# -*- coding: iso-8859-1 -*-
-# Copyright (C) 2007-2013 CEA/DEN, EDF R&D
+# Copyright (C) 2007-2016 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
from math import pi,e,sqrt
from MEDLoaderDataForTest import MEDLoaderDataForTest
-class MEDLoaderTest(unittest.TestCase):
+class MEDLoaderTest2(unittest.TestCase):
def testMesh1DRW(self):
mesh=MEDLoaderDataForTest.build1DMesh_1();
- mesh.checkCoherency();
- MEDLoader.WriteUMeshDep("Pyfile1.med",mesh,False);
- mesh_rw=MEDLoader.ReadUMeshFromFile("Pyfile1.med",mesh.getName(),0);
+ mesh.checkConsistencyLight();
+ WriteUMeshDep("Pyfile1.med",mesh,False);
+ mesh_rw=ReadUMeshFromFile("Pyfile1.med",mesh.getName(),0);
self.assertTrue(mesh.isEqual(mesh_rw,1e-12));
pass
def testMesh2DCurveRW(self):
mesh=MEDLoaderDataForTest.build2DCurveMesh_1();
- mesh.checkCoherency();
- MEDLoader.WriteUMeshDep("Pyfile2.med",mesh,False);
- mesh_rw=MEDLoader.ReadUMeshFromFile("Pyfile2.med",mesh.getName(),0);
+ mesh.checkConsistencyLight();
+ WriteUMeshDep("Pyfile2.med",mesh,False);
+ mesh_rw=ReadUMeshFromFile("Pyfile2.med",mesh.getName(),0);
self.assertTrue(mesh.isEqual(mesh_rw,1e-12));
pass
def testMesh2DRW(self):
mesh=MEDLoaderDataForTest.build2DMesh_1();
- mesh.checkCoherency();
- MEDLoader.WriteUMeshDep("Pyfile3.med",mesh,False);
- mesh_rw=MEDLoader.ReadUMeshFromFile("Pyfile3.med",mesh.getName(),0);
+ mesh.checkConsistencyLight();
+ WriteUMeshDep("Pyfile3.med",mesh,False);
+ mesh_rw=ReadUMeshFromFile("Pyfile3.med",mesh.getName(),0);
self.assertTrue(mesh.isEqual(mesh_rw,1e-12));
pass
def testMesh3DSurfRW(self):
mesh=MEDLoaderDataForTest.build3DSurfMesh_1();
- mesh.checkCoherency();
- MEDLoader.WriteUMeshDep("Pyfile4.med",mesh,False);
- mesh_rw=MEDLoader.ReadUMeshFromFile("Pyfile4.med",mesh.getName(),0);
+ mesh.checkConsistencyLight();
+ WriteUMeshDep("Pyfile4.med",mesh,False);
+ mesh_rw=ReadUMeshFromFile("Pyfile4.med",mesh.getName(),0);
self.assertTrue(mesh.isEqual(mesh_rw,1e-12));
pass
def testMesh3DRW(self):
mesh=MEDLoaderDataForTest.build3DMesh_1();
- mesh.checkCoherency();
- MEDLoader.WriteUMeshDep("Pyfile5.med",mesh,False);
- mesh_rw=MEDLoader.ReadUMeshFromFile("Pyfile5.med",mesh.getName(),0);
+ mesh.checkConsistencyLight();
+ WriteUMeshDep("Pyfile5.med",mesh,False);
+ mesh_rw=ReadUMeshFromFile("Pyfile5.med",mesh.getName(),0);
self.assertTrue(mesh.isEqual(mesh_rw,1e-12));
pass
def testFieldRW1(self):
f1=MEDLoaderDataForTest.buildVecFieldOnCells_1();
- MEDLoader.WriteFieldDep("Pyfile6.med",f1,False);
- f2=MEDLoader.ReadFieldCell("Pyfile6.med",f1.getMesh().getName(),0,f1.getName(),0,1);
+ WriteFieldDep("Pyfile6.med",f1,False);
+ f2=ReadFieldCell("Pyfile6.med",f1.getMesh().getName(),0,f1.getName(),0,1);
self.assertTrue(f1.isEqual(f2,1e-12,1e-12));
#
f1=MEDLoaderDataForTest.buildVecFieldOnNodes_1();
- MEDLoader.WriteFieldDep("Pyfile7.med",f1,False);
- f2=MEDLoader.ReadFieldNode("Pyfile7.med",f1.getMesh().getName(),0,f1.getName(),2,3);
+ WriteFieldDep("Pyfile7.med",f1,False);
+ f2=ReadFieldNode("Pyfile7.med",f1.getMesh().getName(),0,f1.getName(),2,3);
self.assertTrue(f1.isEqual(f2,1e-12,1e-12));
pass
VAL1=12345.67890314;
VAL2=-1111111111111.;
f1=MEDLoaderDataForTest.buildVecFieldOnCells_1();
- MEDLoader.WriteFieldDep(fileName,f1,False);
+ WriteFieldDep(fileName,f1,False);
f1.setTime(10.,8,9);
f1.getArray().setIJ(0,0,VAL1);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
f1.setTime(10.14,18,19);
f1.getArray().setIJ(0,0,VAL2);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
#retrieving time steps...
