1 // Copyright (C) 2007-2014 CEA/DEN, EDF R&D
3 // This library is free software; you can redistribute it and/or
4 // modify it under the terms of the GNU Lesser General Public
5 // License as published by the Free Software Foundation; either
6 // version 2.1 of the License, or (at your option) any later version.
8 // This library is distributed in the hope that it will be useful,
9 // but WITHOUT ANY WARRANTY; without even the implied warranty of
10 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
11 // Lesser General Public License for more details.
13 // You should have received a copy of the GNU Lesser General Public
14 // License along with this library; if not, write to the Free Software
15 // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
17 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
19 // Author : Anthony Geay (CEA/DEN)
27 #include "MEDCouplingMemArray.hxx"
28 #include "MEDCouplingUMesh.hxx"
29 #include "MEDCouplingExtrudedMesh.hxx"
30 #include "MEDCouplingCMesh.hxx"
31 #include "MEDCouplingIMesh.hxx"
32 #include "MEDCouplingCurveLinearMesh.hxx"
33 #include "MEDCoupling1GTUMesh.hxx"
34 #include "MEDCouplingField.hxx"
35 #include "MEDCouplingFieldDouble.hxx"
36 #include "MEDCouplingFieldTemplate.hxx"
37 #include "MEDCouplingGaussLocalization.hxx"
38 #include "MEDCouplingAutoRefCountObjectPtr.hxx"
39 #include "MEDCouplingMultiFields.hxx"
40 #include "MEDCouplingFieldOverTime.hxx"
41 #include "MEDCouplingDefinitionTime.hxx"
42 #include "MEDCouplingFieldDiscretization.hxx"
43 #include "MEDCouplingCartesianAMRMesh.hxx"
44 #include "MEDCouplingAMRAttribute.hxx"
45 #include "MEDCouplingMatrix.hxx"
46 #include "MEDCouplingTypemaps.i"
48 #include "InterpKernelAutoPtr.hxx"
49 #include "BoxSplittingOptions.hxx"
51 using namespace ParaMEDMEM;
52 using namespace INTERP_KERNEL;
56 %template(ivec) std::vector<int>;
57 %template(dvec) std::vector<double>;
58 %template(svec) std::vector<std::string>;
61 %typemap(out) ParaMEDMEM::MEDCouplingMesh*
63 $result=convertMesh($1,$owner);
66 %typemap(out) MEDCouplingMesh*
68 $result=convertMesh($1,$owner);
73 %typemap(out) ParaMEDMEM::MEDCouplingPointSet*
75 $result=convertMesh($1,$owner);
78 %typemap(out) MEDCouplingPointSet*
80 $result=convertMesh($1,$owner);
85 %typemap(out) MEDCouplingCartesianAMRPatchGen*
87 $result=convertCartesianAMRPatch($1,$owner);
92 %typemap(out) MEDCouplingCartesianAMRMeshGen*
94 $result=convertCartesianAMRMesh($1,$owner);
99 %typemap(out) MEDCouplingDataForGodFather*
101 $result=convertDataForGodFather($1,$owner);
106 %typemap(out) ParaMEDMEM::MEDCoupling1GTUMesh*
108 $result=convertMesh($1,$owner);
111 %typemap(out) MEDCoupling1GTUMesh*
113 $result=convertMesh($1,$owner);
118 %typemap(out) ParaMEDMEM::MEDCouplingStructuredMesh*
120 $result=convertMesh($1,$owner);
123 %typemap(out) MEDCouplingStructuredMesh*
125 $result=convertMesh($1,$owner);
130 %typemap(out) ParaMEDMEM::MEDCouplingFieldDiscretization*
132 $result=convertFieldDiscretization($1,$owner);
135 %typemap(out) MEDCouplingFieldDiscretization*
137 $result=convertFieldDiscretization($1,$owner);
142 %typemap(out) ParaMEDMEM::MEDCouplingMultiFields*
144 $result=convertMultiFields($1,$owner);
147 %typemap(out) MEDCouplingMultiFields*
149 $result=convertMultiFields($1,$owner);
154 %init %{ import_array(); %}
157 %feature("autodoc", "1");
158 %feature("docstring");
160 %newobject ParaMEDMEM::MEDCouplingField::buildMeasureField;
161 %newobject ParaMEDMEM::MEDCouplingField::getLocalizationOfDiscr;
162 %newobject ParaMEDMEM::MEDCouplingField::computeTupleIdsToSelectFromCellIds;
163 %newobject ParaMEDMEM::MEDCouplingFieldDouble::New;
164 %newobject ParaMEDMEM::MEDCouplingFieldDouble::getArray;
165 %newobject ParaMEDMEM::MEDCouplingFieldDouble::getEndArray;
166 %newobject ParaMEDMEM::MEDCouplingFieldDouble::MergeFields;
167 %newobject ParaMEDMEM::MEDCouplingFieldDouble::MeldFields;
168 %newobject ParaMEDMEM::MEDCouplingFieldDouble::doublyContractedProduct;
169 %newobject ParaMEDMEM::MEDCouplingFieldDouble::determinant;
170 %newobject ParaMEDMEM::MEDCouplingFieldDouble::eigenValues;
171 %newobject ParaMEDMEM::MEDCouplingFieldDouble::eigenVectors;
172 %newobject ParaMEDMEM::MEDCouplingFieldDouble::inverse;
173 %newobject ParaMEDMEM::MEDCouplingFieldDouble::trace;
174 %newobject ParaMEDMEM::MEDCouplingFieldDouble::deviator;
175 %newobject ParaMEDMEM::MEDCouplingFieldDouble::magnitude;
176 %newobject ParaMEDMEM::MEDCouplingFieldDouble::maxPerTuple;
177 %newobject ParaMEDMEM::MEDCouplingFieldDouble::keepSelectedComponents;
178 %newobject ParaMEDMEM::MEDCouplingFieldDouble::extractSlice3D;
179 %newobject ParaMEDMEM::MEDCouplingFieldDouble::DotFields;
180 %newobject ParaMEDMEM::MEDCouplingFieldDouble::dot;
181 %newobject ParaMEDMEM::MEDCouplingFieldDouble::CrossProductFields;
182 %newobject ParaMEDMEM::MEDCouplingFieldDouble::crossProduct;
183 %newobject ParaMEDMEM::MEDCouplingFieldDouble::MaxFields;
184 %newobject ParaMEDMEM::MEDCouplingFieldDouble::max;
185 %newobject ParaMEDMEM::MEDCouplingFieldDouble::MinFields;
186 %newobject ParaMEDMEM::MEDCouplingFieldDouble::AddFields;
187 %newobject ParaMEDMEM::MEDCouplingFieldDouble::SubstractFields;
188 %newobject ParaMEDMEM::MEDCouplingFieldDouble::MultiplyFields;
189 %newobject ParaMEDMEM::MEDCouplingFieldDouble::DivideFields;
190 %newobject ParaMEDMEM::MEDCouplingFieldDouble::min;
191 %newobject ParaMEDMEM::MEDCouplingFieldDouble::negate;
192 %newobject ParaMEDMEM::MEDCouplingFieldDouble::getIdsInRange;
193 %newobject ParaMEDMEM::MEDCouplingFieldDouble::buildSubPart;
194 %newobject ParaMEDMEM::MEDCouplingFieldDouble::buildSubPartRange;
195 %newobject ParaMEDMEM::MEDCouplingFieldDouble::__getitem__;
196 %newobject ParaMEDMEM::MEDCouplingFieldDouble::__neg__;
197 %newobject ParaMEDMEM::MEDCouplingFieldDouble::__add__;
198 %newobject ParaMEDMEM::MEDCouplingFieldDouble::__sub__;
199 %newobject ParaMEDMEM::MEDCouplingFieldDouble::__mul__;
200 %newobject ParaMEDMEM::MEDCouplingFieldDouble::__div__;
201 %newobject ParaMEDMEM::MEDCouplingFieldDouble::__pow__;
202 %newobject ParaMEDMEM::MEDCouplingFieldDouble::__radd__;
203 %newobject ParaMEDMEM::MEDCouplingFieldDouble::__rsub__;
204 %newobject ParaMEDMEM::MEDCouplingFieldDouble::__rmul__;
205 %newobject ParaMEDMEM::MEDCouplingFieldDouble::__rdiv__;
206 %newobject ParaMEDMEM::MEDCouplingFieldDouble::clone;
207 %newobject ParaMEDMEM::MEDCouplingFieldDouble::cloneWithMesh;
208 %newobject ParaMEDMEM::MEDCouplingFieldDouble::deepCpy;
209 %newobject ParaMEDMEM::MEDCouplingFieldDouble::buildNewTimeReprFromThis;
210 %newobject ParaMEDMEM::MEDCouplingFieldDouble::nodeToCellDiscretization;
211 %newobject ParaMEDMEM::MEDCouplingFieldDouble::cellToNodeDiscretization;
212 %newobject ParaMEDMEM::MEDCouplingFieldDouble::getValueOnMulti;
213 %newobject ParaMEDMEM::MEDCouplingFieldTemplate::New;
214 %newobject ParaMEDMEM::MEDCouplingMesh::deepCpy;
215 %newobject ParaMEDMEM::MEDCouplingMesh::checkDeepEquivalOnSameNodesWith;
216 %newobject ParaMEDMEM::MEDCouplingMesh::checkTypeConsistencyAndContig;
217 %newobject ParaMEDMEM::MEDCouplingMesh::computeNbOfNodesPerCell;
218 %newobject ParaMEDMEM::MEDCouplingMesh::computeNbOfFacesPerCell;
219 %newobject ParaMEDMEM::MEDCouplingMesh::computeEffectiveNbOfNodesPerCell;
220 %newobject ParaMEDMEM::MEDCouplingMesh::buildPartRange;
221 %newobject ParaMEDMEM::MEDCouplingMesh::giveCellsWithType;
222 %newobject ParaMEDMEM::MEDCouplingMesh::getCoordinatesAndOwner;
223 %newobject ParaMEDMEM::MEDCouplingMesh::getBarycenterAndOwner;
224 %newobject ParaMEDMEM::MEDCouplingMesh::computeIsoBarycenterOfNodesPerCell;
225 %newobject ParaMEDMEM::MEDCouplingMesh::buildOrthogonalField;
226 %newobject ParaMEDMEM::MEDCouplingMesh::getCellIdsFullyIncludedInNodeIds;
227 %newobject ParaMEDMEM::MEDCouplingMesh::mergeMyselfWith;
228 %newobject ParaMEDMEM::MEDCouplingMesh::fillFromAnalytic;
229 %newobject ParaMEDMEM::MEDCouplingMesh::fillFromAnalytic2;
230 %newobject ParaMEDMEM::MEDCouplingMesh::fillFromAnalytic3;
231 %newobject ParaMEDMEM::MEDCouplingMesh::getMeasureField;
232 %newobject ParaMEDMEM::MEDCouplingMesh::simplexize;
233 %newobject ParaMEDMEM::MEDCouplingMesh::buildUnstructured;
234 %newobject ParaMEDMEM::MEDCouplingMesh::MergeMeshes;
235 %newobject ParaMEDMEM::MEDCouplingPointSet::zipCoordsTraducer;
236 %newobject ParaMEDMEM::MEDCouplingPointSet::getCellsInBoundingBox;
237 %newobject ParaMEDMEM::MEDCouplingPointSet::findBoundaryNodes;
238 %newobject ParaMEDMEM::MEDCouplingPointSet::buildBoundaryMesh;
239 %newobject ParaMEDMEM::MEDCouplingPointSet::MergeNodesArray;
240 %newobject ParaMEDMEM::MEDCouplingPointSet::buildPartOfMySelf2;
241 %newobject ParaMEDMEM::MEDCouplingPointSet::BuildInstanceFromMeshType;
242 %newobject ParaMEDMEM::MEDCouplingPointSet::zipConnectivityTraducer;
243 %newobject ParaMEDMEM::MEDCouplingPointSet::mergeMyselfWithOnSameCoords;
244 %newobject ParaMEDMEM::MEDCouplingPointSet::fillCellIdsToKeepFromNodeIds;
245 %newobject ParaMEDMEM::MEDCouplingPointSet::getCellIdsLyingOnNodes;
246 %newobject ParaMEDMEM::MEDCouplingPointSet::deepCpyConnectivityOnly;
247 %newobject ParaMEDMEM::MEDCouplingPointSet::getBoundingBoxForBBTree;
248 %newobject ParaMEDMEM::MEDCouplingPointSet::ComputeNbOfInteractionsWithSrcCells;
249 %newobject ParaMEDMEM::MEDCouplingPointSet::__getitem__;
250 %newobject ParaMEDMEM::MEDCouplingUMesh::New;
251 %newobject ParaMEDMEM::MEDCouplingUMesh::getNodalConnectivity;
252 %newobject ParaMEDMEM::MEDCouplingUMesh::getNodalConnectivityIndex;
253 %newobject ParaMEDMEM::MEDCouplingUMesh::clone;
254 %newobject ParaMEDMEM::MEDCouplingUMesh::__iter__;
255 %newobject ParaMEDMEM::MEDCouplingUMesh::cellsByType;
256 %newobject ParaMEDMEM::MEDCouplingUMesh::buildDescendingConnectivity;
257 %newobject ParaMEDMEM::MEDCouplingUMesh::buildDescendingConnectivity2;
258 %newobject ParaMEDMEM::MEDCouplingUMesh::explode3DMeshTo1D;
259 %newobject ParaMEDMEM::MEDCouplingUMesh::buildExtrudedMesh;
260 %newobject ParaMEDMEM::MEDCouplingUMesh::buildSpreadZonesWithPoly;
261 %newobject ParaMEDMEM::MEDCouplingUMesh::MergeUMeshes;
262 %newobject ParaMEDMEM::MEDCouplingUMesh::MergeUMeshesOnSameCoords;
263 %newobject ParaMEDMEM::MEDCouplingUMesh::ComputeSpreadZoneGradually;
264 %newobject ParaMEDMEM::MEDCouplingUMesh::ComputeSpreadZoneGraduallyFromSeed;
265 %newobject ParaMEDMEM::MEDCouplingUMesh::buildNewNumberingFromCommNodesFrmt;
266 %newobject ParaMEDMEM::MEDCouplingUMesh::conformize2D;
267 %newobject ParaMEDMEM::MEDCouplingUMesh::colinearize2D;
268 %newobject ParaMEDMEM::MEDCouplingUMesh::rearrange2ConsecutiveCellTypes;
269 %newobject ParaMEDMEM::MEDCouplingUMesh::sortCellsInMEDFileFrmt;
270 %newobject ParaMEDMEM::MEDCouplingUMesh::getRenumArrForMEDFileFrmt;
271 %newobject ParaMEDMEM::MEDCouplingUMesh::convertCellArrayPerGeoType;
272 %newobject ParaMEDMEM::MEDCouplingUMesh::computeFetchedNodeIds;
273 %newobject ParaMEDMEM::MEDCouplingUMesh::getRenumArrForConsecutiveCellTypesSpec;
274 %newobject ParaMEDMEM::MEDCouplingUMesh::buildDirectionVectorField;
275 %newobject ParaMEDMEM::MEDCouplingUMesh::convertLinearCellsToQuadratic;
276 %newobject ParaMEDMEM::MEDCouplingUMesh::getEdgeRatioField;
277 %newobject ParaMEDMEM::MEDCouplingUMesh::getAspectRatioField;
278 %newobject ParaMEDMEM::MEDCouplingUMesh::getWarpField;
279 %newobject ParaMEDMEM::MEDCouplingUMesh::getSkewField;
280 %newobject ParaMEDMEM::MEDCouplingUMesh::getPartBarycenterAndOwner;
281 %newobject ParaMEDMEM::MEDCouplingUMesh::computePlaneEquationOf3DFaces;
282 %newobject ParaMEDMEM::MEDCouplingUMesh::getPartMeasureField;
283 %newobject ParaMEDMEM::MEDCouplingUMesh::buildPartOrthogonalField;
284 %newobject ParaMEDMEM::MEDCouplingUMesh::keepCellIdsByType;
285 %newobject ParaMEDMEM::MEDCouplingUMesh::Build0DMeshFromCoords;
286 %newobject ParaMEDMEM::MEDCouplingUMesh::findAndCorrectBadOriented3DExtrudedCells;
287 %newobject ParaMEDMEM::MEDCouplingUMesh::findAndCorrectBadOriented3DCells;
288 %newobject ParaMEDMEM::MEDCouplingUMesh::convertIntoSingleGeoTypeMesh;
289 %newobject ParaMEDMEM::MEDCouplingUMesh::convertNodalConnectivityToStaticGeoTypeMesh;
290 %newobject ParaMEDMEM::MEDCouplingUMesh::findCellIdsOnBoundary;
291 %newobject ParaMEDMEM::MEDCouplingUMesh::computeSkin;
292 %newobject ParaMEDMEM::MEDCouplingUMesh::buildSetInstanceFromThis;
293 %newobject ParaMEDMEM::MEDCouplingUMesh::getCellIdsCrossingPlane;
294 %newobject ParaMEDMEM::MEDCouplingUMesh::convexEnvelop2D;
295 %newobject ParaMEDMEM::MEDCouplingUMesh::ComputeRangesFromTypeDistribution;
296 %newobject ParaMEDMEM::MEDCouplingUMesh::buildUnionOf2DMesh;
297 %newobject ParaMEDMEM::MEDCouplingUMesh::buildUnionOf3DMesh;
298 %newobject ParaMEDMEM::MEDCouplingUMesh::getBoundingBoxForBBTreeFast;
299 %newobject ParaMEDMEM::MEDCouplingUMesh::getBoundingBoxForBBTree2DQuadratic;
300 %newobject ParaMEDMEM::MEDCouplingUMesh::getBoundingBoxForBBTree1DQuadratic;
301 %newobject ParaMEDMEM::MEDCouplingUMeshCellByTypeEntry::__iter__;
302 %newobject ParaMEDMEM::MEDCouplingUMeshCellEntry::__iter__;
303 %newobject ParaMEDMEM::MEDCoupling1GTUMesh::New;
304 %newobject ParaMEDMEM::MEDCoupling1GTUMesh::getNodalConnectivity;
305 %newobject ParaMEDMEM::MEDCoupling1GTUMesh::AggregateOnSameCoordsToUMesh;
306 %newobject ParaMEDMEM::MEDCoupling1SGTUMesh::New;
307 %newobject ParaMEDMEM::MEDCoupling1SGTUMesh::buildSetInstanceFromThis;
308 %newobject ParaMEDMEM::MEDCoupling1SGTUMesh::computeDualMesh;
309 %newobject ParaMEDMEM::MEDCoupling1SGTUMesh::explodeEachHexa8To6Quad4;
310 %newobject ParaMEDMEM::MEDCoupling1SGTUMesh::sortHexa8EachOther;
311 %newobject ParaMEDMEM::MEDCoupling1SGTUMesh::Merge1SGTUMeshes;
312 %newobject ParaMEDMEM::MEDCoupling1SGTUMesh::Merge1SGTUMeshesOnSameCoords;
313 %newobject ParaMEDMEM::MEDCoupling1DGTUMesh::New;
314 %newobject ParaMEDMEM::MEDCoupling1DGTUMesh::getNodalConnectivityIndex;
315 %newobject ParaMEDMEM::MEDCoupling1DGTUMesh::buildSetInstanceFromThis;
316 %newobject ParaMEDMEM::MEDCoupling1DGTUMesh::Merge1DGTUMeshes;
317 %newobject ParaMEDMEM::MEDCoupling1DGTUMesh::Merge1DGTUMeshesOnSameCoords;
318 %newobject ParaMEDMEM::MEDCouplingExtrudedMesh::New;
319 %newobject ParaMEDMEM::MEDCouplingExtrudedMesh::build3DUnstructuredMesh;
320 %newobject ParaMEDMEM::MEDCouplingStructuredMesh::buildStructuredSubPart;
321 %newobject ParaMEDMEM::MEDCouplingStructuredMesh::build1SGTUnstructured;
322 %newobject ParaMEDMEM::MEDCouplingStructuredMesh::build1SGTSubLevelMesh;
323 %newobject ParaMEDMEM::MEDCouplingStructuredMesh::BuildExplicitIdsFrom;
324 %newobject ParaMEDMEM::MEDCouplingStructuredMesh::ExtractFieldOfDoubleFrom;
325 %newobject ParaMEDMEM::MEDCouplingStructuredMesh::Build1GTNodalConnectivity;
326 %newobject ParaMEDMEM::MEDCouplingStructuredMesh::Build1GTNodalConnectivityOfSubLevelMesh;
327 %newobject ParaMEDMEM::MEDCouplingStructuredMesh::ComputeCornersGhost;
328 %newobject ParaMEDMEM::MEDCouplingCMesh::New;
329 %newobject ParaMEDMEM::MEDCouplingCMesh::clone;
330 %newobject ParaMEDMEM::MEDCouplingCMesh::getCoordsAt;
331 %newobject ParaMEDMEM::MEDCouplingIMesh::New;
332 %newobject ParaMEDMEM::MEDCouplingIMesh::asSingleCell;
333 %newobject ParaMEDMEM::MEDCouplingIMesh::buildWithGhost;
334 %newobject ParaMEDMEM::MEDCouplingIMesh::convertToCartesian;
335 %newobject ParaMEDMEM::MEDCouplingCurveLinearMesh::New;
336 %newobject ParaMEDMEM::MEDCouplingCurveLinearMesh::clone;
337 %newobject ParaMEDMEM::MEDCouplingCurveLinearMesh::getCoords;
338 %newobject ParaMEDMEM::MEDCouplingMultiFields::New;
339 %newobject ParaMEDMEM::MEDCouplingMultiFields::deepCpy;
340 %newobject ParaMEDMEM::MEDCouplingFieldOverTime::New;
341 %newobject ParaMEDMEM::MEDCouplingCartesianAMRPatchGen::getMesh;
342 %newobject ParaMEDMEM::MEDCouplingCartesianAMRPatchGen::__getitem__;
343 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::deepCpy;
344 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::buildUnstructured;
345 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::extractGhostFrom;
346 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::buildMeshFromPatchEnvelop;
347 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::buildMeshOfDirectChildrenOnly;
348 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::getImageMesh;
349 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::getGodFather;
350 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::getFather;
351 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::getPatch;
352 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::createCellFieldOnPatch;
353 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::findPatchesInTheNeighborhoodOf;
354 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::getPatchAtPosition;
355 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::getMeshAtPosition;
356 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMeshGen::__getitem__;
357 %newobject ParaMEDMEM::MEDCouplingCartesianAMRMesh::New;
358 %newobject ParaMEDMEM::MEDCouplingDataForGodFather::getMyGodFather;
359 %newobject ParaMEDMEM::MEDCouplingAMRAttribute::New;
360 %newobject ParaMEDMEM::MEDCouplingAMRAttribute::deepCpy;
361 %newobject ParaMEDMEM::MEDCouplingAMRAttribute::deepCpyWithoutGodFather;
362 %newobject ParaMEDMEM::MEDCouplingAMRAttribute::getFieldOn;
363 %newobject ParaMEDMEM::MEDCouplingAMRAttribute::projectTo;
364 %newobject ParaMEDMEM::MEDCouplingAMRAttribute::buildCellFieldOnRecurseWithoutOverlapWithoutGhost;
365 %newobject ParaMEDMEM::MEDCouplingAMRAttribute::buildCellFieldOnWithGhost;
366 %newobject ParaMEDMEM::MEDCouplingAMRAttribute::buildCellFieldOnWithoutGhost;
367 %newobject ParaMEDMEM::DenseMatrix::New;
368 %newobject ParaMEDMEM::DenseMatrix::deepCpy;
369 %newobject ParaMEDMEM::DenseMatrix::shallowCpy;
370 %newobject ParaMEDMEM::DenseMatrix::getData;
371 %newobject ParaMEDMEM::DenseMatrix::matVecMult;
372 %newobject ParaMEDMEM::DenseMatrix::MatVecMult;
373 %newobject ParaMEDMEM::DenseMatrix::__add__;
374 %newobject ParaMEDMEM::DenseMatrix::__sub__;
375 %newobject ParaMEDMEM::DenseMatrix::__mul__;
377 %feature("unref") MEDCouplingPointSet "$this->decrRef();"
378 %feature("unref") MEDCouplingMesh "$this->decrRef();"
379 %feature("unref") MEDCouplingUMesh "$this->decrRef();"
380 %feature("unref") MEDCoupling1GTUMesh "$this->decrRef();"
381 %feature("unref") MEDCoupling1SGTUMesh "$this->decrRef();"
382 %feature("unref") MEDCoupling1DGTUMesh "$this->decrRef();"
383 %feature("unref") MEDCouplingExtrudedMesh "$this->decrRef();"
384 %feature("unref") MEDCouplingCMesh "$this->decrRef();"
385 %feature("unref") MEDCouplingIMesh "$this->decrRef();"
386 %feature("unref") MEDCouplingCurveLinearMesh "$this->decrRef();"
387 %feature("unref") MEDCouplingField "$this->decrRef();"
388 %feature("unref") MEDCouplingFieldDiscretizationP0 "$this->decrRef();"
389 %feature("unref") MEDCouplingFieldDiscretizationP1 "$this->decrRef();"
390 %feature("unref") MEDCouplingFieldDiscretizationGauss "$this->decrRef();"
391 %feature("unref") MEDCouplingFieldDiscretizationGaussNE "$this->decrRef();"
392 %feature("unref") MEDCouplingFieldDiscretizationKriging "$this->decrRef();"
393 %feature("unref") MEDCouplingFieldDouble "$this->decrRef();"
394 %feature("unref") MEDCouplingMultiFields "$this->decrRef();"
395 %feature("unref") MEDCouplingFieldTemplate "$this->decrRef();"
396 %feature("unref") MEDCouplingMultiFields "$this->decrRef();"
397 %feature("unref") MEDCouplingCartesianAMRMeshGen "$this->decrRef();"
398 %feature("unref") MEDCouplingCartesianAMRMesh "$this->decrRef();"
399 %feature("unref") MEDCouplingCartesianAMRMeshSub "$this->decrRef();"
400 %feature("unref") MEDCouplingCartesianAMRPatchGen "$this->decrRef();"
401 %feature("unref") MEDCouplingCartesianAMRPatchGF "$this->decrRef();"
402 %feature("unref") MEDCouplingCartesianAMRPatch "$this->decrRef();"
403 %feature("unref") MEDCouplingDataForGodFather "$this->decrRef();"
404 %feature("unref") MEDCouplingAMRAttribute "$this->decrRef();"
405 %feature("unref") DenseMatrix "$this->decrRef();"
407 %rename(assign) *::operator=;
408 %ignore ParaMEDMEM::MEDCouplingGaussLocalization::pushTinySerializationIntInfo;
409 %ignore ParaMEDMEM::MEDCouplingGaussLocalization::pushTinySerializationDblInfo;
410 %ignore ParaMEDMEM::MEDCouplingGaussLocalization::fillWithValues;
411 %ignore ParaMEDMEM::MEDCouplingGaussLocalization::buildNewInstanceFromTinyInfo;
415 %rename (InterpKernelException) INTERP_KERNEL::Exception;
417 %include "MEDCouplingRefCountObject.i"
418 %include "MEDCouplingMemArray.i"
420 namespace INTERP_KERNEL
423 * \class BoxSplittingOptions
424 * Class defining the options for box splitting used for AMR algorithm like creation of patches following a criterion.
