+
+ def testGlobalNumOnNodes1(self):
+ """Test global number on nodes here. Used by partitionners."""
+ fname="Pyfile112.med"
+ arr=DataArrayDouble(5) ; arr.iota()
+ m=MEDCouplingUMesh.Build1DMeshFromCoords(arr)
+ m.setName("mesh")
+ mm=MEDFileUMesh()
+ mm[0]=m
+ self.assertTrue(not mm.getGlobalNumFieldAtLevel(1))
+ d=DataArrayInt([7,8,9,2,0])
+ dRef=d.deepCopy()
+ mm.setGlobalNumFieldAtLevel(1,d)
+ mm.checkConsistency()
+ self.assertRaises(InterpKernelException,mm.setGlobalNumFieldAtLevel,1,d[::2])
+ mm.checkConsistency()
+ self.assertEqual(d.getHiddenCppPointer(),mm.getGlobalNumFieldAtLevel(1).getHiddenCppPointer())
+ self.assertTrue(mm.getGlobalNumFieldAtLevel(1).isEqual(dRef))
+ mm.write(fname,2)
+ mm2=MEDFileMesh.New(fname)
+ self.assertTrue(mm.isEqual(mm2,1e-12)[0])
+ self.assertTrue(mm2.getGlobalNumFieldAtLevel(1).isEqual(dRef))
+ mm2.getGlobalNumFieldAtLevel(1).setIJ(0,0,10)
+ self.assertTrue(not mm.isEqual(mm2,1e-12)[0])
+ mm2.getGlobalNumFieldAtLevel(1).setIJ(0,0,7)
+ self.assertTrue(mm.isEqual(mm2,1e-12)[0])
+ pass
+
+ def testPartialReadOfEntities1(self):
+ """Test for advanced API on read to speed up read phase for users with "huge" number of time steps (more than 10 000)."""
+ fname="Pyfile113.med"
+ arr=DataArrayDouble(5) ; arr.iota()
+ m=MEDCouplingUMesh.Build1DMeshFromCoords(arr)
+ m.setName("mesh")
+ mm=MEDFileUMesh()
+ mm[0]=m
+ #
+ fieldName="Field"
+ ts1=(5.,1,2)
+ f1=MEDCouplingFieldDouble(ON_NODES) ; f1.setMesh(m) ; f1.setName(fieldName)
+ f1.setArray(DataArrayDouble([0.,0.1,0.2,0.3,0.4]))
+ f1.setTime(*ts1)
+ f2=MEDCouplingFieldDouble(ON_CELLS) ; f2.setMesh(m) ; f2.setName(fieldName)
+ f2.setArray(DataArrayDouble([1.,1.1,1.2,1.3]))
+ f2.setTime(*ts1)
+ f1ts=MEDFileField1TS()
+ f1ts.setFieldNoProfileSBT(f1)
+ f1ts.setFieldNoProfileSBT(f2)
+ self.assertEqual(set(f1ts.getTypesOfFieldAvailable()),set([ON_NODES,ON_CELLS]))
+ f1ts_2=f1ts.deepCopy()
+ f1ts_2.getUndergroundDataArray()[:]+=2
+ f1ts_2.setTime(3,4,6.)
