import platform
from math import pi,e,sqrt
from MEDLoaderDataForTest import MEDLoaderDataForTest
+from distutils.version import LooseVersion
class MEDLoaderTest3(unittest.TestCase):
def testMEDMesh1(self):
fname="Pyfile46.med"
m=MEDLoaderDataForTest.build2DMesh_3()
m=m[:10] ; m.setName("mesh")
- f=m.getMeasureField(ON_CELLS)
+ f=m.getMeasureField(False)
f=f.buildNewTimeReprFromThis(ONE_TIME,False)
f.setTime(5.5,3,4)
f.setName("SemiPartialField")
m.setCoords(arr,arr)
m=m.buildUnstructured()
m.setName("mm")
- f=m.getMeasureField(ON_CELLS)
+ f=m.getMeasureField(False)
self.assertIn(m.getHeapMemorySize(),xrange(3552-100,3552+100+4*strMulFac))
self.assertIn(f.getHeapMemorySize(),xrange(4215-100,4215+100+8*strMulFac))
#
arr[:,0]=range(25)
arr[:,1]=range(100,125)
f.setArray(arr)
- WriteField(fileName,f,2)
+ WriteField(fileName,f,True)
f=MEDCouplingFieldDouble(ON_NODES,ONE_TIME) ; f.setMesh(m)
f.setName("FieldNode")
arr=DataArrayDouble(36,2) ; arr.setInfoOnComponents(compos)
arr[:,0]=range(25)
arr[:,1]=range(100,125)
f.setArray(arr)
- WriteField(fileName,f,2)
+ WriteField(fileName,f,True)
f=MEDCouplingFieldDouble(ON_NODES,ONE_TIME) ; f.setMesh(m)
f.setName("FieldNode")
arr=DataArrayDouble(36,2) ; arr.setInfoOnComponents(compos)
mfd=MEDFileData.Aggregate([MEDFileData(fname1),MEDFileData(fname2)])
CheckMFD(self,mfd)
pass
+
+ def testExtrudedMesh1(self):
+ fname="Pyfile107.med"
+ arrX=DataArrayDouble([0,1,2,3]) ; arrY=DataArrayDouble([0,1,2,3,4]) ; arrZ=DataArrayDouble([0,1,2,3,4,5])
+ mesh3D=MEDCouplingCMesh() ; mesh3D.setCoords(arrX,arrY,arrZ) ; mesh3D.setName("mesh")
+ ex=MEDCouplingMappedExtrudedMesh(mesh3D)
+ mm=MEDFileUMesh(ex)
+ mm.write(fname,2)
+ ex2=mm.convertToExtrudedMesh()
+ mm2=MEDFileMesh.New(fname)
+ ex3=mm2.convertToExtrudedMesh()
+ self.assertTrue(ex.isEqual(ex2,1e-12))
+ self.assertTrue(ex.isEqual(ex3,1e-12))
+ pass
+
+ @unittest.skipUnless(LooseVersion(MEDFileVersionStr())>=LooseVersion('3.2.1'),"This test requires at least MEDFile version 3.2.1")
+ def testWriteInto30(self):
+ fname="Pyfile108.med"
+ fname2="Pyfile109.med"
+ m=MEDCouplingUMesh("mesh",1) ; m.setCoords(DataArrayDouble([0,0,1,1],2,2)) ; m.allocateCells() ; m.insertNextCell(NORM_SEG2,[1,0])
+ mm=MEDFileUMesh() ; mm[0]=m
+ mm.setFamilyId("FAMILLE_ZERO",0)
+ #
+ mm.write30(fname,2)
+ assert(LooseVersion(MEDFileVersionOfFileStr(fname)).version[:2]==[3,0]) # checks that just written MED file has a version == 3.0.x
+ mm2=MEDFileUMesh(fname)
+ self.assertTrue(mm.isEqual(mm2,1e-12))
+ #
+ mm.write(fname2,2)
+ assert(LooseVersion(MEDFileVersionOfFileStr(fname2)).version[:2]==list(MEDFileVersion()[:2])) # checks that MED file version of written mesh is thoose of the current MED file lib
+ pass
+