426 class BoxSplittingOptions
429 BoxSplittingOptions();
430 void init() throw(INTERP_KERNEL::Exception);
431 double getEfficiencyGoal() const throw(INTERP_KERNEL::Exception);
432 void setEfficiencyGoal(double efficiency) throw(INTERP_KERNEL::Exception);
433 double getEfficiencyThreshold() const throw(INTERP_KERNEL::Exception);
434 void setEfficiencyThreshold(double efficiencyThreshold) throw(INTERP_KERNEL::Exception);
435 int getMinimumPatchLength() const throw(INTERP_KERNEL::Exception);
436 void setMinimumPatchLength(int minPatchLength) throw(INTERP_KERNEL::Exception);
437 int getMaximumPatchLength() const throw(INTERP_KERNEL::Exception);
438 void setMaximumPatchLength(int maxPatchLength) throw(INTERP_KERNEL::Exception);
439 int getMaximumNbOfCellsInPatch() const throw(INTERP_KERNEL::Exception);
440 void setMaximumNbOfCellsInPatch(int maxNbCellsInPatch) throw(INTERP_KERNEL::Exception);
441 void copyOptions(const BoxSplittingOptions & other) throw(INTERP_KERNEL::Exception);
442 std::string printOptions() const throw(INTERP_KERNEL::Exception);
445 std::string __str__() const throw(INTERP_KERNEL::Exception)
447 return self->printOptions();
469 CONST_ON_TIME_INTERVAL = 7
470 } TypeOfTimeDiscretization;
478 SINGLE_STATIC_GEO_TYPE_UNSTRUCTURED = 10,
479 SINGLE_DYNAMIC_GEO_TYPE_UNSTRUCTURED = 11,
481 } MEDCouplingMeshType;
484 class DataArrayDouble;
485 class MEDCouplingUMesh;
486 class MEDCouplingFieldDouble;
488 %extend RefCountObject
490 std::string getHiddenCppPointer() const
492 std::ostringstream oss; oss << "C++ Pointer address is : " << self;
497 %extend MEDCouplingGaussLocalization
499 std::string __str__() const throw(INTERP_KERNEL::Exception)
501 return self->getStringRepr();
504 std::string __repr__() const throw(INTERP_KERNEL::Exception)
506 std::ostringstream oss; oss << "MEDCouplingGaussLocalization C++ instance at " << self << "." << std::endl;
507 oss << self->getStringRepr();
514 class MEDCouplingMesh : public RefCountObject, public TimeLabel
517 void setName(const std::string& name);
518 std::string getName() const;
519 void setDescription(const std::string& descr);
520 std::string getDescription() const;
521 void setTime(double val, int iteration, int order);
522 void setTimeUnit(const std::string& unit);
523 std::string getTimeUnit() const;
524 virtual MEDCouplingMeshType getType() const throw(INTERP_KERNEL::Exception);
525 bool isStructured() const throw(INTERP_KERNEL::Exception);
526 virtual MEDCouplingMesh *deepCpy() const;
527 virtual bool isEqual(const MEDCouplingMesh *other, double prec) const throw(INTERP_KERNEL::Exception);
528 virtual bool isEqualWithoutConsideringStr(const MEDCouplingMesh *other, double prec) const throw(INTERP_KERNEL::Exception);
529 virtual void checkFastEquivalWith(const MEDCouplingMesh *other, double prec) const throw(INTERP_KERNEL::Exception);
530 virtual void copyTinyStringsFrom(const MEDCouplingMesh *other) throw(INTERP_KERNEL::Exception);
531 virtual void copyTinyInfoFrom(const MEDCouplingMesh *other) throw(INTERP_KERNEL::Exception);
532 virtual void checkCoherency() const throw(INTERP_KERNEL::Exception);
533 virtual void checkCoherency1(double eps=1e-12) const throw(INTERP_KERNEL::Exception);
534 virtual void checkCoherency2(double eps=1e-12) const throw(INTERP_KERNEL::Exception);
535 virtual int getNumberOfCells() const throw(INTERP_KERNEL::Exception);
536 virtual int getNumberOfNodes() const throw(INTERP_KERNEL::Exception);
537 virtual int getSpaceDimension() const throw(INTERP_KERNEL::Exception);
538 virtual int getMeshDimension() const throw(INTERP_KERNEL::Exception);
539 virtual DataArrayDouble *getCoordinatesAndOwner() const throw(INTERP_KERNEL::Exception);
540 virtual DataArrayDouble *getBarycenterAndOwner() const throw(INTERP_KERNEL::Exception);
541 virtual DataArrayDouble *computeIsoBarycenterOfNodesPerCell() const throw(INTERP_KERNEL::Exception);
542 virtual DataArrayInt *giveCellsWithType(INTERP_KERNEL::NormalizedCellType type) const throw(INTERP_KERNEL::Exception);
543 virtual DataArrayInt *computeNbOfNodesPerCell() const throw(INTERP_KERNEL::Exception);
544 virtual DataArrayInt *computeNbOfFacesPerCell() const throw(INTERP_KERNEL::Exception);
545 virtual DataArrayInt *computeEffectiveNbOfNodesPerCell() const throw(INTERP_KERNEL::Exception);
546 virtual MEDCouplingMesh *buildPartRange(int beginCellIds, int endCellIds, int stepCellIds) const throw(INTERP_KERNEL::Exception);
547 virtual int getNumberOfCellsWithType(INTERP_KERNEL::NormalizedCellType type) const throw(INTERP_KERNEL::Exception);
548 virtual INTERP_KERNEL::NormalizedCellType getTypeOfCell(int cellId) const throw(INTERP_KERNEL::Exception);
549 virtual std::string simpleRepr() const throw(INTERP_KERNEL::Exception);
550 virtual std::string advancedRepr() const throw(INTERP_KERNEL::Exception);
551 std::string writeVTK(const std::string& fileName, bool isBinary=true) const throw(INTERP_KERNEL::Exception);
552 virtual std::string getVTKFileExtension() const;
553 std::string getVTKFileNameOf(const std::string& fileName) const;
555 virtual MEDCouplingFieldDouble *getMeasureField(bool isAbs) const throw(INTERP_KERNEL::Exception);
556 virtual MEDCouplingFieldDouble *getMeasureFieldOnNode(bool isAbs) const throw(INTERP_KERNEL::Exception);
557 virtual MEDCouplingFieldDouble *fillFromAnalytic(TypeOfField t, int nbOfComp, const std::string& func) const throw(INTERP_KERNEL::Exception);
558 virtual MEDCouplingFieldDouble *fillFromAnalytic2(TypeOfField t, int nbOfComp, const std::string& func) const throw(INTERP_KERNEL::Exception);
559 virtual MEDCouplingFieldDouble *fillFromAnalytic3(TypeOfField t, int nbOfComp, const std::vector<std::string>& varsOrder, const std::string& func) const throw(INTERP_KERNEL::Exception);
560 virtual MEDCouplingFieldDouble *buildOrthogonalField() const throw(INTERP_KERNEL::Exception);
561 virtual MEDCouplingUMesh *buildUnstructured() const throw(INTERP_KERNEL::Exception);
562 virtual MEDCouplingMesh *mergeMyselfWith(const MEDCouplingMesh *other) const throw(INTERP_KERNEL::Exception);
563 virtual bool areCompatibleForMerge(const MEDCouplingMesh *other) const throw(INTERP_KERNEL::Exception);
564 virtual DataArrayInt *simplexize(int policy) throw(INTERP_KERNEL::Exception);
565 static MEDCouplingMesh *MergeMeshes(const MEDCouplingMesh *mesh1, const MEDCouplingMesh *mesh2) throw(INTERP_KERNEL::Exception);
566 static bool IsStaticGeometricType(INTERP_KERNEL::NormalizedCellType type) throw(INTERP_KERNEL::Exception);
567 static bool IsLinearGeometricType(INTERP_KERNEL::NormalizedCellType type) throw(INTERP_KERNEL::Exception);
568 static INTERP_KERNEL::NormalizedCellType GetCorrespondingPolyType(INTERP_KERNEL::NormalizedCellType type) throw(INTERP_KERNEL::Exception);
569 static int GetNumberOfNodesOfGeometricType(INTERP_KERNEL::NormalizedCellType type) throw(INTERP_KERNEL::Exception);
570 static int GetDimensionOfGeometricType(INTERP_KERNEL::NormalizedCellType type) throw(INTERP_KERNEL::Exception);
571 static const char *GetReprOfGeometricType(INTERP_KERNEL::NormalizedCellType type) throw(INTERP_KERNEL::Exception);
574 std::string __str__() const throw(INTERP_KERNEL::Exception)
576 return self->simpleRepr();
579 PyObject *getTime() throw(INTERP_KERNEL::Exception)
582 double tmp0=self->getTime(tmp1,tmp2);
583 PyObject *res = PyList_New(3);
584 PyList_SetItem(res,0,SWIG_From_double(tmp0));
585 PyList_SetItem(res,1,SWIG_From_int(tmp1));
586 PyList_SetItem(res,2,SWIG_From_int(tmp2));
590 int getCellContainingPoint(PyObject *p, double eps) const throw(INTERP_KERNEL::Exception)
594 DataArrayDoubleTuple *aa;
595 std::vector<double> bb;
597 int spaceDim=self->getSpaceDimension();
598 const char msg[]="Python wrap of MEDCouplingMesh::getCellContainingPoint : ";
599 const double *pos=convertObjToPossibleCpp5_Safe(p,sw,val,a,aa,bb,msg,1,spaceDim,true);
600 return self->getCellContainingPoint(pos,eps);
603 PyObject *getCellsContainingPoints(PyObject *p, int nbOfPoints, double eps) const throw(INTERP_KERNEL::Exception)
607 DataArrayDoubleTuple *aa;
608 std::vector<double> bb;
610 int spaceDim=self->getSpaceDimension();
611 const char msg[]="Python wrap of MEDCouplingMesh::getCellsContainingPoint : ";
612 const double *pos=convertObjToPossibleCpp5_Safe(p,sw,val,a,aa,bb,msg,nbOfPoints,spaceDim,true);
613 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> elts,eltsIndex;
614 self->getCellsContainingPoints(pos,nbOfPoints,eps,elts,eltsIndex);
615 PyObject *ret=PyTuple_New(2);
616 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(elts.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
617 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(eltsIndex.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
621 PyObject *getCellsContainingPoints(PyObject *p, double eps) const throw(INTERP_KERNEL::Exception)
623 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> elts,eltsIndex;
624 int spaceDim=self->getSpaceDimension();
626 int res1=SWIG_ConvertPtr(p,&da,SWIGTYPE_p_ParaMEDMEM__DataArrayDouble, 0 | 0 );
627 if (!SWIG_IsOK(res1))
630 INTERP_KERNEL::AutoCPtr<double> tmp=convertPyToNewDblArr2(p,&size);
631 int nbOfPoints=size/spaceDim;
634 throw INTERP_KERNEL::Exception("MEDCouplingMesh::getCellsContainingPoints : Invalid list length ! Must be a multiple of self.getSpaceDimension() !");
636 self->getCellsContainingPoints(tmp,nbOfPoints,eps,elts,eltsIndex);
640 DataArrayDouble *da2=reinterpret_cast< DataArrayDouble * >(da);
642 throw INTERP_KERNEL::Exception("MEDCouplingMesh::getCellsContainingPoints : Not null DataArrayDouble instance expected !");
643 da2->checkAllocated();
644 int size=da2->getNumberOfTuples();
645 int nbOfCompo=da2->getNumberOfComponents();
646 if(nbOfCompo!=spaceDim)
648 throw INTERP_KERNEL::Exception("MEDCouplingMesh::getCellsContainingPoints : Invalid DataArrayDouble nb of components ! Expected same as self.getSpaceDimension() !");
650 self->getCellsContainingPoints(da2->getConstPointer(),size,eps,elts,eltsIndex);
652 PyObject *ret=PyTuple_New(2);
653 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(elts.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
654 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(eltsIndex.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
658 PyObject *getCellsContainingPoint(PyObject *p, double eps) const throw(INTERP_KERNEL::Exception)
662 DataArrayDoubleTuple *aa;
663 std::vector<double> bb;
665 int spaceDim=self->getSpaceDimension();
666 const char msg[]="Python wrap of MEDCouplingUMesh::getCellsContainingPoint : ";
667 const double *pos=convertObjToPossibleCpp5_Safe(p,sw,val,a,aa,bb,msg,1,spaceDim,true);
668 std::vector<int> elts;
669 self->getCellsContainingPoint(pos,eps,elts);
670 DataArrayInt *ret=DataArrayInt::New();
671 ret->alloc((int)elts.size(),1);
672 std::copy(elts.begin(),elts.end(),ret->getPointer());
673 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
676 virtual PyObject *getReverseNodalConnectivity() const throw(INTERP_KERNEL::Exception)
678 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d0=DataArrayInt::New();
679 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d1=DataArrayInt::New();
680 self->getReverseNodalConnectivity(d0,d1);
681 PyObject *ret=PyTuple_New(2);
682 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(d0.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
683 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(d1.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
687 void renumberCells(PyObject *li, bool check=true) throw(INTERP_KERNEL::Exception)
690 int v0; std::vector<int> v1;
691 const int *ids(convertObjToPossibleCpp1_Safe(li,sw,sz,v0,v1));
692 self->renumberCells(ids,check);
695 PyObject *checkGeoEquivalWith(const MEDCouplingMesh *other, int levOfCheck, double prec) const throw(INTERP_KERNEL::Exception)
697 DataArrayInt *cellCor, *nodeCor;
698 self->checkGeoEquivalWith(other,levOfCheck,prec,cellCor,nodeCor);
699 PyObject *res = PyList_New(2);
700 PyList_SetItem(res,0,SWIG_NewPointerObj(SWIG_as_voidptr(cellCor),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, cellCor?SWIG_POINTER_OWN | 0:0 ));
701 PyList_SetItem(res,1,SWIG_NewPointerObj(SWIG_as_voidptr(nodeCor),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, nodeCor?SWIG_POINTER_OWN | 0:0 ));
705 PyObject *checkDeepEquivalWith(const MEDCouplingMesh *other, int cellCompPol, double prec) const throw(INTERP_KERNEL::Exception)
707 DataArrayInt *cellCor=0,*nodeCor=0;
708 self->checkDeepEquivalWith(other,cellCompPol,prec,cellCor,nodeCor);
709 PyObject *res = PyList_New(2);
710 PyList_SetItem(res,0,SWIG_NewPointerObj(SWIG_as_voidptr(cellCor),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, cellCor?SWIG_POINTER_OWN | 0:0 ));
711 PyList_SetItem(res,1,SWIG_NewPointerObj(SWIG_as_voidptr(nodeCor),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, nodeCor?SWIG_POINTER_OWN | 0:0 ));
715 DataArrayInt *checkDeepEquivalOnSameNodesWith(const MEDCouplingMesh *other, int cellCompPol, double prec) const throw(INTERP_KERNEL::Exception)
717 DataArrayInt *cellCor=0;
718 self->checkDeepEquivalOnSameNodesWith(other,cellCompPol,prec,cellCor);
722 DataArrayInt *getCellIdsFullyIncludedInNodeIds(PyObject *li) const throw(INTERP_KERNEL::Exception)
725 int res1=SWIG_ConvertPtr(li,&da,SWIGTYPE_p_ParaMEDMEM__DataArrayInt, 0 | 0 );
726 if (!SWIG_IsOK(res1))
729 INTERP_KERNEL::AutoPtr<int> tmp=convertPyToNewIntArr2(li,&size);
730 return self->getCellIdsFullyIncludedInNodeIds(tmp,((const int *)tmp)+size);
734 DataArrayInt *da2=reinterpret_cast< DataArrayInt * >(da);
736 throw INTERP_KERNEL::Exception("Not null DataArrayInt instance expected !");
737 da2->checkAllocated();
738 return self->getCellIdsFullyIncludedInNodeIds(da2->getConstPointer(),da2->getConstPointer()+da2->getNbOfElems());
741 PyObject *getNodeIdsOfCell(int cellId) const throw(INTERP_KERNEL::Exception)
743 std::vector<int> conn;
744 self->getNodeIdsOfCell(cellId,conn);
745 return convertIntArrToPyList2(conn);
748 PyObject *getCoordinatesOfNode(int nodeId) const throw(INTERP_KERNEL::Exception)
750 std::vector<double> coo;
751 self->getCoordinatesOfNode(nodeId,coo);
752 return convertDblArrToPyList2(coo);
755 void scale(PyObject *point, double factor) throw(INTERP_KERNEL::Exception)
759 DataArrayDoubleTuple *aa;
760 std::vector<double> bb;
762 int spaceDim=self->getSpaceDimension();
763 const char msg[]="Python wrap of MEDCouplingPointSet::scale : ";
764 const double *pointPtr=convertObjToPossibleCpp5_Safe(point,sw,val,a,aa,bb,msg,1,spaceDim,true);
765 self->scale(pointPtr,factor);
768 PyObject *getBoundingBox() const throw(INTERP_KERNEL::Exception)
770 int spaceDim=self->getSpaceDimension();
771 INTERP_KERNEL::AutoPtr<double> tmp=new double[2*spaceDim];
772 self->getBoundingBox(tmp);
773 PyObject *ret=convertDblArrToPyListOfTuple(tmp,2,spaceDim);
777 PyObject *isEqualIfNotWhy(const MEDCouplingMesh *other, double prec) const throw(INTERP_KERNEL::Exception)
780 bool ret0=self->isEqualIfNotWhy(other,prec,ret1);
781 PyObject *ret=PyTuple_New(2);
782 PyObject *ret0Py=ret0?Py_True:Py_False;
784 PyTuple_SetItem(ret,0,ret0Py);
785 PyTuple_SetItem(ret,1,PyString_FromString(ret1.c_str()));
789 PyObject *buildPart(PyObject *li) const throw(INTERP_KERNEL::Exception)
791 int szArr,sw,iTypppArr;
792 std::vector<int> stdvecTyyppArr;
793 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
794 MEDCouplingMesh *ret=self->buildPart(tmp,tmp+szArr);
795 if(sw==3)//DataArrayInt
797 void *argp; SWIG_ConvertPtr(li,&argp,SWIGTYPE_p_ParaMEDMEM__DataArrayInt,0|0);
798 DataArrayInt *argpt=reinterpret_cast< ParaMEDMEM::DataArrayInt * >(argp);
799 std::string name=argpt->getName();
801 ret->setName(name.c_str());
803 return convertMesh(ret, SWIG_POINTER_OWN | 0 );
806 PyObject *buildPartAndReduceNodes(PyObject *li) const throw(INTERP_KERNEL::Exception)
808 int szArr,sw,iTypppArr;
809 std::vector<int> stdvecTyyppArr;
811 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
812 MEDCouplingMesh *ret=self->buildPartAndReduceNodes(tmp,tmp+szArr,arr);
813 if(sw==3)//DataArrayInt
815 void *argp; SWIG_ConvertPtr(li,&argp,SWIGTYPE_p_ParaMEDMEM__DataArrayInt,0|0);
816 DataArrayInt *argpt=reinterpret_cast< ParaMEDMEM::DataArrayInt * >(argp);
817 std::string name=argpt->getName();
819 ret->setName(name.c_str());
822 PyObject *res = PyList_New(2);
823 PyObject *obj0=convertMesh(ret, SWIG_POINTER_OWN | 0 );
824 PyObject *obj1=SWIG_NewPointerObj(SWIG_as_voidptr(arr),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
825 PyList_SetItem(res,0,obj0);
826 PyList_SetItem(res,1,obj1);
830 PyObject *buildPartRangeAndReduceNodes(int beginCellIds, int endCellIds, int stepCellIds) const throw(INTERP_KERNEL::Exception)
834 MEDCouplingMesh *ret=self->buildPartRangeAndReduceNodes(beginCellIds,endCellIds,stepCellIds,a,b,c,arr);
835 PyObject *res = PyTuple_New(2);
836 PyObject *obj0=convertMesh(ret, SWIG_POINTER_OWN | 0 );
839 obj1=SWIG_NewPointerObj(SWIG_as_voidptr(arr),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
841 obj1=PySlice_New(PyInt_FromLong(a),PyInt_FromLong(b),PyInt_FromLong(b));
842 PyTuple_SetItem(res,0,obj0);
843 PyTuple_SetItem(res,1,obj1);
847 PyObject *getDistributionOfTypes() const throw(INTERP_KERNEL::Exception)
849 std::vector<int> vals=self->getDistributionOfTypes();
851 throw INTERP_KERNEL::Exception("Internal Error detected in wrap python ! code returned by MEDCouplingMesh::getDistributionOfTypes is not so that %3==0 !");
852 PyObject *ret=PyList_New((int)vals.size()/3);
853 for(int j=0;j<(int)vals.size()/3;j++)
855 PyObject *ret1=PyList_New(3);
856 PyList_SetItem(ret1,0,SWIG_From_int(vals[3*j]));
857 PyList_SetItem(ret1,1,SWIG_From_int(vals[3*j+1]));
858 PyList_SetItem(ret1,2,SWIG_From_int(vals[3*j+2]));
859 PyList_SetItem(ret,j,ret1);
864 DataArrayInt *checkTypeConsistencyAndContig(PyObject *li, PyObject *li2) const throw(INTERP_KERNEL::Exception)
866 std::vector<int> code;
867 std::vector<const DataArrayInt *> idsPerType;
868 convertFromPyObjVectorOfObj<const ParaMEDMEM::DataArrayInt *>(li2,SWIGTYPE_p_ParaMEDMEM__DataArrayInt,"DataArrayInt",idsPerType);
869 convertPyToNewIntArr4(li,1,3,code);
870 return self->checkTypeConsistencyAndContig(code,idsPerType);
873 PyObject *splitProfilePerType(const DataArrayInt *profile) const throw(INTERP_KERNEL::Exception)
875 std::vector<int> code;
876 std::vector<DataArrayInt *> idsInPflPerType;
877 std::vector<DataArrayInt *> idsPerType;
878 self->splitProfilePerType(profile,code,idsInPflPerType,idsPerType);
879 PyObject *ret=PyTuple_New(3);
882 throw INTERP_KERNEL::Exception("Internal Error detected in wrap python ! code returned by MEDCouplingMesh::splitProfilePerType is not so that %3==0 !");
883 PyObject *ret0=PyList_New((int)code.size()/3);
884 for(int j=0;j<(int)code.size()/3;j++)
886 PyObject *ret00=PyList_New(3);
887 PyList_SetItem(ret00,0,SWIG_From_int(code[3*j]));
888 PyList_SetItem(ret00,1,SWIG_From_int(code[3*j+1]));
889 PyList_SetItem(ret00,2,SWIG_From_int(code[3*j+2]));
890 PyList_SetItem(ret0,j,ret00);
892 PyTuple_SetItem(ret,0,ret0);
894 PyObject *ret1=PyList_New(idsInPflPerType.size());
895 for(std::size_t j=0;j<idsInPflPerType.size();j++)
896 PyList_SetItem(ret1,j,SWIG_NewPointerObj(SWIG_as_voidptr(idsInPflPerType[j]),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
897 PyTuple_SetItem(ret,1,ret1);
898 int n=idsPerType.size();
899 PyObject *ret2=PyList_New(n);
901 PyList_SetItem(ret2,i,SWIG_NewPointerObj(SWIG_as_voidptr(idsPerType[i]),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
902 PyTuple_SetItem(ret,2,ret2);
906 void translate(PyObject *vector) throw(INTERP_KERNEL::Exception)
910 DataArrayDoubleTuple *aa;
911 std::vector<double> bb;
913 int spaceDim=self->getSpaceDimension();
914 const char msg[]="Python wrap of MEDCouplingPointSet::translate : ";
915 const double *vectorPtr=convertObjToPossibleCpp5_Safe(vector,sw,val,a,aa,bb,msg,1,spaceDim,true);
916 self->translate(vectorPtr);
919 void rotate(PyObject *center, double alpha) throw(INTERP_KERNEL::Exception)
921 const char msg[]="Python wrap of MEDCouplingPointSet::rotate : ";
924 DataArrayDoubleTuple *aa;
925 std::vector<double> bb;
927 int spaceDim=self->getSpaceDimension();
928 const double *centerPtr=convertObjToPossibleCpp5_Safe(center,sw,val,a,aa,bb,msg,1,spaceDim,true);
929 self->rotate(centerPtr,0,alpha);
932 void rotate(PyObject *center, PyObject *vector, double alpha) throw(INTERP_KERNEL::Exception)
934 const char msg[]="Python wrap of MEDCouplingPointSet::rotate : ";
936 DataArrayDouble *a,*a2;
937 DataArrayDoubleTuple *aa,*aa2;
938 std::vector<double> bb,bb2;
940 int spaceDim=self->getSpaceDimension();
941 const double *centerPtr=convertObjToPossibleCpp5_Safe(center,sw,val,a,aa,bb,msg,1,spaceDim,true);
942 const double *vectorPtr=convertObjToPossibleCpp5_Safe(vector,sw,val2,a2,aa2,bb2,msg,1,spaceDim,false);//vectorPtr can be null in case of space dim 2
943 self->rotate(centerPtr,vectorPtr,alpha);
946 PyObject *getAllGeoTypes() const throw(INTERP_KERNEL::Exception)
948 std::set<INTERP_KERNEL::NormalizedCellType> result=self->getAllGeoTypes();
949 std::set<INTERP_KERNEL::NormalizedCellType>::const_iterator iL=result.begin();
950 PyObject *res=PyList_New(result.size());
951 for(int i=0;iL!=result.end(); i++, iL++)
952 PyList_SetItem(res,i,PyInt_FromLong(*iL));
956 static MEDCouplingMesh *MergeMeshes(PyObject *li) throw(INTERP_KERNEL::Exception)
958 std::vector<const ParaMEDMEM::MEDCouplingMesh *> tmp;
959 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCouplingMesh *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCouplingMesh,"MEDCouplingMesh",tmp);
960 return MEDCouplingMesh::MergeMeshes(tmp);
966 //== MEDCouplingMesh End
968 %include "NormalizedGeometricTypes"
969 %include "MEDCouplingNatureOfFieldEnum"
973 class MEDCouplingNatureOfField
976 static const char *GetRepr(NatureOfField nat) throw(INTERP_KERNEL::Exception);
977 static std::string GetReprNoThrow(NatureOfField nat);
978 static std::string GetAllPossibilitiesStr();
982 // the MEDCouplingTimeDiscretization classes are not swigged : in case the file can help
983 // include "MEDCouplingTimeDiscretization.i"
987 class MEDCouplingGaussLocalization
990 MEDCouplingGaussLocalization(INTERP_KERNEL::NormalizedCellType type, const std::vector<double>& refCoo,
991 const std::vector<double>& gsCoo, const std::vector<double>& w) throw(INTERP_KERNEL::Exception);
992 MEDCouplingGaussLocalization(INTERP_KERNEL::NormalizedCellType typ) throw(INTERP_KERNEL::Exception);
993 INTERP_KERNEL::NormalizedCellType getType() const throw(INTERP_KERNEL::Exception);
994 void setType(INTERP_KERNEL::NormalizedCellType typ) throw(INTERP_KERNEL::Exception);
995 int getNumberOfGaussPt() const throw(INTERP_KERNEL::Exception);
996 int getDimension() const throw(INTERP_KERNEL::Exception);
997 int getNumberOfPtsInRefCell() const throw(INTERP_KERNEL::Exception);
998 std::string getStringRepr() const throw(INTERP_KERNEL::Exception);
999 void checkCoherency() const throw(INTERP_KERNEL::Exception);
1000 bool isEqual(const MEDCouplingGaussLocalization& other, double eps) const throw(INTERP_KERNEL::Exception);
1002 const std::vector<double>& getRefCoords() const throw(INTERP_KERNEL::Exception);
1003 double getRefCoord(int ptIdInCell, int comp) const throw(INTERP_KERNEL::Exception);
1004 const std::vector<double>& getGaussCoords() const throw(INTERP_KERNEL::Exception);
1005 double getGaussCoord(int gaussPtIdInCell, int comp) const throw(INTERP_KERNEL::Exception);
1006 const std::vector<double>& getWeights() const throw(INTERP_KERNEL::Exception);
1007 double getWeight(int gaussPtIdInCell, double newVal) const throw(INTERP_KERNEL::Exception);
1008 void setRefCoord(int ptIdInCell, int comp, double newVal) throw(INTERP_KERNEL::Exception);
1009 void setGaussCoord(int gaussPtIdInCell, int comp, double newVal) throw(INTERP_KERNEL::Exception);
1010 void setWeight(int gaussPtIdInCell, double newVal) throw(INTERP_KERNEL::Exception);
1011 void setRefCoords(const std::vector<double>& refCoo) throw(INTERP_KERNEL::Exception);
1012 void setGaussCoords(const std::vector<double>& gsCoo) throw(INTERP_KERNEL::Exception);
1013 void setWeights(const std::vector<double>& w) throw(INTERP_KERNEL::Exception);
1015 static bool AreAlmostEqual(const std::vector<double>& v1, const std::vector<double>& v2, double eps);
1019 %include "MEDCouplingFieldDiscretization.i"
1021 //== MEDCouplingPointSet
1023 namespace ParaMEDMEM
1025 class MEDCouplingPointSet : public ParaMEDMEM::MEDCouplingMesh
1028 void setCoords(const DataArrayDouble *coords) throw(INTERP_KERNEL::Exception);
1029 DataArrayDouble *getCoordinatesAndOwner() const throw(INTERP_KERNEL::Exception);
1030 bool areCoordsEqual(const MEDCouplingPointSet& other, double prec) const throw(INTERP_KERNEL::Exception);
1031 void zipCoords() throw(INTERP_KERNEL::Exception);
1032 double getCaracteristicDimension() const throw(INTERP_KERNEL::Exception);
1033 void recenterForMaxPrecision(double eps) throw(INTERP_KERNEL::Exception);
1034 void changeSpaceDimension(int newSpaceDim, double dftVal=0.) throw(INTERP_KERNEL::Exception);
1035 void tryToShareSameCoords(const MEDCouplingPointSet& other, double epsilon) throw(INTERP_KERNEL::Exception);
1036 virtual void shallowCopyConnectivityFrom(const MEDCouplingPointSet *other) throw(INTERP_KERNEL::Exception);
1037 virtual MEDCouplingPointSet *buildPartOfMySelf2(int start, int end, int step) const throw(INTERP_KERNEL::Exception);
1038 virtual void tryToShareSameCoordsPermute(const MEDCouplingPointSet& other, double epsilon) throw(INTERP_KERNEL::Exception);
1039 static DataArrayDouble *MergeNodesArray(const MEDCouplingPointSet *m1, const MEDCouplingPointSet *m2) throw(INTERP_KERNEL::Exception);
1040 static MEDCouplingPointSet *BuildInstanceFromMeshType(MEDCouplingMeshType type) throw(INTERP_KERNEL::Exception);
1041 static DataArrayInt *ComputeNbOfInteractionsWithSrcCells(const MEDCouplingPointSet *srcMesh, const MEDCouplingPointSet *trgMesh, double eps) throw(INTERP_KERNEL::Exception);
1042 virtual int getNumberOfNodesInCell(int cellId) const throw(INTERP_KERNEL::Exception);
1043 virtual MEDCouplingPointSet *buildBoundaryMesh(bool keepCoords) const throw(INTERP_KERNEL::Exception);
1044 virtual DataArrayInt *getCellsInBoundingBox(const INTERP_KERNEL::DirectedBoundingBox& bbox, double eps) throw(INTERP_KERNEL::Exception);
1045 virtual DataArrayInt *zipCoordsTraducer() throw(INTERP_KERNEL::Exception);
1046 virtual DataArrayInt *findBoundaryNodes() const;
1047 virtual DataArrayInt *zipConnectivityTraducer(int compType, int startCellId=0) throw(INTERP_KERNEL::Exception);
1048 virtual MEDCouplingPointSet *mergeMyselfWithOnSameCoords(const MEDCouplingPointSet *other) const throw(INTERP_KERNEL::Exception);
1049 virtual void checkFullyDefined() const throw(INTERP_KERNEL::Exception);
1050 virtual bool isEmptyMesh(const std::vector<int>& tinyInfo) const throw(INTERP_KERNEL::Exception);
1051 virtual MEDCouplingPointSet *deepCpyConnectivityOnly() const throw(INTERP_KERNEL::Exception);
1052 virtual DataArrayDouble *getBoundingBoxForBBTree(double arcDetEps=1e-12) const throw(INTERP_KERNEL::Exception);
1055 std::string __str__() const throw(INTERP_KERNEL::Exception)
1057 return self->simpleRepr();
1060 PyObject *buildNewNumberingFromCommonNodesFormat(const DataArrayInt *comm, const DataArrayInt *commIndex) const throw(INTERP_KERNEL::Exception)
1063 DataArrayInt *ret0=self->buildNewNumberingFromCommonNodesFormat(comm,commIndex,newNbOfNodes);
1064 PyObject *res = PyList_New(2);