+ fmts=MEDFileFieldMultiTS()
+ fmts.pushBackTimeStep(f1ts)
+ fmts.pushBackTimeStep(f1ts_2)
+ #
+ mm.write(fname,2)
+ fmts.write(fname,0)
+ #
+ ent=MEDFileEntities.BuildFrom([(ON_NODES,NORM_ERROR)])
+ mm=MEDFileMesh.New(fname)
+ fs=MEDFileFields(fname,False,ent) # the important line is here - We specify to MEDFileFields to read only nodes part to speed up read phase (by avoiding to scan all entities time geo types)
+ fs.loadArrays()
+ self.assertEqual(len(fs),1)
+ fmts=fs[0]
+ self.assertEqual(len(fmts),2)
+ ff0=fmts[0] ; ff1=fmts[1]
+ self.assertEqual(ff0.getTypesOfFieldAvailable(),[ON_NODES]) # only NODES have been loaded
+ self.assertTrue(ff0.field(mm).isEqual(f1,1e-12,1e-12))
+ f3=f1.deepCopy() ; f3+=2. ; f3.setTime(6.,3,4)
+ self.assertTrue(ff1.field(mm).isEqual(f3,1e-12,1e-12))
+ pass
+
+ def testFloat32InMEDFileFieldStar1(self):
+ """Like testInt32InMEDFileFieldStar1 but with float32 :)"""
+ fname="Pyfile114.med"
+ f1=MEDLoaderDataForTest.buildVecFieldOnCells_1();
+ f1=f1.convertToFloatField()
+ m1=f1.getMesh()
+ mm1=MEDFileUMesh.New()
+ mm1.setCoords(m1.getCoords())
+ mm1.setMeshAtLevel(0,m1)
+ mm1.setName(m1.getName())
+ mm1.write(fname,2)
+ ff1=MEDFileFloatField1TS()
+ ff1.setFieldNoProfileSBT(f1)
+ a=ff1.getFieldOnMeshAtLevel(0,ON_CELLS,mm1)
+ self.assertEqual(a.getArray().getInfoOnComponents(),['power [MW/m^3]','density [g/cm^3]','temperature [K]'])
+ self.assertTrue(a.isEqual(f1,1e-12,1e-12))
+ ff1.write(fname,0)
+ a,b=ff1.getUndergroundDataArrayExt()
+ self.assertEqual(a.getHiddenCppPointer(),ff1.getUndergroundDataArray().getHiddenCppPointer())
+ self.assertEqual(b,[((3,0),(0,2)),((4,0),(2,4)),((6,0),(4,5)),((5,0),(5,6))])
+ ff2=MEDFileAnyTypeField1TS.New(fname)
+ self.assertEqual(ff2.getName(),"VectorFieldOnCells")
+ self.assertEqual(ff2.getTime(),[0,1,2.0])
+ self.assertTrue(isinstance(ff2,MEDFileFloatField1TS))
+ a=ff1.getFieldOnMeshAtLevel(ON_CELLS,0,mm1)
+ self.assertEqual(a.getArray().getInfoOnComponents(),['power [MW/m^3]','density [g/cm^3]','temperature [K]'])
+ self.assertTrue(a.isEqual(f1,1e-12,1e-12))
+ ff2.setTime(1,2,3.)
+ c=ff2.getUndergroundDataArray() ; c*=2
+ ff2.write(fname,0) # 2 time steps in
+ ffs1=MEDFileAnyTypeFieldMultiTS.New(fname,"VectorFieldOnCells")
+ self.assertEqual(ffs1.getTimeSteps(),[(0, 1, 2.0), (1, 2, 3.0)])
+ self.assertEqual(len(ffs1),2)
+ self.assertTrue(isinstance(ffs1,MEDFileFloatFieldMultiTS))
+ a=ffs1[2.].getFieldOnMeshAtLevel(ON_CELLS,0,mm1)
+ self.assertTrue(a.isEqual(f1,1e-12,1e-12))
+ a=ffs1.getFieldOnMeshAtLevel(ON_CELLS,0,1,0,mm1)
+ self.assertTrue(a.isEqual(f1,1e-12,1e-12))
+ it=ffs1.__iter__() ; it.next() ; ff2bis=it.next()
+ a=ff2bis.getFieldOnMeshAtLevel(0,ON_CELLS,mm1)
+ self.assertTrue(a.getArray().isEqual(2*f1.getArray(),1e-7))