+ @unittest.skipUnless(MEDCouplingHasNumPyBindings(),"requires numpy")
+ def testPickelizationOfMEDFileObjects1(self):
+ fname="Pyfile110.med"
+ coo=DataArrayDouble([0.,0.,0.5,0.,1.,0.,0.,0.5,0.5,0.5,1.,0.5,0.,1.,0.5,1.,1.,1.],9,2)
+ m0=MEDCouplingUMesh("Mesh",2)
+ m0.allocateCells(5)
+ m0.insertNextCell(NORM_TRI3,[1,4,2])
+ m0.insertNextCell(NORM_TRI3,[4,5,2])
+ m0.insertNextCell(NORM_QUAD4,[0,3,4,1])
+ m0.insertNextCell(NORM_QUAD4,[3,6,7,4])
+ m0.insertNextCell(NORM_QUAD4,[4,7,8,5])
+ m0.finishInsertingCells()
+ m0.setCoords(coo)
+ m1=MEDCouplingUMesh(m0.getName(),1)
+ m1.allocateCells(9)
+ conn1=[0,1,0,3,3,4,4,1,5,4,2,4,1,2,3,6,5,8]
+ for i in xrange(9):
+ m1.insertNextCell(NORM_SEG2,conn1[2*i:2*i+2])
+ pass
+ m1.finishInsertingCells()
+ m1.setCoords(coo)
+ #
+ m=MEDFileUMesh()
+ m.setMeshAtLevel(0,m0)
+ m.setMeshAtLevel(-1,m1)
+ #
+ dt=3 ; it=2 ; tim=4.5
+ fieldNode0=MEDCouplingFieldDouble(ON_NODES,ONE_TIME)
+ fieldNode0.setName("fieldNode0")
+ fieldNode0.setTime(tim,dt,it)
+ pfl0=DataArrayInt([0,1,2,3,4]) ; pfl0.setName("PflIdentity0") # important to keep like that
+ arr=DataArrayDouble([10,11,12,13,14])
+ fieldNode0.setArray(arr)
+ f0=MEDFileField1TS()
+ f0.setFieldProfile(fieldNode0,m,0,pfl0)
+ fieldNode1=MEDCouplingFieldDouble(ON_NODES,ONE_TIME)
+ fieldNode1.setName("fieldNode1")
+ fieldNode1.setTime(tim,dt,it)
+ pfl1=DataArrayInt([0,1,2,3,4,5,6]) ; pfl1.setName("PflIdentity1")
+ arr1=DataArrayDouble([20,21,22,23,24,25,26])
+ fieldNode1.setArray(arr1)
+ f1=MEDFileField1TS()
+ f1.setFieldProfile(fieldNode1,m,-1,pfl1)
+ mfd=MEDFileData()
+ mfd.setMeshes(MEDFileMeshes()) ; mfd.setFields(MEDFileFields())
+ mfd.getMeshes().pushMesh(m)
+ fmts=MEDFileFieldMultiTS() ; fmts.pushBackTimeStep(f0)
+ mfd.getFields().pushField(fmts)
+ # first start gently
+ d=mfd.serialize()
+ mfd2=MEDFileData(d)
+ self.assertEqual(len(mfd2.getMeshes()),1)
+ self.assertEqual(len(mfd2.getFields()),1)
+ self.assertEqual(len(mfd2.getFields()[0]),1)
+ self.assertTrue(mfd2.getMeshes()[0].isEqual(mfd.getMeshes()[0],1e-12))
+ ff2=mfd2.getFields()[0][0].field(mfd2.getMeshes()[0])
+ ff =mfd.getFields()[0][0].field(mfd.getMeshes()[0])
+ self.assertTrue(ff2.isEqual(ff,1e-12,1e-12))
+ # OK now end of joke -> serialization of MEDFileData
+ import cPickle
+ st=cPickle.dumps(mfd,cPickle.HIGHEST_PROTOCOL)
+ mfd3=cPickle.loads(st)
+ # check of object
+ self.assertEqual(len(mfd3.getMeshes()),1)
+ self.assertEqual(len(mfd3.getFields()),1)
+ self.assertEqual(len(mfd3.getFields()[0]),1)
+ self.assertTrue(mfd3.getMeshes()[0].isEqual(mfd.getMeshes()[0],1e-12))
+ ff3=mfd3.getFields()[0][0].field(mfd3.getMeshes()[0])
+ self.assertTrue(ff3.isEqual(ff,1e-12,1e-12))
+ # serialization of MEDFileFields
