ 1\0\ 1t
\11\0|
\ 4\0j
35458 +
\0\83\0\0\83\ 1\0}
\a\0|
\a\0j
\v\0\83\0\0\ 1|
\ 6\0j
\f\0|
\a\0\83\ 1\0\ 1|
\ 6\0j
\ 4\0d
\0\83\ 1\0\ 1t
\12\0\83\0\0}
\b\0|
\b\0j
\ e\0|
\ 6\0\83\ 1\0\ 1d
35459 +
\0d
\0\0l
\13\0}
\0d
35461 +
\0t
\15\0|
\ 2\0\83\ 1\0}
\v\0|
\0\0j
\16\0t
\17\0|
\b\0j
\ f\0|
\ 1\0d
\ 3\0\83\ 4\0\ 1~
\v\0|
35462 +
\0j
\18\0d
\ 3\0\83\ 1\0\ 1|
\0j
\19\0j
\1a\0|
\ 2\0\83\ 1\0rÂ
\ 1|
\0j
\e\0|
\ 2\0\83\ 1\0\ 1n
\0\0d
\0\0S(
\v\0\0\0Ns
\r\0\0\0Pyfile116.meds
\r\0\0\0Pyfile116.erri
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0R
\ 2\0\0R5
\ 4\0\0R6
\ 4\0\0iÿÿÿÿ(
\1c\0\0\0RY
\0\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0RB
\0\0\0R>
\0\0\0R&
\ 3\0\0R
\13\ 1\0\0R³
\0\0\0Rk
\0\0\0R§
\0\0\0Ry
\ 1\0\0R{
\ 1\0\0R
\1e\ 3\0\0R%
\ 1\0\0RB
\ 5\0\0Rc
\ 5\0\0Rb
\ 5\0\0R`
\ 5\0\0R
\11\0\0\0t
\ 2\0\0\0gcR
\ 6\0\0\0R)
\0\0\0R*
\0\0\0t
\a\0\0\0collectR
\8b\ 4\0\0R
\8c\ 4\0\0R
\8d\ 4\0\0(
\f\0\0\0R
\0\0\0R9
\ 1\0\0R
\8f\ 4\0\0R
\80\0\0\0R
\83\0\0\0R
\86\0\0\0R
\b\0\0\0R
\ 2\ 3\0\0Rú
\0\0\0R
\11\0\0\0Rn
\ 5\0\0R
\93\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt9
\0\0\0testMedFileCapabilityToCryOnNewFeatureWritingIntoOldFiles
\11\18\0\0sF
\0\0\0\0\ 4\ 6\ 1\ 6\ 1\18\ 1 \ 1\10\ 1\f\ 1\r\ 1 \ 1
35464 +
\ 1\r\ 1\r\ 1 \ 1\r\ 1\10\ 1\10\ 2\f\ 1\r\0\12\0
35465 +
\ 1\r\ 1\r\ 1 \ 1\r\ 2\18\ 1\f\ 1\19\ 1\ 3\ 1\r\ 1\12\ 1\10\ 1c
\ 1\0\0\0\11\0\0\0\ 4\0\0\0C
\0\0\0sd
\ 2\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 3\0g
\ 2\0\83\ 1\0}
\ 2\0t
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0|
\ 2\0|
\ 2\0|
\ 2\0\83\ 3\0\ 1|
\ 3\0j
\ 3\0\83\0\0}
\ 3\0|
\ 3\0j
\ 4\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0d
\ 4\0d
\ 2\0d
\ 2\0g
\ 3\0\83\ 1\0\ 1t
\ 6\0j
\a\0|
\ 3\0|
\ 4\0g
\ 2\0\83\ 1\0}
\ 5\0|
\ 5\0j
\b\0d
\ 5\0\83\ 1\0\ 1t
\0\83\0\0}
\ 6\0|
\ 5\0|
\ 6\0d
\ 2\0<|
\ 6\0j
35466 +
\0d
\ 2\0\83\ 1\0}
\a\0t
\v\0\83\0\0}
\b\0|
\b\0j
\f\0|
\ 6\0\83\ 1\0\ 1t
\v\0\83\0\0}
\0|
\0j
\f\0|
\a\0\83\ 1\0\ 1t
\r\0t
\ e\0\83\ 1\0}
35468 +
\0j
\b\0d
\ 6\0\83\ 1\0\ 1|
35469 +
\0j
\ f\0|
\ 5\0\83\ 1\0\ 1|
35470 +
\0j
\10\0d
\a\0d
\ 3\0d
\ 4\0\83\ 3\0\ 1t
\0\0|
\ 5\0j
\11\0\83\0\0\83\ 1\0}
\ 2\0|
\ 2\0j
\12\0\83\0\0\ 1|
35471 +
\0j
\13\0|
\ 2\0\83\ 1\0\ 1t
\14\0\83\0\0}
\v\0|
\v\0j
\15\0|
35472 +
\0\83\ 1\0\ 1t
\16\0\83\0\0}
\f\0|
\f\0j
\17\0|
\v\0\83\ 1\0\ 1|
\v\0j
\ 4\0\83\0\0}
\r\0|
\r\0j
\10\0d
\b\0d
\0d
35473 +
\0\83\ 3\0\ 1|
\r\0j
\18\0\83\0\0\ 4\1ed
\v\09
\ 2(|
\f\0j
\17\0|
\r\0\83\ 1\0\ 1t
\19\0\83\0\0}
\ e\0|
\ e\0j
\1a\0|
\f\0\83\ 1\0\ 1|
\ e\0j
35474 +
\0|
\b\0|
\0\83\ 2\0}
\ f\0|
\0\0j
\e\0|
\ f\0|
\0d
\ 2\0\19\83\ 2\0\ 1|
\b\0j
\1c\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1|
\ e\0j
\1c\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1t
\v\0|
\ 1\0\83\ 1\0}
\b\0t
\19\0|
\ 1\0\83\ 1\0}
\ e\0|
\b\0d
\ 2\0\19j
35475 +
\0d
\ 2\0\83\ 1\0}
\a\0t
\v\0\83\0\0}
\10\0|
\10\0j
\f\0|
\a\0\83\ 1\0\ 1|
\ e\0j
35476 +
\0|
\b\0|
\10\0\83\ 2\0}
\ f\0|
\0\0j
\e\0|
\ f\0|
\10\0d
\ 2\0\19\83\ 2\0\ 1d
\0\0S(
\f\0\0\0Ns
\r\0\0\0Pyfile117.medi
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0R
\ 2\0\0R5
\ 4\0\0g
\0\0\0\0\0\0\b@i
\ 3\0\0\0i
\ 4\0\0\0g
\0\0\0\0\0\0\14@g
\0\0\0\0\0\0\0@(
\1d\0\0\0RY
\0\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0Rq
\0\0\0Rº
\ 1\0\0R[
\0\0\0R[
\ 2\0\0RB
\0\0\0R>
\0\0\0RA
\ 4\0\0RP
\ 1\0\0R7
\ 2\0\0Rw
\ 1\0\0R
\1c\ 1\0\0R³
\0\0\0R°
\0\0\0RÐ
\ 1\0\0Ry
\ 1\0\0R{
\ 1\0\0Rà
\0\0\0R%
\ 1\0\0Rô
\0\0\0RE
\ 3\0\0R+
\ 1\0\0R[
\ 1\0\0R\
\ 1\0\0t
\0\0\0myTester1R
\v\0\0\0(
\11\0\0\0R
\0\0\0R9
\ 1\0\0RÔ
\ 1\0\0R
\83\0\0\0R
\85\0\0\0R
\16\ 2\0\0R
\86\0\0\0t
\ 3\0\0\0mmqt
\ 3\0\0\0mmst
\ 4\0\0\0mmsqR
\b\0\0\0Rú
\0\0\0Rm
\ 1\0\0R\
\ 5\0\0Rl
\ 1\0\0RV
\ 3\0\0t
\ 4\0\0\0mmqs(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\e\0\0\0testFieldsLinearToQuadratic7
\18\0\0sZ
\0\0\0\0\ 1\ 6\ 1\12\ 1 \ 1\13\ 1\f\ 1\f\ 1\16\ 1\15\ 1\r\ 1 \ 1
35477 +
\ 1\ f\ 1 \0\r\ 1 \0\r\ 2\f\ 1\r\ 1\r\ 1\13\ 1\12\ 1
35478 +
\ 1\r\ 1 \ 1\r\ 1 \ 1\r\ 1\f\ 1\13\ 1\11\ 1\r\ 1 \ 1\r\ 1\12\ 1\14\ 2\10\0\10\ 1\f\0\f\ 1\13\0 \0\r\ 1\12\ 1\14\ 1c
\ 3\0\0\0\b\0\0\0y
\0\0\0C
\0\0\0sÎ
\ 3\0\0t
\0\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 3\0d
\ 1\0d
\ 1\0d
\ 4\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 2\0d
\ 1\0d
\ 4\0d
\ 2\0d
\ 1\0d
\ 3\0d
\ 1\0d
\ 2\0d
\ 4\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 2\0d
\ 2\0d
\ 4\0d
\ 2\0d
\ 2\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 1\0d
\ 5\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 1\0d
\ 2\0d
\ 5\0d
\ 1\0d
\ 5\0d
\ 1\0d
\ 2\0d
\ 1\0d
\ 5\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 2\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 2\0d
\ 1\0d
\ 5\0d
\ 1\0d
\ 1\0d
\ 5\0d
\ 1\0d
\ 2\0d
\ 5\0d
\ 2\0d
\ 2\0d
\ 5\0d
\ 6\0d
\ 1\0d
\ 1\0d
\ 3\0d
\ 5\0d
\ 1\0d
\ 6\0d
\ 2\0d
\ 1\0d
\ 4\0d
\ 5\0d
\ 1\0d
\ 6\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 5\0d
\ 2\0d
\ 6\0d
\ 2\0d
\ 2\0d
\ 4\0d
\ 5\0d
\ 2\0d
\ 4\0d
\ 1\0d
\ 5\0d
\ 3\0d
\ 1\0d
\ 5\0d
\ 3\0d
\ 2\0d
\ 5\0d
\ 4\0d
\ 2\0d
\ 5\0gx
\0d
\a\0d
\b\0\83\ 3\0}
\ 3\0t
\ 1\0d
\0d
35479 +
\0d
\v\0d
\b\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0d
\15\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0d#
\0d$
\0d%
\0d&
\0d'
\0d(
\0d)
\0d*
\0d+
\0d,
\0d-
\0d.
\0d/
\0g(
\0\83\ 1\0}
\ 4\0t
\0\0d
35480 +
\0d
\0d
\v\0d
\b\0d
\r\0d
\f\0d
\ e\0d
\ f\0d
\1d\0d
\1c\0d
\1e\0d
\1f\0d!
\0d
\0d"
\0d#
\0d
\ 5\0d
\0d
\ 6\0d
\v\0d0
\0d
\f\0d1
\0d
\ e\0d
\b\0d
\v\0d
\r\0d
\f\0d2
\0d
\1c\0d3
\0d
\1e\0d4
\0d
\0d5
\0d"
\0d
\1f\0d
\1e\0d!
\0d
\0g(
\0\83\ 1\0}
\ 5\0|
\ 1\0d
35482 +
\0\19j
\ 2\0|
\ 2\0\83\ 1\0}
\ 6\0|
\0\0j
\ 3\0|
\ 6\0j
\ 4\0\83\0\0d
\ 4\0d
\0d
\v\0g
\ 3\0\83\ 2\0\ 1t
\ 5\0|
\ 6\0j
\ 6\0\83\0\0\83\ 1\0}
\a\0|
\0\0j
\a\0|
\a\0j
\b\0\83\0\0j
\0|
\ 4\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\a\0|
\a\0j
35483 +
\0\83\0\0j
\0|
\ 3\0d6
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\a\0|
\ 6\0j
\v\0\83\0\0j
\0|
\ 5\0d6
\0\83\ 2\0\83\ 1\0\ 1|
\ 1\0d
35484 +
\0\19d
\0\19j
\ 2\0|
\ 2\0\83\ 1\0}
\ 6\0|
\0\0j
\ 3\0|
\ 6\0j
\ 4\0\83\0\0d7
\0d
\b\0d
\r\0g
\ 3\0\83\ 2\0\ 1t
\ 5\0|
\ 6\0j
\ 6\0\83\0\0\83\ 1\0}
\a\0|
\0\0j
\a\0|
\a\0j
\b\0\83\0\0j
\0|
\ 4\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\a\0|
\a\0j
35485 +
\0\83\0\0j
\0|
\ 3\0d6
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\a\0|
\ 6\0j
\v\0\83\0\0j
\0d
\v\0|
\ 5\0\14d6
\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(8
\0\0\0Ng
\0\0\0\0\0\0\0\0g
\0\0\0\0\0\0ð?g
\0\0\0\0\0\0\0@g
\0\0\0\0\0\0\b@g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\ 4@i(
\0\0\0i
\ 3\0\0\0i
\ 1\0\0\0i
\0\0\0\0i
\ 2\0\0\0i
\ 5\0\0\0i
\ 4\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0i
\14\0\0\0i
\15\0\0\0i
\16\0\0\0i
\17\0\0\0i
\18\0\0\0i
\19\0\0\0i
\1a\0\0\0i
\e\0\0\0i
\0\0\0i
\b\0\0\0i
35486 +
\0\0\0i
\v\0\0\0i
\r\0\0\0i
\f\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\1c\0\0\0i
\1d\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i#
\0\0\0i$
\0\0\0i%
\0\0\0i&
\0\0\0i'
\0\0\0g
\0\0\0\0\0\0\12@g
\0\0\0\0\0\0\1a@g
\0\0\0\0\0\0!@g
\0\0\0\0\0\0%@g
\0\0\0\0\0\0)@g
\0\0\0\0\0\0-@g
\11ê-
\81\99\97q=g
\0\0\0\0\0\0\14@(
\f\0\0\0RY
\0\0\0Rk
\0\0\0R5
\ 4\0\0R+
\0\0\0Rº
\0\0\0Rz
\0\0\0R¹
\0\0\0R0
\0\0\0Rv
\0\0\0R1
\0\0\0RØ
\0\0\0R)
\ 1\0\0(
\b\0\0\0R
\0\0\0RV
\ 3\0\0Rr
\ 5\0\0t
\a\0\0\0dataExpt
\b\0\0\0dataExp1t
\b\0\0\0dataExp2t
\a\0\0\0fToTestt
\ 5\0\0\0mTest(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyRq
\ 5\0\0b
\18\0\0s"
\0\0\0\0\ 1ÿ
\0{
\ 1\84\ 1\84\ 1\17\ 1\1f\ 1\12\ 1\1c\ 1\1f\ 1\1f\ 2\17\ 1\1f\ 1\12\ 1\1c\ 1\1f\ 1#
\ 1c
\ 1\0\0\0\15\0\0\0\16\0\0\0C
\0\0\0s0
\ 5\0\0d
\ 1\0}
\ 1\0t
\0\0d
\ 2\0d
\ 3\0g
\ 2\0\83\ 1\0}
\ 2\0t
\ 1\0\83\0\0}
\ 3\0|
\ 3\0j
\ 2\0|
\ 2\0|
\ 2\0|
\ 2\0\83\ 3\0\ 1|
\ 3\0j
\ 3\0\83\0\0}
\ 3\0|
\ 3\0j
\ 4\0\83\0\0}
\ 4\0|
\ 4\0j
\ 5\0d
\ 4\0d
\ 2\0d
\ 2\0g
\ 3\0\83\ 1\0\ 1t
\ 6\0j
\a\0|
\ 3\0|
\ 4\0g
\ 2\0\83\ 1\0}
\ 5\0|
\ 5\0j
\b\0d
\ 5\0\83\ 1\0\ 1|
\ 5\0j
\ 2\0t
\0\0j
\0|
\ 5\0j
35487 +
\0\83\0\0t
\0\0d
\ 6\0d
\ 6\0d
\ 6\0g
\ 3\0d
\ 3\0d
\a\0\83\ 3\0\83\ 2\0\83\ 1\0\ 1t
\v\0\83\0\0}
\ 6\0|
\ 5\0|
\ 6\0d
\ 2\0<|
\ 6\0j
\f\0d
\ 2\0\83\ 1\0}
\a\0t
\r\0\83\0\0}
\b\0|
\b\0j
\ e\0|
\ 6\0\83\ 1\0\ 1t
\r\0\83\0\0}
\0|
\0j
\ e\0|
\a\0\83\ 1\0\ 1t
\ f\0t
\10\0\83\ 1\0}
35489 +
\0j
\b\0d
\b\0\83\ 1\0\ 1|
35490 +
\0j
\11\0|
\ 5\0\83\ 1\0\ 1|
35491 +
\0j
\12\0d
\0d
\ 3\0d
\ 4\0\83\ 3\0\ 1t
\0\0d
35492 +
\0\83\ 1\0}
\ 2\0|
\ 2\0j
\13\0\83\0\0\ 1|
\ 2\0j
\13\0\83\0\0\ 1|
35493 +
\0j
\14\0|
\ 2\0\83\ 1\0\ 1t
\15\0\83\0\0}
\v\0t
\16\0d
35494 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0g
\b\0\83\ 1\0}
\f\0|
\f\0j
\b\0d
\12\0\83\ 1\0\ 1|
\v\0j
\17\0|
35495 +
\0|
\ 6\0d
\ 2\0|
\f\0\83\ 4\0\ 1|
\v\0j
\ 4\0\83\0\0}
\r\0|
\r\0j
\12\0d
\a\0d
\13\0d
\14\0\83\ 3\0\ 1|
\r\0j
\18\0\83\0\0\ 4\1ed
\15\09
\ 2(t
\19\0\83\0\0}
\ e\0|
\ e\0j
\1a\0|
\v\0\83\ 1\0\ 1|
\ e\0j
\1a\0|
\r\0\83\ 1\0\ 1t
\e\0\83\0\0}
\ f\0|
\ f\0j
\1c\0|
\ e\0\83\ 1\0\ 1|
\ f\0j
\f\0|
\b\0|
\0\83\ 2\0}
\10\0|
\b\0j
\1d\0|
\ 1\0d
\ 4\0\83\ 2\0\ 1|
\ f\0j
\1d\0|
\ 1\0d
\ 2\0\83\ 2\0\ 1|
\0\0j
\1e\0|
\10\0|
\a\0\83\ 2\0\ 1t
\r\0|
\ 1\0\83\ 1\0}
\b\0t
\e\0|
\ 1\0\83\ 1\0}
\ f\0|
\b\0d
\ 2\0\19j
\f\0d
\ 2\0\83\ 1\0}
\a\0t
\r\0\83\0\0}
\11\0|
\11\0j
\ e\0|
\a\0\83\ 1\0\ 1|
\ f\0j
\f\0|
\b\0|
\11\0\83\ 2\0}
\10\0|
\0\0j
\1e\0|
\10\0|
\a\0\83\ 2\0\ 1t
\v\0\83\0\0}
\ 6\0|
\ 5\0|
\ 6\0d
\ 2\0<|
\ 6\0j
\f\0d
\ 2\0\83\ 1\0}
\a\0t
\r\0\83\0\0}
\b\0|
\b\0j
\ e\0|
\ 6\0\83\ 1\0\ 1t
\r\0\83\0\0}
\0|
\0j
\ e\0|
\a\0\83\ 1\0\ 1t
\ f\0t
\10\0\83\ 1\0}
35497 +
\0j
\b\0d
\b\0\83\ 1\0\ 1|
35498 +
\0j
\11\0|
\ 5\0\83\ 1\0\ 1|
35499 +
\0j
\12\0d
\0d
\ 3\0d
\ 4\0\83\ 3\0\ 1t
\0\0d
\v\0\83\ 1\0}
\ 2\0|
\ 2\0j
\13\0\83\0\0\ 1|
\ 2\0j
\13\0\83\0\0\ 1|
35500 +
\0j
\14\0|
\ 2\0\83\ 1\0\ 1t
\15\0\83\0\0}
\v\0t
\16\0d
35501 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\16\0g
\0\83\ 1\0}
\f\0|
\f\0j
\b\0d
\12\0\83\ 1\0\ 1|
\v\0j
\17\0|
35502 +
\0|
\ 6\0d
\ 2\0|
\f\0\83\ 4\0\ 1t
\19\0\83\0\0}
\ e\0|
\ e\0j
\1a\0|
\v\0\83\ 1\0\ 1t
\e\0\83\0\0}
\ f\0|
\ f\0j
\1c\0|
\ e\0\83\ 1\0\ 1|
\ f\0j
\f\0|
\b\0|
\0\83\ 2\0}
\10\0t
\16\0d
35503 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\1f\0d
\0d!
\0d"
\0g
\15\0\83\ 1\0}
\12\0|
\12\0j
\b\0d#
\0\83\ 1\0\ 1|
\10\0d
\ 2\0\19d
\ 2\0\19}
\13\0t
\0\0d
\ 2\0d
\ 3\0d
\ 4\0d
\a\0d
\13\0d$
\0d%
\0d&
\0d
35504 +
\0d'
\0d
\ 3\0d(
\0d
\ 4\0d)
\0d$
\0d*
\0d%
\0d
\a\0d
\ 4\0d
\13\0d$
\0g
\15\0\83\ 1\0}
\14\0|
\13\0j
\1f\0d#
\0\83\ 1\0j
\0|
\12\0\83\ 1\0sÞ
\ 4t!
\0\82\ 1\0|
\13\0j
\18\0\83\0\0j
\0|
\14\0d+
\0\83\ 2\0sü
\ 4t!
\0\82\ 1\0|
\13\0j"
\0\83\0\0d"
\0d
\ 3\0d/
\0d#
\0d-
\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 1\0k
\ 2\0s,
\ 5t!
\0\82\ 1\0d.
\0S(0
\0\0\0s?
\0\0\0Same than testFieldsLinearToQuadratic but with profile on NODESs
\r\0\0\0Pyfile118.medi
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0R
\ 2\0\0g
\0\0\0\0\0\0ø?i
\ 3\0\0\0R5
\ 4\0\0g
\0\0\0\0\0\0\b@i
\b\0\0\0i
\0\0\0i
35505 +
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0i
\ f\0\0\0R
\83\ 1\0\0i
\ 4\0\0\0g
\0\0\0\0\0\0\14@g
\0\0\0\0\0\0\10@i
\10\0\0\0i
\1d\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i#
\0\0\0i$
\0\0\0i%
\0\0\0i&
\0\0\0i'
\0\0\0i(
\0\0\0t
\b\0\0\0pfl_NODEi
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\ 4@g
\0\0\0\0\0\0\12@g
\0\0\0\0\0\0\1a@g
\11ê-
\81\99\97q=i
\15\0\0\0R&
\0\0\0N(
\ 2\0\0\0i
\0\0\0\0i
\15\0\0\0(#
\0\0\0RY
\0\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0Rq
\0\0\0Rº
\ 1\0\0R[
\0\0\0R[
\ 2\0\0RB
\0\0\0RÙ
\ 2\0\0RØ
\0\0\0R>
\0\0\0RA
\ 4\0\0RP
\ 1\0\0R7
\ 2\0\0Rw
\ 1\0\0R
\1c\ 1\0\0R³
\0\0\0R°
\0\0\0Ry
\ 1\0\0R{
\ 1\0\0Rà
\0\0\0Rk
\0\0\0R|
\ 1\0\0R+
\ 1\0\0Rô
\0\0\0RE
\ 3\0\0R[
\ 1\0\0R\
\ 1\0\0R
\v\0\0\0t
\0\0\0myTester2R=
\ 2\0\0R1
\0\0\0RE
\ 5\0\0RÄ
\ 1\0\0(
\15\0\0\0R
\0\0\0R9
\ 1\0\0RÔ
\ 1\0\0R
\83\0\0\0R
\85\0\0\0R
\16\ 2\0\0R
\86\0\0\0Rr
\ 5\0\0Rs
\ 5\0\0Rt
\ 5\0\0R
\b\0\0\0Rú
\0\0\0R
\83\ 1\0\0R\
\ 5\0\0Rm
\ 1\0\0Rl
\ 1\0\0RV
\ 3\0\0Ru
\ 5\0\0t
\v\0\0\0pflExpectedt
35506 +
\0\0\0f1tsToTestt
\ 4\0\0\0exp1(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1c\0\0\0testFieldsLinearToQuadratic2u
\18\0\0s
\0\0\0\0\ 2\ 6\ 1\12\ 1 \ 1\13\ 1\f\ 1\f\ 1\16\ 1\15\ 1\r\ 24
\ 2 \ 1
35507 +
\ 1\ f\ 1 \0\r\ 1 \0\r\ 2\f\ 1\r\ 1\r\ 1\13\ 1\f\0
35509 +
\ 1\r\ 1 \ 1$
\0\r\ 1\16\ 1\f\ 1\13\ 1\11\ 1 \ 1\r\ 1\r\ 1 \ 1\r\ 1\12\ 1\10\0\10\ 2\10\ 2\f\0\f\ 1\13\0 \0\r\ 1\12\ 1\10\ 2 \ 1
35510 +
\ 1\ f\ 1 \0\r\ 1 \0\r\ 2\f\ 1\r\ 1\r\ 1\13\ 1\f\0
35512 +
\ 1\r\ 1 \ 1'
\0\r\ 1\16\ 1 \ 1\r\ 1 \ 1\r\ 1\12\ 2K
\0\r\ 1\ e\ 1K
\ 1\1e\ 1\1e\ 10
\ 1c
\ 3\0\0\0\b\0\0\0\19\0\0\0C
\0\0\0si
\ 5\0\0t
\0\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d
\0d
35513 +
\0d
\v\0d
\f\0d
\r\0d
\ e\0d
\ f\0d
\10\0d
\11\0d
\12\0d
\13\0d
\14\0g
\14\0\83\ 1\0}
\ 3\0|
\ 3\0j
\ 1\0d
\15\0\83\ 1\0\ 1|
\ 1\0d
\16\0\19d
\16\0\19}
\ 4\0t
\ 2\0d
\16\0d
\17\0d
\18\0d
\19\0d
\1a\0d
\e\0d
\1c\0d
\1d\0d
\1e\0d
\17\0d
\1f\0d
\18\0d
\0d
\e\0d!
