ff1.write(fname,0)
f1=ff1.getFieldOnMeshAtLevel(ON_GAUSS_NE,m1,0)
f2,p1=ff1.getFieldWithProfile(ON_GAUSS_NE,0,mm1) ; f2.setName("")
- self.assertTrue(p1.isIdentity())
- self.assertEqual(5,p1.getNumberOfTuples())
+ self.assertTrue(p1.isIdentity2(5))
self.assertTrue(f1.getArray().isEqual(f2,1e-12))
pass
# Test for getFieldAtTopLevel method
pass
pass
- def testDuplicateNodesOnM1Group1(self):
+ def testBuildInnerBoundaryAlongM1Group1(self):
fname="Pyfile44.med"
m=MEDCouplingCMesh.New()
m.setCoordsAt(0,DataArrayDouble.New([0.,1.1,2.3,3.6,5.,6.5]))
self.assertEqual(ref0,mm.getMeshAtLevel(0)[[12,13,14]].getNodalConnectivity().getValues())
self.assertEqual(ref1,mm.getMeshAtLevel(0)[[7,8,9]].getNodalConnectivity().getValues())
#
- nodes,cells,cells2=mm.duplicateNodesOnM1Group("Grp")
+ nodes,cells,cells2=mm.buildInnerBoundaryAlongM1Group("Grp")
self.assertEqual([15,16,17],nodes.getValues());
self.assertEqual([7,8,9],cells.getValues());
self.assertEqual([12,13,14],cells2.getValues());
mm.write(fname,2)
pass
- def testDuplicateNodesOnM1Group2(self):
+ def testBuildInnerBoundaryAlongM1Group2(self):
fname="Pyfile45.med"
m=MEDCouplingCMesh.New()
m.setCoordsAt(0,DataArrayDouble.New([0.,1.1,2.3,3.6,5.,6.5]))
self.assertEqual(ref0,mm.getMeshAtLevel(0)[[12,13,14]].getNodalConnectivity().getValues())
self.assertEqual(ref1,mm.getMeshAtLevel(0)[[7,8]].getNodalConnectivity().getValues())
#
- nodes,cells,cells2=mm.duplicateNodesOnM1Group("Grp")
+ nodes,cells,cells2=mm.buildInnerBoundaryAlongM1Group("Grp")
self.assertEqual([15],nodes.getValues());
self.assertEqual([7,8],cells.getValues());
self.assertEqual([12,13],cells2.getValues());
mm.write(fname,2)
pass
- def testDuplicateNodesOnM1Group3(self):
- """ Test duplicateNodesOnM1Group() with *non-connex* cracks """
+ def testBuildInnerBoundaryAlongM1Group3(self):
+ """ Test buildInnerBoundaryAlongM1Group() with *non-connex* cracks """
fname = "Pyfile73.med"
m = MEDCouplingCMesh.New()
m.setCoordsAt(0, DataArrayDouble([0.0,1.1,2.3,3.6,5.0]))
mm.setMeshAtLevel(0,m)
mm.setMeshAtLevel(-1,m2)
mm.setGroupsAtLevel(-1,[grpSeg])
- nodes, cellsMod, cellsNotMod = mm.duplicateNodesOnM1Group("Grp")
+ nodes, cellsMod, cellsNotMod = mm.buildInnerBoundaryAlongM1Group("Grp")
self.assertEqual([1,13],nodes.getValues());
self.assertEqual([0,6],cellsMod.getValues());
self.assertEqual([1,7],cellsNotMod.getValues());
for elt in [[0,1,2,3,4,5],[1,2,3,4,5,6],[2,3,4,5,6,7],[3,4,5,6,7,8]]:#4
m0.insertNextCell(NORM_PENTA6,elt)
pass
- m0.checkCoherency2()
+ m0.checkCoherency1()
m1=MEDCouplingUMesh(); m1.setName("mesh")
m1.setMeshDimension(2);
m1.allocateCells(5);
m.changeSpaceDimension(3,0.)