+ f1.setTime(3.,1,2) ; f1.getArray()[:]*=2
+ self.assertTrue(a.isEqual(f1,1e-12,1e-12)) ; f1.getArray()[:]/=2
+ bc=DataArrayFloat(6,3) ; bc[:]=0 ; bc.setInfoOnComponents(['power [MW/m^3]','density [g/cm^3]','temperature [K]'])
+ for it in ffs1:
+ a=it.getFieldOnMeshAtLevel(ON_CELLS,0,mm1)
+ bc+=a.getArray()
+ pass
+ self.assertTrue(bc.isEqual(3*f1.getArray(),1e-7))
+ nf1=MEDCouplingFieldFloat(ON_NODES)
+ nf1.setTime(9.,10,-1)
+ nf1.setMesh(f1.getMesh())
+ narr=DataArrayFloat(12,2) ; narr.setInfoOnComponents(["aa [u1]","bbbvv [ppp]"]) ; narr[:,0]=list(range(12)) ; narr[:,1]=2*narr[:,0]
+ nf1.setName("VectorFieldOnNodes") ; nf1.setArray(narr)
+ nff1=MEDFileFloatField1TS.New()
+ nff1.setFieldNoProfileSBT(nf1)
+ self.assertEqual(nff1.getInfo(),('aa [u1]','bbbvv [ppp]'))
+ self.assertEqual(nff1.getTime(),[10,-1,9.0])
+ nff1.write(fname,0)
+ #
+ nf2=MEDCouplingFieldFloat(ON_NODES)
+ nf2.setTime(19.,20,-11)
+ nf2.setMesh(f1.getMesh())
+ narr2=DataArrayFloat(8,2) ; narr.setInfoOnComponents(["aapfl [u1]","bbbvvpfl [ppp]"]) ; narr2[:,0]=list(range(8)) ; narr2[:,0]+=10 ; narr2[:,1]=3*narr2[:,0]
+ nf2.setName("VectorFieldOnNodesPfl") ; narr2.setName(nf2.getName()) ; nf2.setArray(narr2)
+ nff2=MEDFileFloatField1TS.New()
+ npfl=DataArrayInt([1,2,4,5,6,7,10,11]) ; npfl.setName("npfl")
+ nff2.setFieldProfile(nf2,mm1,0,npfl)
+ nff2.getFieldWithProfile(ON_NODES,0,mm1)
+ a,b=nff2.getFieldWithProfile(ON_NODES,0,mm1) ; b.setName(npfl.getName())
+ self.assertTrue(b.isEqual(npfl))
+ self.assertTrue(a.isEqual(narr2,1e-7))
+ nff2.write(fname,0)
+ nff2bis=MEDFileFloatField1TS(fname,"VectorFieldOnNodesPfl")
+ a,b=nff2bis.getFieldWithProfile(ON_NODES,0,mm1) ; b.setName(npfl.getName())
+ self.assertTrue(b.isEqual(npfl))
+ self.assertTrue(a.isEqual(narr2,1e-7))
+ #
+ nf3=MEDCouplingFieldDouble(ON_NODES)
+ nf3.setName("VectorFieldOnNodesDouble")
+ nf3.setTime(29.,30,-21)
+ nf3.setMesh(f1.getMesh())
+ nf3.setArray(f1.getMesh().getCoords())
+ nff3=MEDFileField1TS.New()
+ nff3.setFieldNoProfileSBT(nf3)
+ nff3.write(fname,0)
+ fs=MEDFileFields(fname)
+ self.assertEqual(len(fs),4)
+ ffs=[it for it in fs]
+ self.assertTrue(isinstance(ffs[0],MEDFileFloatFieldMultiTS))
+ self.assertTrue(isinstance(ffs[1],MEDFileFloatFieldMultiTS))
+ self.assertTrue(isinstance(ffs[2],MEDFileFieldMultiTS))
+ self.assertTrue(isinstance(ffs[3],MEDFileFloatFieldMultiTS))
+ #
+ self.assertTrue(fs["VectorFieldOnCells"][0].getUndergroundDataArray().isEqualWithoutConsideringStr(f1.getArray(),1e-7))
+ self.assertTrue(fs["VectorFieldOnCells"][1,2].getUndergroundDataArray().isEqualWithoutConsideringStr(2*f1.getArray(),1e-7))
+ self.assertTrue(fs["VectorFieldOnNodesPfl"][0].getUndergroundDataArray().isEqualWithoutConsideringStr(narr2,1e-7))
