# -*- coding: iso-8859-1 -*-
-# Copyright (C) 2007-2013 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
# 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
tri=MEDCouplingUMesh("tri",2)
tri.allocateCells() ; tri.insertNextCell(NORM_TRI3,[0,1,2])
tri.setCoords(DataArrayDouble([(0.,0.),(0.,1.),(1.,0.)]))
- tris=[tri.deepCpy() for i in xrange(4)]
+ tris=[tri.deepCopy() for i in xrange(4)]
for i,elt in enumerate(tris): elt.translate([i,0])
tris=MEDCouplingUMesh.MergeUMeshes(tris)
quad=MEDCouplingUMesh("quad",2)
quad.allocateCells() ; quad.insertNextCell(NORM_QUAD4,[0,1,2,3])
quad.setCoords(DataArrayDouble([(0.,0.),(0.,1.),(1.,1.),(1.,0.)]))
- quads=[quad.deepCpy() for i in xrange(5)]
+ quads=[quad.deepCopy() for i in xrange(5)]
for i,elt in enumerate(quads): elt.translate([5+i,0])
quads=MEDCouplingUMesh.MergeUMeshes(quads)
m=MEDCouplingUMesh.MergeUMeshes(tris,quads)
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
fs.pushBackTimeStep(f)
##### Time step 1
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(1100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
#
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(1200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
fs.pushBackTimeStep(f)
##### Time step 2
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(2100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
#
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(2200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
fs.pushBackTimeStep(f)
##### Time step 3
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(3100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
#
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(3200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
#
fs.pushBackTimeStep(f)
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(4100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
#
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(4200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
fs.pushBackTimeStep(f)
mm.write(fname,2)
fs.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,m1,mm,fs,f,fCell0,fCell1
########## GO for reading in MEDReader, by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False) # False is important to not read the values
+ fields.removeFieldsWithoutAnyTimeStep()
refMem=fields.getHeapMemorySize()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
tri=MEDCouplingUMesh("tri",2)
tri.allocateCells() ; tri.insertNextCell(NORM_TRI3,[0,1,2])
tri.setCoords(DataArrayDouble([(0.,0.),(0.,1.),(1.,0.)]))
- tris=[tri.deepCpy() for i in xrange(4)]
+ tris=[tri.deepCopy() for i in xrange(4)]
for i,elt in enumerate(tris): elt.translate([i,0])
tris=MEDCouplingUMesh.MergeUMeshes(tris)
quad=MEDCouplingUMesh("quad",2)
quad.allocateCells() ; quad.insertNextCell(NORM_QUAD4,[0,1,2,3])
quad.setCoords(DataArrayDouble([(0.,0.),(0.,1.),(1.,1.),(1.,0.)]))
- quads=[quad.deepCpy() for i in xrange(5)]
+ quads=[quad.deepCopy() for i in xrange(5)]
for i,elt in enumerate(quads): elt.translate([5+i,0])
quads=MEDCouplingUMesh.MergeUMeshes(quads)
m=MEDCouplingUMesh.MergeUMeshes(tris,quads)
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
#
fNode=MEDCouplingFieldDouble(ON_NODES) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName) ; fNode.setMesh(m1)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(300) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs.pushBackTimeStep(f)
##### Time step 1
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(1100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
#
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(1200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
#
fNode=MEDCouplingFieldDouble(ON_NODES) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName) ; fNode.setMesh(m1)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(1300) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs.pushBackTimeStep(f)
##### Time step 2
fNode.setName(fieldName) ; fNode.setMesh(m1)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(2300) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
#
fCell0=MEDCouplingFieldDouble(ON_CELLS) ; fCell0.setTime(float(i),i,0)
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(2100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
#
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(2200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
fs.pushBackTimeStep(f)
##### Time step 3
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(3100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
#
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(3200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
#
fNode=MEDCouplingFieldDouble(ON_NODES) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName) ; fNode.setMesh(m1)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(3300) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
#
fs.pushBackTimeStep(f)
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(4100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
#
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(4200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
#
fNode=MEDCouplingFieldDouble(ON_NODES) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName) ; fNode.setMesh(m1)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(4300) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
#
fs.pushBackTimeStep(f)
mm.write(fname,2)
fs.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,m1,mm,fs,f,fCell0,fCell1
########## GO for reading in MEDReader, by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
tri=MEDCouplingUMesh("tri",2)
tri.allocateCells() ; tri.insertNextCell(NORM_TRI3,[0,1,2])
tri.setCoords(DataArrayDouble([(0.,0.),(0.,1.),(1.,0.)]))
- tris=[tri.deepCpy() for i in xrange(4)]
+ tris=[tri.deepCopy() for i in xrange(4)]
for i,elt in enumerate(tris): elt.translate([i,0])
tris=MEDCouplingUMesh.MergeUMeshes(tris)
quad=MEDCouplingUMesh("quad",2)
quad.allocateCells() ; quad.insertNextCell(NORM_QUAD4,[0,1,2,3])
quad.setCoords(DataArrayDouble([(0.,0.),(0.,1.),(1.,1.),(1.,0.)]))
- quads=[quad.deepCpy() for i in xrange(5)]
+ quads=[quad.deepCopy() for i in xrange(5)]
for i,elt in enumerate(quads): elt.translate([5+i,0])
quads=MEDCouplingUMesh.MergeUMeshes(quads)
m=MEDCouplingUMesh.MergeUMeshes(tris,quads)
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
fs.pushBackTimeStep(f)
##### Time step 1 on nodes
fNode.setName(fieldName) ; fNode.setMesh(m1)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(1300) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs.pushBackTimeStep(f)
##### Time step 2 on cells
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(2100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
#
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(2200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
fs.pushBackTimeStep(f)
##### Time step 3 on nodes
fNode.setName(fieldName) ; fNode.setMesh(m1)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(3300) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs.pushBackTimeStep(f)
##### Time step 4
fCell0.setName(fieldName) ; fCell0.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfCells()) ; arr.iota(4100) ; arr.rearrange(2)
fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell0.checkCoherency()
+ fCell0.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell0)
#
fCell1=MEDCouplingFieldDouble(ON_CELLS) ; fCell1.setTime(float(i),i,0)
fCell1.setName(fieldName) ; fCell1.setMesh(m1)
arr=DataArrayDouble(2*m1.getNumberOfCells()) ; arr.iota(4200) ; arr.rearrange(2)
fCell1.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]","Com2 [s^2]"])
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
f.setFieldNoProfileSBT(fCell1)
#
fs.pushBackTimeStep(f)
mm.write(fname,2)
fs.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,m1,mm,fs,f,fCell0,fCell1
########## GO for reading in MEDReader, by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
self.assertTrue(not ncc)
self.assertTrue(a0.isEqual(a0Exp.changeNbOfComponents(3,0.),1e-12))
- self.assertTrue(a1.isEqual(DataArrayByte([5,5,5,5,9,9,9,9,9])))
- self.assertTrue(a2.isEqual(DataArrayInt([0,4,8,12,16,21,26,31,36])))
- self.assertTrue(a3.isEqual(DataArrayInt([3,0,1,2,3,3,4,5,3,6,7,8,3,9,10,11,4,12,13,14,15,4,16,17,18,19,4,20,21,22,23,4,24,25,26,27,4,28,29,30,31])))
+ self.assertTrue(a1.isEqual(DataArrayByte([5,5,5,5,9,9,9,9,9,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,4,8,12,16,21,26,31,36,41,44,47,50,53,56,59,62,65,68,71,74,77,80,83,86,89,92,95,98,101,104,107,110,113,116,119,122,125,128,131,134])))
+ self.assertTrue(a3.isEqual(DataArrayInt([3,0,1,2,3,3,4,5,3,6,7,8,3,9,10,11,4,12,13,14,15,4,16,17,18,19,4,20,21,22,23,4,24,25,26,27,4,28,29,30,31,2,0,1,2,1,2,2,2,0,2,3,4,2,4,5,2,5,3,2,6,7,2,7,8,2,8,6,2,9,10,2,10,11,2,11,9,2,12,13,2,13,14,2,14,15,2,15,12,2,16,17,2,17,18,2,18,19,2,19,16,2,20,21,2,21,22,2,22,23,2,23,20,2,24,25,2,25,26,2,26,27,2,27,24,2,28,29,2,29,30,2,30,31,2,31,28])))
self.assertTrue(a4 is None)
self.assertTrue(a5 is None)
for i in xrange(2):
tri=MEDCouplingUMesh("tri",2)
tri.allocateCells() ; tri.insertNextCell(NORM_TRI3,[0,1,2])
tri.setCoords(DataArrayDouble([(0.,0.),(0.,1.),(1.,0.)]))
- tris=[tri.deepCpy() for i in xrange(4)]
+ tris=[tri.deepCopy() for i in xrange(4)]
for i,elt in enumerate(tris): elt.translate([i,0])
tris=MEDCouplingUMesh.MergeUMeshes(tris)
quad=MEDCouplingUMesh("quad",2)
quad.allocateCells() ; quad.insertNextCell(NORM_QUAD4,[0,1,2,3])
quad.setCoords(DataArrayDouble([(0.,0.),(0.,1.),(1.,1.),(1.,0.)]))
- quads=[quad.deepCpy() for i in xrange(5)]
+ quads=[quad.deepCopy() for i in xrange(5)]
for i,elt in enumerate(quads): elt.translate([5+i,0])
quads=MEDCouplingUMesh.MergeUMeshes(quads)
m=MEDCouplingUMesh.MergeUMeshes(tris,quads)
fNode.setName(fieldName1) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(0+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs1.pushBackTimeStep(f)
#
fNode.setName(fieldName2) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(100+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs2.pushBackTimeStep(f)
#
fNode.setName(fieldName3) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(200+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_2 [m]","Com2_2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs3.pushBackTimeStep(f)
##### Time step 1
fNode.setName(fieldName1) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(0+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs1.pushBackTimeStep(f)
#
fNode.setName(fieldName2) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(100+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs2.pushBackTimeStep(f)
#
fNode.setName(fieldName3) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(200+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_2 [m]","Com2_2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs3.pushBackTimeStep(f)
##### Time step 2
fNode.setName(fieldName1) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(0+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs1.pushBackTimeStep(f)
#
fNode.setName(fieldName2) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(100+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs2.pushBackTimeStep(f)
#
fNode.setName(fieldName3) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(200+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_2 [m]","Com2_2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs3.pushBackTimeStep(f)
##### Time step 3
fNode.setName(fieldName1) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(0+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs1.pushBackTimeStep(f)
#
fNode.setName(fieldName2) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(100+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs2.pushBackTimeStep(f)
#
fNode.setName(fieldName3) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(200+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_2 [m]","Com2_2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs3.pushBackTimeStep(f)
##### Time step 4
fNode.setName(fieldName1) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(0+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs1.pushBackTimeStep(f)
#
fNode.setName(fieldName2) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(100+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs2.pushBackTimeStep(f)
#
fNode.setName(fieldName3) ; fNode.setMesh(m)
arr=DataArrayDouble(2*m.getNumberOfNodes()) ; arr.iota(200+1000*i) ; arr.rearrange(2)
fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_2 [m]","Com2_2 [s^2]"])
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs3.pushBackTimeStep(f)
#
mm.write(fname,2)
fs1.write(fname,0) ; fs2.write(fname,0) ; fs3.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,mm,fs1,fs2,fs3,f,fNode
########## GO for reading in MEDReader, by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
pass
mm.write(fname,2)
fs1.write(fname,0) ; fs2.write(fname,0) ; fs3.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,mm,fs1,fs2,fs3,f,fNode
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
fNode=MEDCouplingFieldDouble(ON_CELLS) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName0) ; fNode.setMesh(m)
arr=DataArrayDouble(2*8) ; arr.iota(0+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs0.pushBackTimeStep(f)
#
fNode=MEDCouplingFieldDouble(ON_NODES) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName4) ; fNode.setMesh(m)
arr=DataArrayDouble(2*15) ; arr.iota(400+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_4 [m]","Com2_4 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_4 [m]","Com2_4 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs4.pushBackTimeStep(f)
pass
fs0.write(fname,0) ; fs1.write(fname,0) ; fs2.write(fname,0) ; fs3.write(fname,0) ; fs4.write(fname,0)
del m,mm,fs1,fs2,fs3,f,fNode
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
fcscp=allFMTSLeavesPerCommonSupport[0][1]
mml=fcscp.buildFromScratchDataSetSupport(0,fields)
mml2=mml.prepare()
- a,b=mml2.buildVTUArrays()
+ (a,b),c=mml2.buildVTUArrays()
+ self.assertTrue(c)# c is True here because the returned array is directly those coming from internal structure
self.assertTrue(a.isEqual(coordsX,1e-12))
self.assertTrue(b.isEqual(coordsY,1e-12))
self.assertTrue(isinstance(mml2,MEDCMeshMultiLev))
mml=fcscp.buildFromScratchDataSetSupport(0,fields)
mml2=mml.prepare()
self.assertTrue(isinstance(mml2,MEDCMeshMultiLev)) # here the 2nd support is a part of CMesh that is also a CMesh -> CMesh not a UMesh
- a,b=mml2.buildVTUArrays()
+ (a,b),c=mml2.buildVTUArrays()
+ self.assertTrue(not c)# c is False because this a sub support specialy built for buildVTUArrays
self.assertTrue(a.isEqual(coordsX[[2,3,4]],1e-12))
self.assertTrue(b.isEqual(coordsY,1e-12))
a6,a7=mml2.retrieveFamilyIdsOnCells()
fNode=MEDCouplingFieldDouble(ON_CELLS) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName0) ; fNode.setMesh(m)
arr=DataArrayDouble(2*8) ; arr.iota(0+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs0.pushBackTimeStep(f)
#
fNode=MEDCouplingFieldDouble(ON_NODES) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName4) ; fNode.setMesh(m)
arr=DataArrayDouble(2*15) ; arr.iota(400+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_4 [m]","Com2_4 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_4 [m]","Com2_4 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs4.pushBackTimeStep(f)
pass
fs0.write(fname,0) ; fs1.write(fname,0) ; fs2.write(fname,0) ; fs3.write(fname,0) ; fs4.write(fname,0)
del m,mm,fs1,fs2,fs3,f,fNode
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
mml=fcscp.buildFromScratchDataSetSupport(0,fields)
mml2=mml.prepare()
self.assertTrue(isinstance(mml2,MEDCurveLinearMeshMultiLev))
- a,b=mml2.buildVTUArrays()
+ a,b,c=mml2.buildVTUArrays()
+ self.assertTrue(c)#True here because a is directly coming from internal data without copy
self.assertTrue(a.isEqual(a0Exp,1e-12))
self.assertEqual(b,[5,3])
a6,a7=mml2.retrieveFamilyIdsOnCells()
mml=fcscp.buildFromScratchDataSetSupport(0,fields)
mml2=mml.prepare()
self.assertTrue(isinstance(mml2,MEDCurveLinearMeshMultiLev)) # here the 2nd support is a part of CMesh that is also a CMesh -> CMesh not a UMesh
- a,b=mml2.buildVTUArrays()
+ a,b,c=mml2.buildVTUArrays()
+ self.assertTrue(not c)#False here because a is the result of a computation not the internal strucutre
self.assertTrue(a.isEqual(a0Exp[pfl2],1e-12))
self.assertEqual(b,[3,3])
a6,a7=mml2.retrieveFamilyIdsOnCells()
fNode=MEDCouplingFieldDouble(ON_GAUSS_NE) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName0) ; fNode.setMesh(m)
arr=DataArrayDouble(2*38) ; arr.iota(0+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs0.pushBackTimeStep(f)
#
fNode=MEDCouplingFieldDouble(ON_CELLS) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName1) ; fNode.setMesh(m)
arr=DataArrayDouble(2*11) ; arr.iota(100+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs1.pushBackTimeStep(f)
#
fNode.setGaussLocalizationOnCells([6,7,8],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7,0.1,0.1,0.2,0.2],[0.8,0.05,0.1,0.04])
fNode.setGaussLocalizationOnCells([9,10],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7,0.1,0.1,0.2,0.2,0.3,0.3,0.4,0.4,0.8,0.8],[0.8,0.05,0.1,0.01,0.02,0.005,0.005])
arr=DataArrayDouble(2*(4*2+2*5+3*4+2*7)) ; arr.iota(300+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_2 [m]","Com2_2 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_2 [m]","Com2_2 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs2.pushBackTimeStep(f)
#
fNode=MEDCouplingFieldDouble(ON_NODES) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName3) ; fNode.setMesh(m)
arr=DataArrayDouble(2*15) ; arr.iota(400+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_3 [m]","Com2_3 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_3 [m]","Com2_3 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs3.pushBackTimeStep(f)
#
#
mm.write(fname,2)
fs0.write(fname,0) ; fs1.write(fname,0) ; fs2.write(fname,0) ; fs3.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,mm,fs1,fs2,fs3,f,fNode
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ #for itmp in tmp:
+ # self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ # pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
fNode.setGaussLocalizationOnCells([2,3],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7,0.1,0.1,0.2,0.2],[0.8,0.05,0.1,0.04])
fNode.setGaussLocalizationOnCells([4],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7,0.1,0.1,0.2,0.2,0.3,0.3,0.4,0.4,0.8,0.8],[0.8,0.05,0.1,0.01,0.02,0.005,0.005])
arr=DataArrayDouble(2*(2*1+5*1+4*2+7*1)) ; arr.iota(300+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_2 [m]","Com2_2 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_2 [m]","Com2_2 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldProfile(fNode,mm,0,pfl1)