\0d
\1c\0d
\19\0d
\18\0d
\1a\0d
\e\0g
\14\0\83\ 1\0}
\ 5\0|
\0\0j
\ 3\0|
\ 4\0j
\ 4\0d
\15\0\83\ 1\0j
\ 5\0|
\ 3\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 3\0|
\ 4\0j
\ 6\0\83\0\0j
\ 5\0|
\ 5\0d"
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\a\0|
\ 4\0j
\b\0\83\0\0t
\0d
\17\0d
\16\0d#
\0f
\ 2\0d
\15\0d$
\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 1\0\83\ 2\0\ 1|
\ 1\0d
\16\0\19d
\16\0\19j
35514 +
\0|
\ 2\0\83\ 1\0}
\ 6\0|
\0\0j
\a\0|
\ 6\0j
\v\0\83\0\0d%
\0d
\17\0d
\18\0g
\ 3\0\83\ 2\0\ 1t
\f\0|
\ 6\0j
\r\0\83\0\0\83\ 1\0}
\a\0|
\0\0j
\ 3\0|
\a\0j
\ e\0\83\0\0j
\ 5\0t
\0\0d
\17\0d
\16\0d
\18\0d
\19\0d
\e\0d
\1a\0d
\1c\0d
\1d\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d&
\0d'
\0d(
\0d)
\0g
\14\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 3\0|
\a\0j
\ f\0\83\0\0j
\ 5\0t
\ 2\0d
\18\0d
\16\0d
\16\0f
\ 3\0d
\19\0d
\16\0d
\16\0f
\ 3\0d
\18\0d
\17\0d
\16\0f
\ 3\0d
\19\0d
\17\0d
\16\0f
\ 3\0d
\18\0d
\16\0d
\17\0f
\ 3\0d
\19\0d
\16\0d
\17\0f
\ 3\0d
\18\0d
\17\0d
\17\0f
\ 3\0d
\19\0d
\17\0d
\17\0f
\ 3\0d
\1f\0d
\16\0d
\16\0f
\ 3\0d
\18\0d
\1e\0d
\16\0f
\ 3\0d
\1f\0d
\17\0d
\16\0f
\ 3\0d
\19\0d
\1e\0d
\16\0f
\ 3\0d
\1f\0d
\16\0d
\17\0f
\ 3\0d
\18\0d
\1e\0d
\17\0f
\ 3\0d
\1f\0d
\17\0d
\17\0f
\ 3\0d
\19\0d
\1e\0d
\17\0f
\ 3\0d
\19\0d
\16\0d
\1e\0f
\ 3\0d
\18\0d
\16\0d
\1e\0f
\ 3\0d
\18\0d
\17\0d
\1e\0f
\ 3\0d
\19\0d
\17\0d
\1e\0f
\ 3\0g
\14\0d#
\0d
\19\0\83\ 3\0d"
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ 3\0|
\ 6\0j
\10\0\83\0\0j
\ 5\0|
\ 5\0d"
\0\83\ 2\0\83\ 1\0\ 1|
\ 1\0d
\16\0\19d
\17\0\19}
\ 4\0|
\0\0j
\ 3\0|
\ 4\0j
\ 4\0d
\15\0\83\ 1\0j
\ 5\0|
\ 3\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 3\0|
\ 4\0j
\ 6\0\83\0\0j
\ 5\0d
\1a\0|
\ 5\0\14d"
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\a\0|
\ 4\0j
\b\0\83\0\0t
\0d
\17\0d
\16\0d#
\0f
\ 2\0d
\15\0d$
\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 1\0\83\ 2\0\ 1|
\ 1\0d
\16\0\19d
\17\0\19j
35515 +
\0|
\ 2\0\83\ 1\0}
\ 6\0|
\0\0j
\a\0|
\ 6\0j
\v\0\83\0\0d*
\0d
\19\0d
\1a\0g
\ 3\0\83\ 2\0\ 1t
\f\0|
\ 6\0j
\r\0\83\0\0\83\ 1\0}
\a\0|
\0\0j
\ 3\0|
\a\0j
\ e\0\83\0\0j
\ 5\0t
\0\0d
\17\0d
\16\0d
\18\0d
\19\0d
\e\0d
\1a\0d
\1c\0d
\1d\0d
\ 1\0d
\ 2\0d
\ 3\0d
\ 4\0d
\ 5\0d
\ 6\0d
\a\0d
\b\0d&
\0d'
\0d(
\0d)
\0g
\14\0\83\ 1\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ 3\0|
\a\0j
\ f\0\83\0\0j
\ 5\0t
\ 2\0d
\18\0d
\16\0d
\16\0f
\ 3\0d
\19\0d
\16\0d
\16\0f
\ 3\0d
\18\0d
\17\0d
\16\0f
\ 3\0d
\19\0d
\17\0d
\16\0f
\ 3\0d
\18\0d
\16\0d
\17\0f
\ 3\0d
\19\0d
\16\0d
\17\0f
\ 3\0d
\18\0d
\17\0d
\17\0f
\ 3\0d
\19\0d
\17\0d
\17\0f
\ 3\0d
\1f\0d
\16\0d
\16\0f
\ 3\0d
\18\0d
\1e\0d
\16\0f
\ 3\0d
\1f\0d
\17\0d
\16\0f
\ 3\0d
\19\0d
\1e\0d
\16\0f
\ 3\0d
\1f\0d
\16\0d
\17\0f
\ 3\0d
\18\0d
\1e\0d
\17\0f
\ 3\0d
\1f\0d
\17\0d
\17\0f
\ 3\0d
\19\0d
\1e\0d
\17\0f
\ 3\0d
\19\0d
\16\0d
\1e\0f
\ 3\0d
\18\0d
\16\0d
\1e\0f
\ 3\0d
\18\0d
\17\0d
\1e\0f
\ 3\0d
\19\0d
\17\0d
\1e\0f
\ 3\0g
\14\0d#
\0d
\19\0\83\ 3\0d"
\0\83\ 2\0\83\ 1\0\ 1|
\0\0j
\ 3\0|
\ 6\0j
\10\0\83\0\0j
\ 5\0d
\1a\0|
\ 5\0\14d"
\0\83\ 2\0\83\ 1\0\ 1d
\0\0S(+
\0\0\0Ni
\b\0\0\0i
\0\0\0i
35516 +
\0\0\0i
\v\0\0\0i
\f\0\0\0i
\r\0\0\0i
\ e\0\0\0i
\ f\0\0\0i
\1d\0\0\0i
\1e\0\0\0i
\1f\0\0\0i
\0\0\0i!
\0\0\0i"
\0\0\0i#
\0\0\0i$
\0\0\0i%
\0\0\0i&
\0\0\0i'
\0\0\0i(
\0\0\0R|
\ 5\0\0i
\0\0\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 3\0\0\0i
\ 4\0\0\0i
\ 5\0\0\0i
\ 6\0\0\0i
\a\0\0\0g
\0\0\0\0\0\0à?g
\0\0\0\0\0\0\ 4@g
\0\0\0\0\0\0\12@g
\0\0\0\0\0\0\1a@g
\11ê-
\81\99\97q=i
\14\0\0\0R&
\0\0\0g
\0\0\0\0\0\0\b@i
\10\0\0\0i
\11\0\0\0i
\12\0\0\0i
\13\0\0\0g
\0\0\0\0\0\0\14@(
\11\0\0\0Rk
\0\0\0RB
\0\0\0RY
\0\0\0R0
\0\0\0R=
\ 2\0\0R1
\0\0\0R+
\ 1\0\0R+
\0\0\0RÄ
\ 1\0\0Rù
\ 3\0\0R5
\ 4\0\0Rº
\0\0\0Rz
\0\0\0R¹
\0\0\0Rv
\0\0\0RØ
\0\0\0R)
\ 1\0\0(
\b\0\0\0R
\0\0\0RV
\ 3\0\0Rr
\ 5\0\0R~
\ 5\0\0R
\7f\ 5\0\0R
\80\ 5\0\0Rz
\ 5\0\0R{
\ 5\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyR}
\ 5\0\0Ã
\18\0\0s4
\0\0\0\0\ 1H
\0\r\ 1\ e\ 1H
\ 1\1f\ 1\1f\ 14
\ 1\17\ 1\1f\ 1\12\ 1^
\ 1ÿ
\0\1c\ 1\1f\ 2\ e\ 1\1f\ 1#
\ 14
\ 1\17\ 1\1f\ 1\12\ 1^
\ 1ÿ
\0\1c\ 1#
\ 2c
\ 1\0\0\0
35517 +
\0\0\0\ 6\0\0\0C
\0\0\0s¦
\ 2\0\0t
\0\0d
\ 1\0\83\ 1\0}
\ 1\0|
\ 1\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\ 2\0|
\ 2\0j
\ 3\0|
\ 1\0|
\ 1\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0\83\0\0}
\ 2\0|
\ 2\0j
\ 5\0\83\0\0}
\ 3\0|
\ 3\0j
\ 6\0d
\ 2\0\83\ 1\0\ 1t
\a\0j
\b\0|
\ 3\0|
\ 2\0\83\ 2\0}
\ 2\0|
\ 2\0j
\0d
\ 3\0\83\ 1\0\ 1t
35518 +
\0\83\0\0}
\ 4\0|
\ 2\0|
\ 4\0d
\ 2\0<t
\v\0t
\f\0\83\ 1\0}
\ 5\0|
\ 5\0j
\r\0|
\ 2\0\83\ 1\0\ 1t
\0\0|
\ 2\0j
\ e\0\83\0\0\83\ 1\0}
\ 1\0|
\ 1\0j
\ 1\0\83\0\0\ 1|
\ 5\0j
\ f\0|
\ 1\0\83\ 1\0\ 1|
\ 5\0j
\0d
\ 4\0\83\ 1\0\ 1t
\10\0|
\ 2\0j
\ e\0\83\0\0\83\ 1\0}
\ 6\0|
\ 6\0j
\ 1\0\83\0\0\ 1|
\ 6\0j
\0d
\ 5\0\83\ 1\0\ 1d
\ 6\0d
\ 2\0d
\12\0d
\b\0d
\b\0f
\ 4\0g
\ 1\0f
\ 2\0d
\0d
\ 2\0d
\13\0d
\b\0d
\b\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 2\0}
\a\0d
\ 6\0d
\ 2\0d
\14\0d
\v\0d
\b\0f
\ 4\0g
\ 1\0f
\ 2\0d
\0d
\ 2\0d
\15\0d
\f\0d
\b\0f
\ 4\0g
\ 1\0f
\ 2\0g
\ 2\0}
\b\0t
\11\0\83\0\0}
\0|
\0j
\12\0|
\ 5\0|
\ 4\0d
\ 2\0|
\ 6\0\83\ 4\0\ 1|
\0\0j
\13\0|
\0j
\14\0\83\0\0d
\16\0\83\ 2\0\ 1|
\0\0j
\13\0|
\0j
\15\0\83\0\0|
\a\0\83\ 2\0\ 1|
\0\0j
\16\0|
\0j
\17\0|
\ 4\0\83\ 1\0j
\18\0|
\ 5\0d
\r\0d
\r\0\83\ 3\0\83\ 1\0\ 1t
\11\0\83\0\0}
\0|
\0j
\19\0|
\ 5\0|
\ 4\0d
\ 2\0|
\ 6\0\83\ 4\0\ 1|
\0\0j
\13\0|
\0j
\14\0\83\0\0d
\ e\0|
\ 6\0j
\1a\0\83\0\0\16d
\ f\0|
\ 6\0j
\1a\0\83\0\0\16f
\ 2\0\83\ 2\0\ 1|
\0\0j
\13\0|
\0j
\15\0\83\0\0|
\b\0\83\ 2\0\ 1|
\0\0j
\16\0|
\0j
\17\0|
\ 4\0\83\ 1\0j
\18\0|
\ 5\0d
\r\0d
\r\0\83\ 3\0\83\ 1\0\ 1|
\0\0j
\16\0|
\0j
\e\0d
\v\0\83\ 1\0j
\1c\0d
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\16\0|
\0j
\e\0d
\f\0\83\ 1\0j
\1c\0d
\10\0\83\ 1\0\83\ 1\0\ 1d
\11\0S(
\17\0\0\0s×
\0\0\0 Sometimes for downstream code fan of profiles, profile are requested unconditionally. setFieldProfile try to reduce at most profile usage. So setFieldProfileFlatly has been added to always create
35520 +
\0\0\0i
\0\0\0\0R
\ 2\0\0R5
\ 4\0\0R
\83\ 1\0\0i
\ 3\0\0\0i¢
\0\0\0R&
\0\0\0i
\ 4\0\0\0ió
\0\0\0t
\r\0\0\0pfl_NORM_TRI3RX
\ 3\0\0g
\11ê-
\81\99\97q=s
\f\0\0\0%s_NORM_TRI3s
\r\0\0\0%s_NORM_QUAD4iQ
\0\0\0N(
\ 2\0\0\0i
\0\0\0\0i¢
\0\0\0(
\ 2\0\0\0i¢
\0\0\0ió
\0\0\0(
\ 2\0\0\0i
\0\0\0\0i¢
\0\0\0(
\ 2\0\0\0i¢
\0\0\0ió
\0\0\0(
\0\0\0\0(
\1d\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0Rq
\0\0\0Rß
\ 3\0\0R[
\0\0\0R[
\ 2\0\0RB
\0\0\0R>
\0\0\0Rw
\ 1\0\0R
\13\ 1\0\0R³
\0\0\0R§
\0\0\0R{
\ 1\0\0Rk
\0\0\0Rà
\0\0\0R|
\ 1\0\0R+
\0\0\0R]
\ 2\0\0RÄ
\ 1\0\0R0
\0\0\0R5
\ 4\0\0R1
\0\0\0t
\15\0\0\0setFieldProfileFlatlyRC
\0\0\0R=
\ 2\0\0R
\98\ 1\0\0(
35521 +
\0\0\0R
\0\0\0RÔ
\ 1\0\0R
\83\0\0\0R
\85\0\0\0R
\86\0\0\0R
\b\0\0\0R
\83\ 1\0\0t
\ 5\0\0\0refSpt
\ 6\0\0\0refSp1Rú
\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\1a\0\0\0testSetFieldProfileFlatly1Þ
\18\0\0sF
\0\0\0\0\ 3\f\0
35522 +
\ 1 \0\10\ 1\f\ 1\f\ 1\r\ 1\12\ 1\r\ 1 \ 1
35523 +
\ 1\f\ 1\r\ 1\12\ 1
35524 +
\ 1\r\ 1\r\ 1\12\0
35525 +
\0\r\ 26
\ 16
\ 2 \ 1\16\ 1\16\ 1\16\ 1%
\ 2 \ 1\16\ 10
\ 1\16\ 1%
\ 1\1f\ 1\1f\ 1c
\ 1\0\0\0
35526 +
\0\0\0\ 6\0\0\0C
\0\0\0s*
\ 4\0\0t
\0\0d
\ 1\0\83\ 1\0}
\ 1\0|
\ 1\0j
\ 1\0\83\0\0\ 1t
\ 2\0\83\0\0}
\ 2\0|
\ 2\0j
\ 3\0|
\ 1\0|
\ 1\0\83\ 2\0\ 1|
\ 2\0j
\ 4\0\83\0\0}
\ 2\0|
\ 2\0j
\ 5\0d
\ 2\0\83\ 1\0\ 1|
\ 2\0j
\ 6\0\83\0\0d
\ 3\0\19}
\ 3\0t
\a\0\83\0\0}
\ 4\0|
\ 2\0|
\ 4\0d
\ 3\0<|
\ 3\0|
\ 4\0d
\ 4\0<d
\ 5\0}
\ 5\0t
\b\0d
\ 3\0d
\ 6\0d
\a\0d
\b\0g
\ 4\0\83\ 1\0}
\ 6\0|
\ 6\0j
\ 5\0|
\ 5\0\83\ 1\0\ 1t
\b\0d
\ 3\0d
\ 6\0d
\a\0d
\0g
\ 4\0\83\ 1\0}
\a\0|
\a\0j
\ 5\0|
\ 5\0\83\ 1\0\ 1t
\b\0d
\ 6\0d
\a\0d
35527 +
\0d
\v\0d
\b\0g
\ 5\0\83\ 1\0}
\b\0|
\b\0j
\ 5\0d
\f\0\83\ 1\0\ 1t
\b\0d
\a\0d
35528 +
\0d
\v\0d
\r\0g
\ 4\0\83\ 1\0}
\0|
\0j
\ 5\0d
\ e\0\83\ 1\0\ 1|
\ 4\0j
\0d
\ 3\0|
\b\0\83\ 2\0\ 1|
\ 4\0j
\0d
\ 4\0|
\0\83\ 2\0\ 1|
\ 4\0j
\0d
\ 3\0|
\ 6\0\83\ 2\0\ 1|
\ 4\0j
\0d
\ 4\0|
\a\0\83\ 2\0\ 1|
\0\0j
35529 +
\0|
\ 4\0j
\v\0|
\ 5\0\83\ 1\0d
\11\0\83\ 2\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 3\0|
\ 5\0\83\ 2\0j
\ e\0|
\ 6\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 4\0|
\ 5\0\83\ 2\0j
\ e\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 3\0d
\f\0\83\ 2\0j
\ e\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 4\0d
\ e\0\83\ 2\0j
\ e\0|
\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\ f\0t
\10\0|
\ 4\0j
\0d
\ 4\0|
\a\0\83\ 4\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 3\0|
\ 5\0\83\ 2\0j
\ e\0|
\ 6\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 4\0|
\ 5\0\83\ 2\0j
\ e\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 3\0d
\f\0\83\ 2\0j
\ e\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 4\0d
\ e\0\83\ 2\0j
\ e\0|
\0\83\ 1\0\83\ 1\0\ 1|
\ 4\0j
\11\0d
\ 3\0|
\ 5\0\83\ 2\0\ 1|
\0\0j
35530 +
\0|
\ 4\0j
\v\0|
\ 5\0\83\ 1\0d
\12\0\83\ 2\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 4\0|
\ 5\0\83\ 2\0j
\ e\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 3\0d
\f\0\83\ 2\0j
\ e\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 4\0d
\ e\0\83\ 2\0j
\ e\0|
\0\83\ 1\0\83\ 1\0\ 1|
\ 4\0j
\11\0d
\ 4\0|
\ 5\0\83\ 2\0\ 1|
\0\0j
35531 +
\0|
\ 4\0j
\v\0|
\ 5\0\83\ 1\0d
\13\0\83\ 2\0\ 1|
\0\0j
\ f\0t
\10\0|
\ 4\0j
\11\0d
\ f\0|
\ 5\0\83\ 4\0\ 1|
\ 4\0j
\0d
\ 4\0|
\a\0\83\ 2\0\ 1|
\ 4\0j
\0d
\ 3\0|
\ 6\0\83\ 2\0\ 1|
\0\0j
35532 +
\0|
\ 4\0j
\v\0|
\ 5\0\83\ 1\0d
\14\0\83\ 2\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 3\0|
\ 5\0\83\ 2\0j
\ e\0|
\ 6\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 4\0|
\ 5\0\83\ 2\0j
\ e\0|
\a\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 3\0d
\f\0\83\ 2\0j
\ e\0|
\b\0\83\ 1\0\83\ 1\0\ 1|
\0\0j
\f\0|
\ 4\0j
\r\0d
\ 4\0d
\ e\0\83\ 2\0j
\ e\0|
\0\83\ 1\0\83\ 1\0\ 1d
\10\0S(
\15\0\0\0s$
\0\0\0 Here multi level groups are createdi
\v\0\0\0R
\ 2\0\0i
\0\0\0\0iÿÿÿÿR
\93\ 2\0\0i
\ 1\0\0\0i
\ 2\0\0\0i
\ 6\0\0\0i
\a\0\0\0i
\ 3\0\0\0i
\ 5\0\0\0R
\95\ 2\0\0i
\b\0\0\0Rè
\ 1\0\0iþÿÿÿN(
\ 2\0\0\0i
\0\0\0\0iÿÿÿÿ(
\ 1\0\0\0iÿÿÿÿ(
\0\0\0\0(
\ 2\0\0\0i
\0\0\0\0iÿÿÿÿ(
\12\0\0\0RY
\0\0\0Ry
\ 1\0\0R±
\0\0\0Rc
\0\0\0Râ
\ 1\0\0RB
\0\0\0R
\9b\ 1\0\0R>
\0\0\0Rk
\0\0\0R¥
\ 2\0\0R+
\0\0\0RÛ
\0\0\0R0
\0\0\0RG
\0\0\0R1
\0\0\0R)
\0\0\0R*
\0\0\0t
\12\0\0\0removeGroupAtLevel(
35533 +
\0\0\0R
\0\0\0RÔ
\ 1\0\0R
\83\0\0\0R
\84\0\0\0R
\86\0\0\0Rý
\ 2\0\0t
\ 6\0\0\0grp0_0t
\ 6\0\0\0grp0_1R
\95\ 2\0\0Rè
\ 1\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt+
\0\0\0testRmGroupAtSpeLevelAndMultiLevGrpCreation
\ 4\19\0\0sb
\0\0\0\0\ 2\f\0
35534 +
\ 1 \0\10\ 1\f\ 1\r\ 1\10\ 1 \ 1
35536 +
\ 2\ 6\ 1\18\0\r\ 1\18\0\r\ 1\e\0\r\ 1\18\0\r\ 2\10\ 1\10\ 1\10\ 1\10\ 1\19\ 1"
\ 1"
\ 1"
\ 1"
\ 1\19\ 1"
\ 1"
\ 1"
\ 1"
\ 1\10\ 1\19\ 1"
\ 1"
\ 1"
\ 1\10\ 1\19\ 1\19\ 1\10\ 1\10\ 1\19\ 1"
\ 1"
\ 1"
\ 1"
\ 1(
\83\0\0\0R
\12\0\0\0R
\13\0\0\0R9
\0\0\0RS
\0\0\0R
\91\0\0\0R¦
\0\0\0Rª
\0\0\0R¿
\0\0\0Rð
\0\0\0Rò
\0\0\0Rý
\0\0\0R
\ 3\ 1\0\0R
\r\ 1\0\0R
\11\ 1\0\0R
\17\ 1\0\0R
\1f\ 1\0\0R"
\ 1\0\0RF
\ 1\0\0Rq
\ 1\0\0R
\84\ 1\0\0R
\8b\ 1\0\0R
\8e\ 1\0\0R
\8f\ 1\0\0R
\94\ 1\0\0R
\96\ 1\0\0R
\9a\ 1\0\0R¢
\ 1\0\0R§
\ 1\0\0R¨
\ 1\0\0R
\ 1\0\0R·
\ 1\0\0R»
\ 1\0\0RË
\ 1\0\0RÜ
\ 1\0\0Rô
\ 1\0\0Rõ
\ 1\0\0Rú
\ 1\0\0R
\11\ 2\0\0R
\19\ 2\0\0R
\1f\ 2\0\0R%
\ 2\0\0R1
\ 2\0\0RI
\ 2\0\0Rm
\ 2\0\0R
\87\ 2\0\0R
\8a\ 2\0\0R
\90\ 2\0\0R¤
\ 2\0\0R¦
\ 2\0\0R
\ 2\0\0R¹
\ 2\0\0RÒ
\ 2\0\0Rã
\ 2\0\0Rõ
\ 2\0\0Rö
\ 2\0\0R
\ 5\ 3\0\0R
\12\ 3\0\0R
\18\ 3\0\0R6
\ 3\0\0R<
\ 3\0\0RW
\ 3\0\0R]
\ 3\0\0Rh
\ 3\0\0Rs
\ 3\0\0R{
\ 3\0\0R
\8c\ 3\0\0R
\97\ 3\0\0R
\9a\ 3\0\0R
\9b\ 3\0\0R¤
\ 3\0\0R¨
\ 3\0\0R¯
\ 3\0\0R²
\ 3\0\0R·
\ 3\0\0RÆ
\ 3\0\0RÌ
\ 3\0\0RÍ
\ 3\0\0RÔ
\ 3\0\0RÖ
\ 3\0\0Rì
\ 3\0\0t
\b\0\0\0unittestt
35537 +
\0\0\0skipUnlesst
\e\0\0\0MEDCouplingHasNumPyBindingsRö
\ 3\0\0Rþ
\ 3\0\0R
\1e\ 4\0\0R3
\ 4\0\0R7
\ 4\0\0RN
\ 4\0\0RV
\ 4\0\0Rs
\ 4\0\0R
\80\ 4\0\0t
\b\0\0\0platformt
\ 6\0\0\0systemt
\ 5\0\0\0lowerR
\90\ 4\0\0R
\92\ 4\0\0R
\95\ 4\0\0R¡
\ 4\0\0R·
\ 4\0\0R½
\ 4\0\0RÄ
\ 4\0\0RÉ
\ 4\0\0RË
\ 4\0\0RÍ
\ 4\0\0RÐ
\ 4\0\0RÕ
\ 4\0\0RÝ
\ 4\0\0RÞ
\ 4\0\0Rß
\ 4\0\0Rà
\ 4\0\0Rá
\ 4\0\0Rü
\ 4\0\0R9
\ 5\0\0RA
\ 5\0\0R
\ 5\0\0\0t
\11\0\0\0MEDFileVersionStrRG
\ 5\0\0RO
\ 5\0\0RS
\ 5\0\0RX
\ 5\0\0R^
\ 5\0\0Rd
\ 5\0\0Rm
\ 5\0\0Rp
\ 5\0\0Rv
\ 5\0\0Rq
\ 5\0\0R
\81\ 5\0\0R}
\ 5\0\0R
\86\ 5\0\0R
\8a\ 5\0\0(
\0\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyR$
\0\0\0A
\0\0\0sþ
\0\0\0\ 6\ 1 \ e + s k
\v 1 (
\ 5 \18 \12 \f \15 \11 d 9 ' $
\1a !
\e &
\17 /
\1c \19 \ 6 + F U 2 2 * 5 < %
\1d \14 A
\9c Z Y
\1a F G % ( 6 A '
\a . p , r Q A E b o ¡ t R
\13 7 7 F $ ? S 3
\ e 7
\v Q
\1eb E L ; ) + % ' 0 '-(
\10 \ f\1e\19 8
\1f j =
\13 \11 \1c $ E F ; ; ) m Ø
\ e$
\ 1\1e\ 1\15\11\1eZ
\1e,
\e - s $!
\ 1\1e\ 1\15$ +
\13 N
\e & /t
\b\0\0\0__main__(
\15\0\0\0t
\0\0\0MEDLoaderR
\8b\ 5\0\0R
\8e\ 5\0\0t
\ 4\0\0\0mathR
\ 1\0\0\0R
\ 2\0\0\0R
\ 3\0\0\0R
\ 4\0\0\0t
\11\0\0\0distutils.versionR
\ 5\0\0\0R
\15\0\0\0t
\f\0\0\0version_infot
\ 5\0\0\0majort
\a\0\0\0cPickleRî
\ 3\0\0R
\1f\0\0\0R
\ 6\0\0\0t
\b\0\0\0TestCaseR$
\0\0\0R
\12\0\0\0t
\ 4\0\0\0main(
\0\0\0\0(
\0\0\0\0(
\0\0\0\0ss
\0\0\0/volatile/home/salome/Test_Archives/SALOME-S-8.5.0-CO7-SRC/SOURCES/MEDCOUPLING/src/MEDLoader/Swig/MEDLoaderTest3.pyt
\b\0\0\0<module>
\16\0\0\0sL
\0\0\0
35538 +
\ 1\f\ 1\f\ 1\1c\ 1\10\ 1\10\ 2\f\ 1\12\ 1\ f\ 2\f\ 2\16\1e\19ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0ÿ
\0\r\f\ 1
35539 \ Pas de fin de ligne à la fin du fichier
35540 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTest4.py MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTest4.py
35541 --- MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTest4.py 2018-04-19 17:04:36.768223341 +0200
35542 +++ MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTest4.py 2018-04-19 17:25:17.766797930 +0200
35545 # See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
35547 -# Author : Anthony Geay (CEA/DEN)
35548 +# Author : Anthony Geay (EDF R&D)
35550 from MEDLoader import *
35552 @@ -4119,7 +4119,7 @@
35556 - """ This test defines 2 fields f0,f1,f2,f3 lying on an unstructured mesh whith cells including NORM_POINT1.
35557 + """ This test defines 2 fields f0,f1,f2,f3 lying on an unstructured mesh with cells including NORM_POINT1.
35558 Both f0 and f1 are on NODES and f2 and f3 are on cells. f1 and f2 share the same support.
35559 f0 is on a nodal support that is not matchable with any cells (including NORM_POINT1)
35560 This test is a more aggressive version of test26.
35561 @@ -4792,7 +4792,7 @@
35563 self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
35564 ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
35565 - self.assertTrue(not ncc)# false beacause 2D in MED file
35566 + self.assertTrue(not ncc)# false because 2D in MED file
35567 self.assertTrue(a0.isEqual(DataArrayDouble([(5.5,0.5,0),(5.5,-0.5,0),(6.5,0.5,0),(6.5,-0.5,0),(6.5,1.5,0),(7.5,0.5,0),(7.5,-0.5,0),(7.5,1.5,0),(7.5,2.5,0),(8.5,0.5,0),(8.5,-0.5,0),(8.5,1.5,0),(8.5,2.5,0),(8.5,3.5,0),(8.55,0.5,0),(8.55,-0.5,0),(8.55,1.5,0),(8.55,2.5,0),(8.55,3.5,0)]),1e-12))
35568 self.assertTrue(a1.isEqual(DataArrayByte([9,9,9,9,9,9,7,7,7,7])))
35569 self.assertTrue(a2.isEqual(DataArrayInt([0,5,10,15,20,25,30,35,40,45])))# the bug was here.