infos=["aa [b]","cc [de]","gg [klm]"]
m.getCoords().setInfoOnComponents(infos)
- m.checkCoherency2()
+ m.checkCoherency1()
mm=MEDFileUMesh()
mm.setMeshAtLevel(0,m)
m1=MEDCouplingCMesh() ; m1.setCoords(arr) ; m1.setName("Mesh")
m.changeSpaceDimension(3,0.)
infos=["aa [b]","cc [de]","gg [klm]"]
m.getCoords().setInfoOnComponents(infos)
- m.checkCoherency2()
+ m.checkCoherency1()
f=MEDCouplingFieldDouble(ON_CELLS,ONE_TIME) ; f.setMesh(m)
f.setName("Field")
arr=DataArrayDouble(25,2) ; arr.setInfoOnComponents(compos)
m.changeSpaceDimension(3,0.)
infos=["aa [b]","cc [de]","gg [klm]"]
m.getCoords().setInfoOnComponents(infos)
- m.checkCoherency2()
+ m.checkCoherency1()
f=MEDCouplingFieldDouble(ON_CELLS,ONE_TIME) ; f.setMesh(m)
f.setName("Field")
arr=DataArrayDouble(25,2) ; arr.setInfoOnComponents(compos)
st=cPickle.dumps(mm,cPickle.HIGHEST_PROTOCOL)
mm2=cPickle.loads(st)
self.assertTrue(mm.isEqual(mm2,1e-12)[0])
+ self.assertEqual(mm.getAxType(),AX_CART)
+ #
+ mm.setAxType(AX_CYL)
+ st=cPickle.dumps(mm,cPickle.HIGHEST_PROTOCOL)
+ mm2=cPickle.loads(st)
+ self.assertTrue(mm.isEqual(mm2,1e-12)[0])
+ self.assertEqual(mm2.getAxType(),AX_CYL)
pass
def testMEDFileFieldsLoadSpecificEntities1(self):
m3D=m.buildExtrudedMesh(m1D,0)
m3D.sortCellsInMEDFileFrmt()
m3D.setName(meshName)
- m2D=m ; m2D.setCoords(m3D.getCoords()) ; m2D.shiftNodeNumbersInConn(delta) ; m2D.setName(meshName) ; m2D.checkCoherency2()
+ m2D=m ; m2D.setCoords(m3D.getCoords()) ; m2D.shiftNodeNumbersInConn(delta) ; m2D.setName(meshName) ; m2D.checkCoherency1()
m1D=m2D.computeSkin() ; m1D.setName(meshName)
+ m0D=MEDCouplingUMesh.Build0DMeshFromCoords(m3D.getCoords()) ; m0D.setName(meshName) ; m0D=m0D[[2,4,10]]
#
mm=MEDFileUMesh()
- mm[0]=m3D ; mm[-1]=m2D ; mm[-2]=m1D
+ mm[0]=m3D ; mm[-1]=m2D ; mm[-2]=m1D ; mm[-3]=m0D
grpEdge0=DataArrayInt([1,2,3,5]) ; grpEdge0.setName("East")
grpEdge1=DataArrayInt([0,1]) ; grpEdge1.setName("Corner1")
grpFaceSouth=DataArrayInt([0,1,8,9,10]) ; grpFaceSouth.setName("SouthFace")
#
pass
+ def testUnivStatus1(self):
+ """ Non regression test to check the effectiveness of univ write status."""
+ fname="Pyfile95.med"
+ arr=DataArrayDouble(10) ; arr.iota()
+ m=MEDCouplingCMesh() ; m.setCoords(arr,arr) ; m.setName("mesh")
+ mm=MEDFileCMesh() ; mm.setMesh(m)
+ mm.setUnivNameWrStatus(False) # test is here
+ mm.write(fname,2)
+ mm=MEDFileCMesh(fname)
+ self.assertEqual(mm.getUnivName(),"")
+ mm.setUnivNameWrStatus(True)
+ mm.write(fname,2)
+ mm=MEDFileCMesh(fname)
+ self.assertTrue(mm.getUnivName()!="")
+ pass
+
+ def testEmptyMesh(self):
+ """ MEDLoader should be able to consistently write and read an empty mesh (coords array
+ with 0 tuples """
+ fname = "Pyfile96.med"
+ m = MEDCouplingUMesh('toto', 2)
+ m.setCoords(DataArrayDouble([], 0, 2))
+ m.setConnectivity(DataArrayInt([]), DataArrayInt([0]))
+ mfu = MEDFileUMesh()
+ mfu.setMeshAtLevel(0, m)
+ mfu.write(fname, 2)
+ mfu2 = MEDFileUMesh(fname)
+ self.assertEqual('toto', mfu2.getName())
+ lvl = mfu2.getNonEmptyLevels()
+ self.assertEqual((), lvl)
+
+ @unittest.skipUnless(MEDCouplingHasNumPyBindings(),"requires numpy")
+ def testMEDFileUMeshPickeling2(self):
+ """ Check that pickalization can be performed on a unpickalized instance. Non regression test."""