- f2=MEDLoader.ReadFieldCell(fileName,f1.getMesh().getName(),0,f1.getName(),8,9);
+ f2=ReadFieldCell(fileName,f1.getMesh().getName(),0,f1.getName(),8,9);
f1.setTime(10.,8,9);
f1.getArray().setIJ(0,0,VAL1);
self.assertTrue(f1.isEqual(f2,1e-12,1e-12));
- f2=MEDLoader.ReadFieldCell(fileName,f1.getMesh().getName(),0,f1.getName(),0,1);
+ f2=ReadFieldCell(fileName,f1.getMesh().getName(),0,f1.getName(),0,1);
f3=MEDLoaderDataForTest.buildVecFieldOnCells_1();
self.assertTrue(f3.isEqual(f2,1e-12,1e-12));
- f2=MEDLoader.ReadFieldCell(fileName,f1.getMesh().getName(),0,f1.getName(),18,19);
+ f2=ReadFieldCell(fileName,f1.getMesh().getName(),0,f1.getName(),18,19);
f1.setTime(10.14,18,19);
f1.getArray().setIJ(0,0,VAL2);
self.assertTrue(f1.isEqual(f2,1e-12,1e-12));
#ON NODES
f1=MEDLoaderDataForTest.buildVecFieldOnNodes_1();
fileName2="Pyfile9.med";
- MEDLoader.WriteFieldDep(fileName2,f1,False);
+ WriteFieldDep(fileName2,f1,False);
f1.setTime(110.,108,109);
tmp=f1.getArray().getPointer();
f1.getArray().setIJ(0,3,VAL1);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName2,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName2,f1);
f1.setTime(210.,208,209);
f1.getArray().setIJ(0,3,VAL2);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName2,f1);
- f2=MEDLoader.ReadFieldNode(fileName2,f1.getMesh().getName(),0,f1.getName(),108,109);
+ WriteFieldUsingAlreadyWrittenMesh(fileName2,f1);
+ f2=ReadFieldNode(fileName2,f1.getMesh().getName(),0,f1.getName(),108,109);
f1.setTime(110.,108,109);
f1.getArray().setIJ(0,3,VAL1);
self.assertTrue(f1.isEqual(f2,1e-12,1e-12));
- f2=MEDLoader.ReadFieldNode(fileName2,f1.getMesh().getName(),0,f1.getName(),2,3);
+ f2=ReadFieldNode(fileName2,f1.getMesh().getName(),0,f1.getName(),2,3);
f3=MEDLoaderDataForTest.buildVecFieldOnNodes_1();
self.assertTrue(f3.isEqual(f2,1e-12,1e-12));
- f2=MEDLoader.ReadFieldNode(fileName2,f1.getMesh().getName(),0,f1.getName(),208,209);
+ f2=ReadFieldNode(fileName2,f1.getMesh().getName(),0,f1.getName(),208,209);
f1.setTime(210.,208,209);
f1.getArray().setIJ(0,3,VAL2);
self.assertTrue(f1.isEqual(f2,1e-12,1e-12));
f1.setTime(10.,8,9);
tmp=f1.getArray().getPointer();
f1.getArray().setIJ(0,0,VAL1);
- MEDLoader.WriteFieldDep(fileName,f1,False);
+ WriteFieldDep(fileName,f1,False);
f1.setTime(10.14,18,19);
f1.getArray().setIJ(0,0,VAL2);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
f1.getMesh().setName(name3);
f1.setTime(10.55,28,29);
f1.getArray().setIJ(0,0,3*VAL1);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
f1.setTime(10.66,38,39);
f1.getArray().setIJ(0,0,3*VAL2);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
f1.setTime(10.77,48,49);
f1.getArray().setIJ(0,0,4*VAL2);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
#ON NODES
f1=MEDLoaderDataForTest.buildVecFieldOnNodes_1();
f1.setName(name1);
f1.getMesh().setName(name3);
f1.setTime(110.,8,9);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
f1.setTime(110.,108,109);
tmp=f1.getArray().getPointer();
f1.getArray().setIJ(0,3,VAL1);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
f1.setTime(210.,208,209);
f1.getArray().setIJ(0,3,VAL2);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
#
- it1=MEDLoader.GetCellFieldIterations(fileName,name3,name1);