fs2.pushBackTimeStep(f)
#
#
mm.write(fname,2)
fs0.write(fname,0) ; fs1.write(fname,0) ; fs2.write(fname,0) ; fs3.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,mm,fs1,fs2,fs3,f,fNode
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ #for itmp in tmp:
+ # self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ # pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
#
mm.write(fname,2)
fs0.write(fname,0) ; fs1.write(fname,0) ; fs2.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,mm,fs1,fs2,f,fNode
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
fNode.setGaussLocalizationOnCells([6,10,13],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7,0.1,0.1,0.2,0.2],[0.8,0.05,0.1,0.04])
fNode.setGaussLocalizationOnCells([11,12,14],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7,0.1,0.1,0.2,0.2,0.3,0.3,0.4,0.4,0.8,0.8],[0.8,0.05,0.1,0.01,0.02,0.005,0.005])
arr=DataArrayDouble(2*(2*6+5*4+4*3+7*3)) ; arr.iota(0+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs0.pushBackTimeStep(f)
pass
mm.write(fname,2)
fs0.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,mm,fs0,f,fNode
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ #for itmp in tmp:
+ # self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ # pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
fNode.setGaussLocalizationOnCells([6,10,13],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7,0.1,0.1,0.2,0.2],[0.8,0.05,0.1,0.04])
fNode.setGaussLocalizationOnCells([11,12,14],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7,0.1,0.1,0.2,0.2,0.3,0.3,0.4,0.4,0.8,0.8],[0.8,0.05,0.1,0.01,0.02,0.005,0.005])
arr=DataArrayDouble(2*(2*6+5*4+4*3+7*3)) ; arr.iota(0+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs0.pushBackTimeStep(f)
#
fNode=MEDCouplingFieldDouble(ON_CELLS) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName1) ; fNode.setMesh(m)
arr=DataArrayDouble(2*16) ; arr.iota(300+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs1.pushBackTimeStep(f)
pass
mm.write(fname,2)
fs0.write(fname,0) ; fs1.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,mm,fs0,fs1,f,fNode
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ #for itmp in tmp:
+ # self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ # pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
fNode=MEDCouplingFieldDouble(ON_CELLS) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName0) ; fNode.setMesh(m)
arr=DataArrayDouble(2*5) ; arr.iota(0+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs0.pushBackTimeStep(f)
#
fNode=MEDCouplingFieldDouble(ON_CELLS) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName1) ; fNode.setMesh(m)
arr=DataArrayDouble(2*5) ; arr.iota(100+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs1.pushBackTimeStep(f)
#
fNode=MEDCouplingFieldDouble(ON_CELLS) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName2) ; fNode.setMesh(m[pfl1])
arr=DataArrayDouble(2*2) ; arr.iota(200+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_2 [m]","Com2_2 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_2 [m]","Com2_2 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldProfile(fNode,mm,0,pfl1)
fs2.pushBackTimeStep(f)
#
fNode=MEDCouplingFieldDouble(ON_CELLS) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName3) ; fNode.setMesh(m[pfl2])
arr=DataArrayDouble(2*3) ; arr.iota(300+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_3 [m]","Com2_3 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_3 [m]","Com2_3 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldProfile(fNode,mm,0,pfl2)
fs3.pushBackTimeStep(f)
pass
mm.write(fname,2)
fs0.write(fname,0) ; fs1.write(fname,0) ; fs2.write(fname,0) ; fs3.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,mm,fs0
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
fNode=MEDCouplingFieldDouble(ON_CELLS) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName0) ; fNode.setMesh(m)
arr=DataArrayDouble(2*3) ; arr.iota(0+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs0.pushBackTimeStep(f)
#
fNode=MEDCouplingFieldDouble(ON_CELLS) ; fNode.setTime(float(i),i,0)
fNode.setName(fieldName1) ; fNode.setMesh(m)
arr=DataArrayDouble(2*3) ; arr.iota(100+1000*i) ; arr.rearrange(2)
- fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"]) ; fNode.checkCoherency()
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"]) ; fNode.checkConsistencyLight()
f.setFieldNoProfileSBT(fNode)
fs1.pushBackTimeStep(f)
pass
mm.write(fname,2)
fs0.write(fname,0) ; fs1.write(fname,0)
- a0Exp=mm.getCoords().deepCpy()
+ a0Exp=mm.getCoords().deepCopy()
del m,mm,fs0
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
a=DataArrayDouble(m0.getNumberOfCells()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
fCell.setArray(a)
fCell.setTime(*t)
- fCell.checkCoherency()
+ fCell.checkConsistencyLight()
a=DataArrayDouble(m0.getNumberOfNodes()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
a=a.negate()
fNode.setArray(a)
fNode.setTime(*t)
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f1ts.setFieldNoProfileSBT(fCell)
f1ts.setFieldNoProfileSBT(fNode)
ffs.pushBackTimeStep(f1ts)
a=DataArrayDouble(m0.getNumberOfCells()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
fCell.setArray(a)
fCell.setTime(*t)
- fCell.checkCoherency()
+ fCell.checkConsistencyLight()
a=DataArrayDouble(m0.getNumberOfNodes()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
a=a.negate()
fNode.setArray(a)
fNode.setTime(*t)
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f1ts.setFieldNoProfileSBT(fCell)
f1ts.setFieldNoProfileSBT(fNode)
ffs.pushBackTimeStep(f1ts)
a=DataArrayDouble(m0.getNumberOfCells()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
fCell.setArray(a)
fCell.setTime(*t)
- fCell.checkCoherency()
+ fCell.checkConsistencyLight()
a=DataArrayDouble(m0.getNumberOfNodes()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
a=a.negate()
fNode.setArray(a)
fNode.setTime(*t)
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f1ts.setFieldNoProfileSBT(fCell)
f1ts.setFieldNoProfileSBT(fNode)
ffs.pushBackTimeStep(f1ts)
a=DataArrayDouble(m0.getNumberOfCells()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
fCell.setArray(a)
fCell.setTime(*t)
- fCell.checkCoherency()
+ fCell.checkConsistencyLight()
a=DataArrayDouble(m0.getNumberOfNodes()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
a=a.negate()
fNode.setArray(a)
fNode.setTime(*t)
- fNode.checkCoherency()
+ fNode.checkConsistencyLight()
f1ts.setFieldNoProfileSBT(fCell)
f1ts.setFieldNoProfileSBT(fNode)
ffs.pushBackTimeStep(f1ts)
mm.write(fname,2)
ffs.write(fname,0)
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
mm1.setFamiliesIdsOnGroup("Grp1_1",[0,1]) ; mm1.setFamiliesIdsOnGroup("Grp1_2",[2,3])
mms.pushMesh(mm1) ; del mm1
#
- m1=m0.deepCpy() ; m1.translate([2.5,0.,0.]) ; m1.setName("mesh2")
+ m1=m0.deepCopy() ; m1.translate([2.5,0.,0.]) ; m1.setName("mesh2")
#
fCell2=MEDCouplingFieldDouble(ON_CELLS)
fCell2.setName("zeField3_1")
a=DataArrayDouble(m0.getNumberOfCells()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
fCell1.setArray(a)
fCell1.setTime(*t)
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
a=DataArrayDouble(m0.getNumberOfNodes()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
a=a.negate()
fNode1.setArray(a)
fNode1.setTime(*t)
- fNode1.checkCoherency()
+ fNode1.checkConsistencyLight()
f1ts1.setFieldNoProfileSBT(fCell1) ; ffs1_1.pushBackTimeStep(f1ts1)
f1ts2.setFieldNoProfileSBT(fNode1) ; ffs1_2.pushBackTimeStep(f1ts2)
#
a=DataArrayDouble(m1.getNumberOfCells()) ; a.iota(1000.+off) ; a.setInfoOnComponents(["xx [m]"])
fCell2.setArray(a)
fCell2.setTime(*t)
- fCell2.checkCoherency()
+ fCell2.checkConsistencyLight()
a=DataArrayDouble(m1.getNumberOfNodes()) ; a.iota(1000+off) ; a.setInfoOnComponents(["xx [m]"])
a=a.negate()
fNode2.setArray(a)
fNode2.setTime(*t)
- fNode2.checkCoherency()
+ fNode2.checkConsistencyLight()
f1ts1.setFieldNoProfileSBT(fCell2) ; ffs2_1.pushBackTimeStep(f1ts1)
f1ts2.setFieldNoProfileSBT(fNode2) ; ffs2_2.pushBackTimeStep(f1ts2)
# TimeStep 1
a=DataArrayDouble(m0.getNumberOfCells()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
fCell1.setArray(a)
fCell1.setTime(*t)
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
a=DataArrayDouble(m0.getNumberOfNodes()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
a=a.negate()
fNode1.setArray(a)
fNode1.setTime(*t)
- fNode1.checkCoherency()
+ fNode1.checkConsistencyLight()
f1ts1.setFieldNoProfileSBT(fCell1) ; ffs1_1.pushBackTimeStep(f1ts1)
f1ts2.setFieldNoProfileSBT(fNode1) ; ffs1_2.pushBackTimeStep(f1ts2)
#
a=DataArrayDouble(m1.getNumberOfCells()) ; a.iota(1000.+off) ; a.setInfoOnComponents(["xx [m]"])
fCell2.setArray(a)
fCell2.setTime(*t)
- fCell2.checkCoherency()
+ fCell2.checkConsistencyLight()
a=DataArrayDouble(m1.getNumberOfNodes()) ; a.iota(1000+off) ; a.setInfoOnComponents(["xx [m]"])
a=a.negate()
fNode2.setArray(a)
fNode2.setTime(*t)
- fNode2.checkCoherency()
+ fNode2.checkConsistencyLight()
f1ts1.setFieldNoProfileSBT(fCell2) ; ffs2_1.pushBackTimeStep(f1ts1)
f1ts2.setFieldNoProfileSBT(fNode2) ; ffs2_2.pushBackTimeStep(f1ts2)
# TimeStep 2
a=DataArrayDouble(m0.getNumberOfCells()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
fCell1.setArray(a)
fCell1.setTime(*t)
- fCell1.checkCoherency()
+ fCell1.checkConsistencyLight()
a=DataArrayDouble(m0.getNumberOfNodes()) ; a.iota(off) ; a.setInfoOnComponents(["xx [m]"])
a=a.negate()
fNode1.setArray(a)
fNode1.setTime(*t)
- fNode1.checkCoherency()
+ fNode1.checkConsistencyLight()
f1ts1.setFieldNoProfileSBT(fCell1) ; ffs1_1.pushBackTimeStep(f1ts1)
f1ts2.setFieldNoProfileSBT(fNode1) ; ffs1_2.pushBackTimeStep(f1ts2)
#
a=DataArrayDouble(m1.getNumberOfCells()) ; a.iota(1000.+off) ; a.setInfoOnComponents(["xx [m]"])
fCell2.setArray(a)
fCell2.setTime(*t)
- fCell2.checkCoherency()
+ fCell2.checkConsistencyLight()
a=DataArrayDouble(m1.getNumberOfNodes()) ; a.iota(1000+off) ; a.setInfoOnComponents(["xx [m]"])
a=a.negate()
fNode2.setArray(a)
fNode2.setTime(*t)
- fNode2.checkCoherency()
+ fNode2.checkConsistencyLight()
f1ts1.setFieldNoProfileSBT(fCell2) ; ffs2_1.pushBackTimeStep(f1ts1)
f1ts2.setFieldNoProfileSBT(fNode2) ; ffs2_2.pushBackTimeStep(f1ts2)
#
mms.write(fname,2) ; mts.write(fname,0)
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
m.allocateCells()
m.insertNextCell(NORM_QUAD4,[0,3,4,1])
m.insertNextCell(NORM_QUAD4,[1,4,5,2])
- m.checkCoherency2()
+ m.checkConsistency()
#
t=(1.1,0,-1)
f=MEDCouplingFieldDouble(ON_GAUSS_NE) ; f.setTime(*t) ; f.setMesh(m)
f.setArray(DataArrayDouble([3.,5.,7.,6.,2.,3.,11.,8.]))
f.setName(fieldName1)
- f.checkCoherency()
- MEDLoader.WriteField(fname,f,True)
+ f.checkConsistencyLight()
+ WriteField(fname,f,True)
f2=MEDCouplingFieldDouble(ON_CELLS) ; f2.setTime(*t) ; f2.setMesh(m)
f2.setArray(DataArrayDouble([7.,11.],2,1))
f2.setName(fieldName2)
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f2)
+ WriteFieldUsingAlreadyWrittenMesh(fname,f2)
f3=MEDCouplingFieldDouble(ON_NODES) ; f3.setTime(*t) ; f3.setMesh(m)
f3.setArray(DataArrayDouble([1.,2.,4.,1.,2.,4.],6,1))
f3.setName(fieldName3)
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f3)
+ WriteFieldUsingAlreadyWrittenMesh(fname,f3)
#
t=(2.1,1,-1)
f=MEDCouplingFieldDouble(ON_GAUSS_NE) ; f.setTime(*t) ; f.setMesh(m)
f.setArray(DataArrayDouble([7.,6.,3.,5.,11.,8.,2.,3.]))
f.setName(fieldName1)
- f.checkCoherency()
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f)
+ f.checkConsistencyLight()
+ WriteFieldUsingAlreadyWrittenMesh(fname,f)
f2=MEDCouplingFieldDouble(ON_CELLS) ; f2.setTime(*t) ; f2.setMesh(m)
f2.setArray(DataArrayDouble([11.,7.],2,1))
f2.setName(fieldName2)
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f2)
+ WriteFieldUsingAlreadyWrittenMesh(fname,f2)
f3=MEDCouplingFieldDouble(ON_NODES) ; f3.setTime(*t) ; f3.setMesh(m)
f3.setArray(DataArrayDouble([4.,2.,1.,4.,2.,1.],6,1))
f3.setName(fieldName3)
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f3)
+ WriteFieldUsingAlreadyWrittenMesh(fname,f3)
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
m.allocateCells()
m.insertNextCell(NORM_QUAD4,[0,3,4,1])
m.insertNextCell(NORM_QUAD4,[1,4,5,2])
- m.checkCoherency2()
+ m.checkConsistency()
#
t=(1.1,0,-1)
f=MEDCouplingFieldDouble(ON_GAUSS_PT) ; f.setTime(*t) ; f.setMesh(m)
f.setGaussLocalizationOnType(NORM_QUAD4,[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.2,0.2,0.8,0.8],[0.7,0.3])
f.setArray(DataArrayDouble([3.,5.,4.,6.])) ; f.getArray().setInfoOnComponents(["Smth"])
f.setName(fieldName1)
- f.checkCoherency()
- MEDLoader.WriteField(fname,f,True)
+ f.checkConsistencyLight()
+ WriteField(fname,f,True)
f2=MEDCouplingFieldDouble(ON_CELLS) ; f2.setTime(*t) ; f2.setMesh(m)
f2.setArray(DataArrayDouble([7.,11.],2,1))
f2.setName(fieldName2)
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f2)
+ WriteFieldUsingAlreadyWrittenMesh(fname,f2)
f3=MEDCouplingFieldDouble(ON_NODES) ; f3.setTime(*t) ; f3.setMesh(m)
f3.setArray(DataArrayDouble([1.,2.,4.,1.,2.,4.],6,1))
f3.setName(fieldName3)
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f3)
+ WriteFieldUsingAlreadyWrittenMesh(fname,f3)
#
t=(2.1,1,-1)
f=MEDCouplingFieldDouble(ON_GAUSS_PT) ; f.setTime(*t) ; f.setMesh(m)
f.setGaussLocalizationOnType(NORM_QUAD4,[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.2,0.2,0.8,0.8],[0.7,0.3])
f.setArray(DataArrayDouble([5.,3.,6.,4.])) ; f.getArray().setInfoOnComponents(["Smth"])
f.setName(fieldName1)
- f.checkCoherency()
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f)
+ f.checkConsistencyLight()
+ WriteFieldUsingAlreadyWrittenMesh(fname,f)
f2=MEDCouplingFieldDouble(ON_CELLS) ; f2.setTime(*t) ; f2.setMesh(m)
f2.setArray(DataArrayDouble([11.,7.],2,1))
f2.setName(fieldName2)
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f2)
+ WriteFieldUsingAlreadyWrittenMesh(fname,f2)
f3=MEDCouplingFieldDouble(ON_NODES) ; f3.setTime(*t) ; f3.setMesh(m)
f3.setArray(DataArrayDouble([4.,2.,1.,4.,2.,1.],6,1))
f3.setName(fieldName3)
- MEDLoader.WriteFieldUsingAlreadyWrittenMesh(fname,f3)
+ WriteFieldUsingAlreadyWrittenMesh(fname,f3)
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
mst=MEDFileMeshStruct.New(ms[0])
#
fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ self.assertEqual([NORM_QUAD4],fcscp.getGeoTypesAt(0,ms[0]))
mml=fcscp.buildFromScratchDataSetSupport(0,fields)
mml2=mml.prepare()
self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
self.assertTrue(v.isEqual(vExp1[i],1e-12))
pass
## Now same exercise but with a different load strategy. All is load directly.
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname) # here all is read, the SauvReader (or other Reader) is emulated
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
f.setName(fieldName)
arr=DataArrayDouble(24) ; arr.iota() ; arr.setInfoOnComponents(["AStr"])
f.setArray(arr)
- f.checkCoherency()
+ f.checkConsistencyLight()
f1ts=MEDFileField1TS() ; f1ts.setFieldNoProfileSBT(f)
ff.pushBackTimeStep(f1ts)
# time 1
f.setName(fieldName)
arr=DataArrayDouble(24) ; arr.iota() ; arr.reverse() ; arr.setInfoOnComponents(["AStr"])
f.setArray(arr)
- f.checkCoherency()
+ f.checkConsistencyLight()
f1ts=MEDFileField1TS() ; f1ts.setFieldNoProfileSBT(f)
ff.pushBackTimeStep(f1ts)
#
mm.write(fname,2)
ff.write(fname,0)
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
f0.setName(fieldName0) ; f0.setTime(*t)
da=m.getCoords().magnitude() ; da.setInfoOnComponents(["zeInfo"])
f0.setArray(da)
- f0.checkCoherency()
+ f0.checkConsistencyLight()
f1ts=MEDFileField1TS()
f1ts.setFieldNoProfileSBT(f0)
fmts0.pushBackTimeStep(f1ts)
#
f1=MEDCouplingFieldDouble(ON_CELLS) ; f1.setMesh(m)
f1.setName(fieldName1) ; f1.setTime(*t)
- da=m.getBarycenterAndOwner().magnitude() ; da.setInfoOnComponents(["zeInfoCell"])
+ da=m.computeCellCenterOfMass().magnitude() ; da.setInfoOnComponents(["zeInfoCell"])
f1.setArray(da)
- f1.checkCoherency()
+ f1.checkConsistencyLight()
f1ts=MEDFileField1TS()
f1ts.setFieldNoProfileSBT(f1)
fmts1.pushBackTimeStep(f1ts)
f2.setName(fieldName2) ; f2.setTime(*t)
da=m.getCoords().magnitude()[pfl2] ; da.setInfoOnComponents(["zzzz"])
f2.setArray(da)
- f2.checkCoherency()
+ f2.checkConsistencyLight()
f1ts=MEDFileField1TS()
f1ts.setFieldProfile(f2,mm,0,pfl2)
fmts2.pushBackTimeStep(f1ts)
#
f3=MEDCouplingFieldDouble(ON_CELLS) ; mTmp=m[pfl3] ; mTmp.setName(m.getName()) ; f3.setMesh(mTmp)
f3.setName(fieldName3) ; f3.setTime(*t)
- da=mTmp.getBarycenterAndOwner().magnitude() ; da.setInfoOnComponents(["abcdefg"])
+ da=mTmp.computeCellCenterOfMass().magnitude() ; da.setInfoOnComponents(["abcdefg"])
f3.setArray(da)
- f3.checkCoherency()
+ f3.checkConsistencyLight()
f1ts=MEDFileField1TS()
f1ts.setFieldProfile(f3,mm,0,pfl3)
fmts3.pushBackTimeStep(f1ts)
f0.setName(fieldName0) ; f0.setTime(*t)
da=m.getCoords().magnitude() ; da.reverse() ; da.setInfoOnComponents(["zeInfo"])
f0.setArray(da)
- f0.checkCoherency()
+ f0.checkConsistencyLight()
f1ts=MEDFileField1TS()
f1ts.setFieldNoProfileSBT(f0)
fmts0.pushBackTimeStep(f1ts)
#
f1=MEDCouplingFieldDouble(ON_CELLS) ; f1.setMesh(m)
f1.setName(fieldName1) ; f1.setTime(*t)
- da=m.getBarycenterAndOwner().magnitude() ; da.reverse() ; da.setInfoOnComponents(["zeInfoCell"])
+ da=m.computeCellCenterOfMass().magnitude() ; da.reverse() ; da.setInfoOnComponents(["zeInfoCell"])
f1.setArray(da)
- f1.checkCoherency()
+ f1.checkConsistencyLight()
f1ts=MEDFileField1TS()
f1ts.setFieldNoProfileSBT(f1)
fmts1.pushBackTimeStep(f1ts)
f2.setName(fieldName2) ; f2.setTime(*t)
da=m.getCoords().magnitude()[pfl2] ; da.reverse() ; da.setInfoOnComponents(["zzzz"])
f2.setArray(da)
- f2.checkCoherency()
+ f2.checkConsistencyLight()
f1ts=MEDFileField1TS()
f1ts.setFieldProfile(f2,mm,0,pfl2)
fmts2.pushBackTimeStep(f1ts)
#
f3=MEDCouplingFieldDouble(ON_CELLS) ; mTmp=m[pfl3] ; mTmp.setName(m.getName()) ; f3.setMesh(mTmp)
f3.setName(fieldName3) ; f3.setTime(*t)
- da=mTmp.getBarycenterAndOwner().magnitude() ; da.reverse() ; da.setInfoOnComponents(["abcdefg"])
+ da=mTmp.computeCellCenterOfMass().magnitude() ; da.reverse() ; da.setInfoOnComponents(["abcdefg"])
f3.setArray(da)
- f3.checkCoherency()
+ f3.checkConsistencyLight()
f1ts=MEDFileField1TS()
f1ts.setFieldProfile(f3,mm,0,pfl3)
fmts3.pushBackTimeStep(f1ts)
fs.appendGlobs(fmts3,1e-12)
fs.write(fname,0)
########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
- ms=MEDFileMeshes(fname)
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
allFMTSLeavesToDisplay=[]
for fields in fields_per_mesh:
allFMTSLeavesToDisplay2=[]
for fmts in fields:
- allFMTSLeavesToDisplay2+=fmts.splitDiscretizations()
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
pass
allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
pass
#
mm.write(fname,2)
pass
+
+ def test22(self):
+ """ Use case where a field on nodes (ANodeField) on a mesh defined both in meshdim 2 and meshdim 1.
