# -*- coding: iso-8859-1 -*-
-# Copyright (C) 2007-2014 CEA/DEN, EDF R&D
+# Copyright (C) 2007-2015 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
#! [PySnippetMeshAdvAPI1_1]
self.assertTrue(isinstance(myMesh,MEDCouplingUMesh))
myMesh.setName(meshName)
- MEDLoader.WriteUMesh("wFile1.med",myMesh,True)
+ WriteUMesh("wFile1.med",myMesh,True)
#! [PySnippetMeshAdvAPI1_1]
os.remove("wFile1.med")
#! [PySnippetMeshAdvAPI1_2]
self.assertTrue(isinstance(myMesh,MEDCouplingUMesh))
myMesh.setName(meshName)
- MEDLoader.WriteUMesh("wFile1.med",myMesh,False)
+ WriteUMesh("wFile1.med",myMesh,False)
#! [PySnippetMeshAdvAPI1_2]
f=myMesh.getMeasureField(ON_CELLS)
f=f.buildNewTimeReprFromThis(ONE_TIME,False)
f.setName("myField")
#! [PySnippetMeshAdvAPI1_3]
- MEDLoader.WriteUMesh("file3.med",f.getMesh(),True)
+ WriteUMesh("file3.med",f.getMesh(),True)
f.setTime(1.2,1,0)
fileNameMultiTimeStep="file3.med"
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fileNameMultiTimeStep,f)
+ WriteFieldUsingAlreadyWrittenMesh(fileNameMultiTimeStep,f)
f.setTime(1.3,2,0)
f.applyFunc("sqrt(x)");
#Writing second time step with iteration==2 and order==0
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh("file3.med",f);
+ WriteFieldUsingAlreadyWrittenMesh("file3.med",f);
#! [PySnippetMeshAdvAPI1_3]
#! [PySnippetMeshAdvAPI1_11]
- timeStepsIds=MEDLoader.GetCellFieldIterations("file3.med","Example2","myField")
+ timeStepsIds=GetCellFieldIterations("file3.med","Example2","myField")
self.assertEqual([(1, 0),(2, 0)],timeStepsIds)
- fs=MEDLoader.ReadFieldsOnSameMesh(ON_CELLS,"file3.med","Example2",0,"myField",timeStepsIds);
+ fs=ReadFieldsOnSameMesh(ON_CELLS,"file3.med","Example2",0,"myField",timeStepsIds);
#! [PySnippetMeshAdvAPI1_11]
###
myMesh0=myMesh[:] ; myMesh0.setName("Example2")
F1Cell.setArray(myMesh0.getCoords()[:myMesh0.getNumberOfCells()])
F1Cell.setTime(1000.,2,3)
F1Cell.setName("F1Cell")
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh("file2.med",F1Cell)
+ WriteFieldUsingAlreadyWrittenMesh("file2.med",F1Cell)
F1Cell1=F1Cell.deepCpy()
F1Cell1.setMesh(myMesh1)
F1Cell1.setArray(myMesh1.getBarycenterAndOwner())
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh("file2.med",F1Cell1)
+ WriteFieldUsingAlreadyWrittenMesh("file2.med",F1Cell1)
#! [PySnippetMeshAdvAPI1_12]
- f1Cell_3D=MEDLoader.ReadFieldCell("file2.med","Example2",0,"F1Cell",2,3)
+ f1Cell_3D=ReadFieldCell("file2.med","Example2",0,"F1Cell",2,3)
#! [PySnippetMeshAdvAPI1_12]
#! [PySnippetMeshAdvAPI1_13]
- f1Cell_2D=MEDLoader.ReadFieldCell("file2.med","Example2",-1,"F1Cell",2,3)
+ f1Cell_2D=ReadFieldCell("file2.med","Example2",-1,"F1Cell",2,3)
#! [PySnippetMeshAdvAPI1_13]
self.assertTrue(F1Cell.isEqual(f1Cell_3D,1e-12,1e-12))
#! [PySnippetMeshAdvAPI1_8]
- self.assertEqual(3,MEDLoader.ReadUMeshDimFromFile("file2.med","Example2"))
+ self.assertEqual(3,ReadUMeshDimFromFile("file2.med","Example2"))
#! [PySnippetMeshAdvAPI1_8]
#! [PySnippetMeshAdvAPI1_7]
- m2D=MEDLoader.ReadUMeshFromFile("file2.med","Example2",0)
+ m2D=ReadUMeshFromFile("file2.med","Example2",0)
#! [PySnippetMeshAdvAPI1_7]
#! [PySnippetMeshAdvAPI1_4]
- m2D=MEDLoader.ReadUMeshFromFile("file2.med","Example2",-1)
+ m2D=ReadUMeshFromFile("file2.med","Example2",-1)
#! [PySnippetMeshAdvAPI1_4]
#! [PySnippetMeshAdvAPI1_5]
- m1D=MEDLoader.ReadUMeshFromFile("file2.med","Example2",-2)
+ m1D=ReadUMeshFromFile("file2.med","Example2",-2)
#! [PySnippetMeshAdvAPI1_5]
#! [PySnippetMeshAdvAPI1_6]
- m0D=MEDLoader.ReadUMeshFromFile("file2.med","Example2",-3)
+ m0D=ReadUMeshFromFile("file2.med","Example2",-3)
#! [PySnippetMeshAdvAPI1_6]
for i in xrange(4):
mm.removeMeshAtLevel(-i)
mm.setName("MyMesh")
mm.write("file1.med",2)
#! [PySnippetMeshAdvAPI1_9]
- m2D=MEDLoader.ReadUMeshFromFile("file1.med","MyMesh",0)
+ m2D=ReadUMeshFromFile("file1.med","MyMesh",0)
#! [PySnippetMeshAdvAPI1_9]
#! [PySnippetMeshAdvAPI1_10]
- m1D=MEDLoader.ReadUMeshFromFile("file1.med","MyMesh",-1)
+ m1D=ReadUMeshFromFile("file1.med","MyMesh",-1)
#! [PySnippetMeshAdvAPI1_10]
pass