1065 PyList_SetItem(res,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1066 PyList_SetItem(res,1,SWIG_From_int(newNbOfNodes));
1070 PyObject *findCommonNodes(double prec, int limitTupleId=-1) const throw(INTERP_KERNEL::Exception)
1072 DataArrayInt *comm, *commIndex;
1073 self->findCommonNodes(prec,limitTupleId,comm,commIndex);
1074 PyObject *res = PyList_New(2);
1075 PyList_SetItem(res,0,SWIG_NewPointerObj(SWIG_as_voidptr(comm),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1076 PyList_SetItem(res,1,SWIG_NewPointerObj(SWIG_as_voidptr(commIndex),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1080 PyObject *getCoords() throw(INTERP_KERNEL::Exception)
1082 DataArrayDouble *ret1=self->getCoords();
1085 return SWIG_NewPointerObj((void*)ret1,SWIGTYPE_p_ParaMEDMEM__DataArrayDouble,SWIG_POINTER_OWN | 0);
1088 PyObject *buildPartOfMySelf(PyObject *li, bool keepCoords=true) const throw(INTERP_KERNEL::Exception)
1090 int szArr,sw,iTypppArr;
1091 std::vector<int> stdvecTyyppArr;
1092 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
1093 MEDCouplingPointSet *ret=self->buildPartOfMySelf(tmp,tmp+szArr,keepCoords);
1094 if(sw==3)//DataArrayInt
1096 void *argp; SWIG_ConvertPtr(li,&argp,SWIGTYPE_p_ParaMEDMEM__DataArrayInt,0|0);
1097 DataArrayInt *argpt=reinterpret_cast< ParaMEDMEM::DataArrayInt * >(argp);
1098 std::string name=argpt->getName();
1100 ret->setName(name.c_str());
1102 return convertMesh(ret, SWIG_POINTER_OWN | 0 );
1105 PyObject *buildPartOfMySelfNode(PyObject *li, bool fullyIn) const throw(INTERP_KERNEL::Exception)
1107 int szArr,sw,iTypppArr;
1108 std::vector<int> stdvecTyyppArr;
1109 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
1110 MEDCouplingPointSet *ret=self->buildPartOfMySelfNode(tmp,tmp+szArr,fullyIn);
1111 if(sw==3)//DataArrayInt
1113 void *argp; SWIG_ConvertPtr(li,&argp,SWIGTYPE_p_ParaMEDMEM__DataArrayInt,0|0);
1114 DataArrayInt *argpt=reinterpret_cast< ParaMEDMEM::DataArrayInt * >(argp);
1115 std::string name=argpt->getName();
1117 ret->setName(name.c_str());
1119 return convertMesh(ret, SWIG_POINTER_OWN | 0 );
1122 virtual PyObject *buildPartOfMySelfKeepCoords(PyObject *li) const throw(INTERP_KERNEL::Exception)
1124 int szArr,sw,iTypppArr;
1125 std::vector<int> stdvecTyyppArr;
1126 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
1127 MEDCouplingPointSet *ret=self->buildPartOfMySelfKeepCoords(tmp,tmp+szArr);
1128 if(sw==3)//DataArrayInt
1130 void *argp; SWIG_ConvertPtr(li,&argp,SWIGTYPE_p_ParaMEDMEM__DataArrayInt,0|0);
1131 DataArrayInt *argpt=reinterpret_cast< ParaMEDMEM::DataArrayInt * >(argp);
1132 std::string name=argpt->getName();
1134 ret->setName(name.c_str());
1136 return convertMesh(ret, SWIG_POINTER_OWN | 0 );
1139 virtual PyObject *buildPartOfMySelfKeepCoords2(int start, int end, int step) const throw(INTERP_KERNEL::Exception)
1141 MEDCouplingPointSet *ret=self->buildPartOfMySelfKeepCoords2(start,end,step);
1142 return convertMesh(ret, SWIG_POINTER_OWN | 0 );
1145 PyObject *buildFacePartOfMySelfNode(PyObject *li, bool fullyIn) const throw(INTERP_KERNEL::Exception)
1147 int szArr,sw,iTypppArr;
1148 std::vector<int> stdvecTyyppArr;
1149 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
1150 MEDCouplingPointSet *ret=self->buildFacePartOfMySelfNode(tmp,tmp+szArr,fullyIn);
1151 if(sw==3)//DataArrayInt
1153 void *argp; SWIG_ConvertPtr(li,&argp,SWIGTYPE_p_ParaMEDMEM__DataArrayInt,0|0);
1154 DataArrayInt *argpt=reinterpret_cast< ParaMEDMEM::DataArrayInt * >(argp);
1155 std::string name=argpt->getName();
1157 ret->setName(name.c_str());
1159 return convertMesh(ret, SWIG_POINTER_OWN | 0 );
1162 void renumberNodes(PyObject *li, int newNbOfNodes) throw(INTERP_KERNEL::Exception)
1164 int szArr,sw,iTypppArr;
1165 std::vector<int> stdvecTyyppArr;
1166 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
1167 self->renumberNodes(tmp,newNbOfNodes);
1170 void renumberNodes2(PyObject *li, int newNbOfNodes) throw(INTERP_KERNEL::Exception)
1172 int szArr,sw,iTypppArr;
1173 std::vector<int> stdvecTyyppArr;
1174 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
1175 self->renumberNodes2(tmp,newNbOfNodes);
1178 PyObject *findNodesOnLine(PyObject *pt, PyObject *vec, double eps) const throw(INTERP_KERNEL::Exception)
1180 int spaceDim=self->getSpaceDimension();
1182 DataArrayDouble *a,*a2;
1183 DataArrayDoubleTuple *aa,*aa2;
1184 std::vector<double> bb,bb2;
1186 const char msg[]="Python wrap of MEDCouplingPointSet::findNodesOnLine : 1st paramater for point.";
1187 const char msg2[]="Python wrap of MEDCouplingPointSet::findNodesOnLine : 2nd paramater for vector.";
1188 const double *p=convertObjToPossibleCpp5_Safe(pt,sw,val,a,aa,bb,msg,1,spaceDim,true);
1189 const double *v=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
1190 std::vector<int> nodes;
1191 self->findNodesOnLine(p,v,eps,nodes);
1192 DataArrayInt *ret=DataArrayInt::New();
1193 ret->alloc((int)nodes.size(),1);
1194 std::copy(nodes.begin(),nodes.end(),ret->getPointer());
1195 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
1197 PyObject *findNodesOnPlane(PyObject *pt, PyObject *vec, double eps) const throw(INTERP_KERNEL::Exception)
1199 int spaceDim=self->getSpaceDimension();
1201 DataArrayDouble *a,*a2;
1202 DataArrayDoubleTuple *aa,*aa2;
1203 std::vector<double> bb,bb2;
1205 const char msg[]="Python wrap of MEDCouplingPointSet::findNodesOnPlane : 1st paramater for point.";
1206 const char msg2[]="Python wrap of MEDCouplingPointSet::findNodesOnPlane : 2nd paramater for vector.";
1207 const double *p=convertObjToPossibleCpp5_Safe(pt,sw,val,a,aa,bb,msg,1,spaceDim,true);
1208 const double *v=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
1209 std::vector<int> nodes;
1210 self->findNodesOnPlane(p,v,eps,nodes);
1211 DataArrayInt *ret=DataArrayInt::New();
1212 ret->alloc((int)nodes.size(),1);
1213 std::copy(nodes.begin(),nodes.end(),ret->getPointer());
1214 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
1217 PyObject *getNodeIdsNearPoint(PyObject *pt, double eps) const throw(INTERP_KERNEL::Exception)
1221 DataArrayDoubleTuple *aa;
1222 std::vector<double> bb;
1224 int spaceDim=self->getSpaceDimension();
1225 const char msg[]="Python wrap of MEDCouplingPointSet::getNodeIdsNearPoint : ";
1226 const double *pos=convertObjToPossibleCpp5_Safe(pt,sw,val,a,aa,bb,msg,1,spaceDim,true);
1227 DataArrayInt *ret=self->getNodeIdsNearPoint(pos,eps);
1228 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
1231 PyObject *getNodeIdsNearPoints(PyObject *pt, int nbOfPoints, double eps) const throw(INTERP_KERNEL::Exception)
1233 DataArrayInt *c=0,*cI=0;
1237 DataArrayDoubleTuple *aa;
1238 std::vector<double> bb;
1240 int spaceDim=self->getSpaceDimension();
1241 const char msg[]="Python wrap of MEDCouplingPointSet::getNodeIdsNearPoints : ";
1242 const double *pos=convertObjToPossibleCpp5_Safe(pt,sw,val,a,aa,bb,msg,nbOfPoints,spaceDim,true);
1243 self->getNodeIdsNearPoints(pos,nbOfPoints,eps,c,cI);
1244 PyObject *ret=PyTuple_New(2);
1245 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(c),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1246 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(cI),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1250 PyObject *getNodeIdsNearPoints(PyObject *pt, double eps) const throw(INTERP_KERNEL::Exception)
1252 DataArrayInt *c=0,*cI=0;
1253 int spaceDim=self->getSpaceDimension();
1256 DataArrayDoubleTuple *aa;
1257 std::vector<double> bb;
1260 const double *ptPtr=convertObjToPossibleCpp5_Safe2(pt,sw,val,a,aa,bb,"Python wrap of MEDCouplingUMesh::getNodeIdsNearPoints",spaceDim,true,nbOfTuples);
1261 self->getNodeIdsNearPoints(ptPtr,nbOfTuples,eps,c,cI);
1263 PyObject *ret=PyTuple_New(2);
1264 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(c),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1265 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(cI),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1269 PyObject *getCellsInBoundingBox(PyObject *bbox, double eps) const throw(INTERP_KERNEL::Exception)
1273 DataArrayDoubleTuple *aa;
1274 std::vector<double> bb;
1276 int spaceDim=self->getSpaceDimension();
1277 const char msg[]="Python wrap of MEDCouplingPointSet::getCellsInBoundingBox : ";
1278 const double *tmp=convertObjToPossibleCpp5_Safe(bbox,sw,val,a,aa,bb,msg,spaceDim,2,true);
1280 DataArrayInt *elems=self->getCellsInBoundingBox(tmp,eps);
1281 return SWIG_NewPointerObj(SWIG_as_voidptr(elems),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
1284 void duplicateNodesInCoords(PyObject *li) throw(INTERP_KERNEL::Exception)
1288 std::vector<int> multiVal;
1289 std::pair<int, std::pair<int,int> > slic;
1290 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
1291 convertObjToPossibleCpp2(li,self->getNumberOfNodes(),sw,singleVal,multiVal,slic,daIntTyypp);
1295 return self->duplicateNodesInCoords(&singleVal,&singleVal+1);
1297 return self->duplicateNodesInCoords(&multiVal[0],&multiVal[0]+multiVal.size());
1299 return self->duplicateNodesInCoords(daIntTyypp->begin(),daIntTyypp->end());
1301 throw INTERP_KERNEL::Exception("MEDCouplingPointSet::duplicateNodesInCoords : unrecognized type entered, expected list of int, tuple of int or DataArrayInt !");
1305 virtual PyObject *findCommonCells(int compType, int startCellId=0) const throw(INTERP_KERNEL::Exception)
1307 DataArrayInt *v0=0,*v1=0;
1308 self->findCommonCells(compType,startCellId,v0,v1);
1309 PyObject *res = PyList_New(2);
1310 PyList_SetItem(res,0,SWIG_NewPointerObj(SWIG_as_voidptr(v0),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1311 PyList_SetItem(res,1,SWIG_NewPointerObj(SWIG_as_voidptr(v1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1316 virtual void renumberNodesInConn(PyObject *li) throw(INTERP_KERNEL::Exception)
1319 int res1=SWIG_ConvertPtr(li,&da,SWIGTYPE_p_ParaMEDMEM__DataArrayInt, 0 | 0 );
1320 if (!SWIG_IsOK(res1))
1323 INTERP_KERNEL::AutoPtr<int> tmp=convertPyToNewIntArr2(li,&size);
1324 self->renumberNodesInConn(tmp);
1328 DataArrayInt *da2=reinterpret_cast< DataArrayInt * >(da);
1330 throw INTERP_KERNEL::Exception("Not null DataArrayInt instance expected !");
1331 da2->checkAllocated();
1332 self->renumberNodesInConn(da2->getConstPointer());
1336 virtual PyObject *getNodeIdsInUse() const throw(INTERP_KERNEL::Exception)
1339 DataArrayInt *ret0=self->getNodeIdsInUse(ret1);
1340 PyObject *ret=PyTuple_New(2);
1341 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1342 PyTuple_SetItem(ret,1,PyInt_FromLong(ret1));
1346 virtual DataArrayInt *fillCellIdsToKeepFromNodeIds(PyObject *li, bool fullyIn) const
1348 DataArrayInt *ret=0;
1350 int szArr,sw,iTypppArr;
1351 std::vector<int> stdvecTyyppArr;
1352 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
1353 self->fillCellIdsToKeepFromNodeIds(tmp,tmp+szArr,fullyIn,ret);
1357 virtual PyObject *mergeNodes(double precision) throw(INTERP_KERNEL::Exception)
1361 DataArrayInt *ret0=self->mergeNodes(precision,ret1,ret2);
1362 PyObject *res = PyList_New(3);
1363 PyList_SetItem(res,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1364 PyList_SetItem(res,1,SWIG_From_bool(ret1));
1365 PyList_SetItem(res,2,SWIG_From_int(ret2));
1369 virtual PyObject *mergeNodes2(double precision) throw(INTERP_KERNEL::Exception)
1373 DataArrayInt *ret0=self->mergeNodes2(precision,ret1,ret2);
1374 PyObject *res = PyList_New(3);
1375 PyList_SetItem(res,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1376 PyList_SetItem(res,1,SWIG_From_bool(ret1));
1377 PyList_SetItem(res,2,SWIG_From_int(ret2));
1381 DataArrayInt *getCellIdsLyingOnNodes(PyObject *li, bool fullyIn) const throw(INTERP_KERNEL::Exception)
1384 int res1=SWIG_ConvertPtr(li,&da,SWIGTYPE_p_ParaMEDMEM__DataArrayInt, 0 | 0 );
1385 if (!SWIG_IsOK(res1))
1388 INTERP_KERNEL::AutoPtr<int> tmp=convertPyToNewIntArr2(li,&size);
1389 return self->getCellIdsLyingOnNodes(tmp,((const int *)tmp)+size,fullyIn);
1393 DataArrayInt *da2=reinterpret_cast< DataArrayInt * >(da);
1395 throw INTERP_KERNEL::Exception("Not null DataArrayInt instance expected !");
1396 da2->checkAllocated();
1397 return self->getCellIdsLyingOnNodes(da2->getConstPointer(),da2->getConstPointer()+da2->getNbOfElems(),fullyIn);
1401 MEDCouplingPointSet *__getitem__(PyObject *listOrDataArrI) throw(INTERP_KERNEL::Exception)
1405 std::vector<int> multiVal;
1406 std::pair<int, std::pair<int,int> > slic;
1407 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
1408 int nbc=self->getNumberOfCells();
1409 convertObjToPossibleCpp2(listOrDataArrI,nbc,sw,singleVal,multiVal,slic,daIntTyypp);
1416 std::ostringstream oss;
1417 oss << "Requesting for cell id " << singleVal << " having only " << nbc << " cells !";
1418 throw INTERP_KERNEL::Exception(oss.str().c_str());
1421 return self->buildPartOfMySelf(&singleVal,&singleVal+1,true);
1426 int tmp=nbc+singleVal;
1427 return self->buildPartOfMySelf(&tmp,&tmp+1,true);
1431 std::ostringstream oss;
1432 oss << "Requesting for cell id " << singleVal << " having only " << nbc << " cells !";
1433 throw INTERP_KERNEL::Exception(oss.str().c_str());
1439 return static_cast<MEDCouplingPointSet *>(self->buildPartOfMySelf(&multiVal[0],&multiVal[0]+multiVal.size(),true));
1443 return self->buildPartOfMySelf2(slic.first,slic.second.first,slic.second.second,true);
1448 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::__getitem__ : null instance has been given in input !");
1449 daIntTyypp->checkAllocated();
1450 return self->buildPartOfMySelf(daIntTyypp->begin(),daIntTyypp->end(),true);
1453 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::__getitem__ : unrecognized type in input ! Possibilities are : int, list or tuple of int DataArrayInt instance !");
1457 static void Rotate2DAlg(PyObject *center, double angle, int nbNodes, PyObject *coords) throw(INTERP_KERNEL::Exception)
1460 INTERP_KERNEL::AutoCPtr<double> c=convertPyToNewDblArr2(center,&sz);
1461 INTERP_KERNEL::AutoCPtr<double> coo=convertPyToNewDblArr2(coords,&sz);
1462 ParaMEDMEM::MEDCouplingPointSet::Rotate2DAlg(c,angle,nbNodes,coo);
1463 for(int i=0;i<sz;i++)
1464 PyList_SetItem(coords,i,PyFloat_FromDouble(coo[i]));
1467 static void Rotate2DAlg(PyObject *center, double angle, PyObject *coords) throw(INTERP_KERNEL::Exception)
1470 INTERP_KERNEL::AutoCPtr<double> c=convertPyToNewDblArr2(center,&sz);
1472 double val0; ParaMEDMEM::DataArrayDouble *val1=0; ParaMEDMEM::DataArrayDoubleTuple *val2=0;
1473 std::vector<double> val3;
1474 const double *coo=convertObjToPossibleCpp5_Safe2(coords,sw,val0,val1,val2,val3,
1475 "Rotate2DAlg",2,true,nbNodes);
1477 throw INTERP_KERNEL::Exception("Invalid call to MEDCouplingPointSet::Rotate2DAlg : try another overload method !");
1478 ParaMEDMEM::MEDCouplingPointSet::Rotate2DAlg(c,angle,nbNodes,const_cast<double *>(coo));
1481 static void Rotate3DAlg(PyObject *center, PyObject *vect, double angle, int nbNodes, PyObject *coords) throw(INTERP_KERNEL::Exception)
1484 INTERP_KERNEL::AutoCPtr<double> c=convertPyToNewDblArr2(center,&sz);
1485 INTERP_KERNEL::AutoCPtr<double> coo=convertPyToNewDblArr2(coords,&sz);
1486 INTERP_KERNEL::AutoCPtr<double> v=convertPyToNewDblArr2(vect,&sz2);
1487 ParaMEDMEM::MEDCouplingPointSet::Rotate3DAlg(c,v,angle,nbNodes,coo);
1488 for(int i=0;i<sz;i++)
1489 PyList_SetItem(coords,i,PyFloat_FromDouble(coo[i]));
1492 static void Rotate3DAlg(PyObject *center, PyObject *vect, double angle, PyObject *coords) throw(INTERP_KERNEL::Exception)
1495 INTERP_KERNEL::AutoCPtr<double> c=convertPyToNewDblArr2(center,&sz);
1497 double val0; ParaMEDMEM::DataArrayDouble *val1=0; ParaMEDMEM::DataArrayDoubleTuple *val2=0;
1498 std::vector<double> val3;
1499 const double *coo=convertObjToPossibleCpp5_Safe2(coords,sw,val0,val1,val2,val3,
1500 "Rotate3DAlg",3,true,nbNodes);
1502 throw INTERP_KERNEL::Exception("Invalid call to MEDCouplingPointSet::Rotate3DAlg : try another overload method !");
1503 INTERP_KERNEL::AutoCPtr<double> v=convertPyToNewDblArr2(vect,&sz2);
1504 ParaMEDMEM::MEDCouplingPointSet::Rotate3DAlg(c,v,angle,nbNodes,const_cast<double *>(coo));
1509 //== MEDCouplingPointSet End
1511 class MEDCouplingUMeshCell
1514 INTERP_KERNEL::NormalizedCellType getType() const;
1517 std::string __str__() const throw(INTERP_KERNEL::Exception)
1519 return self->repr();
1522 PyObject *getAllConn() const throw(INTERP_KERNEL::Exception)
1525 const int *r=self->getAllConn(ret2);
1526 PyObject *ret=PyTuple_New(ret2);
1527 for(int i=0;i<ret2;i++)
1528 PyTuple_SetItem(ret,i,PyInt_FromLong(r[i]));
1534 class MEDCouplingUMeshCellIterator
1541 MEDCouplingUMeshCell *ret=self->nextt();
1543 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMeshCell,0|0);
1546 PyErr_SetString(PyExc_StopIteration,"No more data.");
1553 class MEDCouplingUMeshCellByTypeIterator
1556 ~MEDCouplingUMeshCellByTypeIterator();
1561 MEDCouplingUMeshCellEntry *ret=self->nextt();
1563 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMeshCellEntry,SWIG_POINTER_OWN | 0);
1566 PyErr_SetString(PyExc_StopIteration,"No more data.");
1573 class MEDCouplingUMeshCellByTypeEntry
1576 ~MEDCouplingUMeshCellByTypeEntry();
1579 MEDCouplingUMeshCellByTypeIterator *__iter__()
1581 return self->iterator();
1586 class MEDCouplingUMeshCellEntry
1589 INTERP_KERNEL::NormalizedCellType getType() const;
1590 int getNumberOfElems() const;
1593 MEDCouplingUMeshCellIterator *__iter__()
1595 return self->iterator();
1600 //== MEDCouplingUMesh
1602 class MEDCouplingUMesh : public ParaMEDMEM::MEDCouplingPointSet
1605 static MEDCouplingUMesh *New() throw(INTERP_KERNEL::Exception);
1606 static MEDCouplingUMesh *New(const char *meshName, int meshDim) throw(INTERP_KERNEL::Exception);
1607 MEDCouplingUMesh *clone(bool recDeepCpy) const;
1608 void checkCoherency() const throw(INTERP_KERNEL::Exception);
1609 void setMeshDimension(int meshDim) throw(INTERP_KERNEL::Exception);
1610 void allocateCells(int nbOfCells=0) throw(INTERP_KERNEL::Exception);
1611 void finishInsertingCells() throw(INTERP_KERNEL::Exception);
1612 MEDCouplingUMeshCellByTypeEntry *cellsByType() throw(INTERP_KERNEL::Exception);
1613 void setConnectivity(DataArrayInt *conn, DataArrayInt *connIndex, bool isComputingTypes=true) throw(INTERP_KERNEL::Exception);
1614 INTERP_KERNEL::NormalizedCellType getTypeOfCell(int cellId) const throw(INTERP_KERNEL::Exception);
1615 void setPartOfMySelf2(int start, int end, int step, const MEDCouplingUMesh& otherOnSameCoordsThanThis) throw(INTERP_KERNEL::Exception);
1616 int getMeshLength() const throw(INTERP_KERNEL::Exception);
1617 void computeTypes() throw(INTERP_KERNEL::Exception);
1618 std::string reprConnectivityOfThis() const throw(INTERP_KERNEL::Exception);
1619 MEDCouplingUMesh *buildSetInstanceFromThis(int spaceDim) const throw(INTERP_KERNEL::Exception);
1621 DataArrayInt *conformize2D(double eps) throw(INTERP_KERNEL::Exception);
1622 DataArrayInt *colinearize2D(double eps) throw(INTERP_KERNEL::Exception);
1623 void shiftNodeNumbersInConn(int delta) throw(INTERP_KERNEL::Exception);
1624 std::vector<bool> getQuadraticStatus() const throw(INTERP_KERNEL::Exception);
1625 DataArrayInt *findCellIdsOnBoundary() const throw(INTERP_KERNEL::Exception);
1626 MEDCouplingUMesh *computeSkin() const throw(INTERP_KERNEL::Exception);
1627 bool checkConsecutiveCellTypes() const throw(INTERP_KERNEL::Exception);
1628 bool checkConsecutiveCellTypesForMEDFileFrmt() const throw(INTERP_KERNEL::Exception);
1629 DataArrayInt *rearrange2ConsecutiveCellTypes() throw(INTERP_KERNEL::Exception);
1630 DataArrayInt *sortCellsInMEDFileFrmt() throw(INTERP_KERNEL::Exception);
1631 DataArrayInt *getRenumArrForMEDFileFrmt() const throw(INTERP_KERNEL::Exception);
1632 DataArrayInt *convertCellArrayPerGeoType(const DataArrayInt *da) const throw(INTERP_KERNEL::Exception);
1633 DataArrayInt *computeFetchedNodeIds() const throw(INTERP_KERNEL::Exception);
1634 MEDCouplingUMesh *buildDescendingConnectivity(DataArrayInt *desc, DataArrayInt *descIndx, DataArrayInt *revDesc, DataArrayInt *revDescIndx) const throw(INTERP_KERNEL::Exception);
1635 MEDCouplingUMesh *buildDescendingConnectivity2(DataArrayInt *desc, DataArrayInt *descIndx, DataArrayInt *revDesc, DataArrayInt *revDescIndx) const throw(INTERP_KERNEL::Exception);
1636 MEDCouplingUMesh *explode3DMeshTo1D(DataArrayInt *desc, DataArrayInt *descIndx, DataArrayInt *revDesc, DataArrayInt *revDescIndx) const throw(INTERP_KERNEL::Exception);
1637 void orientCorrectlyPolyhedrons() throw(INTERP_KERNEL::Exception);
1638 bool isPresenceOfQuadratic() const throw(INTERP_KERNEL::Exception);
1639 bool isFullyQuadratic() const throw(INTERP_KERNEL::Exception);
1640 MEDCouplingFieldDouble *buildDirectionVectorField() const throw(INTERP_KERNEL::Exception);
1641 bool isContiguous1D() const throw(INTERP_KERNEL::Exception);
1642 void tessellate2D(double eps) throw(INTERP_KERNEL::Exception);
1643 void tessellate2DCurve(double eps) throw(INTERP_KERNEL::Exception);
1644 void convertQuadraticCellsToLinear() throw(INTERP_KERNEL::Exception);
1645 DataArrayInt *convertLinearCellsToQuadratic(int conversionType=0) throw(INTERP_KERNEL::Exception);
1646 void convertDegeneratedCells() throw(INTERP_KERNEL::Exception);
1647 bool areOnlySimplexCells() const throw(INTERP_KERNEL::Exception);
1648 MEDCouplingFieldDouble *getEdgeRatioField() const throw(INTERP_KERNEL::Exception);
1649 MEDCouplingFieldDouble *getAspectRatioField() const throw(INTERP_KERNEL::Exception);
1650 MEDCouplingFieldDouble *getWarpField() const throw(INTERP_KERNEL::Exception);
1651 MEDCouplingFieldDouble *getSkewField() const throw(INTERP_KERNEL::Exception);
1652 DataArrayDouble *computePlaneEquationOf3DFaces() const throw(INTERP_KERNEL::Exception);
1653 DataArrayInt *convexEnvelop2D() throw(INTERP_KERNEL::Exception);
1654 std::string cppRepr() const throw(INTERP_KERNEL::Exception);
1655 DataArrayInt *findAndCorrectBadOriented3DExtrudedCells() throw(INTERP_KERNEL::Exception);
1656 DataArrayInt *findAndCorrectBadOriented3DCells() throw(INTERP_KERNEL::Exception);
1657 ParaMEDMEM::MEDCoupling1GTUMesh *convertIntoSingleGeoTypeMesh() const throw(INTERP_KERNEL::Exception);
1658 DataArrayInt *convertNodalConnectivityToStaticGeoTypeMesh() const throw(INTERP_KERNEL::Exception);
1659 DataArrayInt *buildUnionOf2DMesh() const throw(INTERP_KERNEL::Exception);
1660 DataArrayInt *buildUnionOf3DMesh() const throw(INTERP_KERNEL::Exception);
1661 DataArrayDouble *getBoundingBoxForBBTreeFast() const throw(INTERP_KERNEL::Exception);
1662 DataArrayDouble *getBoundingBoxForBBTree2DQuadratic(double arcDetEps=1e-12) const throw(INTERP_KERNEL::Exception);
1663 DataArrayDouble *getBoundingBoxForBBTree1DQuadratic(double arcDetEps=1e-12) const throw(INTERP_KERNEL::Exception);
1664 int split2DCells(const DataArrayInt *desc, const DataArrayInt *descI, const DataArrayInt *subNodesInSeg, const DataArrayInt *subNodesInSegI, const DataArrayInt *midOpt=0, const DataArrayInt *midOptI=0) throw(INTERP_KERNEL::Exception);
1665 static MEDCouplingUMesh *Build0DMeshFromCoords(DataArrayDouble *da) throw(INTERP_KERNEL::Exception);
1666 static MEDCouplingUMesh *MergeUMeshes(const MEDCouplingUMesh *mesh1, const MEDCouplingUMesh *mesh2) throw(INTERP_KERNEL::Exception);
1667 static MEDCouplingUMesh *MergeUMeshesOnSameCoords(const MEDCouplingUMesh *mesh1, const MEDCouplingUMesh *mesh2) throw(INTERP_KERNEL::Exception);
1668 static DataArrayInt *ComputeSpreadZoneGradually(const DataArrayInt *arrIn, const DataArrayInt *arrIndxIn) throw(INTERP_KERNEL::Exception);
1669 static DataArrayInt *ComputeRangesFromTypeDistribution(const std::vector<int>& code) throw(INTERP_KERNEL::Exception);
1671 MEDCouplingUMesh() throw(INTERP_KERNEL::Exception)
1673 return MEDCouplingUMesh::New();
1676 MEDCouplingUMesh(const char *meshName, int meshDim) throw(INTERP_KERNEL::Exception)
1678 return MEDCouplingUMesh::New(meshName,meshDim);
1681 std::string __str__() const throw(INTERP_KERNEL::Exception)
1683 return self->simpleRepr();
1686 std::string __repr__() const throw(INTERP_KERNEL::Exception)
1688 std::ostringstream oss;
1689 self->reprQuickOverview(oss);
1693 MEDCouplingUMeshCellIterator *__iter__() throw(INTERP_KERNEL::Exception)
1695 return self->cellIterator();
1698 PyObject *getAllGeoTypesSorted() const throw(INTERP_KERNEL::Exception)
1700 std::vector<INTERP_KERNEL::NormalizedCellType> result=self->getAllGeoTypesSorted();
1701 std::vector<INTERP_KERNEL::NormalizedCellType>::const_iterator iL=result.begin();
1702 PyObject *res=PyList_New(result.size());
1703 for(int i=0;iL!=result.end(); i++, iL++)
1704 PyList_SetItem(res,i,PyInt_FromLong(*iL));
1708 void setPartOfMySelf(PyObject *li, const MEDCouplingUMesh& otherOnSameCoordsThanThis) throw(INTERP_KERNEL::Exception)
1712 std::vector<int> multiVal;
1713 std::pair<int, std::pair<int,int> > slic;
1714 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
1715 int nbc=self->getNumberOfCells();
1716 convertObjToPossibleCpp2(li,nbc,sw,singleVal,multiVal,slic,daIntTyypp);
1723 std::ostringstream oss;
1724 oss << "Requesting for cell id " << singleVal << " having only " << nbc << " cells !";
1725 throw INTERP_KERNEL::Exception(oss.str().c_str());
1729 self->setPartOfMySelf(&singleVal,&singleVal+1,otherOnSameCoordsThanThis);
1736 int tmp=nbc+singleVal;
1737 self->setPartOfMySelf(&tmp,&tmp+1,otherOnSameCoordsThanThis);
1742 std::ostringstream oss;
1743 oss << "Requesting for cell id " << singleVal << " having only " << nbc << " cells !";
1744 throw INTERP_KERNEL::Exception(oss.str().c_str());
1750 self->setPartOfMySelf(&multiVal[0],&multiVal[0]+multiVal.size(),otherOnSameCoordsThanThis);
1756 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::setPartOfMySelf : null instance has been given in input !");
1757 daIntTyypp->checkAllocated();
1758 self->setPartOfMySelf(daIntTyypp->begin(),daIntTyypp->end(),otherOnSameCoordsThanThis);
1762 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::setPartOfMySelf : unrecognized type in input ! Possibilities are : int, list or tuple of int DataArrayInt instance !");
1766 void __setitem__(PyObject *li, const MEDCouplingUMesh& otherOnSameCoordsThanThis) throw(INTERP_KERNEL::Exception)
1770 std::vector<int> multiVal;
1771 std::pair<int, std::pair<int,int> > slic;
1772 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
1773 int nbc=self->getNumberOfCells();
1774 convertObjToPossibleCpp2(li,nbc,sw,singleVal,multiVal,slic,daIntTyypp);
1781 std::ostringstream oss;
1782 oss << "Requesting for cell id " << singleVal << " having only " << nbc << " cells !";
1783 throw INTERP_KERNEL::Exception(oss.str().c_str());
1787 self->setPartOfMySelf(&singleVal,&singleVal+1,otherOnSameCoordsThanThis);
1794 int tmp=nbc+singleVal;
1795 self->setPartOfMySelf(&tmp,&tmp+1,otherOnSameCoordsThanThis);
1800 std::ostringstream oss;
1801 oss << "Requesting for cell id " << singleVal << " having only " << nbc << " cells !";
1802 throw INTERP_KERNEL::Exception(oss.str().c_str());
1808 self->setPartOfMySelf(&multiVal[0],&multiVal[0]+multiVal.size(),otherOnSameCoordsThanThis);
1813 self->setPartOfMySelf2(slic.first,slic.second.first,slic.second.second,otherOnSameCoordsThanThis);
1819 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::__setitem__ : null instance has been given in input !");
1820 daIntTyypp->checkAllocated();
1821 self->setPartOfMySelf(daIntTyypp->begin(),daIntTyypp->end(),otherOnSameCoordsThanThis);
1825 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::__setitem__ : unrecognized type in input ! Possibilities are : int, list or tuple of int, slice, DataArrayInt instance !");