+ The only possible geometrical support that suits the field is those with meshdim equal to 1 (-1 in relative).
+ """
+ fname="ForMEDReader22.med"
+ fieldName0="ANodeField"
+ mm=MEDFileUMesh()
+ coo=DataArrayDouble([(4.,3.),(7.,3.),(2.,5.),(6.,5.),(9.,5.),(4.,7.),(8.,7.),(3.,8.),(9.,8.)])
+ m0=MEDCouplingUMesh("mesh",2) ; m0.setCoords(coo) ; m0.allocateCells() ; m0.insertNextCell(NORM_TRI3,[2,3,0]) ; m0.insertNextCell(NORM_TRI3,[3,1,0]) ; m0.insertNextCell(NORM_TRI3,[3,4,1])
+ mm.setMeshAtLevel(0,m0)
+ m1=MEDCouplingUMesh("mesh",1) ; m1.setCoords(coo) ; m1.allocateCells() ; m1.insertNextCell(NORM_SEG2,[2,0]) ; m1.insertNextCell(NORM_SEG2,[0,1]) ; m1.insertNextCell(NORM_SEG2,[1,4])
+ m1.insertNextCell(NORM_SEG2,[3,5]) ; m1.insertNextCell(NORM_SEG2,[5,7]) ; m1.insertNextCell(NORM_SEG2,[3,6]) ; m1.insertNextCell(NORM_SEG2,[6,8])
+ mm.setMeshAtLevel(-1,m1)
+ fs=MEDFileFields()
+ fmts0=MEDFileFieldMultiTS() ; fs.pushField(fmts0)
+ fmts0.setDtUnit("s")
+ #
+ t=(1.1,0,-2)
+ f0=MEDCouplingFieldDouble(ON_NODES) ; f0.setMesh(m1)
+ f0.setName(fieldName0) ; f0.setTime(*t)
+ da=DataArrayDouble(9) ; da.iota() ; da.setInfoOnComponents(["zeInfo"])
+ f0.setArray(da)
+ f0.checkConsistencyLight()
+ f1ts=MEDFileField1TS()
+ f1ts.setFieldNoProfileSBT(f0)
+ fmts0.pushBackTimeStep(f1ts)
+ #
+ t=(2.1,1,-3)
+ f0=MEDCouplingFieldDouble(ON_NODES) ; f0.setMesh(m1)
+ f0.setName(fieldName0) ; f0.setTime(*t)
+ da=DataArrayDouble(9) ; da.iota() ; da.reverse() ; da.setInfoOnComponents(["zeInfo"])
+ f0.setArray(da)
+ f0.checkConsistencyLight()
+ f1ts=MEDFileField1TS()
+ f1ts.setFieldNoProfileSBT(f0)
+ fmts0.pushBackTimeStep(f1ts)
+ #
+ mm.write(fname,2)
+ fs.write(fname,0)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),1)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),1)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ self.assertEqual([NORM_TRI3,NORM_SEG2],fcscp.getGeoTypesAt(0,ms[0]))#contains all cell types of underlying mesh because only nodes with no profiles
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc)
+ self.assertTrue(a0.isEqual(DataArrayDouble([(4.,3.,0.),(7.,3.,0.),(2.,5.,0.),(6.,5.,0.),(9.,5.,0.),(4.,7.,0.),(8.,7.,0.),(3.,8.,0.),(9.,8.,0.)]),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([5,5,5,3,3,3,3,3,3,3])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,4,8,12,15,18,21,24,27,30])))
+ self.assertTrue(a3.isEqual(DataArrayInt([3,2,3,0,3,3,1,0,3,3,4,1,2,2,0,2,0,1,2,1,4,2,3,5,2,5,7,2,3,6,2,6,8])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ a6,a7=mml2.retrieveFamilyIdsOnCells()
+ self.assertTrue(a6.isEqual(DataArrayInt([0,0,0,0,0,0,0,0,0,0])))
+ self.assertTrue(not a7) # copy here
+ a8,a9=mml2.retrieveNumberIdsOnCells()
+ self.assertTrue(not a8)
+ self.assertTrue(a9) # nocopy here
+ a10,a11=mml2.retrieveFamilyIdsOnNodes()
+ self.assertTrue(not a10)
+ self.assertTrue(a11) # no copy here
+ a12,a13=mml2.retrieveNumberIdsOnNodes()
+ self.assertTrue(not a12)
+ self.assertTrue(a13) # no copy here
+ #
+ f=allFMTSLeavesPerCommonSupport1[0][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(f,mst)
+ f.loadArraysIfNecessary()
+ v=mml.buildDataArray(fsst,fields,f.getUndergroundDataArray())
+ self.assertEqual(f.getName(),fieldName0)
+ self.assertEqual(v.getHiddenCppPointer(),f.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble(9) ; vExp.iota() ; vExp.setInfoOnComponents(["zeInfo"])
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ #
+ f=allFMTSLeavesPerCommonSupport1[0][0][0][1]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(f,mst)
+ f.loadArraysIfNecessary()
+ v=mml.buildDataArray(fsst,fields,f.getUndergroundDataArray())
+ self.assertEqual(f.getName(),fieldName0)
+ self.assertEqual(v.getHiddenCppPointer(),f.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble(9) ; vExp.iota() ; vExp.setInfoOnComponents(["zeInfo"]) ; vExp.reverse()
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ pass
+
+ def test23(self):
+ """ Non regression test 2219 of modes. Idem than test22 except that here the node field is on profile.
+ """
+ fname="ForMEDReader23.med"
+ fieldName0="ANodeField"
+ mm=MEDFileUMesh()
+ coo=DataArrayDouble([(4.,3.),(7.,3.),(2.,5.),(6.,5.),(9.,5.),(4.,7.),(8.,7.),(3.,8.),(9.,8.)])
+ m0=MEDCouplingUMesh("mesh",2) ; m0.setCoords(coo) ; m0.allocateCells() ; m0.insertNextCell(NORM_TRI3,[2,3,0]) ; m0.insertNextCell(NORM_TRI3,[3,1,0]) ; m0.insertNextCell(NORM_TRI3,[3,4,1])
+ mm.setMeshAtLevel(0,m0)
+ m1=MEDCouplingUMesh("mesh",1) ; m1.setCoords(coo) ; m1.allocateCells() ; m1.insertNextCell(NORM_SEG2,[2,0]) ; m1.insertNextCell(NORM_SEG2,[0,1]) ; m1.insertNextCell(NORM_SEG2,[1,4])
+ m1.insertNextCell(NORM_SEG2,[3,5]) ; m1.insertNextCell(NORM_SEG2,[5,7]) ; m1.insertNextCell(NORM_SEG2,[3,6]) ; m1.insertNextCell(NORM_SEG2,[6,8])
+ mm.setMeshAtLevel(-1,m1)
+ fmts0=MEDFileFieldMultiTS()
+ fmts0.setDtUnit("s")
+ #
+ pfl=DataArrayInt([0,1,2,4]) ; pfl.setName("pfl")
+ pflCell=DataArrayInt([0,1,2]) ; m1Part=m1[pflCell] ; m1Part.zipCoords()
+ #
+ t=(1.1,0,-2)
+ f0=MEDCouplingFieldDouble(ON_NODES) ; f0.setMesh(m1Part)
+ f0.setName(fieldName0) ; f0.setTime(*t)
+ da=DataArrayDouble(4) ; da.iota() ; da.setInfoOnComponents(["zeInfo"])
+ f0.setArray(da)
+ f0.checkConsistencyLight()
+ f1ts=MEDFileField1TS()
+ f1ts.setFieldProfile(f0,mm,-1,pfl)
+ fmts0.pushBackTimeStep(f1ts)
+ #
+ t=(2.1,1,-3)
+ f0=MEDCouplingFieldDouble(ON_NODES) ; f0.setMesh(m1Part)
+ f0.setName(fieldName0) ; f0.setTime(*t)
+ da=DataArrayDouble(4) ; da.iota() ; da.reverse() ; da.setInfoOnComponents(["zeInfo"])
+ f0.setArray(da)
+ f0.checkConsistencyLight()
+ f1ts=MEDFileField1TS()
+ f1ts.setFieldProfile(f0,mm,-1,pfl)
+ fmts0.pushBackTimeStep(f1ts)
+ mm.write(fname,2)
+ fmts0.write(fname,0)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),1)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),1)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc)
+ self.assertTrue(a0.isEqual(DataArrayDouble([(4.,3.,0.),(7.,3.,0.),(2.,5.,0.),(9.,5.,0.)]),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([3,3,3])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,3,6])))
+ self.assertTrue(a3.isEqual(DataArrayInt([2,2,0,2,0,1,2,1,3])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ a6,a7=mml2.retrieveFamilyIdsOnCells()
+ self.assertTrue(a6.isEqual(DataArrayInt([0,0,0])))
+ self.assertTrue(not a7) # copy here
+ a8,a9=mml2.retrieveNumberIdsOnCells()
+ self.assertTrue(not a8)
+ self.assertTrue(a9) # nocopy here
+ a10,a11=mml2.retrieveFamilyIdsOnNodes()
+ self.assertTrue(not a10)
+ self.assertTrue(a11) # no copy here
+ a12,a13=mml2.retrieveNumberIdsOnNodes()
+ self.assertTrue(not a12)
+ self.assertTrue(a13) # no copy here
+ #
+ f=allFMTSLeavesPerCommonSupport1[0][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(f,mst)
+ f.loadArraysIfNecessary()
+ v=mml.buildDataArray(fsst,fields,f.getUndergroundDataArray())
+ self.assertEqual(f.getName(),fieldName0)
+ vExp=DataArrayDouble(4) ; vExp.iota() ; vExp.setInfoOnComponents(["zeInfo"])
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ #
+ f=allFMTSLeavesPerCommonSupport1[0][0][0][1]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(f,mst)
+ f.loadArraysIfNecessary()
+ v=mml.buildDataArray(fsst,fields,f.getUndergroundDataArray())
+ self.assertEqual(f.getName(),fieldName0)
+ vExp=DataArrayDouble(4) ; vExp.iota() ; vExp.setInfoOnComponents(["zeInfo"]) ; vExp.reverse()
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ pass
+
+ def test24(self):
+ """ Non regression test for cartesian mesh whose the 3rd direction has only one node. It a false 3D mesh.
+ """
+ fname="ForMEDReader24.med"
+ fieldName0="zeFieldNode"
+ cmesh=MEDCouplingCMesh("mesh")
+ arr0=DataArrayDouble([0.,1.1,2.2,3.3,4.4])
+ arr1=DataArrayDouble([0.,1.4,2.3])
+ arr2=DataArrayDouble([5.])
+ cmesh.setCoords(arr0,arr1,arr2)
+ fmts0=MEDFileFieldMultiTS()
+ fmts0.setDtUnit("s")
+ #
+ t=(1.1,2,3)
+ f=MEDCouplingFieldDouble(ON_NODES) ; f.setName(fieldName0)
+ f.setMesh(cmesh)
+ arr=DataArrayDouble(15) ; arr.setInfoOnComponents(["tutu"]) ; arr.iota()
+ f.setArray(arr)
+ f.setTime(*t)
+ f1ts=MEDFileField1TS()
+ f1ts.setFieldNoProfileSBT(f)
+ fmts0.pushBackTimeStep(f1ts)
+ #
+ t=(3.3,4,5)
+ arr=DataArrayDouble(15) ; arr.setInfoOnComponents(["tutu"]) ; arr.iota()
+ arr.reverse()
+ f.setArray(arr)
+ f.setTime(*t)
+ f1ts=MEDFileField1TS()
+ f1ts.setFieldNoProfileSBT(f)
+ fmts0.pushBackTimeStep(f1ts)
+ #
+ mm=MEDFileCMesh() ; mm.setMesh(cmesh)
+ mm.write(fname,2)
+ fmts0.write(fname,0)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),1)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),1)
+ allFMTSLeavesPerCommonSupport=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport[0][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDCMeshMultiLev))
+ (a,b,c),d=mml2.buildVTUArrays()
+ self.assertTrue(d)#d is True because the a,b and c are directly those in the internal data structure
+ self.assertTrue(a.isEqual(arr0,1e-12))
+ self.assertTrue(b.isEqual(arr1,1e-12))
+ self.assertTrue(c.isEqual(arr2,1e-12))
+ for i in xrange(2):
+ f=allFMTSLeavesPerCommonSupport[0][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(f,mst)
+ f.loadArraysIfNecessary()
+ v=mml.buildDataArray(fsst,fields,f.getUndergroundDataArray())
+ self.assertEqual(f.getName(),fieldName0)
+ self.assertEqual(v.getHiddenCppPointer(),f.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble(15) ; vExp.iota(0) ; vExp.setInfoOnComponents(["tutu"])
+ if i==1:
+ vExp.reverse()
+ pass
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ pass
+ pass
+
+ def test25(self):
+ """ A tricky test that reproduces an invalid behaviour
+ Here a same field is defined both on CELLS and GAUSS_PT, with a profile for each.
+ The problem appears on array computation when performing CELLS then GAUSS_PT and CELLS again.
+ """
+ fname="ForMEDReader25.med"
+ m=MEDFileUMesh()
+ coords=DataArrayDouble([0.,0.,1.,0.,2.,0.,0.,1.,1.,1.,2.,1.,0.,2.,1.,2.,2.,2.,0.,3.,1.,3.,2.,3.,1.,4.,1.,5.,1.,6.],15,2)
+ m0=MEDCouplingUMesh("mesh",2) ; m0.setCoords(coords)
+ m0.allocateCells()
+ m0.insertNextCell(NORM_QUAD4,[0,3,4,1])
+ m0.insertNextCell(NORM_QUAD4,[1,4,5,2])
+ m0.insertNextCell(NORM_QUAD4,[3,6,7,4])
+ m0.insertNextCell(NORM_QUAD4,[4,7,8,5])
+ m0.insertNextCell(NORM_QUAD4,[6,9,10,7])
+ m0.insertNextCell(NORM_QUAD4,[7,10,11,8])
+ m.setMeshAtLevel(0,m0)
+ m1=MEDCouplingUMesh("mesh",1) ; m1.setCoords(coords)
+ m1.allocateCells()
+ m1.insertNextCell(NORM_SEG2,[10,12])
+ m1.insertNextCell(NORM_SEG2,[12,13])
+ m1.insertNextCell(NORM_SEG2,[13,14])
+ m.setMeshAtLevel(-1,m1)
+ m.setFamilyFieldArr(0,DataArrayInt([-1,-2,-3,-4,-5,-6]))
+ m.setFamilyFieldArr(-1,DataArrayInt([-7,-8,-9]))
+ m.setFamilyFieldArr(1,DataArrayInt([3,4,5,6,7,8,9,10,11,12,13,14,15,16,17]))
+ m.setRenumFieldArr(0,DataArrayInt([101,102,103,104,105,106]))
+ m.setRenumFieldArr(-1,DataArrayInt([107,108,109]))
+ m.setRenumFieldArr(1,DataArrayInt([203,204,205,206,207,208,209,210,211,212,213,214,215,216,217]))
+ #
+ fmts=MEDFileFieldMultiTS()
+ info0=["aa","bbb"]
+ name0="zeField"
+ pflName0="pfl"
+ pflName1="pfl2"
+ #
+ f1ts=MEDFileField1TS()
+ f=MEDCouplingFieldDouble(ON_CELLS) ; f.setName(name0)
+ arr=DataArrayDouble([(-1,-11),(-2,-22)]) ; arr.setInfoOnComponents(info0)
+ f.setArray(arr)
+ pfl0=DataArrayInt([0,1]) ; pfl0.setName(pflName0)
+ f1ts.setFieldProfile(f,m,-1,pfl0)
+ del f
+ f2=MEDCouplingFieldDouble(ON_GAUSS_PT) ; f2.setName(name0)
+ arr=DataArrayDouble(15) ; arr.iota(1)
+ arr=DataArrayDouble.Meld(arr,arr+10) ; arr.setInfoOnComponents(info0)
+ f2.setArray(arr)
+ pfl1=DataArrayInt([1,3,5]) ; pfl1.setName(pflName1)
+ tmp=m0[pfl1] ; f2.setMesh(tmp)
+ f2.setGaussLocalizationOnType(NORM_QUAD4,[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[-0.5,-0.5,0.5,-0.5,0.5,0.5,-0.5,0.5,0.,0.],[0.1,0.1,0.1,0.1,0.6])
+ f2.checkConsistencyLight()
+ f1ts.setFieldProfile(f2,m,0,pfl1)
+ fmts.pushBackTimeStep(f1ts)
+ #
+ m.write(fname,2)
+ fmts.write(fname,0)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False) # false is absolutely necessary for the test
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),2)
+ ### here the test is important !!! Pointers must be different !