+ name="Mesh_1"
+ grpName1="HAUT"
+ grpName2="BASE"
+ hauteur=1.
+ nbOfNodesPerAxis=3
+ arr=DataArrayDouble(nbOfNodesPerAxis) ; arr.iota() ; arr/=(nbOfNodesPerAxis-1) ; arr*=hauteur
+ m=MEDCouplingCMesh() ; m.setCoords(arr,arr,arr) ; m=m.buildUnstructured() ; m.setName(name)
+ mesh=MEDFileUMesh() ; mesh[0]=m
+ m1=m.computeSkin() ; mesh[-1]=m1
+ #
+ bary1=m1.getBarycenterAndOwner()[:,2]
+ grp1=bary1.getIdsInRange(hauteur-1e-12,hauteur+1e-12) ; grp1.setName(grpName1)
+ grp2=bary1.getIdsInRange(0.-1e-12,0.+1e-12) ; grp2.setName(grpName2)
+ mesh.setGroupsAtLevel(-1,[grp1,grp2])
+
+ import cPickle
+ st=cPickle.dumps(mesh,2)
+ mm=cPickle.loads(st)
+ st2=cPickle.dumps(mm,2)
+ mm2=cPickle.loads(st2)
+ self.assertTrue(mesh.isEqual(mm2,1e-12)[0])
+ pass
+
+ def testMEDFileEquivalence1(self):
+ """ First check of equivalence implementation in MEDFileMesh"""
+ fileName="Pyfile97.med"
+ meshName="M_01"
+ mm=MEDFileUMesh()
+ coo=DataArrayDouble([(0,0,0),(6,0,0),(19,0,0),(36,0,0),(0,4,0),(6,4,0),(19,4,0),(36,4,0),(0,13,0),(6,13,0),(19,13,0),(36,13,0),(0,24,0),(6,24,0),(19,24,0),(36,24,0),(0,0,6),(6,0,6),(19,0,6),(36,0,6),(0,4,6),(6,4,6),(19,4,6),(36,4,6),(0,13,6),(6,13,6),(19,13,6),(36,13,6),(0,24,6),(6,24,6),(19,24,6),(36,24,6),(6,0,3),(6,2,0),(12.5,0,0),(19,0,3),(19,2,0),(6,4,3),(12.5,4,0),(19,4,3),(6,2,6),(12.5,0,6),(19,2,6),(12.5,4,6),(6,2,3),(12.5,0,3),(12.5,2,0),(19,2,3),(12.5,4,3),(12.5,2,6),(12.5,2,3)])
+ coo.setInfoOnComponents(["X [Sans_unite]","Y [Sans_unite]","Z [Sans_unite]"])
+ connQ4=DataArrayInt([1,17,21,5,2,18,22,6,21,5,6,22,1,32,44,33,17,40,44,32,21,37,44,40,5,33,44,37,2,35,47,36,18,42,47,35,22,39,47,42,6,36,47,39,21,37,48,43,5,38,48,37,6,39,48,38,22,43,48,39])
+ m1=MEDCoupling1SGTUMesh(meshName,NORM_QUAD4) ; m1.setCoords(coo) ; m1.setNodalConnectivity(connQ4) ; mm[-1]=m1
+ connH8=DataArrayInt([20,16,17,21,4,0,1,5,22,18,19,23,6,2,3,7,24,20,21,25,8,4,5,9,25,21,22,26,9,5,6,10,26,22,23,27,10,6,7,11,28,24,25,29,12,8,9,13,29,25,26,30,13,9,10,14,30,26,27,31,14,10,11,15,21,40,49,43,37,44,50,48,40,17,41,49,44,32,45,50,49,41,18,42,50,45,35,47,43,49,42,22,48,50,47,39,44,32,45,50,33,1,34,46,37,44,50,48,5,33,46,38,48,50,47,39,38,46,36,6,50,45,35,47,46,34,2,36])