1829 void insertNextCell(INTERP_KERNEL::NormalizedCellType type, int size, PyObject *li) throw(INTERP_KERNEL::Exception)
1831 int szArr,sw,iTypppArr;
1832 std::vector<int> stdvecTyyppArr;
1833 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
1836 std::ostringstream oss; oss << "Wrap of MEDCouplingUMesh::insertNextCell : request of connectivity with length " << size << " whereas the length of input is " << szArr << " !";
1837 throw INTERP_KERNEL::Exception(oss.str().c_str());
1839 self->insertNextCell(type,size,tmp);
1842 void insertNextCell(INTERP_KERNEL::NormalizedCellType type, PyObject *li) throw(INTERP_KERNEL::Exception)
1844 int szArr,sw,iTypppArr;
1845 std::vector<int> stdvecTyyppArr;
1846 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
1847 self->insertNextCell(type,szArr,tmp);
1850 DataArrayInt *getNodalConnectivity() throw(INTERP_KERNEL::Exception)
1852 DataArrayInt *ret=self->getNodalConnectivity();
1857 DataArrayInt *getNodalConnectivityIndex() throw(INTERP_KERNEL::Exception)
1859 DataArrayInt *ret=self->getNodalConnectivityIndex();
1865 static PyObject *ComputeSpreadZoneGraduallyFromSeed(PyObject *seed, const DataArrayInt *arrIn, const DataArrayInt *arrIndxIn, int nbOfDepthPeeling=-1) throw(INTERP_KERNEL::Exception)
1867 int szArr,sw,iTypppArr;
1868 std::vector<int> stdvecTyyppArr;
1869 const int *seedPtr=convertObjToPossibleCpp1_Safe(seed,sw,szArr,iTypppArr,stdvecTyyppArr);
1870 int nbOfDepthPeelingPerformed=0;
1871 DataArrayInt *ret0=MEDCouplingUMesh::ComputeSpreadZoneGraduallyFromSeed(seedPtr,seedPtr+szArr,arrIn,arrIndxIn,nbOfDepthPeeling,nbOfDepthPeelingPerformed);
1872 PyObject *res=PyTuple_New(2);
1873 PyTuple_SetItem(res,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1874 PyTuple_SetItem(res,1,PyInt_FromLong(nbOfDepthPeelingPerformed));
1878 static PyObject *FindCommonCellsAlg(int compType, int startCellId, const DataArrayInt *nodal, const DataArrayInt *nodalI, const DataArrayInt *revNodal, const DataArrayInt *revNodalI) throw(INTERP_KERNEL::Exception)
1880 DataArrayInt *v0=0,*v1=0;
1881 MEDCouplingUMesh::FindCommonCellsAlg(compType,startCellId,nodal,nodalI,revNodal,revNodalI,v0,v1);
1882 PyObject *res = PyList_New(2);
1883 PyList_SetItem(res,0,SWIG_NewPointerObj(SWIG_as_voidptr(v0),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1884 PyList_SetItem(res,1,SWIG_NewPointerObj(SWIG_as_voidptr(v1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1888 PyObject *distanceToPoint(PyObject *point) const throw(INTERP_KERNEL::Exception)
1892 DataArrayDoubleTuple *aa;
1893 std::vector<double> bb;
1895 int nbOfCompo=self->getSpaceDimension();
1896 const double *pt=convertObjToPossibleCpp5_Safe(point,sw,val,a,aa,bb,"Python wrap of MEDCouplingUMesh::distanceToPoint",1,nbOfCompo,true);
1899 double ret0=self->distanceToPoint(pt,pt+nbOfCompo,cellId);
1900 PyObject *ret=PyTuple_New(2);
1901 PyTuple_SetItem(ret,0,PyFloat_FromDouble(ret0));
1902 PyTuple_SetItem(ret,1,PyInt_FromLong(cellId));
1906 PyObject *distanceToPoints(const DataArrayDouble *pts) const throw(INTERP_KERNEL::Exception)
1908 DataArrayInt *ret1=0;
1909 DataArrayDouble *ret0=self->distanceToPoints(pts,ret1);
1910 PyObject *ret=PyTuple_New(2);
1911 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__DataArrayDouble, SWIG_POINTER_OWN | 0 ));
1912 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1916 PyObject *tetrahedrize(int policy) throw(INTERP_KERNEL::Exception)
1919 DataArrayInt *ret1(0);
1920 MEDCoupling1SGTUMesh *ret0(self->tetrahedrize(policy,ret1,ret2));
1921 PyObject *ret=PyTuple_New(3);
1922 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__MEDCoupling1SGTUMesh, SWIG_POINTER_OWN | 0 ));
1923 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1924 PyTuple_SetItem(ret,2,PyInt_FromLong(ret2));
1928 PyObject *checkButterflyCells(double eps=1e-12) throw(INTERP_KERNEL::Exception)
1930 std::vector<int> cells;
1931 self->checkButterflyCells(cells,eps);
1932 DataArrayInt *ret=DataArrayInt::New();
1933 ret->alloc((int)cells.size(),1);
1934 std::copy(cells.begin(),cells.end(),ret->getPointer());
1935 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
1938 PyObject *splitByType() const throw(INTERP_KERNEL::Exception)
1940 std::vector<MEDCouplingUMesh *> ms=self->splitByType();
1942 PyObject *ret = PyList_New(sz);
1943 for(int i=0;i<sz;i++)
1944 PyList_SetItem(ret,i,SWIG_NewPointerObj(SWIG_as_voidptr(ms[i]),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, SWIG_POINTER_OWN | 0 ));
1948 PyObject *partitionBySpreadZone() const throw(INTERP_KERNEL::Exception)
1950 std::vector<DataArrayInt *> retCpp=self->partitionBySpreadZone();
1951 int sz=retCpp.size();
1952 PyObject *ret=PyList_New(sz);
1953 for(int i=0;i<sz;i++)
1954 PyList_SetItem(ret,i,SWIG_NewPointerObj(SWIG_as_voidptr(retCpp[i]),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1958 PyObject *keepSpecifiedCells(INTERP_KERNEL::NormalizedCellType type, PyObject *ids) const throw(INTERP_KERNEL::Exception)
1961 INTERP_KERNEL::AutoPtr<int> tmp=convertPyToNewIntArr2(ids,&size);
1962 MEDCouplingUMesh *ret=self->keepSpecifiedCells(type,tmp,tmp+size);
1963 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, SWIG_POINTER_OWN | 0 );
1966 bool checkConsecutiveCellTypesAndOrder(PyObject *li) const throw(INTERP_KERNEL::Exception)
1969 INTERP_KERNEL::AutoPtr<INTERP_KERNEL::NormalizedCellType> order=(INTERP_KERNEL::NormalizedCellType *)convertPyToNewIntArr2(li,&sz);
1970 bool ret=self->checkConsecutiveCellTypesAndOrder(order,order+sz);
1974 DataArrayInt *getRenumArrForConsecutiveCellTypesSpec(PyObject *li) const throw(INTERP_KERNEL::Exception)
1977 INTERP_KERNEL::AutoPtr<INTERP_KERNEL::NormalizedCellType> order=(INTERP_KERNEL::NormalizedCellType *)convertPyToNewIntArr2(li,&sz);
1978 DataArrayInt *ret=self->getRenumArrForConsecutiveCellTypesSpec(order,(INTERP_KERNEL::NormalizedCellType *)order+sz);
1982 PyObject *findNodesToDuplicate(const MEDCouplingUMesh& otherDimM1OnSameCoords) const throw(INTERP_KERNEL::Exception)
1984 DataArrayInt *tmp0=0,*tmp1=0,*tmp2=0;
1985 self->findNodesToDuplicate(otherDimM1OnSameCoords,tmp0,tmp1,tmp2);
1986 PyObject *ret=PyTuple_New(3);
1987 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(tmp0),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1988 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(tmp1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1989 PyTuple_SetItem(ret,2,SWIG_NewPointerObj(SWIG_as_voidptr(tmp2),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1993 PyObject *findCellIdsLyingOn(const MEDCouplingUMesh& otherDimM1OnSameCoords) const throw(INTERP_KERNEL::Exception)
1995 DataArrayInt *tmp0=0,*tmp1=0;
1996 self->findCellIdsLyingOn(otherDimM1OnSameCoords,tmp0,tmp1);
1997 PyObject *ret=PyTuple_New(2);
1998 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(tmp0),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
1999 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(tmp1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2003 void duplicateNodes(PyObject *li) throw(INTERP_KERNEL::Exception)
2007 std::vector<int> multiVal;
2008 std::pair<int, std::pair<int,int> > slic;
2009 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
2010 convertObjToPossibleCpp2(li,self->getNumberOfNodes(),sw,singleVal,multiVal,slic,daIntTyypp);
2014 return self->duplicateNodes(&singleVal,&singleVal+1);
2016 return self->duplicateNodes(&multiVal[0],&multiVal[0]+multiVal.size());
2018 return self->duplicateNodes(daIntTyypp->begin(),daIntTyypp->end());
2020 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::duplicateNodes : unrecognized type entered, expected list of int, tuple of int or DataArrayInt !");
2024 void duplicateNodesInConn(PyObject *li, int offset) throw(INTERP_KERNEL::Exception)
2028 std::vector<int> multiVal;
2029 std::pair<int, std::pair<int,int> > slic;
2030 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
2031 convertObjToPossibleCpp2(li,self->getNumberOfNodes(),sw,singleVal,multiVal,slic,daIntTyypp);
2035 return self->duplicateNodesInConn(&singleVal,&singleVal+1,offset);
2037 return self->duplicateNodesInConn(&multiVal[0],&multiVal[0]+multiVal.size(),offset);
2039 return self->duplicateNodesInConn(daIntTyypp->begin(),daIntTyypp->end(),offset);
2041 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::duplicateNodesInConn : unrecognized type entered, expected list of int, tuple of int or DataArrayInt !");
2045 PyObject *getLevArrPerCellTypes(PyObject *li) const throw(INTERP_KERNEL::Exception)
2048 INTERP_KERNEL::AutoPtr<INTERP_KERNEL::NormalizedCellType> order=(INTERP_KERNEL::NormalizedCellType *)convertPyToNewIntArr2(li,&sz);
2049 DataArrayInt *tmp0,*tmp1=0;
2050 tmp0=self->getLevArrPerCellTypes(order,(INTERP_KERNEL::NormalizedCellType *)order+sz,tmp1);
2051 PyObject *ret=PyTuple_New(2);
2052 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(tmp0),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2053 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(tmp1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2057 PyObject *convertNodalConnectivityToDynamicGeoTypeMesh() const throw(INTERP_KERNEL::Exception)
2059 DataArrayInt *ret0=0,*ret1=0;
2060 self->convertNodalConnectivityToDynamicGeoTypeMesh(ret0,ret1);
2061 PyObject *ret=PyTuple_New(2);
2062 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2063 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2067 static PyObject *AggregateSortedByTypeMeshesOnSameCoords(PyObject *ms) throw(INTERP_KERNEL::Exception)
2069 std::vector<const ParaMEDMEM::MEDCouplingUMesh *> meshes;
2070 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCouplingUMesh *>(ms,SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh,"MEDCouplingUMesh",meshes);
2071 DataArrayInt *ret1=0,*ret2=0;
2072 MEDCouplingUMesh *ret0=MEDCouplingUMesh::AggregateSortedByTypeMeshesOnSameCoords(meshes,ret1,ret2);
2073 PyObject *ret=PyTuple_New(3);
2074 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, SWIG_POINTER_OWN | 0 ));
2075 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2076 PyTuple_SetItem(ret,2,SWIG_NewPointerObj(SWIG_as_voidptr(ret2),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2080 static PyObject *MergeUMeshesOnSameCoords(PyObject *ms) throw(INTERP_KERNEL::Exception)
2082 std::vector<const ParaMEDMEM::MEDCouplingUMesh *> meshes;
2083 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCouplingUMesh *>(ms,SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh,"MEDCouplingUMesh",meshes);
2084 MEDCouplingUMesh *ret=MEDCouplingUMesh::MergeUMeshesOnSameCoords(meshes);
2085 return convertMesh(ret, SWIG_POINTER_OWN | 0 );
2088 static PyObject *FuseUMeshesOnSameCoords(PyObject *ms, int compType) throw(INTERP_KERNEL::Exception)
2091 std::vector<const MEDCouplingUMesh *> meshes;
2092 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCouplingUMesh *>(ms,SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh,"MEDCouplingUMesh",meshes);
2093 std::vector<DataArrayInt *> corr;
2094 MEDCouplingUMesh *um=MEDCouplingUMesh::FuseUMeshesOnSameCoords(meshes,compType,corr);
2096 PyObject *ret1=PyList_New(sz);
2097 for(int i=0;i<sz;i++)
2098 PyList_SetItem(ret1,i,SWIG_NewPointerObj(SWIG_as_voidptr(corr[i]),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2099 PyObject *ret=PyList_New(2);
2100 PyList_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(um),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, SWIG_POINTER_OWN | 0 ));
2101 PyList_SetItem(ret,1,ret1);
2105 static void PutUMeshesOnSameAggregatedCoords(PyObject *ms) throw(INTERP_KERNEL::Exception)
2107 std::vector<MEDCouplingUMesh *> meshes;
2108 convertFromPyObjVectorOfObj<ParaMEDMEM::MEDCouplingUMesh *>(ms,SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh,"MEDCouplingUMesh",meshes);
2109 MEDCouplingUMesh::PutUMeshesOnSameAggregatedCoords(meshes);
2112 static void MergeNodesOnUMeshesSharingSameCoords(PyObject *ms, double eps) throw(INTERP_KERNEL::Exception)
2114 std::vector<MEDCouplingUMesh *> meshes;
2115 convertFromPyObjVectorOfObj<ParaMEDMEM::MEDCouplingUMesh *>(ms,SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh,"MEDCouplingUMesh",meshes);
2116 MEDCouplingUMesh::MergeNodesOnUMeshesSharingSameCoords(meshes,eps);
2119 static bool RemoveIdsFromIndexedArrays(PyObject *li, DataArrayInt *arr, DataArrayInt *arrIndx, int offsetForRemoval=0) throw(INTERP_KERNEL::Exception)
2123 std::vector<int> multiVal;
2124 std::pair<int, std::pair<int,int> > slic;
2125 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
2127 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::RemoveIdsFromIndexedArrays : null pointer as arrIndex !");
2128 convertObjToPossibleCpp2(li,arrIndx->getNumberOfTuples()-1,sw,singleVal,multiVal,slic,daIntTyypp);
2132 return MEDCouplingUMesh::RemoveIdsFromIndexedArrays(&singleVal,&singleVal+1,arr,arrIndx,offsetForRemoval);
2134 return MEDCouplingUMesh::RemoveIdsFromIndexedArrays(&multiVal[0],&multiVal[0]+multiVal.size(),arr,arrIndx,offsetForRemoval);
2136 return MEDCouplingUMesh::RemoveIdsFromIndexedArrays(daIntTyypp->begin(),daIntTyypp->end(),arr,arrIndx,offsetForRemoval);
2138 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::RemoveIdsFromIndexedArrays : unrecognized type entered, expected list of int, tuple of int or DataArrayInt !");
2142 static PyObject *ExtractFromIndexedArrays(PyObject *li, const DataArrayInt *arrIn, const DataArrayInt *arrIndxIn) throw(INTERP_KERNEL::Exception)
2144 DataArrayInt *arrOut=0,*arrIndexOut=0;
2147 std::vector<int> multiVal;
2148 std::pair<int, std::pair<int,int> > slic;
2149 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
2151 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::ExtractFromIndexedArrays : null pointer as arrIndxIn !");
2152 convertObjToPossibleCpp2(li,arrIndxIn->getNumberOfTuples()-1,sw,singleVal,multiVal,slic,daIntTyypp);
2157 MEDCouplingUMesh::ExtractFromIndexedArrays(&singleVal,&singleVal+1,arrIn,arrIndxIn,arrOut,arrIndexOut);
2162 MEDCouplingUMesh::ExtractFromIndexedArrays(&multiVal[0],&multiVal[0]+multiVal.size(),arrIn,arrIndxIn,arrOut,arrIndexOut);
2167 MEDCouplingUMesh::ExtractFromIndexedArrays(daIntTyypp->begin(),daIntTyypp->end(),arrIn,arrIndxIn,arrOut,arrIndexOut);
2171 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::ExtractFromIndexedArrays : unrecognized type entered, expected list of int, tuple of int or DataArrayInt !");
2173 PyObject *ret=PyTuple_New(2);
2174 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(arrOut),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2175 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(arrIndexOut),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2179 static PyObject *ExtractFromIndexedArrays2(int strt, int stp, int step, const DataArrayInt *arrIn, const DataArrayInt *arrIndxIn) throw(INTERP_KERNEL::Exception)
2181 DataArrayInt *arrOut=0,*arrIndexOut=0;
2182 MEDCouplingUMesh::ExtractFromIndexedArrays2(strt,stp,step,arrIn,arrIndxIn,arrOut,arrIndexOut);
2183 PyObject *ret=PyTuple_New(2);
2184 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(arrOut),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2185 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(arrIndexOut),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2189 static PyObject *ExtractFromIndexedArrays2(PyObject *slic, const DataArrayInt *arrIn, const DataArrayInt *arrIndxIn) throw(INTERP_KERNEL::Exception)
2191 if(!PySlice_Check(slic))
2192 throw INTERP_KERNEL::Exception("ExtractFromIndexedArrays2 (wrap) : the first param is not a pyslice !");
2193 Py_ssize_t strt=2,stp=2,step=2;
2194 PySliceObject *sliC=reinterpret_cast<PySliceObject *>(slic);
2196 throw INTERP_KERNEL::Exception("ExtractFromIndexedArrays2 (wrap) : last array is null !");
2197 arrIndxIn->checkAllocated();
2198 if(arrIndxIn->getNumberOfComponents()!=1)
2199 throw INTERP_KERNEL::Exception("ExtractFromIndexedArrays2 (wrap) : number of components of last argument must be equal to one !");
2200 GetIndicesOfSlice(sliC,arrIndxIn->getNumberOfTuples(),&strt,&stp,&step,"ExtractFromIndexedArrays2 (wrap) : Invalid slice regarding nb of elements !");
2201 DataArrayInt *arrOut=0,*arrIndexOut=0;
2202 MEDCouplingUMesh::ExtractFromIndexedArrays2(strt,stp,step,arrIn,arrIndxIn,arrOut,arrIndexOut);
2203 PyObject *ret=PyTuple_New(2);
2204 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(arrOut),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2205 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(arrIndexOut),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2209 static PyObject *SetPartOfIndexedArrays(PyObject *li,
2210 const DataArrayInt *arrIn, const DataArrayInt *arrIndxIn,
2211 const DataArrayInt *srcArr, const DataArrayInt *srcArrIndex) throw(INTERP_KERNEL::Exception)
2213 DataArrayInt *arrOut=0,*arrIndexOut=0;
2216 std::vector<int> multiVal;
2217 std::pair<int, std::pair<int,int> > slic;
2218 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
2220 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::SetPartOfIndexedArrays : null pointer as arrIndex !");
2221 convertObjToPossibleCpp2(li,arrIndxIn->getNumberOfTuples()-1,sw,singleVal,multiVal,slic,daIntTyypp);
2226 MEDCouplingUMesh::SetPartOfIndexedArrays(&singleVal,&singleVal+1,arrIn,arrIndxIn,srcArr,srcArrIndex,arrOut,arrIndexOut);
2231 MEDCouplingUMesh::SetPartOfIndexedArrays(&multiVal[0],&multiVal[0]+multiVal.size(),arrIn,arrIndxIn,srcArr,srcArrIndex,arrOut,arrIndexOut);
2236 MEDCouplingUMesh::SetPartOfIndexedArrays(daIntTyypp->begin(),daIntTyypp->end(),arrIn,arrIndxIn,srcArr,srcArrIndex,arrOut,arrIndexOut);
2240 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::SetPartOfIndexedArrays : unrecognized type entered, expected list of int, tuple of int or DataArrayInt !");
2242 PyObject *ret=PyTuple_New(2);
2243 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(arrOut),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2244 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(arrIndexOut),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2248 static void SetPartOfIndexedArraysSameIdx(PyObject *li, DataArrayInt *arrIn, const DataArrayInt *arrIndxIn,
2249 const DataArrayInt *srcArr, const DataArrayInt *srcArrIndex) throw(INTERP_KERNEL::Exception)
2253 std::vector<int> multiVal;
2254 std::pair<int, std::pair<int,int> > slic;
2255 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
2257 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::SetPartOfIndexedArraysSameIdx : null pointer as arrIndex !");
2258 convertObjToPossibleCpp2(li,arrIndxIn->getNumberOfTuples()-1,sw,singleVal,multiVal,slic,daIntTyypp);
2263 MEDCouplingUMesh::SetPartOfIndexedArraysSameIdx(&singleVal,&singleVal+1,arrIn,arrIndxIn,srcArr,srcArrIndex);
2268 MEDCouplingUMesh::SetPartOfIndexedArraysSameIdx(&multiVal[0],&multiVal[0]+multiVal.size(),arrIn,arrIndxIn,srcArr,srcArrIndex);
2273 MEDCouplingUMesh::SetPartOfIndexedArraysSameIdx(daIntTyypp->begin(),daIntTyypp->end(),arrIn,arrIndxIn,srcArr,srcArrIndex);
2277 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::SetPartOfIndexedArraysSameIdx : unrecognized type entered, expected list of int, tuple of int or DataArrayInt !");
2281 PyObject *are2DCellsNotCorrectlyOriented(PyObject *vec, bool polyOnly) const throw(INTERP_KERNEL::Exception)
2285 DataArrayDoubleTuple *aa;
2286 std::vector<double> bb;
2288 int spaceDim=self->getSpaceDimension();
2289 const char msg[]="Python wrap of MEDCouplingUMesh::are2DCellsNotCorrectlyOriented : ";
2290 const double *v=convertObjToPossibleCpp5_Safe(vec,sw,val,a,aa,bb,msg,1,spaceDim,true);
2292 std::vector<int> cells;
2293 self->are2DCellsNotCorrectlyOriented(v,polyOnly,cells);
2294 DataArrayInt *ret=DataArrayInt::New();
2295 ret->alloc((int)cells.size(),1);
2296 std::copy(cells.begin(),cells.end(),ret->getPointer());
2297 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
2300 void orientCorrectly2DCells(PyObject *vec, bool polyOnly) throw(INTERP_KERNEL::Exception)
2304 DataArrayDoubleTuple *aa;
2305 std::vector<double> bb;
2307 int spaceDim=self->getSpaceDimension();
2308 const char msg[]="Python wrap of MEDCouplingUMesh::orientCorrectly2DCells : ";
2309 const double *v=convertObjToPossibleCpp5_Safe(vec,sw,val,a,aa,bb,msg,1,spaceDim,true);
2310 self->orientCorrectly2DCells(v,polyOnly);
2313 PyObject *arePolyhedronsNotCorrectlyOriented() const throw(INTERP_KERNEL::Exception)
2315 std::vector<int> cells;
2316 self->arePolyhedronsNotCorrectlyOriented(cells);
2317 DataArrayInt *ret=DataArrayInt::New();
2318 ret->alloc((int)cells.size(),1);
2319 std::copy(cells.begin(),cells.end(),ret->getPointer());
2320 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
2323 PyObject *getFastAveragePlaneOfThis() const throw(INTERP_KERNEL::Exception)
2327 self->getFastAveragePlaneOfThis(vec,pos);
2329 std::copy(vec,vec+3,vals);
2330 std::copy(pos,pos+3,vals+3);
2331 return convertDblArrToPyListOfTuple(vals,3,2);
2334 static MEDCouplingUMesh *MergeUMeshes(PyObject *li) throw(INTERP_KERNEL::Exception)
2336 std::vector<const ParaMEDMEM::MEDCouplingUMesh *> tmp;
2337 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCouplingUMesh *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh,"MEDCouplingUMesh",tmp);
2338 return MEDCouplingUMesh::MergeUMeshes(tmp);
2341 PyObject *areCellsIncludedIn(const MEDCouplingUMesh *other, int compType) const throw(INTERP_KERNEL::Exception)
2344 bool ret0=self->areCellsIncludedIn(other,compType,ret1);
2345 PyObject *ret=PyTuple_New(2);
2346 PyObject *ret0Py=ret0?Py_True:Py_False;
2348 PyTuple_SetItem(ret,0,ret0Py);
2349 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2353 PyObject *areCellsIncludedIn2(const MEDCouplingUMesh *other) const throw(INTERP_KERNEL::Exception)
2356 bool ret0=self->areCellsIncludedIn2(other,ret1);
2357 PyObject *ret=PyTuple_New(2);
2358 PyObject *ret0Py=ret0?Py_True:Py_False;
2360 PyTuple_SetItem(ret,0,ret0Py);
2361 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2365 PyObject *explode3DMeshTo1D() const throw(INTERP_KERNEL::Exception)
2367 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d0=DataArrayInt::New();
2368 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d1=DataArrayInt::New();
2369 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d2=DataArrayInt::New();
2370 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d3=DataArrayInt::New();
2371 MEDCouplingUMesh *m=self->explode3DMeshTo1D(d0,d1,d2,d3);
2372 PyObject *ret=PyTuple_New(5);
2373 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(m),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, SWIG_POINTER_OWN | 0 ));
2374 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(d0.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2375 PyTuple_SetItem(ret,2,SWIG_NewPointerObj(SWIG_as_voidptr(d1.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2376 PyTuple_SetItem(ret,3,SWIG_NewPointerObj(SWIG_as_voidptr(d2.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2377 PyTuple_SetItem(ret,4,SWIG_NewPointerObj(SWIG_as_voidptr(d3.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2381 PyObject *buildDescendingConnectivity() const throw(INTERP_KERNEL::Exception)
2383 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d0=DataArrayInt::New();
2384 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d1=DataArrayInt::New();
2385 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d2=DataArrayInt::New();
2386 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d3=DataArrayInt::New();
2387 MEDCouplingUMesh *m=self->buildDescendingConnectivity(d0,d1,d2,d3);
2388 PyObject *ret=PyTuple_New(5);
2389 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(m),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, SWIG_POINTER_OWN | 0 ));
2390 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(d0.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2391 PyTuple_SetItem(ret,2,SWIG_NewPointerObj(SWIG_as_voidptr(d1.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2392 PyTuple_SetItem(ret,3,SWIG_NewPointerObj(SWIG_as_voidptr(d2.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2393 PyTuple_SetItem(ret,4,SWIG_NewPointerObj(SWIG_as_voidptr(d3.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2397 PyObject *buildDescendingConnectivity2() const throw(INTERP_KERNEL::Exception)
2399 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d0=DataArrayInt::New();
2400 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d1=DataArrayInt::New();
2401 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d2=DataArrayInt::New();
2402 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d3=DataArrayInt::New();
2403 MEDCouplingUMesh *m=self->buildDescendingConnectivity2(d0,d1,d2,d3);
2404 PyObject *ret=PyTuple_New(5);
2405 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(m),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, SWIG_POINTER_OWN | 0 ));
2406 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(d0.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2407 PyTuple_SetItem(ret,2,SWIG_NewPointerObj(SWIG_as_voidptr(d1.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2408 PyTuple_SetItem(ret,3,SWIG_NewPointerObj(SWIG_as_voidptr(d2.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2409 PyTuple_SetItem(ret,4,SWIG_NewPointerObj(SWIG_as_voidptr(d3.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2413 PyObject *computeNeighborsOfCells() const throw(INTERP_KERNEL::Exception)
2415 DataArrayInt *neighbors=0,*neighborsIdx=0;
2416 self->computeNeighborsOfCells(neighbors,neighborsIdx);
2417 PyObject *ret=PyTuple_New(2);
2418 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(neighbors),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2419 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(neighborsIdx),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2423 PyObject *computeNeighborsOfNodes() const throw(INTERP_KERNEL::Exception)
2425 DataArrayInt *neighbors=0,*neighborsIdx=0;
2426 self->computeNeighborsOfNodes(neighbors,neighborsIdx);
2427 PyObject *ret=PyTuple_New(2);
2428 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(neighbors),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2429 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(neighborsIdx),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2433 static PyObject *ComputeNeighborsOfCellsAdv(const DataArrayInt *desc, const DataArrayInt *descI, const DataArrayInt *revDesc, const DataArrayInt *revDescI) throw(INTERP_KERNEL::Exception)
2435 DataArrayInt *neighbors=0,*neighborsIdx=0;
2436 MEDCouplingUMesh::ComputeNeighborsOfCellsAdv(desc,descI,revDesc,revDescI,neighbors,neighborsIdx);
2437 PyObject *ret=PyTuple_New(2);
2438 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(neighbors),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2439 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(neighborsIdx),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2443 PyObject *emulateMEDMEMBDC(const MEDCouplingUMesh *nM1LevMesh)
2445 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d0=DataArrayInt::New();
2446 MEDCouplingAutoRefCountObjectPtr<DataArrayInt> d1=DataArrayInt::New();
2447 DataArrayInt *d2,*d3,*d4,*dd5;
2448 MEDCouplingUMesh *mOut=self->emulateMEDMEMBDC(nM1LevMesh,d0,d1,d2,d3,d4,dd5);
2449 PyObject *ret=PyTuple_New(7);
2450 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(mOut),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, SWIG_POINTER_OWN | 0 ));
