# -*- 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
f1.setArray(array);
tmp=array.getPointer();
f1.setTime(2.,0,1);
- f1.checkCoherency();
+ f1.checkConsistencyLight();
return f1;
def buildVecFieldOnNodes_1(cls):
array.setInfoOnComponent(1,"density [g/cm^3]");
array.setInfoOnComponent(2,"temperature [K]");
f1.setTime(2.12,2,3);
- f1.checkCoherency();
+ f1.checkConsistencyLight();
return f1;
def buildVecFieldOnGauss_1(cls):
f.setName("MyFirstFieldOnGaussPoint");
array.setInfoOnComponent(0,"power [MW/m^3]");
array.setInfoOnComponent(1,"density");
- f.checkCoherency();
+ f.checkConsistencyLight();
return f;
def buildVecFieldOnGauss_2(cls):
f.setName("MyFirstFieldOnGaussPoint");
array.setInfoOnComponent(0,"power [MW/m^3]");
array.setInfoOnComponent(1,"density");
- f.checkCoherency();
+ f.checkConsistencyLight();
return f;
# idem buildVecFieldOnGauss_2 except that different discretizations are sorted inside one type
f.setName("MyFirstFieldOnGaussPoint");
array.setInfoOnComponent(0,"power [MW/m^3]");
array.setInfoOnComponent(1,"density");
- f.checkCoherency();
+ f.checkConsistencyLight();
return f;
def buildVecFieldOnGaussNE_1(cls):
array.setInfoOnComponent(0,"power [W]");
array.setInfoOnComponent(1,"temperature");
f.setName("MyFieldOnGaussNE");
- f.checkCoherency();
+ f.checkConsistencyLight();
return f;
def buildACompleteMEDDataStructureWithFieldsOnCells_1(cls):
f11Tmp.setMesh(m0)
arr=DataArrayDouble(m0.getNumberOfCells(),1) ; arr.iota() ; arr+=1+i ; arr*=0.1
f11Tmp.setArray(arr)
- f11Tmp.checkCoherency()
+ f11Tmp.checkConsistencyLight()
f11Tmp.setName(f1Name)
f1.appendFieldNoProfileSBT(f11Tmp)
pass
f21Tmp.setMesh(m0)
arr=DataArrayDouble(m0.getNumberOfCells(),1) ; arr.iota() ; arr+=1+i
f21Tmp.setArray(arr)
- f21Tmp.checkCoherency()
+ f21Tmp.checkConsistencyLight()
f21Tmp.setName(f2Name)
f2.appendFieldNoProfileSBT(f21Tmp)
f22Tmp=MEDCouplingFieldDouble(ON_CELLS,ONE_TIME)
f22Tmp.setMesh(m1)
arr=DataArrayDouble(m1.getNumberOfCells(),1) ; arr.iota() ; arr+=100+1+i
f22Tmp.setArray(arr)
- f22Tmp.checkCoherency()
+ f22Tmp.checkConsistencyLight()
f22Tmp.setName(f2Name)
f2[it,order].setFieldNoProfileSBT(f22Tmp)
pass
f31Tmp.setMesh(m0Part)
arr=DataArrayDouble(m0Part.getNumberOfCells(),1) ; arr.iota() ; arr+=1000+i+1
f31Tmp.setArray(arr)
- f31Tmp.checkCoherency()
+ f31Tmp.checkConsistencyLight()
f31Tmp.setName(f3Name)
f3.appendFieldProfile(f31Tmp,mm,0,pfl1)
pfl2=DataArrayInt([0,3]) ; pfl2.setName("pfl2Bottom")
f32Tmp.setMesh(m1Part)
arr=DataArrayDouble(m1Part.getNumberOfCells(),1) ; arr.iota() ; arr+=2000+1+i
f32Tmp.setArray(arr)
- f32Tmp.checkCoherency()
+ f32Tmp.checkConsistencyLight()
f32Tmp.setName(f3Name)
f3[it,order].setFieldProfile(f32Tmp,mm,-1,pfl2)
pass
#
data=MEDFileData() ; data.setMeshes(ms) ; data.setFields(fs)
return data
+
+ def buildAMEDFileDataWithGroupOnOneFamilyForSauv(self):
+ # Coordinates
+ coords = [0.,0., 0.,1., 1.,1., 1.,0.]
+ # lvl 0 connectivity
+ conn2D = [1,2,3,4]
+ # lvl -1 connectivity
+ conn1D = [0,1, 1,2, 2,3, 4,1]
+ # lvl 0 mesh
+ mesh2D=MEDCouplingUMesh.New()
+ mesh2D.setMeshDimension(2)
+ mesh2D.allocateCells(1)
+ mesh2D.insertNextCell(NORM_QUAD4,4,conn2D)
+ mesh2D.finishInsertingCells()
+ # lvl -1 mesh
+ mesh1D=MEDCouplingUMesh.New()
+ mesh1D.setMeshDimension(1)
+ mesh1D.allocateCells(4)
+ mesh1D.insertNextCell(NORM_SEG2,2,conn1D[0:2])
+ mesh1D.insertNextCell(NORM_SEG2,2,conn1D[2:4])
+ mesh1D.insertNextCell(NORM_SEG2,2,conn1D[4:6])
+ mesh1D.insertNextCell(NORM_SEG2,2,conn1D[6:8])
+ mesh1D.finishInsertingCells()
+ # assigning coordinates
+ meshCoords=DataArrayDouble.New()
+ meshCoords.setValues(coords, 4, 2)
+ mesh2D.setCoords(meshCoords)
+ mesh1D.setCoords(meshCoords)
+ # Creating a multi level mesh
+ mm = MEDFileUMesh.New()
+ mm.setMeshAtLevel(0, mesh2D)
+ mm.setMeshAtLevel(-1, mesh1D)
+ mm.setName("carre")
+ # Creating groups
+ # Creating a group with an element on level -1
+ grp0_LM1 = DataArrayInt.New([0])
+ grp0_LM1.setName("grp0_LM1")
+ # Creating a group with all elements on level -1
+ grp1_LM1 = DataArrayInt.New([0,1,2,3])
+ grp1_LM1.setName("grp1_LM1")
+ #
+ mm.setGroupsAtLevel(-1,[grp0_LM1,grp1_LM1])
+ #
+ ms=MEDFileMeshes.New()
+ ms.setMeshAtPos(0,mm)
+ mfd=MEDFileData.New()
+ mfd.setMeshes(ms)
+ #
+ return mfd
build1DMesh_1=classmethod(build1DMesh_1)
build2DCurveMesh_1=classmethod(build2DCurveMesh_1)
buildVecFieldOnGauss_2_Simpler=classmethod(buildVecFieldOnGauss_2_Simpler)
buildVecFieldOnGaussNE_1=classmethod(buildVecFieldOnGaussNE_1)
buildACompleteMEDDataStructureWithFieldsOnCells_1=classmethod(buildACompleteMEDDataStructureWithFieldsOnCells_1)
+ buildAMEDFileDataWithGroupOnOneFamilyForSauv=classmethod(buildAMEDFileDataWithGroupOnOneFamilyForSauv)
pass