+ st=cPickle.dumps(mfd.getFields(),cPickle.HIGHEST_PROTOCOL)
+ fs4=cPickle.loads(st)
+ ff4=fs4[0][0].field(mfd3.getMeshes()[0])
+ self.assertTrue(ff4.isEqual(ff,1e-12,1e-12))
+ # serialization of MEDFileFieldMulitTS
+ st=cPickle.dumps(mfd.getFields()[0],cPickle.HIGHEST_PROTOCOL)
+ fmts5=cPickle.loads(st)
+ ff5=fmts5[0].field(mfd3.getMeshes()[0])
+ self.assertTrue(ff5.isEqual(ff,1e-12,1e-12))
+ # serialization of MEDFileField1TS
+ st=cPickle.dumps(mfd.getFields()[0][0],cPickle.HIGHEST_PROTOCOL)
+ f1ts6=cPickle.loads(st)
+ ff6=f1ts6.field(mfd3.getMeshes()[0])
+ self.assertTrue(ff6.isEqual(ff,1e-12,1e-12))
+ # serialization of MEDFileMeshes
+ st=cPickle.dumps(mfd.getMeshes(),cPickle.HIGHEST_PROTOCOL)
+ ms7=cPickle.loads(st)
+ self.assertEqual(len(ms7),1)
+ self.assertTrue(ms7[0].isEqual(mfd.getMeshes()[0],1e-12))
+ pass
+
+ @unittest.skipUnless(MEDCouplingHasNumPyBindings(),"requires numpy")
+ def testPickelizationOfMEDFileObjects2(self):
+ # CMesh
+ self.testMEDMesh6() # generates MEDFileMesh5.med file
+ mm=MEDFileMesh.New("MEDFileMesh5.med")
+ self.assertTrue(isinstance(mm,MEDFileCMesh))
+ import cPickle
+ st=cPickle.dumps(mm,cPickle.HIGHEST_PROTOCOL)
+ mm2=cPickle.loads(st)
+ self.assertTrue(isinstance(mm2,MEDFileCMesh))
+ self.assertTrue(mm.getMesh().isEqual(mm2.getMesh(),1e-12))
+ # CurveLinear
+ self.testCurveLinearMesh1() # generates Pyfile55.med
+ mm=MEDFileMesh.New("Pyfile55.med")
+ self.assertTrue(isinstance(mm,MEDFileCurveLinearMesh))
+ st=cPickle.dumps(mm,cPickle.HIGHEST_PROTOCOL)
+ mm3=cPickle.loads(st)
+ self.assertTrue(isinstance(mm3,MEDFileCurveLinearMesh))
+ self.assertTrue(mm.getMesh().isEqual(mm3.getMesh(),1e-12))
+ self.testInt32InMEDFileFieldStar1()# generates Pyfile63.med
+ # MEDFileIntFieldMultiTS
+ fs4=MEDFileFields("Pyfile63.med")
+ ms4=MEDFileMeshes("Pyfile63.med")
+ self.assertTrue(isinstance(fs4[0],MEDFileIntFieldMultiTS))
+ st=cPickle.dumps(fs4[0],cPickle.HIGHEST_PROTOCOL)
+ fmts5=cPickle.loads(st)
+ self.assertEqual(len(fs4[0]),len(fmts5))
+ self.assertTrue(isinstance(fmts5,MEDFileIntFieldMultiTS))
+ self.assertTrue(fmts5[0].field(ms4[0]).isEqual((fs4[0][0]).field(ms4[0]),1e-12,1e-12))
+ # MEDFileIntField1TS
+ st=cPickle.dumps(fs4[0][0],cPickle.HIGHEST_PROTOCOL)
+ f1ts6=cPickle.loads(st)
+ self.assertTrue(isinstance(f1ts6,MEDFileIntField1TS))
+ self.assertTrue(f1ts6.field(ms4[0]).isEqual((fs4[0][0]).field(ms4[0]),1e-12,1e-12))
+ # MEDFileParameters
+ self.testParameters1()# generates Pyfile56.med
+ params=MEDFileParameters("Pyfile56.med")
+ st=cPickle.dumps(params,cPickle.HIGHEST_PROTOCOL)
+ params7=cPickle.loads(st)
+ self.assertEqual(len(params),len(params7))
+ for i in xrange(len(params)):
+ self.assertTrue(params[i].isEqual(params7[i],1e-12)[0])
+ pass
+ pass
pass