35570 @@ -4959,7 +4959,7 @@
35574 - """ Emulate MEDReader in // mode context. Here a Simple mesh having more nodes than really needed. This test focuses on that point particulary."""
35575 + """ Emulate MEDReader in // mode context. Here a Simple mesh having more nodes than really needed. This test focuses on that point particularly."""
35576 fname="ForMEDReader35.med"
35577 arrX=DataArrayDouble(7) ; arrX.iota()
35578 arrY=DataArrayDouble([0.,1.])
35579 @@ -5515,6 +5515,74 @@
35580 assert(v1.isEqual(DataArrayDouble([101,102,103,104,106,107,108,109,111,112,113,114,116,117,118,119,121,122,123,124]),1e-12))
35583 + def test42(self):
35584 + """ EDF14869 - SEG4 """
35585 + fname="ForMEDReader42.med"
35588 + a0exp=DataArrayDouble([0.,1.,0.3,0.7])
35589 + m=MEDCouplingUMesh("mesh",1)
35590 + m.setCoords(a0exp)
35591 + m.allocateCells()
35592 + m.insertNextCell(NORM_SEG4,[0,1,2,3])
35593 + mm=MEDFileUMesh() ; mm[0]=m
35595 + f=MEDCouplingFieldDouble(ON_CELLS) ; f.setMesh(m) ; f.setName("Field")
35596 + arr=DataArrayDouble(m.getNumberOfCells()) ; arr.iota() ; arr*=0.1 ; f.setArray(arr) ; f.checkConsistencyLight()
35597 + ff=MEDFileField1TS() ; ff.setFieldNoProfileSBT(f)
35598 + fmts=MEDFileFieldMultiTS() ; fmts.pushBackTimeStep(ff)
35600 + ms=MEDFileMeshes() ; ms.pushMesh(mm)
35601 + fields=MEDFileFields() ; fields.pushField(fmts)
35602 + ms.write(fname,2) ; fields.write(fname,0)
35604 + ms=MEDFileMeshes(fname)
35605 + fields=MEDFileFields(fname,False)
35606 + fields.removeFieldsWithoutAnyTimeStep()
35607 + fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
35608 + allFMTSLeavesToDisplay=[]
35609 + for fields in fields_per_mesh:
35610 + allFMTSLeavesToDisplay2=[]
35611 + for fmts in fields:
35612 + tmp=fmts.splitDiscretizations()
35614 + self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
35616 + allFMTSLeavesToDisplay2+=tmp
35618 + allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
35621 + self.assertEqual(len(allFMTSLeavesToDisplay),1)
35622 + self.assertEqual(len(allFMTSLeavesToDisplay[0]),1)
35623 + allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
35624 + self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
35625 + allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
35626 + self.assertEqual(len(allFMTSLeavesPerCommonSupport1),1)
35628 + mst=MEDFileMeshStruct.New(ms[0])
35629 + fcscp=allFMTSLeavesPerCommonSupport1[0][1]
35630 + mml=fcscp.buildFromScratchDataSetSupport(0,fields)
35631 + mml2=mml.prepare()
35632 + self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
35633 + ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
35634 + self.assertTrue(not ncc)
35635 + self.assertTrue(a0.isEqual(a0exp.changeNbOfComponents(3,0.),1e-12))
35636 + self.assertTrue(a1.isEqual(DataArrayByte([35])))# VTK_CUBIC_LINE
35637 + self.assertTrue(a2.isEqual(DataArrayInt([0])))
35638 + self.assertTrue(a3.isEqual(DataArrayInt([4,0,1,2,3])))
35639 + self.assertTrue(a4 is None)
35640 + self.assertTrue(a5 is None)
35641 + self.assertTrue(mml2.retrieveGlobalNodeIdsIfAny() is None)
35642 + for i in range(1):
35643 + ffCell=allFMTSLeavesPerCommonSupport1[0][0][0][i]
35644 + fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
35645 + ffCell.loadArraysIfNecessary()
35646 + v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
35647 + self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
35648 + self.assertTrue(v.isEqual(DataArrayDouble([0.0]),1e-14))
35653 if __name__ == "__main__":
35654 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTypemaps.i MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTypemaps.i
35655 --- MEDCOUPLING_old/src/MEDLoader/Swig/MEDLoaderTypemaps.i 2018-04-19 17:04:36.768223341 +0200
35656 +++ MEDCOUPLING_new/src/MEDLoader/Swig/MEDLoaderTypemaps.i 2018-04-19 17:25:17.786798325 +0200
35659 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
35661 -// Author : Anthony Geay (CEA/DEN)
35662 +// Author : Anthony Geay (EDF R&D)
35666 @@ -402,3 +402,41 @@
35671 +PyObject *MEDFileField1TS_getFieldWithProfile(const typename MLFieldTraits<T>::F1TSType *self, TypeOfField type, int meshDimRelToMax, const MEDFileMesh *mesh)
35673 + DataArrayInt *ret1(NULL);
35674 + typename MEDCoupling::Traits<T>::ArrayType *ret0(self->getFieldWithProfile(type,meshDimRelToMax,mesh,ret1));
35675 + PyObject *ret(PyTuple_New(2));
35676 + PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTITraits<T>::TI, SWIG_POINTER_OWN | 0 ));
35677 + PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_MEDCoupling__DataArrayInt, SWIG_POINTER_OWN | 0 ));
35682 +PyObject *MEDFileField1TS_getUndergroundDataArrayExt(const typename MLFieldTraits<T>::F1TSType *self)
35684 + std::vector< std::pair<std::pair<INTERP_KERNEL::NormalizedCellType,int>,std::pair<int,int> > > elt1Cpp;
35685 + typename MEDCoupling::Traits<T>::ArrayType *elt0=self->getUndergroundDataArrayExt(elt1Cpp);
35688 + PyObject *ret=PyTuple_New(2);
35689 + PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(elt0),SWIGTITraits<T>::TI, SWIG_POINTER_OWN | 0 ));
35690 + std::size_t sz=elt1Cpp.size();
35691 + PyObject *elt=PyList_New(sz);
35692 + for(std::size_t i=0;i<sz;i++)
35694 + PyObject *elt1=PyTuple_New(2);
35695 + PyObject *elt2=PyTuple_New(2);
35696 + PyTuple_SetItem(elt2,0,SWIG_From_int((int)elt1Cpp[i].first.first));
35697 + PyTuple_SetItem(elt2,1,SWIG_From_int(elt1Cpp[i].first.second));
35698 + PyObject *elt3=PyTuple_New(2);
35699 + PyTuple_SetItem(elt3,0,SWIG_From_int(elt1Cpp[i].second.first));
35700 + PyTuple_SetItem(elt3,1,SWIG_From_int(elt1Cpp[i].second.second));
35701 + PyTuple_SetItem(elt1,0,elt2);
35702 + PyTuple_SetItem(elt1,1,elt3);
35703 + PyList_SetItem(elt,i,elt1);
35705 + PyTuple_SetItem(ret,1,elt);
35708 diff -Naur MEDCOUPLING_old/src/MEDLoader/Swig/SauvLoaderTest.py MEDCOUPLING_new/src/MEDLoader/Swig/SauvLoaderTest.py
35709 --- MEDCOUPLING_old/src/MEDLoader/Swig/SauvLoaderTest.py 2018-04-19 17:04:36.768223341 +0200
35710 +++ MEDCOUPLING_new/src/MEDLoader/Swig/SauvLoaderTest.py 2018-04-19 17:25:17.769797989 +0200
35711 @@ -248,6 +248,58 @@
35712 os.remove(sauvFile)
35715 + def testSauvReaderOnBigMesh(self):
35716 + # create a box with 1 million cells
35718 + nb_segs = [100, 100, 100]
35719 + box_sizes = [1., 1., 1.]
35720 + compo_names = ["x", "y", "z"]
35721 + box_steps = [box_sizes[i]/nb_segs[i] for i in range(mesh_dim)]
35722 + mesh = MEDCouplingCMesh.New("Mesh_box")
35726 + for i in range(mesh_dim):
35727 + axe_coords = [j*box_steps[i] for j in range(nb_segs[i]+1)]
35729 + axe_arr = DataArrayDouble.New(axe_coords)
35730 + axe_arr.setInfoOnComponent(0,compo_names[i])
35732 + axes_arrays.append(axe_arr)
35734 + mesh.setCoords(*axes_arrays)
35735 + umesh = mesh.buildUnstructured()
35737 + m=MEDFileUMesh.New()
35738 + m.setMeshAtLevel(0,umesh)
35741 + ms=MEDFileMeshes.New()
35742 + ms.setMeshAtPos(0,m)
35743 + meddata=MEDFileData.New()
35744 + meddata.setMeshes(ms)
35747 + sauvFile = "box.sauv"
35749 + sw.setMEDFileDS(meddata);
35750 + sw.write(sauvFile);
35753 + sr=SauvReader(sauvFile);
35754 + d2=sr.loadInMEDFileDS();
35755 + mm = d2.getMeshes()
35756 + m = mm.getMeshAtPos(0)
35759 + coords = m.getCoords()
35760 + nb_coords_values = coords.getNbOfElems()
35761 + nb_coords_values_expected = mesh_dim*((nb_segs[0]+1)*(nb_segs[1]+1)*(nb_segs[2]+1))
35762 + self.assertEqual(nb_coords_values, nb_coords_values_expected)
35764 + os.remove( sauvFile )
35767 @unittest.skipUnless(HasXDR(),"requires XDR")
35768 def testMissingGroups(self):
35769 """test for issue 0021749: [CEA 601] Some missing groups in mesh after reading a SAUV file with SauvReader."""
35770 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/CMakeLists.txt MEDCOUPLING_new/src/MEDPartitioner/CMakeLists.txt
35771 --- MEDCOUPLING_old/src/MEDPartitioner/CMakeLists.txt 2018-04-19 17:04:36.769223361 +0200
35772 +++ MEDCOUPLING_new/src/MEDPartitioner/CMakeLists.txt 2018-04-19 17:25:17.685796329 +0200
35774 # VERY IMPORTANT PUT METIS BEFORE SCOTCH because
35775 # metis.h is also in SCOTCH install dir !!!
35777 +IF(MEDCOUPLING_PARTITIONER_PTSCOTCH)
35778 + ADD_DEFINITIONS(${PTSCOTCH_DEFINITIONS})
35779 + INCLUDE_DIRECTORIES(${PTSCOTCH_INCLUDE_DIRS})
35780 +ENDIF(MEDCOUPLING_PARTITIONER_PTSCOTCH)
35782 IF(MEDCOUPLING_PARTITIONER_SCOTCH)
35783 ADD_DEFINITIONS(${SCOTCH_DEFINITIONS})
35784 INCLUDE_DIRECTORIES(${SCOTCH_INCLUDE_DIRS})
35785 @@ -103,8 +108,9 @@
35787 ${LIBXML2_LIBRARIES}
35794 IF(MEDCOUPLING_PARTITIONER_PARMETIS)
35795 SET(medpartitionercpp_HEADERS_HXX ${medpartitionercpp_HEADERS_HXX} MEDPARTITIONER_ParMetisGraph.hxx)
35796 @@ -124,6 +130,12 @@
35797 SET(medpartitionercpp_DEFINITIONS "${medpartitionercpp_DEFINITIONS} ${SCOTCH_DEFINITIONS}")
35798 SET(medpartitionercpp_LDFLAGS ${medpartitionercpp_LDFLAGS} ${SCOTCH_LIBRARIES})
35799 ENDIF(MEDCOUPLING_PARTITIONER_SCOTCH)
35800 +IF(MEDCOUPLING_PARTITIONER_PTSCOTCH)
35801 + SET(medpartitionercpp_HEADERS_HXX ${medpartitionercpp_HEADERS_HXX} MEDPARTITIONER_PTScotchGraph.hxx)
35802 + SET(medpartitionercpp_SOURCES ${medpartitionercpp_SOURCES} MEDPARTITIONER_PTScotchGraph.cxx)
35803 + SET(medpartitionercpp_DEFINITIONS "${medpartitionercpp_DEFINITIONS} ${PTSCOTCH_DEFINITIONS}")
35804 + SET(medpartitionercpp_LDFLAGS ${medpartitionercpp_LDFLAGS} ${PTSCOTCH_LIBRARIES})
35805 +ENDIF(MEDCOUPLING_PARTITIONER_PTSCOTCH)
35807 IF(${MEDCOUPLING_USE_MPI})
35808 SET(medpartitionercpp_SOURCES ${medpartitionercpp_SOURCES} MEDPARTITIONER_UtilsPara.cxx MEDPARTITIONER_JointFinder.cxx)
35809 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/medpartitioner.cxx MEDCOUPLING_new/src/MEDPartitioner/medpartitioner.cxx
35810 --- MEDCOUPLING_old/src/MEDPartitioner/medpartitioner.cxx 2018-04-19 17:04:36.772223421 +0200
35811 +++ MEDCOUPLING_new/src/MEDPartitioner/medpartitioner.cxx 2018-04-19 17:25:17.722797060 +0200
35813 //sequential : no MPI
35814 MyGlobals::_World_Size=1;
35815 MyGlobals::_Rank=0;
35816 - MyGlobals::_Creates_Boundary_Faces=0;
35817 + MyGlobals::_Create_Boundary_Faces=0;
35818 MyGlobals::_Create_Joints=0;
35820 // Primitive parsing of command-line options
35823 "\t--split-method=<string> : name of the splitting library (metis/scotch), default is metis\n"
35825 - "\t--creates-boundary-faces : creates boundary faces mesh in the output files\n"
35826 - "\t--creates-joints : creates joints in the output files\n"
35827 + "\t--create-boundary-faces : creates boundary faces mesh in the output files\n"
35828 + "\t--create-joints : creates joints in the output files\n"
35829 "\t--dump-cpu-memory : dumps passed CPU time and maximal increase of used memory\n"
35832 @@ -112,7 +112,7 @@
35833 else if (TestArg(argv[i],"--output-file",value)) output=value;
35834 else if (TestArg(argv[i],"--split-method",value)) library=value;
35835 else if (TestArg(argv[i],"--ndomains",value)) ndomains=atoi(value.c_str());
35836 - else if (TestArg(argv[i],"--creates-boundary-faces",value)) MyGlobals::_Creates_Boundary_Faces=1;
35837 + else if (TestArg(argv[i],"--create-boundary-faces",value)) MyGlobals::_Create_Boundary_Faces=1;
35838 else if (TestArg(argv[i],"--create-joints",value)) MyGlobals::_Create_Joints=1;
35839 else if (TestArg(argv[i],"--dump-cpu-memory",value)) mesure_memory=true;
35841 @@ -153,7 +153,7 @@
35842 cout << " output-file = " << output << endl;
35843 cout << " split-method = " << library << endl;
35844 cout << " ndomains = " << ndomains << endl;
35845 - cout << " creates_boundary_faces = " << MyGlobals::_Creates_Boundary_Faces << endl;
35846 + cout << " create_boundary_faces = " << MyGlobals::_Create_Boundary_Faces << endl;
35847 cout << " create-joints = " << MyGlobals::_Create_Joints<< endl;
35848 cout << " dump-cpu-memory = " << mesure_memory<< endl;
35849 cout << " verbose = " << MyGlobals::_Verbose << endl;
35850 @@ -267,7 +267,7 @@
35851 if (MyGlobals::_Is0verbose)
35852 cout << "generalInformations : \n"<<ReprVectorOfString(finalInformations);
35854 - //new_collection.setSubdomainBoundaryCreates(creates_boundary_faces);
35855 + //new_collection.setSubdomainBoundaryCreates(create_boundary_faces);
35856 if (MyGlobals::_Is0verbose) cout << "Writing "<<ndomains<<" output files "<<output<<"xx.med"<<" and "<<output<<".xml"<<endl;
35857 new_collection.write(output);
35859 @@ -302,7 +302,7 @@
35863 - cerr<<"an unknown type exception error was occured"<<endl;
35864 + cerr<<"an unknown type exception error has occurred"<<endl;
35868 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_Graph.hxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_Graph.hxx
35869 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_Graph.hxx 2018-04-19 17:04:36.770223381 +0200
35870 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_Graph.hxx 2018-04-19 17:25:17.719797001 +0200
35872 class MEDPARTITIONER_EXPORT Graph
35875 - typedef enum {METIS,SCOTCH} splitter_type;
35876 + typedef enum {METIS,SCOTCH,PTSCOTCH} splitter_type;
35879 //creates a graph from a SKYLINEARRAY- WARNING!! Graph takes ownership of the array.
35880 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_MEDPartitioner.cxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_MEDPartitioner.cxx
35881 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_MEDPartitioner.cxx 2018-04-19 17:04:36.770223381 +0200
35882 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_MEDPartitioner.cxx 2018-04-19 17:25:17.723797080 +0200
35884 #ifdef MED_ENABLE_SCOTCH
35885 # include "MEDPARTITIONER_ScotchGraph.hxx"
35887 +#ifdef MED_ENABLE_PTSCOTCH
35888 +# include "MEDPARTITIONER_PTScotchGraph.hxx"
35890 #include "MEDPARTITIONER_MeshCollectionDriver.hxx"
35892 #include "MEDCouplingUMesh.hxx"
35893 @@ -38,12 +41,16 @@
35894 #include <iostream>
35897 -MEDPARTITIONER::MEDPartitioner::MEDPartitioner(const std::string& filename, int ndomains, const std::string& library,bool creates_boundary_faces, bool create_joints, bool mesure_memory):
35898 +const char MEDPARTITIONER::MEDPartitioner::METIS_PART_ALG[]="Metis";
35899 +const char MEDPARTITIONER::MEDPartitioner::SCOTCH_PART_ALG[]="Scotch";
35900 +const char MEDPARTITIONER::MEDPartitioner::PTSCOTCH_PART_ALG[]="PTScotch";
35902 +MEDPARTITIONER::MEDPartitioner::MEDPartitioner(const std::string& filename, int ndomains, const std::string& library,bool create_boundary_faces, bool create_joints, bool mesure_memory):
35903 _input_collection( 0 ), _output_collection( 0 ), _new_topology( 0 )
35905 MyGlobals::_World_Size = 1;
35906 MyGlobals::_Rank = 0;
35907 - MyGlobals::_Creates_Boundary_Faces = creates_boundary_faces;
35908 + MyGlobals::_Create_Boundary_Faces = create_boundary_faces;
35909 MyGlobals::_Create_Joints = create_joints;
35911 ParaDomainSelector parallelizer(mesure_memory);
35912 @@ -54,17 +61,17 @@
35913 (MEDPARTITIONER::ParallelTopology*) _input_collection->getTopology();
35914 aPT->setGlobalNumerotationDefault( _input_collection->getParaDomainSelector() );
35915 _input_collection->prepareFieldDescriptions();
35916 - createPartitionCollection(ndomains, library, creates_boundary_faces, create_joints, mesure_memory);
35917 + createPartitionCollection(ndomains, library, create_boundary_faces, create_joints, mesure_memory);
35919 parallelizer.evaluateMemory();
35922 -MEDPARTITIONER::MEDPartitioner::MEDPartitioner(const MEDCoupling::MEDFileData* filedata, int ndomains, const std::string& library,bool creates_boundary_faces, bool create_joints, bool mesure_memory):
35923 +MEDPARTITIONER::MEDPartitioner::MEDPartitioner(const MEDCoupling::MEDFileData* filedata, int ndomains, const std::string& library,bool create_boundary_faces, bool create_joints, bool mesure_memory):
35924 _input_collection( 0 ), _output_collection( 0 ), _new_topology( 0 )
35926 MyGlobals::_World_Size = 1;
35927 MyGlobals::_Rank = 0;
35928 - MyGlobals::_Creates_Boundary_Faces = creates_boundary_faces;
35929 + MyGlobals::_Create_Boundary_Faces = create_boundary_faces;
35930 MyGlobals::_Create_Joints = create_joints;
35932 ParaDomainSelector parallelizer(mesure_memory);
35933 @@ -76,17 +83,17 @@
35934 (MEDPARTITIONER::ParallelTopology*) _input_collection->getTopology();
35935 aPT->setGlobalNumerotationDefault( _input_collection->getParaDomainSelector() );
35936 _input_collection->prepareFieldDescriptions();
35937 - createPartitionCollection(ndomains, library, creates_boundary_faces, create_joints, mesure_memory);
35938 + createPartitionCollection(ndomains, library, create_boundary_faces, create_joints, mesure_memory);
35940 parallelizer.evaluateMemory();
35943 -MEDPARTITIONER::MEDPartitioner::MEDPartitioner(const MEDCoupling::MEDFileData* filedata, MEDPARTITIONER ::Graph* graph, bool creates_boundary_faces, bool create_joints, bool mesure_memory):
35944 +MEDPARTITIONER::MEDPartitioner::MEDPartitioner(const MEDCoupling::MEDFileData* filedata, MEDPARTITIONER ::Graph* graph, bool create_boundary_faces, bool create_joints, bool mesure_memory):
35945 _input_collection( 0 ), _output_collection( 0 ), _new_topology( 0 )
35947 MyGlobals::_World_Size = 1;
35948 MyGlobals::_Rank = 0;
35949 - MyGlobals::_Creates_Boundary_Faces = creates_boundary_faces;
35950 + MyGlobals::_Create_Boundary_Faces = create_boundary_faces;
35951 MyGlobals::_Create_Joints = create_joints;
35953 ParaDomainSelector parallelizer(mesure_memory);
35954 @@ -113,7 +120,7 @@
35955 delete _new_topology; _new_topology = 0;
35958 -void MEDPARTITIONER::MEDPartitioner::createPartitionCollection(int ndomains, const std::string& library,bool creates_boundary_faces, bool create_joints, bool mesure_memory)
35959 +void MEDPARTITIONER::MEDPartitioner::createPartitionCollection(int ndomains, const std::string& library,bool create_boundary_faces, bool create_joints, bool mesure_memory)
35961 //ParallelTopology* aPT = (ParallelTopology*) _input_collection->getTopology();
35962 if (library == "metis")
35963 @@ -137,18 +144,18 @@
35964 return _output_collection->retrieveDriver()->getMEDFileData();
35967 -MEDPARTITIONER::Graph* MEDPARTITIONER::MEDPartitioner::Graph(MEDCoupling::MEDCouplingSkyLineArray* graph, Graph::splitter_type split, int* edgeweight)
35968 +MEDPARTITIONER::Graph* MEDPARTITIONER::MEDPartitioner::Graph(MEDCoupling::MEDCouplingSkyLineArray* graph, Graph::splitter_type split, int* edgeweight, DataArrayInt *vlbloctab)
35970 MEDPARTITIONER::Graph* cellGraph=0;
35971 // will be destroyed by XXXGraph class:
35972 - MEDCoupling::MEDCouplingSkyLineArray* arr = MEDCoupling::MEDCouplingSkyLineArray::New(graph->getIndexArray(), graph->getValuesArray());
35973 + MEDCoupling::MCAuto<MEDCoupling::MEDCouplingSkyLineArray> arr(MEDCoupling::MEDCouplingSkyLineArray::New(graph->getIndexArray(), graph->getValuesArray()));
35979 #ifdef MED_ENABLE_METIS
35980 - cellGraph=new METISGraph(arr,edgeweight);
35981 + cellGraph=new METISGraph(arr.retn(),edgeweight);
35985 @@ -156,11 +163,73 @@
35987 case Graph::SCOTCH:
35988 #ifdef MED_ENABLE_SCOTCH
35989 - cellGraph=new SCOTCHGraph(arr,edgeweight);
35990 + cellGraph=new SCOTCHGraph(arr.retn(),edgeweight);
35992 throw INTERP_KERNEL::Exception("MEDPartitioner::Graph : SCOTCH is not available. Check your products, please.");
35995 + case Graph::PTSCOTCH:
35997 +#ifdef MED_ENABLE_PTSCOTCH
35998 + cellGraph=new PTSCOTCHGraph(arr.retn(),edgeweight,vlbloctab);
36000 + throw INTERP_KERNEL::Exception("MEDPartitioner::Graph : PTSCOTCH is not available. Check your products, please.");
36005 + throw INTERP_KERNEL::Exception("MEDPartitioner::Graph : Not managed split type engine !");
36010 +std::vector<std::string> MEDPARTITIONER::MEDPartitioner::AvailableAlgorithms()
36012 + std::vector<std::string> ret;
36013 +#ifdef MED_ENABLE_METIS
36014 + ret.push_back(std::string(METIS_PART_ALG));
36016 +#ifdef MED_ENABLE_SCOTCH
36017 + ret.push_back(std::string(SCOTCH_PART_ALG));
36019 +#ifdef MED_ENABLE_PTSCOTCH
36020 + ret.push_back(std::string(PTSCOTCH_PART_ALG));
36025 +bool MEDPARTITIONER::MEDPartitioner::HasMetisAlg()
36027 +#ifdef MED_ENABLE_METIS
36034 +bool MEDPARTITIONER::MEDPartitioner::HasScotchAlg()
36036 +#ifdef MED_ENABLE_SCOTCH
36043 +bool MEDPARTITIONER::MEDPartitioner::HasPTScotchAlg()
36045 +#ifdef MED_ENABLE_PTSCOTCH
36052 +std::vector<std::string> MEDPARTITIONER::MEDPartitioner::AllAlgorithms()
36054 + std::vector<std::string> ret;
36055 + ret.push_back(std::string(METIS_PART_ALG));
36056 + ret.push_back(std::string(SCOTCH_PART_ALG));
36057 + ret.push_back(std::string(PTSCOTCH_PART_ALG));
36060 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_MEDPartitioner.hxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_MEDPartitioner.hxx
36061 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_MEDPartitioner.hxx 2018-04-19 17:04:36.770223381 +0200
36062 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_MEDPartitioner.hxx 2018-04-19 17:25:17.679796210 +0200
36065 #include "MEDPARTITIONER.hxx"
36066 #include "MEDPARTITIONER_Graph.hxx"
36067 +#include "MCType.hxx"
36072 namespace MEDCoupling
36075 + class DataArrayInt;
36078 namespace MEDPARTITIONER
36079 @@ -39,21 +41,30 @@
36080 class MEDPARTITIONER_EXPORT MEDPartitioner
36083 - MEDPartitioner(const std::string& filename, int ndomains=1, const std::string& library="metis",bool creates_boundary_faces=false, bool create_joints=false, bool mesure_memory=false);
36084 - MEDPartitioner(const MEDCoupling::MEDFileData* fileData, int ndomains=1, const std::string& library="metis",bool creates_boundary_faces=false, bool create_joints=false, bool mesure_memory=false);
36085 - MEDPartitioner(const MEDCoupling::MEDFileData* fileData, Graph* graph, bool creates_boundary_faces=false, bool create_joints=false, bool mesure_memory=false);
36086 - static MEDPARTITIONER::Graph* Graph(MEDCoupling::MEDCouplingSkyLineArray* graph, Graph::splitter_type split=Graph::METIS, int* edgeweight=0);
36087 + MEDPartitioner(const std::string& filename, int ndomains=1, const std::string& library="metis",bool create_boundary_faces=false, bool create_joints=false, bool mesure_memory=false);
36088 + MEDPartitioner(const MEDCoupling::MEDFileData* fileData, int ndomains=1, const std::string& library="metis",bool create_boundary_faces=false, bool create_joints=false, bool mesure_memory=false);
36089 + MEDPartitioner(const MEDCoupling::MEDFileData* fileData, Graph* graph, bool create_boundary_faces=false, bool create_joints=false, bool mesure_memory=false);
36090 + static MEDPARTITIONER::Graph* Graph(MEDCoupling::MEDCouplingSkyLineArray* graph, Graph::splitter_type split=Graph::METIS, int* edgeweight=0, DataArrayInt* vlbloctab=0);
36091 + static std::vector<std::string> AvailableAlgorithms();
36092 + static std::vector<std::string> AllAlgorithms();
36093 + static bool HasMetisAlg();
36094 + static bool HasScotchAlg();
36095 + static bool HasPTScotchAlg();
36096 void write(const std::string& filename);
36097 MEDCoupling::MEDFileData* getMEDFileData();
36100 MEDCoupling::MEDFileData *convertToMEDFileData(MeshCollection* meshcollection);
36101 - void createPartitionCollection(int ndomains, const std::string& library,bool creates_boundary_faces, bool create_joints, bool mesure_memory);
36102 + void createPartitionCollection(int ndomains, const std::string& library,bool create_boundary_faces, bool create_joints, bool mesure_memory);
36105 MeshCollection* _input_collection;
36106 MeshCollection* _output_collection;
36107 Topology* _new_topology;
36109 + static const char METIS_PART_ALG[];
36110 + static const char SCOTCH_PART_ALG[];
36111 + static const char PTSCOTCH_PART_ALG[];
36115 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.cxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.cxx
36116 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.cxx 2018-04-19 17:04:36.770223381 +0200
36117 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.cxx 2018-04-19 17:25:17.714796902 +0200
36119 _domain_selector( 0 ),
36120 _i_non_empty_mesh(-1),
36121 _driver_type(MEDPARTITIONER::MedXml),
36122 - _subdomain_boundary_creates( MyGlobals::_Creates_Boundary_Faces ),
36123 + _subdomain_boundary_creates( MyGlobals::_Create_Boundary_Faces ),
36124 _family_splitting(false),
36125 _create_empty_groups(false),
36127 @@ -100,7 +100,7 @@
36128 _i_non_empty_mesh(-1),
36129 _name(initialCollection._name),
36130 _driver_type(MEDPARTITIONER::MedXml),
36131 - _subdomain_boundary_creates(MyGlobals::_Creates_Boundary_Faces),
36132 + _subdomain_boundary_creates(MyGlobals::_Create_Boundary_Faces),
36133 _family_splitting(family_splitting),
36134 _create_empty_groups(create_empty_groups),
36136 @@ -1508,7 +1508,7 @@
36137 _domain_selector( 0 ),
36138 _i_non_empty_mesh(-1),
36139 _driver_type(MEDPARTITIONER::Undefined),
36140 - _subdomain_boundary_creates(MyGlobals::_Creates_Boundary_Faces),
36141 + _subdomain_boundary_creates(MyGlobals::_Create_Boundary_Faces),
36142 _family_splitting(false),
36143 _create_empty_groups(false),
36145 @@ -1552,7 +1552,7 @@
36146 _domain_selector( &domainSelector ),
36147 _i_non_empty_mesh(-1),
36148 _driver_type(MEDPARTITIONER::Undefined),
36149 - _subdomain_boundary_creates(MyGlobals::_Creates_Boundary_Faces),
36150 + _subdomain_boundary_creates(MyGlobals::_Create_Boundary_Faces),
36151 _family_splitting(false),
36152 _create_empty_groups(false),
36154 @@ -1712,7 +1712,7 @@
36155 _i_non_empty_mesh(-1),
36157 _driver_type(MEDPARTITIONER::MedXml),
36158 - _subdomain_boundary_creates(MyGlobals::_Creates_Boundary_Faces),
36159 + _subdomain_boundary_creates(MyGlobals::_Create_Boundary_Faces),
36160 _family_splitting(false),
36161 _create_empty_groups(false),
36163 @@ -1768,7 +1768,7 @@
36165 * The method creates as many MED-files as there are domains in the
36166 * collection. It also creates a master file that lists all the MED files.