+ it1=GetCellFieldIterations(fileName,name3,name1);
self.assertEqual(5,len(it1));
self.assertEqual(8,it1[0][0]); self.assertEqual(9,it1[0][1]);
self.assertEqual(18,it1[1][0]); self.assertEqual(19,it1[1][1]);
self.assertEqual(28,it1[2][0]); self.assertEqual(29,it1[2][1]);
self.assertEqual(38,it1[3][0]); self.assertEqual(39,it1[3][1]);
self.assertEqual(48,it1[4][0]); self.assertEqual(49,it1[4][1]);
- it3=MEDLoader.GetNodeFieldIterations(fileName,name3,name1);
+ it3=GetNodeFieldIterations(fileName,name3,name1);
self.assertEqual(3,len(it3));
self.assertEqual(8,it3[0][0]); self.assertEqual(9,it3[0][1]);
self.assertEqual(108,it3[1][0]); self.assertEqual(109,it3[1][1]);
self.assertEqual(208,it3[2][0]); self.assertEqual(209,it3[2][1]);
#
#
- f1=MEDLoader.ReadFieldCell(fileName,name3,0,name1,8,9);
+ f1=ReadFieldCell(fileName,name3,0,name1,8,9);
self.assertAlmostEqual(VAL1,f1.getArray().getIJ(0,0),13);
- f1=MEDLoader.ReadFieldCell(fileName,name3,0,name1,18,19);
+ f1=ReadFieldCell(fileName,name3,0,name1,18,19);
self.assertAlmostEqual(VAL2,f1.getArray().getIJ(0,0),13);
- f1=MEDLoader.ReadFieldCell(fileName,name3,0,name1,28,29);
+ f1=ReadFieldCell(fileName,name3,0,name1,28,29);
self.assertAlmostEqual(3*VAL1,f1.getArray().getIJ(0,0),13);
- f1=MEDLoader.ReadFieldCell(fileName,name3,0,name1,38,39);
+ f1=ReadFieldCell(fileName,name3,0,name1,38,39);
self.assertAlmostEqual(3*VAL2,f1.getArray().getIJ(0,0),13);
- f1=MEDLoader.ReadFieldCell(fileName,name3,0,name1,48,49);
+ f1=ReadFieldCell(fileName,name3,0,name1,48,49);
self.assertAlmostEqual(4*VAL2,f1.getArray().getIJ(0,0),13);
#
- f1=MEDLoader.ReadFieldNode(fileName,name3,0,name1,8,9);
+ f1=ReadFieldNode(fileName,name3,0,name1,8,9);
self.assertAlmostEqual(71.,f1.getArray().getIJ(0,3),13);
- f1=MEDLoader.ReadFieldNode(fileName,name3,0,name1,108,109);
+ f1=ReadFieldNode(fileName,name3,0,name1,108,109);
self.assertAlmostEqual(VAL1,f1.getArray().getIJ(0,3),13);
- f1=MEDLoader.ReadFieldNode(fileName,name3,0,name1,208,209);
+ f1=ReadFieldNode(fileName,name3,0,name1,208,209);
self.assertAlmostEqual(VAL2,f1.getArray().getIJ(0,3),13);
pass
mesh4.setCoords(mesh1.getCoords());
meshes=[mesh1,mesh2,mesh3,mesh4]
mnane="3DToto";
- MEDLoader.WriteUMeshesPartitionDep(fileName,mnane,meshes,False);
+ WriteUMeshesPartitionDep(fileName,mnane,meshes,False);
#
- mesh5=MEDLoader.ReadUMeshFromFile(fileName,mnane);
+ mesh5=ReadUMeshFromFile(fileName,mnane);
mesh1.setName(mnane);
part3=[0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17]
mesh6=mesh5.buildPartOfMySelf(part3,True);
mesh6.setName(mnane);
self.assertTrue(mesh6.isEqual(mesh1,1e-12));
- grps=MEDLoader.GetMeshGroupsNames(fileName,mnane);
+ grps=GetMeshGroupsNames(fileName,mnane);
self.assertEqual(4,len(grps));
grps.index("mesh2");
grps.index("mesh3");
grps.index("3DMesh_1");
#
vec=["mesh2"];
- mesh2_2=MEDLoader.ReadUMeshFromGroups(fileName,mnane,0,vec);
+ mesh2_2=ReadUMeshFromGroups(fileName,mnane,0,vec);
self.assertTrue(mesh2_2.isEqual(mesh2,1e-12));
vec=["mesh3"];
- mesh3_2=MEDLoader.ReadUMeshFromGroups(fileName,mnane,0,vec);
+ mesh3_2=ReadUMeshFromGroups(fileName,mnane,0,vec);
self.assertTrue(mesh3_2.isEqual(mesh3,1e-12));
vec=["mesh4"];