+ self.assertTrue(allFMTSLeavesToDisplay[0][0][0].getUndergroundDataArray().getHiddenCppPointer()!=allFMTSLeavesToDisplay[0][1][0].getUndergroundDataArray().getHiddenCppPointer())
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),2)
+ ### here the test is important !!! Pointers must be different !
+ self.assertTrue(allFMTSLeavesToDisplay[0][0][0].getUndergroundDataArray().getHiddenCppPointer()!=allFMTSLeavesToDisplay[0][1][0].getUndergroundDataArray().getHiddenCppPointer())
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertTrue(allFMTSLeavesToDisplay[0][0][0].getUndergroundDataArray().getHiddenCppPointer()!=allFMTSLeavesToDisplay[0][1][0].getUndergroundDataArray().getHiddenCppPointer())
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),2)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[1][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ # emulate first click
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ self.assertEqual([NORM_SEG2],fcscp.getGeoTypesAt(0,ms[0]))
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc) # copy here because 2D -> 3D
+ expCoords=coords.changeNbOfComponents(3,0.)
+ self.assertTrue(a0.isEqual(expCoords,1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([3,3])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,3])))
+ self.assertTrue(a3.isEqual(DataArrayInt([2,10,12,2,12,13])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ a6,a7=mml2.retrieveFamilyIdsOnCells()
+ self.assertTrue(a6.isEqual(DataArrayInt([-7,-8])))
+ self.assertTrue(not a7) # copy here because profile on cells
+ a8,a9=mml2.retrieveNumberIdsOnCells()
+ self.assertTrue(a8.isEqual(DataArrayInt([107,108])))
+ self.assertTrue(not a9) # copy here because profile on cells
+ a10,a11=mml2.retrieveFamilyIdsOnNodes()
+ self.assertTrue(a10.isEqual(DataArrayInt([3,4,5,6,7,8,9,10,11,12,13,14,15,16,17])))
+ self.assertTrue(a11) # no copy here
+ a12,a13=mml2.retrieveNumberIdsOnNodes()
+ self.assertTrue(a12.isEqual(DataArrayInt([203,204,205,206,207,208,209,210,211,212,213,214,215,216,217])))
+ self.assertTrue(a13) # no copy here
+ fff0=allFMTSLeavesPerCommonSupport1[0][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(fff0,mst)
+ fff0.loadArraysIfNecessary()
+ self.assertEqual([ON_CELLS],fff0.getTypesOfFieldAvailable())
+ v=mml.buildDataArray(fsst,fields,fff0.getUndergroundDataArray())
+ self.assertEqual(fff0.getName(),name0)
+ self.assertEqual(v.getHiddenCppPointer(),fff0.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble([(-1,-11),(-2,-22)]) ; vExp.setInfoOnComponents(info0)
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ del fff0
+ # emulate second click
+ fcscp=allFMTSLeavesPerCommonSupport1[1][1]
+ self.assertEqual([NORM_QUAD4],fcscp.getGeoTypesAt(0,ms[0]))
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc) # copy here because 2D -> 3D
+ expCoords=coords.changeNbOfComponents(3,0.)
+ self.assertTrue(a0.isEqual(expCoords,1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([9,9,9])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,5,10])))
+ self.assertTrue(a3.isEqual(DataArrayInt([4,1,4,5,2,4,4,7,8,5,4,7,10,11,8])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ a6,a7=mml2.retrieveFamilyIdsOnCells()
+ self.assertTrue(a6.isEqual(DataArrayInt([-2,-4,-6])))
+ self.assertTrue(not a7) # copy here because profile on cells
+ a8,a9=mml2.retrieveNumberIdsOnCells()
+ self.assertTrue(a8.isEqual(DataArrayInt([102,104,106])))
+ self.assertTrue(not a9) # copy here because profile on cells
+ a10,a11=mml2.retrieveFamilyIdsOnNodes()
+ self.assertTrue(a10.isEqual(DataArrayInt([3,4,5,6,7,8,9,10,11,12,13,14,15,16,17])))
+ self.assertTrue(a11) # no copy here
+ a12,a13=mml2.retrieveNumberIdsOnNodes()
+ self.assertTrue(a12.isEqual(DataArrayInt([203,204,205,206,207,208,209,210,211,212,213,214,215,216,217])))
+ self.assertTrue(a13) # no copy here
+ fff1=allFMTSLeavesPerCommonSupport1[1][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(fff1,mst)
+ fff1.loadArraysIfNecessary()
+ self.assertEqual([ON_GAUSS_PT],fff1.getTypesOfFieldAvailable())
+ v=mml.buildDataArray(fsst,fields,fff1.getUndergroundDataArray())
+ self.assertEqual(fff1.getName(),name0)
+ self.assertEqual(v.getHiddenCppPointer(),fff1.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble([1.,11.,2.,12.,3.,13.,4.,14.,5.,15.,6.,16.,7.,17.,8.,18.,9.,19.,10.,20.,11.,21.,12.,22.,13.,23.,14.,24.,15.,25.],15,2) ; vExp.setInfoOnComponents(info0)
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ # emulate third click
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc) # copy here because 2D -> 3D
+ expCoords=coords.changeNbOfComponents(3,0.)
+ self.assertTrue(a0.isEqual(expCoords,1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([3,3])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,3])))
+ self.assertTrue(a3.isEqual(DataArrayInt([2,10,12,2,12,13])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ a6,a7=mml2.retrieveFamilyIdsOnCells()
+ self.assertTrue(a6.isEqual(DataArrayInt([-7,-8])))
+ self.assertTrue(not a7) # copy here because profile on cells
+ a8,a9=mml2.retrieveNumberIdsOnCells()
+ self.assertTrue(a8.isEqual(DataArrayInt([107,108])))
+ self.assertTrue(not a9) # copy here because profile on cells
+ a10,a11=mml2.retrieveFamilyIdsOnNodes()
+ self.assertTrue(a10.isEqual(DataArrayInt([3,4,5,6,7,8,9,10,11,12,13,14,15,16,17])))
+ self.assertTrue(a11) # no copy here
+ a12,a13=mml2.retrieveNumberIdsOnNodes()
+ self.assertTrue(a12.isEqual(DataArrayInt([203,204,205,206,207,208,209,210,211,212,213,214,215,216,217])))
+ self.assertTrue(a13) # no copy here
+ fff0=allFMTSLeavesPerCommonSupport1[0][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(fff0,mst)
+ fff0.loadArraysIfNecessary()
+ self.assertEqual([ON_CELLS],fff0.getTypesOfFieldAvailable())
+ v=mml.buildDataArray(fsst,fields,fff0.getUndergroundDataArray())
+ self.assertEqual(fff0.getName(),name0)
+ self.assertEqual(v.getHiddenCppPointer(),fff0.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble([(-1,-11),(-2,-22)]) ; vExp.setInfoOnComponents(info0)
+ self.assertTrue(v.isEqual(vExp,1e-12)) # <- THE test is here !!!
+ del fff0
+ pass
+
+ def test26(self):
+ """ Test focused on field on nodes (here f0Node and f1Node) lying on a profile of nodes that do not match perfectly a sub set of cells of its underlying mesh. See bug EDF 2405 and 2177.
+ For this type of fields the support will contain only vertices.
+ """
+ fname="ForMEDReader26.med"
+ coords=DataArrayDouble([(0.,0.,0.),(1.,0.,0.),(2.,0.,0.),(3.,0.,0.),(0.,1.,0.),(1.,1.,0.),(2.,1.,0.),(3.,1.,0.),(0.,2.,0.),(1.,2.,0.),(2.,2.,0.),(3.,2.,0.),(0.,3.,0.),(1.,3.,0.),(2.,3.,0.),(3.,3.,0.)])
+ m0=MEDCouplingUMesh("mesh",2)
+ m0.allocateCells()
+ for elt in [[2,6,3],[6,7,3],[9,6,5],[9,10,6]]:
+ m0.insertNextCell(NORM_TRI3,elt)
+ pass
+ for elt in [[0,4,5,1],[1,5,6,2],[4,8,9,5],[6,10,11,7],[8,12,13,9],[9,13,14,10],[10,14,15,11]]:
+ m0.insertNextCell(NORM_QUAD4,elt)
+ pass
+ m0.setCoords(coords)
+ ##
+ mm=MEDFileUMesh()
+ mm.setMeshAtLevel(0,m0)
+ mm.setFamilyFieldArr(0,DataArrayInt([-1,-2,-3,-4,-5,-6,-7,-8,-9,-10,-11]))
+ mm.setFamilyFieldArr(1,DataArrayInt([1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16]))
+ #
+ f1ts0Node=MEDFileField1TS()
+ f1ts1Node=MEDFileField1TS()
+ f1ts2Cell=MEDFileField1TS()
+ f1ts3Cell=MEDFileField1TS()
+ f1ts4Cell=MEDFileField1TS()
+ f1ts5Node=MEDFileField1TS()
+ #
+ pfl0=DataArrayInt([4,5,6,8,9,12]) ; pfl0.setName("pfl0")
+ pfl1=DataArrayInt([0,1,4,5,7,10]) ; pfl1.setName("pfl1")
+ pfl2=DataArrayInt([0,1,2,3,4,5,6,7,10,11,14,15]) ; pfl2.setName("pfl2")
+ #
+ f0Node=MEDCouplingFieldDouble(ON_NODES) ; f0Node.setName("f0Node")
+ arr0=DataArrayDouble(6) ; arr0.iota()
+ f0Node.setArray(arr0)
+ f1ts0Node.setFieldProfile(f0Node,mm,0,pfl0)
+ #
+ f1Node=MEDCouplingFieldDouble(ON_NODES) ; f1Node.setName("f1Node")
+ arr1=DataArrayDouble(6) ; arr1.iota() ; arr1.reverse()
+ f1Node.setArray(arr1)
+ f1ts1Node.setFieldProfile(f1Node,mm,0,pfl0)
+ #
+ f2Cell=MEDCouplingFieldDouble(ON_CELLS) ; f2Cell.setName("f2Cell")
+ arr2=DataArrayDouble([2,3,0,1,4,5])
+ f2Cell.setArray(arr2)
+ f1ts2Cell.setFieldProfile(f2Cell,mm,0,pfl1)
+ #
+ f3Cell=MEDCouplingFieldDouble(ON_CELLS) ; f3Cell.setName("f3Cell")
+ arr3=DataArrayDouble([5,4,3,2,1,0])
+ f3Cell.setArray(arr3)
+ f1ts3Cell.setFieldProfile(f3Cell,mm,0,pfl1)
+ #
+ f4Cell=MEDCouplingFieldDouble(ON_CELLS) ; f4Cell.setName("f4Cell")
+ arr4=DataArrayDouble([2,2,0,1,1,0])
+ f4Cell.setArray(arr4)
+ f1ts4Cell.setFieldProfile(f4Cell,mm,0,pfl1)
+ #
+ f5Node=MEDCouplingFieldDouble(ON_NODES) ; f5Node.setName("f5Node")
+ arr5=DataArrayDouble([0,1,2,3,10,11,13,2,11,1,10,0])
+ f5Node.setArray(arr5)
+ f1ts5Node.setFieldProfile(f5Node,mm,0,pfl2)
+ #
+ fs=MEDFileFields()
+ for f in [f1ts0Node,f1ts1Node,f1ts2Cell,f1ts3Cell,f1ts4Cell,f1ts5Node]:
+ fmts=MEDFileFieldMultiTS()
+ fmts.pushBackTimeStep(f)
+ fs.pushField(fmts)
+ pass
+ mm.write(fname,2)
+ fs.write(fname,0)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),6)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),6)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),2)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),4)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[1][0]),2)# <- the smart one is here
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[1][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ self.assertEqual([3,4,0],mml2.getGeoTypes())
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc)
+ self.assertTrue(a0.isEqual(DataArrayDouble([0.,1.,0.,1.,1.,0.,2.,1.,0.,0.,2.,0.,1.,2.,0.,0.,3.,0.],6,3),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([5,9,1])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,4,9])))
+ self.assertTrue(a3.isEqual(DataArrayInt([3,4,2,1,4,0,3,4,1,1,5])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ a6,a7=mml2.retrieveFamilyIdsOnCells()
+ self.assertTrue(a6.isEqual(DataArrayInt([-3,-7,13])))
+ self.assertTrue(not a7) # copy here because profile on cells
+ a8,a9=mml2.retrieveNumberIdsOnCells()
+ self.assertTrue(a8 is None)
+ self.assertTrue(a9) # no copy here because no number field
+ a10,a11=mml2.retrieveFamilyIdsOnNodes()
+ self.assertTrue(a10.isEqual(DataArrayInt([5,6,7,9,10,13])))
+ self.assertTrue(not a11) # copy here
+ a12,a13=mml2.retrieveNumberIdsOnNodes()
+ self.assertTrue(a12 is None)
+ self.assertTrue(a13) # no copy here because no number field
+ #
+ fff0=allFMTSLeavesPerCommonSupport1[1][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(fff0,mst)
+ fff0.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,fff0.getUndergroundDataArray())
+ self.assertEqual(fff0.getName(),"f0Node")
+ self.assertEqual(v.getHiddenCppPointer(),fff0.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble([0.,1.,2.,3.,4.,5.])
+ self.assertTrue(v.isEqual(vExp,1e-12)) # <- THE test is here !!!
+ #
+ fff1=allFMTSLeavesPerCommonSupport1[1][0][1][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(fff1,mst)
+ fff1.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,fff1.getUndergroundDataArray())
+ self.assertEqual(fff1.getName(),"f1Node")
+ self.assertEqual(v.getHiddenCppPointer(),fff1.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble([5.,4.,3.,2.,1.,0.])
+ self.assertTrue(v.isEqual(vExp,1e-12)) # <- THE test is here !!!
+ pass
+
+ def test27(self):
+ """ This test defines 2 fields f0 and f1 on nodes lying on an unstructured mesh with no cells.
+ f0 is a field on all nodes. f1 is a partial field on nodes.
+ """
+ fname="ForMEDReader27.med"
+ coords=DataArrayDouble([(0.,0.,0.),(1.,0.,0.),(2.,0.,0.),(3.,0.,0.),(0.,1.,0.),(1.,1.,0.),(2.,1.,0.),(3.,1.,0.),(0.,2.,0.),(1.,2.,0.),(2.,2.,0.),(3.,2.,0.),(0.,3.,0.),(1.,3.,0.),(2.,3.,0.),(3.,3.,0.)])
+ m0=MEDCouplingUMesh("mesh",2)
+ m0.allocateCells()
+ m0.setCoords(coords)
+ ##
+ mm=MEDFileUMesh()
+ mm.setMeshAtLevel(0,m0)
+ mm.setFamilyFieldArr(1,DataArrayInt([1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16]))
+ #
+ f1ts0=MEDFileField1TS()
+ f1ts1=MEDFileField1TS()
+ #
+ f0=MEDCouplingFieldDouble(ON_NODES) ; f0.setMesh(m0) ; f0.setName("f0NoPfl")
+ arr0=DataArrayDouble([0.,1.,2.,3.,1.,1.5,2.2,3.1,2.,2.2,3.,3.1,3.,3.1,3.5,4.])
+ f0.setArray(arr0)
+ f0.checkConsistencyLight()
+ f1ts0.setFieldNoProfileSBT(f0)
+ self.assertEqual(f1ts0.getMeshName(),"mesh")
+ #
+ pfl1=DataArrayInt([0,1,2,3,4,5,6,8,9,12]) ; pfl1.setName("pfl1")
+ f1=MEDCouplingFieldDouble(ON_NODES) ; f1.setName("f1Pfl")
+ arr1=DataArrayDouble([3.,2.,1.,0.,2.,1.5,0.,1.,0.,0.2])
+ f1.setArray(arr1)
+ f1ts1.setFieldProfile(f1,mm,0,pfl1)
+ self.assertEqual(f1ts1.getMeshName(),"mesh")
+ #
+ fs=MEDFileFields()
+ fmts0=MEDFileFieldMultiTS()
+ fmts0.pushBackTimeStep(f1ts0)
+ fmts1=MEDFileFieldMultiTS()
+ fmts1.pushBackTimeStep(f1ts1)
+ fs.pushField(fmts0) ; fs.pushField(fmts1)
+ self.assertEqual(fs[0].getMeshName(),"mesh")
+ self.assertEqual(fs[1].getMeshName(),"mesh")
+ mm.write(fname,2)
+ fs.write(fname,0)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ self.assertEqual(fields[0].getMeshName(),"mesh")
+ self.assertEqual(fields[1].getMeshName(),"mesh")
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ self.assertEqual(fields_per_mesh[0][0].getMeshName(),"mesh")
+ self.assertEqual(fields_per_mesh[0][1].getMeshName(),"mesh")
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),2)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),2)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),2)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[1][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(ncc)
+ self.assertTrue(a0.isEqual(DataArrayDouble([(0.,0.,0.),(1.,0.,0.),(2.,0.,0.),(3.,0.,0.),(0.,1.,0.),(1.,1.,0.),(2.,1.,0.),(3.,1.,0.),(0.,2.,0.),(1.,2.,0.),(2.,2.,0.),(3.,2.,0.),(0.,3.,0.),(1.,3.,0.),(2.,3.,0.),(3.,3.,0.)]),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([])))
+ self.assertTrue(a2.isEqual(DataArrayInt([])))
+ self.assertTrue(a3.isEqual(DataArrayInt([])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ #
+ fff0=allFMTSLeavesPerCommonSupport1[0][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(fff0,mst)
+ fff0.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,fff0.getUndergroundDataArray())
+ self.assertEqual(fff0.getName(),"f0NoPfl")
+ self.assertEqual(v.getHiddenCppPointer(),fff0.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble([0.,1.,2.,3.,1.,1.5,2.2,3.1,2.,2.2,3.,3.1,3.,3.1,3.5,4])
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[1][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc)
+ self.assertTrue(a0.isEqual(DataArrayDouble([(0,0,0),(1,0,0),(2,0,0),(3,0,0),(0,1,0),(1,1,0),(2,1,0),(0,2,0),(1,2,0),(0,3,0)]),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([])))
+ self.assertTrue(a2.isEqual(DataArrayInt([])))
+ self.assertTrue(a3.isEqual(DataArrayInt([])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ fff1=allFMTSLeavesPerCommonSupport1[1][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(fff1,mst)
+ fff1.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,fff1.getUndergroundDataArray())
+ self.assertEqual(fff1.getName(),"f1Pfl")
+ self.assertNotEqual(v.getHiddenCppPointer(),fff1.getUndergroundDataArray().getHiddenCppPointer()) # pointers are not equal because Profile
+ vExp=DataArrayDouble([3.,2.,1.,0.,2.,1.5,0.,1.,0.,0.2])
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ pass
+
+ def test28(self):
+ """ This test defines 2 fields f0,f1,f2,f3 lying on an unstructured mesh whith cells including NORM_POINT1.