+ self.assertTrue(fs["VectorFieldOnNodes"][9.].getUndergroundDataArray().isEqualWithoutConsideringStr(narr,1e-7))
+ self.assertTrue(fs["VectorFieldOnNodesDouble"][29.].getUndergroundDataArray().isEqualWithoutConsideringStr(f1.getMesh().getCoords(),1e-12))
+ #
+ nf3_read=MEDFileFieldMultiTS(fname,"VectorFieldOnNodesDouble")
+ self.assertTrue(nf3_read[29.].getUndergroundDataArray().isEqualWithoutConsideringStr(f1.getMesh().getCoords(),1e-12))
+ self.assertRaises(InterpKernelException,MEDFileFloatFieldMultiTS.New,fname,"VectorFieldOnNodesDouble")# exception because trying to read a double field with int instance
+ self.assertRaises(InterpKernelException,MEDFileFieldMultiTS.New,fname,"VectorFieldOnNodes")# exception because trying to read a int field with double instance
+ MEDFileField1TS.New(fname,"VectorFieldOnNodesDouble",30,-21)
+ self.assertRaises(InterpKernelException,MEDFileFloatField1TS.New,fname,"VectorFieldOnNodesDouble",30,-21)# exception because trying to read a double field with int instance
+ MEDFileFloatField1TS.New(fname,"VectorFieldOnNodes",10,-1)
+ self.assertRaises(InterpKernelException,MEDFileField1TS.New,fname,"VectorFieldOnNodes",10,-1)# exception because trying to read a double field with int instance
+ #
+ self.assertEqual(fs.getMeshesNames(),('3DSurfMesh_1','3DSurfMesh_1','3DSurfMesh_1','3DSurfMesh_1'))
+ self.assertTrue(fs.changeMeshNames([('3DSurfMesh_1','3DSurfMesh')]))
+ self.assertEqual(fs.getMeshesNames(),('3DSurfMesh','3DSurfMesh','3DSurfMesh','3DSurfMesh'))
+ self.assertTrue(not fs.changeMeshNames([('3DSurfMesh_1','3DSurfMesh')]))
+ pass
+
+ def testPenta18_1(self):
+ """EDF8478 : Test of read/write of penta18"""
+ fname="Pyfile115.med"
+ arr=DataArrayDouble([
+ (0.,1.,1.),(0.,0.,1.),(1.,0.,1.),
+ (0.,1.,0.),(0.,0.,0.),(1.,0.,0.),
+ (0.,0.5,1.),(0.5,0.,1.),(0.5,0.5,1.),
+ (0.,0.5,0.),(0.5,0.,0.),(0.5,0.5,0.),
+ (0.,1.,0.5),(0.,0.,0.5),(1.,0.,0.5),
+ (0.,0.5,0.5),(0.5,0.,0.5),(0.5,0.5,0.5)])
+ m=MEDCouplingUMesh("mesh",3)
+ m.setCoords(arr)
+ m.allocateCells(1)
+ m.insertNextCell(NORM_PENTA18,list(range(18)))
+ m.checkConsistencyLight()
+ #
+ f=MEDCouplingFieldDouble(ON_NODES)
+ f.setMesh(m)
+ f.setName("FieldOnPenta18")
+ f.setArray(DataArrayDouble(list(range(18))))
+ f.checkConsistencyLight()
+ #
+ m2,d,di,rd,rdi=m.buildDescendingConnectivity()
+ #
+ f2=MEDCouplingFieldDouble(ON_NODES)
+ f2.setMesh(m)
+ f2.setName("FieldOnPenta18Sub")
+ f2.setArray(DataArrayDouble(list(range(18))))
+ f2.checkConsistencyLight()
+ WriteField(fname,f2,True)
+ f3=ReadField(fname)
+ self.assertTrue(f2.isEqual(f3,1e-12,1e-12))
+ self.assertEqual(f3.getMesh().getNumberOfCells(),1)
+ self.assertEqual(f3.getMesh().getTypeOfCell(0),NORM_PENTA18)
+ pass
+
+ @unittest.skipUnless('linux'==platform.system().lower(),"stderr redirection not ported on Windows ?")
