X-Git-Url: http://git.salome-platform.org/gitweb/?a=blobdiff_plain;f=src%2FMEDLoader%2FSwig%2FMEDLoaderTest3.py;h=2682b2dd9baf1aef722ef277754b65919cb07bbb;hb=281f5b3852ce7e4e71642292f133e0138b27d5e9;hp=3a8a1daf1aa24ebb12993ba7cd946dd476115fc1;hpb=5cedad37ff0b34bc08abac18de4a5a7bfbd1e2d6;p=tools%2Fmedcoupling.git diff --git a/src/MEDLoader/Swig/MEDLoaderTest3.py b/src/MEDLoader/Swig/MEDLoaderTest3.py index 3a8a1daf1..2682b2dd9 100644 --- a/src/MEDLoader/Swig/MEDLoaderTest3.py +++ b/src/MEDLoader/Swig/MEDLoaderTest3.py @@ -4107,7 +4107,7 @@ class MEDLoaderTest(unittest.TestCase): def testMEDFileLotsOfTSRW1(self): nbNodes=11 fieldName="myField" - fileName="out.med" + fileName="Pyfile88.med" nbPdt=300 # <- perftest = 30000 meshName="Mesh" # @@ -4179,6 +4179,186 @@ class MEDLoaderTest(unittest.TestCase): pass self.assertEqual(fs2[0].getTimeSteps(),[(i,0,float(i)) for i in xrange(nbPdt)]) pass + + def testMEDFileMeshRearrangeFamIds1(self): + """ Test for bug EDF10720. The aim of this test is the call of MEDFileMesh.rearrangeFamilies.""" + fileName="Pyfile89.med" + meshName='Maillage_2' + mm=MEDFileUMesh() + coords=DataArrayDouble([(0.,0.,0.),(0.,0.,200.),(0.,200.,200.),(0.,200.,0.),(200.,0.,0.),(200.,0.,200.),(200.,200.,200.),(200.,200.,0.),(0.,0.,100.),(0.,100.,200.),(0.,200.,100.),(0.,100.,0.),(200.,0.,100.),(200.,100.,200.),(200.,200.,100.),(200.,100.,0.),(100.,0.,0.),(100.,0.,200.),(100.,200.,0.),(100.,200.,200.),(0.,116.87743909766768,83.12256090233232),(200.,116.87743909766768,83.12256090233232),(116.87743909766769,0.,116.87743909766769),(116.87743909766769,200.,116.87743909766769),(116.87743909766769,116.87743909766769,0.),(116.87743909766769,116.87743909766769,200.),(63.3851584383713,56.1391811199829,119.728314479261),(138.008709441123,116.039297556044,119.903790959468)]) + # + c0=DataArrayInt([14,1,26,9,8,14,17,26,1,8,14,27,26,17,22,14,26,16,20,8,14,8,0,16,11,14,16,20,11,24,14,25,20,26,27,14,22,26,24,27,14,26,16,22,24,14,8,26,22,17,14,20,9,25,26,14,19,20,25,23,14,23,6,27,25,14,19,23,10,20,14,27,22,21,24,14,27,21,14,18,14,26,9,25,17,14,13,27,25,17,14,27,18,24,21,14,22,21,15,12,14,27,20,24,18,14,23,25,27,20,14,13,27,6,25,14,23,27,6,14,14,15,16,22,12,14,27,17,13,22,14,22,27,21,13,14,24,16,22,15,14,24,18,7,21,14,12,4,15,16,14,22,12,5,13,14,8,26,16,22,14,13,27,21,14,14,20,18,10,3,14,14,27,18,23,14,14,27,6,13,14,21,22,13,12,14,25,26,17,27,14,19,9,25,20,14,26,24,20,16,14,22,24,15,21,14,9,26,1,17,14,23,27,18,20,14,20,11,18,3,14,14,18,21,7,14,19,2,9,10,14,19,23,25,6,14,18,23,20,10,14,20,26,8,9,14,22,13,5,17,14,24,11,18,20,14,21,15,7,24,14,19,20,10,9,14,20,26,27,24,14,16,8,11,20]) + c0i=DataArrayInt([0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,105,110,115,120,125,130,135,140,145,150,155,160,165,170,175,180,185,190,195,200,205,210,215,220,225,230,235,240,245,250,255,260,265,270,275]) + m0=MEDCouplingUMesh(meshName,3) ; m0.setCoords(coords) + m0.setConnectivity(c0,c0i) + mm[0]=m0 + # + c1=DataArrayInt([3,8,20,11,3,8,9,20,3,9,2,10,3,20,9,10,3,0,8,11,3,9,8,1,3,20,10,3,3,11,20,3,3,15,21,12,3,5,12,13,3,21,13,12,3,15,12,4,3,14,6,13,3,14,13,21,3,7,14,21,3,7,21,15,3,5,22,12,3,4,12,16,3,17,1,8,3,16,8,0,3,5,17,22,3,12,22,16,3,22,17,8,3,16,22,8,3,10,2,19,3,7,18,14,3,14,23,6,3,3,10,18,3,23,19,6,3,18,23,14,3,10,19,23,3,10,23,18,3,3,18,11,3,7,24,18,3,15,4,16,3,11,16,0,3,7,15,24,3,18,24,11,3,24,15,16,3,11,24,16,3,9,19,2,3,19,25,6,3,17,5,13,3,1,17,9,3,25,13,6,3,9,25,19,3,17,13,25,3,17,25,9]) + c1i=DataArrayInt([0,4,8,12,16,20,24,28,32,36,40,44,48,52,56,60,64,68,72,76,80,84,88,92,96,100,104,108,112,116,120,124,128,132,136,140,144,148,152,156,160,164,168,172,176,180,184,188,192]) + m1=MEDCouplingUMesh(meshName,2) ; m1.setCoords(coords) + m1.setConnectivity(c1,c1i) + mm[-1]=m1 + # + c2=DataArrayInt([0,8,8,1,1,9,9,2,3,10,10,2,0,11,11,3,4,12,12,5,5,13,13,6,7,14,14,6,4,15,15,7,0,16,16,4,1,17,17,5,3,18,18,7,2,19,19,6]) + m2=MEDCoupling1SGTUMesh(meshName,NORM_SEG2) + m2.setNodalConnectivity(c2) ; m2.setCoords(coords) + mm[-2]=m2.buildUnstructured() + # + ref0=DataArrayInt(55) ; ref0[:]=0 + mm.setFamilyFieldArr(0,ref0) + mm.setFamilyFieldArr(1,DataArrayInt([0,0,2,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0])) + ref1=DataArrayInt([0,0,0,0,0,0,0,0,-6,-6,-6,-6,-6,-6,-6,-6,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]) + mm.setFamilyFieldArr(-1,ref1) + ref2=DataArrayInt([0,0,-7,-7,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]) + mm.setFamilyFieldArr(-2,ref2) + # + for f,fid in (('FAMILLE_ZERO',0),('FAM_-6_Groupe_1',-6),('FAM_-7_Groupe_2',-7),('FAM_2_Groupe_3',2)): + mm.setFamilyId(f,fid) + for grp,fams in [('Groupe_1',('FAM_-6_Groupe_1',)),('Groupe_2',('FAM_-7_Groupe_2',)),('Groupe_3',('FAM_2_Groupe_3',))]: + mm.setFamiliesOnGroup(grp,fams) + mm.write(fileName,2) + # + mm=MEDFileMesh.New(fileName) + grp=mm.getGroup(-1,"Groupe_1") + dai=grp.computeFetchedNodeIds() + dai.setName("TOTO") + mm.addGroup(1,dai) + mm.rearrangeFamilies() # <- the aim of the test + self.assertTrue(dai.isEqual(mm.getGroupArr(1,"TOTO"))) + self.assertTrue(mm.getFamilyFieldAtLevel(0).isEqual(ref0)) + self.assertTrue(mm.getFamilyFieldAtLevel(-1).isEqual(ref1)) + self.assertTrue(mm.getFamilyFieldAtLevel(-2).isEqual(ref2)) + self.assertTrue(mm.getFamilyFieldAtLevel(1).isEqual(DataArrayInt([0,0,2,0,9,9,9,9,0,0,0,0,9,9,9,9,0,0,0,0,0,9,0,0,0,0,0,0]))) + allGrps=[('Groupe_1',('FAM_-6_Groupe_1',)),('Groupe_2',('FAM_-7_Groupe_2',)),('Groupe_3',('FAM_2_Groupe_3',)),('TOTO',('Family_9',))] + allFams=[('FAMILLE_ZERO',0),('FAM_-6_Groupe_1',-6),('FAM_-7_Groupe_2',-7),('FAM_2_Groupe_3',2),('Family_9',9)] + self.assertEqual(list(mm.getGroupsNames()),[elt[0] for elt in allGrps]) + for elt,fams in allGrps: + self.assertEqual(mm.getFamiliesOnGroup(elt),fams) + self.assertEqual(list(mm.getFamiliesNames()),[elt[0] for elt in allFams]) + for elt,eltId in allFams: + self.assertEqual(mm.getFamilyId(elt),eltId) + pass + + def testNonRegrCMeshSetFieldPfl1(self): + """ Non regression test. For structured mesh, push a false partial field in MEDFileField1TS using setFieldProfile.""" + ff=MEDFileField1TS() + meshName="mesh" + mm=MEDFileCMesh() + m=MEDCouplingCMesh() ; arr=DataArrayDouble(5) ; arr.iota() + m.setCoords(arr) + m.setName(meshName) + mm.setMesh(m) + field=MEDCouplingFieldDouble(ON_CELLS) + field.setMesh(m) + field.setArray(DataArrayDouble([1.2,2.3,3.4,4.5])) + field.setName("Field") + field.checkCoherency() + pfl=DataArrayInt([0,1,2,3]) ; pfl.setName("TUTU") #<- false profile because defined on all cells ! + ff.setFieldProfile(field,mm,0,pfl) # <- bug was revealed here ! + self.assertEqual(ff.getPfls(),()) + field2=ff.getFieldOnMeshAtLevel(ON_CELLS,0,mm) + self.assertTrue(field.isEqual(field2,1e-12,1e-12)) + del ff,mm,field,field2,pfl + # same with unstructured mesh + ff=MEDFileField1TS() + meshName="mesh" + mm=MEDFileUMesh() + m=MEDCouplingCMesh() ; arr=DataArrayDouble(5) ; arr.iota() + m.setCoords(arr) + m.setName(meshName) + m=m.buildUnstructured() + mm[0]=m + field=MEDCouplingFieldDouble(ON_CELLS) + field.setMesh(m) + field.setArray(DataArrayDouble([1.2,2.3,3.4,4.5])) + field.setName("Field") + field.checkCoherency() + pfl=DataArrayInt([0,1,2,3]) ; pfl.setName("TUTU") + ff.setFieldProfile(field,mm,0,pfl) + self.assertEqual(ff.getPfls(),()) + field2=ff.getFieldOnMeshAtLevel(ON_CELLS,0,mm) + self.assertTrue(field.isEqual(field2,1e-12,1e-12)) + pass + + def testMEDFileUMeshLinearToQuadraticAndRev1(self): + meshName="mesh" + fileName="Pyfile90.med" + fileName2="Pyfile91.med" + arr=DataArrayDouble(5) ; arr.iota() + m=MEDCouplingCMesh() ; m.setCoords(arr,arr) + m=m.buildUnstructured() + d=DataArrayInt([3,7,11,15]) + m1=m[d] + m1.simplexize(0) + m2=m[d.buildComplement(m.getNumberOfCells())] + m=MEDCouplingUMesh.MergeUMeshesOnSameCoords(m1,m2) + m.changeSpaceDimension(3,0.) + arr=DataArrayDouble(3) ; arr.iota() + m1D=MEDCouplingCMesh() ; m1D.setCoords(arr) ; m1D=m1D.buildUnstructured() ; m1D.changeSpaceDimension(3,0.) + m1D.setCoords(m1D.getCoords()[:,[1,2,0]]) + delta=m.getNumberOfNodes()*(m1D.getNumberOfNodes()-1) + m3D=m.buildExtrudedMesh(m1D,0) + m3D.sortCellsInMEDFileFrmt() + m3D.setName(meshName) + m2D=m ; m2D.setCoords(m3D.getCoords()) ; m2D.shiftNodeNumbersInConn(delta) ; m2D.setName(meshName) ; m2D.checkCoherency2() + m1D=m2D.computeSkin() ; m1D.setName(meshName) + # + mm=MEDFileUMesh() + mm[0]=m3D ; mm[-1]=m2D ; mm[-2]=m1D + 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") + grpFaceNorth=DataArrayInt([6,7,17,18,19]) ; grpFaceNorth.setName("NorthFace") + diagFace=DataArrayInt([0,1,13,15,17]) ; diagFace.setName("DiagFace") + vol1=DataArrayInt([20,21,23,24]) ; vol1.setName("vol1") + vol2=DataArrayInt([2,3,4,5,21,24]) ; vol2.setName("vol2") + mm.setGroupsAtLevel(0,[vol1,vol2]) + mm.setGroupsAtLevel(-1,[grpFaceSouth,grpFaceNorth,diagFace]) + mm.setGroupsAtLevel(-2,[grpEdge0,grpEdge1]) + # + mmOut1=mm.linearToQuadratic(0,0.) + mmOut1.write(fileName2,2) + mmOut2=mmOut1.quadraticToLinear(0.) + self.assertTrue(mm.isEqual(mmOut2,1e-12)[0]) + pass + + def testMEDFileMeshAddGroup1(self): + m=MEDCouplingCMesh() + arrX=DataArrayDouble(9) ; arrX.iota() + arrY=DataArrayDouble(4) ; arrY.iota() + m.setCoords(arrX,arrY) + m.setName("mesh") + mm=MEDFileCMesh() + mm.setMesh(m) + grp0=DataArrayInt([3,5,6,21,22]) ; grp0.setName("grp0") + mm.addGroup(0,grp0) + grp1=DataArrayInt([3,4,5,8,18,19,22]) ; grp1.setName("grp1") + mm.addGroup(0,grp1) + grp2=DataArrayInt([0,1,2,10,11]) ; grp2.setName("grp2") + mm.addGroup(0,grp2) + grp3=DataArrayInt([23]) ; grp3.setName("grp3") + mm.addGroup(0,grp3) + for grp in [grp0,grp1,grp2,grp3]: + self.assertTrue(mm.getGroupArr(0,grp.getName()).isEqual(grp)) + self.assertEqual(mm.getGroupsNames(),('grp0','grp1','grp2','grp3')) + delta=12 + for grp in [grp0,grp1,grp2,grp3]: + grpNode=grp.deepCpy() ; grpNode+=delta ; grpNode.setName("%s_node"%grp.getName()) + mm.addGroup(1,grpNode) + self.assertEqual(mm.getGroupsNames(),('grp0','grp0_node','grp1','grp1_node','grp2','grp2_node','grp3','grp3_node')) + for grp in [grp0,grp1,grp2,grp3]: + self.assertTrue(mm.getGroupArr(0,grp.getName()).isEqual(grp)) + for grp in [grp0,grp1,grp2,grp3]: + grpExp=grp+delta ; grpExp.setName("%s_node"%grp.getName()) + self.assertTrue(mm.getGroupArr(1,"%s_node"%grp.getName()).isEqual(grpExp)) + mm.normalizeFamIdsMEDFile() + for grp in [grp0,grp1,grp2,grp3]: + self.assertTrue(mm.getGroupArr(0,grp.getName()).isEqual(grp)) + for grp in [grp0,grp1,grp2,grp3]: + grpExp=grp+delta ; grpExp.setName("%s_node"%grp.getName()) + self.assertTrue(mm.getGroupArr(1,"%s_node"%grp.getName()).isEqual(grpExp)) + pass + pass unittest.main()