36167 - * The MED files created in ths manner contain joints that describe the
36168 + * The MED files created in this manner contain joints that describe the
36169 * connectivity between subdomains.
36171 * \param filename name of the master file that will contain the list of the MED files
36172 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.cxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.cxx
36173 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.cxx 2018-04-19 17:04:36.770223381 +0200
36174 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_MeshCollectionDriver.cxx 2018-04-19 17:25:17.693796487 +0200
36175 @@ -234,7 +234,7 @@
36178 // MEDCoupling::MEDCouplingUMesh* boundaryMesh=0;
36179 - // if (MyGlobals::_Creates_Boundary_Faces>0)
36180 + // if (MyGlobals::_Create_Boundary_Faces>0)
36182 // //try to write Boundary meshes
36183 // bool keepCoords=false; //TODO or true
36184 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.hxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.hxx
36185 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.hxx 2018-04-19 17:04:36.770223381 +0200
36186 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_MeshCollection.hxx 2018-04-19 17:25:17.682796269 +0200
36187 @@ -222,7 +222,7 @@
36188 std::map<std::string, int> _family_info;
36189 std::map<std::string, std::vector<std::string> > _group_info;
36191 - //list of groups that are not to be splitted
36192 + //list of groups that are not to be split
36193 std::vector<std::string> _indivisible_regions;
36195 //name of global mesh
36196 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/medpartitioner_para.cxx MEDCOUPLING_new/src/MEDPartitioner/medpartitioner_para.cxx
36197 --- MEDCOUPLING_old/src/MEDPartitioner/medpartitioner_para.cxx 2018-04-19 17:04:36.772223421 +0200
36198 +++ MEDCOUPLING_new/src/MEDPartitioner/medpartitioner_para.cxx 2018-04-19 17:25:17.689796408 +0200
36199 @@ -102,7 +102,7 @@
36200 //user can choose! (not yet)
36201 "\t--split-method=<string> : name of the splitting library (metis/scotch), default is metis\n"
36203 - "\t--creates-boundary-faces : creates boundary faces mesh in the output files\n"
36204 + "\t--create-boundary-faces : creates boundary faces mesh in the output files\n"
36205 "\t--dump-cpu-memory : dumps passed CPU time and maximal increase of used memory\n"
36206 //"\t--randomize=<number> : random seed for other partitionning (only on one proc)\n"
36207 //"\t--atomize : do the opposite of a good partitionner (only on one proc)\n"
36208 @@ -131,7 +131,7 @@
36209 else if (TestArg(argv[i],"--ndomains",value)) ndomains=atoi(value.c_str());
36210 else if (TestArg(argv[i],"--randomize",value)) MyGlobals::_Randomize=atoi(value.c_str());
36211 else if (TestArg(argv[i],"--atomize",value)) MyGlobals::_Atomize=atoi(value.c_str());
36212 - else if (TestArg(argv[i],"--creates-boundary-faces",value)) MyGlobals::_Creates_Boundary_Faces=1;
36213 + else if (TestArg(argv[i],"--create-boundary-faces",value)) MyGlobals::_Create_Boundary_Faces=1;
36214 else if (TestArg(argv[i],"--dump-cpu-memory",value)) mesure_memory=true;
36217 @@ -196,7 +196,7 @@
36218 cout << " output-file = " << output << endl;
36219 cout << " split-method = " << library << endl;
36220 cout << " ndomains = " << ndomains << endl;
36221 - cout << " creates_boundary_faces = " << MyGlobals::_Creates_Boundary_Faces << endl;
36222 + cout << " create_boundary_faces = " << MyGlobals::_Create_Boundary_Faces << endl;
36223 cout << " dump-cpu-memory = " << mesure_memory<< endl;
36224 cout << " verbose = " << MyGlobals::_Verbose << endl;
36226 @@ -303,7 +303,7 @@
36227 if (MyGlobals::_Is0verbose)
36228 cout << "generalInformations : \n"<<ReprVectorOfString(finalInformations);
36230 - //new_collection.setSubdomainBoundaryCreates(creates_boundary_faces);
36231 + //new_collection.setSubdomainBoundaryCreates(create_boundary_faces);
36232 if (MyGlobals::_Is0verbose) cout << "Writing "<<ndomains<<" output files "<<output<<"xx.med"<<" and "<<output<<".xml"<<endl;
36233 new_collection.write(output);
36235 @@ -343,7 +343,7 @@
36239 - cerr<<"proc "<<MyGlobals::_Rank<<" : an unknown type exception error was occured"<<endl;
36240 + cerr<<"proc "<<MyGlobals::_Rank<<" : an unknown type exception error has occurred"<<endl;
36244 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_ParaDomainSelector.cxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_ParaDomainSelector.cxx
36245 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_ParaDomainSelector.cxx 2018-04-19 17:04:36.771223401 +0200
36246 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_ParaDomainSelector.cxx 2018-04-19 17:25:17.676796151 +0200
36250 if (MyGlobals::_Verbose>10)
36251 - std::cout << "WARNING : ParaDomainSelector contructor without parallel_mode World_Size=1 by default" << std::endl;
36252 + std::cout << "WARNING : ParaDomainSelector constructor without parallel_mode World_Size=1 by default" << std::endl;
36254 MyGlobals::_World_Size=_world_size;
36255 MyGlobals::_Rank=_rank;
36256 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_ParallelTopology.cxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_ParallelTopology.cxx
36257 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_ParallelTopology.cxx 2018-04-19 17:04:36.771223401 +0200
36258 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_ParallelTopology.cxx 2018-04-19 17:25:17.716796941 +0200
36260 parallel_mode = (!meshes[idomain]);
36262 if (MyGlobals::_Is0verbose>20 && !parallel_mode)
36263 - std::cout << "WARNING : ParallelTopology contructor without parallel_mode" << std::endl;
36264 + std::cout << "WARNING : ParallelTopology constructor without parallel_mode" << std::endl;
36265 for (int idomain=0; idomain<_nb_domain; idomain++)
36267 if ( !meshes[idomain] ) continue;
36268 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_PTScotchGraph.cxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_PTScotchGraph.cxx
36269 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_PTScotchGraph.cxx 1970-01-01 01:00:00.000000000 +0100
36270 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_PTScotchGraph.cxx 2018-04-19 17:25:17.711796843 +0200
36272 +// Copyright (C) 2017 CEA/DEN, EDF R&D
36274 +// This library is free software; you can redistribute it and/or
36275 +// modify it under the terms of the GNU Lesser General Public
36276 +// License as published by the Free Software Foundation; either
36277 +// version 2.1 of the License, or (at your option) any later version.
36279 +// This library is distributed in the hope that it will be useful,
36280 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
36281 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
36282 +// Lesser General Public License for more details.
36284 +// You should have received a copy of the GNU Lesser General Public
36285 +// License along with this library; if not, write to the Free Software
36286 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
36288 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
36291 +#include "MEDPARTITIONER_PTScotchGraph.hxx"
36292 +#include "MEDPARTITIONER_Utils.hxx"
36294 +#include "MEDCouplingSkyLineArray.hxx"
36295 +#include "MEDCouplingMemArray.hxx"
36296 +#include "MCType.hxx"
36301 +#ifdef MED_ENABLE_PTSCOTCH
36305 +#include "ptscotch.h"
36309 +using namespace MEDPARTITIONER;
36312 +PTSCOTCHGraph::PTSCOTCHGraph(MEDCoupling::MEDCouplingSkyLineArray *graph, int *edgeweight, DataArrayInt *vlbloctab):Graph(graph,edgeweight),_vlbloctab(vlbloctab)
36316 +PTSCOTCHGraph::~PTSCOTCHGraph()
36320 +void PTSCOTCHGraph::partGraph(int ndomain, const std::string& options_string, ParaDomainSelector* sel)
36322 + if (MyGlobals::_Verbose>10)
36323 + std::cout << "proc " << MyGlobals::_Rank << " : PTSCOTCHGraph::partGraph" << std::endl;
36325 + //number of graph vertices
36326 + int n = _graph->getNumberOf();
36328 + int * xadj=const_cast<int*>(_graph->getIndex());
36329 + int * adjncy=const_cast<int*>(_graph->getValues());
36331 + int nparts=ndomain;
36333 +#if !defined(MED_ENABLE_PTSCOTCH)
36334 + throw INTERP_KERNEL::Exception("PTSCOTCHGraph::partGraph : PTSCOTCH is not available. Check your products, please.");
36336 + //output parameters
36337 + int* partition = new int[n+1];
36339 + int* vlbloctab = _vlbloctab?const_cast<int*>(_vlbloctab->begin()):0;
36341 + SCOTCH_Dgraph scotch_graph;
36342 + SCOTCH_dgraphInit(&scotch_graph, MPI_COMM_WORLD);
36343 + SCOTCH_dgraphBuild(&scotch_graph,
36344 + 0, // baseval , base first indice 0
36345 + n, // vertlocnbr , nb of local graph nodes
36346 + n, // vertlocmax , should be set to vertlocnbr for graphs without holes
36347 + xadj, // vertloctab[vertnbr+1] , index vertex table
36348 + 0, // vendloctab , index end vertex table if disjoint, set to zero
36349 + _cell_weight, // veloloctab , graph vertices loads, set to zero
36350 + vlbloctab, // vlblocltab , vertex label array : global vertex index
36351 + xadj[n], // edgelocnbr , number of edges
36352 + xadj[n], // edgelocsiz , same as edgelocnbr if edgeloctab is compact
36353 + adjncy, // edgeloctab[edgelocnbr], global indexes of edges
36354 + 0, // edgegsttab , optional, should be computed internally, set to zero
36355 + _edge_weight); // edloloctab , graph edges loads, set to zero
36357 + SCOTCH_Strat scotch_strategy;
36358 + SCOTCH_stratInit(&scotch_strategy);
36360 + //!user-defined options for the strategy
36361 + if (options_string!="")
36362 + SCOTCH_stratGraphMap(&scotch_strategy,options_string.c_str());
36366 + if (MyGlobals::_Verbose>10) std::cout << "SCOTCHGraph::graphPart SCOTCH_graphPart" << std::endl;
36367 + SCOTCH_dgraphPart(&scotch_graph,nparts,&scotch_strategy,partition);
36369 + else //partition for 1 subdomain
36371 + for (int i=0; i<n+1; i++)
36375 + SCOTCH_stratExit(&scotch_strategy);
36376 + SCOTCH_dgraphExit(&scotch_graph);
36378 + std::vector<int> index(n+1);
36379 + std::vector<int> value(n);
36381 + for (int i=0; i<n; i++)
36383 + index[i+1]=index[i]+1;
36384 + value[i]=partition[i];
36386 + delete [] partition;
36388 + //creating a skylinearray with no copy of the index and partition array
36389 + //the fifth argument true specifies that only the pointers are passed
36391 + _partition = MEDCoupling::MEDCouplingSkyLineArray::New(index,value);
36395 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_PTScotchGraph.hxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_PTScotchGraph.hxx
36396 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_PTScotchGraph.hxx 1970-01-01 01:00:00.000000000 +0100
36397 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_PTScotchGraph.hxx 2018-04-19 17:25:17.681796250 +0200
36399 +// Copyright (C) 2017 CEA/DEN, EDF R&D
36401 +// This library is free software; you can redistribute it and/or
36402 +// modify it under the terms of the GNU Lesser General Public
36403 +// License as published by the Free Software Foundation; either
36404 +// version 2.1 of the License, or (at your option) any later version.
36406 +// This library is distributed in the hope that it will be useful,
36407 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
36408 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
36409 +// Lesser General Public License for more details.
36411 +// You should have received a copy of the GNU Lesser General Public
36412 +// License along with this library; if not, write to the Free Software
36413 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
36415 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
36418 +#ifndef __MEDPARTITIONER_PTSCOTCHGRAPH_HXX__
36419 +#define __MEDPARTITIONER_PTSCOTCHGRAPH_HXX__
36421 +#include "MEDPARTITIONER.hxx"
36422 +#include "MEDPARTITIONER_Graph.hxx"
36423 +#include "MCType.hxx"
36426 +namespace MEDCoupling
36428 + class DataArrayInt;
36431 +namespace MEDPARTITIONER
36433 + class MEDPARTITIONER_EXPORT PTSCOTCHGraph : public Graph
36436 + PTSCOTCHGraph() { }
36437 + PTSCOTCHGraph(MEDCoupling::MEDCouplingSkyLineArray* , int *edgeweight=0, DataArrayInt *vlbloctab=0);
36438 + virtual ~PTSCOTCHGraph();
36439 + void partGraph(int ndomain, const std::string& options_string="", ParaDomainSelector* sel=0);
36441 + MEDCoupling::DataArrayInt *_vlbloctab;
36446 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_Utils.cxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_Utils.cxx
36447 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_Utils.cxx 2018-04-19 17:04:36.771223401 +0200
36448 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_Utils.cxx 2018-04-19 17:25:17.710796823 +0200
36450 int MEDPARTITIONER::MyGlobals::_World_Size=-1;
36451 int MEDPARTITIONER::MyGlobals::_Randomize=0;
36452 int MEDPARTITIONER::MyGlobals::_Atomize=0;
36453 -int MEDPARTITIONER::MyGlobals::_Creates_Boundary_Faces=0;
36454 +int MEDPARTITIONER::MyGlobals::_Create_Boundary_Faces=0;
36455 int MEDPARTITIONER::MyGlobals::_Create_Joints=0;
36456 std::vector<std::string> MEDPARTITIONER::MyGlobals::_File_Names;
36457 std::vector<std::string> MEDPARTITIONER::MyGlobals::_Mesh_Names;
36458 @@ -364,7 +364,7 @@
36460 std::string keymap=enTete.substr(foundKey+7,foundSizeVector-foundKey-7);
36461 for (int ii=1; ii<=sizeVector; ii++)
36462 - res[keymap].push_back(vs[ii]); //add unconditionnaly,so merge duplicates in second vector
36463 + res[keymap].push_back(vs[ii]); //add unconditionally,so merge duplicates in second vector
36467 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_Utils.hxx MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_Utils.hxx
36468 --- MEDCOUPLING_old/src/MEDPartitioner/MEDPARTITIONER_Utils.hxx 2018-04-19 17:04:36.771223401 +0200
36469 +++ MEDCOUPLING_new/src/MEDPartitioner/MEDPARTITIONER_Utils.hxx 2018-04-19 17:25:17.686796348 +0200
36471 std::vector<std::string> GetInfosOfField(const char *fileName, const char *meshName, const int idomain );
36474 - //not adviced, interblocking, use sendAndReceive
36475 + //not advised, interblocking, use sendAndReceive
36476 //void SendVectorOfString(const std::vector<std::string>& vec, const int target);
36477 //std::vector<std::string> RecvVectorOfString(const int source);
36478 //TODO void sendRecvVectorOfString(const std::vector<std::string>& vec, const int source, const int target);
36479 @@ -126,7 +126,7 @@
36480 static int _World_Size;
36481 static int _Randomize;
36482 static int _Atomize;
36483 - static int _Creates_Boundary_Faces;
36484 + static int _Create_Boundary_Faces;
36485 static int _Create_Joints;
36486 static int _Is0verbose; //trace cout if rank 0 and verbose
36487 static std::vector<std::string> _File_Names; //on [iold]
36488 diff -Naur MEDCOUPLING_old/src/MEDPartitioner/Test/MEDPARTITIONERTest.cxx MEDCOUPLING_new/src/MEDPartitioner/Test/MEDPARTITIONERTest.cxx
36489 --- MEDCOUPLING_old/src/MEDPartitioner/Test/MEDPARTITIONERTest.cxx 2018-04-19 17:04:36.772223421 +0200
36490 +++ MEDCOUPLING_new/src/MEDPartitioner/Test/MEDPARTITIONERTest.cxx 2018-04-19 17:25:17.703796685 +0200
36491 @@ -1421,7 +1421,7 @@
36493 const char xmlName[] = "tmp_testCreateBoundaryFaces2D";
36495 - MyGlobals::_Creates_Boundary_Faces = true;
36496 + MyGlobals::_Create_Boundary_Faces = true;
36497 MeshCollection new_collection(collection,new_topo.get());
36499 CPPUNIT_ASSERT_EQUAL(ndomains,new_collection.getNbOfLocalMeshes());
36500 diff -Naur MEDCOUPLING_old/src/MEDPartitioner_Swig/CMakeLists.txt MEDCOUPLING_new/src/MEDPartitioner_Swig/CMakeLists.txt
36501 --- MEDCOUPLING_old/src/MEDPartitioner_Swig/CMakeLists.txt 2018-04-19 17:04:36.772223421 +0200
36502 +++ MEDCOUPLING_new/src/MEDPartitioner_Swig/CMakeLists.txt 2018-04-19 17:25:17.233787394 +0200
36505 INCLUDE_DIRECTORIES(
36506 ${PYTHON_INCLUDE_DIRS}
36507 - ${PTHREAD_INCLUDE_DIR} # pthread dependancy due to python2.7 library
36508 + ${PTHREAD_INCLUDE_DIR} # pthread dependency due to python2.7 library
36509 ${NUMPY_INCLUDE_DIR}
36510 ${CMAKE_CURRENT_SOURCE_DIR}
36511 ${CMAKE_CURRENT_BINARY_DIR}
36512 diff -Naur MEDCOUPLING_old/src/MEDPartitioner_Swig/MEDPartitionerCommon.i MEDCOUPLING_new/src/MEDPartitioner_Swig/MEDPartitionerCommon.i
36513 --- MEDCOUPLING_old/src/MEDPartitioner_Swig/MEDPartitionerCommon.i 2018-04-19 17:04:36.772223421 +0200
36514 +++ MEDCOUPLING_new/src/MEDPartitioner_Swig/MEDPartitionerCommon.i 2018-04-19 17:25:17.235787434 +0200
36515 @@ -17,42 +17,28 @@
36516 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
36519 -%module MEDPartitioner
36521 -%include std_string.i
36524 -#include "MEDFileData.hxx"
36526 #include "MEDPARTITIONER_MEDPartitioner.hxx"
36527 #include "MEDPARTITIONER.hxx"
36528 #include "MEDPARTITIONER_Graph.hxx"
36530 -using namespace MEDCoupling;
36531 -using namespace INTERP_KERNEL;
36532 using namespace MEDPARTITIONER;
36535 -%feature("autodoc", "1");
36536 -%feature("docstring");
36539 %newobject MEDPARTITIONER::MEDPartitioner::New;
36540 %newobject MEDPARTITIONER::MEDPartitioner::Graph;
36541 %newobject MEDPARTITIONER::MEDPartitioner::Graph::getGraph;
36542 %newobject MEDPARTITIONER::MEDPartitioner::Graph::getPartition;
36543 %newobject MEDPARTITIONER::MEDPartitioner::getMEDFileData;
36544 -%feature("unref") MEDCoupling::MEDFileData "$this->decrRef();"
36548 -%rename (InterpKernelException) INTERP_KERNEL::Exception;
36550 namespace MEDPARTITIONER
36555 - typedef enum {METIS,SCOTCH} splitter_type;
36556 + typedef enum {METIS,SCOTCH,PTSCOTCH} splitter_type;
36558 virtual void partGraph(int ndomain, const std::string& options_string="", ParaDomainSelector *sel=0) throw(INTERP_KERNEL::Exception);
36559 MEDCoupling::MEDCouplingSkyLineArray *getGraph() const
36560 @@ -75,10 +61,12 @@
36561 class MEDPartitioner
36564 - MEDPartitioner(const std::string& filename, int ndomains=1, const std::string& library="metis",bool creates_boundary_faces=false, bool create_joints=false, bool mesure_memory=false) throw(INTERP_KERNEL::Exception);
36565 - MEDPartitioner(const MEDCoupling::MEDFileData* fileData, int ndomains=1, const std::string& library="metis",bool creates_boundary_faces=false, bool create_joints=false, bool mesure_memory=false) throw(INTERP_KERNEL::Exception);
36566 - MEDPartitioner(const MEDCoupling::MEDFileData* fileData, Graph* graph, bool creates_boundary_faces=false, bool create_joints=false, bool mesure_memory=false) throw(INTERP_KERNEL::Exception);
36567 - static MEDPARTITIONER::Graph* Graph(MEDCoupling::MEDCouplingSkyLineArray* graph, Graph::splitter_type split=Graph::METIS, int* edgeweight=0) throw(INTERP_KERNEL::Exception);
36568 + MEDPartitioner(const std::string& filename, int ndomains=1, const std::string& library="metis",bool create_boundary_faces=false, bool create_joints=false, bool mesure_memory=false) throw(INTERP_KERNEL::Exception);
36569 + MEDPartitioner(const MEDCoupling::MEDFileData* fileData, int ndomains=1, const std::string& library="metis",bool create_boundary_faces=false, bool create_joints=false, bool mesure_memory=false) throw(INTERP_KERNEL::Exception);
36570 + MEDPartitioner(const MEDCoupling::MEDFileData* fileData, Graph* graph, bool create_boundary_faces=false, bool create_joints=false, bool mesure_memory=false) throw(INTERP_KERNEL::Exception);
36571 + static MEDPARTITIONER::Graph* Graph(MEDCoupling::MEDCouplingSkyLineArray* graph, Graph::splitter_type split=Graph::METIS, int* edgeweight=0, MEDCoupling::DataArrayInt* vlbloctab=0) throw(INTERP_KERNEL::Exception);
36572 + static std::vector<std::string> AvailableAlgorithms();
36573 + static std::vector<std::string> AllAlgorithms();
36574 MEDCoupling::MEDFileData* getMEDFileData() throw(INTERP_KERNEL::Exception);
36575 void write(const std::string& filename) throw(INTERP_KERNEL::Exception);
36577 diff -Naur MEDCOUPLING_old/src/MEDPartitioner_Swig/MEDPartitioner.i MEDCOUPLING_new/src/MEDPartitioner_Swig/MEDPartitioner.i
36578 --- MEDCOUPLING_old/src/MEDPartitioner_Swig/MEDPartitioner.i 2018-04-19 17:04:36.772223421 +0200
36579 +++ MEDCOUPLING_new/src/MEDPartitioner_Swig/MEDPartitioner.i 2018-04-19 17:25:17.237787473 +0200
36581 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
36584 +%module MEDPartitioner
36587 +#include "MEDFileData.hxx"
36589 +using namespace MEDCoupling;
36590 +using namespace INTERP_KERNEL;
36593 +%include std_string.i
36595 +%feature("autodoc", "1");
36596 +%feature("docstring");
36598 +%feature("unref") MEDCoupling::MEDFileData "$this->decrRef();"
36602 +%rename (InterpKernelException) INTERP_KERNEL::Exception;
36604 %include "MEDPartitionerCommon.i"
36606 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/CMakeLists.txt MEDCOUPLING_new/src/ParaMEDMEM/CMakeLists.txt
36607 --- MEDCOUPLING_old/src/ParaMEDMEM/CMakeLists.txt 2018-04-19 17:04:36.773223441 +0200
36608 +++ MEDCOUPLING_new/src/ParaMEDMEM/CMakeLists.txt 2018-04-19 17:25:17.312788956 +0200
36612 ADD_LIBRARY(paramedmem ${paramedmem_SOURCES})
36613 -TARGET_LINK_LIBRARIES(paramedmem medcoupling ${MPI_LIBRARIES})
36614 +TARGET_LINK_LIBRARIES(paramedmem medcouplingcpp ${MPI_LIBRARIES})
36615 INSTALL(TARGETS paramedmem EXPORT ${PROJECT_NAME}TargetGroup DESTINATION ${MEDCOUPLING_INSTALL_LIBS})
36617 FILE(GLOB paramedmem_HEADERS_HXX "${CMAKE_CURRENT_SOURCE_DIR}/*.hxx")
36618 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/CommInterface.cxx MEDCOUPLING_new/src/ParaMEDMEM/CommInterface.cxx
36619 --- MEDCOUPLING_old/src/ParaMEDMEM/CommInterface.cxx 2018-04-19 17:04:36.773223441 +0200
36620 +++ MEDCOUPLING_new/src/ParaMEDMEM/CommInterface.cxx 2018-04-19 17:25:17.318789074 +0200
36622 (but this is not strictly respected overall in practice ...). It is used in all
36623 the \ref parallel "DEC related classes".
