# -*- coding: iso-8859-1 -*-
-# Copyright (C) 2007-2012 CEA/DEN, EDF R&D
+# Copyright (C) 2007-2014 CEA/DEN, EDF R&D
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
-# version 2.1 of the License.
+# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
mesh1.setName("3DMesh_1");
self.assertTrue(mesh1_2.isEqual(mesh1,1e-12));
#
- vec=["Family_4","Family_2"];
+ vec=["Family_-3","Family_-5"];
mesh2_2=MEDLoader.MEDLoader.ReadUMeshFromFamilies(fileName,mnane,0,vec);
mesh2_2.setName("mesh2");
self.assertTrue(mesh2_2.isEqual(mesh2,1e-12));
#
ret=MEDLoader.MEDLoader.GetMeshFamiliesNamesOnGroup(fileName,"3DToto","3DMesh_1");
self.assertEqual(4,len(ret));
- self.assertEqual(ret[0],"Family_1");
- self.assertEqual(ret[1],"Family_2");
- self.assertEqual(ret[2],"Family_3");
- self.assertEqual(ret[3],"Family_4");
+ self.assertEqual(ret[0],"Family_-2");
+ self.assertEqual(ret[1],"Family_-3");
+ self.assertEqual(ret[2],"Family_-4");
+ self.assertEqual(ret[3],"Family_-5");
#
- ret1=MEDLoader.MEDLoader.GetMeshGroupsNamesOnFamily(fileName,"3DToto","Family_2");
+ ret1=MEDLoader.MEDLoader.GetMeshGroupsNamesOnFamily(fileName,"3DToto","Family_-3");
self.assertEqual(2,len(ret1));
self.assertEqual(ret1[0],"3DMesh_1");
self.assertEqual(ret1[1],"mesh2");
f2=MEDLoader.MEDLoader.ReadFieldCell(fileName,m.getName(),0,f.getName(),-1,-1)
self.assertTrue(f.isEqual(f2,1e-12,1e-12))
pass
+
+ def testMultiMeshTypeWrite0(self):
+ fname="Pyfile73.med"
+ m=MEDLoader.MEDCoupling1SGTUMesh("mesh",MEDLoader.NORM_QUAD4) ; m.allocateCells()
+ m.insertNextCell([0,2,1,3])
+ m.setCoords(MEDLoader.DataArrayDouble([0.,0.,1.,1.,1.,0.,0.,1.],4,2))
+ #
+ ms=[m.deepCpy() for i in xrange(4)]
+ for i,elt in enumerate(ms):
+ elt.translate([float(i)*1.5,0.])
+ pass
+ #
+ m0=MEDLoader.MEDCoupling1SGTUMesh.Merge1SGTUMeshes(ms)
+ f=m0.getMeasureField(False) ; f.getArray().setInfoOnComponents(["ABC [defg]"])
+ MEDLoader.MEDLoader.WriteField(fname,f,True)
+ #
+ fRead=MEDLoader.MEDLoader.ReadFieldCell(fname,"merge",0,f.getName(),-1,-1)
+ fRead.setMesh(MEDLoader.MEDCoupling1SGTUMesh(fRead.getMesh()))
+ self.assertTrue(f.isEqual(fRead,1e-12,1e-12))
+ #
+ m0=m0.buildUnstructured() ; m0.convertAllToPoly()
+ m0=MEDLoader.MEDCoupling1DGTUMesh(m0)
+ f=m0.getMeasureField(False) ; f.getArray().setInfoOnComponents(["ABC [defg]"])
+ MEDLoader.MEDLoader.WriteField(fname,f,True)
+ #
+ fRead=MEDLoader.MEDLoader.ReadFieldCell(fname,"merge",0,f.getName(),-1,-1)
+ fRead.setMesh(MEDLoader.MEDCoupling1DGTUMesh(fRead.getMesh()))
+ self.assertTrue(f.isEqual(fRead,1e-12,1e-12))
+ #
+ m0=MEDLoader.MEDCouplingCMesh()
+ arr=MEDLoader.DataArrayDouble(4) ; arr.iota()
+ m0.setCoords(arr,arr)
+ m0.setName("mesh")
+ f=m0.getMeasureField(False) ; f.getArray().setInfoOnComponents(["ABC [defg]"])
+ MEDLoader.MEDLoader.WriteField(fname,f,True)
+ #
+ fRead=MEDLoader.MEDLoader.ReadFieldCell(fname,"mesh",0,f.getName(),-1,-1)
+ self.assertTrue(f.isEqual(fRead,1e-12,1e-12))
+ #
+ c=m0.buildUnstructured().getCoords()
+ m0=MEDLoader.MEDCouplingCurveLinearMesh("mesh")
+ m0.setNodeGridStructure([4,4])
+ m0.setCoords(c)
+ f=m0.getMeasureField(False) ; f.getArray().setInfoOnComponents(["ABC [defg]"])
+ MEDLoader.MEDLoader.WriteField(fname,f,True)
+ #
+ fRead=MEDLoader.MEDLoader.ReadFieldCell(fname,"mesh",0,f.getName(),-1,-1)
+ self.assertTrue(f.isEqual(fRead,1e-12,1e-12))
+ pass
+
+ def testMultiMeshTypeWrite1(self):
+ fname="Pyfile74.med"
+ m=MEDLoader.MEDCoupling1SGTUMesh("mesh",MEDLoader.NORM_QUAD4) ; m.allocateCells()
+ m.insertNextCell([0,2,1,3])
+ m.setCoords(MEDLoader.DataArrayDouble([0.,0.,1.,1.,1.,0.,0.,1.],4,2))
+ #
+ ms=[m.deepCpy() for i in xrange(4)]
+ for i,elt in enumerate(ms):
+ elt.translate([float(i)*1.5,0.])