+ Both f0 and f1 are on NODES and f2 and f3 are on cells. f1 and f2 share the same support.
+ f0 is on a nodal support that is not matchable with any cells (including NORM_POINT1)
+ This test is a more aggressive version of test26.
+ """
+ fname="ForMEDReader28.med"
+ coords=DataArrayDouble([(0.,0.,0.),(1.,0.,0.),(2.,0.,0.),(3.,0.,0.),(0.,1.,0.),(1.,1.,0.),(2.,1.,0.),(3.,1.,0.),(0.,2.,0.),(1.,2.,0.),(2.,2.,0.),(3.,2.,0.),(0.,3.,0.),(1.,3.,0.),(2.,3.,0.),(3.,3.,0.)])
+ m0=MEDCouplingUMesh("mesh",2)
+ m0.allocateCells()
+ for elt in [[2,6,3],[6,7,3],[9,6,5],[9,10,6]]:
+ m0.insertNextCell(NORM_TRI3,elt)
+ pass
+ for elt in [[0,4,5,1],[1,5,6,2],[4,8,9,5],[6,10,11,7],[8,12,13,9],[9,13,14,10],[10,14,15,11]]:
+ m0.insertNextCell(NORM_QUAD4,elt)
+ pass
+ m0.setCoords(coords)
+ m2=MEDCouplingUMesh("mesh",0) ; m2.setCoords(coords)
+ m2.allocateCells()
+ for elt in [[8],[13]]:
+ m2.insertNextCell(NORM_POINT1,elt)
+ pass
+ ##
+ mm=MEDFileUMesh()
+ mm.setMeshAtLevel(0,m0)
+ mm.setMeshAtLevel(-2,m2)
+ mm.setFamilyFieldArr(0,DataArrayInt([-1,-2,-3,-4,-5,-6,-7,-8,-9,-10,-11]))
+ mm.setFamilyFieldArr(-2,DataArrayInt([-12,-13]))
+ mm.setFamilyFieldArr(1,DataArrayInt([1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16]))
+ #
+ f1ts0Node=MEDFileField1TS()
+ f1ts1Node=MEDFileField1TS()
+ f1ts2Cell=MEDFileField1TS()
+ f1ts3Cell=MEDFileField1TS()
+ #
+ pfl0=DataArrayInt([4,5,6,8,9,12]) ; pfl0.setName("pfl0")
+ pfl1=DataArrayInt([0,1,4,5,7,10]) ; pfl1.setName("pfl1")
+ pfl2=DataArrayInt([0,1,2,3,4,5,6,7,10,11,14,15]) ; pfl2.setName("pfl2")
+ #
+ f0Node=MEDCouplingFieldDouble(ON_NODES) ; f0Node.setName("f0Node")
+ arr0=DataArrayDouble(6) ; arr0.iota()
+ f0Node.setArray(arr0)
+ f1ts0Node.setFieldProfile(f0Node,mm,0,pfl0)
+ #
+ f1Node=MEDCouplingFieldDouble(ON_NODES) ; f1Node.setName("f1Node")
+ arr1=DataArrayDouble(12) ; arr1.iota() ; arr1.reverse()
+ f1Node.setArray(arr1)
+ f1ts1Node.setFieldProfile(f1Node,mm,0,pfl2)
+ #
+ f2Cell=MEDCouplingFieldDouble(ON_CELLS) ; f2Cell.setName("f2Cell")
+ arr2=DataArrayDouble([2,3,0,1,4,5])
+ f2Cell.setArray(arr2)
+ f1ts2Cell.setFieldProfile(f2Cell,mm,0,pfl1)
+ #
+ f3Cell=MEDCouplingFieldDouble(ON_CELLS) ; f3Cell.setName("f3Cell")
+ arr3=DataArrayDouble([5,4,3,2,1,0]) ; f3Cell.setArray(arr3)
+ f1ts3Cell.setFieldProfile(f3Cell,mm,0,pfl1)
+ f3Cell.setMesh(m2)
+ arr3=DataArrayDouble([-1.1,-3.1]) ; f3Cell.setArray(arr3)
+ f1ts3Cell.setFieldNoProfileSBT(f3Cell)
+ #
+ fs=MEDFileFields()
+ for f in [f1ts0Node,f1ts1Node,f1ts2Cell,f1ts3Cell]:
+ fmts=MEDFileFieldMultiTS()
+ fmts.pushBackTimeStep(f)
+ fs.pushField(fmts)
+ pass
+ mm.write(fname,2)
+ fs.write(fname,0)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),4)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),4)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),3)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),2)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[1][0]),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[2][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[2][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc)
+ self.assertTrue(a0.isEqual(DataArrayDouble([0.,1.,0.,1.,1.,0.,2.,1.,0.,0.,2.,0.,1.,2.,0.,0.,3.,0.],6,3),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([5,9,1,1])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,4,9,11])))
+ self.assertTrue(a3.isEqual(DataArrayInt([3,4,2,1,4,0,3,4,1,1,3,1,5])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ a6,a7=mml2.retrieveFamilyIdsOnCells()
+ self.assertTrue(a6.isEqual(DataArrayInt([-3,-7,-12,13])))
+ self.assertTrue(not a7) # copy here because profile on cells
+ a8,a9=mml2.retrieveNumberIdsOnCells()
+ self.assertTrue(a8 is None)
+ self.assertTrue(a9) # no copy here because no number field
+ a10,a11=mml2.retrieveFamilyIdsOnNodes()
+ self.assertTrue(a10.isEqual(DataArrayInt([5,6,7,9,10,13])))
+ self.assertTrue(not a11) # copy here
+ a12,a13=mml2.retrieveNumberIdsOnNodes()
+ self.assertTrue(a12 is None)
+ self.assertTrue(a13) # no copy here because no number field
+ #
+ fff0=allFMTSLeavesPerCommonSupport1[2][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(fff0,mst)
+ fff0.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,fff0.getUndergroundDataArray())
+ self.assertEqual(fff0.getName(),"f0Node")
+ self.assertEqual(v.getHiddenCppPointer(),fff0.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble([0.,1.,2.,3.,4.,5.])
+ self.assertTrue(v.isEqual(vExp,1e-12)) # <- THE test is here !!!
+ ###
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc)
+ self.assertTrue(a0.isEqual(DataArrayDouble([(0,0,0),(1,0,0),(2,0,0),(3,0,0),(0,1,0),(1,1,0),(2,1,0),(3,1,0),(2,2,0),(3,2,0),(2,3,0),(3,3,0)]),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([5,5,9,9,9,9])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,4,8,13,18,23])))
+ self.assertTrue(a3.isEqual(DataArrayInt([3,2,6,3,3,6,7,3,4,0,4,5,1,4,1,5,6,2,4,6,8,9,7,4,8,10,11,9])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ fff1=allFMTSLeavesPerCommonSupport1[0][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(fff1,mst)
+ fff1.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,fff1.getUndergroundDataArray())
+ self.assertEqual(fff1.getName(),"f2Cell")
+ self.assertNotEqual(v.getHiddenCppPointer(),fff0.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble([2,3,0,1,4,5])
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ fff2=allFMTSLeavesPerCommonSupport1[0][0][1][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(fff2,mst)
+ fff2.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,fff2.getUndergroundDataArray())
+ self.assertEqual(fff2.getName(),"f1Node")
+ self.assertNotEqual(v.getHiddenCppPointer(),fff0.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble([11,10,9,8,7,6,5,4,3,2,1,0])
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ ###
+ fcscp=allFMTSLeavesPerCommonSupport1[1][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(ncc)# here all the 16 nodes are taken
+ self.assertTrue(a0.isEqual(DataArrayDouble([(0.,0.,0.),(1.,0.,0.),(2.,0.,0.),(3.,0.,0.),(0.,1.,0.),(1.,1.,0.),(2.,1.,0.),(3.,1.,0.),(0.,2.,0.),(1.,2.,0.),(2.,2.,0.),(3.,2.,0.),(0.,3.,0.),(1.,3.,0.),(2.,3.,0.),(3.,3.,0.)]),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([1,1,5,5,9,9,9,9])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,2,4,8,12,17,22,27])))
+ self.assertTrue(a3.isEqual(DataArrayInt([1,8,1,13,3,2,6,3,3,6,7,3,4,0,4,5,1,4,1,5,6,2,4,6,10,11,7,4,10,14,15,11])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ fff3=allFMTSLeavesPerCommonSupport1[1][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(fff3,mst)
+ fff3.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,fff3.getUndergroundDataArray())
+ self.assertEqual(fff3.getName(),"f3Cell")
+ self.assertNotEqual(v.getHiddenCppPointer(),fff0.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble([-1.1,-3.1,5,4,3,2,1,0])
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ pass
+
+ def test29(self):
+ """ This test focused on HEXA27 cell for which the MED numbering is not equal to the VTK numbering. So here the HEXA27 cell is those in MED file documentation (reference element).
+ """
+ fname="ForMEDReader29.med"
+ coo=DataArrayDouble([[0.,2.,2.],[0.,0.,2.],[2.,0.,2.],[2.,2.,2.],[0.,2.,0.],[0.,0.,0.],[2.,0.,0.],[2.,2.,0.], [0.,1.,2.],[1.,0.,2.],[2.,1.,2.],[1.,2.,2.], [0.,1.,0.],[1.,0.,0.],[2.,1.,0.],[1.,2.,0.], [0.,2.,1.],[0.,0.,1.],[2.,0.,1.],[2.,2.,1.], [1.,1.,2.], [0.,1.,1.],[1.,0.,1.],[2.,1.,1.],[1.,2.,1.], [1.,1.,0.], [1.,1.,1.]])
+ m=MEDCouplingUMesh("mesh",3) ; m.setCoords(coo)
+ m.allocateCells()
+ # MED = [0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26]
+ # VTK = [0,1,2,3,4,5,6,7, 8,9,10,11,12,13,14,15,16,17,18,19,24,22,21,23,20,25,26]
+ m.insertNextCell(NORM_HEXA27,[0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26])
+ fCell=MEDCouplingFieldDouble(ON_CELLS) ; fCell.setName("fCell")
+ arrCell=DataArrayDouble([7.]) ; arrCell.setInfoOnComponent(0,"smth") ; fCell.setArray(arrCell)
+ fCell.setMesh(m)
+ WriteField(fname,fCell,True)
+ refCoo=[-1.,-1.,-1.,-1.,1.,-1.,1.,1.,-1.,1.,-1.,-1.,-1.,-1.,1.,-1.,1.,1.,1.,1.,1.,1.,-1.,1.,-1.,0.,-1.,0.,1.,-1.,1.,0.,-1.,0.,-1.,-1.,-1.,0.,1.,0.,1.,1.,1.,0.,1.,0.,-1.,1.,-1.,-1.,0.,-1.,1.,0.,1.,1.,0.,1.,-1.,0.,0.,0.,-1.,-1.,0.,0.,0.,1.,0.,1.,0.,0.,0.,-1.,0.,0.,0.,1.,0.,0.,0.]
+ weights=[0.1714677640603571,0.27434842249657115,0.1714677640603571,0.27434842249657115,0.43895747599451346,0.27434842249657115,0.1714677640603571,0.27434842249657115,0.1714677640603571,0.27434842249657115,0.43895747599451346,0.27434842249657115,0.43895747599451346,0.7023319615912209,0.43895747599451346,0.27434842249657115,0.43895747599451346,0.27434842249657115,0.1714677640603571,0.27434842249657115,0.1714677640603571,0.27434842249657115,0.43895747599451346,0.27434842249657115,0.1714677640603571,0.27434842249657115,0.1714677640603571]
+ gCoords=[-0.774596669241483,-0.774596669241483,-0.774596669241483,-0.774596669241483,-0.774596669241483,0.0,-0.774596669241483,-0.774596669241483,0.774596669241483,-0.774596669241483,0.0,-0.774596669241483,-0.774596669241483,0.0,0.0,-0.774596669241483,0.0,0.774596669241483,-0.774596669241483,0.774596669241483,-0.774596669241483,-0.774596669241483,0.774596669241483,0.0,-0.774596669241483,0.774596669241483,0.774596669241483,0.0,-0.774596669241483,-0.774596669241483,0.0,-0.774596669241483,0.0,0.0,-0.774596669241483,0.774596669241483,0.0,0.0,-0.774596669241483,0.0,0.0,0.0,0.0,0.0,0.774596669241483,0.0,0.774596669241483,-0.774596669241483,0.0,0.774596669241483,0.0,0.0,0.774596669241483,0.774596669241483,0.774596669241483,-0.774596669241483,-0.774596669241483,0.774596669241483,-0.774596669241483,0.0,0.774596669241483,-0.774596669241483,0.774596669241483,0.774596669241483,0.0,-0.774596669241483,0.774596669241483,0.0,0.0,0.774596669241483,0.0,0.774596669241483,0.774596669241483,0.774596669241483,-0.774596669241483,0.774596669241483,0.774596669241483,0.0,0.774596669241483,0.774596669241483,0.774596669241483]
+ fGauss=MEDCouplingFieldDouble(ON_GAUSS_PT) ; fGauss.setName("fGauss")
+ fGauss.setMesh(m)
+ fGauss.setGaussLocalizationOnType(NORM_HEXA27,refCoo,gCoords,weights)
+ arrGauss=DataArrayDouble(fGauss.getNumberOfTuplesExpected()) ; arrGauss.setInfoOnComponent(0,"gaussc") ; arrGauss.iota()
+ fGauss.setArray(arrGauss)
+ WriteFieldUsingAlreadyWrittenMesh(fname,fGauss)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),2)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),2)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),2)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(a0.isEqual(coo,1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([29])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0])))
+ # the connectivity must be not a iota as declared in m.insertNextCell
+ self.assertTrue(a3.isEqual(DataArrayInt([27,0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,24,22,21,23,20,25,26])))# the test is on this line to check that connectivity has been processed for HEXA27
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ ffCell=allFMTSLeavesPerCommonSupport1[0][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ self.assertEqual(ffCell.getName(),"fCell")
+ self.assertTrue(v.isEqual(arrCell,1e-12)) ; self.assertTrue(v.isEqualWithoutConsideringStr(DataArrayDouble([7.]),1e-12)) ; self.assertEqual(v.getInfoOnComponents(),["smth"])
+ del ffCell
+ #
+ ffGauss=allFMTSLeavesPerCommonSupport1[0][0][1][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffGauss,mst)
+ ffGauss.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffGauss.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffGauss.getUndergroundDataArray().getHiddenCppPointer())
+ self.assertEqual(ffGauss.getName(),"fGauss")
+ self.assertTrue(v.isEqual(arrGauss,1e-12)) ; self.assertTrue(v.isEqualWithoutConsideringStr(DataArrayDouble(range(27)),1e-12)) ; self.assertEqual(v.getInfoOnComponents(),["gaussc"])
+ ffGauss=allFMTSLeavesPerCommonSupport1[0][0][1][0]
+ pass
+
+ def test30(self):
+ """ This test is focused on cartesian meshes. Here the cartesian mesh "CartMesh" has a field on HEXA8 (FieldOnCells) and a field on QUAD4 (FieldOnFaces).
+ So the first one (FieldOnCells) lies on a cartesian mesh whereas the second one lies on unstructured one.
+ """
+ fname="ForMEDReader30.med"
+ c=MEDCouplingCMesh()
+ arrX=DataArrayDouble(3) ; arrX.iota()
+ arrY=DataArrayDouble(4) ; arrY.iota()
+ arrZ=DataArrayDouble(5) ; arrZ.iota()
+ c.setCoords(arrX,arrY,arrZ)
+ c.setName("CartMesh")
+ cc=MEDFileCMesh()
+ cc.setMesh(c)
+ tmpFacesMesh=c.build1SGTSubLevelMesh()
+ famIdFaces=DataArrayInt(98) ; famIdFaces[:36]=-1 ; famIdFaces[36:68]=-2 ; famIdFaces[68:]=-3
+ famIdCells=DataArrayInt(24) ; famIdCells[:]=0
+ #cc.setFamilyFieldArr(0,famIdCells)
+ #cc.setFamilyFieldArr(-1,famIdFaces)
+ cc.addFamily("FacesX",-1) ; cc.addFamily("FacesY",-2) ; cc.addFamily("FacesZ",-3)
+ cc.setFamiliesOnGroup("FacesX1",["FacesX"])
+ cc.setFamiliesOnGroup("FacesY1",["FacesY"])
+ cc.setFamiliesOnGroup("FacesZ1",["FacesZ"])
+ #
+ fmts0=MEDFileFieldMultiTS()
+ fmts1=MEDFileFieldMultiTS()
+ for i in xrange(30):
+ f1ts=MEDFileField1TS()
+ fFaces=MEDCouplingFieldDouble(ON_CELLS) ; fFaces.setName("FieldOnFaces")
+ arr=DataArrayDouble(98) ; arr.iota() ; arr[i]=100.
+ fFaces.setArray(arr)
+ fFaces.setTime(float(i)+0.1,i,-1)
+ fFaces.setMesh(tmpFacesMesh)
+ f1ts.setFieldNoProfileSBT(fFaces)
+ fmts0.pushBackTimeStep(f1ts)
+ #
+ f1ts=MEDFileField1TS()
+ fCells=MEDCouplingFieldDouble(ON_CELLS) ; fCells.setName("FieldOnCells")
+ arr=DataArrayDouble(24) ; arr.iota() ; arr[i%24]=30.
+ fCells.setArray(arr)
+ fCells.setTime(float(i)+0.1,i,-1)
+ fCells.setMesh(c)
+ f1ts.setFieldNoProfileSBT(fCells)
+ fmts1.pushBackTimeStep(f1ts)
+ pass
+ fs=MEDFileFields()
+ fs.pushField(fmts0)
+ fs.pushField(fmts1)
+ cc.write(fname,2)
+ fs.write(fname,0)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),2)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),2)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),2)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[1][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDCMeshMultiLev)) # here CMesh is important
+ (a,b,c),d=mml2.buildVTUArrays()
+ self.assertTrue(d)#d is True because the a,b and c are directly those in the internal data structure
+ self.assertTrue(a.isEqual(arrX,1e-12))
+ self.assertTrue(b.isEqual(arrY,1e-12))
+ self.assertTrue(c.isEqual(arrZ,1e-12))
+ for i in xrange(30):
+ ffCell=allFMTSLeavesPerCommonSupport1[0][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ myarr=DataArrayDouble(24) ; myarr.iota() ; myarr[i%24]=30.