2451 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(d0.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2452 PyTuple_SetItem(ret,2,SWIG_NewPointerObj(SWIG_as_voidptr(d1.retn()),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2453 PyTuple_SetItem(ret,3,SWIG_NewPointerObj(SWIG_as_voidptr(d2),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2454 PyTuple_SetItem(ret,4,SWIG_NewPointerObj(SWIG_as_voidptr(d3),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2455 PyTuple_SetItem(ret,5,SWIG_NewPointerObj(SWIG_as_voidptr(d4),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2456 PyTuple_SetItem(ret,6,SWIG_NewPointerObj(SWIG_as_voidptr(dd5),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2460 DataArrayDouble *getPartBarycenterAndOwner(DataArrayInt *da) const throw(INTERP_KERNEL::Exception)
2463 throw INTERP_KERNEL::Exception("Not null DataArrayInt instance expected !");
2464 da->checkAllocated();
2465 return self->getPartBarycenterAndOwner(da->getConstPointer(),da->getConstPointer()+da->getNbOfElems());
2468 DataArrayDouble *getPartMeasureField(bool isAbs, DataArrayInt *da) const throw(INTERP_KERNEL::Exception)
2471 throw INTERP_KERNEL::Exception("Not null DataArrayInt instance expected !");
2472 da->checkAllocated();
2473 return self->getPartMeasureField(isAbs,da->getConstPointer(),da->getConstPointer()+da->getNbOfElems());
2476 MEDCouplingFieldDouble *buildPartOrthogonalField(DataArrayInt *da) const throw(INTERP_KERNEL::Exception)
2479 throw INTERP_KERNEL::Exception("Not null DataArrayInt instance expected !");
2480 da->checkAllocated();
2481 return self->buildPartOrthogonalField(da->getConstPointer(),da->getConstPointer()+da->getNbOfElems());
2484 PyObject *getTypesOfPart(DataArrayInt *da) const throw(INTERP_KERNEL::Exception)
2487 throw INTERP_KERNEL::Exception("Not null DataArrayInt instance expected !");
2488 da->checkAllocated();
2489 std::set<INTERP_KERNEL::NormalizedCellType> result=self->getTypesOfPart(da->getConstPointer(),da->getConstPointer()+da->getNbOfElems());
2490 std::set<INTERP_KERNEL::NormalizedCellType>::const_iterator iL=result.begin();
2491 PyObject *res = PyList_New(result.size());
2492 for (int i=0;iL!=result.end(); i++, iL++)
2493 PyList_SetItem(res,i,PyInt_FromLong(*iL));
2497 DataArrayInt *keepCellIdsByType(INTERP_KERNEL::NormalizedCellType type, DataArrayInt *da) const throw(INTERP_KERNEL::Exception)
2500 throw INTERP_KERNEL::Exception("Not null DataArrayInt instance expected !");
2501 da->checkAllocated();
2502 DataArrayInt *ret=self->keepCellIdsByType(type,da->getConstPointer(),da->getConstPointer()+da->getNbOfElems());
2503 ret->setName(da->getName().c_str());
2507 static PyObject *Intersect2DMeshes(const MEDCouplingUMesh *m1, const MEDCouplingUMesh *m2, double eps) throw(INTERP_KERNEL::Exception)
2509 DataArrayInt *cellNb1=0,*cellNb2=0;
2510 MEDCouplingUMesh *mret=MEDCouplingUMesh::Intersect2DMeshes(m1,m2,eps,cellNb1,cellNb2);
2511 PyObject *ret=PyTuple_New(3);
2512 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(mret),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, SWIG_POINTER_OWN | 0 ));
2513 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(cellNb1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2514 PyTuple_SetItem(ret,2,SWIG_NewPointerObj(SWIG_as_voidptr(cellNb2),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2518 PyObject *buildSlice3D(PyObject *origin, PyObject *vec, double eps) const throw(INTERP_KERNEL::Exception)
2520 int spaceDim=self->getSpaceDimension();
2522 throw INTERP_KERNEL::Exception("Python wrap of MEDCouplingUMesh::buildSlice3D : works only for spaceDim 3 !");
2524 DataArrayDouble *a,*a2;
2525 DataArrayDoubleTuple *aa,*aa2;
2526 std::vector<double> bb,bb2;
2528 const char msg[]="Python wrap of MEDCouplingUMesh::buildSlice3D : 1st paramater for origin.";
2529 const char msg2[]="Python wrap of MEDCouplingUMesh::buildSlice3D : 2nd paramater for vector.";
2530 const double *orig=convertObjToPossibleCpp5_Safe(origin,sw,val,a,aa,bb,msg,1,spaceDim,true);
2531 const double *vect=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
2533 DataArrayInt *cellIds=0;
2534 MEDCouplingUMesh *ret0=self->buildSlice3D(orig,vect,eps,cellIds);
2535 PyObject *ret=PyTuple_New(2);
2536 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, SWIG_POINTER_OWN | 0 ));
2537 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(cellIds),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2541 PyObject *buildSlice3DSurf(PyObject *origin, PyObject *vec, double eps) const throw(INTERP_KERNEL::Exception)
2543 int spaceDim=self->getSpaceDimension();
2545 throw INTERP_KERNEL::Exception("Python wrap of MEDCouplingUMesh::buildSlice3DSurf : works only for spaceDim 3 !");
2547 DataArrayDouble *a,*a2;
2548 DataArrayDoubleTuple *aa,*aa2;
2549 std::vector<double> bb,bb2;
2551 const char msg[]="Python wrap of MEDCouplingUMesh::buildSlice3DSurf : 1st paramater for origin.";
2552 const char msg2[]="Python wrap of MEDCouplingUMesh::buildSlice3DSurf : 2nd paramater for vector.";
2553 const double *orig=convertObjToPossibleCpp5_Safe(origin,sw,val,a,aa,bb,msg,1,spaceDim,true);
2554 const double *vect=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
2556 DataArrayInt *cellIds=0;
2557 MEDCouplingUMesh *ret0=self->buildSlice3DSurf(orig,vect,eps,cellIds);
2558 PyObject *ret=PyTuple_New(2);
2559 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, SWIG_POINTER_OWN | 0 ));
2560 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(cellIds),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2564 DataArrayInt *getCellIdsCrossingPlane(PyObject *origin, PyObject *vec, double eps) const throw(INTERP_KERNEL::Exception)
2566 int spaceDim=self->getSpaceDimension();
2568 throw INTERP_KERNEL::Exception("Python wrap of MEDCouplingUMesh::getCellIdsCrossingPlane : works only for spaceDim 3 !");
2570 DataArrayDouble *a,*a2;
2571 DataArrayDoubleTuple *aa,*aa2;
2572 std::vector<double> bb,bb2;
2574 const char msg[]="Python wrap of MEDCouplingUMesh::getCellIdsCrossingPlane : 1st paramater for origin.";
2575 const char msg2[]="Python wrap of MEDCouplingUMesh::getCellIdsCrossingPlane : 2nd paramater for vector.";
2576 const double *orig=convertObjToPossibleCpp5_Safe(origin,sw,val,a,aa,bb,msg,1,spaceDim,true);
2577 const double *vect=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
2578 return self->getCellIdsCrossingPlane(orig,vect,eps);
2581 void convertToPolyTypes(PyObject *li) throw(INTERP_KERNEL::Exception)
2585 std::vector<int> pos2;
2586 DataArrayInt *pos3=0;
2587 DataArrayIntTuple *pos4=0;
2588 convertObjToPossibleCpp1(li,sw,pos1,pos2,pos3,pos4);
2593 self->convertToPolyTypes(&pos1,&pos1+1);
2600 self->convertToPolyTypes(&pos2[0],&pos2[0]+pos2.size());
2605 self->convertToPolyTypes(pos3->begin(),pos3->end());
2609 throw INTERP_KERNEL::Exception("MEDCouplingUMesh::convertToPolyTypes : unexpected input array type recognized !");
2613 void convertAllToPoly();
2614 void convertExtrudedPolyhedra() throw(INTERP_KERNEL::Exception);
2615 bool unPolyze() throw(INTERP_KERNEL::Exception);
2616 void simplifyPolyhedra(double eps) throw(INTERP_KERNEL::Exception);
2617 MEDCouplingUMesh *buildSpreadZonesWithPoly() const throw(INTERP_KERNEL::Exception);
2618 MEDCouplingUMesh *buildExtrudedMesh(const MEDCouplingUMesh *mesh1D, int policy) throw(INTERP_KERNEL::Exception);
2621 //== MEDCouplingUMesh End
2623 //== MEDCouplingExtrudedMesh
2625 class MEDCouplingExtrudedMesh : public ParaMEDMEM::MEDCouplingMesh
2628 static MEDCouplingExtrudedMesh *New(const MEDCouplingUMesh *mesh3D, const MEDCouplingUMesh *mesh2D, int cell2DId) throw(INTERP_KERNEL::Exception);
2629 MEDCouplingUMesh *build3DUnstructuredMesh() const throw(INTERP_KERNEL::Exception);
2631 MEDCouplingExtrudedMesh(const MEDCouplingUMesh *mesh3D, const MEDCouplingUMesh *mesh2D, int cell2DId) throw(INTERP_KERNEL::Exception)
2633 return MEDCouplingExtrudedMesh::New(mesh3D,mesh2D,cell2DId);
2636 std::string __str__() const throw(INTERP_KERNEL::Exception)
2638 return self->simpleRepr();
2641 std::string __repr__() const throw(INTERP_KERNEL::Exception)
2643 std::ostringstream oss;
2644 self->reprQuickOverview(oss);
2648 PyObject *getMesh2D() const throw(INTERP_KERNEL::Exception)
2650 MEDCouplingUMesh *ret=self->getMesh2D();
2653 return convertMesh(ret, SWIG_POINTER_OWN | 0 );
2655 PyObject *getMesh1D() const throw(INTERP_KERNEL::Exception)
2657 MEDCouplingUMesh *ret=self->getMesh1D();
2660 return convertMesh(ret, SWIG_POINTER_OWN | 0 );
2662 PyObject *getMesh3DIds() const throw(INTERP_KERNEL::Exception)
2664 DataArrayInt *ret=self->getMesh3DIds();
2667 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
2672 //== MEDCouplingExtrudedMesh End
2674 class MEDCoupling1GTUMesh : public ParaMEDMEM::MEDCouplingPointSet
2677 static MEDCoupling1GTUMesh *New(const std::string& name, INTERP_KERNEL::NormalizedCellType type) throw(INTERP_KERNEL::Exception);
2678 static MEDCoupling1GTUMesh *New(const MEDCouplingUMesh *m) throw(INTERP_KERNEL::Exception);
2679 INTERP_KERNEL::NormalizedCellType getCellModelEnum() const throw(INTERP_KERNEL::Exception);
2680 int getNodalConnectivityLength() const throw(INTERP_KERNEL::Exception);
2681 virtual void allocateCells(int nbOfCells=0) throw(INTERP_KERNEL::Exception);
2682 virtual void checkCoherencyOfConnectivity() const throw(INTERP_KERNEL::Exception);
2685 virtual void insertNextCell(PyObject *li) throw(INTERP_KERNEL::Exception)
2687 int szArr,sw,iTypppArr;
2688 std::vector<int> stdvecTyyppArr;
2689 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
2690 self->insertNextCell(tmp,tmp+szArr);
2693 virtual DataArrayInt *getNodalConnectivity() const throw(INTERP_KERNEL::Exception)
2695 DataArrayInt *ret=self->getNodalConnectivity();
2696 if(ret) ret->incrRef();
2700 static MEDCouplingUMesh *AggregateOnSameCoordsToUMesh(PyObject *li) throw(INTERP_KERNEL::Exception)
2702 std::vector< const MEDCoupling1GTUMesh *> parts;
2703 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCoupling1GTUMesh *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCoupling1GTUMesh,"MEDCoupling1GTUMesh",parts);
2704 return MEDCoupling1GTUMesh::AggregateOnSameCoordsToUMesh(parts);
2709 //== MEDCoupling1SGTUMesh
2711 class MEDCoupling1SGTUMesh : public ParaMEDMEM::MEDCoupling1GTUMesh
2714 static MEDCoupling1SGTUMesh *New(const std::string& name, INTERP_KERNEL::NormalizedCellType type) throw(INTERP_KERNEL::Exception);
2715 static MEDCoupling1SGTUMesh *New(const MEDCouplingUMesh *m) throw(INTERP_KERNEL::Exception);
2716 void setNodalConnectivity(DataArrayInt *nodalConn) throw(INTERP_KERNEL::Exception);
2717 int getNumberOfNodesPerCell() const throw(INTERP_KERNEL::Exception);
2718 static MEDCoupling1SGTUMesh *Merge1SGTUMeshes(const MEDCoupling1SGTUMesh *mesh1, const MEDCoupling1SGTUMesh *mesh2) throw(INTERP_KERNEL::Exception);
2719 MEDCoupling1SGTUMesh *buildSetInstanceFromThis(int spaceDim) const throw(INTERP_KERNEL::Exception);
2720 MEDCoupling1GTUMesh *computeDualMesh() const throw(INTERP_KERNEL::Exception);
2721 MEDCoupling1SGTUMesh *explodeEachHexa8To6Quad4() const throw(INTERP_KERNEL::Exception);
2722 DataArrayInt *sortHexa8EachOther() throw(INTERP_KERNEL::Exception);
2725 MEDCoupling1SGTUMesh(const std::string& name, INTERP_KERNEL::NormalizedCellType type) throw(INTERP_KERNEL::Exception)
2727 return MEDCoupling1SGTUMesh::New(name,type);
2730 MEDCoupling1SGTUMesh(const MEDCouplingUMesh *m) throw(INTERP_KERNEL::Exception)
2732 return MEDCoupling1SGTUMesh::New(m);
2735 std::string __str__() const throw(INTERP_KERNEL::Exception)
2737 return self->simpleRepr();
2740 std::string __repr__() const throw(INTERP_KERNEL::Exception)
2742 std::ostringstream oss;
2743 self->reprQuickOverview(oss);
2747 PyObject *structurizeMe(double eps=1e-12) const throw(INTERP_KERNEL::Exception)
2749 DataArrayInt *cellPerm(0),*nodePerm(0);
2750 MEDCouplingCMesh *retCpp(self->structurizeMe(cellPerm,nodePerm,eps));
2751 PyObject *ret(PyTuple_New(3));
2752 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(retCpp),SWIGTYPE_p_ParaMEDMEM__MEDCouplingCMesh, SWIG_POINTER_OWN | 0 ));
2753 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(cellPerm),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2754 PyTuple_SetItem(ret,2,SWIG_NewPointerObj(SWIG_as_voidptr(nodePerm),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2758 static MEDCoupling1SGTUMesh *Merge1SGTUMeshes(PyObject *li) throw(INTERP_KERNEL::Exception)
2760 std::vector<const ParaMEDMEM::MEDCoupling1SGTUMesh *> tmp;
2761 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCoupling1SGTUMesh *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCoupling1SGTUMesh,"MEDCoupling1SGTUMesh",tmp);
2762 return MEDCoupling1SGTUMesh::Merge1SGTUMeshes(tmp);
2765 static MEDCoupling1SGTUMesh *Merge1SGTUMeshesOnSameCoords(PyObject *li) throw(INTERP_KERNEL::Exception)
2767 std::vector<const ParaMEDMEM::MEDCoupling1SGTUMesh *> tmp;
2768 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCoupling1SGTUMesh *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCoupling1SGTUMesh,"MEDCoupling1SGTUMesh",tmp);
2769 return MEDCoupling1SGTUMesh::Merge1SGTUMeshesOnSameCoords(tmp);
2774 //== MEDCoupling1SGTUMesh End
2776 //== MEDCoupling1DGTUMesh
2778 class MEDCoupling1DGTUMesh : public ParaMEDMEM::MEDCoupling1GTUMesh
2781 static MEDCoupling1DGTUMesh *New(const std::string& name, INTERP_KERNEL::NormalizedCellType type) throw(INTERP_KERNEL::Exception);
2782 static MEDCoupling1DGTUMesh *New(const MEDCouplingUMesh *m) throw(INTERP_KERNEL::Exception);
2783 void setNodalConnectivity(DataArrayInt *nodalConn, DataArrayInt *nodalConnIndex) throw(INTERP_KERNEL::Exception);
2784 MEDCoupling1DGTUMesh *buildSetInstanceFromThis(int spaceDim) const throw(INTERP_KERNEL::Exception);
2785 bool isPacked() const throw(INTERP_KERNEL::Exception);
2788 MEDCoupling1DGTUMesh(const std::string& name, INTERP_KERNEL::NormalizedCellType type) throw(INTERP_KERNEL::Exception)
2790 return MEDCoupling1DGTUMesh::New(name,type);
2793 MEDCoupling1DGTUMesh(const MEDCouplingUMesh *m) throw(INTERP_KERNEL::Exception)
2795 return MEDCoupling1DGTUMesh::New(m);
2798 std::string __str__() const throw(INTERP_KERNEL::Exception)
2800 return self->simpleRepr();
2803 std::string __repr__() const throw(INTERP_KERNEL::Exception)
2805 std::ostringstream oss;
2806 self->reprQuickOverview(oss);
2810 DataArrayInt *getNodalConnectivityIndex() const throw(INTERP_KERNEL::Exception)
2812 DataArrayInt *ret=self->getNodalConnectivityIndex();
2813 if(ret) ret->incrRef();
2817 PyObject *retrievePackedNodalConnectivity() const throw(INTERP_KERNEL::Exception)
2819 DataArrayInt *ret1=0,*ret2=0;
2820 bool ret0=self->retrievePackedNodalConnectivity(ret1,ret2);
2821 PyObject *ret0Py=ret0?Py_True:Py_False;
2823 PyObject *ret=PyTuple_New(3);
2824 PyTuple_SetItem(ret,0,ret0Py);
2825 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(ret1),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2826 PyTuple_SetItem(ret,2,SWIG_NewPointerObj(SWIG_as_voidptr(ret2),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
2830 PyObject *copyWithNodalConnectivityPacked() const throw(INTERP_KERNEL::Exception)
2833 MEDCoupling1DGTUMesh *ret0=self->copyWithNodalConnectivityPacked(ret1);
2834 PyObject *ret=PyTuple_New(2);
2835 PyObject *ret1Py=ret1?Py_True:Py_False; Py_XINCREF(ret1Py);
2836 PyTuple_SetItem(ret,0,SWIG_NewPointerObj(SWIG_as_voidptr(ret0),SWIGTYPE_p_ParaMEDMEM__MEDCoupling1DGTUMesh, SWIG_POINTER_OWN | 0 ));
2837 PyTuple_SetItem(ret,1,ret1Py);
2841 static MEDCoupling1DGTUMesh *Merge1DGTUMeshes(PyObject *li) throw(INTERP_KERNEL::Exception)
2843 std::vector<const ParaMEDMEM::MEDCoupling1DGTUMesh *> tmp;
2844 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCoupling1DGTUMesh *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCoupling1DGTUMesh,"MEDCoupling1DGTUMesh",tmp);
2845 return MEDCoupling1DGTUMesh::Merge1DGTUMeshes(tmp);
2848 static MEDCoupling1DGTUMesh *Merge1DGTUMeshesOnSameCoords(PyObject *li) throw(INTERP_KERNEL::Exception)
2850 std::vector<const ParaMEDMEM::MEDCoupling1DGTUMesh *> tmp;
2851 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCoupling1DGTUMesh *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCoupling1DGTUMesh,"MEDCoupling1DGTUMesh",tmp);
2852 return MEDCoupling1DGTUMesh::Merge1DGTUMeshesOnSameCoords(tmp);
2855 static DataArrayInt *AggregateNodalConnAndShiftNodeIds(PyObject *li, const std::vector<int>& offsetInNodeIdsPerElt) throw(INTERP_KERNEL::Exception)
2857 std::vector<const ParaMEDMEM::DataArrayInt *> tmp;
2858 convertFromPyObjVectorOfObj<const ParaMEDMEM::DataArrayInt *>(li,SWIGTYPE_p_ParaMEDMEM__DataArrayInt,"DataArrayInt",tmp);
2859 return MEDCoupling1DGTUMesh::AggregateNodalConnAndShiftNodeIds(tmp,offsetInNodeIdsPerElt);
2864 //== MEDCoupling1DGTUMeshEnd
2866 class MEDCouplingStructuredMesh : public ParaMEDMEM::MEDCouplingMesh
2869 int getCellIdFromPos(int i, int j, int k) const throw(INTERP_KERNEL::Exception);
2870 int getNodeIdFromPos(int i, int j, int k) const throw(INTERP_KERNEL::Exception);
2871 int getNumberOfCellsOfSubLevelMesh() const throw(INTERP_KERNEL::Exception);
2872 int getSpaceDimensionOnNodeStruct() const throw(INTERP_KERNEL::Exception);
2873 double computeSquareness() const throw(INTERP_KERNEL::Exception);
2874 virtual std::vector<int> getNodeGridStructure() const throw(INTERP_KERNEL::Exception);
2875 std::vector<int> getCellGridStructure() const throw(INTERP_KERNEL::Exception);
2876 MEDCoupling1SGTUMesh *build1SGTUnstructured() const throw(INTERP_KERNEL::Exception);
2877 static INTERP_KERNEL::NormalizedCellType GetGeoTypeGivenMeshDimension(int meshDim) throw(INTERP_KERNEL::Exception);
2878 MEDCoupling1SGTUMesh *build1SGTSubLevelMesh() const throw(INTERP_KERNEL::Exception);
2879 static int DeduceNumberOfGivenStructure(const std::vector<int>& st) throw(INTERP_KERNEL::Exception);
2880 static DataArrayInt *ComputeCornersGhost(const std::vector<int>& st, int ghostLev) throw(INTERP_KERNEL::Exception);
2881 static std::vector<int> GetSplitVectFromStruct(const std::vector<int>& strct) throw(INTERP_KERNEL::Exception);
2884 virtual MEDCouplingStructuredMesh *buildStructuredSubPart(PyObject *cellPart) const throw(INTERP_KERNEL::Exception)
2886 int tmpp1=-1,tmpp2=-1;
2887 std::vector<int> tmp=fillArrayWithPyListInt2(cellPart,tmpp1,tmpp2);
2888 std::vector< std::pair<int,int> > inp;
2892 for(int i=0;i<tmpp1;i++)
2893 { inp[i].first=tmp[2*i]; inp[i].second=tmp[2*i+1]; }
2898 throw INTERP_KERNEL::Exception("Wrap of MEDCouplingStructuredMesh.buildStructuredSubPart : invalid input size ! Must be even size !");
2899 inp.resize(tmpp1/2);
2900 for(int i=0;i<tmpp1/2;i++)
2901 { inp[i].first=tmp[2*i]; inp[i].second=tmp[2*i+1]; }
2904 throw INTERP_KERNEL::Exception("Wrap of MEDCouplingStructuredMesh.buildStructuredSubPart : invalid input size !");
2905 return self->buildStructuredSubPart(inp);
2908 static DataArrayInt *BuildExplicitIdsFrom(PyObject *st, PyObject *part) throw(INTERP_KERNEL::Exception)
2910 std::vector< std::pair<int,int> > inp;
2911 convertPyToVectorPairInt(part,inp);
2913 int szArr,sw,iTypppArr;
2914 std::vector<int> stdvecTyyppArr;
2915 const int *tmp4=convertObjToPossibleCpp1_Safe(st,sw,szArr,iTypppArr,stdvecTyyppArr);
2916 std::vector<int> tmp5(tmp4,tmp4+szArr);
2918 return MEDCouplingStructuredMesh::BuildExplicitIdsFrom(tmp5,inp);
2921 static void MultiplyPartOf(const std::vector<int>& st, PyObject *part, double factor, DataArrayDouble *da) throw(INTERP_KERNEL::Exception)
2923 std::vector< std::pair<int,int> > inp;
2924 convertPyToVectorPairInt(part,inp);
2925 MEDCouplingStructuredMesh::MultiplyPartOf(st,inp,factor,da);
2928 static void MultiplyPartOfByGhost(const std::vector<int>& st, PyObject *part, int ghostSize, double factor, DataArrayDouble *da) throw(INTERP_KERNEL::Exception)
2930 std::vector< std::pair<int,int> > inp;
2931 convertPyToVectorPairInt(part,inp);
2932 MEDCouplingStructuredMesh::MultiplyPartOfByGhost(st,inp,ghostSize,factor,da);
2935 static PyObject *PutInGhostFormat(int ghostSize, const std::vector<int>& st, PyObject *part) throw(INTERP_KERNEL::Exception)
2937 std::vector< std::pair<int,int> > inp;
2938 convertPyToVectorPairInt(part,inp);
2939 std::vector<int> stWithGhost;
2940 std::vector< std::pair<int,int> > partWithGhost;
2941 MEDCouplingStructuredMesh::PutInGhostFormat(ghostSize,st,inp,stWithGhost,partWithGhost);
2942 PyObject *ret(PyTuple_New(2));
2943 PyTuple_SetItem(ret,0,convertIntArrToPyList2(stWithGhost));
2944 PyTuple_SetItem(ret,1,convertFromVectorPairInt(partWithGhost));
2948 static DataArrayDouble *ExtractFieldOfDoubleFrom(const std::vector<int>& st, const DataArrayDouble *fieldOfDbl, PyObject *partCompactFormat) throw(INTERP_KERNEL::Exception)
2950 std::vector< std::pair<int,int> > inp;
2951 convertPyToVectorPairInt(partCompactFormat,inp);
2952 return MEDCouplingStructuredMesh::ExtractFieldOfDoubleFrom(st,fieldOfDbl,inp);
2955 static void AssignPartOfFieldOfDoubleUsing(const std::vector<int>& st, DataArrayDouble *fieldOfDbl, PyObject *partCompactFormat, const DataArrayDouble *other) throw(INTERP_KERNEL::Exception)
2957 std::vector< std::pair<int,int> > inp;
2958 convertPyToVectorPairInt(partCompactFormat,inp);
2959 MEDCouplingStructuredMesh::AssignPartOfFieldOfDoubleUsing(st,fieldOfDbl,inp,other);
2962 static int DeduceNumberOfGivenRangeInCompactFrmt(PyObject *part) throw(INTERP_KERNEL::Exception)
2964 std::vector< std::pair<int,int> > inp;
2965 convertPyToVectorPairInt(part,inp);
2966 return MEDCouplingStructuredMesh::DeduceNumberOfGivenRangeInCompactFrmt(inp);
2969 static DataArrayInt *Build1GTNodalConnectivity(PyObject *li) throw(INTERP_KERNEL::Exception)
2971 int szArr,sw,iTypppArr;
2972 std::vector<int> stdvecTyyppArr;
2973 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
2974 return MEDCouplingStructuredMesh::Build1GTNodalConnectivity(tmp,tmp+szArr);
2977 static DataArrayInt *Build1GTNodalConnectivityOfSubLevelMesh(PyObject *li) throw(INTERP_KERNEL::Exception)
2979 int szArr,sw,iTypppArr;
2980 std::vector<int> stdvecTyyppArr;
2981 const int *tmp(convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr));
2982 return MEDCouplingStructuredMesh::Build1GTNodalConnectivityOfSubLevelMesh(tmp,tmp+szArr);
2985 static std::vector<int> GetDimensionsFromCompactFrmt(PyObject *partCompactFormat) throw(INTERP_KERNEL::Exception)
2987 std::vector< std::pair<int,int> > inp;
2988 convertPyToVectorPairInt(partCompactFormat,inp);
2989 return MEDCouplingStructuredMesh::GetDimensionsFromCompactFrmt(inp);
2992 static PyObject *GetCompactFrmtFromDimensions(const std::vector<int>& dims) throw(INTERP_KERNEL::Exception)
2994 std::vector< std::pair<int,int> > ret(MEDCouplingStructuredMesh::GetCompactFrmtFromDimensions(dims));
2995 PyObject *retPy=PyList_New(ret.size());
2996 for(std::size_t i=0;i<ret.size();i++)
2998 PyObject *tmp=PyTuple_New(2);
2999 PyTuple_SetItem(tmp,0,PyInt_FromLong(ret[i].first));
3000 PyTuple_SetItem(tmp,1,PyInt_FromLong(ret[i].second));
3001 PyList_SetItem(retPy,i,tmp);
3006 static PyObject *IntersectRanges(PyObject *r1, PyObject *r2) throw(INTERP_KERNEL::Exception)
3008 std::vector< std::pair<int,int> > r1Cpp,r2Cpp;
3009 convertPyToVectorPairInt(r1,r1Cpp);
3010 convertPyToVectorPairInt(r2,r2Cpp);
3011 std::vector< std::pair<int,int> > ret(MEDCouplingStructuredMesh::IntersectRanges(r1Cpp,r2Cpp));
3012 PyObject *retPy=PyList_New(ret.size());
3013 for(std::size_t i=0;i<ret.size();i++)
3015 PyObject *tmp=PyTuple_New(2);
3016 PyTuple_SetItem(tmp,0,PyInt_FromLong(ret[i].first));
3017 PyTuple_SetItem(tmp,1,PyInt_FromLong(ret[i].second));
3018 PyList_SetItem(retPy,i,tmp);
3023 static bool AreRangesIntersect(PyObject *r1, PyObject *r2)
3025 std::vector< std::pair<int,int> > r1Cpp,r2Cpp;
3026 convertPyToVectorPairInt(r1,r1Cpp);
3027 convertPyToVectorPairInt(r2,r2Cpp);
3028 return MEDCouplingStructuredMesh::AreRangesIntersect(r1Cpp,r2Cpp);
3031 static PyObject *IsPartStructured(PyObject *li, PyObject *st) throw(INTERP_KERNEL::Exception)
3033 int szArr,sw,iTypppArr;
3034 std::vector<int> stdvecTyyppArr;
3035 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
3036 int szArr2,sw2,iTypppArr2;
3037 std::vector<int> stdvecTyyppArr2;
3038 const int *tmp2=convertObjToPossibleCpp1_Safe(st,sw2,szArr2,iTypppArr2,stdvecTyyppArr2);
3039 std::vector<int> tmp3(tmp2,tmp2+szArr2);
3040 std::vector< std::pair<int,int> > partCompactFormat;
3041 bool ret0=MEDCouplingStructuredMesh::IsPartStructured(tmp,tmp+szArr,tmp3,partCompactFormat);
3042 PyObject *ret=PyTuple_New(2);
3043 PyObject *ret0Py=ret0?Py_True:Py_False; Py_XINCREF(ret0Py);
3044 PyTuple_SetItem(ret,0,ret0Py);
3045 PyObject *ret1Py=PyList_New(partCompactFormat.size());
3046 for(std::size_t i=0;i<partCompactFormat.size();i++)
3048 PyObject *tmp4=PyTuple_New(2);
3049 PyTuple_SetItem(tmp4,0,PyInt_FromLong(partCompactFormat[i].first));
3050 PyTuple_SetItem(tmp4,1,PyInt_FromLong(partCompactFormat[i].second));
3051 PyList_SetItem(ret1Py,i,tmp4);
3053 PyTuple_SetItem(ret,1,ret1Py);
3057 static PyObject *ChangeReferenceFromGlobalOfCompactFrmt(PyObject *bigInAbs, PyObject *partOfBigInAbs, bool check=true) throw(INTERP_KERNEL::Exception)
3059 std::vector< std::pair<int,int> > param0,param1,ret;
3060 convertPyToVectorPairInt(bigInAbs,param0);
3061 convertPyToVectorPairInt(partOfBigInAbs,param1);
3062 MEDCouplingStructuredMesh::ChangeReferenceFromGlobalOfCompactFrmt(param0,param1,ret,check);
3063 PyObject *retPy(PyList_New(ret.size()));
3064 for(std::size_t i=0;i<ret.size();i++)
3066 PyObject *tmp(PyTuple_New(2));
3067 PyTuple_SetItem(tmp,0,PyInt_FromLong(ret[i].first));
3068 PyTuple_SetItem(tmp,1,PyInt_FromLong(ret[i].second));
3069 PyList_SetItem(retPy,i,tmp);
3074 static PyObject *TranslateCompactFrmt(PyObject *part, const std::vector<int>& translation) throw(INTERP_KERNEL::Exception)
3076 std::vector< std::pair<int,int> > param0;
3077 convertPyToVectorPairInt(part,param0);
3078 std::vector< std::pair<int,int> > ret(MEDCouplingStructuredMesh::TranslateCompactFrmt(param0,translation));
3079 PyObject *retPy(PyList_New(ret.size()));
3080 for(std::size_t i=0;i<ret.size();i++)
3082 PyObject *tmp(PyTuple_New(2));
3083 PyTuple_SetItem(tmp,0,PyInt_FromLong(ret[i].first));
3084 PyTuple_SetItem(tmp,1,PyInt_FromLong(ret[i].second));
3085 PyList_SetItem(retPy,i,tmp);
3090 static std::vector<int> FindTranslationFrom(PyObject *startingFrom, PyObject *goingTo) throw(INTERP_KERNEL::Exception)
3092 std::vector< std::pair<int,int> > param0,param1;
3093 convertPyToVectorPairInt(startingFrom,param0);
3094 convertPyToVectorPairInt(goingTo,param1);
3095 return MEDCouplingStructuredMesh::FindTranslationFrom(param0,param1);
3098 static PyObject *ChangeReferenceToGlobalOfCompactFrmt(PyObject *bigInAbs, PyObject *partOfBigRelativeToBig, bool check=true) throw(INTERP_KERNEL::Exception)
3100 std::vector< std::pair<int,int> > param0,param1,ret;
3101 convertPyToVectorPairInt(bigInAbs,param0);
3102 convertPyToVectorPairInt(partOfBigRelativeToBig,param1);
3103 MEDCouplingStructuredMesh::ChangeReferenceToGlobalOfCompactFrmt(param0,param1,ret,check);
3104 PyObject *retPy(PyList_New(ret.size()));
3105 for(std::size_t i=0;i<ret.size();i++)
3107 PyObject *tmp(PyTuple_New(2));
3108 PyTuple_SetItem(tmp,0,PyInt_FromLong(ret[i].first));
3109 PyTuple_SetItem(tmp,1,PyInt_FromLong(ret[i].second));
3110 PyList_SetItem(retPy,i,tmp);
3117 //== MEDCouplingCMesh
3119 class MEDCouplingCMesh : public ParaMEDMEM::MEDCouplingStructuredMesh
3122 static MEDCouplingCMesh *New() throw(INTERP_KERNEL::Exception);
3123 static MEDCouplingCMesh *New(const std::string& meshName) throw(INTERP_KERNEL::Exception);