+ pass
+ m0=MEDLoader.MEDCoupling1SGTUMesh.Merge1SGTUMeshes(ms)
+ MEDLoader.MEDLoader.WriteMesh(fname,m0,True)
+ #
+ mRead=MEDLoader.MEDLoader.ReadMeshFromFile(fname,"merge",0)
+ self.assertTrue(isinstance(mRead,MEDLoader.MEDCouplingUMesh))
+ mRead=MEDLoader.MEDCoupling1SGTUMesh(mRead)
+ self.assertTrue(m0.isEqual(mRead,1e-12))
+ #
+ m0=m0.buildUnstructured() ; m0.convertAllToPoly()
+ m0=MEDLoader.MEDCoupling1DGTUMesh(m0)
+ MEDLoader.MEDLoader.WriteMesh(fname,m0,True)
+ #
+ mRead=MEDLoader.MEDLoader.ReadMeshFromFile(fname,"merge",0)
+ mRead=MEDLoader.MEDCoupling1DGTUMesh(mRead)
+ self.assertTrue(m0.isEqual(mRead,1e-12))
+ #
+ m0=MEDLoader.MEDCouplingCMesh()
+ arr=MEDLoader.DataArrayDouble(4) ; arr.iota()
+ m0.setCoords(arr,arr)
+ m0.setName("mesh")
+ MEDLoader.MEDLoader.WriteMesh(fname,m0,True)
+ #
+ mRead=MEDLoader.MEDLoader.ReadMeshFromFile(fname,0)
+ self.assertTrue(isinstance(mRead,MEDLoader.MEDCouplingCMesh))
+ self.assertTrue(m0.isEqual(mRead,1e-12))
+ #
+ c=m0.buildUnstructured().getCoords()
+ m0=MEDLoader.MEDCouplingCurveLinearMesh("mesh")
+ m0.setNodeGridStructure([4,4])
+ m0.setCoords(c)
+ MEDLoader.MEDLoader.WriteMesh(fname,m0,True)
+ #
+ mRead=MEDLoader.MEDLoader.ReadMeshFromFile(fname,0)
+ self.assertTrue(isinstance(mRead,MEDLoader.MEDCouplingCurveLinearMesh))
+ self.assertTrue(m0.isEqual(mRead,1e-12))
+ pass
+
+ def testChangeGroupName(self):
+ """ This test is a non regression test on MEDFileUMesh.changeGroupName thanks to Alliance.
+ """
+ mfd=MEDLoaderDataForTest.buildAMEDFileDataWithGroupOnOneFamilyForSauv()
+ mesh = mfd.getMeshes().getMeshAtPos(0)
+ mesh.changeGroupName("grp0_LM1", "xonall1")
+ self.assertTrue("xonall1" in mesh.getGroupsNames())
+ pass
+
+ def testFieldWithTooLongName(self):
+ """ This test is a non regression test, to check that in basic API the policies are taken into account.
+ """
+ fname="Pyfile75.med"
+ # Coordinates
+ coords = [0.,0., 0.,1., 1.,1., 1.,0.]
+ # lvl 0 connectivity
+ conn2D = [1,2,3,4]
+ # lvl 0 mesh
+ m=MEDLoader.MEDCouplingUMesh.New("mesh",2)
+ m.allocateCells(1)
+ m.insertNextCell(MEDLoader.NORM_QUAD4,4,conn2D)
+ m.finishInsertingCells()
+ # assigning coordinates
+ meshCoords=MEDLoader.DataArrayDouble.New()
+ meshCoords.setValues(coords, 4, 2)
+ m.setCoords(meshCoords)
+ #
+ f=MEDLoader.MEDCouplingFieldDouble.New(MEDLoader.ON_CELLS,MEDLoader.ONE_TIME)
+ f.setMesh(m)
+ d=MEDLoader.DataArrayDouble.New()
+ d.alloc(1,1)
+ d.iota(1.)