36625 - It is typically instanciated after the MPI_Init() call in a program and is afterwards passed as a
36626 + It is typically instantiated after the MPI_Init() call in a program and is afterwards passed as a
36627 parameter to the constructors of various \ref parallel "parallel objects" so that they access the
36628 MPI library via this common interface.
36630 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/DisjointDEC.cxx MEDCOUPLING_new/src/ParaMEDMEM/DisjointDEC.cxx
36631 --- MEDCOUPLING_old/src/ParaMEDMEM/DisjointDEC.cxx 2018-04-19 17:04:36.773223441 +0200
36632 +++ MEDCOUPLING_new/src/ParaMEDMEM/DisjointDEC.cxx 2018-04-19 17:25:17.333789371 +0200
36634 * \c ICoCo::Field, or directly a \c MEDCoupling::MEDCouplingFieldDouble instance.
36635 * See the various signatures of the method DisjointDEC::attachLocalField()
36637 - * The derivations of this class should be considered for practical instanciation:
36638 + * The derivations of this class should be considered for practical instantiation:
36639 * - \ref InterpKernelDEC-det "InterpKernelDEC"
36640 * - \ref ExplicitCoincidentDEC-det "ExplicitCoincidentDEC"
36641 * - \ref StructuredCoincidentDEC-det "StructuredCoincidentDEC"
36642 @@ -221,7 +221,7 @@
36645 * Check that the sources and targets procs form a partition of the world communicator referenced in the groups.
36646 - * This world communicator is not necessarily MPI_WORLD_COMM, but it has to be covered completly for the DECs to work.
36647 + * This world communicator is not necessarily MPI_WORLD_COMM, but it has to be covered completely for the DECs to work.
36649 void DisjointDEC::checkPartitionGroup() const
36651 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/ElementLocator.hxx MEDCOUPLING_new/src/ParaMEDMEM/ElementLocator.hxx
36652 --- MEDCOUPLING_old/src/ParaMEDMEM/ElementLocator.hxx 2018-04-19 17:04:36.774223460 +0200
36653 +++ MEDCOUPLING_new/src/ParaMEDMEM/ElementLocator.hxx 2018-04-19 17:25:17.302788758 +0200
36656 #include "InterpolationOptions.hxx"
36657 #include "MEDCouplingNatureOfField.hxx"
36658 +#include "MCType.hxx"
36662 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/InterpKernelDEC.cxx MEDCOUPLING_new/src/ParaMEDMEM/InterpKernelDEC.cxx
36663 --- MEDCOUPLING_old/src/ParaMEDMEM/InterpKernelDEC.cxx 2018-04-19 17:04:36.774223460 +0200
36664 +++ MEDCOUPLING_new/src/ParaMEDMEM/InterpKernelDEC.cxx 2018-04-19 17:25:17.306788837 +0200
36665 @@ -201,7 +201,7 @@
36667 //locate the distant meshes
36668 ElementLocator locator(*_local_field, *_target_group, *_source_group);
36669 - //transfering option from InterpKernelDEC to ElementLocator
36670 + //transferring option from InterpKernelDEC to ElementLocator
36671 locator.copyOptions(*this);
36672 MEDCouplingPointSet* distant_mesh=0;
36673 int* distant_ids=0;
36674 @@ -232,7 +232,7 @@
36675 if (_target_group->containsMyRank())
36677 ElementLocator locator(*_local_field, *_source_group, *_target_group);
36678 - //transfering option from InterpKernelDEC to ElementLocator
36679 + //transferring option from InterpKernelDEC to ElementLocator
36680 locator.copyOptions(*this);
36681 MEDCouplingPointSet* distant_mesh=0;
36682 int* distant_ids=0;
36683 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/InterpolationMatrix.cxx MEDCOUPLING_new/src/ParaMEDMEM/InterpolationMatrix.cxx
36684 --- MEDCOUPLING_old/src/ParaMEDMEM/InterpolationMatrix.cxx 2018-04-19 17:04:36.774223460 +0200
36685 +++ MEDCOUPLING_new/src/ParaMEDMEM/InterpolationMatrix.cxx 2018-04-19 17:25:17.352789747 +0200
36687 \brief Adds the contribution of a distant subdomain to the*
36688 interpolation matrix.
36689 The method adds contribution to the interpolation matrix.
36690 - For each row of the matrix, elements are addded as
36691 + For each row of the matrix, elements are added as
36692 a (column, coeff) pair in the _coeffs array. This column number refers
36693 to an element on the target side via the _col_offsets array.
36694 It is made of a series of (iproc, ielem) pairs.
36695 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/MPIAccess.cxx MEDCOUPLING_new/src/ParaMEDMEM/MPIAccess.cxx
36696 --- MEDCOUPLING_old/src/ParaMEDMEM/MPIAccess.cxx 2018-04-19 17:04:36.775223480 +0200
36697 +++ MEDCOUPLING_new/src/ParaMEDMEM/MPIAccess.cxx 2018-04-19 17:25:17.348789668 +0200
36698 @@ -170,7 +170,7 @@
36699 "_MapOfRequestStruct".
36700 That structure RequestStruct give the possibility to manage
36701 the structures MPI_Request and MPI_Status * of MPI. It give
36702 - also the possibility to get informations about that request :
36703 + also the possibility to get information about that request :
36704 target, send/recv, tag, [a]synchronous, type, outcount.
36706 . That identifier is used to control an asynchronous request
36707 @@ -391,7 +391,7 @@
36708 // Receive (read) in synchronous mode count values of type datatype in buffer from source
36709 // (returns RequestId identifier even if the corresponding structure is deleted :
36710 // it is only in order to have the same signature as the asynchronous mode)
36711 - // The output argument OutCount is optionnal : *OutCount <= count
36712 + // The output argument OutCount is optional : *OutCount <= count
36713 int MPIAccess::recv(void* buffer, int count, MPI_Datatype datatype, int source, int &RequestId, int *OutCount)
36715 int sts = MPI_SUCCESS ;
36716 @@ -1003,7 +1003,7 @@
36717 return _comm_interface.requestFree( request ) ;
36720 - // Print all informations of all known requests for debugging purpose
36721 + // Print all information of all known requests for debugging purpose
36722 void MPIAccess::check() const
36725 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/MPIAccessDEC.cxx MEDCOUPLING_new/src/ParaMEDMEM/MPIAccessDEC.cxx
36726 --- MEDCOUPLING_old/src/ParaMEDMEM/MPIAccessDEC.cxx 2018-04-19 17:04:36.775223480 +0200
36727 +++ MEDCOUPLING_new/src/ParaMEDMEM/MPIAccessDEC.cxx 2018-04-19 17:25:17.326789233 +0200
36728 @@ -441,12 +441,12 @@
36729 . We assume that buffers are allocated with a new double[]. so a
36732 - . The structure SendBuffStruct permit to keep the adress of the buffer
36733 + . The structure SendBuffStruct permit to keep the address of the buffer
36734 and to manage a reference counter of that buffer. It contains
36735 also MPI_Datatype for the delete [] (double *) ... when the counter
36738 - . The map _MapOfSendBuffers etablish the correspondance between each
36739 + . The map _MapOfSendBuffers establish the correspondence between each
36740 RequestId given by a MPI_Access->ISend(...) and a SendBuffStruct
36741 for each "target" of a part of the buffer.
36743 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/NonCoincidentDEC.cxx MEDCOUPLING_new/src/ParaMEDMEM/NonCoincidentDEC.cxx
36744 --- MEDCOUPLING_old/src/ParaMEDMEM/NonCoincidentDEC.cxx 2018-04-19 17:04:36.775223480 +0200
36745 +++ MEDCOUPLING_new/src/ParaMEDMEM/NonCoincidentDEC.cxx 2018-04-19 17:25:17.341789529 +0200
36746 @@ -217,7 +217,7 @@
36748 elem_numbers = const_cast<fvm_lnum_t*> (support->getNumber(types[itype]));
36750 - //creating work arrays to store list of elems for partial suports
36751 + //creating work arrays to store list of elems for partial supports
36754 fvm_lnum_t* temp = new int[nbelems];
36755 @@ -372,7 +372,7 @@
36756 int nbcomp = _local_field->getField()->getNumberOfComponents();
36757 double* distant_values = new double [_nb_distant_points*nbcomp];
36759 - //cheap interpolation : the value of the cell is transfered to the point
36760 + //cheap interpolation : the value of the cell is transferred to the point
36761 for (int i=0; i<_nb_distant_points; i++)
36762 for (int j=0; j <nbcomp; j++)
36763 distant_values[i*nbcomp+j]=values[(_distant_locations[i]-1)*nbcomp+j];
36764 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/OverlapDEC.cxx MEDCOUPLING_new/src/ParaMEDMEM/OverlapDEC.cxx
36765 --- MEDCOUPLING_old/src/ParaMEDMEM/OverlapDEC.cxx 2018-04-19 17:04:36.775223480 +0200
36766 +++ MEDCOUPLING_new/src/ParaMEDMEM/OverlapDEC.cxx 2018-04-19 17:25:17.331789332 +0200
36767 @@ -79,11 +79,11 @@
36768 Starting from the global interaction previously computed in \ref ParaMEDMEMOverlapDECAlgoStep1
36769 "Step 1", each proc computes the TODO list per proc.
36770 The following rules is chosen : a pair (x,y) can be treated by either proc \#x or proc \#y,
36771 - in order to reduce the amount of data transfert among
36772 + in order to reduce the amount of data transfers among
36773 processors. The algorithm chosen for load balancing is the following : Each processor has
36774 an empty \b local TODO list at the beginning. Then for each pair (k,m) in
36775 \b global TODO list, if proc\#k has less temporary local list than proc\#m pair, (k,m) is added
36776 - to temparary local TODO list of proc\#k.
36777 + to temporary local TODO list of proc\#k.
36778 If proc\#m has less temporary local TODO list than proc\#k pair, (k,m) is added to temporary
36779 local TODO list of proc\#m.
36780 If proc\#k and proc\#m have the same amount of temporary local TODO list pair, (k,m) is added to
36781 @@ -135,7 +135,7 @@
36782 seen in \ref ParaMEDMEMOverlapDECAlgoStep2 "here in Step2".
36784 As will be dealt in Step 6, for final matrix-vector computations, the resulting matrix of the
36785 - couple (k,m) whereever it is computed (proc \#k or proc \#m)
36786 + couple (k,m) wherever it is computed (proc \#k or proc \#m)
36787 will be stored in \b proc\#m.
36789 - If proc \#k is in charge (performs the matrix computation) for this couple (k,m), target ids
36790 @@ -154,7 +154,7 @@
36791 in charge of the matrix, proc \#m receives the source ids
36792 from remote proc \#k, and thus the matrix is directly correct, no need for renumbering as
36793 in \ref ParaMEDMEMOverlapDECAlgoStep5 "Step 5". However proc \#k must
36794 - keep track of the ids sent to proc \#m for te matrix-vector computation.
36795 + keep track of the ids sent to proc \#m for the matrix-vector computation.
36796 This is incarnated by OverlapMapping::keepTracksOfSourceIds in proc k.
36798 This step is performed in MEDCoupling::OverlapElementLocator::exchangeMeshes method.
36799 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/OverlapElementLocator.cxx MEDCOUPLING_new/src/ParaMEDMEM/OverlapElementLocator.cxx
36800 --- MEDCOUPLING_old/src/ParaMEDMEM/OverlapElementLocator.cxx 2018-04-19 17:04:36.776223501 +0200
36801 +++ MEDCOUPLING_new/src/ParaMEDMEM/OverlapElementLocator.cxx 2018-04-19 17:25:17.344789588 +0200
36802 @@ -481,8 +481,8 @@
36806 - * This method recieves source remote mesh on proc 'procId' if sourceOrTarget==True
36807 - * This method recieves target remote mesh on proc 'procId' if sourceOrTarget==False
36808 + * This method receives source remote mesh on proc 'procId' if sourceOrTarget==True
36809 + * This method receives target remote mesh on proc 'procId' if sourceOrTarget==False
36811 void OverlapElementLocator::receiveRemoteMeshFrom(int procId, bool sourceOrTarget)
36813 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/OverlapMapping.cxx MEDCOUPLING_new/src/ParaMEDMEM/OverlapMapping.cxx
36814 --- MEDCOUPLING_old/src/ParaMEDMEM/OverlapMapping.cxx 2018-04-19 17:04:36.776223501 +0200
36815 +++ MEDCOUPLING_new/src/ParaMEDMEM/OverlapMapping.cxx 2018-04-19 17:25:17.359789885 +0200
36816 @@ -415,7 +415,7 @@
36817 * This is the last step after all2Alls for matrix exchange.
36818 * _the_matrix_st is the final matrix :
36819 * - The first entry is srcId in current proc.
36820 - * - The second is the pseudo id of source proc (correspondance with true id is in attribute _the_matrix_st_source_proc_id and _the_matrix_st_source_ids)
36821 + * - The second is the pseudo id of source proc (correspondence with true id is in attribute _the_matrix_st_source_proc_id and _the_matrix_st_source_ids)
36822 * - the third is the srcId in the pseudo source proc
36824 void OverlapMapping::unserializationST(int nbOfTrgElems,
36825 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM/ParaFIELD.cxx MEDCOUPLING_new/src/ParaMEDMEM/ParaFIELD.cxx
36826 --- MEDCOUPLING_old/src/ParaMEDMEM/ParaFIELD.cxx 2018-04-19 17:04:36.776223501 +0200
36827 +++ MEDCOUPLING_new/src/ParaMEDMEM/ParaFIELD.cxx 2018-04-19 17:25:17.308788877 +0200
36828 @@ -172,7 +172,7 @@
36829 * This method returns, if it exists, an array with only one component and as many as tuples as _field has.
36830 * This array gives for every element on which this->_field lies, its global number, if this->_field is nodal.
36831 * For example if _field is a nodal field : returned array will be the nodal global numbers.
36832 - * The content of this method is used to inform Working side to accumulate data recieved by lazy side.
36833 + * The content of this method is used to inform Working side to accumulate data received by lazy side.
36835 DataArrayInt* ParaFIELD::returnCumulativeGlobalNumbering() const
36837 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM_Swig/CMakeLists.txt MEDCOUPLING_new/src/ParaMEDMEM_Swig/CMakeLists.txt
36838 --- MEDCOUPLING_old/src/ParaMEDMEM_Swig/CMakeLists.txt 2018-04-19 17:04:36.800223979 +0200
36839 +++ MEDCOUPLING_new/src/ParaMEDMEM_Swig/CMakeLists.txt 2018-04-19 17:25:17.361789924 +0200
36840 @@ -30,39 +30,33 @@
36842 SET(SWIG_MODULE_ParaMEDMEM_EXTRA_FLAGS "${NUMPY_DEFINITIONS};${SCIPY_DEFINITIONS}")
36844 -SET (ParaMEDMEM_SWIG_DPYS_FILES
36845 - ParaMEDMEM.typemap)
36847 INCLUDE_DIRECTORIES(
36848 ${PYTHON_INCLUDE_DIRS}
36849 ${NUMPY_INCLUDE_DIR}
36850 - ${MEDFILE_INCLUDE_DIRS}
36851 - ${HDF5_INCLUDE_DIRS}
36852 ${MPI_INCLUDE_DIRS}
36853 ${CMAKE_CURRENT_SOURCE_DIR}
36854 ${CMAKE_CURRENT_SOURCE_DIR}/../ParaMEDMEM
36855 ${CMAKE_CURRENT_SOURCE_DIR}/../ICoCo
36856 ${CMAKE_CURRENT_SOURCE_DIR}/../MEDCoupling_Swig
36857 - ${CMAKE_CURRENT_SOURCE_DIR}/../MEDLoader/Swig
36858 - ${CMAKE_CURRENT_SOURCE_DIR}/../MEDLoader
36859 ${CMAKE_CURRENT_SOURCE_DIR}/../MEDCoupling
36860 ${CMAKE_CURRENT_SOURCE_DIR}/../INTERP_KERNEL
36861 ${CMAKE_CURRENT_SOURCE_DIR}/../INTERP_KERNEL/Bases
36864 -SET (SWIG_MODULE_ParaMEDMEM_EXTRA_DEPS ${ParaMEDMEM_SWIG_DPYS_FILES}
36865 +SET (SWIG_MODULE_ParaMEDMEM_EXTRA_DEPS
36866 ${paramedmem_HEADERS_HXX}
36867 ${medloader_HEADERS_HXX}
36868 ${medcoupling_HEADERS_HXX} ${medcoupling_HEADERS_TXX}
36869 ${interpkernel_HEADERS_HXX} ${interpkernel_HEADERS_TXX})
36871 SWIG_ADD_MODULE(ParaMEDMEM python ParaMEDMEM.i)
36872 -SWIG_LINK_LIBRARIES(ParaMEDMEM ${PYTHON_LIBRARIES} paramedmem medloader)
36873 +SWIG_LINK_LIBRARIES(ParaMEDMEM ${PYTHON_LIBRARIES} paramedmem)
36874 SWIG_CHECK_GENERATION(ParaMEDMEM)
36876 INSTALL(TARGETS _ParaMEDMEM DESTINATION ${MEDCOUPLING_INSTALL_PYTHON})
36877 -INSTALL(FILES ParaMEDMEM.i DESTINATION ${MEDCOUPLING_INSTALL_HEADERS})
36878 -INSTALL(FILES ${CMAKE_CURRENT_BINARY_DIR}/ParaMEDMEM.py test_InterpKernelDEC.py test_NonCoincidentDEC.py test_StructuredCoincidentDEC.py DESTINATION ${MEDCOUPLING_INSTALL_SCRIPT_PYTHON})
36879 +INSTALL(FILES ParaMEDMEM.i ParaMEDMEMCommon.i DESTINATION ${MEDCOUPLING_INSTALL_HEADERS})
36880 +INSTALL(FILES test_InterpKernelDEC.py test_NonCoincidentDEC.py test_StructuredCoincidentDEC.py DESTINATION ${MEDCOUPLING_INSTALL_SCRIPT_PYTHON})
36881 +SALOME_INSTALL_SCRIPTS(${CMAKE_CURRENT_BINARY_DIR}/ParaMEDMEM.py ${MEDCOUPLING_INSTALL_PYTHON})
36883 SALOME_INSTALL_SCRIPTS(${CMAKE_CURRENT_BINARY_DIR}/ParaMEDMEM.py ${MEDCOUPLING_INSTALL_SCRIPT_PYTHON})
36884 INSTALL(FILES test_InterpKernelDEC.py test_NonCoincidentDEC.py test_StructuredCoincidentDEC.py DESTINATION ${MEDCOUPLING_INSTALL_SCRIPT_PYTHON})
36885 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM_Swig/ParaMEDMEMCommon.i MEDCOUPLING_new/src/ParaMEDMEM_Swig/ParaMEDMEMCommon.i
36886 --- MEDCOUPLING_old/src/ParaMEDMEM_Swig/ParaMEDMEMCommon.i 1970-01-01 01:00:00.000000000 +0100
36887 +++ MEDCOUPLING_new/src/ParaMEDMEM_Swig/ParaMEDMEMCommon.i 2018-04-19 17:25:17.364789984 +0200
36889 +// Copyright (C) 2017 CEA/DEN, EDF R&D
36891 +// This library is free software; you can redistribute it and/or
36892 +// modify it under the terms of the GNU Lesser General Public
36893 +// License as published by the Free Software Foundation; either
36894 +// version 2.1 of the License, or (at your option) any later version.
36896 +// This library is distributed in the hope that it will be useful,
36897 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
36898 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
36899 +// Lesser General Public License for more details.
36901 +// You should have received a copy of the GNU Lesser General Public
36902 +// License along with this library; if not, write to the Free Software
36903 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
36905 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
36908 +%include std_set.i
36910 +%template() std::set<int>;
36913 +#include "CommInterface.hxx"
36914 +#include "ProcessorGroup.hxx"
36915 +#include "Topology.hxx"
36916 +#include "MPIProcessorGroup.hxx"
36917 +#include "DEC.hxx"
36918 +#include "InterpKernelDEC.hxx"
36919 +#include "NonCoincidentDEC.hxx"
36920 +#include "StructuredCoincidentDEC.hxx"
36921 +#include "ParaMESH.hxx"
36922 +#include "ParaFIELD.hxx"
36923 +#include "ICoCoMEDField.hxx"
36924 +#include "ComponentTopology.hxx"
36926 +using namespace INTERP_KERNEL;
36927 +using namespace MEDCoupling;
36928 +using namespace ICoCo;
36931 +%include "InterpolationOptions.hxx"
36932 +%include "CommInterface.hxx"
36933 +%include "ProcessorGroup.hxx"
36934 +%include "DECOptions.hxx"
36935 +%include "ParaMESH.hxx"
36936 +%include "ParaFIELD.hxx"
36937 +%include "MPIProcessorGroup.hxx"
36938 +%include "ComponentTopology.hxx"
36939 +%include "DEC.hxx"
36940 +%include "DisjointDEC.hxx"
36941 +%include "InterpKernelDEC.hxx"
36942 +%include "StructuredCoincidentDEC.hxx"
36944 +%include "ICoCoField.hxx"
36945 +%rename(ICoCoMEDField) ICoCo::MEDField;
36946 +%include "ICoCoMEDField.hxx"
36950 +/* This object can be used only if MED_ENABLE_FVM is defined*/
36951 +#ifdef MED_ENABLE_FVM
36952 +class NonCoincidentDEC : public DEC
36955 + NonCoincidentDEC(ProcessorGroup& source, ProcessorGroup& target);
36959 +%extend MEDCoupling::ParaMESH
36961 + PyObject *getGlobalNumberingCell2() const
36963 + const int *tmp=self->getGlobalNumberingCell();
36964 + int size=self->getCellMesh()->getNumberOfCells();
36965 + PyObject *ret=PyList_New(size);
36966 + for(int i=0;i<size;i++)
36967 + PyList_SetItem(ret,i,PyInt_FromLong(tmp[i]));
36971 + PyObject *getGlobalNumberingFace2() const
36973 + const int *tmp=self->getGlobalNumberingFace();
36974 + int size=self->getFaceMesh()->getNumberOfCells();
36975 + PyObject *ret=PyList_New(size);
36976 + for(int i=0;i<size;i++)
36977 + PyList_SetItem(ret,i,PyInt_FromLong(tmp[i]));
36981 + PyObject *getGlobalNumberingNode2() const
36983 + const int *tmp=self->getGlobalNumberingNode();
36984 + int size=self->getCellMesh()->getNumberOfNodes();
36985 + PyObject *ret=PyList_New(size);
36986 + for(int i=0;i<size;i++)
36987 + PyList_SetItem(ret,i,PyInt_FromLong(tmp[i]));
36991 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM_Swig/ParaMEDMEM.i MEDCOUPLING_new/src/ParaMEDMEM_Swig/ParaMEDMEM.i
36992 --- MEDCOUPLING_old/src/ParaMEDMEM_Swig/ParaMEDMEM.i 2018-04-19 17:04:36.800223979 +0200
36993 +++ MEDCOUPLING_new/src/ParaMEDMEM_Swig/ParaMEDMEM.i 2018-04-19 17:25:17.366790023 +0200
36994 @@ -17,281 +17,33 @@
36995 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
36998 -%module ParaMEDMEM
37000 -%include "ParaMEDMEM.typemap"
37001 -%include "MEDLoaderCommon.i"
37004 -#include "CommInterface.hxx"
37005 -#include "ProcessorGroup.hxx"
37006 -#include "Topology.hxx"
37007 -#include "MPIProcessorGroup.hxx"
37008 -#include "DEC.hxx"
37009 -#include "InterpKernelDEC.hxx"
37010 -#include "NonCoincidentDEC.hxx"
37011 -#include "StructuredCoincidentDEC.hxx"
37012 -#include "ParaMESH.hxx"
37013 -#include "ParaFIELD.hxx"
37014 -#include "ICoCoMEDField.hxx"
37015 -#include "ComponentTopology.hxx"
37019 -using namespace MEDCoupling;
37020 -using namespace ICoCo;
37022 -enum mpi_constants { mpi_comm_world, mpi_comm_self, mpi_double, mpi_int };
37025 -%include "CommInterface.hxx"
37026 -%include "ProcessorGroup.hxx"
37027 -%include "DECOptions.hxx"
37028 -%include "ParaMESH.hxx"
37029 -%include "ParaFIELD.hxx"
37030 -%include "MPIProcessorGroup.hxx"
37031 -%include "ComponentTopology.hxx"
37032 -%include "DEC.hxx"
37033 -%include "InterpKernelDEC.hxx"
37034 -%include "StructuredCoincidentDEC.hxx"
37036 -%rename(ICoCoMEDField) ICoCo::MEDField;
37037 -%include "ICoCoMEDField.hxx"
37041 -/* This object can be used only if MED_ENABLE_FVM is defined*/
37042 -#ifdef MED_ENABLE_FVM
37043 -class NonCoincidentDEC : public DEC
37046 - NonCoincidentDEC(ProcessorGroup& source, ProcessorGroup& target);
37050 -%extend MEDCoupling::ParaMESH
37052 - PyObject *getGlobalNumberingCell2() const
37054 - const int *tmp=self->getGlobalNumberingCell();
37055 - int size=self->getCellMesh()->getNumberOfCells();
37056 - PyObject *ret=PyList_New(size);
37057 - for(int i=0;i<size;i++)
37058 - PyList_SetItem(ret,i,PyInt_FromLong(tmp[i]));
37062 - PyObject *getGlobalNumberingFace2() const
37064 - const int *tmp=self->getGlobalNumberingFace();
37065 - int size=self->getFaceMesh()->getNumberOfCells();
37066 - PyObject *ret=PyList_New(size);
37067 - for(int i=0;i<size;i++)
37068 - PyList_SetItem(ret,i,PyInt_FromLong(tmp[i]));
37071 +// Author : Anthony Geay (EDF R&D)
37073 - PyObject *getGlobalNumberingNode2() const
37075 - const int *tmp=self->getGlobalNumberingNode();
37076 - int size=self->getCellMesh()->getNumberOfNodes();
37077 - PyObject *ret=PyList_New(size);
37078 - for(int i=0;i<size;i++)
37079 - PyList_SetItem(ret,i,PyInt_FromLong(tmp[i]));
37084 -//=============================================================================================
37085 -// Interface for MPI-realization-specific constants like MPI_COMM_WORLD.
37087 -// Type and values of constants like MPI_COMM_WORLD depends on MPI realization
37088 -// and usually such constants actually are macros. To have such symbols in python
37089 -// and translate them into correct values we use the following technique.
37090 -// We define some constants (enum mpi_constants) and map them into real MPI values
37091 -// using typemaps, and we create needed python symbols equal to 'mpi_constants'
37092 -// via %pythoncode directive.