+ self.assertEqual(ffCell.getName(),"FieldOnCells")
+ self.assertTrue(v.isEqual(myarr,1e-12))
+ pass
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[1][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev)) # here UMesh is important
+ ref=ms[0].getImplicitFaceMesh().getCoords().getHiddenCppPointer()
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertEqual(ref,a0.getHiddenCppPointer())
+ self.assertTrue(ncc)
+ self.assertTrue(a1.isEqual(DataArrayByte([9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,105,110,115,120,125,130,135,140,145,150,155,160,165,170,175,180,185,190,195,200,205,210,215,220,225,230,235,240,245,250,255,260,265,270,275,280,285,290,295,300,305,310,315,320,325,330,335,340,345,350,355,360,365,370,375,380,385,390,395,400,405,410,415,420,425,430,435,440,445,450,455,460,465,470,475,480,485])))
+ self.assertTrue(a3.isEqual(DataArrayInt([4,0,12,15,3,4,12,24,27,15,4,24,36,39,27,4,36,48,51,39,4,3,15,18,6,4,15,27,30,18,4,27,39,42,30,4,39,51,54,42,4,6,18,21,9,4,18,30,33,21,4,30,42,45,33,4,42,54,57,45,4,1,13,16,4,4,13,25,28,16,4,25,37,40,28,4,37,49,52,40,4,4,16,19,7,4,16,28,31,19,4,28,40,43,31,4,40,52,55,43,4,7,19,22,10,4,19,31,34,22,4,31,43,46,34,4,43,55,58,46,4,2,14,17,5,4,14,26,29,17,4,26,38,41,29,4,38,50,53,41,4,5,17,20,8,4,17,29,32,20,4,29,41,44,32,4,41,53,56,44,4,8,20,23,11,4,20,32,35,23,4,32,44,47,35,4,44,56,59,47,4,0,12,13,1,4,12,24,25,13,4,24,36,37,25,4,36,48,49,37,4,1,13,14,2,4,13,25,26,14,4,25,37,38,26,4,37,49,50,38,4,3,15,16,4,4,15,27,28,16,4,27,39,40,28,4,39,51,52,40,4,4,16,17,5,4,16,28,29,17,4,28,40,41,29,4,40,52,53,41,4,6,18,19,7,4,18,30,31,19,4,30,42,43,31,4,42,54,55,43,4,7,19,20,8,4,19,31,32,20,4,31,43,44,32,4,43,55,56,44,4,9,21,22,10,4,21,33,34,22,4,33,45,46,34,4,45,57,58,46,4,10,22,23,11,4,22,34,35,23,4,34,46,47,35,4,46,58,59,47,4,0,1,4,3,4,3,4,7,6,4,6,7,10,9,4,1,2,5,4,4,4,5,8,7,4,7,8,11,10,4,12,13,16,15,4,15,16,19,18,4,18,19,22,21,4,13,14,17,16,4,16,17,20,19,4,19,20,23,22,4,24,25,28,27,4,27,28,31,30,4,30,31,34,33,4,25,26,29,28,4,28,29,32,31,4,31,32,35,34,4,36,37,40,39,4,39,40,43,42,4,42,43,46,45,4,37,38,41,40,4,40,41,44,43,4,43,44,47,46,4,48,49,52,51,4,51,52,55,54,4,54,55,58,57,4,49,50,53,52,4,52,53,56,55,4,55,56,59,58])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ for i in xrange(30):
+ ffCell=allFMTSLeavesPerCommonSupport1[1][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ myarr=DataArrayDouble(98) ; myarr.iota() ; myarr[i]=100.
+ self.assertEqual(ffCell.getName(),"FieldOnFaces")
+ self.assertTrue(v.isEqual(myarr,1e-12))
+ pass
+ pass
+
+ def test31(self):
+ """non regression test of EDF 7972"""
+ fname="ForMEDReader31.med"
+ c=MEDCouplingCMesh()
+ arrX=DataArrayDouble(3) ; arrX.iota()
+ arrY=DataArrayDouble(4) ; arrY.iota()
+ arrZ=DataArrayDouble(5) ; arrZ.iota()
+ c.setCoords(arrX,arrY,arrZ)
+ c.setName("CartMesh")
+ cc=MEDFileCMesh()
+ cc.setMesh(c)
+ famIdCells=DataArrayInt(24) ; famIdCells[:]=0
+ cc.setFamilyFieldArr(0,famIdCells)
+ #cc.setFamilyFieldArr(-1,famIdFaces)
+ cc.addFamily("FacesX",-1) ; cc.addFamily("FacesY",-2) ; cc.addFamily("FacesZ",-3)
+ cc.setFamiliesOnGroup("FacesX1",["FacesX"])
+ cc.setFamiliesOnGroup("FacesY1",["FacesY"])
+ cc.setFamiliesOnGroup("FacesZ1",["FacesZ"])
+ fmts0=MEDFileFieldMultiTS()
+ fmts1=MEDFileFieldMultiTS()
+ pfl=DataArrayInt(11) ; pfl.iota() ; pfl.setName("PflOnHECA8")
+ for i in xrange(30):
+ f1ts=MEDFileField1TS()
+ fFaces=MEDCouplingFieldDouble(ON_CELLS) ; fFaces.setName("FieldOnCells")
+ arr=DataArrayDouble(11) ; arr.iota() ; arr[i%11]=100.
+ fFaces.setArray(arr)
+ fFaces.setTime(float(i)+0.1,i,-1)
+ fFaces.setMesh(c.buildUnstructured()[:11])
+ f1ts.setFieldProfile(fFaces,cc,0,pfl)# here, a test is done to check that "NORM_HEXA8" string is not 30 times appended at the end of pfl name.
+ self.assertEqual("PflOnHECA8",pfl.getName())
+ fmts0.pushBackTimeStep(f1ts)
+ pass
+ fs=MEDFileFields()
+ fs.pushField(fmts0)
+ cc.write(fname,2)
+ fs.write(fname,0)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),1)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),1)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev)) # here UMesh is important
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc)# here ncc=False because the coordinates are not in ms neither in children. This is the most important line in the test.
+ self.assertTrue(a0.isEqual(DataArrayDouble([0.,0.,0.,1.,0.,0.,2.,0.,0.,0.,1.,0.,1.,1.,0.,2.,1.,0.,0.,2.,0.,1.,2.,0.,2.,2.,0.,0.,3.,0.,1.,3.,0.,2.,3.,0.,0.,0.,1.,1.,0.,1.,2.,0.,1.,0.,1.,1.,1.,1.,1.,2.,1.,1.,0.,2.,1.,1.,2.,1.,2.,2.,1.,0.,3.,1.,1.,3.,1.,2.,3.,1.,0.,0.,2.,1.,0.,2.,2.,0.,2.,0.,1.,2.,1.,1.,2.,2.,1.,2.,0.,2.,2.,1.,2.,2.,2.,2.,2.,0.,3.,2.,1.,3.,2.,2.,3.,2.,0.,0.,3.,1.,0.,3.,2.,0.,3.,0.,1.,3.,1.,1.,3.,2.,1.,3.,0.,2.,3.,1.,2.,3.,2.,2.,3.,0.,3.,3.,1.,3.,3.,2.,3.,3.,0.,0.,4.,1.,0.,4.,2.,0.,4.,0.,1.,4.,1.,1.,4.,2.,1.,4.,0.,2.,4.,1.,2.,4.,2.,2.,4.,0.,3.,4.,1.,3.,4.,2.,3.,4.],60,3),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([12,12,12,12,12,12,12,12,12,12,12])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,9,18,27,36,45,54,63,72,81,90])))
+ self.assertTrue(a3.isEqual(DataArrayInt([8,1,0,3,4,13,12,15,16,8,2,1,4,5,14,13,16,17,8,4,3,6,7,16,15,18,19,8,5,4,7,8,17,16,19,20,8,7,6,9,10,19,18,21,22,8,8,7,10,11,20,19,22,23,8,13,12,15,16,25,24,27,28,8,14,13,16,17,26,25,28,29,8,16,15,18,19,28,27,30,31,8,17,16,19,20,29,28,31,32,8,19,18,21,22,31,30,33,34])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ for i in xrange(30):
+ ffCell=allFMTSLeavesPerCommonSupport1[0][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ # self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer()) # to be improved... maybe this line could be true
+ myarr=DataArrayDouble(11) ; myarr.iota() ; myarr[i%11]=100.
+ self.assertEqual(ffCell.getName(),"FieldOnCells")
+ self.assertTrue(v.isEqual(myarr,1e-12))
+ pass
+ pass
+
+ def test32(self):
+ """ This test is close to test30 except that here the profiles on dim-1 of structured mesh is considered here."""
+ fname="ForMEDReader32.med"
+ c=MEDCouplingCMesh()
+ arrX=DataArrayDouble(3) ; arrX.iota()
+ arrY=DataArrayDouble(4) ; arrY.iota()
+ arrZ=DataArrayDouble(5) ; arrZ.iota()
+ c.setCoords(arrX,arrY,arrZ)
+ c.setName("CartMesh")
+ cc=MEDFileCMesh()
+ cc.setMesh(c)
+ tmpFacesMesh=c.build1SGTSubLevelMesh()
+ famIdFaces=DataArrayInt(98) ; famIdFaces[:36]=-1 ; famIdFaces[36:68]=-2 ; famIdFaces[68:]=-3
+ famIdCells=DataArrayInt(24) ; famIdCells[:]=0
+ cc.setFamilyFieldArr(0,famIdCells)
+ #cc.setFamilyFieldArr(-1,famIdFaces)
+ cc.addFamily("FacesX",-1) ; cc.addFamily("FacesY",-2) ; cc.addFamily("FacesZ",-3)
+ cc.setFamiliesOnGroup("FacesX1",["FacesX"])
+ cc.setFamiliesOnGroup("FacesY1",["FacesY"])
+ cc.setFamiliesOnGroup("FacesZ1",["FacesZ"])
+ fmts0=MEDFileFieldMultiTS()
+ fmts1=MEDFileFieldMultiTS()
+ pfl=DataArrayInt(31) ; pfl.iota() ; pfl.setName("PflOnQUAD4")
+ for i in xrange(30):
+ f1ts=MEDFileField1TS()
+ fFaces=MEDCouplingFieldDouble(ON_CELLS) ; fFaces.setName("FieldOnFaces")
+ arr=DataArrayDouble(31) ; arr.iota() ; arr[i]=100.
+ fFaces.setArray(arr)
+ fFaces.setTime(float(i)+0.1,i,-1)
+ fFaces.setMesh(tmpFacesMesh[:31])
+ f1ts.setFieldProfile(fFaces,cc,-1,pfl)# here, a test is done to check that "NORM_QUAD4" string is not 30 times appended at the end of pfl name.
+ self.assertEqual("PflOnQUAD4",pfl.getName())
+ fmts0.pushBackTimeStep(f1ts)
+ #
+ f1ts=MEDFileField1TS()
+ fCells=MEDCouplingFieldDouble(ON_CELLS) ; fCells.setName("FieldOnCells")
+ arr=DataArrayDouble(24) ; arr.iota() ; arr[i%24]=30.
+ fCells.setArray(arr)
+ fCells.setTime(float(i)+0.1,i,-1)
+ fCells.setMesh(c)
+ f1ts.setFieldNoProfileSBT(fCells)
+ fmts1.pushBackTimeStep(f1ts)
+ pass
+ fs=MEDFileFields()
+ fs.pushField(fmts0)
+ fs.pushField(fmts1)
+ cc.write(fname,2)
+ fs.write(fname,0)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),2)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),2)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),2)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[1][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDCMeshMultiLev)) # here CMesh is important
+ (a,b,c),d=mml2.buildVTUArrays()
+ self.assertTrue(d)#d is True because the a,b and c are directly those in the internal data structure
+ self.assertTrue(a.isEqual(arrX,1e-12))
+ self.assertTrue(b.isEqual(arrY,1e-12))
+ self.assertTrue(c.isEqual(arrZ,1e-12))
+ for i in xrange(30):
+ ffCell=allFMTSLeavesPerCommonSupport1[0][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ myarr=DataArrayDouble(24) ; myarr.iota() ; myarr[i%24]=30.
+ self.assertEqual(ffCell.getName(),"FieldOnCells")
+ self.assertTrue(v.isEqual(myarr,1e-12))
+ pass
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[1][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev)) # here UMesh is important
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(ncc)# True because, the coords are computed by the implicit unstructured level -1 structured mesh
+ self.assertTrue(a0.isEqual(DataArrayDouble([0.,0.,0.,1.,0.,0.,2.,0.,0.,0.,1.,0.,1.,1.,0.,2.,1.,0.,0.,2.,0.,1.,2.,0.,2.,2.,0.,0.,3.,0.,1.,3.,0.,2.,3.,0.,0.,0.,1.,1.,0.,1.,2.,0.,1.,0.,1.,1.,1.,1.,1.,2.,1.,1.,0.,2.,1.,1.,2.,1.,2.,2.,1.,0.,3.,1.,1.,3.,1.,2.,3.,1.,0.,0.,2.,1.,0.,2.,2.,0.,2.,0.,1.,2.,1.,1.,2.,2.,1.,2.,0.,2.,2.,1.,2.,2.,2.,2.,2.,0.,3.,2.,1.,3.,2.,2.,3.,2.,0.,0.,3.,1.,0.,3.,2.,0.,3.,0.,1.,3.,1.,1.,3.,2.,1.,3.,0.,2.,3.,1.,2.,3.,2.,2.,3.,0.,3.,3.,1.,3.,3.,2.,3.,3.,0.,0.,4.,1.,0.,4.,2.,0.,4.,0.,1.,4.,1.,1.,4.,2.,1.,4.,0.,2.,4.,1.,2.,4.,2.,2.,4.,0.,3.,4.,1.,3.,4.,2.,3.,4.],60,3),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75,80,85,90,95,100,105,110,115,120,125,130,135,140,145,150])))
+ self.assertTrue(a3.isEqual(DataArrayInt([4,0,12,15,3,4,12,24,27,15,4,24,36,39,27,4,36,48,51,39,4,3,15,18,6,4,15,27,30,18,4,27,39,42,30,4,39,51,54,42,4,6,18,21,9,4,18,30,33,21,4,30,42,45,33,4,42,54,57,45,4,1,13,16,4,4,13,25,28,16,4,25,37,40,28,4,37,49,52,40,4,4,16,19,7,4,16,28,31,19,4,28,40,43,31,4,40,52,55,43,4,7,19,22,10,4,19,31,34,22,4,31,43,46,34,4,43,55,58,46,4,2,14,17,5,4,14,26,29,17,4,26,38,41,29,4,38,50,53,41,4,5,17,20,8,4,17,29,32,20,4,29,41,44,32])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ a6,a7=mml2.retrieveFamilyIdsOnCells()
+ self.assertTrue(a6 is None)
+ self.assertTrue(a7)
+ for i in xrange(30):
+ ffCell=allFMTSLeavesPerCommonSupport1[1][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ myarr=DataArrayDouble(31) ; myarr.iota() ; myarr[i]=100.
+ self.assertEqual(ffCell.getName(),"FieldOnFaces")
+ self.assertTrue(v.isEqual(myarr,1e-12))
+ pass
+ pass
+
+ def test33(self):
+ """Non regression test concerning polygons. Thanks Adrien. This bug can't be shown by simply reading an displaying a MED file containing only polygons. A filter must be applied on it to show it. The a2 array was responsible of that bug."""
+ fname="ForMEDReader33.med"
+ fieldName="ACellField"
+ coo=DataArrayDouble([(5.5,0.5),(5.5,-0.5),(6.5,0.5),(6.5,-0.5),(6.5,1.5),(7.5,0.5),(7.5,-0.5),(7.5,1.5),(7.5,2.5),(8.5,0.5),(8.5,-0.5),(8.5,1.5),(8.5,2.5),(8.5,3.5),(8.55,0.5),(8.55,-0.5),(8.55,1.5),(8.55,2.5),(8.55,3.5)])
+ m=MEDCouplingUMesh("mesh",2)
+ m.setCoords(coo)
+ m.allocateCells()
+ for i,c in enumerate([(1,0,2,3),(3,2,5,6),(2,4,7,5),(6,5,9,10),(5,7,11,9),(7,8,12,11),(10,9,14,15),(9,11,16,14),(11,12,17,16),(12,13,18,17)]):
+ if i<6:
+ typ=NORM_QUAD4
+ pass
+ else:
+ typ=NORM_POLYGON
+ pass
+ m.insertNextCell(typ,c)
+ pass
+ mm=MEDFileUMesh()
+ mm.setMeshAtLevel(0,m)
+ mm.write(fname,2)
+ for i in xrange(15):
+ fCell0=MEDCouplingFieldDouble(ON_CELLS) ; fCell0.setTime(float(i)+0.1,i,0)
+ fCell0.setName(fieldName) ; fCell0.setMesh(m)
+ arr=DataArrayDouble(m.getNumberOfCells()) ; arr.iota(0) ; arr[i%10]=100.
+ fCell0.setArray(arr) ; arr.setInfoOnComponents(["Comp1 [m]"])
+ fCell0.checkConsistencyLight()
+ WriteFieldUsingAlreadyWrittenMesh(fname,fCell0)
+ pass
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),1)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),1)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc)# false beacause 2D in MED file
+ self.assertTrue(a0.isEqual(DataArrayDouble([(5.5,0.5,0),(5.5,-0.5,0),(6.5,0.5,0),(6.5,-0.5,0),(6.5,1.5,0),(7.5,0.5,0),(7.5,-0.5,0),(7.5,1.5,0),(7.5,2.5,0),(8.5,0.5,0),(8.5,-0.5,0),(8.5,1.5,0),(8.5,2.5,0),(8.5,3.5,0),(8.55,0.5,0),(8.55,-0.5,0),(8.55,1.5,0),(8.55,2.5,0),(8.55,3.5,0)]),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([9,9,9,9,9,9,7,7,7,7])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,5,10,15,20,25,30,35,40,45])))# the bug was here.