+ m0=MEDCoupling1SGTUMesh(meshName,NORM_HEXA8) ; m0.setCoords(coo) ; m0.setNodalConnectivity(connH8) ; mm[0]=m0
+ mm.getFamilyFieldAtLevel(-1)[:]=-2
+ mm.getFamilyFieldAtLevel(0)[:]=0
+ mm.addFamily("HOMARD________-1",-1)
+ mm.addFamily("HOMARD________-2",-2)
+ mm.addFamily("HOMARD________-3",-3)
+ mm.setFamiliesIdsOnGroup("HOMARD",[-1,-2,-3])
+
+ eqName="MAILLES_A_RECOLLER_APRES_HOMARD"
+ descEq="Cette equivalence decrit les mailles a recoller. Dans chaque correspondance, le premier numero est celui de la maille coupee ; le second numero est celui d'une des petites mailles en regard."
+ mm.initializeEquivalences()
+ eqs=mm.getEquivalences()
+ eq0=eqs.appendEmptyEquivalenceWithName(eqName)
+ eq0.setDescription(descEq)
+ corr=DataArrayInt([(0,3),(0,4),(0,5),(0,6),(1,7),(1,8),(1,9),(1,10),(2,11),(2,12),(2,13),(2,14)])
+ eq0.setArray(-1,corr)
+ self.assertEqual(eq0.getCell().size(),1)
+ self.assertTrue(eq0.getCell().getArray(NORM_QUAD4).isEqual(corr))
+ eq0.getCell().clear()
+ self.assertEqual(eq0.getCell().size(),0)
+ eq0.getCell().setArrayForType(NORM_QUAD4,corr)
+ self.assertEqual(eq0.getCell().size(),1)
+ self.assertTrue(eq0.getCell().getArray(NORM_QUAD4).isEqual(corr))
+ mm.killEquivalences()
+ mm.initializeEquivalences()
+ eqs=mm.getEquivalences()
+ eq0=eqs.appendEmptyEquivalenceWithName(eqName)
+ eq0.setDescription(descEq)
+ c=eq0.initCell()
+ c.setArrayForType(NORM_QUAD4,corr)
+ self.assertEqual(eq0.getCell().size(),1)
+ self.assertTrue(eq0.getCell().getArray(NORM_QUAD4).isEqual(corr))
+ mm2=mm.deepCpy()
+ self.assertTrue(mm.isEqual(mm2,1e-12)[0])
+ self.assertEqual(mm2.getEquivalences().size(),1)
+ self.assertTrue(mm2.getEquivalences().getEquivalence(0).getCell().getArray(NORM_QUAD4).isEqual(corr))
+ mm2.getEquivalences().getEquivalence(0).getCell().getArray(NORM_QUAD4)[0,0]=2
+ self.assertTrue(not mm.isEqual(mm2,1e-12)[0])
+ mm2.getEquivalences().getEquivalence(0).getCell().getArray(NORM_QUAD4)[0,0]=0
+ self.assertTrue(mm.isEqual(mm2,1e-12)[0])
+ mm.write(fileName,2)
+ #
+ mm3=MEDFileMesh.New(fileName)
+ self.assertTrue(mm.isEqual(mm3,1e-12)[0])
+ pass
+
+ def testMEDFileForFamiliesPlayer1(self):
+ """Non regression bug EDF11911. For serial killers using same family name to store both cells and nodes ! Only sky is the limit."""