- mesh4_2=MEDLoader.ReadUMeshFromGroups(fileName,mnane,0,vec);
+ mesh4_2=ReadUMeshFromGroups(fileName,mnane,0,vec);
self.assertTrue(mesh4_2.isEqual(mesh4,1e-12));
vec=["3DMesh_1"];
- mesh1_2=MEDLoader.ReadUMeshFromGroups(fileName,mnane,0,vec);
+ mesh1_2=ReadUMeshFromGroups(fileName,mnane,0,vec);
mesh1.setName("3DMesh_1");
self.assertTrue(mesh1_2.isEqual(mesh1,1e-12));
#
- vec=["Family_4","Family_2"];
- mesh2_2=MEDLoader.ReadUMeshFromFamilies(fileName,mnane,0,vec);
+ vec=["Family_-5","Family_-3"];
+ mesh2_2=ReadUMeshFromFamilies(fileName,mnane,0,vec);
mesh2_2.setName("mesh2");
self.assertTrue(mesh2_2.isEqual(mesh2,1e-12));
pass
mesh=MEDLoaderDataForTest.build3DSurfMesh_1();
renumber1=[2,5,1,0,3,4]
mesh.renumberCells(renumber1,False);
- mesh.checkCoherency();
- MEDLoader.WriteUMeshDep(fileName,mesh,False);
- mesh_rw=MEDLoader.ReadUMeshFromFile(fileName,mesh.getName(),0);
+ mesh.checkConsistencyLight();
+ WriteUMeshDep(fileName,mesh,False);
+ mesh_rw=ReadUMeshFromFile(fileName,mesh.getName(),0);
self.assertTrue(mesh.isEqual(mesh_rw,1e-12));
pass
m.renumberCells(renum,False);
m.orientCorrectlyPolyhedrons();
# Writing
- MEDLoader.WriteUMeshDep(fileName,m,False);
+ WriteUMeshDep(fileName,m,False);
f1Tmp=m.getMeasureField(False);
f1=f1Tmp.buildNewTimeReprFromThis(ONE_TIME,False);
f1.setTime(0.,1,2);
f_1=f1.cloneWithMesh(True);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
f1.applyFunc("2*x");
f1.setTime(0.01,3,4);
f_2=f1.cloneWithMesh(True);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
f1.applyFunc("2*x/3");
f1.setTime(0.02,5,6);
f_3=f1.cloneWithMesh(True);
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
# Reading
its=[(1,2),(3,4),(5,6)];
- fs=MEDLoader.ReadFieldsOnSameMesh(ON_CELLS,fileName,f_1.getMesh().getName(),0,f_1.getName(),its);
+ fs=ReadFieldsOnSameMesh(ON_CELLS,fileName,f_1.getMesh().getName(),0,f_1.getName(),its);
self.assertEqual(3,len(fs));
self.assertTrue(fs[0].isEqual(f_1,1e-12,1e-12));
self.assertTrue(fs[1].isEqual(f_2,1e-12,1e-12));
m2d.renumberCells(renumber,False);
m2d.setName("ExampleOfMultiDimW");
meshes=[m2d,m3d]
- MEDLoader.WriteUMeshes(fileName,meshes,False);
- m3d_bis=MEDLoader.ReadUMeshFromFile(fileName,m2d.getName(),0);
+ WriteUMeshes(fileName,meshes,False);
+ m3d_bis=ReadUMeshFromFile(fileName,m2d.getName(),0);
self.assertTrue(not m3d_bis.isEqual(m3d,1e-12));
m3d_bis.setName(m3d.getName());
self.assertTrue(m3d_bis.isEqual(m3d,1e-12));
- m2d_bis=MEDLoader.ReadUMeshFromFile(fileName,m2d.getName(),-1);#-1 for faces
+ m2d_bis=ReadUMeshFromFile(fileName,m2d.getName(),-1);#-1 for faces
self.assertTrue(m2d_bis.isEqual(m2d,1e-12));
# Creation of a field on faces.
f1=MEDCouplingFieldDouble.New(ON_CELLS,ONE_TIME);
f1.setArray(array);
tmp=array.setValues(arr1,m2d.getNumberOfCells(),2);
f1.setTime(3.14,2,7);
- f1.checkCoherency();
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
- f2=MEDLoader.ReadFieldCell(fileName,f1.getMesh().getName(),-1,f1.getName(),2,7);
+ f1.checkConsistencyLight();
+ WriteFieldUsingAlreadyWrittenMesh(fileName,f1);
+ f2=ReadFieldCell(fileName,f1.getMesh().getName(),-1,f1.getName(),2,7);
self.assertTrue(f2.isEqual(f1,1e-12,1e-12));
pass
pass
-unittest.main()
+if __name__ == "__main__":
+ unittest.main()