3124 MEDCouplingCMesh *clone(bool recDeepCpy) const;
3125 void setCoords(const DataArrayDouble *coordsX,
3126 const DataArrayDouble *coordsY=0,
3127 const DataArrayDouble *coordsZ=0) throw(INTERP_KERNEL::Exception);
3128 void setCoordsAt(int i, const DataArrayDouble *arr) throw(INTERP_KERNEL::Exception);
3130 MEDCouplingCMesh() throw(INTERP_KERNEL::Exception)
3132 return MEDCouplingCMesh::New();
3134 MEDCouplingCMesh(const std::string& meshName) throw(INTERP_KERNEL::Exception)
3136 return MEDCouplingCMesh::New(meshName);
3138 std::string __str__() const throw(INTERP_KERNEL::Exception)
3140 return self->simpleRepr();
3142 std::string __repr__() const throw(INTERP_KERNEL::Exception)
3144 std::ostringstream oss;
3145 self->reprQuickOverview(oss);
3148 DataArrayDouble *getCoordsAt(int i) throw(INTERP_KERNEL::Exception)
3150 DataArrayDouble *ret=self->getCoordsAt(i);
3158 //== MEDCouplingCMesh End
3160 //== MEDCouplingCurveLinearMesh
3162 class MEDCouplingCurveLinearMesh : public ParaMEDMEM::MEDCouplingStructuredMesh
3165 static MEDCouplingCurveLinearMesh *New() throw(INTERP_KERNEL::Exception);
3166 static MEDCouplingCurveLinearMesh *New(const std::string& meshName) throw(INTERP_KERNEL::Exception);
3167 MEDCouplingCurveLinearMesh *clone(bool recDeepCpy) const;
3168 void setCoords(const DataArrayDouble *coords) throw(INTERP_KERNEL::Exception);
3170 MEDCouplingCurveLinearMesh() throw(INTERP_KERNEL::Exception)
3172 return MEDCouplingCurveLinearMesh::New();
3174 MEDCouplingCurveLinearMesh(const std::string& meshName) throw(INTERP_KERNEL::Exception)
3176 return MEDCouplingCurveLinearMesh::New(meshName);
3178 std::string __str__() const throw(INTERP_KERNEL::Exception)
3180 return self->simpleRepr();
3182 std::string __repr__() const throw(INTERP_KERNEL::Exception)
3184 std::ostringstream oss;
3185 self->reprQuickOverview(oss);
3188 DataArrayDouble *getCoords() throw(INTERP_KERNEL::Exception)
3190 DataArrayDouble *ret=self->getCoords();
3195 void setNodeGridStructure(PyObject *gridStruct) throw(INTERP_KERNEL::Exception)
3197 int szArr,sw,iTypppArr;
3198 std::vector<int> stdvecTyyppArr;
3199 const int *tmp=convertObjToPossibleCpp1_Safe(gridStruct,sw,szArr,iTypppArr,stdvecTyyppArr);
3200 self->setNodeGridStructure(tmp,tmp+szArr);
3205 //== MEDCouplingCurveLinearMesh End
3207 //== MEDCouplingIMesh
3209 class MEDCouplingIMesh : public ParaMEDMEM::MEDCouplingStructuredMesh
3212 static MEDCouplingIMesh *New() throw(INTERP_KERNEL::Exception);
3214 void setSpaceDimension(int spaceDim) throw(INTERP_KERNEL::Exception);
3215 std::vector<int> getNodeStruct() const throw(INTERP_KERNEL::Exception);
3216 std::vector<double> getOrigin() const throw(INTERP_KERNEL::Exception);
3217 std::vector<double> getDXYZ() const throw(INTERP_KERNEL::Exception);
3218 void setAxisUnit(const std::string& unitName) throw(INTERP_KERNEL::Exception);
3219 std::string getAxisUnit() const throw(INTERP_KERNEL::Exception);
3220 double getMeasureOfAnyCell() const throw(INTERP_KERNEL::Exception);
3221 MEDCouplingCMesh *convertToCartesian() const throw(INTERP_KERNEL::Exception);
3222 void refineWithFactor(const std::vector<int>& factors) throw(INTERP_KERNEL::Exception);
3223 MEDCouplingIMesh *asSingleCell() const throw(INTERP_KERNEL::Exception);
3224 MEDCouplingIMesh *buildWithGhost(int ghostLev) const throw(INTERP_KERNEL::Exception);
3229 return MEDCouplingIMesh::New();
3231 static MEDCouplingIMesh *New(const std::string& meshName, int spaceDim, PyObject *nodeStrct, PyObject *origin, PyObject *dxyz) throw(INTERP_KERNEL::Exception)
3233 static const char msg0[]="MEDCouplingIMesh::New : error on 'origin' parameter !";
3234 static const char msg1[]="MEDCouplingIMesh::New : error on 'dxyz' parameter !";
3235 const int *nodeStrctPtr(0);
3236 const double *originPtr(0),*dxyzPtr(0);
3238 std::vector<int> bb0;
3239 nodeStrctPtr=convertObjToPossibleCpp1_Safe(nodeStrct,sw,sz,val0,bb0);
3242 std::vector<double> bb,bb2;
3244 originPtr=convertObjToPossibleCpp5_SingleCompo(origin,sw,val,bb,msg0,false,sz1);
3245 dxyzPtr=convertObjToPossibleCpp5_SingleCompo(dxyz,sw,val2,bb2,msg1,false,sz2);
3247 return MEDCouplingIMesh::New(meshName,spaceDim,nodeStrctPtr,nodeStrctPtr+sz,originPtr,originPtr+sz1,dxyzPtr,dxyzPtr+sz2);
3250 MEDCouplingIMesh(const std::string& meshName, int spaceDim, PyObject *nodeStrct, PyObject *origin, PyObject *dxyz) throw(INTERP_KERNEL::Exception)
3252 return ParaMEDMEM_MEDCouplingIMesh_New__SWIG_1(meshName,spaceDim,nodeStrct,origin,dxyz);
3255 void setNodeStruct(PyObject *nodeStrct) throw(INTERP_KERNEL::Exception)
3258 std::vector<int> bb0;
3259 const int *nodeStrctPtr(convertObjToPossibleCpp1_Safe(nodeStrct,sw,sz,val0,bb0));
3260 self->setNodeStruct(nodeStrctPtr,nodeStrctPtr+sz);
3263 void setOrigin(PyObject *origin) throw(INTERP_KERNEL::Exception)
3265 static const char msg[]="MEDCouplingIMesh::setOrigin : invalid input 'origin' parameter ! integer, float, list/tuple of float, DataArrayDouble or DataArrayDoubleTuple supported !";
3268 DataArrayDoubleTuple *aa;
3269 std::vector<double> bb;
3271 const double *originPtr(convertObjToPossibleCpp5_SingleCompo(origin,sw,val,bb,msg,false,nbTuples));
3272 self->setOrigin(originPtr,originPtr+nbTuples);
3275 void setDXYZ(PyObject *dxyz) throw(INTERP_KERNEL::Exception)
3277 static const char msg[]="MEDCouplingIMesh::setDXYZ : invalid input 'dxyz' parameter ! integer, float, list/tuple of float, DataArrayDouble or DataArrayDoubleTuple supported !";
3280 DataArrayDoubleTuple *aa;
3281 std::vector<double> bb;
3283 const double *originPtr(convertObjToPossibleCpp5_SingleCompo(dxyz,sw,val,bb,msg,false,nbTuples));
3284 self->setDXYZ(originPtr,originPtr+nbTuples);
3287 static void CondenseFineToCoarse(const std::vector<int>& coarseSt, const DataArrayDouble *fineDA, PyObject *fineLocInCoarse, const std::vector<int>& facts, DataArrayDouble *coarseDA) throw(INTERP_KERNEL::Exception)
3289 std::vector< std::pair<int,int> > inp;
3290 convertPyToVectorPairInt(fineLocInCoarse,inp);
3291 MEDCouplingIMesh::CondenseFineToCoarse(coarseSt,fineDA,inp,facts,coarseDA);
3294 static void CondenseFineToCoarseGhost(const std::vector<int>& coarseSt, const DataArrayDouble *fineDA, PyObject *fineLocInCoarse, const std::vector<int>& facts, DataArrayDouble *coarseDA, int ghostSize) throw(INTERP_KERNEL::Exception)
3296 std::vector< std::pair<int,int> > inp;
3297 convertPyToVectorPairInt(fineLocInCoarse,inp);
3298 MEDCouplingIMesh::CondenseFineToCoarseGhost(coarseSt,fineDA,inp,facts,coarseDA,ghostSize);
3301 static void SpreadCoarseToFine(const DataArrayDouble *coarseDA, const std::vector<int>& coarseSt, DataArrayDouble *fineDA, PyObject *fineLocInCoarse, const std::vector<int>& facts) throw(INTERP_KERNEL::Exception)
3303 std::vector< std::pair<int,int> > inp;
3304 convertPyToVectorPairInt(fineLocInCoarse,inp);
3305 MEDCouplingIMesh::SpreadCoarseToFine(coarseDA,coarseSt,fineDA,inp,facts);
3308 static void SpreadCoarseToFineGhost(const DataArrayDouble *coarseDA, const std::vector<int>& coarseSt, DataArrayDouble *fineDA, PyObject *fineLocInCoarse, const std::vector<int>& facts, int ghostSize) throw(INTERP_KERNEL::Exception)
3310 std::vector< std::pair<int,int> > inp;
3311 convertPyToVectorPairInt(fineLocInCoarse,inp);
3312 MEDCouplingIMesh::SpreadCoarseToFineGhost(coarseDA,coarseSt,fineDA,inp,facts,ghostSize);
3315 static void SpreadCoarseToFineGhostZone(const DataArrayDouble *coarseDA, const std::vector<int>& coarseSt, DataArrayDouble *fineDA, PyObject *fineLocInCoarse, const std::vector<int>& facts, int ghostSize) throw(INTERP_KERNEL::Exception)
3317 std::vector< std::pair<int,int> > inp;
3318 convertPyToVectorPairInt(fineLocInCoarse,inp);
3319 MEDCouplingIMesh::SpreadCoarseToFineGhostZone(coarseDA,coarseSt,fineDA,inp,facts,ghostSize);
3322 std::string __str__() const throw(INTERP_KERNEL::Exception)
3324 return self->simpleRepr();
3326 std::string __repr__() const throw(INTERP_KERNEL::Exception)
3328 std::ostringstream oss;
3329 self->reprQuickOverview(oss);
3335 //== MEDCouplingIMesh End
3339 namespace ParaMEDMEM
3341 class MEDCouplingField : public ParaMEDMEM::RefCountObject, public ParaMEDMEM::TimeLabel
3344 virtual void checkCoherency() const throw(INTERP_KERNEL::Exception);
3345 virtual bool areCompatibleForMerge(const MEDCouplingField *other) const throw(INTERP_KERNEL::Exception);
3346 virtual bool isEqual(const MEDCouplingField *other, double meshPrec, double valsPrec) const throw(INTERP_KERNEL::Exception);
3347 virtual bool isEqualWithoutConsideringStr(const MEDCouplingField *other, double meshPrec, double valsPrec) const throw(INTERP_KERNEL::Exception);
3348 virtual void copyTinyStringsFrom(const MEDCouplingField *other) throw(INTERP_KERNEL::Exception);
3349 void setMesh(const ParaMEDMEM::MEDCouplingMesh *mesh) throw(INTERP_KERNEL::Exception);
3350 void setName(const char *name) throw(INTERP_KERNEL::Exception);
3351 std::string getDescription() const throw(INTERP_KERNEL::Exception);
3352 void setDescription(const char *desc) throw(INTERP_KERNEL::Exception);
3353 std::string getName() const throw(INTERP_KERNEL::Exception);
3354 TypeOfField getTypeOfField() const throw(INTERP_KERNEL::Exception);
3355 NatureOfField getNature() const throw(INTERP_KERNEL::Exception);
3356 virtual void setNature(NatureOfField nat) throw(INTERP_KERNEL::Exception);
3357 DataArrayDouble *getLocalizationOfDiscr() const throw(INTERP_KERNEL::Exception);
3358 MEDCouplingFieldDouble *buildMeasureField(bool isAbs) const throw(INTERP_KERNEL::Exception);
3359 int getNumberOfTuplesExpected() const throw(INTERP_KERNEL::Exception);
3360 int getNumberOfMeshPlacesExpected() const throw(INTERP_KERNEL::Exception);
3361 void setGaussLocalizationOnType(INTERP_KERNEL::NormalizedCellType type, const std::vector<double>& refCoo,
3362 const std::vector<double>& gsCoo, const std::vector<double>& wg) throw(INTERP_KERNEL::Exception);
3363 void clearGaussLocalizations() throw(INTERP_KERNEL::Exception);
3364 MEDCouplingGaussLocalization& getGaussLocalization(int locId) throw(INTERP_KERNEL::Exception);
3365 int getNbOfGaussLocalization() const throw(INTERP_KERNEL::Exception);
3366 int getGaussLocalizationIdOfOneCell(int cellId) const throw(INTERP_KERNEL::Exception);
3367 const MEDCouplingGaussLocalization& getGaussLocalization(int locId) const throw(INTERP_KERNEL::Exception);
3368 int getGaussLocalizationIdOfOneType(INTERP_KERNEL::NormalizedCellType type) const throw(INTERP_KERNEL::Exception);
3369 void setDiscretization(MEDCouplingFieldDiscretization *newDisc);
3371 PyObject *getMesh() const throw(INTERP_KERNEL::Exception)
3373 MEDCouplingMesh *ret1=const_cast<MEDCouplingMesh *>(self->getMesh());
3376 return convertMesh(ret1,SWIG_POINTER_OWN | 0 );
3379 PyObject *getDiscretization() throw(INTERP_KERNEL::Exception)
3381 MEDCouplingFieldDiscretization *ret=self->getDiscretization();
3384 return convertFieldDiscretization(ret,SWIG_POINTER_OWN | 0 );
3387 PyObject *getGaussLocalizationIdsOfOneType(INTERP_KERNEL::NormalizedCellType type) const throw(INTERP_KERNEL::Exception)
3389 std::set<int> ret=self->getGaussLocalizationIdsOfOneType(type);
3390 return convertIntArrToPyList3(ret);
3393 PyObject *isEqualIfNotWhy(const MEDCouplingField *other, double meshPrec, double valsPrec) const throw(INTERP_KERNEL::Exception)
3396 bool ret0=self->isEqualIfNotWhy(other,meshPrec,valsPrec,ret1);
3397 PyObject *ret=PyTuple_New(2);
3398 PyObject *ret0Py=ret0?Py_True:Py_False;
3400 PyTuple_SetItem(ret,0,ret0Py);
3401 PyTuple_SetItem(ret,1,PyString_FromString(ret1.c_str()));
3405 PyObject *buildSubMeshData(PyObject *li) const throw(INTERP_KERNEL::Exception)
3407 DataArrayInt *ret1=0;
3408 MEDCouplingMesh *ret0=0;
3410 int res1=SWIG_ConvertPtr(li,&da,SWIGTYPE_p_ParaMEDMEM__DataArrayInt, 0 | 0 );
3411 if (!SWIG_IsOK(res1))
3414 INTERP_KERNEL::AutoPtr<int> tmp=convertPyToNewIntArr2(li,&size);
3415 ret0=self->buildSubMeshData(tmp,tmp+size,ret1);
3419 DataArrayInt *da2=reinterpret_cast< DataArrayInt * >(da);
3421 throw INTERP_KERNEL::Exception("Not null DataArrayInt instance expected !");
3422 da2->checkAllocated();
3423 ret0=self->buildSubMeshData(da2->getConstPointer(),da2->getConstPointer()+da2->getNbOfElems(),ret1);
3425 PyObject *res = PyList_New(2);
3426 PyList_SetItem(res,0,convertMesh(ret0, SWIG_POINTER_OWN | 0 ));
3427 PyList_SetItem(res,1,SWIG_NewPointerObj((void*)ret1,SWIGTYPE_p_ParaMEDMEM__DataArrayInt,SWIG_POINTER_OWN | 0));
3431 PyObject *buildSubMeshDataRange(int begin, int end, int step) const throw(INTERP_KERNEL::Exception)
3433 DataArrayInt *ret1=0;
3435 MEDCouplingMesh *ret0=self->buildSubMeshDataRange(begin,end,step,bb,ee,ss,ret1);
3436 PyObject *res=PyTuple_New(2);
3437 PyTuple_SetItem(res,0,convertMesh(ret0, SWIG_POINTER_OWN | 0 ));
3439 PyTuple_SetItem(res,1,SWIG_NewPointerObj((void*)ret1,SWIGTYPE_p_ParaMEDMEM__DataArrayInt,SWIG_POINTER_OWN | 0));
3442 PyObject *res1=PySlice_New(PyInt_FromLong(bb),PyInt_FromLong(ee),PyInt_FromLong(ss));
3443 PyTuple_SetItem(res,1,res1);
3448 DataArrayInt *computeTupleIdsToSelectFromCellIds(PyObject *cellIds) const
3451 int v0; std::vector<int> v1;
3452 const int *cellIdsBg(convertObjToPossibleCpp1_Safe(cellIds,sw,sz,v0,v1));
3453 return self->computeTupleIdsToSelectFromCellIds(cellIdsBg,cellIdsBg+sz);
3456 void setGaussLocalizationOnCells(PyObject *li, const std::vector<double>& refCoo,
3457 const std::vector<double>& gsCoo, const std::vector<double>& wg) throw(INTERP_KERNEL::Exception)
3460 int res1=SWIG_ConvertPtr(li,&da,SWIGTYPE_p_ParaMEDMEM__DataArrayInt, 0 | 0 );
3461 if (!SWIG_IsOK(res1))
3464 INTERP_KERNEL::AutoPtr<int> tmp=convertPyToNewIntArr2(li,&size);
3465 self->setGaussLocalizationOnCells(tmp,((int *)tmp)+size,refCoo,gsCoo,wg);
3469 DataArrayInt *da2=reinterpret_cast< DataArrayInt * >(da);
3471 throw INTERP_KERNEL::Exception("Not null DataArrayInt instance expected !");
3472 da2->checkAllocated();
3473 self->setGaussLocalizationOnCells(da2->getConstPointer(),da2->getConstPointer()+da2->getNbOfElems(),refCoo,gsCoo,wg);
3477 PyObject *getCellIdsHavingGaussLocalization(int locId) const throw(INTERP_KERNEL::Exception)
3479 std::vector<int> tmp;
3480 self->getCellIdsHavingGaussLocalization(locId,tmp);
3481 DataArrayInt *ret=DataArrayInt::New();
3482 ret->alloc((int)tmp.size(),1);
3483 std::copy(tmp.begin(),tmp.end(),ret->getPointer());
3484 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 );
3487 int getNumberOfTuplesExpectedRegardingCode(PyObject *code, PyObject *idsPerType) const throw(INTERP_KERNEL::Exception)
3489 std::vector<int> inp0;
3490 convertPyToNewIntArr4(code,1,3,inp0);
3491 std::vector<const DataArrayInt *> inp1;
3492 convertFromPyObjVectorOfObj<const ParaMEDMEM::DataArrayInt *>(idsPerType,SWIGTYPE_p_ParaMEDMEM__DataArrayInt,"DataArrayInt",inp1);
3493 return self->getNumberOfTuplesExpectedRegardingCode(inp0,inp1);
3498 class MEDCouplingFieldTemplate : public ParaMEDMEM::MEDCouplingField
3501 static MEDCouplingFieldTemplate *New(const MEDCouplingFieldDouble& f) throw(INTERP_KERNEL::Exception);
3502 static MEDCouplingFieldTemplate *New(TypeOfField type);
3503 std::string simpleRepr() const throw(INTERP_KERNEL::Exception);
3504 std::string advancedRepr() const throw(INTERP_KERNEL::Exception);
3507 MEDCouplingFieldTemplate(const MEDCouplingFieldDouble& f) throw(INTERP_KERNEL::Exception)
3509 return MEDCouplingFieldTemplate::New(f);
3512 MEDCouplingFieldTemplate(TypeOfField type) throw(INTERP_KERNEL::Exception)
3514 return MEDCouplingFieldTemplate::New(type);
3517 std::string __str__() const throw(INTERP_KERNEL::Exception)
3519 return self->simpleRepr();
3522 std::string __repr__() const throw(INTERP_KERNEL::Exception)
3524 std::ostringstream oss;
3525 self->reprQuickOverview(oss);
3531 class MEDCouplingFieldDouble : public ParaMEDMEM::MEDCouplingField
3534 static MEDCouplingFieldDouble *New(TypeOfField type, TypeOfTimeDiscretization td=ONE_TIME);
3535 static MEDCouplingFieldDouble *New(const MEDCouplingFieldTemplate& ft, TypeOfTimeDiscretization td=ONE_TIME);
3536 void setTimeUnit(const std::string& unit);
3537 std::string getTimeUnit() const;
3538 void synchronizeTimeWithSupport() throw(INTERP_KERNEL::Exception);
3539 void copyTinyAttrFrom(const MEDCouplingFieldDouble *other) throw(INTERP_KERNEL::Exception);
3540 void copyAllTinyAttrFrom(const MEDCouplingFieldDouble *other) throw(INTERP_KERNEL::Exception);
3541 std::string simpleRepr() const throw(INTERP_KERNEL::Exception);
3542 std::string advancedRepr() const throw(INTERP_KERNEL::Exception);
3543 std::string writeVTK(const std::string& fileName, bool isBinary=true) const throw(INTERP_KERNEL::Exception);
3544 MEDCouplingFieldDouble *clone(bool recDeepCpy) const;
3545 MEDCouplingFieldDouble *cloneWithMesh(bool recDeepCpy) const;
3546 MEDCouplingFieldDouble *deepCpy() const;
3547 MEDCouplingFieldDouble *buildNewTimeReprFromThis(TypeOfTimeDiscretization td, bool deepCpy) const throw(INTERP_KERNEL::Exception);
3548 MEDCouplingFieldDouble *nodeToCellDiscretization() const throw(INTERP_KERNEL::Exception);
3549 MEDCouplingFieldDouble *cellToNodeDiscretization() const throw(INTERP_KERNEL::Exception);
3550 TypeOfTimeDiscretization getTimeDiscretization() const throw(INTERP_KERNEL::Exception);
3551 double getIJ(int tupleId, int compoId) const throw(INTERP_KERNEL::Exception);
3552 double getIJK(int cellId, int nodeIdInCell, int compoId) const throw(INTERP_KERNEL::Exception);
3553 void synchronizeTimeWithMesh() throw(INTERP_KERNEL::Exception);
3554 void setArray(DataArrayDouble *array) throw(INTERP_KERNEL::Exception);
3555 void setEndArray(DataArrayDouble *array) throw(INTERP_KERNEL::Exception);
3556 void setTime(double val, int iteration, int order) throw(INTERP_KERNEL::Exception);
3557 void setStartTime(double val, int iteration, int order) throw(INTERP_KERNEL::Exception);
3558 void setEndTime(double val, int iteration, int order) throw(INTERP_KERNEL::Exception);
3559 void applyLin(double a, double b, int compoId) throw(INTERP_KERNEL::Exception);
3560 void applyLin(double a, double b) throw(INTERP_KERNEL::Exception);
3561 int getNumberOfComponents() const throw(INTERP_KERNEL::Exception);
3562 int getNumberOfTuples() const throw(INTERP_KERNEL::Exception);
3563 int getNumberOfValues() const throw(INTERP_KERNEL::Exception);
3564 void setTimeTolerance(double val) throw(INTERP_KERNEL::Exception);
3565 double getTimeTolerance() const throw(INTERP_KERNEL::Exception);
3566 void setIteration(int it) throw(INTERP_KERNEL::Exception);
3567 void setEndIteration(int it) throw(INTERP_KERNEL::Exception);
3568 void setOrder(int order) throw(INTERP_KERNEL::Exception);
3569 void setEndOrder(int order) throw(INTERP_KERNEL::Exception);
3570 void setTimeValue(double val) throw(INTERP_KERNEL::Exception);
3571 void setEndTimeValue(double val) throw(INTERP_KERNEL::Exception);
3572 void changeUnderlyingMesh(const MEDCouplingMesh *other, int levOfCheck, double precOnMesh, double eps=1e-15) throw(INTERP_KERNEL::Exception);
3573 void substractInPlaceDM(const MEDCouplingFieldDouble *f, int levOfCheck, double precOnMesh, double eps=1e-15) throw(INTERP_KERNEL::Exception);
3574 bool mergeNodes(double eps, double epsOnVals=1e-15) throw(INTERP_KERNEL::Exception);
3575 bool mergeNodes2(double eps, double epsOnVals=1e-15) throw(INTERP_KERNEL::Exception);
3576 bool zipCoords(double epsOnVals=1e-15) throw(INTERP_KERNEL::Exception);
3577 bool zipConnectivity(int compType,double epsOnVals=1e-15) throw(INTERP_KERNEL::Exception);
3578 bool simplexize(int policy) throw(INTERP_KERNEL::Exception);
3579 MEDCouplingFieldDouble *doublyContractedProduct() const throw(INTERP_KERNEL::Exception);
3580 MEDCouplingFieldDouble *determinant() const throw(INTERP_KERNEL::Exception);
3581 MEDCouplingFieldDouble *eigenValues() const throw(INTERP_KERNEL::Exception);
3582 MEDCouplingFieldDouble *eigenVectors() const throw(INTERP_KERNEL::Exception);
3583 MEDCouplingFieldDouble *inverse() const throw(INTERP_KERNEL::Exception);
3584 MEDCouplingFieldDouble *trace() const throw(INTERP_KERNEL::Exception);
3585 MEDCouplingFieldDouble *deviator() const throw(INTERP_KERNEL::Exception);
3586 MEDCouplingFieldDouble *magnitude() const throw(INTERP_KERNEL::Exception);
3587 MEDCouplingFieldDouble *maxPerTuple() const throw(INTERP_KERNEL::Exception);
3588 void changeNbOfComponents(int newNbOfComp, double dftValue=0.) throw(INTERP_KERNEL::Exception);
3589 void sortPerTuple(bool asc) throw(INTERP_KERNEL::Exception);
3590 MEDCouplingFieldDouble &operator=(double value) throw(INTERP_KERNEL::Exception);
3591 void fillFromAnalytic(int nbOfComp, const std::string& func) throw(INTERP_KERNEL::Exception);
3592 void fillFromAnalytic2(int nbOfComp, const std::string& func) throw(INTERP_KERNEL::Exception);
3593 void fillFromAnalytic3(int nbOfComp, const std::vector<std::string>& varsOrder, const std::string& func) throw(INTERP_KERNEL::Exception);
3594 void applyFunc(int nbOfComp, const std::string& func) throw(INTERP_KERNEL::Exception);
3595 void applyFunc2(int nbOfComp, const std::string& func) throw(INTERP_KERNEL::Exception);
3596 void applyFunc3(int nbOfComp, const std::vector<std::string>& varsOrder, const std::string& func) throw(INTERP_KERNEL::Exception);
3597 void applyFunc(int nbOfComp, double val) throw(INTERP_KERNEL::Exception);
3598 void applyFunc(const std::string& func) throw(INTERP_KERNEL::Exception);
3599 void applyFuncFast32(const std::string& func) throw(INTERP_KERNEL::Exception);
3600 void applyFuncFast64(const std::string& func) throw(INTERP_KERNEL::Exception);
3601 double accumulate(int compId) const throw(INTERP_KERNEL::Exception);
3602 double getMaxValue() const throw(INTERP_KERNEL::Exception);
3603 double getMinValue() const throw(INTERP_KERNEL::Exception);
3604 double getAverageValue() const throw(INTERP_KERNEL::Exception);
3605 double norm2() const throw(INTERP_KERNEL::Exception);
3606 double normMax() const throw(INTERP_KERNEL::Exception);
3607 //do not put a default value to isWAbs because confusion in python with overloaded getWeightedAverageValue method
3608 double getWeightedAverageValue(int compId, bool isWAbs) const throw(INTERP_KERNEL::Exception);
3609 double integral(int compId, bool isWAbs) const throw(INTERP_KERNEL::Exception);
3610 double normL1(int compId) const throw(INTERP_KERNEL::Exception);
3611 double normL2(int compId) const throw(INTERP_KERNEL::Exception);
3612 DataArrayInt *getIdsInRange(double vmin, double vmax) const throw(INTERP_KERNEL::Exception);
3613 MEDCouplingFieldDouble *buildSubPartRange(int begin, int end, int step) const throw(INTERP_KERNEL::Exception);
3614 static MEDCouplingFieldDouble *MergeFields(const MEDCouplingFieldDouble *f1, const MEDCouplingFieldDouble *f2) throw(INTERP_KERNEL::Exception);
3615 static MEDCouplingFieldDouble *MeldFields(const MEDCouplingFieldDouble *f1, const MEDCouplingFieldDouble *f2) throw(INTERP_KERNEL::Exception);
3616 static MEDCouplingFieldDouble *DotFields(const MEDCouplingFieldDouble *f1, const MEDCouplingFieldDouble *f2) throw(INTERP_KERNEL::Exception);
3617 MEDCouplingFieldDouble *dot(const MEDCouplingFieldDouble& other) const throw(INTERP_KERNEL::Exception);
3618 static MEDCouplingFieldDouble *CrossProductFields(const MEDCouplingFieldDouble *f1, const MEDCouplingFieldDouble *f2) throw(INTERP_KERNEL::Exception);
3619 MEDCouplingFieldDouble *crossProduct(const MEDCouplingFieldDouble& other) const throw(INTERP_KERNEL::Exception);
3620 static MEDCouplingFieldDouble *MaxFields(const MEDCouplingFieldDouble *f1, const MEDCouplingFieldDouble *f2) throw(INTERP_KERNEL::Exception);
3621 MEDCouplingFieldDouble *max(const MEDCouplingFieldDouble& other) const throw(INTERP_KERNEL::Exception);
3622 static MEDCouplingFieldDouble *MinFields(const MEDCouplingFieldDouble *f1, const MEDCouplingFieldDouble *f2) throw(INTERP_KERNEL::Exception);
3623 static MEDCouplingFieldDouble *AddFields(const MEDCouplingFieldDouble *f1, const MEDCouplingFieldDouble *f2) throw(INTERP_KERNEL::Exception);
3624 static MEDCouplingFieldDouble *SubstractFields(const MEDCouplingFieldDouble *f1, const MEDCouplingFieldDouble *f2) throw(INTERP_KERNEL::Exception);
3625 static MEDCouplingFieldDouble *MultiplyFields(const MEDCouplingFieldDouble *f1, const MEDCouplingFieldDouble *f2) throw(INTERP_KERNEL::Exception);
3626 static MEDCouplingFieldDouble *DivideFields(const MEDCouplingFieldDouble *f1, const MEDCouplingFieldDouble *f2) throw(INTERP_KERNEL::Exception);
3627 MEDCouplingFieldDouble *min(const MEDCouplingFieldDouble& other) const throw(INTERP_KERNEL::Exception);
3628 MEDCouplingFieldDouble *negate() const throw(INTERP_KERNEL::Exception);
3630 MEDCouplingFieldDouble(TypeOfField type, TypeOfTimeDiscretization td=ONE_TIME)
3632 return MEDCouplingFieldDouble::New(type,td);
3635 MEDCouplingFieldDouble(const MEDCouplingFieldTemplate& ft, TypeOfTimeDiscretization td=ONE_TIME)
3637 return MEDCouplingFieldDouble::New(ft,td);
3640 std::string __str__() const throw(INTERP_KERNEL::Exception)
3642 return self->simpleRepr();
3645 std::string __repr__() const throw(INTERP_KERNEL::Exception)
3647 std::ostringstream oss;
3648 self->reprQuickOverview(oss);
3652 DataArrayDouble *getArray() throw(INTERP_KERNEL::Exception)
3654 DataArrayDouble *ret=self->getArray();
3660 PyObject *getArrays() const throw(INTERP_KERNEL::Exception)
3662 std::vector<DataArrayDouble *> arrs=self->getArrays();
3663 for(std::vector<DataArrayDouble *>::iterator it=arrs.begin();it!=arrs.end();it++)
3667 PyObject *ret=PyTuple_New(sz);
3668 for(int i=0;i<sz;i++)
3671 PyTuple_SetItem(ret,i,SWIG_NewPointerObj(SWIG_as_voidptr(arrs[i]),SWIGTYPE_p_ParaMEDMEM__DataArrayDouble, SWIG_POINTER_OWN | 0 ));
3673 PyTuple_SetItem(ret,i,SWIG_NewPointerObj(SWIG_as_voidptr(0),SWIGTYPE_p_ParaMEDMEM__DataArrayDouble, 0 | 0 ));
3678 void setArrays(PyObject *ls) throw(INTERP_KERNEL::Exception)
3680 std::vector<const DataArrayDouble *> tmp;
3681 convertFromPyObjVectorOfObj<const DataArrayDouble *>(ls,SWIGTYPE_p_ParaMEDMEM__DataArrayDouble,"DataArrayDouble",tmp);
3683 std::vector<DataArrayDouble *> arrs(sz);
3684 for(int i=0;i<sz;i++)
3685 arrs[i]=const_cast<DataArrayDouble *>(tmp[i]);
3686 self->setArrays(arrs);
3689 DataArrayDouble *getEndArray() throw(INTERP_KERNEL::Exception)
3691 DataArrayDouble *ret=self->getEndArray();
3697 PyObject *getValueOn(PyObject *sl) const throw(INTERP_KERNEL::Exception)
3701 DataArrayDoubleTuple *aa;
3702 std::vector<double> bb;
3704 const MEDCouplingMesh *mesh=self->getMesh();
3706 throw INTERP_KERNEL::Exception("Python wrap of MEDCouplingFieldDouble::getValueOn : no underlying mesh !");
3707 int spaceDim=mesh->getSpaceDimension();
3708 const char msg[]="Python wrap of MEDCouplingFieldDouble::getValueOn : ";
3709 const double *spaceLoc=convertObjToPossibleCpp5_Safe(sl,sw,val,a,aa,bb,msg,1,spaceDim,true);
3711 int sz=self->getNumberOfComponents();
3712 INTERP_KERNEL::AutoPtr<double> res=new double[sz];
3713 self->getValueOn(spaceLoc,res);
3714 return convertDblArrToPyList(res,sz);
3717 PyObject *getValueOnPos(int i, int j, int k) const throw(INTERP_KERNEL::Exception)
3719 int sz=self->getNumberOfComponents();
3720 INTERP_KERNEL::AutoPtr<double> res=new double[sz];
3721 self->getValueOnPos(i,j,k,res);
3722 return convertDblArrToPyList(res,sz);
3725 DataArrayDouble *getValueOnMulti(PyObject *locs) const throw(INTERP_KERNEL::Exception)
3727 const MEDCouplingMesh *mesh(self->getMesh());
3729 throw INTERP_KERNEL::Exception("Python wrap MEDCouplingFieldDouble::getValueOnMulti : lying on a null mesh !");