+ fileName="Pyfile98.med"
+ meshName="mesh"
+ magicSt="%s%%04i"%(MEDFileMesh.GetMagicFamilyStr())
+ arr=DataArrayDouble(4) ; arr.iota()
+ m=MEDCouplingCMesh() ; m.setCoords(arr,arr)
+ m=m.buildUnstructured()
+ mm=MEDFileUMesh()
+ mm[0]=m
+ mm.setName(meshName)
+ mm.setFamilyId("FAMILLE_ZERO",0)
+ mm.getFamilyFieldAtLevel(0)[-3:]=-4
+ mm.setFamilyId("RIDF%s"%(magicSt%0),-4)
+ mm.setGroupsOnFamily("RIDF%s"%(magicSt%0),["RID"])
+ d=DataArrayInt(16) ; d[:]=0 ; d[[1,2,4,5]]=3
+ mm.setFamilyFieldArr(1,d)
+ mm.setFamilyId("RIDF%s"%(magicSt%1),3)
+ mm.setGroupsOnFamily("RIDF%s"%(magicSt%1),["RID"])
+ self.assertEqual(mm.getFamiliesNames(),("FAMILLE_ZERO",'RIDF!/__\\!0000','RIDF!/__\\!0001'))
+ self.assertEqual(mm.getFamiliesNamesWithFilePointOfView(),("FAMILLE_ZERO","RIDF","RIDF")) # <- the aim of test is here !
+ self.assertEqual(mm.getFamiliesIdsOnGroup("RID"),(-4,3))
+ mm.write(fileName,2)
+ # now read such funny file !
+ mm2=MEDFileMesh.New(fileName) # <- normaly mdump of Pyfile98.med must contain only RID and FAMILLE_ZERO families.
+ self.assertTrue(mm.isEqual(mm2,1e-16))
+ self.assertEqual(mm2.getFamiliesNames(),("FAMILLE_ZERO",'RIDF!/__\\!0000','RIDF!/__\\!0001'))
+ self.assertEqual(mm2.getFamiliesNamesWithFilePointOfView(),("FAMILLE_ZERO","RIDF","RIDF"))
+ self.assertEqual(mm2.getFamiliesIdsOnGroup("RID"),(-4,3))# <- very important too !
+ pass
+
+ def testCartesianizer1(self):
+ """ This test is advanced to be sure that no unnecessary copies had been made during cartesianization process. """
+ # UMesh non cart
+ arr=DataArrayDouble(4) ; arr.iota() ; m=MEDCouplingCMesh() ; m.setCoords(arr,arr) ; m=m.buildUnstructured()
+ mm=MEDFileUMesh() ; mm[0]=m ; mm.forceComputationOfParts()
+ d0=DataArrayInt(16) ; d0[:]=0
+ d1=DataArrayInt(9) ; d1[:]=0
+ mm.setFamilyFieldArr(0,d1) ; mm.setFamilyFieldArr(1,d0)
+ mm.setName("a") ; mm.setDescription("b") ; mm.setTime(3,4,5.) ; mm.addFamily("c",-4) ; mm.setFamiliesOnGroup("d",["c"]) ; mm.setTimeUnit("ms")
+ ref0=mm.getCoords().getHiddenCppPointer()
+ ref1=mm[0].getNodalConnectivity().getHiddenCppPointer()
+ self.assertEqual(ref0,mm[0].getCoords().getHiddenCppPointer())
+ ref2=mm[0].getNodalConnectivityIndex().getHiddenCppPointer()
+ ref3=mm.getDirectUndergroundSingleGeoTypeMesh(NORM_QUAD4).getNodalConnectivity().getHiddenCppPointer()
+ self.assertEqual(ref0,mm.getDirectUndergroundSingleGeoTypeMesh(NORM_QUAD4).getCoords().getHiddenCppPointer())
+ mm.setAxType(AX_CYL) #<- important
+ mm2=mm.cartesianize() # the trigger
+ self.assertEqual(mm2.getAxType(),AX_CART)
+ mm.setAxType(AX_CART) # this is here only to avoid complaints
+ self.assertTrue(isinstance(mm2,MEDFileUMesh))
+ self.assertTrue(mm.getHiddenCppPointer()!=mm2.getHiddenCppPointer())
+ self.assertTrue(ref0==mm.getCoords().getHiddenCppPointer()) # <- here important
+ self.assertTrue(ref0!=mm2.getCoords().getHiddenCppPointer()) # <- here important