+ @unittest.skipUnless(LooseVersion(MEDFileVersionStr())<LooseVersion('4.0.0'),
+ "This test is not compatible with MEDFile version 4.0.0 and above")
+ def testMedFileCapabilityToCryOnNewFeatureWritingIntoOldFiles(self):
+ fname="Pyfile116.med"
+ errfname="Pyfile116.err"
+ c=DataArrayDouble([0,1,2,3])
+ m=MEDCouplingCMesh()
+ m.setCoords(c,c)
+ m=m.buildUnstructured()
+ m.setName("mesh")
+ mm=MEDFileUMesh()
+ mm[0]=m
+ f=MEDCouplingFieldInt(ON_CELLS)
+ f.setMesh(m) ; arr2=DataArrayInt(m.getNumberOfCells()) ; arr2.iota()
+ f.setArray(arr2)
+ f.setName("field")
+ f1ts=MEDFileIntField1TS()
+ f1ts.setFieldNoProfileSBT(f)
+ mm.write30(fname,2)
+ f1ts.write30(fname,0)
+ #
+ f=MEDCouplingFieldFloat(ON_CELLS)
+ f.setMesh(m) ; arr2=DataArrayFloat(m.getNumberOfCells()) ; arr2.iota()
+ f.setArray(arr2)
+ f.setName("field2")
+ f1ts=MEDFileFloatField1TS()
+ f1ts.setFieldNoProfileSBT(f)
+ #
+ import os,gc
+ tmp=StdOutRedirect(errfname)
+ self.assertRaises(InterpKernelException,f1ts.write30,fname,0)
+ del tmp
+ gc.collect(0)
+ if os.path.exists(errfname):
+ os.remove(errfname)
+ pass
+
+ def testFieldsLinearToQuadratic(self):
+ arr=DataArrayDouble([0,1])
+ m=MEDCouplingCMesh();
+ m.setCoords(arr,arr,arr)
+ m=m.buildUnstructured()
+ m2=m.deepCopy()
+ m2.translate([2,0,0])
+ m3=MEDCouplingUMesh.MergeUMeshes([m,m2])
+ m3.setName("mesh")
+ mm=MEDFileUMesh()
+ mm[0]=m3
+ mmq=mm.linearToQuadratic(0)
+ mms=MEDFileMeshes() ; mms.pushMesh(mm)
+ mmsq=MEDFileMeshes() ; mmsq.pushMesh(mmq)
+ #
+ f=MEDCouplingFieldDouble(ON_NODES)
+ f.setName("field")
+ f.setMesh(m3)
+ f.setTime(3.,1,2)
+ arr=DataArrayDouble(m3.getNumberOfNodes())
+ arr.iota()
+ f.setArray(arr)
+ f1ts=MEDFileField1TS()
+ f1ts.setFieldNoProfileSBT(f)
+ fmts=MEDFileFieldMultiTS()
+ fmts.pushBackTimeStep(f1ts)
+ fs=MEDFileFields()
+ fs.pushField(fmts)
+ fs2=fs.linearToQuadratic(mms,mmsq)
+ #
+ fToTest=fs2[0][0].field(mmq)
+ self.assertEqual(fToTest.getTime(),[3.,1,2])
+ mTest=MEDCoupling1SGTUMesh(fToTest.getMesh())
+ self.assertTrue(mTest.getNodalConnectivity().isEqual(DataArrayInt([1,0,2,3,5,4,6,7,16,17,18,19,20,21,22,23,24,25,26,27,9,8,10,11,13,12,14,15,28,29,30,31,32,33,34,35,36,37,38,39])))
+ self.assertTrue(mTest.getCoords().isEqual(DataArrayDouble([0.,0.,0.,1.,0.,0.,0.,1.,0.,1.,1.,0.,0.,0.,1.,1.,0.,1.,0.,1.,1.,1.,1.,1.,2.,0.,0.,3.,0.,0.,2.,1.,0.,3.,1.,0.,2.,0.,1.,3.,0.,1.,2.,1.,1.,3.,1.,1.,0.5, 0.,0.,0.,0.5, 0.,0.5, 1.,0.,1.,0.5, 0.,0.5, 0.,1.,0.,0.5, 1.,0.5, 1.,1.,1.,0.5, 1.,1.,0.,0.5, 0.,0.,0.5, 0.,1.,0.5, 1.,1.,0.5, 2.5, 0.,0.,2.,0.5, 0.,2.5, 1.,0.,3.,0.5, 0.,2.5, 0.,1.,2.,0.5, 1.,2.5, 1.,1.,3.,0.5, 1.,3.,0.,0.5, 2.,0.,0.5, 2.,1.,0.5, 3.,1.,0.5],40,3),1e-12))
+ self.assertTrue(fToTest.getArray().isEqual(DataArrayDouble([0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,0.5,1,2.5,2,4.5,5,6.5,6,3,2,4,5,8.5,9,10.5,10,12.5,13,14.5,14,11,10,12,13]),1e-12))
+ pass