3732 double v0; ParaMEDMEM::DataArrayDouble *v1(0); ParaMEDMEM::DataArrayDoubleTuple *v2(0); std::vector<double> v3;
3733 const double *inp=convertObjToPossibleCpp5_Safe2(locs,sw,v0,v1,v2,v3,"wrap of MEDCouplingFieldDouble::getValueOnMulti",
3734 mesh->getSpaceDimension(),true,nbPts);
3735 return self->getValueOnMulti(inp,nbPts);
3738 PyObject *getValueOn(PyObject *sl, double time) const throw(INTERP_KERNEL::Exception)
3742 DataArrayDoubleTuple *aa;
3743 std::vector<double> bb;
3745 const MEDCouplingMesh *mesh=self->getMesh();
3747 throw INTERP_KERNEL::Exception("Python wrap of MEDCouplingFieldDouble::getValueOn : no underlying mesh !");
3748 int spaceDim=mesh->getSpaceDimension();
3749 const char msg[]="Python wrap of MEDCouplingFieldDouble::getValueOn : ";
3750 const double *spaceLoc=convertObjToPossibleCpp5_Safe(sl,sw,val,a,aa,bb,msg,1,spaceDim,true);
3753 int sz=self->getNumberOfComponents();
3754 INTERP_KERNEL::AutoPtr<double> res=new double[sz];
3755 self->getValueOn(spaceLoc,time,res);
3756 return convertDblArrToPyList(res,sz);
3759 void setValues(PyObject *li, PyObject *nbOfTuples=0, PyObject *nbOfComp=0) throw(INTERP_KERNEL::Exception)
3761 if(self->getArray()!=0)
3762 ParaMEDMEM_DataArrayDouble_setValues__SWIG_0(self->getArray(),li,nbOfTuples,nbOfComp);
3765 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> arr=DataArrayDouble::New();
3766 ParaMEDMEM_DataArrayDouble_setValues__SWIG_0(arr,li,nbOfTuples,nbOfComp);
3767 self->setArray(arr);
3771 PyObject *getTime() throw(INTERP_KERNEL::Exception)
3774 double tmp0=self->getTime(tmp1,tmp2);
3775 PyObject *res = PyList_New(3);
3776 PyList_SetItem(res,0,SWIG_From_double(tmp0));
3777 PyList_SetItem(res,1,SWIG_From_int(tmp1));
3778 PyList_SetItem(res,2,SWIG_From_int(tmp2));
3782 PyObject *getStartTime() throw(INTERP_KERNEL::Exception)
3785 double tmp0=self->getStartTime(tmp1,tmp2);
3786 PyObject *res = PyList_New(3);
3787 PyList_SetItem(res,0,SWIG_From_double(tmp0));
3788 PyList_SetItem(res,1,SWIG_From_int(tmp1));
3789 PyList_SetItem(res,2,SWIG_From_int(tmp2));
3793 PyObject *getEndTime() throw(INTERP_KERNEL::Exception)
3796 double tmp0=self->getEndTime(tmp1,tmp2);
3797 PyObject *res = PyList_New(3);
3798 PyList_SetItem(res,0,SWIG_From_double(tmp0));
3799 PyList_SetItem(res,1,SWIG_From_int(tmp1));
3800 PyList_SetItem(res,2,SWIG_From_int(tmp2));
3803 PyObject *accumulate() const throw(INTERP_KERNEL::Exception)
3805 int sz=self->getNumberOfComponents();
3806 INTERP_KERNEL::AutoPtr<double> tmp=new double[sz];
3807 self->accumulate(tmp);
3808 return convertDblArrToPyList(tmp,sz);
3810 PyObject *integral(bool isWAbs) const throw(INTERP_KERNEL::Exception)
3812 int sz=self->getNumberOfComponents();
3813 INTERP_KERNEL::AutoPtr<double> tmp=new double[sz];
3814 self->integral(isWAbs,tmp);
3815 return convertDblArrToPyList(tmp,sz);
3817 PyObject *getWeightedAverageValue(bool isWAbs=true) const throw(INTERP_KERNEL::Exception)
3819 int sz=self->getNumberOfComponents();
3820 INTERP_KERNEL::AutoPtr<double> tmp=new double[sz];
3821 self->getWeightedAverageValue(tmp,isWAbs);
3822 return convertDblArrToPyList(tmp,sz);
3824 PyObject *normL1() const throw(INTERP_KERNEL::Exception)
3826 int sz=self->getNumberOfComponents();
3827 INTERP_KERNEL::AutoPtr<double> tmp=new double[sz];
3829 return convertDblArrToPyList(tmp,sz);
3831 PyObject *normL2() const throw(INTERP_KERNEL::Exception)
3833 int sz=self->getNumberOfComponents();
3834 INTERP_KERNEL::AutoPtr<double> tmp=new double[sz];
3836 return convertDblArrToPyList(tmp,sz);
3838 void renumberCells(PyObject *li, bool check=true) throw(INTERP_KERNEL::Exception)
3840 int szArr,sw,iTypppArr;
3841 std::vector<int> stdvecTyyppArr;
3842 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
3843 self->renumberCells(tmp,check);
3846 void renumberCellsWithoutMesh(PyObject *li, bool check=true) throw(INTERP_KERNEL::Exception)
3848 int szArr,sw,iTypppArr;
3849 std::vector<int> stdvecTyyppArr;
3850 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
3851 self->renumberCellsWithoutMesh(tmp,check);
3854 void renumberNodes(PyObject *li, double eps=1e-15) throw(INTERP_KERNEL::Exception)
3856 int szArr,sw,iTypppArr;
3857 std::vector<int> stdvecTyyppArr;
3858 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
3859 self->renumberNodes(tmp,eps);
3862 void renumberNodesWithoutMesh(PyObject *li, int newNbOfNodes, double eps=1e-15) throw(INTERP_KERNEL::Exception)
3864 int szArr,sw,iTypppArr;
3865 std::vector<int> stdvecTyyppArr;
3866 const int *tmp=convertObjToPossibleCpp1_Safe(li,sw,szArr,iTypppArr,stdvecTyyppArr);
3867 self->renumberNodesWithoutMesh(tmp,newNbOfNodes,eps);
3870 MEDCouplingFieldDouble *buildSubPart(PyObject *li) const throw(INTERP_KERNEL::Exception)
3874 std::vector<int> multiVal;
3875 std::pair<int, std::pair<int,int> > slic;
3876 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
3877 const MEDCouplingMesh *mesh=self->getMesh();
3879 throw INTERP_KERNEL::Exception("MEDCouplingFieldDouble::buildSubPart : field lies on a null mesh !");
3880 int nbc=mesh->getNumberOfCells();
3881 convertObjToPossibleCpp2(li,nbc,sw,singleVal,multiVal,slic,daIntTyypp);
3888 std::ostringstream oss;
3889 oss << "Requesting for cell id " << singleVal << " having only " << nbc << " cells !";
3890 throw INTERP_KERNEL::Exception(oss.str().c_str());
3893 return self->buildSubPart(&singleVal,&singleVal+1);
3898 int tmp=nbc+singleVal;
3899 return self->buildSubPart(&tmp,&tmp+1);
3903 std::ostringstream oss;
3904 oss << "Requesting for cell id " << singleVal << " having only " << nbc << " cells !";
3905 throw INTERP_KERNEL::Exception(oss.str().c_str());
3911 return self->buildSubPart(&multiVal[0],&multiVal[0]+multiVal.size());
3915 return self->buildSubPartRange(slic.first,slic.second.first,slic.second.second);
3920 throw INTERP_KERNEL::Exception("MEDCouplingFieldDouble::buildSubPart : null instance has been given in input !");
3921 daIntTyypp->checkAllocated();
3922 return self->buildSubPart(daIntTyypp->begin(),daIntTyypp->end());
3925 throw INTERP_KERNEL::Exception("MEDCouplingFieldDouble::buildSubPart : unrecognized type in input ! Possibilities are : int, list or tuple of int DataArrayInt instance !");
3929 MEDCouplingFieldDouble *__getitem__(PyObject *li) const throw(INTERP_KERNEL::Exception)
3931 const char msg[]="MEDCouplingFieldDouble::__getitem__ : invalid call Available API are : \n-myField[dataArrayInt]\n-myField[slice]\n-myField[pythonListOfCellIds]\n-myField[integer]\n-myField[dataArrayInt,1]\n-myField[slice,1]\n-myField[pythonListOfCellIds,1]\n-myField[integer,1]\n";
3932 if(PyTuple_Check(li))
3934 Py_ssize_t sz=PyTuple_Size(li);
3936 throw INTERP_KERNEL::Exception(msg);
3937 PyObject *elt0=PyTuple_GetItem(li,0),*elt1=PyTuple_GetItem(li,1);
3940 std::vector<int> multiVal;
3941 std::pair<int, std::pair<int,int> > slic;
3942 ParaMEDMEM::DataArrayInt *daIntTyypp=0;
3943 if(!self->getArray())
3944 throw INTERP_KERNEL::Exception("MEDCouplingFieldDouble::__getitem__ : no array set on field to deduce number of components !");
3946 { convertObjToPossibleCpp2(elt1,self->getArray()->getNumberOfComponents(),sw,singleVal,multiVal,slic,daIntTyypp); }
3947 catch(INTERP_KERNEL::Exception& e)
3948 { std::ostringstream oss; oss << "MEDCouplingFieldDouble::__getitem__ : invalid type in 2nd parameter (compo) !" << e.what(); throw INTERP_KERNEL::Exception(oss.str().c_str()); }
3949 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret0=ParaMEDMEM_MEDCouplingFieldDouble_buildSubPart(self,elt0);
3950 DataArrayDouble *ret0Arr=ret0->getArray();
3952 throw INTERP_KERNEL::Exception("MEDCouplingFieldDouble::__getitem__ : no array exists to apply restriction on component on it !");
3957 std::vector<int> v2(1,singleVal);
3958 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aarr=static_cast<DataArrayDouble *>(ret0Arr->keepSelectedComponents(v2));
3959 ret0->setArray(aarr);
3964 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aarr=static_cast<DataArrayDouble *>(ret0Arr->keepSelectedComponents(multiVal));
3965 ret0->setArray(aarr);
3970 int nbOfComp=DataArray::GetNumberOfItemGivenBESRelative(slic.first,slic.second.first,slic.second.second,"MEDCouplingFieldDouble::__getitem__ : invalid range in 2nd parameter (components) !");
3971 std::vector<int> v2(nbOfComp);
3972 for(int i=0;i<nbOfComp;i++)
3973 v2[i]=slic.first+i*slic.second.second;
3974 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aarr=static_cast<DataArrayDouble *>(ret0Arr->keepSelectedComponents(v2));
3975 ret0->setArray(aarr);
3979 throw INTERP_KERNEL::Exception(msg);
3984 return ParaMEDMEM_MEDCouplingFieldDouble_buildSubPart(self,li);
3987 PyObject *getMaxValue2() const throw(INTERP_KERNEL::Exception)
3990 double r1=self->getMaxValue2(tmp);
3991 PyObject *ret=PyTuple_New(2);
3992 PyTuple_SetItem(ret,0,PyFloat_FromDouble(r1));
3993 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(tmp),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
3997 PyObject *getMinValue2() const throw(INTERP_KERNEL::Exception)
4000 double r1=self->getMinValue2(tmp);
4001 PyObject *ret=PyTuple_New(2);
4002 PyTuple_SetItem(ret,0,PyFloat_FromDouble(r1));
4003 PyTuple_SetItem(ret,1,SWIG_NewPointerObj(SWIG_as_voidptr(tmp),SWIGTYPE_p_ParaMEDMEM__DataArrayInt, SWIG_POINTER_OWN | 0 ));
4007 MEDCouplingFieldDouble *keepSelectedComponents(PyObject *li) const throw(INTERP_KERNEL::Exception)
4009 std::vector<int> tmp;
4010 convertPyToNewIntArr3(li,tmp);
4011 return self->keepSelectedComponents(tmp);
4014 void setSelectedComponents(const MEDCouplingFieldDouble *f, PyObject *li) throw(INTERP_KERNEL::Exception)
4016 std::vector<int> tmp;
4017 convertPyToNewIntArr3(li,tmp);
4018 self->setSelectedComponents(f,tmp);
4021 MEDCouplingFieldDouble *extractSlice3D(PyObject *origin, PyObject *vec, double eps) const throw(INTERP_KERNEL::Exception)
4024 DataArrayDouble *a,*a2;
4025 DataArrayDoubleTuple *aa,*aa2;
4026 std::vector<double> bb,bb2;
4029 const char msg[]="Python wrap of MEDCouplingFieldDouble::extractSlice3D : 1st paramater for origin.";
4030 const char msg2[]="Python wrap of MEDCouplingFieldDouble::extractSlice3D : 2nd paramater for vector.";
4031 const double *orig=convertObjToPossibleCpp5_Safe(origin,sw,val,a,aa,bb,msg,1,spaceDim,true);
4032 const double *vect=convertObjToPossibleCpp5_Safe(vec,sw,val2,a2,aa2,bb2,msg2,1,spaceDim,true);
4034 return self->extractSlice3D(orig,vect,eps);
4037 MEDCouplingFieldDouble *__add__(PyObject *obj) throw(INTERP_KERNEL::Exception)
4039 return ParaMEDMEM_MEDCouplingFieldDouble___add__Impl(self,obj);
4042 MEDCouplingFieldDouble *__radd__(PyObject *obj) throw(INTERP_KERNEL::Exception)
4044 return ParaMEDMEM_MEDCouplingFieldDouble___radd__Impl(self,obj);
4047 MEDCouplingFieldDouble *__sub__(PyObject *obj) throw(INTERP_KERNEL::Exception)
4049 const char msg[]="Unexpected situation in MEDCouplingFieldDouble.__sub__ ! Expecting a not null MEDCouplingFieldDouble or DataArrayDouble or DataArrayDoubleTuple instance, or a list of double, or a double.";
4050 const char msg2[]="in MEDCouplingFieldDouble.__sub__ : self field has no Array of values set !";
4053 if(SWIG_IsOK(SWIG_ConvertPtr(obj,&argp,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,0|0)))
4055 MEDCouplingFieldDouble *other=reinterpret_cast< ParaMEDMEM::MEDCouplingFieldDouble * >(argp);
4057 return (*self)-(*other);
4059 throw INTERP_KERNEL::Exception(msg);
4064 DataArrayDoubleTuple *aa;
4065 std::vector<double> bb;
4067 convertObjToPossibleCpp5(obj,sw,val,a,aa,bb);
4072 if(!self->getArray())
4073 throw INTERP_KERNEL::Exception(msg2);
4074 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=self->getArray()->deepCpy();
4075 ret->applyLin(1.,-val);
4076 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4077 ret2->setArray(ret);
4082 if(!self->getArray())
4083 throw INTERP_KERNEL::Exception(msg2);
4084 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=DataArrayDouble::Substract(self->getArray(),a);
4085 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4086 ret2->setArray(ret);
4091 if(!self->getArray())
4092 throw INTERP_KERNEL::Exception(msg2);
4093 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=aa->buildDADouble(1,self->getNumberOfComponents());
4094 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=DataArrayDouble::Substract(self->getArray(),aaa);
4095 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4096 ret2->setArray(ret);
4101 if(!self->getArray())
4102 throw INTERP_KERNEL::Exception(msg2);
4103 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=DataArrayDouble::New(); aaa->useArray(&bb[0],false,CPP_DEALLOC,1,(int)bb.size());
4104 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=DataArrayDouble::Substract(self->getArray(),aaa);
4105 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4106 ret2->setArray(ret);
4110 { throw INTERP_KERNEL::Exception(msg); }
4114 MEDCouplingFieldDouble *__rsub__(PyObject *obj) throw(INTERP_KERNEL::Exception)
4116 return ParaMEDMEM_MEDCouplingFieldDouble___rsub__Impl(self,obj);
4119 MEDCouplingFieldDouble *__mul__(PyObject *obj) throw(INTERP_KERNEL::Exception)
4121 return ParaMEDMEM_MEDCouplingFieldDouble___mul__Impl(self,obj);
4124 MEDCouplingFieldDouble *__rmul__(PyObject *obj) throw(INTERP_KERNEL::Exception)
4126 return ParaMEDMEM_MEDCouplingFieldDouble___rmul__Impl(self,obj);
4129 MEDCouplingFieldDouble *__div__(PyObject *obj) throw(INTERP_KERNEL::Exception)
4131 const char msg[]="Unexpected situation in MEDCouplingFieldDouble.__div__ ! Expecting a not null MEDCouplingFieldDouble or DataArrayDouble or DataArrayDoubleTuple instance, or a list of double, or a double.";
4132 const char msg2[]="in MEDCouplingFieldDouble.__div__ : self field has no Array of values set !";
4135 if(SWIG_IsOK(SWIG_ConvertPtr(obj,&argp,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,0|0)))
4137 MEDCouplingFieldDouble *other=reinterpret_cast< ParaMEDMEM::MEDCouplingFieldDouble * >(argp);
4139 return (*self)/(*other);
4141 throw INTERP_KERNEL::Exception(msg);
4146 DataArrayDoubleTuple *aa;
4147 std::vector<double> bb;
4149 convertObjToPossibleCpp5(obj,sw,val,a,aa,bb);
4155 throw INTERP_KERNEL::Exception("MEDCouplingFieldDouble.__div__ : trying to divide by zero !");
4156 if(!self->getArray())
4157 throw INTERP_KERNEL::Exception(msg2);
4158 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=self->getArray()->deepCpy();
4159 ret->applyLin(1./val,0);
4160 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4161 ret2->setArray(ret);
4166 if(!self->getArray())
4167 throw INTERP_KERNEL::Exception(msg2);
4168 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=DataArrayDouble::Divide(self->getArray(),a);
4169 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4170 ret2->setArray(ret);
4175 if(!self->getArray())
4176 throw INTERP_KERNEL::Exception(msg2);
4177 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=aa->buildDADouble(1,self->getNumberOfComponents());
4178 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=DataArrayDouble::Divide(self->getArray(),aaa);
4179 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4180 ret2->setArray(ret);
4185 if(!self->getArray())
4186 throw INTERP_KERNEL::Exception(msg2);
4187 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=DataArrayDouble::New(); aaa->useArray(&bb[0],false,CPP_DEALLOC,1,(int)bb.size());
4188 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=DataArrayDouble::Divide(self->getArray(),aaa);
4189 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4190 ret2->setArray(ret);
4194 { throw INTERP_KERNEL::Exception(msg); }
4198 MEDCouplingFieldDouble *__rdiv__(PyObject *obj) throw(INTERP_KERNEL::Exception)
4200 return ParaMEDMEM_MEDCouplingFieldDouble___rdiv__Impl(self,obj);
4203 MEDCouplingFieldDouble *__pow__(PyObject *obj) throw(INTERP_KERNEL::Exception)
4205 const char msg[]="Unexpected situation in MEDCouplingFieldDouble.__pow__ ! Expecting a not null MEDCouplingFieldDouble or DataArrayDouble or DataArrayDoubleTuple instance, or a list of double, or a double.";
4206 const char msg2[]="in MEDCouplingFieldDouble.__pow__ : self field has no Array of values set !";
4209 if(SWIG_IsOK(SWIG_ConvertPtr(obj,&argp,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,0|0)))
4211 MEDCouplingFieldDouble *other=reinterpret_cast< ParaMEDMEM::MEDCouplingFieldDouble * >(argp);
4213 return (*self)^(*other);
4215 throw INTERP_KERNEL::Exception(msg);
4220 DataArrayDoubleTuple *aa;
4221 std::vector<double> bb;
4223 convertObjToPossibleCpp5(obj,sw,val,a,aa,bb);
4228 if(!self->getArray())
4229 throw INTERP_KERNEL::Exception(msg2);
4230 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=self->getArray()->deepCpy();
4232 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4233 ret2->setArray(ret);
4238 if(!self->getArray())
4239 throw INTERP_KERNEL::Exception(msg2);
4240 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=DataArrayDouble::Pow(self->getArray(),a);
4241 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4242 ret2->setArray(ret);
4247 if(!self->getArray())
4248 throw INTERP_KERNEL::Exception(msg2);
4249 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=aa->buildDADouble(1,self->getNumberOfComponents());
4250 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=DataArrayDouble::Pow(self->getArray(),aaa);
4251 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4252 ret2->setArray(ret);
4257 if(!self->getArray())
4258 throw INTERP_KERNEL::Exception(msg2);
4259 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=DataArrayDouble::New(); aaa->useArray(&bb[0],false,CPP_DEALLOC,1,(int)bb.size());
4260 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> ret=DataArrayDouble::Pow(self->getArray(),aaa);
4261 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4262 ret2->setArray(ret);
4266 { throw INTERP_KERNEL::Exception(msg); }
4270 MEDCouplingFieldDouble *__neg__() const throw(INTERP_KERNEL::Exception)
4272 return self->negate();
4275 PyObject *___iadd___(PyObject *trueSelf, PyObject *obj) throw(INTERP_KERNEL::Exception)
4277 const char msg[]="Unexpected situation in MEDCouplingFieldDouble.__iadd__ ! Expecting a not null MEDCouplingFieldDouble or DataArrayDouble or DataArrayDoubleTuple instance, or a list of double, or a double.";
4278 const char msg2[]="in MEDCouplingFieldDouble.__iadd__ : self field has no Array of values set !";
4281 if(SWIG_IsOK(SWIG_ConvertPtr(obj,&argp,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,0|0)))
4283 MEDCouplingFieldDouble *other=reinterpret_cast< ParaMEDMEM::MEDCouplingFieldDouble * >(argp);
4287 Py_XINCREF(trueSelf);
4291 throw INTERP_KERNEL::Exception(msg);
4296 DataArrayDoubleTuple *aa;
4297 std::vector<double> bb;
4299 convertObjToPossibleCpp5(obj,sw,val,a,aa,bb);
4304 if(!self->getArray())
4305 throw INTERP_KERNEL::Exception(msg2);
4306 self->getArray()->applyLin(1.,val);
4307 Py_XINCREF(trueSelf);
4312 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4315 Py_XINCREF(trueSelf);
4320 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=aa->buildDADouble(1,self->getNumberOfComponents());
4321 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4322 ret2->setArray(aaa);
4324 Py_XINCREF(trueSelf);
4329 if(!self->getArray())
4330 throw INTERP_KERNEL::Exception(msg2);
4331 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=DataArrayDouble::New(); aaa->useArray(&bb[0],false,CPP_DEALLOC,1,(int)bb.size());
4332 self->getArray()->addEqual(aaa);
4333 Py_XINCREF(trueSelf);
4337 { throw INTERP_KERNEL::Exception(msg); }
4341 PyObject *___isub___(PyObject *trueSelf, PyObject *obj) throw(INTERP_KERNEL::Exception)
4343 const char msg[]="Unexpected situation in MEDCouplingFieldDouble.__isub__ ! Expecting a not null MEDCouplingFieldDouble or DataArrayDouble or DataArrayDoubleTuple instance, or a list of double, or a double.";
4344 const char msg2[]="in MEDCouplingFieldDouble.__isub__ : self field has no Array of values set !";
4347 if(SWIG_IsOK(SWIG_ConvertPtr(obj,&argp,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,0|0)))
4349 MEDCouplingFieldDouble *other=reinterpret_cast< ParaMEDMEM::MEDCouplingFieldDouble * >(argp);
4353 Py_XINCREF(trueSelf);
4357 throw INTERP_KERNEL::Exception(msg);
4362 DataArrayDoubleTuple *aa;
4363 std::vector<double> bb;
4365 convertObjToPossibleCpp5(obj,sw,val,a,aa,bb);
4370 if(!self->getArray())
4371 throw INTERP_KERNEL::Exception(msg2);
4372 self->getArray()->applyLin(1.,-val);
4373 Py_XINCREF(trueSelf);
4378 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4381 Py_XINCREF(trueSelf);
4386 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=aa->buildDADouble(1,self->getNumberOfComponents());
4387 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4388 ret2->setArray(aaa);
4390 Py_XINCREF(trueSelf);
4395 if(!self->getArray())
4396 throw INTERP_KERNEL::Exception(msg2);
4397 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=DataArrayDouble::New(); aaa->useArray(&bb[0],false,CPP_DEALLOC,1,(int)bb.size());
4398 self->getArray()->substractEqual(aaa);
4399 Py_XINCREF(trueSelf);
4403 { throw INTERP_KERNEL::Exception(msg); }
4407 PyObject *___imul___(PyObject *trueSelf, PyObject *obj) throw(INTERP_KERNEL::Exception)
4409 const char msg[]="Unexpected situation in MEDCouplingFieldDouble.__imul__ ! Expecting a not null MEDCouplingFieldDouble or DataArrayDouble or DataArrayDoubleTuple instance, or a list of double, or a double.";
4410 const char msg2[]="in MEDCouplingFieldDouble.__imul__ : self field has no Array of values set !";
4413 if(SWIG_IsOK(SWIG_ConvertPtr(obj,&argp,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,0|0)))
4415 MEDCouplingFieldDouble *other=reinterpret_cast< ParaMEDMEM::MEDCouplingFieldDouble * >(argp);
4419 Py_XINCREF(trueSelf);
4423 throw INTERP_KERNEL::Exception(msg);
4428 DataArrayDoubleTuple *aa;
4429 std::vector<double> bb;
4431 convertObjToPossibleCpp5(obj,sw,val,a,aa,bb);
4436 if(!self->getArray())
4437 throw INTERP_KERNEL::Exception(msg2);
4438 self->getArray()->applyLin(val,0);
4439 Py_XINCREF(trueSelf);
4444 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4447 Py_XINCREF(trueSelf);
4452 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=aa->buildDADouble(1,self->getNumberOfComponents());
4453 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4454 ret2->setArray(aaa);
4456 Py_XINCREF(trueSelf);
4461 if(!self->getArray())
4462 throw INTERP_KERNEL::Exception(msg2);
4463 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=DataArrayDouble::New(); aaa->useArray(&bb[0],false,CPP_DEALLOC,1,(int)bb.size());
4464 self->getArray()->multiplyEqual(aaa);
4465 Py_XINCREF(trueSelf);
4469 { throw INTERP_KERNEL::Exception(msg); }
4473 PyObject *___idiv___(PyObject *trueSelf, PyObject *obj) throw(INTERP_KERNEL::Exception)
4475 const char msg[]="Unexpected situation in MEDCouplingFieldDouble.__idiv__ ! Expecting a not null MEDCouplingFieldDouble or DataArrayDouble or DataArrayDoubleTuple instance, or a list of double, or a double.";
4476 const char msg2[]="in MEDCouplingFieldDouble.__idiv__ : self field has no Array of values set !";
4479 if(SWIG_IsOK(SWIG_ConvertPtr(obj,&argp,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,0|0)))
4481 MEDCouplingFieldDouble *other=reinterpret_cast< ParaMEDMEM::MEDCouplingFieldDouble * >(argp);
4485 Py_XINCREF(trueSelf);
4489 throw INTERP_KERNEL::Exception(msg);
4494 DataArrayDoubleTuple *aa;
4495 std::vector<double> bb;
4497 convertObjToPossibleCpp5(obj,sw,val,a,aa,bb);
4503 throw INTERP_KERNEL::Exception("MEDCouplingFieldDouble.__idiv__ : trying to divide by zero !");
4504 if(!self->getArray())
4505 throw INTERP_KERNEL::Exception(msg2);
4506 self->getArray()->applyLin(1./val,0);
4507 Py_XINCREF(trueSelf);
4512 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4515 Py_XINCREF(trueSelf);
4520 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=aa->buildDADouble(1,self->getNumberOfComponents());
4521 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4522 ret2->setArray(aaa);
4524 Py_XINCREF(trueSelf);
4529 if(!self->getArray())
4530 throw INTERP_KERNEL::Exception(msg2);
4531 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=DataArrayDouble::New(); aaa->useArray(&bb[0],false,CPP_DEALLOC,1,(int)bb.size());
4532 self->getArray()->divideEqual(aaa);
4533 Py_XINCREF(trueSelf);
4537 { throw INTERP_KERNEL::Exception(msg); }
4541 PyObject *___ipow___(PyObject *trueSelf, PyObject *obj) throw(INTERP_KERNEL::Exception)
4543 const char msg[]="Unexpected situation in MEDCouplingFieldDouble.__ipow__ ! Expecting a not null MEDCouplingFieldDouble or DataArrayDouble or DataArrayDoubleTuple instance, or a list of double, or a double.";
4544 const char msg2[]="in MEDCouplingFieldDouble.__ipow__ : self field has no Array of values set !";
4547 if(SWIG_IsOK(SWIG_ConvertPtr(obj,&argp,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,0|0)))
4549 MEDCouplingFieldDouble *other=reinterpret_cast< ParaMEDMEM::MEDCouplingFieldDouble * >(argp);
4553 Py_XINCREF(trueSelf);
4557 throw INTERP_KERNEL::Exception(msg);
4562 DataArrayDoubleTuple *aa;
4563 std::vector<double> bb;
4565 convertObjToPossibleCpp5(obj,sw,val,a,aa,bb);
4570 if(!self->getArray())
4571 throw INTERP_KERNEL::Exception(msg2);
4572 self->getArray()->applyPow(val);
4573 Py_XINCREF(trueSelf);
4578 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4581 Py_XINCREF(trueSelf);
4586 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=aa->buildDADouble(1,self->getNumberOfComponents());
4587 MEDCouplingAutoRefCountObjectPtr<MEDCouplingFieldDouble> ret2=self->clone(false);
4588 ret2->setArray(aaa);
4590 Py_XINCREF(trueSelf);
4595 if(!self->getArray())
4596 throw INTERP_KERNEL::Exception(msg2);
4597 MEDCouplingAutoRefCountObjectPtr<DataArrayDouble> aaa=DataArrayDouble::New(); aaa->useArray(&bb[0],false,CPP_DEALLOC,1,(int)bb.size());
4598 self->getArray()->powEqual(aaa);
4599 Py_XINCREF(trueSelf);
4603 { throw INTERP_KERNEL::Exception(msg); }
4607 static MEDCouplingFieldDouble *MergeFields(PyObject *li) throw(INTERP_KERNEL::Exception)
4609 std::vector<const MEDCouplingFieldDouble *> tmp;
4610 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCouplingFieldDouble *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,"MEDCouplingFieldDouble",tmp);
4611 return MEDCouplingFieldDouble::MergeFields(tmp);
4614 static std::string WriteVTK(const char *fileName, PyObject *li, bool isBinary=true) throw(INTERP_KERNEL::Exception)
4616 std::vector<const MEDCouplingFieldDouble *> tmp;
4617 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCouplingFieldDouble *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,"MEDCouplingFieldDouble",tmp);
4618 return MEDCouplingFieldDouble::WriteVTK(fileName,tmp,isBinary);
4623 class MEDCouplingMultiFields : public RefCountObject, public TimeLabel
4626 int getNumberOfFields() const;
4627 MEDCouplingMultiFields *deepCpy() const;
4628 virtual std::string simpleRepr() const throw(INTERP_KERNEL::Exception);
4629 virtual std::string advancedRepr() const throw(INTERP_KERNEL::Exception);
4630 virtual bool isEqual(const MEDCouplingMultiFields *other, double meshPrec, double valsPrec) const;
4631 virtual bool isEqualWithoutConsideringStr(const MEDCouplingMultiFields *other, double meshPrec, double valsPrec) const;
4632 virtual void checkCoherency() const throw(INTERP_KERNEL::Exception);
4635 std::string __str__() const throw(INTERP_KERNEL::Exception)
4637 return self->simpleRepr();
4639 static MEDCouplingMultiFields *New(PyObject *li) throw(INTERP_KERNEL::Exception)