+ self.assertTrue(a3.isEqual(DataArrayInt([4,1,0,2,3,4,3,2,5,6,4,2,4,7,5,4,6,5,9,10,4,5,7,11,9,4,7,8,12,11,4,10,9,14,15,4,9,11,16,14,4,11,12,17,16,4,12,13,18,17])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ for i in xrange(15):
+ ffCell=allFMTSLeavesPerCommonSupport1[0][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ myarr=DataArrayDouble(10) ; myarr.iota() ; myarr[i%10]=100. ; myarr.setInfoOnComponent(0,"Comp1 [m]")
+ self.assertEqual(ffCell.getName(),fieldName)
+ self.assertTrue(v.isEqual(myarr,1e-12))
+ pass
+ pass
+
+ def test34(self):
+ """ This test is the thirs ultimate test (base on test12) for the profiles with gauss points.
+ This test highlight the hidden imp linked to bug #8655.
+ This test is close to test11 but here a 2nd field on cells without profile. So here the mesh is expected to be the same than m.
+ """
+ fname="ForMEDReader34.med"
+ m=MEDCouplingCMesh("mesh")
+ arr=DataArrayDouble(5) ; arr.iota()
+ m.setCoords(arr,arr)
+ m=m.buildUnstructured() ; m.getCoords().setInfoOnComponents(["XX [m]","YYY [km]"])
+ mm=MEDFileUMesh() ; mm.setMeshes([m])
+ #
+ fieldName0="zeField0"
+ fieldName1="zeField1"
+ fs0=MEDFileFieldMultiTS() ; fs1=MEDFileFieldMultiTS()
+ for i in xrange(5):
+ f=MEDFileField1TS()
+ fNode=MEDCouplingFieldDouble(ON_GAUSS_PT) ; fNode.setTime(float(i),i,0)
+ fNode.setName(fieldName0) ; fNode.setMesh(m)
+ fNode.setGaussLocalizationOnCells([0,2,3,4,7,15],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7],[0.8,0.2])
+ fNode.setGaussLocalizationOnCells([1,5,8,9],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7,0.1,0.1,0.2,0.2,0.3,0.3],[0.8,0.05,0.1,0.04,0.01])
+ fNode.setGaussLocalizationOnCells([6,10,13],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7,0.1,0.1,0.2,0.2],[0.8,0.05,0.1,0.04])
+ fNode.setGaussLocalizationOnCells([11,12,14],[-1.,-1.,1.,-1.,1.,1.,-1.,1.],[0.5,0.5,0.7,0.7,0.1,0.1,0.2,0.2,0.3,0.3,0.4,0.4,0.8,0.8],[0.8,0.05,0.1,0.01,0.02,0.005,0.005])
+ arr=DataArrayDouble(2*(2*6+5*4+4*3+7*3)) ; arr.iota(0+1000*i) ; arr.rearrange(2)
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_0 [m]","Com2_0 [s^2]"]) ; fNode.checkConsistencyLight()
+ f.setFieldNoProfileSBT(fNode)
+ fs0.pushBackTimeStep(f)
+ #
+ f=MEDFileField1TS()
+ fNode=MEDCouplingFieldDouble(ON_CELLS) ; fNode.setTime(float(i),i,0)
+ fNode.setName(fieldName1) ; fNode.setMesh(m)
+ arr=DataArrayDouble(2*16) ; arr.iota(300+1000*i) ; arr.rearrange(2)
+ fNode.setArray(arr) ; arr.setInfoOnComponents(["Comp1_1 [m]","Com2_1 [s^2]"]) ; fNode.checkConsistencyLight()
+ f.setFieldNoProfileSBT(fNode)
+ fs1.pushBackTimeStep(f)
+ pass
+ mm.write(fname,2)
+ fs0.write(fname,0) ; fs1.write(fname,0)
+ a0Exp=mm.getCoords().deepCopy()
+ del m,mm,fs0,fs1,f,fNode
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ if itmp.presenceOfMultiDiscPerGeoType():
+ tmp2=itmp.splitMultiDiscrPerGeoTypes()
+ for iii,itmp2 in enumerate(tmp2):
+ name="%s_%i"%(itmp2.getName(),iii)
+ itmp2.setName(name)
+ allFMTSLeavesToDisplay2.append(itmp2)
+ pass
+ pass
+ else:
+ allFMTSLeavesToDisplay2.append(itmp)
+ pass
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ # Here 2 MED fields in input and at the end 5 ! 1+4 ! 4 fields have been built from zeField0 due to subspliting per dis / per geo type
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),5)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1) # one time serie here : because the 2 fields are defined on the same time steps
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),5)
+ allFMTSLeavesPerCommonSupport=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesPerTimeSeries[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport),5)
+ for i in xrange(5):
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport[i][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport[4][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc)
+ self.assertTrue(a0.isEqual(a0Exp.changeNbOfComponents(3,0.),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([9,9,9,9,9,9,9,9,9,9,9,9,9,9,9,9])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,5,10,15,20,25,30,35,40,45,50,55,60,65,70,75])))
+ self.assertTrue(a3.isEqual(DataArrayInt([4,1,0,5,6,4,2,1,6,7,4,3,2,7,8,4,4,3,8,9,4,6,5,10,11,4,7,6,11,12,4,8,7,12,13,4,9,8,13,14,4,11,10,15,16,4,12,11,16,17,4,13,12,17,18,4,14,13,18,19,4,16,15,20,21,4,17,16,21,22,4,18,17,22,23,4,19,18,23,24]))) # <- here the mesh is NOT renumbered : the mesh is equal to m
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ for i in xrange(1,5):
+ self.assertTrue((fcscp.isDataSetSupportEqualToThePreviousOne(i,fields)))
+ pass
+ for i in xrange(5):
+ f=allFMTSLeavesPerCommonSupport[0][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(f,mst)
+ f.loadArraysIfNecessary()
+ v=mml.buildDataArray(fsst,fields,f.getUndergroundDataArray())
+ self.assertEqual(f.getName(),fieldName0)
+ vExp=DataArrayDouble([(0.,1.),(2.,3.),(14.,15.),(16.,17.),(18.,19.),(20.,21.),(22.,23.),(24.,25.),(44.,45.),(46.,47.),(126.,127.),(128.,129.)])
+ vExp.setInfoOnComponents(['Comp1_0 [m]','Com2_0 [s^2]'])
+ vExp+=i*1000
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ #
+ f=allFMTSLeavesPerCommonSupport[1][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(f,mst)
+ f.loadArraysIfNecessary()
+ v=mml.buildDataArray(fsst,fields,f.getUndergroundDataArray())
+ self.assertEqual(f.getName(),fieldName0)
+ vExp=DataArrayDouble([(4.,5.),(6.,7.),(8.,9.),(10.,11.),(12.,13.),(26.,27.),(28.,29.),(30.,31.),(32.,33.),(34.,35.),(48.,49.),(50.,51.),(52.,53.),(54.,55.),(56.,57.),(58.,59.),(60.,61.),(62.,63.),(64.,65.),(66.,67.)])
+ vExp.setInfoOnComponents(['Comp1_0 [m]','Com2_0 [s^2]'])
+ vExp+=i*1000
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ #
+ f=allFMTSLeavesPerCommonSupport[2][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(f,mst)
+ f.loadArraysIfNecessary()
+ v=mml.buildDataArray(fsst,fields,f.getUndergroundDataArray())
+ self.assertEqual(f.getName(),fieldName0)
+ vExp=DataArrayDouble([(36.,37.),(38.,39.),(40.,41.),(42.,43.),(68.,69.),(70.,71.),(72.,73.),(74.,75.),(104.,105.),(106.,107.),(108.,109.),(110.,111.)])
+ vExp.setInfoOnComponents(['Comp1_0 [m]','Com2_0 [s^2]'])
+ vExp+=i*1000
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ #
+ f=allFMTSLeavesPerCommonSupport[3][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(f,mst)
+ f.loadArraysIfNecessary()
+ v=mml.buildDataArray(fsst,fields,f.getUndergroundDataArray())
+ self.assertEqual(f.getName(),fieldName0)
+ vExp=DataArrayDouble([(76,77),(78,79),(80,81),(82,83),(84,85),(86,87),(88,89),(90,91),(92,93),(94,95),(96,97),(98,99),(100,101),(102,103),(112,113),(114,115),(116,117),(118,119),(120,121),(122,123),(124,125)])
+ vExp.setInfoOnComponents(['Comp1_0 [m]','Com2_0 [s^2]'])
+ vExp+=i*1000
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ #
+ f=allFMTSLeavesPerCommonSupport[4][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(f,mst)
+ f.loadArraysIfNecessary()
+ v=mml.buildDataArray(fsst,fields,f.getUndergroundDataArray())
+ self.assertEqual(f.getName(),fieldName1)
+ self.assertEqual(v.getHiddenCppPointer(),f.getUndergroundDataArray().getHiddenCppPointer())
+ vExp=DataArrayDouble(16*2) ; vExp.iota(300+i*1000) ; vExp.rearrange(2) ; vExp.setInfoOnComponents(['Comp1_1 [m]','Com2_1 [s^2]'])
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ pass
+ pass
+
+ def test35(self):
+ """ Emulate MEDReader in // mode context. Here a Simple mesh having more nodes than really needed. This test focuses on that point particulary."""
+ fname="ForMEDReader35.med"
+ arrX=DataArrayDouble(7) ; arrX.iota()
+ arrY=DataArrayDouble([0.,1.])
+ m=MEDCouplingCMesh() ; m.setCoords(arrX,arrY) ; m=m.buildUnstructured() ; m=m[[0,5,1,4,2,3]] ; m.changeSpaceDimension(3,0.) ; m.setName("Mesh")
+ f=MEDCouplingFieldDouble(ON_CELLS) ; f.setMesh(m) ; f.setName("Field") ; f.setArray(DataArrayDouble([(0.1,1.1),(2.1,3.1),(4.1,5.1),(6.1,7.1),(8.1,9.1),(10.1,11.1)])) ; f.getArray().setInfoOnComponents(["aa","bbb"])
+ WriteUMesh(fname,m,True)
+ WriteFieldUsingAlreadyWrittenMesh(fname,f)
+ ########## GO for reading in MEDReader,by not loading all. Mesh is fully loaded but not fields values
+ ms=MEDFileMeshes() # here we reproduce what is done by ParaMEDFileMeshes.ParaNew
+ ms.pushMesh(MEDFileUMesh.LoadPartOf(fname,"Mesh",[NORM_QUAD4],[0,2,1],-1,-1));
+ ms[0].zipCoords()
+ ms.cartesianizeMe()
+ #
+ fields=MEDFileFields.LoadPartOf(fname,False,ms);
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ if itmp.presenceOfMultiDiscPerGeoType():
+ tmp2=itmp.splitMultiDiscrPerGeoTypes()
+ for iii,itmp2 in enumerate(tmp2):
+ name="%s_%i"%(itmp2.getName(),iii)
+ itmp2.setName(name)
+ allFMTSLeavesToDisplay2.append(itmp2)
+ pass
+ pass
+ else:
+ allFMTSLeavesToDisplay2.append(itmp)
+ pass
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ #
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),1)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1) # one time serie here : because the 2 fields are defined on the same time steps
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),1)
+ allFMTSLeavesPerCommonSupport=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesPerTimeSeries[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport),1)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport[0][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ #
+ fcscp=allFMTSLeavesPerCommonSupport[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(ncc)
+ self.assertTrue(a0.isEqual(m.getCoords()[[0,1,5,6,7,8,12,13]],1e-12))# <- the aim of the test
+ self.assertTrue(a1.isEqual(DataArrayByte([9,9])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,5])))
+ self.assertTrue(a3.isEqual(DataArrayInt([4,1,0,4,5,4,3,2,6,7])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ f2=allFMTSLeavesPerCommonSupport[0][0][0][0]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(f2,mst)
+ f2.loadArraysIfNecessary()
+ v=mml.buildDataArray(fsst,fields,f2.getUndergroundDataArray())
+ self.assertEqual(f2.getName(),f.getName())
+ vExp=DataArrayDouble([(0.1,1.1),(2.1,3.1)])
+ vExp.setInfoOnComponents(['aa','bbb'])
+ self.assertTrue(v.isEqual(vExp,1e-12))
+ pass
+
+ def test36(self):
+ """Bug EDF11027. Here mesh at level 0 (TRI3) does not fetch all the nodes. Level -1 (SEG2) does not fetch all the nodes neither. But all TRI3 + all SEG2 fetch all nodes.
+ aaa field on GAUSSPoints lying only on TRI3 share the same support than profile node field ccc.
+ But bbb field on all nodes is not on the same support. Past optimization that make the assumtion a support on all lev0 cells lies on all nodes is now over."""
+ meshName="mesh"
+ fname="ForMEDReader36.med"
+ c=DataArrayDouble([(0,0),(1,0),(1,1),(0,1),(2,0),(-1,0),(1,2)])
+ m0=MEDCoupling1SGTUMesh(meshName,NORM_TRI3)
+ m0.setCoords(c)
+ m0.setNodalConnectivity(DataArrayInt([0,2,1,3,2,0,2,4,1]))
+ mm=MEDFileUMesh()
+ mm[0]=m0
+ m1=MEDCoupling1SGTUMesh(meshName,NORM_SEG2)
+ m1.setCoords(c)
+ m1.setNodalConnectivity(DataArrayInt([5,0,0,3,3,2,2,6]))
+ mm[-1]=m1
+ #
+ zeTime=(1.1,2,3)
+ ff1=MEDFileField1TS()
+ f1=MEDCouplingFieldDouble(ON_NODES) ; f1.setMesh(m0)
+ arr=DataArrayDouble(7) ; arr.iota(2000)
+ f1.setArray(arr)
+ f1.setName("bbb")
+ f1.checkConsistencyLight()
+ f1.setTime(*zeTime)
+ ff1.setFieldNoProfileSBT(f1)
+ #
+ ff2=MEDFileField1TS()
+ f2=MEDCouplingFieldDouble(ON_GAUSS_NE) ; f2.setMesh(m0)
+ arr=DataArrayDouble(9) ; arr.iota(4000)
+ f2.setArray(arr)
+ f2.setName("ddd")
+ f2.checkConsistencyLight()
+ f2.setTime(*zeTime)
+ ff2.setFieldNoProfileSBT(f2)
+ #
+ ff3=MEDFileField1TS()
+ f3=MEDCouplingFieldDouble(ON_GAUSS_PT) ; f3.setMesh(m0)
+ f3.setGaussLocalizationOnType(NORM_TRI3,[0,0,1,0,0,1],[0.333333,0.333333],[0.5])
+ arr=DataArrayDouble(3) ; arr.iota(1000)
+ f3.setArray(arr)
+ f3.checkConsistencyLight()
+ f3.setTime(*zeTime)
+ f3.setName("aaa")
+ ff3.setFieldNoProfileSBT(f3)
+ #
+ ff4=MEDFileField1TS()
+ m0d=m0.deepCopy() ; m0d.zipCoords()
+ f4=MEDCouplingFieldDouble(ON_NODES) ; f4.setMesh(m0d)
+ arr=DataArrayDouble(5) ; arr.iota(3000)
+ f4.setArray(arr)
+ f4.setName("ccc")
+ f4.checkConsistencyLight()
+ f4.setTime(*zeTime)
+ pfl=DataArrayInt([0,1,2,3,4]) ; pfl.setName("PFL")
+ ff4.setFieldProfile(f4,mm,0,pfl)
+ #
+ mm.write(fname,2)
+ ff3.write(fname,0)
+ ff1.write(fname,0)
+ ff4.write(fname,0)
+ ###
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),3)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries[0]),3)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),2)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[0][0]),2)
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1[1][0]),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc)# here ncc=False because the coordinates are not in ms neither in children.
+ self.assertTrue(a0.isEqual(DataArrayDouble([(0,0,0),(1,0,0),(1,1,0),(0,1,0),(2,0,0)]),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([5,5,5])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,4,8])))
+ self.assertTrue(a3.isEqual(DataArrayInt([3,0,2,1,3,3,2,0,3,2,4,1])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ for i in xrange(1):
+ ffCell=allFMTSLeavesPerCommonSupport1[0][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ v.isEqual(DataArrayDouble([1000,1001,1002]),1e-12)
+ #
+ ffCell=allFMTSLeavesPerCommonSupport1[0][0][1][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ v.isEqual(DataArrayDouble([3000,3001,3002,3003,3004]),1e-12)
+ pass
+ fcscp=allFMTSLeavesPerCommonSupport1[1][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(not ncc)# here ncc=False because the coordinates are not in ms neither in children.
+ self.assertTrue(a0.isEqual(DataArrayDouble([(0,0,0),(1,0,0),(1,1,0),(0,1,0),(2,0,0),(-1,0,0),(1,2,0)]),1e-12))
+ self.assertTrue(a1.isEqual(DataArrayByte([5,5,5,3,3,3,3])))
+ self.assertTrue(a2.isEqual(DataArrayInt([0,4,8,12,15,18,21])))
+ self.assertTrue(a3.isEqual(DataArrayInt([3,0,2,1,3,3,2,0,3,2,4,1,2,5,0,2,0,3,2,3,2,2,2,6])))
+ self.assertTrue(a4 is None)
+ self.assertTrue(a5 is None)
+ for i in xrange(1):
+ ffCell=allFMTSLeavesPerCommonSupport1[1][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ v.isEqual(DataArrayDouble([2000,2001,2002,2003,2004,2005,2006]),1e-12)
+ pass
+ pass
+
+ def test37(self):
+ """ Introduction of non cartesian meshes management. Here cylindrical."""
+ fname="ForMEDReader37.med"
+ meshName="mesh"
+ description="Cylindrical grid"
+ comps=["X [cm]","Y [cm]","Z [cm]"]
+ arrX=DataArrayDouble(3) ; arrX.iota() ; arrX*=0.8 ; arrX.setInfoOnComponent(0,comps[0])
+ arrY=DataArrayDouble(4) ; arrY.iota() ; arrY*=pi/(len(arrY)-1) ; arrY.setInfoOnComponent(0,comps[1])
+ arrZ=DataArrayDouble(5) ; arrZ.iota() ; arrZ*=1.6 ; arrZ-=8. ; arrZ.setInfoOnComponent(0,comps[2])
+ m=MEDCouplingCMesh() ; m.setCoords(arrX,arrY,arrZ) ; m.setName(meshName)
+ mm=MEDFileCMesh() ; mm.setMesh(m) ; mm.setDescription(description)
+ mm.setAxisType(AX_CYL) # the test is here !
+ f=MEDCouplingFieldDouble(ON_CELLS) ; f.setMesh(m) ; f.setName("Field")
+ arr=DataArrayDouble(m.getNumberOfCells()) ; arr.iota() ; arr*=0.1 ; f.setArray(arr) ; f.checkConsistencyLight()
+ ff=MEDFileField1TS() ; ff.setFieldNoProfileSBT(f)
+ fmts=MEDFileFieldMultiTS() ; fmts.pushBackTimeStep(ff)
+ #
+ ms=MEDFileMeshes() ; ms.pushMesh(mm)
+ fields=MEDFileFields() ; fields.pushField(fmts)
+ ms.write(fname,2) ; fields.write(fname,0)
+ #
+ del mm,fmts,fields,ms
+ ms=MEDFileMeshes(fname)
+ fields=MEDFileFields(fname,False)
+ ms.cartesianizeMe()
+ #
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ #
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),1)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDCurveLinearMeshMultiLev))# <- hehe it is a CurveLinear no more a CMesh !