37094 -// Constants corresponding to similar MPI definitions
37095 -enum mpi_constants { mpi_comm_world, mpi_comm_self, mpi_double, mpi_int };
37097 -// Map mpi_comm_world and mpi_comm_self -> MPI_COMM_WORLD and MPI_COMM_SELF
37098 -%typemap(in) MPI_Comm
37100 - switch (PyInt_AsLong($input))
37102 - case mpi_comm_world: $1 = MPI_COMM_WORLD; break;
37103 - case mpi_comm_self: $1 = MPI_COMM_SELF; break;
37105 - PyErr_SetString(PyExc_TypeError,"unexpected value of MPI_Comm");
37109 -// Map mpi_double and mpi_int -> MPI_DOUBLE and MPI_INT
37110 -%typemap(in) MPI_Datatype
37112 - switch (PyInt_AsLong($input))
37114 - case mpi_double: $1 = MPI_DOUBLE; break;
37115 - case mpi_int: $1 = MPI_INT; break;
37117 - PyErr_SetString(PyExc_TypeError,"unexpected value of MPI_Datatype");
37121 -// The following code gets inserted into the result python file:
37122 -// create needed python symbols
37124 -MPI_COMM_WORLD = mpi_comm_world
37125 -MPI_COMM_SELF = mpi_comm_self
37126 -MPI_DOUBLE = mpi_double
37129 -//=============================================================================================
37134 -%inline %{ PyObject* MPI_Comm_size(MPI_Comm comm)
37137 - int err = MPI_Comm_size(comm, &res);
37138 - if ( err != MPI_SUCCESS )
37140 - PyErr_SetString(PyExc_RuntimeError,"Erorr in MPI_Comm_size()");
37143 - return PyInt_FromLong( res );
37149 -%inline %{ PyObject* MPI_Comm_rank(MPI_Comm comm)
37152 - int err = MPI_Comm_rank(comm, &res);
37153 - if ( err != MPI_SUCCESS )
37155 - PyErr_SetString(PyExc_RuntimeError,"Erorr in MPI_Comm_rank()");
37158 - return PyInt_FromLong( res );
37162 -int MPI_Init(int *argc, char ***argv );
37163 -int MPI_Barrier(MPI_Comm comm);
37164 -int MPI_Finalize();
37165 +%module ParaMEDMEM
37170 +#define MEDCOUPLING_EXPORT
37171 +#define INTERPKERNEL_EXPORT
37173 -%inline %{ PyObject* MPI_Bcast(PyObject* buffer, int nb, MPI_Datatype type, int root, MPI_Comm c)
37175 - // buffer must be a list
37176 - if (!PyList_Check(buffer))
37178 - PyErr_SetString(PyExc_TypeError, "buffer is expected to be a list");
37181 - // check list size
37182 - int aSize = PyList_Size(buffer);
37183 - if ( aSize != nb )
37185 - std::ostringstream stream; stream << "buffer is expected to be of size " << nb;
37186 - PyErr_SetString(PyExc_ValueError, stream.str().c_str());
37189 - // allocate and fill a buffer
37192 - double* dblBuf = 0;
37193 - if ( type == MPI_DOUBLE )
37195 - aBuf = (void*) ( dblBuf = new double[ nb ] );
37196 - for ( int i = 0; i < aSize; ++i )
37197 - dblBuf[i] = PyFloat_AS_DOUBLE( PyList_GetItem( buffer, i ));
37199 - else if ( type == MPI_INT )
37201 - aBuf = (void*) ( intBuf = new int[ nb ] );
37202 - for ( int i = 0; i < aSize; ++i )
37203 - intBuf[i] = int( PyInt_AS_LONG( PyList_GetItem( buffer, i )));
37207 - PyErr_SetString(PyExc_TypeError, "Only MPI_DOUBLE and MPI_INT supported");
37210 - // call MPI_Bcast
37211 - int err = MPI_Bcast(aBuf, nb, type, root, c);
37213 - if ( err != MPI_SUCCESS )
37215 - PyErr_SetString(PyExc_RuntimeError,"Erorr in MPI_Bcast()");
37216 - delete [] intBuf; delete [] dblBuf;
37219 - // put recieved data into the list
37221 - if ( type == MPI_DOUBLE )
37223 - for ( int i = 0; i < aSize && !pyerr; ++i )
37224 - pyerr = PyList_SetItem(buffer, i, PyFloat_FromDouble( dblBuf[i] ));
37225 - delete [] dblBuf;
37229 - for ( int i = 0; i < aSize && !pyerr; ++i )
37230 - pyerr = PyList_SetItem(buffer, i, PyInt_FromLong( intBuf[i] ));
37231 - delete [] intBuf;
37235 - PyErr_SetString(PyExc_RuntimeError, "Error of PyList_SetItem()");
37238 - return PyInt_FromLong( err );
37239 +%include "MEDCouplingCommon.i"
37243 +%include "ParaMEDMEMCommon.i"
37246 -def ParaMEDMEMDataArrayDoublenew(cls,*args):
37247 - import _ParaMEDMEM
37248 - return _ParaMEDMEM.DataArrayDouble____new___(cls,args)
37249 -def ParaMEDMEMDataArrayDoubleIadd(self,*args):
37250 +def MEDCouplingDataArrayDoubleIadd(self,*args):
37252 return _ParaMEDMEM.DataArrayDouble____iadd___(self, self, *args)
37253 -def ParaMEDMEMDataArrayDoubleIsub(self,*args):
37254 +def MEDCouplingDataArrayDoubleIsub(self,*args):
37256 return _ParaMEDMEM.DataArrayDouble____isub___(self, self, *args)
37257 -def ParaMEDMEMDataArrayDoubleImul(self,*args):
37258 +def MEDCouplingDataArrayDoubleImul(self,*args):
37260 return _ParaMEDMEM.DataArrayDouble____imul___(self, self, *args)
37261 -def ParaMEDMEMDataArrayDoubleIdiv(self,*args):
37262 +def MEDCouplingDataArrayDoubleIdiv(self,*args):
37264 return _ParaMEDMEM.DataArrayDouble____idiv___(self, self, *args)
37265 -def ParaMEDMEMDataArrayDoubleIpow(self,*args):
37266 +def MEDCouplingDataArrayDoubleIpow(self,*args):
37268 return _ParaMEDMEM.DataArrayDouble____ipow___(self, self, *args)
37269 -def ParaMEDMEMDataArrayDoubleTupleIadd(self,*args):
37270 - import _ParaMEDMEM
37271 - return _ParaMEDMEM.DataArrayDoubleTuple____iadd___(self, self, *args)
37272 -def ParaMEDMEMDataArrayDoubleTupleIsub(self,*args):
37273 - import _ParaMEDMEM
37274 - return _ParaMEDMEM.DataArrayDoubleTuple____isub___(self, self, *args)
37275 -def ParaMEDMEMDataArrayDoubleTupleImul(self,*args):
37276 - import _ParaMEDMEM
37277 - return _ParaMEDMEM.DataArrayDoubleTuple____imul___(self, self, *args)
37278 -def ParaMEDMEMDataArrayDoubleTupleIdiv(self,*args):
37279 - import _ParaMEDMEM
37280 - return _ParaMEDMEM.DataArrayDoubleTuple____idiv___(self, self, *args)
37281 -def MEDCouplingFieldDoublenew(cls,*args):
37282 - import _ParaMEDMEM
37283 - return _ParaMEDMEM.MEDCouplingFieldDouble____new___(cls,args)
37284 def MEDCouplingFieldDoubleIadd(self,*args):
37286 return _ParaMEDMEM.MEDCouplingFieldDouble____iadd___(self, self, *args)
37287 @@ -307,42 +59,69 @@
37288 def MEDCouplingFieldDoubleIpow(self,*args):
37290 return _ParaMEDMEM.MEDCouplingFieldDouble____ipow___(self, self, *args)
37291 -def ParaMEDMEMDataArrayIntnew(cls,*args):
37292 - import _ParaMEDMEM
37293 - return _ParaMEDMEM.DataArrayInt____new___(cls,args)
37294 -def ParaMEDMEMDataArrayIntIadd(self,*args):
37295 +def MEDCouplingDataArrayIntIadd(self,*args):
37297 return _ParaMEDMEM.DataArrayInt____iadd___(self, self, *args)
37298 -def ParaMEDMEMDataArrayIntIsub(self,*args):
37299 +def MEDCouplingDataArrayIntIsub(self,*args):
37301 return _ParaMEDMEM.DataArrayInt____isub___(self, self, *args)
37302 -def ParaMEDMEMDataArrayIntImul(self,*args):
37303 +def MEDCouplingDataArrayIntImul(self,*args):
37305 return _ParaMEDMEM.DataArrayInt____imul___(self, self, *args)
37306 -def ParaMEDMEMDataArrayIntIdiv(self,*args):
37307 +def MEDCouplingDataArrayIntIdiv(self,*args):
37309 return _ParaMEDMEM.DataArrayInt____idiv___(self, self, *args)
37310 -def ParaMEDMEMDataArrayIntImod(self,*args):
37311 +def MEDCouplingDataArrayIntImod(self,*args):
37313 return _ParaMEDMEM.DataArrayInt____imod___(self, self, *args)
37314 -def ParaMEDMEMDataArrayIntIpow(self,*args):
37315 +def MEDCouplingDataArrayIntIpow(self,*args):
37317 return _ParaMEDMEM.DataArrayInt____ipow___(self, self, *args)
37318 -def ParaMEDMEMDataArrayIntTupleIadd(self,*args):
37319 +def MEDCouplingDataArrayFloatIadd(self,*args):
37320 + import _ParaMEDMEM
37321 + return _ParaMEDMEM.DataArrayFloat____iadd___(self, self, *args)
37322 +def MEDCouplingDataArrayFloatIsub(self,*args):
37323 + import _ParaMEDMEM
37324 + return _ParaMEDMEM.DataArrayFloat____isub___(self, self, *args)
37325 +def MEDCouplingDataArrayFloatImul(self,*args):
37326 + import _ParaMEDMEM
37327 + return _ParaMEDMEM.DataArrayFloat____imul___(self, self, *args)
37328 +def MEDCouplingDataArrayFloatIdiv(self,*args):
37329 + import _ParaMEDMEM
37330 + return _ParaMEDMEM.DataArrayFloat____idiv___(self, self, *args)
37331 +def MEDCouplingDataArrayDoubleTupleIadd(self,*args):
37332 + import _ParaMEDMEM
37333 + return _ParaMEDMEM.DataArrayDoubleTuple____iadd___(self, self, *args)
37334 +def MEDCouplingDataArrayDoubleTupleIsub(self,*args):
37335 + import _ParaMEDMEM
37336 + return _ParaMEDMEM.DataArrayDoubleTuple____isub___(self, self, *args)
37337 +def MEDCouplingDataArrayDoubleTupleImul(self,*args):
37338 + import _ParaMEDMEM
37339 + return _ParaMEDMEM.DataArrayDoubleTuple____imul___(self, self, *args)
37340 +def MEDCouplingDataArrayDoubleTupleIdiv(self,*args):
37341 + import _ParaMEDMEM
37342 + return _ParaMEDMEM.DataArrayDoubleTuple____idiv___(self, self, *args)
37343 +def MEDCouplingDataArrayIntTupleIadd(self,*args):
37345 return _ParaMEDMEM.DataArrayIntTuple____iadd___(self, self, *args)
37346 -def ParaMEDMEMDataArrayIntTupleIsub(self,*args):
37347 +def MEDCouplingDataArrayIntTupleIsub(self,*args):
37349 return _ParaMEDMEM.DataArrayIntTuple____isub___(self, self, *args)
37350 -def ParaMEDMEMDataArrayIntTupleImul(self,*args):
37351 +def MEDCouplingDataArrayIntTupleImul(self,*args):
37353 return _ParaMEDMEM.DataArrayIntTuple____imul___(self, self, *args)
37354 -def ParaMEDMEMDataArrayIntTupleIdiv(self,*args):
37355 +def MEDCouplingDataArrayIntTupleIdiv(self,*args):
37357 return _ParaMEDMEM.DataArrayIntTuple____idiv___(self, self, *args)
37358 -def ParaMEDMEMDataArrayIntTupleImod(self,*args):
37359 +def MEDCouplingDataArrayIntTupleImod(self,*args):
37361 return _ParaMEDMEM.DataArrayIntTuple____imod___(self, self, *args)
37362 +def MEDCouplingDenseMatrixIadd(self,*args):
37363 + import _ParaMEDMEM
37364 + return _ParaMEDMEM.DenseMatrix____iadd___(self, self, *args)
37365 +def MEDCouplingDenseMatrixIsub(self,*args):
37366 + import _ParaMEDMEM
37367 + return _ParaMEDMEM.DenseMatrix____isub___(self, self, *args)
37370 %include "MEDCouplingFinalize.i"
37371 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM_Swig/ParaMEDMEM.typemap MEDCOUPLING_new/src/ParaMEDMEM_Swig/ParaMEDMEM.typemap
37372 --- MEDCOUPLING_old/src/ParaMEDMEM_Swig/ParaMEDMEM.typemap 2018-04-19 17:04:36.800223979 +0200
37373 +++ MEDCOUPLING_new/src/ParaMEDMEM_Swig/ParaMEDMEM.typemap 1970-01-01 01:00:00.000000000 +0100
37375 -// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
37377 -// This library is free software; you can redistribute it and/or
37378 -// modify it under the terms of the GNU Lesser General Public
37379 -// License as published by the Free Software Foundation; either
37380 -// version 2.1 of the License, or (at your option) any later version.
37382 -// This library is distributed in the hope that it will be useful,
37383 -// but WITHOUT ANY WARRANTY; without even the implied warranty of
37384 -// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
37385 -// Lesser General Public License for more details.
37387 -// You should have received a copy of the GNU Lesser General Public
37388 -// License along with this library; if not, write to the Free Software
37389 -// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
37391 -// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
37394 -%include std_set.i
37395 -%include std_string.i
37397 -%template() std::set<int>;
37399 -// Creates "int *argc, char ***argv" parameters from input list
37400 -%typemap(in) (int *argc, char ***argv) {
37402 - if (!PyList_Check($input)) {
37403 - PyErr_SetString(PyExc_ValueError, "Expecting a list");
37406 - int aSize = PyList_Size($input);
37408 - char** aStrs = (char **) malloc((aSize+1)*sizeof(char *));
37409 - for (i = 0; i < aSize; i++) {
37410 - PyObject *s = PyList_GetItem($input,i);
37411 - if (PyString_Check(s))
37412 - aStrs[i] = PyString_AsString(s);
37413 -%#if PY_VERSION_HEX >= 0x03000000
37414 - else if (PyUnicode_Check(s))
37415 - aStrs[i] = PyUnicode_AsUTF8(s);
37419 - PyErr_SetString(PyExc_ValueError, "List items must be strings");
37427 -%typemap(freearg) (int *argc, char ***argv) {
37428 - if ($2) free(*($2));
37431 -/* MACRO: IN typemap for std::set<TYPE> C++ object */
37432 -%define TYPEMAP_INPUT_SET_BY_VALUE( TYPE )
37434 - /* typemap in for set<TYPE> */
37435 - /* Check if is a list */
37436 - if (PyList_Check($input))
37438 - int size = PyList_Size($input);
37439 - std::set< TYPE > tmpSet;
37441 - for (int i=0; i < size; i++)
37443 - PyObject * tmp = PyList_GetItem($input,i);
37444 - TYPE elem = PyInt_AsLong(tmp);
37445 - tmpSet.insert(elem);
37451 - PyErr_SetString(PyExc_TypeError,"not a list");
37457 -%typemap(in) std::set<int>
37459 - TYPEMAP_INPUT_SET_BY_VALUE( int )
37461 -%typecheck(SWIG_TYPECHECK_POINTER) std::set<int> {
37462 - $1 = PyList_Check($input) ? 1 : 0;
37464 diff -Naur MEDCOUPLING_old/src/ParaMEDMEM_Swig/test_InterpKernelDEC.py MEDCOUPLING_new/src/ParaMEDMEM_Swig/test_InterpKernelDEC.py
37465 --- MEDCOUPLING_old/src/ParaMEDMEM_Swig/test_InterpKernelDEC.py 2018-04-19 17:04:36.800223979 +0200
37466 +++ MEDCOUPLING_new/src/ParaMEDMEM_Swig/test_InterpKernelDEC.py 2018-04-19 17:25:17.361789924 +0200
37467 @@ -20,15 +20,17 @@
37470 from ParaMEDMEM import *
37471 +from MEDLoader import ReadUMeshFromFile
37475 +from mpi4py import MPI
37478 class ParaMEDMEMBasicsTest(unittest.TestCase):
37479 def testInterpKernelDEC_2D(self):
37480 - MPI_Init(sys.argv)
37481 - size = MPI_Comm_size(MPI_COMM_WORLD)
37482 - rank = MPI_Comm_rank(MPI_COMM_WORLD)
37483 + size = MPI.COMM_WORLD.size
37484 + rank = MPI.COMM_WORLD.rank
37486 raise RuntimeError("Expect MPI_COMM_WORLD size == 5")
37489 filename_xml1 = os.path.join(data_dir, "share/resources/med/square1_split")
37490 filename_xml2 = os.path.join(data_dir, "share/resources/med/square2_split")
37492 - MPI_Barrier(MPI_COMM_WORLD)
37493 + MPI.COMM_WORLD.Barrier()
37494 if source_group.containsMyRank():
37495 filename = filename_xml1 + str(rank+1) + ".med"
37496 meshname = "Mesh_2_" + str(rank+1)
37498 nb_local=mesh.getNumberOfCells()
37499 value = [1.0]*nb_local
37500 parafield.getField().setValues(value)
37501 - icocofield = ICoCoMEDField(mesh,parafield.getField())
37502 - dec.setMethod("P0")
37503 + icocofield = ICoCoMEDField(parafield.getField())
37504 dec.attachLocalField(icocofield)
37508 nb_local=mesh.getNumberOfCells()
37509 value = [0.0]*nb_local
37510 parafield.getField().setValues(value)
37511 - icocofield = ICoCoMEDField(mesh,parafield.getField())
37512 - dec.setMethod("P0")
37513 + icocofield = ICoCoMEDField(parafield.getField())
37514 dec.attachLocalField(icocofield)
37517 @@ -113,8 +113,8 @@
37521 - MPI_Barrier(MPI_COMM_WORLD)
37523 + MPI.COMM_WORLD.Barrier()
37528 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/ParaMEDMEMTest_Gauthier1.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/ParaMEDMEMTest_Gauthier1.cxx
37529 --- MEDCOUPLING_old/src/ParaMEDMEMTest/ParaMEDMEMTest_Gauthier1.cxx 2018-04-19 17:04:36.797223919 +0200
37530 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/ParaMEDMEMTest_Gauthier1.cxx 2018-04-19 17:25:17.893800440 +0200
37532 void afficheGauthier1(const ParaFIELD& field, const double *vals, int lgth)
37534 const DataArrayDouble *valsOfField(field.getField()->getArray());
37535 - CPPUNIT_ASSERT_EQUAL(lgth,valsOfField->getNumberOfTuples());
37536 + CPPUNIT_ASSERT_EQUAL(lgth,(int)valsOfField->getNumberOfTuples());
37537 for (int ele=0;ele<valsOfField->getNumberOfTuples();ele++)
37538 CPPUNIT_ASSERT_DOUBLES_EQUAL(vals[ele],valsOfField->getIJ(ele,0),1e-12);
37540 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/ParaMEDMEMTestMPI2_1.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/ParaMEDMEMTestMPI2_1.cxx
37541 --- MEDCOUPLING_old/src/ParaMEDMEMTest/ParaMEDMEMTestMPI2_1.cxx 2018-04-19 17:04:36.797223919 +0200
37542 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/ParaMEDMEMTestMPI2_1.cxx 2018-04-19 17:25:17.899800559 +0200
37547 - /* Connection to remote programm */
37548 + /* Connection to remote program */
37549 MPI2Connector *mpio = new MPI2Connector;
37550 gcom = mpio->remoteMPI2Connect(service);
37551 MPI_Comm_size( gcom, &gsize );
37552 @@ -108,7 +108,7 @@
37554 dec.setForcedRenormalization(false);
37556 - /* Deconnection of remote programm */
37557 + /* Deconnection of remote program */
37558 mpio->remoteMPI2Disconnect(service);
37561 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/ParaMEDMEMTestMPI2_2.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/ParaMEDMEMTestMPI2_2.cxx
37562 --- MEDCOUPLING_old/src/ParaMEDMEMTest/ParaMEDMEMTestMPI2_2.cxx 2018-04-19 17:04:36.797223919 +0200
37563 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/ParaMEDMEMTestMPI2_2.cxx 2018-04-19 17:25:17.914800855 +0200
37568 - /* Connection to remote programm */
37569 + /* Connection to remote program */
37570 MPI2Connector *mpio = new MPI2Connector;
37571 gcom = mpio->remoteMPI2Connect(service);
37573 @@ -113,7 +113,7 @@
37574 const double *expected=targetResults[grank-(gsize-lsize)];
37575 CPPUNIT_ASSERT_DOUBLES_EQUAL(expected[0],res[0],1e-13);
37576 CPPUNIT_ASSERT_DOUBLES_EQUAL(expected[1],res[1],1e-13);
37577 - /* Deconnection of remote programm */
37578 + /* Deconnection of remote program */
37579 mpio->remoteMPI2Disconnect(service);
37582 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_AllToAllDEC.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_AllToAllDEC.cxx
37583 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_AllToAllDEC.cxx 2018-04-19 17:04:36.799223959 +0200
37584 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_AllToAllDEC.cxx 2018-04-19 17:25:17.894800460 +0200
37586 strstream << "usage :" << endl
37587 << "mpirun -np <nbprocs> test_AllToAllDEC" << endl
37588 << " (nbprocs >=2)" << endl
37589 - << "test must be runned with more than 1 proc and less than 12 procs"
37590 + << "test must be run with more than 1 proc and less than 12 procs"
37592 cerr << strstream.str() << endl ;
37593 CPPUNIT_FAIL( strstream.str() ) ;
37594 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_AllToAllTimeDEC.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_AllToAllTimeDEC.cxx
37595 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_AllToAllTimeDEC.cxx 2018-04-19 17:04:36.799223959 +0200
37596 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_AllToAllTimeDEC.cxx 2018-04-19 17:25:17.895800480 +0200
37598 strstream << "usage :" << endl
37599 << "mpirun -np <nbprocs> test_AllToAllTimeDEC" << endl
37600 << " (nbprocs >=2)" << endl
37601 - << "test must be runned with more than 1 proc and less than 12 procs"
37602 + << "test must be run with more than 1 proc and less than 12 procs"
37604 cerr << strstream.str() << endl ;
37605 CPPUNIT_FAIL( strstream.str() ) ;
37606 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_AllToAllvDEC.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_AllToAllvDEC.cxx
37607 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_AllToAllvDEC.cxx 2018-04-19 17:04:36.799223959 +0200
37608 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_AllToAllvDEC.cxx 2018-04-19 17:25:17.875800084 +0200
37610 strstream << "usage :" << endl
37611 << "mpirun -np <nbprocs> test_AllToAllvDEC" << endl
37612 << " (nbprocs >=2)" << endl
37613 - << "test must be runned with more than 1 proc and less than 12 procs"
37614 + << "test must be run with more than 1 proc and less than 12 procs"
37616 cerr << strstream.str() << endl ;
37617 CPPUNIT_FAIL( strstream.str() ) ;
37618 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_AllToAllvTimeDEC.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_AllToAllvTimeDEC.cxx
37619 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_AllToAllvTimeDEC.cxx 2018-04-19 17:04:36.799223959 +0200
37620 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_AllToAllvTimeDEC.cxx 2018-04-19 17:25:17.909800757 +0200
37622 strstream << "usage :" << endl
37623 << "mpirun -np <nbprocs> test_AllToAllTimeDEC" << endl
37624 << " (nbprocs >=2)" << endl
37625 - << "test must be runned with more than 1 proc and less than 12 procs"
37626 + << "test must be run with more than 1 proc and less than 12 procs"
37628 cerr << strstream.str() << endl ;
37629 CPPUNIT_FAIL( strstream.str() ) ;
37630 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_AllToAllvTimeDoubleDEC.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_AllToAllvTimeDoubleDEC.cxx
37631 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_AllToAllvTimeDoubleDEC.cxx 2018-04-19 17:04:36.799223959 +0200
37632 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_AllToAllvTimeDoubleDEC.cxx 2018-04-19 17:25:17.887800322 +0200
37634 strstream << "usage :" << endl
37635 << "mpirun -np <nbprocs> test_AllToAllTimeDEC" << endl
37636 << " (nbprocs >=2)" << endl
37637 - << "test must be runned with more than 1 proc and less than 12 procs"
37638 + << "test must be run with more than 1 proc and less than 12 procs"
37640 cerr << strstream.str() << endl ;
37641 CPPUNIT_FAIL( strstream.str() ) ;
37642 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Cancel.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Cancel.cxx
37643 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Cancel.cxx 2018-04-19 17:04:36.799223959 +0200
37644 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Cancel.cxx 2018-04-19 17:25:17.880800183 +0200
37648 ostringstream strstream ;
37649 - strstream << "test_MPI_Access_Cancel must be runned with 2 procs" << endl ;
37650 + strstream << "test_MPI_Access_Cancel must be run with 2 procs" << endl ;
37651 cerr << strstream.str() << endl ;
37652 //CPPUNIT_FAIL( strstream.str() ) ;
37654 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Cyclic_ISend_IRecv.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Cyclic_ISend_IRecv.cxx
37655 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Cyclic_ISend_IRecv.cxx 2018-04-19 17:04:36.799223959 +0200
37656 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Cyclic_ISend_IRecv.cxx 2018-04-19 17:25:17.878800144 +0200
37658 MPI_Comm_rank(MPI_COMM_WORLD,&myrank) ;
37661 - cerr << "test_MPI_Access_Cyclic_ISend_IRecv must be runned with 3 procs" << endl ;
37662 - //CPPUNIT_FAIL("test_MPI_Access_Cyclic_ISend_IRecv must be runned with 3 procs") ;
37663 + cerr << "test_MPI_Access_Cyclic_ISend_IRecv must be run with 3 procs" << endl ;
37664 + //CPPUNIT_FAIL("test_MPI_Access_Cyclic_ISend_IRecv must be run with 3 procs") ;
37668 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Cyclic_Send_Recv.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Cyclic_Send_Recv.cxx
37669 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Cyclic_Send_Recv.cxx 2018-04-19 17:04:36.799223959 +0200
37670 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Cyclic_Send_Recv.cxx 2018-04-19 17:25:17.870799986 +0200
37672 MPI_Comm_rank(MPI_COMM_WORLD,&myrank) ;
37675 - cerr << "test_MPI_Access_Send_Recv must be runned with 3 procs" << endl ;
37676 - //CPPUNIT_FAIL("test_MPI_Access_Send_Recv must be runned with 3 procs") ;
37677 + cerr << "test_MPI_Access_Send_Recv must be run with 3 procs" << endl ;
37678 + //CPPUNIT_FAIL("test_MPI_Access_Send_Recv must be run with 3 procs") ;
37682 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_IProbe.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_IProbe.cxx
37683 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_IProbe.cxx 2018-04-19 17:04:36.799223959 +0200
37684 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_IProbe.cxx 2018-04-19 17:25:17.909800757 +0200
37688 ostringstream strstream ;
37689 - strstream << "test_MPI_Access_IProbe must be runned with 2 procs" << endl ;
37690 + strstream << "test_MPI_Access_IProbe must be run with 2 procs" << endl ;
37691 cerr << strstream.str() << endl ;
37692 //CPPUNIT_FAIL( strstream.str() ) ;
37694 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_BottleNeck.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_BottleNeck.cxx
37695 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_BottleNeck.cxx 2018-04-19 17:04:36.799223959 +0200
37696 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_BottleNeck.cxx 2018-04-19 17:25:17.916800895 +0200
37700 ostringstream strstream ;
37701 - strstream << "test_MPI_Access_ISend_IRecv_BottleNeck must be runned with 2 procs"
37702 + strstream << "test_MPI_Access_ISend_IRecv_BottleNeck must be run with 2 procs"
37704 cerr << strstream.str() << endl ;
37705 //CPPUNIT_FAIL( strstream.str() ) ;
37706 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv.cxx
37707 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv.cxx 2018-04-19 17:04:36.799223959 +0200
37708 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv.cxx 2018-04-19 17:25:17.877800124 +0200
37710 MPI_Comm_rank(MPI_COMM_WORLD,&myrank) ;
37713 - cerr << "test_MPI_Access_ISend_IRecv must be runned with 2 procs" << endl ;
37714 - //CPPUNIT_FAIL("test_MPI_Access_ISend_IRecv must be runned with 2 procs") ;
37715 + cerr << "test_MPI_Access_ISend_IRecv must be run with 2 procs" << endl ;
37716 + //CPPUNIT_FAIL("test_MPI_Access_ISend_IRecv must be run with 2 procs") ;
37720 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_Length_1.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_Length_1.cxx
37721 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_Length_1.cxx 2018-04-19 17:04:36.799223959 +0200
37722 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_Length_1.cxx 2018-04-19 17:25:17.882800223 +0200
37726 ostringstream strstream ;
37727 - strstream << "test_MPI_Access_ISend_IRecv_Length_1 must be runned with 2 procs" << endl ;
37728 + strstream << "test_MPI_Access_ISend_IRecv_Length_1 must be run with 2 procs" << endl ;
37729 cerr << strstream.str() << endl ;
37730 //CPPUNIT_FAIL( strstream.str() ) ;
37732 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_Length.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_Length.cxx
37733 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_Length.cxx 2018-04-19 17:04:36.799223959 +0200
37734 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_ISend_IRecv_Length.cxx 2018-04-19 17:25:17.874800065 +0200
37738 ostringstream strstream ;
37739 - strstream << "test_MPI_Access_ISend_IRecv_Length must be runned with 2 procs" << endl ;
37740 + strstream << "test_MPI_Access_ISend_IRecv_Length must be run with 2 procs" << endl ;
37741 cerr << strstream.str() << endl ;
37742 //CPPUNIT_FAIL( strstream.str() ) ;
37744 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_ISendRecv.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_ISendRecv.cxx
37745 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_ISendRecv.cxx 2018-04-19 17:04:36.799223959 +0200
37746 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_ISendRecv.cxx 2018-04-19 17:25:17.888800342 +0200
37748 MPI_Comm_rank(MPI_COMM_WORLD,&myrank) ;
37751 - cerr << "test_MPI_Access_ISendRecv must be runned with 2 procs" << endl ;
37752 - //CPPUNIT_FAIL("test_MPI_Access_ISendRecv must be runned with 2 procs") ;
37753 + cerr << "test_MPI_Access_ISendRecv must be run with 2 procs" << endl ;
37754 + //CPPUNIT_FAIL("test_MPI_Access_ISendRecv must be run with 2 procs") ;
37758 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Probe.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Probe.cxx
37759 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Probe.cxx 2018-04-19 17:04:36.799223959 +0200
37760 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Probe.cxx 2018-04-19 17:25:17.913800836 +0200
37762 MPI_Comm_rank(MPI_COMM_WORLD,&myrank) ;
37765 - cerr << "test_MPI_Access_Probe must be runned with 2 procs" << endl ;
37766 - //CPPUNIT_FAIL("test_MPI_Access_Probe must be runned with 2 procs") ;
37767 + cerr << "test_MPI_Access_Probe must be run with 2 procs" << endl ;
37768 + //CPPUNIT_FAIL("test_MPI_Access_Probe must be run with 2 procs") ;
37772 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Send_Recv.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Send_Recv.cxx
37773 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Send_Recv.cxx 2018-04-19 17:04:36.799223959 +0200
37774 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Send_Recv.cxx 2018-04-19 17:25:17.868799946 +0200
37776 MPI_Comm_rank(MPI_COMM_WORLD,&myrank) ;
37779 - cerr << "test_MPI_Access_Send_Recv must be runned with 2 procs" << endl ;
37780 - //CPPUNIT_FAIL("test_MPI_Access_Send_Recv must be runned with 2 procs") ;
37781 + cerr << "test_MPI_Access_Send_Recv must be run with 2 procs" << endl ;
37782 + //CPPUNIT_FAIL("test_MPI_Access_Send_Recv must be run with 2 procs") ;
37786 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_SendRecv.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_SendRecv.cxx
37787 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_SendRecv.cxx 2018-04-19 17:04:36.799223959 +0200
37788 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_SendRecv.cxx 2018-04-19 17:25:17.897800519 +0200
37790 MPI_Comm_rank(MPI_COMM_WORLD,&myrank) ;
37793 - cerr << "MPIAccessTest::test_MPI_Access_SendRecv must be runned with 2 procs" << endl ;
37794 - //CPPUNIT_FAIL("test_MPI_Access_SendRecv must be runned with 2 procs") ;
37795 + cerr << "MPIAccessTest::test_MPI_Access_SendRecv must be run with 2 procs" << endl ;
37796 + //CPPUNIT_FAIL("test_MPI_Access_SendRecv must be run with 2 procs") ;
37800 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Send_Recv_Length.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Send_Recv_Length.cxx
37801 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Send_Recv_Length.cxx 2018-04-19 17:04:36.799223959 +0200
37802 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Send_Recv_Length.cxx 2018-04-19 17:25:17.881800203 +0200
37806 ostringstream strstream ;
37807 - strstream << "test_MPI_Access_Send_Recv_Length must be runned with 2 procs" << endl ;
37808 + strstream << "test_MPI_Access_Send_Recv_Length must be run with 2 procs" << endl ;
37809 cerr << strstream.str() << endl ;
37810 //CPPUNIT_FAIL( strstream.str() ) ;
37812 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Time_0.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Time_0.cxx
37813 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Time_0.cxx 2018-04-19 17:04:36.800223979 +0200
37814 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Time_0.cxx 2018-04-19 17:25:17.906800697 +0200
37816 strstream << "usage :" << endl
37817 << "mpirun -np <nbprocs> test_MPI_Access_Time_0" <<endl
37818 << " nbprocs =2" << endl
37819 - << "test must be runned with 2 procs" << endl ;
37820 + << "test must be run with 2 procs" << endl ;
37821 cerr << strstream.str() << endl ;
37822 //CPPUNIT_FAIL( strstream.str() ) ;
37824 diff -Naur MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Time.cxx MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Time.cxx
37825 --- MEDCOUPLING_old/src/ParaMEDMEMTest/test_MPI_Access_Time.cxx 2018-04-19 17:04:36.799223959 +0200
37826 +++ MEDCOUPLING_new/src/ParaMEDMEMTest/test_MPI_Access_Time.cxx 2018-04-19 17:25:17.903800638 +0200
37830 ostringstream strstream ;
37831 - strstream << "test_MPI_Access_Time must be runned with 2 procs" << endl ;
37832 + strstream << "test_MPI_Access_Time must be run with 2 procs" << endl ;
37833 cerr << strstream.str() << endl ;
37834 //CPPUNIT_FAIL( strstream.str() ) ;
37836 diff -Naur MEDCOUPLING_old/src/PyWrapping/CMakeLists.txt MEDCOUPLING_new/src/PyWrapping/CMakeLists.txt
37837 --- MEDCOUPLING_old/src/PyWrapping/CMakeLists.txt 1970-01-01 01:00:00.000000000 +0100
37838 +++ MEDCOUPLING_new/src/PyWrapping/CMakeLists.txt 2018-04-19 17:25:17.668795993 +0200
37840 +# Copyright (C) 2017 CEA/DEN, EDF R&D
37842 +# This library is free software; you can redistribute it and/or
37843 +# modify it under the terms of the GNU Lesser General Public
37844 +# License as published by the Free Software Foundation; either
37845 +# version 2.1 of the License, or (at your option) any later version.