+ # seting a long name
+ d.setInfoOnComponent(0,"CONCENTRATION of I129")
+ f.setArray(d)
+ f.setName("field")
+ #
+ mm=MEDLoader.MEDFileUMesh()
+ MEDLoader.MEDLoader.SetTooLongStrPolicy(2)
+ MEDLoader.MEDLoader.AssignStaticWritePropertiesTo(mm)
+ self.assertEqual(2,mm.getTooLongStrPolicy())
+ MEDLoader.MEDLoader.SetTooLongStrPolicy(0)
+ MEDLoader.MEDLoader.AssignStaticWritePropertiesTo(mm)
+ self.assertEqual(0,mm.getTooLongStrPolicy())
+ del mm
+ #
+ MEDLoader.MEDLoader.SetTooLongStrPolicy(2)
+ self.assertRaises(MEDLoader.InterpKernelException,MEDLoader.MEDLoader.WriteField,fname,f,True)# the component name is too long + policy 2 -> throw
+ f.getArray().setInfoOnComponent(0,'I129')
+ MEDLoader.MEDLoader.WriteField(fname,f,True)
+ pass
+
+ def testUsingAlreadyWrittenMesh2(self):
+ """ This test focuses on MEDLoader.WriteFieldUsingAlreadyWrittenMesh with mesh different from UMesh.
+ """
+ fname="Pyfile76.med"
+ mesh=MEDLoader.MEDCouplingCMesh("mesh")
+ arrX=MEDLoader.DataArrayDouble([0,1,2,3])
+ arrY=MEDLoader.DataArrayDouble([0,2,3,5,7])
+ arrZ=MEDLoader.DataArrayDouble([7])
+ mesh.setCoords(arrX,arrY,arrZ)
+ #
+ f1=MEDLoader.MEDCouplingFieldDouble(MEDLoader.ON_NODES) ; f1.setName("f1")
+ f1.setMesh(mesh)
+ arr=MEDLoader.DataArrayDouble(20) ; arr.iota()
+ f1.setArray(arr)
+ f1.checkCoherency()
+ #
+ f2=MEDLoader.MEDCouplingFieldDouble(MEDLoader.ON_NODES) ; f2.setName("f2")
+ f2.setMesh(mesh)
+ arr=MEDLoader.DataArrayDouble(20) ; arr.iota() ; arr*=3
+ f2.setArray(arr)
+ f2.checkCoherency()
+ #
+ f11=f1.deepCpy() ; (f11.getArray())[:]*=4 ; f11.setTime(1.1,5,6)
+ #
+ MEDLoader.MEDLoader.WriteMesh(fname,f1.getMesh(),True)
+ MEDLoader.MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f1)
+ MEDLoader.MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f2)
+ MEDLoader.MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f11)
+ ##
+ f1r=MEDLoader.MEDLoader.ReadFieldNode(fname,"mesh",0,"f1",-1,-1);
+ self.assertTrue(f1.isEqual(f1r,1e-12,1e-12))
+ self.assertTrue(f1r.getArray().isEqual(MEDLoader.DataArrayDouble([0.,1.,2.,3.,4.,5.,6.,7.,8.,9.,10.,11.,12.,13.,14.,15.,16.,17.,18.,19.]),1e-12))
+ f2r=MEDLoader.MEDLoader.ReadFieldNode(fname,"mesh",0,"f2",-1,-1);
+ self.assertTrue(f2.isEqual(f2r,1e-12,1e-12))
+ self.assertTrue(f2r.getArray().isEqual(MEDLoader.DataArrayDouble([0.,3.,6.,9.,12.,15.,18.,21.,24.,27.,30.,33.,36.,39.,42.,45.,48.,51.,54.,57.]),1e-12))
+ f3r=MEDLoader.MEDLoader.ReadFieldNode(fname,"mesh",0,"f1",5,6);
+ self.assertTrue(f11.isEqual(f3r,1e-12,1e-12))
+ self.assertTrue(f3r.getArray().isEqual(MEDLoader.DataArrayDouble([0.,4.,8.,12.,16.,20.,24.,28.,32.,36.,40.,44.,48.,52.,56.,60.,64.,68.,72.,76.]),1e-12))
+ pass
pass
unittest.main()