+ a,b,c=mml2.buildVTUArrays()
+ self.assertTrue(c)# the array is thoose in structure
+ ref_a=DataArrayDouble([0.,0.,-8.,0.8,0.,-8.,1.6,0.,-8.,0.,0.,-8.,0.4,0.6928203230275509,-8.,0.8,1.3856406460551018,-8.,-0.,0.,-8.,-0.4,0.692820323027551,-8.,-0.8,1.385640646055102,-8.,-0.,0.,-8.,-0.8,0.,-8.,-1.6,0.,-8.,0.,0.,-6.4,0.8,0.,-6.4,1.6,0.,-6.4,0.,0.,-6.4,0.4,0.6928203230275509,-6.4,0.8,1.3856406460551018,-6.4,-0.,0.,-6.4,-0.4,0.692820323027551,-6.4,-0.8,1.385640646055102,-6.4,-0.,0.,-6.4,-0.8,0.,-6.4,-1.6,0.,-6.4,0.,0.,-4.8,0.8,0.,-4.8,1.6,0.,-4.8,0.,0.,-4.8,0.4,0.6928203230275509,-4.8,0.8,1.3856406460551018,-4.8,-0.,0.,-4.8,-0.4,0.692820323027551,-4.8,-0.8,1.385640646055102,-4.8,-0.,0.,-4.8,-0.8,0.,-4.8,-1.6,0.,-4.8,0.,0.,-3.2,0.8,0.,-3.2,1.6,0.,-3.2,0.,0.,-3.2,0.4,0.6928203230275509,-3.2,0.8,1.3856406460551018,-3.2,-0.,0.,-3.2,-0.4,0.692820323027551,-3.2,-0.8,1.385640646055102,-3.2,-0.,0.,-3.2,-0.8,0.,-3.2,-1.6,0.,-3.2,0.,0.,-1.6,0.8,0.,-1.6,1.6,0.,-1.6,0.,0.,-1.6,0.4,0.6928203230275509,-1.6,0.8,1.3856406460551018,-1.6,-0.,0.,-1.6,-0.4,0.692820323027551,-1.6,-0.8,1.385640646055102,-1.6,-0.,0.,-1.6,-0.8,0.,-1.6,-1.6,0.,-1.6],60,3)
+ ref_a.setInfoOnComponents(comps)
+ self.assertTrue(a.isEqual(ref_a,1e-14))
+ self.assertEqual(b,[3,4,5])
+ for i in xrange(1):
+ ffCell=allFMTSLeavesPerCommonSupport1[0][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ self.assertTrue(v.isEqual(DataArrayDouble([0.0,0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1.0,1.1,1.2,1.3,1.4,1.5,1.6,1.7,1.8,1.9,2.0,2.1,2.2,2.3]),1e-14))
+ pass
+ pass
+
+ def test38(self):
+ """ Introduction of non cartesian meshes management. Here spherical."""
+ fname="ForMEDReader38.med"
+ meshName="mesh"
+ description="Spherical grid"
+ comps=["X [cm]","Y [cm]","Z [cm]"]
+ arrX=DataArrayDouble(3) ; arrX.iota() ; arrX*=0.8 ; arrX.setInfoOnComponent(0,comps[0])
+ arrY=DataArrayDouble(4) ; arrY.iota() ; arrY*=pi/(len(arrY)-1) ; arrY.setInfoOnComponent(0,comps[1])
+ arrZ=DataArrayDouble(5) ; arrZ.iota() ; arrZ*=2*pi/(len(arrZ)-1) ; arrZ.setInfoOnComponent(0,comps[2])
+ m=MEDCouplingCMesh() ; m.setCoords(arrX,arrY,arrZ) ; m.setName(meshName)
+ mm=MEDFileCMesh() ; mm.setMesh(m) ; mm.setDescription(description)
+ mm.setAxisType(AX_SPHER) # the test is here !
+ f=MEDCouplingFieldDouble(ON_CELLS) ; f.setMesh(m) ; f.setName("Field")
+ arr=DataArrayDouble(m.getNumberOfCells()) ; arr.iota() ; arr*=0.1 ; f.setArray(arr) ; f.checkConsistencyLight()
+ ff=MEDFileField1TS() ; ff.setFieldNoProfileSBT(f)
+ fmts=MEDFileFieldMultiTS() ; fmts.pushBackTimeStep(ff)
+ #
+ ms=MEDFileMeshes() ; ms.pushMesh(mm)
+ fields=MEDFileFields() ; fields.pushField(fmts)
+ ms.write(fname,2) ; fields.write(fname,0)
+ #
+ del mm,fmts,fields,ms
+ ms=MEDFileMeshes(fname)
+ fields=MEDFileFields(fname,False)
+ ms.cartesianizeMe()
+ #
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ #
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),1)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDCurveLinearMeshMultiLev))
+ a,b,c=mml2.buildVTUArrays()
+ self.assertTrue(c)# the array is thoose in structure
+ ref_a=DataArrayDouble([0.,0.,0.,0.,0.,0.8,0.,0.,1.6,0.,0.,0.,0.6928203230275509,0.,0.4,1.3856406460551018,0.,0.8,0.,0.,-0.,0.692820323027551,0.,-0.4,1.385640646055102,0.,-0.8,0.,0.,-0.,0.,0.,-0.8,0.,0.,-1.6,0.,0.,0.,0.,0.,0.8,0.,0.,1.6,0.,0.,0.,0.,0.6928203230275509,0.4,0.,1.3856406460551018,0.8,0.,0.,-0.,0.,0.692820323027551,-0.4,0.,1.385640646055102,-0.8,0.,0.,-0.,0.,0.,-0.8,0.,0.,-1.6,-0.,0.,0.,-0.,0.,0.8,-0.,0.,1.6,-0.,0.,0.,-0.6928203230275509,0.,0.4,-1.3856406460551018,0.,0.8,-0.,0.,-0.,-0.692820323027551,0.,-0.4,-1.385640646055102,0.,-0.8,-0.,0.,-0.,0.,0.,-0.8,0.,0.,-1.6,-0.,-0.,0.,-0.,-0.,0.8,-0.,-0.,1.6,-0.,-0.,0.,0.,-0.6928203230275509,0.4,0.,-1.3856406460551018,0.8,-0.,-0.,-0.,0.,-0.692820323027551,-0.4,0.,-1.385640646055102,-0.8,-0.,-0.,-0.,0.,0.,-0.8,0.,0.,-1.6,0.,-0.,0.,0.,-0.,0.8,0.,-0.,1.6,0.,-0.,0.,0.6928203230275509,0.,0.4,1.3856406460551018,0.,0.8,0.,-0.,-0.,0.692820323027551,0.,-0.4,1.385640646055102,0.,-0.8,0.,-0.,-0.,0.,0.,-0.8,0.,0.,-1.6],60,3)
+ ref_a.setInfoOnComponents(comps)
+ self.assertTrue(a.isEqual(ref_a,1e-14))
+ self.assertEqual(b,[3,4,5])
+ for i in xrange(1):
+ ffCell=allFMTSLeavesPerCommonSupport1[0][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ self.assertTrue(v.isEqual(DataArrayDouble([0.0,0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1.0,1.1,1.2,1.3,1.4,1.5,1.6,1.7,1.8,1.9,2.0,2.1,2.2,2.3]),1e-14))
+ pass
+ pass
+
+ def test39(self):
+ """Idem test37, test38, test39, test40 except that here it is an unstructured mesh."""
+ fname="ForMEDReader39.med"
+ meshName="mesh"
+ description="Spherical grid"
+ comps=["X [cm]","Y [cm]","Z [cm]"]
+ arrX=DataArrayDouble(3) ; arrX.iota() ; arrX*=0.8 ; arrX.setInfoOnComponent(0,comps[0])
+ arrY=DataArrayDouble(4) ; arrY.iota() ; arrY*=pi/(len(arrY)-1) ; arrY.setInfoOnComponent(0,comps[1])
+ arrZ=DataArrayDouble(5) ; arrZ.iota() ; arrZ*=2*pi/(len(arrZ)-1) ; arrZ.setInfoOnComponent(0,comps[2])
+ m=MEDCouplingCMesh() ; m.setCoords(arrX,arrY,arrZ) ; m.setName(meshName) ; m=m.buildUnstructured()
+ mm=MEDFileUMesh() ; mm[0]=m ; mm.setDescription(description) # the test is here : UMesh !
+ mm.setAxisType(AX_SPHER) # the test is here !
+ f=MEDCouplingFieldDouble(ON_CELLS) ; f.setMesh(m) ; f.setName("Field")
+ arr=DataArrayDouble(m.getNumberOfCells()) ; arr.iota() ; arr*=0.1 ; f.setArray(arr) ; f.checkConsistencyLight()
+ ff=MEDFileField1TS() ; ff.setFieldNoProfileSBT(f)
+ fmts=MEDFileFieldMultiTS() ; fmts.pushBackTimeStep(ff)
+ #
+ ms=MEDFileMeshes() ; ms.pushMesh(mm)
+ fields=MEDFileFields() ; fields.pushField(fmts)
+ ms.write(fname,2) ; fields.write(fname,0)
+ #
+ del mm,fmts,fields,ms
+ ms=MEDFileMeshes(fname)
+ fields=MEDFileFields(fname,False)
+ #
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ #
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),1)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDUMeshMultiLev))
+ ncc,a0,a1,a2,a3,a4,a5=mml2.buildVTUArrays()
+ self.assertTrue(ncc)
+ ref_a=DataArrayDouble([0.,0.,0.,0.,0.,0.8,0.,0.,1.6,0.,0.,0.,0.6928203230275509,0.,0.4,1.3856406460551018,0.,0.8,0.,0.,-0.,0.692820323027551,0.,-0.4,1.385640646055102,0.,-0.8,0.,0.,-0.,0.,0.,-0.8,0.,0.,-1.6,0.,0.,0.,0.,0.,0.8,0.,0.,1.6,0.,0.,0.,0.,0.6928203230275509,0.4,0.,1.3856406460551018,0.8,0.,0.,-0.,0.,0.692820323027551,-0.4,0.,1.385640646055102,-0.8,0.,0.,-0.,0.,0.,-0.8,0.,0.,-1.6,-0.,0.,0.,-0.,0.,0.8,-0.,0.,1.6,-0.,0.,0.,-0.6928203230275509,0.,0.4,-1.3856406460551018,0.,0.8,-0.,0.,-0.,-0.692820323027551,0.,-0.4,-1.385640646055102,0.,-0.8,-0.,0.,-0.,0.,0.,-0.8,0.,0.,-1.6,-0.,-0.,0.,-0.,-0.,0.8,-0.,-0.,1.6,-0.,-0.,0.,0.,-0.6928203230275509,0.4,0.,-1.3856406460551018,0.8,-0.,-0.,-0.,0.,-0.692820323027551,-0.4,0.,-1.385640646055102,-0.8,-0.,-0.,-0.,0.,0.,-0.8,0.,0.,-1.6,0.,-0.,0.,0.,-0.,0.8,0.,-0.,1.6,0.,-0.,0.,0.6928203230275509,0.,0.4,1.3856406460551018,0.,0.8,0.,-0.,-0.,0.692820323027551,0.,-0.4,1.385640646055102,0.,-0.8,0.,-0.,-0.,0.,0.,-0.8,0.,0.,-1.6],60,3)
+ ref_a.setInfoOnComponents(comps)
+ self.assertTrue(a0.isEqual(ref_a,1e-14))#<- Test is here
+ for i in xrange(1):
+ ffCell=allFMTSLeavesPerCommonSupport1[0][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ self.assertTrue(v.isEqual(DataArrayDouble([0.0,0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1.0,1.1,1.2,1.3,1.4,1.5,1.6,1.7,1.8,1.9,2.0,2.1,2.2,2.3]),1e-14))
+ pass
+
+ def test40(self):
+ """Idem test37, test38, test39, test40 except that here it is a CL mesh."""
+ fname="ForMEDReader40.med"
+ meshName="mesh"
+ description="Spherical grid"
+ comps=["X [cm]","Y [cm]","Z [cm]"]
+ arrX=DataArrayDouble(3) ; arrX.iota() ; arrX*=0.8 ; arrX.setInfoOnComponent(0,comps[0])
+ arrY=DataArrayDouble(4) ; arrY.iota() ; arrY*=pi/(len(arrY)-1) ; arrY.setInfoOnComponent(0,comps[1])
+ arrZ=DataArrayDouble(5) ; arrZ.iota() ; arrZ*=2*pi/(len(arrZ)-1) ; arrZ.setInfoOnComponent(0,comps[2])
+ m=MEDCouplingCMesh() ; m.setCoords(arrX,arrY,arrZ) ; m.setName(meshName) ; m=m.buildCurveLinear()
+ mm=MEDFileCurveLinearMesh() ; mm.setMesh(m) ; mm.setDescription(description) # the test is here CLMesh!
+ mm.setAxisType(AX_SPHER) # the test is here !
+ f=MEDCouplingFieldDouble(ON_CELLS) ; f.setMesh(m) ; f.setName("Field")
+ arr=DataArrayDouble(m.getNumberOfCells()) ; arr.iota() ; arr*=0.1 ; f.setArray(arr) ; f.checkConsistencyLight()
+ ff=MEDFileField1TS() ; ff.setFieldNoProfileSBT(f)
+ fmts=MEDFileFieldMultiTS() ; fmts.pushBackTimeStep(ff)
+ #
+ ms=MEDFileMeshes() ; ms.pushMesh(mm)
+ fields=MEDFileFields() ; fields.pushField(fmts)
+ ms.write(fname,2) ; fields.write(fname,0)
+ #
+ ms=MEDFileMeshes(fname) ; ms.cartesianizeMe()
+ fields=MEDFileFields(fname,False)
+ fields.removeFieldsWithoutAnyTimeStep()
+ fields_per_mesh=[fields.partOfThisLyingOnSpecifiedMeshName(meshName) for meshName in ms.getMeshesNames()]
+ allFMTSLeavesToDisplay=[]
+ for fields in fields_per_mesh:
+ allFMTSLeavesToDisplay2=[]
+ for fmts in fields:
+ tmp=fmts.splitDiscretizations()
+ for itmp in tmp:
+ self.assertTrue(not itmp.presenceOfMultiDiscPerGeoType())
+ pass
+ allFMTSLeavesToDisplay2+=tmp
+ pass
+ allFMTSLeavesToDisplay.append(allFMTSLeavesToDisplay2)
+ pass
+ #
+ self.assertEqual(len(allFMTSLeavesToDisplay),1)
+ self.assertEqual(len(allFMTSLeavesToDisplay[0]),1)
+ allFMTSLeavesPerTimeSeries=MEDFileAnyTypeFieldMultiTS.SplitIntoCommonTimeSeries(sum(allFMTSLeavesToDisplay,[]))
+ self.assertEqual(len(allFMTSLeavesPerTimeSeries),1)
+ allFMTSLeavesPerCommonSupport1=MEDFileAnyTypeFieldMultiTS.SplitPerCommonSupport(allFMTSLeavesToDisplay[0],ms[ms.getMeshesNames()[0]])
+ self.assertEqual(len(allFMTSLeavesPerCommonSupport1),1)
+ #
+ mst=MEDFileMeshStruct.New(ms[0])
+ fcscp=allFMTSLeavesPerCommonSupport1[0][1]
+ mml=fcscp.buildFromScratchDataSetSupport(0,fields)
+ mml2=mml.prepare()
+ self.assertTrue(isinstance(mml2,MEDCurveLinearMeshMultiLev))
+ a,b,c=mml2.buildVTUArrays()
+ self.assertTrue(c)
+ ref_a=DataArrayDouble([0.,0.,0.,0.,0.,0.8,0.,0.,1.6,0.,0.,0.,0.6928203230275509,0.,0.4,1.3856406460551018,0.,0.8,0.,0.,-0.,0.692820323027551,0.,-0.4,1.385640646055102,0.,-0.8,0.,0.,-0.,0.,0.,-0.8,0.,0.,-1.6,0.,0.,0.,0.,0.,0.8,0.,0.,1.6,0.,0.,0.,0.,0.6928203230275509,0.4,0.,1.3856406460551018,0.8,0.,0.,-0.,0.,0.692820323027551,-0.4,0.,1.385640646055102,-0.8,0.,0.,-0.,0.,0.,-0.8,0.,0.,-1.6,-0.,0.,0.,-0.,0.,0.8,-0.,0.,1.6,-0.,0.,0.,-0.6928203230275509,0.,0.4,-1.3856406460551018,0.,0.8,-0.,0.,-0.,-0.692820323027551,0.,-0.4,-1.385640646055102,0.,-0.8,-0.,0.,-0.,0.,0.,-0.8,0.,0.,-1.6,-0.,-0.,0.,-0.,-0.,0.8,-0.,-0.,1.6,-0.,-0.,0.,0.,-0.6928203230275509,0.4,0.,-1.3856406460551018,0.8,-0.,-0.,-0.,0.,-0.692820323027551,-0.4,0.,-1.385640646055102,-0.8,-0.,-0.,-0.,0.,0.,-0.8,0.,0.,-1.6,0.,-0.,0.,0.,-0.,0.8,0.,-0.,1.6,0.,-0.,0.,0.6928203230275509,0.,0.4,1.3856406460551018,0.,0.8,0.,-0.,-0.,0.692820323027551,0.,-0.4,1.385640646055102,0.,-0.8,0.,-0.,-0.,0.,0.,-0.8,0.,0.,-1.6],60,3)
+ ref_a.setInfoOnComponents(comps)
+ self.assertTrue(a.isEqual(ref_a,1e-14))#<- Test is here
+ self.assertEqual(b,[3,4,5])
+ for i in xrange(1):
+ ffCell=allFMTSLeavesPerCommonSupport1[0][0][0][i]
+ fsst=MEDFileField1TSStructItem.BuildItemFrom(ffCell,mst)
+ ffCell.loadArraysIfNecessary()
+ v=mml2.buildDataArray(fsst,fields,ffCell.getUndergroundDataArray())
+ self.assertEqual(v.getHiddenCppPointer(),ffCell.getUndergroundDataArray().getHiddenCppPointer())
+ self.assertTrue(v.isEqual(DataArrayDouble([0.0,0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1.0,1.1,1.2,1.3,1.4,1.5,1.6,1.7,1.8,1.9,2.0,2.1,2.2,2.3]),1e-14))
+ pass
+
pass
-unittest.main()
+if __name__ == "__main__":
+ unittest.main()