4641 std::vector<const ParaMEDMEM::MEDCouplingFieldDouble *> tmp;
4642 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCouplingFieldDouble *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,"MEDCouplingFieldDouble",tmp);
4644 std::vector<MEDCouplingFieldDouble *> fs(sz);
4645 for(int i=0;i<sz;i++)
4646 fs[i]=const_cast<MEDCouplingFieldDouble *>(tmp[i]);
4647 return MEDCouplingMultiFields::New(fs);
4649 MEDCouplingMultiFields(PyObject *li) throw(INTERP_KERNEL::Exception)
4651 std::vector<const ParaMEDMEM::MEDCouplingFieldDouble *> tmp;
4652 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCouplingFieldDouble *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,"MEDCouplingFieldDouble",tmp);
4654 std::vector<MEDCouplingFieldDouble *> fs(sz);
4655 for(int i=0;i<sz;i++)
4656 fs[i]=const_cast<MEDCouplingFieldDouble *>(tmp[i]);
4657 return MEDCouplingMultiFields::New(fs);
4659 PyObject *getFields() const
4661 std::vector<const MEDCouplingFieldDouble *> fields=self->getFields();
4662 int sz=fields.size();
4663 PyObject *res = PyList_New(sz);
4664 for(int i=0;i<sz;i++)
4668 fields[i]->incrRef();
4669 PyList_SetItem(res,i,SWIG_NewPointerObj(SWIG_as_voidptr(fields[i]),SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble, SWIG_POINTER_OWN | 0 ));
4673 PyList_SetItem(res,i,SWIG_NewPointerObj(SWIG_as_voidptr(0),SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble, 0 ));
4678 PyObject *getFieldAtPos(int id) const throw(INTERP_KERNEL::Exception)
4680 const MEDCouplingFieldDouble *ret=self->getFieldAtPos(id);
4684 return SWIG_NewPointerObj(SWIG_as_voidptr(ret),SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble, SWIG_POINTER_OWN | 0 );
4687 return SWIG_NewPointerObj(SWIG_as_voidptr(0),SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble, 0 );
4689 PyObject *getMeshes() const throw(INTERP_KERNEL::Exception)
4691 std::vector<MEDCouplingMesh *> ms=self->getMeshes();
4693 PyObject *res = PyList_New(sz);
4694 for(int i=0;i<sz;i++)
4699 PyList_SetItem(res,i,convertMesh(ms[i], SWIG_POINTER_OWN | 0 ));
4703 PyList_SetItem(res,i,SWIG_NewPointerObj(SWIG_as_voidptr(0),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, 0 ));
4708 PyObject *getDifferentMeshes() const throw(INTERP_KERNEL::Exception)
4710 std::vector<int> refs;
4711 std::vector<MEDCouplingMesh *> ms=self->getDifferentMeshes(refs);
4713 PyObject *res = PyList_New(sz);
4714 for(int i=0;i<sz;i++)
4719 PyList_SetItem(res,i,convertMesh(ms[i], SWIG_POINTER_OWN | 0 ));
4723 PyList_SetItem(res,i,SWIG_NewPointerObj(SWIG_as_voidptr(0),SWIGTYPE_p_ParaMEDMEM__MEDCouplingUMesh, 0 ));
4727 PyObject *ret=PyTuple_New(2);
4728 PyTuple_SetItem(ret,0,res);
4729 PyTuple_SetItem(ret,1,convertIntArrToPyList2(refs));
4732 PyObject *getArrays() const throw(INTERP_KERNEL::Exception)
4734 std::vector<DataArrayDouble *> ms=self->getArrays();
4736 PyObject *res = PyList_New(sz);
4737 for(int i=0;i<sz;i++)
4742 PyList_SetItem(res,i,SWIG_NewPointerObj(SWIG_as_voidptr(ms[i]),SWIGTYPE_p_ParaMEDMEM__DataArrayDouble, SWIG_POINTER_OWN | 0 ));
4746 PyList_SetItem(res,i,SWIG_NewPointerObj(SWIG_as_voidptr(0),SWIGTYPE_p_ParaMEDMEM__DataArrayDouble, 0 ));
4751 PyObject *getDifferentArrays() const throw(INTERP_KERNEL::Exception)
4753 std::vector< std::vector<int> > refs;
4754 std::vector<DataArrayDouble *> ms=self->getDifferentArrays(refs);
4756 PyObject *res = PyList_New(sz);
4757 PyObject *res2 = PyList_New(sz);
4758 for(int i=0;i<sz;i++)
4763 PyList_SetItem(res,i,SWIG_NewPointerObj(SWIG_as_voidptr(ms[i]),SWIGTYPE_p_ParaMEDMEM__DataArrayDouble, SWIG_POINTER_OWN | 0 ));
4767 PyList_SetItem(res,i,SWIG_NewPointerObj(SWIG_as_voidptr(0),SWIGTYPE_p_ParaMEDMEM__DataArrayDouble, 0 ));
4769 PyList_SetItem(res2,i,convertIntArrToPyList2(refs[i]));
4772 PyObject *ret=PyTuple_New(2);
4773 PyTuple_SetItem(ret,0,res);
4774 PyTuple_SetItem(ret,1,res2);
4780 class MEDCouplingDefinitionTime
4783 MEDCouplingDefinitionTime();
4784 void assign(const MEDCouplingDefinitionTime& other);
4785 bool isEqual(const MEDCouplingDefinitionTime& other) const;
4786 double getTimeResolution() const;
4787 std::vector<double> getHotSpotsTime() const;
4790 std::string __str__() const throw(INTERP_KERNEL::Exception)
4792 std::ostringstream oss;
4793 self->appendRepr(oss);
4797 PyObject *getIdsOnTimeRight(double tm) const throw(INTERP_KERNEL::Exception)
4799 int meshId,arrId,arrIdInField,fieldId;
4800 self->getIdsOnTimeRight(tm,meshId,arrId,arrIdInField,fieldId);
4801 PyObject *res=PyList_New(4);
4802 PyList_SetItem(res,0,PyInt_FromLong(meshId));
4803 PyList_SetItem(res,1,PyInt_FromLong(arrId));
4804 PyList_SetItem(res,2,PyInt_FromLong(arrIdInField));
4805 PyList_SetItem(res,3,PyInt_FromLong(fieldId));
4809 PyObject *getIdsOnTimeLeft(double tm) const throw(INTERP_KERNEL::Exception)
4811 int meshId,arrId,arrIdInField,fieldId;
4812 self->getIdsOnTimeLeft(tm,meshId,arrId,arrIdInField,fieldId);
4813 PyObject *res=PyList_New(4);
4814 PyList_SetItem(res,0,PyInt_FromLong(meshId));
4815 PyList_SetItem(res,1,PyInt_FromLong(arrId));
4816 PyList_SetItem(res,2,PyInt_FromLong(arrIdInField));
4817 PyList_SetItem(res,3,PyInt_FromLong(fieldId));
4823 class MEDCouplingFieldOverTime : public MEDCouplingMultiFields
4826 double getTimeTolerance() const throw(INTERP_KERNEL::Exception);
4827 MEDCouplingDefinitionTime getDefinitionTimeZone() const;
4831 MEDCouplingFieldOverTime(PyObject *li) throw(INTERP_KERNEL::Exception)
4833 std::vector<const ParaMEDMEM::MEDCouplingFieldDouble *> tmp;
4834 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCouplingFieldDouble *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,"MEDCouplingFieldDouble",tmp);
4836 std::vector<MEDCouplingFieldDouble *> fs(sz);
4837 for(int i=0;i<sz;i++)
4838 fs[i]=const_cast<MEDCouplingFieldDouble *>(tmp[i]);
4839 return MEDCouplingFieldOverTime::New(fs);
4841 std::string __str__() const throw(INTERP_KERNEL::Exception)
4843 return self->simpleRepr();
4845 static MEDCouplingFieldOverTime *New(PyObject *li) throw(INTERP_KERNEL::Exception)
4847 std::vector<const ParaMEDMEM::MEDCouplingFieldDouble *> tmp;
4848 convertFromPyObjVectorOfObj<const ParaMEDMEM::MEDCouplingFieldDouble *>(li,SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,"MEDCouplingFieldDouble",tmp);
4850 std::vector<MEDCouplingFieldDouble *> fs(sz);
4851 for(int i=0;i<sz;i++)
4852 fs[i]=const_cast<MEDCouplingFieldDouble *>(tmp[i]);
4853 return MEDCouplingFieldOverTime::New(fs);
4858 class MEDCouplingCartesianAMRMesh;
4860 class MEDCouplingCartesianAMRPatchGen : public RefCountObject
4863 int getNumberOfCellsRecursiveWithOverlap() const throw(INTERP_KERNEL::Exception);
4864 int getNumberOfCellsRecursiveWithoutOverlap() const throw(INTERP_KERNEL::Exception);
4865 int getMaxNumberOfLevelsRelativeToThis() const throw(INTERP_KERNEL::Exception);
4868 MEDCouplingCartesianAMRMeshGen *getMesh() const throw(INTERP_KERNEL::Exception)
4870 MEDCouplingCartesianAMRMeshGen *ret(const_cast<MEDCouplingCartesianAMRMeshGen *>(self->getMesh()));
4878 class MEDCouplingCartesianAMRPatch : public MEDCouplingCartesianAMRPatchGen
4881 int getNumberOfOverlapedCellsForFather() const throw(INTERP_KERNEL::Exception);
4882 bool isInMyNeighborhood(const MEDCouplingCartesianAMRPatch *other, int ghostLev) const throw(INTERP_KERNEL::Exception);
4883 std::vector<int> computeCellGridSt() const throw(INTERP_KERNEL::Exception);
4886 PyObject *getBLTRRange() const throw(INTERP_KERNEL::Exception)
4888 const std::vector< std::pair<int,int> >& ret(self->getBLTRRange());
4889 return convertFromVectorPairInt(ret);
4892 void addPatch(PyObject *bottomLeftTopRight, const std::vector<int>& factors) throw(INTERP_KERNEL::Exception)
4894 std::vector< std::pair<int,int> > inp;
4895 convertPyToVectorPairInt(bottomLeftTopRight,inp);
4896 self->addPatch(inp,factors);
4899 MEDCouplingCartesianAMRPatch *__getitem__(int patchId) const throw(INTERP_KERNEL::Exception)
4901 const MEDCouplingCartesianAMRMeshGen *mesh(self->getMesh());
4903 throw INTERP_KERNEL::Exception("wrap MEDCouplingCartesianAMRPatchGen.__getitem__ : no underlying mesh !");
4904 if(patchId==mesh->getNumberOfPatches())
4906 std::ostringstream oss;
4907 oss << "Requesting for patchId " << patchId << " having only " << mesh->getNumberOfPatches() << " patches !";
4908 PyErr_SetString(PyExc_StopIteration,oss.str().c_str());
4911 MEDCouplingCartesianAMRPatch *ret(const_cast<MEDCouplingCartesianAMRPatch *>(mesh->getPatch(patchId)));
4917 void __delitem__(int patchId) throw(INTERP_KERNEL::Exception)
4919 MEDCouplingCartesianAMRMeshGen *mesh(const_cast<MEDCouplingCartesianAMRMeshGen *>(self->getMesh()));
4921 throw INTERP_KERNEL::Exception("wrap MEDCouplingCartesianAMRPatch.__delitem__ : no underlying mesh !");
4922 mesh->removePatch(patchId);
4925 int __len__() const throw(INTERP_KERNEL::Exception)
4927 const MEDCouplingCartesianAMRMeshGen *mesh(self->getMesh());
4929 throw INTERP_KERNEL::Exception("wrap MEDCouplingCartesianAMRPatch.__len__ : no underlying mesh !");
4930 return mesh->getNumberOfPatches();
4935 class MEDCouplingCartesianAMRPatchGF : public MEDCouplingCartesianAMRPatchGen
4939 class MEDCouplingCartesianAMRMeshGen : public RefCountObject, public TimeLabel
4942 int getAbsoluteLevel() const throw(INTERP_KERNEL::Exception);
4943 int getAbsoluteLevelRelativeTo(const MEDCouplingCartesianAMRMeshGen *ref) const throw(INTERP_KERNEL::Exception);
4944 std::vector<int> getPositionRelativeTo(const MEDCouplingCartesianAMRMeshGen *ref) const throw(INTERP_KERNEL::Exception);
4945 int getSpaceDimension() const throw(INTERP_KERNEL::Exception);
4946 const std::vector<int>& getFactors() const throw(INTERP_KERNEL::Exception);
4947 void setFactors(const std::vector<int>& newFactors) throw(INTERP_KERNEL::Exception);
4948 int getMaxNumberOfLevelsRelativeToThis() const throw(INTERP_KERNEL::Exception);
4949 int getNumberOfCellsAtCurrentLevel() const throw(INTERP_KERNEL::Exception);
4950 int getNumberOfCellsAtCurrentLevelGhost(int ghostLev) const throw(INTERP_KERNEL::Exception);
4951 int getNumberOfCellsRecursiveWithOverlap() const throw(INTERP_KERNEL::Exception);
4952 int getNumberOfCellsRecursiveWithoutOverlap() const throw(INTERP_KERNEL::Exception);
4953 bool isPatchInNeighborhoodOf(int patchId1, int patchId2, int ghostLev) const throw(INTERP_KERNEL::Exception);
4954 virtual void detachFromFather() throw(INTERP_KERNEL::Exception);
4956 int getNumberOfPatches() const throw(INTERP_KERNEL::Exception);
4957 int getPatchIdFromChildMesh(const MEDCouplingCartesianAMRMeshGen *mesh) const throw(INTERP_KERNEL::Exception);
4958 MEDCouplingUMesh *buildUnstructured() const throw(INTERP_KERNEL::Exception);
4959 DataArrayDouble *extractGhostFrom(int ghostSz, const DataArrayDouble *arr) const throw(INTERP_KERNEL::Exception);
4960 std::vector<int> getPatchIdsInTheNeighborhoodOf(int patchId, int ghostLev) const throw(INTERP_KERNEL::Exception);
4961 MEDCoupling1SGTUMesh *buildMeshFromPatchEnvelop() const throw(INTERP_KERNEL::Exception);
4962 MEDCoupling1SGTUMesh *buildMeshOfDirectChildrenOnly() const throw(INTERP_KERNEL::Exception);
4963 void removeAllPatches() throw(INTERP_KERNEL::Exception);
4964 void removePatch(int patchId) throw(INTERP_KERNEL::Exception);
4965 void createPatchesFromCriterion(const INTERP_KERNEL::BoxSplittingOptions& bso, const DataArrayByte *criterion, const std::vector<int>& factors) throw(INTERP_KERNEL::Exception);
4966 void createPatchesFromCriterion(const INTERP_KERNEL::BoxSplittingOptions& bso, const DataArrayDouble *criterion, const std::vector<int>& factors, double eps) throw(INTERP_KERNEL::Exception);
4967 DataArrayDouble *createCellFieldOnPatch(int patchId, const DataArrayDouble *cellFieldOnThis) const throw(INTERP_KERNEL::Exception);
4968 void fillCellFieldOnPatch(int patchId, const DataArrayDouble *cellFieldOnThis, DataArrayDouble *cellFieldOnPatch, bool isConservative=true) const throw(INTERP_KERNEL::Exception);
4969 void fillCellFieldOnPatchGhost(int patchId, const DataArrayDouble *cellFieldOnThis, DataArrayDouble *cellFieldOnPatch, int ghostLev, bool isConservative=true) const throw(INTERP_KERNEL::Exception);
4970 void fillCellFieldOnPatchOnlyOnGhostZone(int patchId, const DataArrayDouble *cellFieldOnThis, DataArrayDouble *cellFieldOnPatch, int ghostLev) const throw(INTERP_KERNEL::Exception);
4971 void fillCellFieldOnPatchOnlyOnGhostZoneWith(int ghostLev, const MEDCouplingCartesianAMRPatch *patchToBeModified, const MEDCouplingCartesianAMRPatch *neighborPatch, DataArrayDouble *cellFieldOnPatch, const DataArrayDouble *cellFieldNeighbor) const;
4972 void fillCellFieldComingFromPatch(int patchId, const DataArrayDouble *cellFieldOnPatch, DataArrayDouble *cellFieldOnThis, bool isConservative=true) const throw(INTERP_KERNEL::Exception);
4973 void fillCellFieldComingFromPatchGhost(int patchId, const DataArrayDouble *cellFieldOnPatch, DataArrayDouble *cellFieldOnThis, int ghostLev, bool isConservative=true) const throw(INTERP_KERNEL::Exception);
4974 DataArrayInt *findPatchesInTheNeighborhoodOf(int patchId, int ghostLev) const throw(INTERP_KERNEL::Exception);
4975 std::string buildPythonDumpOfThis() const throw(INTERP_KERNEL::Exception);
4978 void addPatch(PyObject *bottomLeftTopRight, const std::vector<int>& factors) throw(INTERP_KERNEL::Exception)
4980 std::vector< std::pair<int,int> > inp;
4981 convertPyToVectorPairInt(bottomLeftTopRight,inp);
4982 self->addPatch(inp,factors);
4985 PyObject *getPatches() const throw(INTERP_KERNEL::Exception)
4987 std::vector< const MEDCouplingCartesianAMRPatch *> ps(self->getPatches());
4989 PyObject *ret = PyList_New(sz);
4990 for(int i=0;i<sz;i++)
4992 MEDCouplingCartesianAMRPatch *elt(const_cast<MEDCouplingCartesianAMRPatch *>(ps[i]));
4995 PyList_SetItem(ret,i,convertCartesianAMRPatch(elt, SWIG_POINTER_OWN | 0 ));
5000 // agy : don't know why typemap fails here ??? let it in the extend section
5001 PyObject *deepCpy(MEDCouplingCartesianAMRMeshGen *father) const throw(INTERP_KERNEL::Exception)
5003 return convertCartesianAMRMesh(self->deepCpy(father), SWIG_POINTER_OWN | 0 );
5006 MEDCouplingCartesianAMRPatch *getPatchAtPosition(const std::vector<int>& pos) const throw(INTERP_KERNEL::Exception)
5008 const MEDCouplingCartesianAMRPatch *ret(self->getPatchAtPosition(pos));
5009 MEDCouplingCartesianAMRPatch *ret2(const_cast<MEDCouplingCartesianAMRPatch *>(ret));
5015 MEDCouplingCartesianAMRMeshGen *getMeshAtPosition(const std::vector<int>& pos) const throw(INTERP_KERNEL::Exception)
5017 const MEDCouplingCartesianAMRMeshGen *ret(self->getMeshAtPosition(pos));
5018 MEDCouplingCartesianAMRMeshGen *ret2(const_cast<MEDCouplingCartesianAMRMeshGen *>(ret));
5024 virtual PyObject *positionRelativeToGodFather() const throw(INTERP_KERNEL::Exception)
5026 std::vector<int> out1;
5027 std::vector< std::pair<int,int> > out0(self->positionRelativeToGodFather(out1));
5028 PyObject *ret(PyTuple_New(2));
5029 PyTuple_SetItem(ret,0,convertFromVectorPairInt(out0));
5030 PyTuple_SetItem(ret,1,convertIntArrToPyList2(out1));
5034 virtual PyObject *retrieveGridsAt(int absoluteLev) const throw(INTERP_KERNEL::Exception)
5036 std::vector<MEDCouplingCartesianAMRPatchGen *> ps(self->retrieveGridsAt(absoluteLev));
5038 PyObject *ret = PyList_New(sz);
5039 for(int i=0;i<sz;i++)
5040 PyList_SetItem(ret,i,convertCartesianAMRPatch(ps[i], SWIG_POINTER_OWN | 0 ));
5044 MEDCouplingFieldDouble *buildCellFieldOnRecurseWithoutOverlapWithoutGhost(int ghostSz, PyObject *recurseArrs) const
5046 std::vector<const DataArrayDouble *> inp;
5047 convertFromPyObjVectorOfObj<const ParaMEDMEM::DataArrayDouble *>(recurseArrs,SWIGTYPE_p_ParaMEDMEM__DataArrayDouble,"DataArrayDouble",inp);
5048 return self->buildCellFieldOnRecurseWithoutOverlapWithoutGhost(ghostSz,inp);
5051 virtual MEDCouplingCartesianAMRMeshGen *getFather() const throw(INTERP_KERNEL::Exception)
5053 MEDCouplingCartesianAMRMeshGen *ret(const_cast<MEDCouplingCartesianAMRMeshGen *>(self->getFather()));
5059 virtual MEDCouplingCartesianAMRMeshGen *getGodFather() const throw(INTERP_KERNEL::Exception)
5061 MEDCouplingCartesianAMRMeshGen *ret(const_cast<MEDCouplingCartesianAMRMeshGen *>(self->getGodFather()));
5067 MEDCouplingCartesianAMRPatch *getPatch(int patchId) const throw(INTERP_KERNEL::Exception)
5069 MEDCouplingCartesianAMRPatch *ret(const_cast<MEDCouplingCartesianAMRPatch *>(self->getPatch(patchId)));
5075 MEDCouplingIMesh *getImageMesh() const throw(INTERP_KERNEL::Exception)
5077 const MEDCouplingIMesh *ret(self->getImageMesh());
5080 return const_cast<MEDCouplingIMesh *>(ret);
5083 MEDCouplingCartesianAMRPatch *__getitem__(int patchId) const throw(INTERP_KERNEL::Exception)
5085 if(patchId==self->getNumberOfPatches())
5087 std::ostringstream oss;
5088 oss << "Requesting for patchId " << patchId << " having only " << self->getNumberOfPatches() << " patches !";
5089 PyErr_SetString(PyExc_StopIteration,oss.str().c_str());
5092 MEDCouplingCartesianAMRPatch *ret(const_cast<MEDCouplingCartesianAMRPatch *>(self->getPatch(patchId)));
5098 void fillCellFieldOnPatchGhostAdv(int patchId, const DataArrayDouble *cellFieldOnThis, int ghostLev, PyObject *arrsOnPatches, bool isConservative=true) const throw(INTERP_KERNEL::Exception)
5100 std::vector<const ParaMEDMEM::DataArrayDouble *> arrsOnPatches2;
5101 convertFromPyObjVectorOfObj<const ParaMEDMEM::DataArrayDouble *>(arrsOnPatches,SWIGTYPE_p_ParaMEDMEM__DataArrayDouble,"DataArrayDouble",arrsOnPatches2);
5102 self->fillCellFieldOnPatchGhostAdv(patchId,cellFieldOnThis,ghostLev,arrsOnPatches2,isConservative);
5105 void fillCellFieldOnPatchOnlyGhostAdv(int patchId, int ghostLev, PyObject *arrsOnPatches) const
5107 std::vector<const ParaMEDMEM::DataArrayDouble *> arrsOnPatches2;
5108 convertFromPyObjVectorOfObj<const ParaMEDMEM::DataArrayDouble *>(arrsOnPatches,SWIGTYPE_p_ParaMEDMEM__DataArrayDouble,"DataArrayDouble",arrsOnPatches2);
5109 self->fillCellFieldOnPatchOnlyGhostAdv(patchId,ghostLev,arrsOnPatches2);
5112 void __delitem__(int patchId) throw(INTERP_KERNEL::Exception)
5114 self->removePatch(patchId);
5117 int __len__() const throw(INTERP_KERNEL::Exception)
5119 return self->getNumberOfPatches();
5124 class MEDCouplingCartesianAMRMeshSub : public MEDCouplingCartesianAMRMeshGen
5128 class MEDCouplingCartesianAMRMesh : public MEDCouplingCartesianAMRMeshGen
5133 static MEDCouplingCartesianAMRMesh *New(const std::string& meshName, int spaceDim, PyObject *nodeStrct, PyObject *origin, PyObject *dxyz) throw(INTERP_KERNEL::Exception)
5135 static const char msg0[]="MEDCouplingCartesianAMRMesh::New : error on 'origin' parameter !";
5136 static const char msg1[]="MEDCouplingCartesianAMRMesh::New : error on 'dxyz' parameter !";
5137 const int *nodeStrctPtr(0);
5138 const double *originPtr(0),*dxyzPtr(0);
5140 std::vector<int> bb0;
5141 nodeStrctPtr=convertObjToPossibleCpp1_Safe(nodeStrct,sw,sz,val0,bb0);
5144 std::vector<double> bb,bb2;
5146 originPtr=convertObjToPossibleCpp5_SingleCompo(origin,sw,val,bb,msg0,false,sz1);
5147 dxyzPtr=convertObjToPossibleCpp5_SingleCompo(dxyz,sw,val2,bb2,msg1,false,sz2);
5149 return MEDCouplingCartesianAMRMesh::New(meshName,spaceDim,nodeStrctPtr,nodeStrctPtr+sz,originPtr,originPtr+sz1,dxyzPtr,dxyzPtr+sz2);
5152 void createPatchesFromCriterionML(PyObject *bso, const DataArrayDouble *criterion, PyObject *factors, double eps) throw(INTERP_KERNEL::Exception)
5154 std::vector<const INTERP_KERNEL::BoxSplittingOptions *> inp0;
5155 convertFromPyObjVectorOfObj<const INTERP_KERNEL::BoxSplittingOptions *>(bso,SWIGTYPE_p_INTERP_KERNEL__BoxSplittingOptions,"BoxSplittingOptions",inp0);
5156 std::vector< std::vector<int> > inp2;
5157 convertPyToVectorOfVectorOfInt(factors,inp2);
5158 self->createPatchesFromCriterionML(inp0,criterion,inp2,eps);
5161 MEDCouplingCartesianAMRMesh(const std::string& meshName, int spaceDim, PyObject *nodeStrct, PyObject *origin, PyObject *dxyz) throw(INTERP_KERNEL::Exception)
5163 return ParaMEDMEM_MEDCouplingCartesianAMRMesh_New(meshName,spaceDim,nodeStrct,origin,dxyz);
5168 class MEDCouplingDataForGodFather : public RefCountObject
5171 virtual void synchronizeFineToCoarse() throw(INTERP_KERNEL::Exception);
5172 virtual void synchronizeFineToCoarseBetween(int fromLev, int toLev) throw(INTERP_KERNEL::Exception);
5173 virtual void synchronizeCoarseToFine() throw(INTERP_KERNEL::Exception);
5174 virtual void synchronizeCoarseToFineBetween(int fromLev, int toLev) throw(INTERP_KERNEL::Exception);
5175 virtual void synchronizeAllGhostZones() throw(INTERP_KERNEL::Exception);
5176 virtual void synchronizeAllGhostZonesOfDirectChidrenOf(const MEDCouplingCartesianAMRMeshGen *mesh) throw(INTERP_KERNEL::Exception);
5177 virtual void synchronizeAllGhostZonesAtASpecifiedLevel(int level) throw(INTERP_KERNEL::Exception);
5178 virtual void synchronizeAllGhostZonesAtASpecifiedLevelUsingOnlyFather(int level) throw(INTERP_KERNEL::Exception);
5179 virtual void alloc() throw(INTERP_KERNEL::Exception);
5180 virtual void dealloc() throw(INTERP_KERNEL::Exception);
5183 MEDCouplingCartesianAMRMesh *getMyGodFather() throw(INTERP_KERNEL::Exception)
5185 MEDCouplingCartesianAMRMesh *ret(self->getMyGodFather());
5193 class MEDCouplingAMRAttribute : public MEDCouplingDataForGodFather, public TimeLabel
5196 int getNumberOfLevels() const throw(INTERP_KERNEL::Exception);
5197 MEDCouplingAMRAttribute *deepCpy() const throw(INTERP_KERNEL::Exception);
5198 MEDCouplingAMRAttribute *deepCpyWithoutGodFather() const throw(INTERP_KERNEL::Exception);
5199 MEDCouplingFieldDouble *buildCellFieldOnRecurseWithoutOverlapWithoutGhost(MEDCouplingCartesianAMRMeshGen *mesh, const std::string& fieldName) const throw(INTERP_KERNEL::Exception);
5200 MEDCouplingFieldDouble *buildCellFieldOnWithGhost(MEDCouplingCartesianAMRMeshGen *mesh, const std::string& fieldName) const throw(INTERP_KERNEL::Exception);
5201 MEDCouplingFieldDouble *buildCellFieldOnWithoutGhost(MEDCouplingCartesianAMRMeshGen *mesh, const std::string& fieldName) const throw(INTERP_KERNEL::Exception);
5202 bool changeGodFather(MEDCouplingCartesianAMRMesh *gf) throw(INTERP_KERNEL::Exception);
5203 MEDCouplingAMRAttribute *projectTo(MEDCouplingCartesianAMRMesh *targetGF) const throw(INTERP_KERNEL::Exception);
5206 static MEDCouplingAMRAttribute *New(MEDCouplingCartesianAMRMesh *gf, PyObject *fieldNames, int ghostLev) throw(INTERP_KERNEL::Exception)
5208 std::vector< std::pair<std::string,int> > fieldNamesCpp0;
5209 std::vector< std::pair<std::string, std::vector<std::string> > > fieldNamesCpp1;
5210 MEDCouplingAMRAttribute *ret(0);
5213 convertPyToVectorPairStringInt(fieldNames,fieldNamesCpp0);
5214 ret=MEDCouplingAMRAttribute::New(gf,fieldNamesCpp0,ghostLev);
5216 catch(INTERP_KERNEL::Exception&)
5218 convertPyToVectorPairStringVecString(fieldNames,fieldNamesCpp1);
5219 ret=MEDCouplingAMRAttribute::New(gf,fieldNamesCpp1,ghostLev);
5224 MEDCouplingAMRAttribute(MEDCouplingCartesianAMRMesh *gf, PyObject *fieldNames, int ghostLev) throw(INTERP_KERNEL::Exception)
5226 return ParaMEDMEM_MEDCouplingAMRAttribute_New(gf,fieldNames,ghostLev);
5229 DataArrayDouble *getFieldOn(MEDCouplingCartesianAMRMeshGen *mesh, const std::string& fieldName) const throw(INTERP_KERNEL::Exception)
5231 const DataArrayDouble *ret(self->getFieldOn(mesh,fieldName));
5232 DataArrayDouble *ret2(const_cast<DataArrayDouble *>(ret));
5238 void spillInfoOnComponents(PyObject *compNames) throw(INTERP_KERNEL::Exception)
5240 std::vector< std::vector<std::string> > compNamesCpp;
5241 convertPyToVectorOfVectorOfString(compNames,compNamesCpp);
5242 self->spillInfoOnComponents(compNamesCpp);
5245 void spillNatures(PyObject *nfs) throw(INTERP_KERNEL::Exception)
5247 std::vector<int> inp0;
5248 if(!fillIntVector(nfs,inp0))
5249 throw INTERP_KERNEL::Exception("wrap of MEDCouplingAMRAttribute::spillNatures : vector of NatureOfField enum expected !");
5250 std::size_t sz(inp0.size());
5251 std::vector<NatureOfField> inp00(sz);
5252 for(std::size_t i=0;i<sz;i++)
5253 inp00[i]=(NatureOfField)inp0[i];
5254 self->spillNatures(inp00);
5257 PyObject *retrieveFieldsOn(MEDCouplingCartesianAMRMeshGen *mesh) const throw(INTERP_KERNEL::Exception)
5259 std::vector<DataArrayDouble *> ret(self->retrieveFieldsOn(mesh));
5260 int sz((int)ret.size());
5261 PyObject *retPy(PyList_New(sz));
5262 for(int i=0;i<sz;i++)
5263 PyList_SetItem(retPy,i,SWIG_NewPointerObj(SWIG_as_voidptr(ret[i]),SWIGTYPE_p_ParaMEDMEM__DataArrayDouble, SWIG_POINTER_OWN | 0 ));
5269 class DenseMatrix : public RefCountObject, public TimeLabel
5272 static DenseMatrix *New(int nbRows, int nbCols) throw(INTERP_KERNEL::Exception);
5273 static DenseMatrix *New(DataArrayDouble *array, int nbRows, int nbCols) throw(INTERP_KERNEL::Exception);
5274 DenseMatrix *deepCpy() const throw(INTERP_KERNEL::Exception);
5275 DenseMatrix *shallowCpy() const throw(INTERP_KERNEL::Exception);
5277 int getNumberOfRows() const throw(INTERP_KERNEL::Exception);
5278 int getNumberOfCols() const throw(INTERP_KERNEL::Exception);
5279 int getNbOfElems() const throw(INTERP_KERNEL::Exception);
5280 void reBuild(DataArrayDouble *array, int nbRows=-1, int nbCols=-1) throw(INTERP_KERNEL::Exception);
5281 void reShape(int nbRows, int nbCols) throw(INTERP_KERNEL::Exception);
5282 void transpose() throw(INTERP_KERNEL::Exception);
5284 bool isEqual(const DenseMatrix& other, double eps) const throw(INTERP_KERNEL::Exception);
5285 DataArrayDouble *matVecMult(const DataArrayDouble *vec) const throw(INTERP_KERNEL::Exception);
5286 static DataArrayDouble *MatVecMult(const DenseMatrix *mat, const DataArrayDouble *vec) throw(INTERP_KERNEL::Exception);
5289 DenseMatrix(int nbRows, int nbCols) throw(INTERP_KERNEL::Exception)
5291 return DenseMatrix::New(nbRows,nbCols);
5294 DenseMatrix(DataArrayDouble *array, int nbRows, int nbCols) throw(INTERP_KERNEL::Exception)
5296 return DenseMatrix::New(array,nbRows,nbCols);
5299 PyObject *isEqualIfNotWhy(const DenseMatrix& other, double eps) const throw(INTERP_KERNEL::Exception)
5302 bool ret0=self->isEqualIfNotWhy(other,eps,ret1);
5303 PyObject *ret=PyTuple_New(2);
5304 PyObject *ret0Py=ret0?Py_True:Py_False;
5306 PyTuple_SetItem(ret,0,ret0Py);
5307 PyTuple_SetItem(ret,1,PyString_FromString(ret1.c_str()));
5311 DataArrayDouble *getData() throw(INTERP_KERNEL::Exception)
5313 DataArrayDouble *ret(self->getData());
5319 DenseMatrix *__add__(const DenseMatrix *other) throw(INTERP_KERNEL::Exception)
5321 return ParaMEDMEM::DenseMatrix::Add(self,other);
5324 DenseMatrix *__sub__(const DenseMatrix *other) throw(INTERP_KERNEL::Exception)
5326 return ParaMEDMEM::DenseMatrix::Substract(self,other);
5329 DenseMatrix *__mul__(const DenseMatrix *other) throw(INTERP_KERNEL::Exception)
5331 return ParaMEDMEM::DenseMatrix::Multiply(self,other);
5334 DenseMatrix *__mul__(const DataArrayDouble *other) throw(INTERP_KERNEL::Exception)
5336 return ParaMEDMEM::DenseMatrix::Multiply(self,other);
5339 PyObject *___iadd___(PyObject *trueSelf, const DenseMatrix *other) throw(INTERP_KERNEL::Exception)
5341 self->addEqual(other);
5342 Py_XINCREF(trueSelf);
5346 PyObject *___isub___(PyObject *trueSelf, const DenseMatrix *other) throw(INTERP_KERNEL::Exception)
5348 self->substractEqual(other);
5349 Py_XINCREF(trueSelf);
5353 PyObject *toNumPyMatrix() throw(INTERP_KERNEL::Exception) // not const. It is not a bug !
5355 PyObject *obj(ToNumPyArrayUnderground<DataArrayDouble,double>(self->getData(),NPY_DOUBLE,"DataArrayDouble",self->getNumberOfRows(),self->getNumberOfCols()));
5365 __filename=os.environ.get('PYTHONSTARTUP')
5366 if __filename and os.path.isfile(__filename):
5367 execfile(__filename)