37847 +# This library is distributed in the hope that it will be useful,
37848 +# but WITHOUT ANY WARRANTY; without even the implied warranty of
37849 +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
37850 +# Lesser General Public License for more details.
37852 +# You should have received a copy of the GNU Lesser General Public
37853 +# License along with this library; if not, write to the Free Software
37854 +# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
37856 +# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
37858 +# Author : Anthony Geay (EDF R&D)
37860 +FIND_PACKAGE(SWIG REQUIRED)
37861 +INCLUDE(${SWIG_USE_FILE})
37863 +ADD_DEFINITIONS(${PYTHON_DEFINITIONS} ${NUMPY_DEFINITIONS} ${SCIPY_DEFINITIONS})
37865 +SET_SOURCE_FILES_PROPERTIES(medcoupling.i PROPERTIES CPLUSPLUS ON)
37866 +IF ("${PYTHON_VERSION_MAJOR}" STREQUAL "3")
37867 + SET_SOURCE_FILES_PROPERTIES(medcoupling.i PROPERTIES SWIG_FLAGS "-py3")
37869 + SET_SOURCE_FILES_PROPERTIES(medcoupling.i PROPERTIES SWIG_DEFINITIONS "-shadow")
37871 +SET(SWIG_MODULE_medcoupling_EXTRA_FLAGS "${NUMPY_DEFINITIONS};${SCIPY_DEFINITIONS}")
37873 +SET(medcoupling_SWIG_DPYS_FILES medcoupling.i)
37875 +INCLUDE_DIRECTORIES(
37876 + ${PYTHON_INCLUDE_DIRS}
37877 + ${NUMPY_INCLUDE_DIR}
37878 + ${MEDFILE_INCLUDE_DIRS}
37879 + ${HDF5_INCLUDE_DIRS}
37880 + ${CMAKE_CURRENT_SOURCE_DIR}
37881 + ${CMAKE_CURRENT_SOURCE_DIR}/../MEDLoader
37882 + ${CMAKE_CURRENT_SOURCE_DIR}/../MEDLoader/Swig
37883 + ${CMAKE_CURRENT_SOURCE_DIR}/../MEDCoupling_Swig
37884 + ${CMAKE_CURRENT_SOURCE_DIR}/../MEDCoupling
37885 + ${CMAKE_CURRENT_SOURCE_DIR}/../INTERP_KERNEL
37886 + ${CMAKE_CURRENT_SOURCE_DIR}/../INTERP_KERNEL/Bases
37887 + ${CMAKE_CURRENT_SOURCE_DIR}/../INTERP_KERNEL/Geometric2D
37888 + ${CMAKE_CURRENT_SOURCE_DIR}/../INTERP_KERNEL/ExprEval
37889 + ${CMAKE_CURRENT_SOURCE_DIR}/../INTERP_KERNEL/GaussPoints
37890 + ${CMAKE_CURRENT_SOURCE_DIR}/../RENUMBER
37891 + ${CMAKE_CURRENT_SOURCE_DIR}/../RENUMBER_Swig
37892 + ${CMAKE_CURRENT_SOURCE_DIR}/../MEDPartitioner
37893 + ${CMAKE_CURRENT_SOURCE_DIR}/../MEDPartitioner_Swig
37894 + ${CMAKE_CURRENT_SOURCE_DIR}/../ICoCo
37895 + ${CMAKE_CURRENT_SOURCE_DIR}/../ParaMEDMEM
37896 + ${CMAKE_CURRENT_SOURCE_DIR}/../ParaMEDMEM_Swig
37897 + ${PROJECT_BINARY_DIR}/doc
37900 +SET(medcoupling_LIB_dependancies ${PYTHON_LIBRARIES} ${PLATFORM_LIBS} medcouplingremapper)
37902 +IF(NOT MEDCOUPLING_MICROMED)
37903 + LIST(APPEND SWIG_MODULE_medcoupling_EXTRA_FLAGS -DWITH_MED_FILE)
37904 + LIST(APPEND medcoupling_LIB_dependancies medloader)
37906 + IF(MEDCOUPLING_ENABLE_RENUMBER)
37907 + LIST(APPEND SWIG_MODULE_medcoupling_EXTRA_FLAGS -DWITH_RENUMBER)
37908 + LIST(APPEND medcoupling_LIB_dependancies renumbercpp)
37909 + ENDIF(MEDCOUPLING_ENABLE_RENUMBER)
37911 + IF(MEDCOUPLING_ENABLE_PARTITIONER)
37912 + LIST(APPEND SWIG_MODULE_medcoupling_EXTRA_FLAGS -DWITH_PARTITIONER)
37913 + LIST(APPEND medcoupling_LIB_dependancies medpartitionercpp)
37914 + ENDIF(MEDCOUPLING_ENABLE_PARTITIONER)
37915 +ENDIF(NOT MEDCOUPLING_MICROMED)
37917 +IF(MEDCOUPLING_USE_MPI)
37918 + INCLUDE_DIRECTORIES(${MPI_INCLUDE_DIRS})
37919 + ADD_DEFINITIONS(${MPI_DEFINITIONS})
37920 + LIST(APPEND SWIG_MODULE_medcoupling_EXTRA_FLAGS -DWITH_PARALLEL_INTERPOLATOR)
37921 + LIST(APPEND medcoupling_LIB_dependancies paramedmem)
37922 +ENDIF(MEDCOUPLING_USE_MPI)
37924 +SWIG_ADD_MODULE(medcoupling python medcoupling.i)
37925 +SWIG_LINK_LIBRARIES(medcoupling ${medcoupling_LIB_dependancies})
37926 +SWIG_CHECK_GENERATION(medcoupling)
37928 + SET_TARGET_PROPERTIES(_medcoupling PROPERTIES DEBUG_OUTPUT_NAME _medcoupling_d)
37931 +INSTALL(TARGETS _medcoupling DESTINATION ${MEDCOUPLING_INSTALL_PYTHON})
37932 +INSTALL(FILES medcoupling.i medcoupling_pycode DESTINATION ${MEDCOUPLING_INSTALL_HEADERS})
37933 +SALOME_INSTALL_SCRIPTS(${CMAKE_CURRENT_BINARY_DIR}/medcoupling.py ${MEDCOUPLING_INSTALL_PYTHON})
37935 +INCLUDE(tests.set)
37936 +SALOME_GENERATE_TESTS_ENVIRONMENT(tests_env)
37938 +FOREACH(test ${BASE_TESTS})
37939 + GET_FILENAME_COMPONENT(testname ${test} NAME_WE)
37940 + ADD_TEST(NAME ${testname} COMMAND ${PYTHON_EXECUTABLE} ${CMAKE_CURRENT_SOURCE_DIR}/${test})
37941 + SET_TESTS_PROPERTIES(${testname} PROPERTIES ENVIRONMENT "${tests_env}")
37944 +SET(TEST_INSTALL_DIRECTORY ${MEDCOUPLING_INSTALL_TESTS}/PyWrapping)
37946 +INSTALL(FILES CTestTestfileInstall.cmake DESTINATION ${TEST_INSTALL_DIRECTORY} RENAME CTestTestfile.cmake)
37947 +INSTALL(FILES ${BASE_TESTS} DESTINATION ${TEST_INSTALL_DIRECTORY})
37948 +INSTALL(FILES tests.set DESTINATION ${TEST_INSTALL_DIRECTORY})
37949 diff -Naur MEDCOUPLING_old/src/PyWrapping/CTestTestfileInstall.cmake MEDCOUPLING_new/src/PyWrapping/CTestTestfileInstall.cmake
37950 --- MEDCOUPLING_old/src/PyWrapping/CTestTestfileInstall.cmake 1970-01-01 01:00:00.000000000 +0100
37951 +++ MEDCOUPLING_new/src/PyWrapping/CTestTestfileInstall.cmake 2018-04-19 17:25:17.672796072 +0200
37953 +# Copyright (C) 2017 CEA/DEN, EDF R&D
37955 +# This library is free software; you can redistribute it and/or
37956 +# modify it under the terms of the GNU Lesser General Public
37957 +# License as published by the Free Software Foundation; either
37958 +# version 2.1 of the License, or (at your option) any later version.
37960 +# This library is distributed in the hope that it will be useful,
37961 +# but WITHOUT ANY WARRANTY; without even the implied warranty of
37962 +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
37963 +# Lesser General Public License for more details.
37965 +# You should have received a copy of the GNU Lesser General Public
37966 +# License along with this library; if not, write to the Free Software
37967 +# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
37969 +# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
37972 +INCLUDE(tests.set)
37974 +FOREACH(tfile ${BASE_TESTS})
37975 + GET_FILENAME_COMPONENT(BASE_NAME ${tfile} NAME_WE)
37976 + SET(TEST_NAME ${COMPONENT_NAME}_${BASE_NAME})
37977 + ADD_TEST(${TEST_NAME} python ${tfile})
37978 + SET_TESTS_PROPERTIES( ${TEST_NAME} PROPERTIES LABELS "${COMPONENT_NAME}" TIMEOUT ${TIMEOUT} )
37980 diff -Naur MEDCOUPLING_old/src/PyWrapping/medcoupling.i MEDCOUPLING_new/src/PyWrapping/medcoupling.i
37981 --- MEDCOUPLING_old/src/PyWrapping/medcoupling.i 1970-01-01 01:00:00.000000000 +0100
37982 +++ MEDCOUPLING_new/src/PyWrapping/medcoupling.i 2018-04-19 17:25:17.668795993 +0200
37984 +// Copyright (C) 2017 CEA/DEN, EDF R&D
37986 +// This library is free software; you can redistribute it and/or
37987 +// modify it under the terms of the GNU Lesser General Public
37988 +// License as published by the Free Software Foundation; either
37989 +// version 2.1 of the License, or (at your option) any later version.
37991 +// This library is distributed in the hope that it will be useful,
37992 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
37993 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
37994 +// Lesser General Public License for more details.
37996 +// You should have received a copy of the GNU Lesser General Public
37997 +// License along with this library; if not, write to the Free Software
37998 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
38000 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
38003 +// Author : Anthony Geay (EDF R&D)
38005 +%module medcoupling
38007 +#define MEDCOUPLINGREMAPPER_EXPORT
38008 +#define INTERPKERNEL_EXPORT
38009 +#define MEDCOUPLING_EXPORT
38010 +#define MEDLOADER_EXPORT
38012 +%include "MEDCouplingCommon.i"
38014 +%include "MEDCouplingRemapperCommon.i"
38016 +#ifdef WITH_MED_FILE
38017 +%include "MEDLoaderCommon.i"
38020 +#ifdef WITH_RENUMBER
38021 +%include "MEDRenumberImpl.i"
38024 +#ifdef WITH_PARTITIONER
38025 +%include "MEDPartitionerCommon.i"
38028 +#ifdef WITH_PARALLEL_INTERPOLATOR
38029 +%include "ParaMEDMEMCommon.i"
38033 + static const char SEQ_INTERPOL_EXT[]="Sequential interpolator";
38034 + static const char MEDFILEIO_EXT[]="MED file I/O";
38035 + static const char RENUM_EXT[]="Renumberer";
38036 + static const char PART_EXT[]="Partitioner";
38037 + static const char PAR_INTERPOL_EXT[]="Parallel interpolator (SPMD paradigm)";
38039 + static const char *EXTENSIONS[]={SEQ_INTERPOL_EXT,MEDFILEIO_EXT,RENUM_EXT,PART_EXT,PAR_INTERPOL_EXT};
38040 + static const int NB_OF_EXTENSIONS=sizeof(EXTENSIONS)/sizeof(const char *);
38045 + std::vector<std::string> AllPossibleExtensions()
38047 + std::vector<std::string> ret(EXTENSIONS,EXTENSIONS+NB_OF_EXTENSIONS);
38051 + bool HasMEDFileExt()
38053 +#ifdef WITH_MED_FILE
38060 + bool HasRenumberExt()
38062 +#ifdef WITH_RENUMBER
38069 + bool HasPartitionerExt()
38071 +#ifdef WITH_PARTITIONER
38078 + bool HasScotchPartitionerAlg()
38080 +#ifdef WITH_PARTITIONER
38081 + return MEDPartitioner::HasScotchAlg();
38087 + bool HasPTScotchPartitionerAlg()
38089 +#ifdef WITH_PARTITIONER
38090 + return MEDPartitioner::HasPTScotchAlg();
38096 + bool HasMetisPartitionerAlg()
38098 +#ifdef WITH_PARTITIONER
38099 + return MEDPartitioner::HasMetisAlg();
38105 + bool HasParallelInterpolatorExt()
38107 +#ifdef WITH_PARALLEL_INTERPOLATOR
38114 + std::vector<std::string> ActiveExtensions()
38116 + std::vector<std::string> ret;
38117 + ret.push_back(std::string(SEQ_INTERPOL_EXT));
38118 +#ifdef WITH_MED_FILE
38119 + ret.push_back(std::string(MEDFILEIO_EXT));
38121 +#ifdef WITH_RENUMBER
38122 + ret.push_back(std::string(RENUM_EXT));
38124 +#ifdef WITH_PARTITIONER
38125 + ret.push_back(std::string(PART_EXT));
38127 +#ifdef WITH_PARALLEL_INTERPOLATOR
38128 + ret.push_back(std::string(PAR_INTERPOL_EXT));
38135 +def MEDCouplingDataArrayDoubleIadd(self,*args):
38136 + import _medcoupling
38137 + return _medcoupling.DataArrayDouble____iadd___(self, self, *args)
38138 +def MEDCouplingDataArrayDoubleIsub(self,*args):
38139 + import _medcoupling
38140 + return _medcoupling.DataArrayDouble____isub___(self, self, *args)
38141 +def MEDCouplingDataArrayDoubleImul(self,*args):
38142 + import _medcoupling
38143 + return _medcoupling.DataArrayDouble____imul___(self, self, *args)
38144 +def MEDCouplingDataArrayDoubleIdiv(self,*args):
38145 + import _medcoupling
38146 + return _medcoupling.DataArrayDouble____idiv___(self, self, *args)
38147 +def MEDCouplingDataArrayDoubleIpow(self,*args):
38148 + import _medcoupling
38149 + return _medcoupling.DataArrayDouble____ipow___(self, self, *args)
38150 +def MEDCouplingFieldDoubleIadd(self,*args):
38151 + import _medcoupling
38152 + return _medcoupling.MEDCouplingFieldDouble____iadd___(self, self, *args)
38153 +def MEDCouplingFieldDoubleIsub(self,*args):
38154 + import _medcoupling
38155 + return _medcoupling.MEDCouplingFieldDouble____isub___(self, self, *args)
38156 +def MEDCouplingFieldDoubleImul(self,*args):
38157 + import _medcoupling
38158 + return _medcoupling.MEDCouplingFieldDouble____imul___(self, self, *args)
38159 +def MEDCouplingFieldDoubleIdiv(self,*args):
38160 + import _medcoupling
38161 + return _medcoupling.MEDCouplingFieldDouble____idiv___(self, self, *args)
38162 +def MEDCouplingFieldDoubleIpow(self,*args):
38163 + import _medcoupling
38164 + return _medcoupling.MEDCouplingFieldDouble____ipow___(self, self, *args)
38165 +def MEDCouplingDataArrayIntIadd(self,*args):
38166 + import _medcoupling
38167 + return _medcoupling.DataArrayInt____iadd___(self, self, *args)
38168 +def MEDCouplingDataArrayIntIsub(self,*args):
38169 + import _medcoupling
38170 + return _medcoupling.DataArrayInt____isub___(self, self, *args)
38171 +def MEDCouplingDataArrayIntImul(self,*args):
38172 + import _medcoupling
38173 + return _medcoupling.DataArrayInt____imul___(self, self, *args)
38174 +def MEDCouplingDataArrayIntIdiv(self,*args):
38175 + import _medcoupling
38176 + return _medcoupling.DataArrayInt____idiv___(self, self, *args)
38177 +def MEDCouplingDataArrayIntImod(self,*args):
38178 + import _medcoupling
38179 + return _medcoupling.DataArrayInt____imod___(self, self, *args)
38180 +def MEDCouplingDataArrayIntIpow(self,*args):
38181 + import _medcoupling
38182 + return _medcoupling.DataArrayInt____ipow___(self, self, *args)
38183 +def MEDCouplingDataArrayFloatIadd(self,*args):
38184 + import _medcoupling
38185 + return _medcoupling.DataArrayFloat____iadd___(self, self, *args)
38186 +def MEDCouplingDataArrayFloatIsub(self,*args):
38187 + import _medcoupling
38188 + return _medcoupling.DataArrayFloat____isub___(self, self, *args)
38189 +def MEDCouplingDataArrayFloatImul(self,*args):
38190 + import _medcoupling
38191 + return _medcoupling.DataArrayFloat____imul___(self, self, *args)
38192 +def MEDCouplingDataArrayFloatIdiv(self,*args):
38193 + import _medcoupling
38194 + return _medcoupling.DataArrayFloat____idiv___(self, self, *args)
38195 +def MEDCouplingDataArrayDoubleTupleIadd(self,*args):
38196 + import _medcoupling
38197 + return _medcoupling.DataArrayDoubleTuple____iadd___(self, self, *args)
38198 +def MEDCouplingDataArrayDoubleTupleIsub(self,*args):
38199 + import _medcoupling
38200 + return _medcoupling.DataArrayDoubleTuple____isub___(self, self, *args)
38201 +def MEDCouplingDataArrayDoubleTupleImul(self,*args):
38202 + import _medcoupling
38203 + return _medcoupling.DataArrayDoubleTuple____imul___(self, self, *args)
38204 +def MEDCouplingDataArrayDoubleTupleIdiv(self,*args):
38205 + import _medcoupling
38206 + return _medcoupling.DataArrayDoubleTuple____idiv___(self, self, *args)
38207 +def MEDCouplingDataArrayIntTupleIadd(self,*args):
38208 + import _medcoupling
38209 + return _medcoupling.DataArrayIntTuple____iadd___(self, self, *args)
38210 +def MEDCouplingDataArrayIntTupleIsub(self,*args):
38211 + import _medcoupling
38212 + return _medcoupling.DataArrayIntTuple____isub___(self, self, *args)
38213 +def MEDCouplingDataArrayIntTupleImul(self,*args):
38214 + import _medcoupling
38215 + return _medcoupling.DataArrayIntTuple____imul___(self, self, *args)
38216 +def MEDCouplingDataArrayIntTupleIdiv(self,*args):
38217 + import _medcoupling
38218 + return _medcoupling.DataArrayIntTuple____idiv___(self, self, *args)
38219 +def MEDCouplingDataArrayIntTupleImod(self,*args):
38220 + import _medcoupling
38221 + return _medcoupling.DataArrayIntTuple____imod___(self, self, *args)
38222 +def MEDCouplingDenseMatrixIadd(self,*args):
38223 + import _medcoupling
38224 + return _medcoupling.DenseMatrix____iadd___(self, self, *args)
38225 +def MEDCouplingDenseMatrixIsub(self,*args):
38226 + import _medcoupling
38227 + return _medcoupling.DenseMatrix____isub___(self, self, *args)
38230 +%include "MEDCouplingFinalize.i"
38232 +#ifdef WITH_MED_FILE
38233 +%include "MEDLoaderFinalize.i"
38236 +%include "medcoupling_pycode"
38238 diff -Naur MEDCOUPLING_old/src/PyWrapping/medcoupling_pycode MEDCOUPLING_new/src/PyWrapping/medcoupling_pycode
38239 --- MEDCOUPLING_old/src/PyWrapping/medcoupling_pycode 1970-01-01 01:00:00.000000000 +0100
38240 +++ MEDCOUPLING_new/src/PyWrapping/medcoupling_pycode 2018-04-19 17:25:17.670796032 +0200
38242 +// Copyright (C) 2017 CEA/DEN, EDF R&D
38244 +// This library is free software; you can redistribute it and/or
38245 +// modify it under the terms of the GNU Lesser General Public
38246 +// License as published by the Free Software Foundation; either
38247 +// version 2.1 of the License, or (at your option) any later version.