+ self.assertEqual(mm2.getCoords().getHiddenCppPointer(),mm2[0].getCoords().getHiddenCppPointer())
+ self.assertEqual(mm2.getCoords().getHiddenCppPointer(),mm2.getDirectUndergroundSingleGeoTypeMesh(NORM_QUAD4).getCoords().getHiddenCppPointer())
+ self.assertEqual(mm2[0].getNodalConnectivity().getHiddenCppPointer(),ref1) # <- here very important
+ self.assertEqual(mm2[0].getNodalConnectivityIndex().getHiddenCppPointer(),ref2) # <- here very important
+ self.assertEqual(mm2.getDirectUndergroundSingleGeoTypeMesh(NORM_QUAD4).getNodalConnectivity().getHiddenCppPointer(),ref3) # <- here very important
+ self.assertEqual(mm2.getName(),mm.getName())
+ self.assertEqual(mm2.getDescription(),mm.getDescription())
+ self.assertEqual(mm2.getTime(),mm.getTime())
+ self.assertEqual(mm2.getTime(),mm.getTime())
+ self.assertEqual(mm2.getTimeUnit(),mm.getTimeUnit())
+ self.assertEqual(mm2.getGroupsNames(),mm.getGroupsNames())
+ self.assertEqual(mm2.getFamiliesNames(),mm.getFamiliesNames())
+ self.assertEqual([mm2.getFamilyId(elt) for elt in mm2.getFamiliesNames()],[mm.getFamilyId(elt2) for elt2 in mm.getFamiliesNames()])
+ self.assertEqual(mm.getFamilyFieldAtLevel(0).getHiddenCppPointer(),d1.getHiddenCppPointer())
+ self.assertEqual(mm2.getFamilyFieldAtLevel(0).getHiddenCppPointer(),d1.getHiddenCppPointer()) # <- here very important
+ self.assertEqual(mm.getFamilyFieldAtLevel(1).getHiddenCppPointer(),d0.getHiddenCppPointer())
+ self.assertEqual(mm2.getFamilyFieldAtLevel(1).getHiddenCppPointer(),d0.getHiddenCppPointer()) # <- here very important
+ # UMesh cart
+ mm.setAxType(AX_CART)
+ mm2=mm.cartesianize() # the trigger
+ self.assertEqual(mm2.getAxType(),AX_CART)
+ self.assertTrue(isinstance(mm2,MEDFileUMesh))
+ self.assertTrue(mm.getHiddenCppPointer()==mm2.getHiddenCppPointer()) # optimization
+ # CurveLinearMesh non cart
+ arr=DataArrayDouble(4) ; arr.iota() ; m=MEDCouplingCMesh() ; m.setCoords(arr,arr) ; m=m.buildCurveLinear()
+ mm=MEDFileCurveLinearMesh() ; mm.setMesh(m) ; mm.setAxType(AX_CYL) #<- important
+ mm.setFamilyFieldArr(0,d1) ; mm.setFamilyFieldArr(1,d0)
+ mm.setName("a") ; mm.setDescription("b") ; mm.setTime(3,4,5.) ; mm.addFamily("c",-4) ; mm.setFamiliesOnGroup("d",["c"]) ; mm.setTimeUnit("ms")
+ ref0=mm.getMesh().getCoords().getHiddenCppPointer()
+ mm2=mm.cartesianize() # the trigger
+ self.assertEqual(mm2.getAxType(),AX_CART)
+ self.assertTrue(isinstance(mm2,MEDFileCurveLinearMesh))
+ self.assertTrue(mm.getHiddenCppPointer()!=mm2.getHiddenCppPointer())
+ self.assertTrue(ref0==mm.getMesh().getCoords().getHiddenCppPointer()) # <- here important
+ self.assertTrue(ref0!=mm2.getMesh().getCoords().getHiddenCppPointer()) # <- here important
+ self.assertEqual(mm2.getMesh().getNodeGridStructure(),mm.getMesh().getNodeGridStructure())
+ self.assertEqual(mm2.getName(),mm.getName())
+ self.assertEqual(mm2.getDescription(),mm.getDescription())
+ self.assertEqual(mm2.getTime(),mm.getTime())
+ self.assertEqual(mm2.getTime(),mm.getTime())
+ self.assertEqual(mm2.getTimeUnit(),mm.getTimeUnit())
+ self.assertEqual(mm2.getGroupsNames(),mm.getGroupsNames())
+ self.assertEqual(mm2.getFamiliesNames(),mm.getFamiliesNames())
+ self.assertEqual([mm2.getFamilyId(elt) for elt in mm2.getFamiliesNames()],[mm.getFamilyId(elt2) for elt2 in mm.getFamiliesNames()])
+ self.assertEqual(mm.getFamilyFieldAtLevel(0).getHiddenCppPointer(),d1.getHiddenCppPointer())
+ self.assertEqual(mm2.getFamilyFieldAtLevel(0).getHiddenCppPointer(),d1.getHiddenCppPointer()) # <- here very important
+ self.assertEqual(mm.getFamilyFieldAtLevel(1).getHiddenCppPointer(),d0.getHiddenCppPointer())
+ self.assertEqual(mm2.getFamilyFieldAtLevel(1).getHiddenCppPointer(),d0.getHiddenCppPointer()) # <- here very important
+ # CurveLinearMesh cart
+ mm.setAxType(AX_CART)
+ mm2=mm.cartesianize() # the trigger
+ self.assertEqual(mm2.getAxType(),AX_CART)
+ self.assertTrue(isinstance(mm2,MEDFileCurveLinearMesh))
+ self.assertTrue(mm.getHiddenCppPointer()==mm2.getHiddenCppPointer()) # optimization
+ # CMesh non cart
+ arr=DataArrayDouble(4) ; arr.iota() ; m=MEDCouplingCMesh() ; m.setCoords(arr,arr)
+ mm=MEDFileCMesh() ; mm.setMesh(m) ; mm.setAxType(AX_CYL) #<- important
+ mm.setFamilyFieldArr(0,d1) ; mm.setFamilyFieldArr(1,d0)
+ mm.setName("a") ; mm.setDescription("b") ; mm.setTime(3,4,5.) ; mm.addFamily("c",-4) ; mm.setFamiliesOnGroup("d",["c"]) ; mm.setTimeUnit("ms")
+ mm2=mm.cartesianize() # the trigger
+ self.assertEqual(mm2.getAxType(),AX_CART)
+ self.assertTrue(isinstance(mm2,MEDFileCurveLinearMesh))
+ self.assertEqual(mm2.getMesh().getNodeGridStructure(),mm.getMesh().getNodeGridStructure())
+ self.assertEqual(mm2.getName(),mm.getName())
+ self.assertEqual(mm2.getDescription(),mm.getDescription())
+ self.assertEqual(mm2.getTime(),mm.getTime())
+ self.assertEqual(mm2.getTime(),mm.getTime())
+ self.assertEqual(mm2.getTimeUnit(),mm.getTimeUnit())
+ self.assertEqual(mm2.getGroupsNames(),mm.getGroupsNames())
+ self.assertEqual(mm2.getFamiliesNames(),mm.getFamiliesNames())
+ self.assertEqual([mm2.getFamilyId(elt) for elt in mm2.getFamiliesNames()],[mm.getFamilyId(elt2) for elt2 in mm.getFamiliesNames()])
+ self.assertEqual(mm.getFamilyFieldAtLevel(0).getHiddenCppPointer(),d1.getHiddenCppPointer())
+ self.assertEqual(mm2.getFamilyFieldAtLevel(0).getHiddenCppPointer(),d1.getHiddenCppPointer()) # <- here very important
+ self.assertEqual(mm.getFamilyFieldAtLevel(1).getHiddenCppPointer(),d0.getHiddenCppPointer())
+ self.assertEqual(mm2.getFamilyFieldAtLevel(1).getHiddenCppPointer(),d0.getHiddenCppPointer()) # <- here very important
+ # CMesh cart
+ mm.setAxType(AX_CART)
+ mm2=mm.cartesianize() # the trigger
+ self.assertEqual(mm2.getAxType(),AX_CART)
+ self.assertTrue(isinstance(mm2,MEDFileCMesh))
+ self.assertTrue(mm.getHiddenCppPointer()==mm2.getHiddenCppPointer()) # optimization
+ pass
+
pass
if __name__ == "__main__":