38249 +// This library is distributed in the hope that it will be useful,
38250 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
38251 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
38252 +// Lesser General Public License for more details.
38254 +// You should have received a copy of the GNU Lesser General Public
38255 +// License along with this library; if not, write to the Free Software
38256 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
38258 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
38261 +// Author : Anthony Geay (EDF R&D)
38265 +def ExtensionsStr(sz=60):
38267 + isOK=[(elt,tab[int(elt in ActiveExtensions())]) for elt in AllPossibleExtensions()]
38268 + return "\n".join([a+" "+('{:.>%d}'%(sz-len(a)-1)).format(' %s'%b) for a,b in isOK])
38270 +def ShowExtensions(sz=60):
38271 + print(ExtensionsStr(sz))
38274 +def AdvancedExtensionsStr(sz=60):
38275 + def SubExtension(allPossibilities,extensionsActivated,pad,tab, sts):
38276 + for elt2 in allPossibilities:
38277 + elt3="%s algorithm for %s"%(elt2,elt)
38278 + sts.append(pad+elt3+" "+('{:.>%d}'%(sz-len(pad)-len(elt3)-1)).format(' %s'%tab[int(elt2 in extensionsActivated)]))
38283 + aext=ActiveExtensions()
38285 + for elt in AllPossibleExtensions():
38287 + sts.append(elt+" "+('{:.>%d}'%(sz-len(elt)-1)).format(' %s'%tab[isOK]))
38290 + if "Renumb" in elt:
38291 + SubExtension(AllRenumberMethods(),RenumberAvailableMethods(),pad,tab, sts)
38293 + if "Partit" in elt:
38294 + SubExtension(MEDPartitioner.AllAlgorithms(),MEDPartitioner.AvailableAlgorithms(),pad,tab, sts)
38297 + return "\n".join(sts)
38299 +def ShowAdvancedExtensions(sz=60):
38300 + print(AdvancedExtensionsStr(sz))
38302 +def MEDCouplingWriterHelper(mci,fileName,medFunc):
38304 + fileWithoutExt,ext=os.path.splitext(fileName)
38305 + if ext in [".med",".rmed",""]:
38306 + outFileName=fileName
38308 + outFileName=fileWithoutExt+".med"
38309 + if HasMEDFileExt():
38310 + medFunc(outFileName,mci,True)
38313 + raise InterpKernelException("Request for writing \"%s\" MED file, but MED file is not activated in your medcoupling !")
38315 + elif ext[:3]==".vt" and len(ext)==4:
38316 + mci.writeVTK(fileName)
38318 + raise InterpKernelException("The extension \"%s\" of input file \"%s\" is not recognized !"%(ext,fileName))
38321 +if HasMEDFileExt():
38322 + def MEDCouplingMesh_write(self,fileName):
38323 + MEDCouplingWriterHelper(self,fileName,WriteMesh)
38325 + def MEDCouplingField_write(self,fileName):
38326 + MEDCouplingWriterHelper(self,fileName,WriteField)
38328 + def MEDCouplingFieldT_copyTimeInfoFrom(self,mlf1ts):
38329 + assert(isinstance(mlf1ts,MEDFileAnyTypeField1TS))
38330 + a,b,c=mlf1ts.getTime()
38331 + self.setTime(c,a,b)
38334 + MEDCouplingMesh.write=MEDCouplingMesh_write
38335 + del MEDCouplingMesh_write
38336 + MEDCouplingField.write=MEDCouplingField_write
38337 + del MEDCouplingField_write
38338 + MEDCouplingFieldDouble.copyTimeInfoFrom=MEDCouplingFieldT_copyTimeInfoFrom
38339 + MEDCouplingFieldInt.copyTimeInfoFrom=MEDCouplingFieldT_copyTimeInfoFrom
38340 + MEDCouplingFieldFloat.copyTimeInfoFrom=MEDCouplingFieldT_copyTimeInfoFrom
38341 + del MEDCouplingFieldT_copyTimeInfoFrom
38344 diff -Naur MEDCOUPLING_old/src/PyWrapping/TestPyWrapGathered_medcoupling.py MEDCOUPLING_new/src/PyWrapping/TestPyWrapGathered_medcoupling.py
38345 --- MEDCOUPLING_old/src/PyWrapping/TestPyWrapGathered_medcoupling.py 1970-01-01 01:00:00.000000000 +0100
38346 +++ MEDCOUPLING_new/src/PyWrapping/TestPyWrapGathered_medcoupling.py 2018-04-19 17:25:17.671796052 +0200
38348 +# -*- coding: iso-8859-1 -*-
38349 +# Copyright (C) 2017 CEA/DEN, EDF R&D
38351 +# This library is free software; you can redistribute it and/or
38352 +# modify it under the terms of the GNU Lesser General Public
38353 +# License as published by the Free Software Foundation; either
38354 +# version 2.1 of the License, or (at your option) any later version.
38356 +# This library is distributed in the hope that it will be useful,
38357 +# but WITHOUT ANY WARRANTY; without even the implied warranty of
38358 +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
38359 +# Lesser General Public License for more details.
38361 +# You should have received a copy of the GNU Lesser General Public
38362 +# License along with this library; if not, write to the Free Software
38363 +# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
38365 +# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
38367 +# Author : Anthony Geay (EDF R&D)
38369 +from medcoupling import *
38372 +class FileCreator(object):
38373 + def __init__(self,tester,fname):
38374 + self._tester=tester
38375 + self._fname=fname
38378 + def fileName(self):
38379 + return self._fname
38381 + def __enter__(self):
38383 + if os.path.exists(self._fname):
38384 + os.remove(self._fname)
38388 + def __exit__(self, type, value, traceback):
38390 + if not os.path.exists(self._fname):
38391 + self._tester.assertTrue(False)
38394 + os.remove(self._fname)
38397 +class medcouplingTest(unittest.TestCase):
38400 + """ Unconditional test : medcoupling "kernel" classes """
38401 + f=MEDCouplingFieldDouble(ON_CELLS)
38402 + g=DataArrayDouble(10,2)
38403 + h=MEDCouplingUMesh("mesh",3)
38404 + hh=MEDCouplingRemapper()
38405 + ee=InterpKernelException("ee")
38408 + @unittest.skipUnless(HasMEDFileExt(),"Requires link to MED file")
38411 + fname="mctest1.med"
38412 + arr=DataArrayDouble(10) ; arr.iota()
38413 + m=MEDCouplingCMesh()
38414 + m.setCoords(arr,arr)
38415 + m.setName("mesh")
38416 + with FileCreator(self,fname) as fc:
38417 + m.write(fc.fileName())
38418 + m=m.buildUnstructured()
38419 + with FileCreator(self,fname) as fc:
38420 + m.write(fc.fileName())
38421 + f=MEDCouplingFieldDouble(ON_NODES) ; f.setMesh(m) ; f.setArray(m.getCoords()) ; f.setName("field")
38422 + with FileCreator(self,fname) as fc:
38423 + f.write(fc.fileName())
38424 + f=MEDCouplingFieldFloat(ON_NODES) ; f.setMesh(m)
38425 + d=DataArrayFloat(m.getNumberOfNodes()) ; d.iota()
38426 + f.setArray(d) ; f.setName("field1")
38427 + with FileCreator(self,fname) as fc:
38428 + f.write(fc.fileName())
38431 + @unittest.skipUnless(HasRenumberExt(),"Requires Boost or Metis to activate Renumberer")
38433 + arr=DataArrayDouble(10) ; arr.iota()
38434 + m=MEDCouplingCMesh() ; m.setCoords(arr,arr)
38435 + m=m.buildUnstructured() ; m.setName("mesh")
38437 + renf=RenumberingFactory("Boost")
38438 + neigh,neighi=m.computeNeighborsOfCells()
38439 + n2o,o2n=renf.renumber(neigh,neighi)
38443 + @unittest.skipUnless(HasPartitionerExt(),"Requires Partitioner activation")
38445 + for alg in MEDPartitioner.AvailableAlgorithms():
38446 + st="Graph.%s"%alg.upper()
38448 + self.partitionerTesterHelper(eval(st))
38452 + @unittest.skipUnless(HasParallelInterpolatorExt(),"Requires // interpolator activated")
38454 + interface=CommInterface()
38457 + @unittest.skipUnless(HasMEDFileExt(),"Requires link to MED file")
38459 + f=MEDCouplingFieldDouble(ON_NODES)
38460 + f.setTime(1.25,3,6)
38461 + a,b,c=f.getTime()
38462 + self.assertEqual(b,3) ; self.assertEqual(c,6) ; self.assertAlmostEqual(a,1.25,14);
38463 + f1ts=MEDFileField1TS()
38464 + f1ts.setTime(10,13,10.75)
38465 + f.copyTimeInfoFrom(f1ts)
38466 + a,b,c=f.getTime()
38467 + self.assertEqual(b,10) ; self.assertEqual(c,13) ; self.assertAlmostEqual(a,10.75,14);
38468 + f2=MEDCouplingFieldInt(ON_NODES)
38469 + f2.copyTimeInfoFrom(f1ts)
38470 + a,b,c=f2.getTime()
38471 + self.assertEqual(b,10) ; self.assertEqual(c,13) ; self.assertAlmostEqual(a,10.75,14);
38472 + f3=MEDCouplingFieldFloat(ON_NODES)
38473 + f3.copyTimeInfoFrom(f1ts)
38474 + a,b,c=f3.getTime()
38475 + self.assertEqual(b,10) ; self.assertEqual(c,13) ; self.assertAlmostEqual(a,10.75,14);
38479 + def partitionerTesterHelper(self,algoSelected):
38480 + arr=DataArrayDouble(10) ; arr.iota()
38481 + m=MEDCouplingCMesh() ; m.setCoords(arr,arr)
38482 + m=m.buildUnstructured() ; m.setName("mesh")
38483 + a,b=m.computeNeighborsOfCells()
38484 + sk=MEDCouplingSkyLineArray(b,a)
38485 + g=MEDPartitioner.Graph(sk,algoSelected)
38487 + procIdOnCells=g.getPartition().getValuesArray()
38488 + m0=m[procIdOnCells.findIdsEqual(0)] ; m0.setName("m0")
38493 +if __name__ == "__main__":
38494 + if HasParallelInterpolatorExt():
38496 + from mpi4py import MPI # if not imported test3 may failed due to MPI call of partitioner algorithms.
38503 diff -Naur MEDCOUPLING_old/src/PyWrapping/tests.set MEDCOUPLING_new/src/PyWrapping/tests.set
38504 --- MEDCOUPLING_old/src/PyWrapping/tests.set 1970-01-01 01:00:00.000000000 +0100
38505 +++ MEDCOUPLING_new/src/PyWrapping/tests.set 2018-04-19 17:25:17.669796013 +0200
38507 +# Copyright (C) 2017 CEA/DEN, EDF R&D
38509 +# This library is free software; you can redistribute it and/or
38510 +# modify it under the terms of the GNU Lesser General Public
38511 +# License as published by the Free Software Foundation; either
38512 +# version 2.1 of the License, or (at your option) any later version.
38514 +# This library is distributed in the hope that it will be useful,
38515 +# but WITHOUT ANY WARRANTY; without even the implied warranty of
38516 +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
38517 +# Lesser General Public License for more details.
38519 +# You should have received a copy of the GNU Lesser General Public
38520 +# License along with this library; if not, write to the Free Software
38521 +# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
38523 +# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
38525 +# Author : Anthony Geay (EDF R&D)
38527 +SET(BASE_TESTS TestPyWrapGathered_medcoupling.py)
38528 \ Pas de fin de ligne à la fin du fichier
38529 diff -Naur MEDCOUPLING_old/src/RENUMBER/RenumberingFactory.cxx MEDCOUPLING_new/src/RENUMBER/RenumberingFactory.cxx
38530 --- MEDCOUPLING_old/src/RENUMBER/RenumberingFactory.cxx 2018-04-19 17:04:36.800223979 +0200
38531 +++ MEDCOUPLING_new/src/RENUMBER/RenumberingFactory.cxx 2018-04-19 17:25:18.149805501 +0200
38532 @@ -27,20 +27,27 @@
38535 #include <iostream>
38537 -using namespace std;
38538 +#include <algorithm>
38540 namespace MED_RENUMBER
38542 - Renumbering* RenumberingFactory(const string &s)
38543 + bool CompareRenumMeth(const std::string& s1, const char *s2)
38545 + std::string ss1(s1),ss2(s2);
38546 + std::transform(ss1.begin(), ss1.end(), ss1.begin(), ::tolower);
38547 + std::transform(ss2.begin(), ss2.end(), ss2.begin(), ::tolower);
38551 + Renumbering* RenumberingFactory(const std::string &s)
38553 #ifdef MED_ENABLE_METIS
38554 #ifdef ENABLE_BOOST
38556 + if ( CompareRenumMeth(s,METIS_ALG) )
38558 return new METISRenumbering;
38560 - else if(s=="BOOST")
38561 + else if( CompareRenumMeth(s,BOOST_ALG) )
38563 return new BOOSTRenumbering;
38568 #ifndef ENABLE_BOOST
38570 + if ( CompareRenumMeth(s,METIS_ALG) )
38572 return new METISRenumbering;
38576 #ifndef MED_ENABLE_METIS
38577 #ifdef ENABLE_BOOST
38579 + if ( CompareRenumMeth(s,BOOST_ALG) )
38581 return new BOOSTRenumbering;
38588 + std::vector<std::string> AllRenumberMethods()
38590 + std::vector<std::string> ret;
38591 + ret.push_back(std::string(BOOST_ALG));
38592 + ret.push_back(std::string(METIS_ALG));
38596 + std::vector<std::string> RenumberAvailableMethods()
38598 + std::vector<std::string> ret;
38599 +#ifdef ENABLE_BOOST
38600 + ret.push_back(std::string(BOOST_ALG));
38602 +#ifdef MED_ENABLE_METIS
38603 + ret.push_back(std::string(METIS_ALG));
38608 diff -Naur MEDCOUPLING_old/src/RENUMBER/RenumberingFactory.hxx MEDCOUPLING_new/src/RENUMBER/RenumberingFactory.hxx
38609 --- MEDCOUPLING_old/src/RENUMBER/RenumberingFactory.hxx 2018-04-19 17:04:36.800223979 +0200
38610 +++ MEDCOUPLING_new/src/RENUMBER/RenumberingFactory.hxx 2018-04-19 17:25:18.150805520 +0200
38612 namespace MED_RENUMBER
38614 RENUMBER_EXPORT Renumbering* RenumberingFactory(const std::string& s);
38615 + RENUMBER_EXPORT std::vector<std::string> RenumberAvailableMethods();
38616 + RENUMBER_EXPORT std::vector<std::string> AllRenumberMethods();
38617 + const char METIS_ALG[]="Metis";
38618 + const char BOOST_ALG[]="Boost";
38621 #endif /*RENUMBERINGFACTORY_HXX_*/
38622 diff -Naur MEDCOUPLING_old/src/RENUMBER_Swig/CMakeLists.txt MEDCOUPLING_new/src/RENUMBER_Swig/CMakeLists.txt
38623 --- MEDCOUPLING_old/src/RENUMBER_Swig/CMakeLists.txt 2018-04-19 17:04:36.800223979 +0200
38624 +++ MEDCOUPLING_new/src/RENUMBER_Swig/CMakeLists.txt 2018-04-19 17:25:18.157805659 +0200
38625 @@ -29,20 +29,13 @@
38627 SET(SWIG_MODULE_MEDRenumber_EXTRA_FLAGS "${NUMPY_DEFINITIONS};${SCIPY_DEFINITIONS};-DWITHOUT_AUTOFIELD")
38630 - SET(SWIG_MODULE_MEDRenumber_EXTRA_FLAGS -DHAS_BOOST ${SWIG_MODULE_MEDRenumber_EXTRA_FLAGS})
38631 -ENDIF(Boost_FOUND)
38634 - SET(SWIG_MODULE_MEDRenumber_EXTRA_FLAGS -DHAS_METIS ${SWIG_MODULE_MEDRenumber_EXTRA_FLAGS})
38635 -ENDIF(METIS_FOUND)
38637 SET (MEDRenumber_SWIG_DPYS_FILES
38638 - MEDRenumberCommon.i)
38639 + MEDRenumberCommon.i
38640 + MEDRenumberImpl.i)
38642 INCLUDE_DIRECTORIES(
38643 ${PYTHON_INCLUDE_DIRS}
38644 - ${PTHREAD_INCLUDE_DIR} # pthread dependancy due to python2.7 library
38645 + ${PTHREAD_INCLUDE_DIR} # pthread dependency due to python2.7 library
38646 ${CMAKE_CURRENT_SOURCE_DIR}
38647 ${NUMPY_INCLUDE_DIR}
38648 ${CMAKE_CURRENT_BINARY_DIR}
38651 SALOME_INSTALL_SCRIPTS(${CMAKE_CURRENT_BINARY_DIR}/MEDRenumber.py ${MEDCOUPLING_INSTALL_PYTHON})
38653 -INSTALL(FILES MEDRenumber.i MEDRenumberCommon.i DESTINATION ${MEDCOUPLING_INSTALL_HEADERS})
38654 +INSTALL(FILES MEDRenumber.i MEDRenumberCommon.i MEDRenumberImpl.i DESTINATION ${MEDCOUPLING_INSTALL_HEADERS})
38655 INSTALL(FILES MEDRenumberTest.py DESTINATION ${MEDCOUPLING_INSTALL_SCRIPT_PYTHON})
38657 SALOME_ACCUMULATE_ENVIRONMENT(PYTHONPATH ${CMAKE_CURRENT_BINARY_DIR}/../MEDCoupling_Swig)
38658 diff -Naur MEDCOUPLING_old/src/RENUMBER_Swig/MEDRenumberCommon.i MEDCOUPLING_new/src/RENUMBER_Swig/MEDRenumberCommon.i
38659 --- MEDCOUPLING_old/src/RENUMBER_Swig/MEDRenumberCommon.i 2018-04-19 17:04:36.800223979 +0200
38660 +++ MEDCOUPLING_new/src/RENUMBER_Swig/MEDRenumberCommon.i 2018-04-19 17:25:18.159805698 +0200
38663 // Author : Anthony Geay (CEA/DEN)
38665 -%module MEDRenumber
38667 %include std_vector.i
38668 %include std_string.i
38671 #include "MCAuto.hxx"
38672 #include "MEDCouplingDataArrayTypemaps.i"
38674 -#include "RenumberingFactory.hxx"
38675 -#include "RENUMBER_Renumbering.hxx"
38677 using namespace MEDCoupling;
38678 using namespace INTERP_KERNEL;
38679 - using namespace MED_RENUMBER;
38682 %template(ivec) std::vector<int>;
38684 %feature("autodoc", "1");
38685 %feature("docstring");
38687 -%newobject MED_RENUMBER::RenumberingFactory;
38691 %rename (InterpKernelException) INTERP_KERNEL::Exception;
38701 - virtual PyObject *renumber(const MEDCoupling::DataArrayInt *graph, const MEDCoupling::DataArrayInt *index_graph) throw(INTERP_KERNEL::Exception)
38703 - if(!graph || !index_graph)
38704 - throw INTERP_KERNEL::Exception("wrap of Renumbering::renumber : One of the input arrays is NULL !");
38705 - if(!graph->isAllocated() || !index_graph->isAllocated())
38706 - throw INTERP_KERNEL::Exception("wrap of Renumbering::renumber : One of the input arrays is not allocated !");
38707 - MEDCoupling::DataArrayInt *out0(0),*out1(0);
38708 - self->renumber(graph->begin(),index_graph->begin(),index_graph->getNumberOfTuples()-1,out0,out1);
38709 - PyObject *ret=PyTuple_New(2);
38710 - PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(out0),SWIGTYPE_p_MEDCoupling__DataArrayInt, SWIG_POINTER_OWN | 0 ));
38711 - PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(out1),SWIGTYPE_p_MEDCoupling__DataArrayInt, SWIG_POINTER_OWN | 0 ));
38715 - virtual ~Renumbering();
38718 -namespace MED_RENUMBER
38720 - Renumbering *RenumberingFactory(const std::string& s) throw(INTERP_KERNEL::Exception);
38725 - std::vector<std::string> RenumberAvailableMethods()throw(INTERP_KERNEL::Exception)
38727 - std::vector<std::string> ret;
38729 - ret.push_back(std::string("BOOST"));
38732 - ret.push_back(std::string("METIS"));
38737 +%include "MEDRenumberImpl.i"
38741 diff -Naur MEDCOUPLING_old/src/RENUMBER_Swig/MEDRenumber.i MEDCOUPLING_new/src/RENUMBER_Swig/MEDRenumber.i
38742 --- MEDCOUPLING_old/src/RENUMBER_Swig/MEDRenumber.i 2018-04-19 17:04:36.800223979 +0200
38743 +++ MEDCOUPLING_new/src/RENUMBER_Swig/MEDRenumber.i 2018-04-19 17:25:18.156805639 +0200
38744 @@ -17,12 +17,11 @@
38745 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
38748 +%module MEDRenumber
38750 %include "MEDRenumberCommon.i"
38753 -def MEDCouplingDataArrayDoublenew(cls,*args):
38754 - import _MEDRenumber
38755 - return _MEDRenumber.DataArrayDouble____new___(cls,args)
38756 def MEDCouplingDataArrayDoubleIadd(self,*args):
38757 import _MEDRenumber
38758 return _MEDRenumber.DataArrayDouble____iadd___(self, self, *args)
38760 def MEDCouplingDataArrayDoubleIpow(self,*args):
38761 import _MEDRenumber
38762 return _MEDRenumber.DataArrayDouble____ipow___(self, self, *args)
38763 -def MEDCouplingDataArrayIntnew(cls,*args):
38764 - import _MEDRenumber
38765 - return _MEDRenumber.DataArrayInt____new___(cls,args)
38766 def MEDCouplingDataArrayIntIadd(self,*args):
38767 import _MEDRenumber
38768 return _MEDRenumber.DataArrayInt____iadd___(self, self, *args)
38770 def MEDCouplingDataArrayIntIpow(self,*args):
38771 import _MEDRenumber
38772 return _MEDRenumber.DataArrayInt____ipow___(self, self, *args)
38773 -def MEDCouplingDataArrayBytenew(cls,*args):
38774 - import _MEDRenumber
38775 - return _MEDRenumber.DataArrayByte____new___(cls,args)
38776 -def MEDCouplingDataArrayFloatnew(cls,*args):
38777 - import _MEDRenumber
38778 - return _MEDRenumber.DataArrayFloat____new___(cls,args)
38779 def MEDCouplingDataArrayFloatIadd(self,*args):
38780 import _MEDRenumber
38781 return _MEDRenumber.DataArrayFloat____iadd___(self, self, *args)
38782 @@ -109,14 +99,14 @@
38785 InterpKernelException.__reduce__=INTERPKERNELExceptionReduce
38786 -DataArrayDouble.__new__=classmethod(MEDCouplingDataArrayDoublenew)
38787 +DataArrayDouble.__reduce__=MEDCouplingDataArrayDoubleReduce
38788 DataArrayDouble.__iadd__=MEDCouplingDataArrayDoubleIadd
38789 DataArrayDouble.__isub__=MEDCouplingDataArrayDoubleIsub
38790 DataArrayDouble.__imul__=MEDCouplingDataArrayDoubleImul
38791 DataArrayDouble.__idiv__=MEDCouplingDataArrayDoubleIdiv
38792 DataArrayDouble.__ipow__=MEDCouplingDataArrayDoubleIpow
38794 -DataArrayInt.__new__=classmethod(MEDCouplingDataArrayIntnew)
38795 +DataArrayInt.__reduce__=MEDCouplingDataArrayIntReduce
38796 DataArrayInt.__iadd__=MEDCouplingDataArrayIntIadd
38797 DataArrayInt.__isub__=MEDCouplingDataArrayIntIsub
38798 DataArrayInt.__imul__=MEDCouplingDataArrayIntImul
38799 @@ -136,12 +126,12 @@
38800 DataArrayIntTuple.__imod__=MEDCouplingDataArrayIntTupleImod
38802 del INTERPKERNELExceptionReduce
38803 -del MEDCouplingDataArrayDoublenew
38804 +del MEDCouplingDataArrayDoubleReduce
38805 +del MEDCouplingDataArrayIntReduce
38806 del MEDCouplingDataArrayDoubleIadd
38807 del MEDCouplingDataArrayDoubleIsub
38808 del MEDCouplingDataArrayDoubleImul
38809 del MEDCouplingDataArrayDoubleIdiv
38810 -del MEDCouplingDataArrayIntnew
38811 del MEDCouplingDataArrayIntIadd
38812 del MEDCouplingDataArrayIntIsub
38813 del MEDCouplingDataArrayIntImul
38814 diff -Naur MEDCOUPLING_old/src/RENUMBER_Swig/MEDRenumberImpl.i MEDCOUPLING_new/src/RENUMBER_Swig/MEDRenumberImpl.i
38815 --- MEDCOUPLING_old/src/RENUMBER_Swig/MEDRenumberImpl.i 1970-01-01 01:00:00.000000000 +0100
38816 +++ MEDCOUPLING_new/src/RENUMBER_Swig/MEDRenumberImpl.i 2018-04-19 17:25:18.161805738 +0200
38818 +// Copyright (C) 2017 CEA/DEN, EDF R&D
38820 +// This library is free software; you can redistribute it and/or
38821 +// modify it under the terms of the GNU Lesser General Public
38822 +// License as published by the Free Software Foundation; either
38823 +// version 2.1 of the License, or (at your option) any later version.
38825 +// This library is distributed in the hope that it will be useful,
38826 +// but WITHOUT ANY WARRANTY; without even the implied warranty of
38827 +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
38828 +// Lesser General Public License for more details.
38830 +// You should have received a copy of the GNU Lesser General Public
38831 +// License along with this library; if not, write to the Free Software
38832 +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
38834 +// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
38836 +// Author : Anthony Geay (EDF R&D)
38839 +#include "RenumberingFactory.hxx"
38840 +#include "RENUMBER_Renumbering.hxx"
38842 +using namespace MED_RENUMBER;
38845 +%newobject MED_RENUMBER::RenumberingFactory;
38852 + virtual PyObject *renumber(const MEDCoupling::DataArrayInt *graph, const MEDCoupling::DataArrayInt *index_graph) throw(INTERP_KERNEL::Exception)
38854 + if(!graph || !index_graph)
38855 + throw INTERP_KERNEL::Exception("wrap of Renumbering::renumber : One of the input arrays is NULL !");
38856 + if(!graph->isAllocated() || !index_graph->isAllocated())
38857 + throw INTERP_KERNEL::Exception("wrap of Renumbering::renumber : One of the input arrays is not allocated !");
38858 + MEDCoupling::DataArrayInt *out0(0),*out1(0);
38859 + self->renumber(graph->begin(),index_graph->begin(),index_graph->getNumberOfTuples()-1,out0,out1);
38860 + PyObject *ret=PyTuple_New(2);
38861 + PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(out0),SWIGTYPE_p_MEDCoupling__DataArrayInt, SWIG_POINTER_OWN | 0 ));
38862 + PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(out1),SWIGTYPE_p_MEDCoupling__DataArrayInt, SWIG_POINTER_OWN | 0 ));
38866 + virtual ~Renumbering();
38869 +namespace MED_RENUMBER
38871 + Renumbering *RenumberingFactory(const std::string& s) throw(INTERP_KERNEL::Exception);
38872 + std::vector<std::string> RenumberAvailableMethods();
38873 + std::vector<std::string> AllRenumberMethods();