# -*- coding: iso-8859-1 -*-
-# Copyright (C) 2007-2014 CEA/DEN, EDF R&D
+# Copyright (C) 2007-2016 CEA/DEN, EDF R&D
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
pass
c=DataArrayInt(len(cells),nbNodesPerCell+1) ; c[:,0]=ct ; c[:,1:]=c2-1 ; c.rearrange(1)
m.setConnectivity(c,cI,True)
- m.checkCoherency2()
+ m.checkConsistency()
return m
def __traduceMeshForPolyhed(self,name,coords,arr0,arr1,arr2):
m.setCoords(coo)
#
arr2=arr2[:]-1
- arr0mc0=DataArrayInt(arr0) ; arr0mc0.computeOffsets2()
- arr0mc1=DataArrayInt(arr0).deepCpy()
- arr0mc2=DataArrayInt(len(arr0),2) ; arr0mc2[:,0]=DataArrayInt(arr0)-1 ; arr0mc2[:,1]=1 ; arr0mc2.rearrange(1) ; arr0mc2.computeOffsets2()
+ arr0mc0=DataArrayInt(arr0) ; arr0mc0.computeOffsetsFull()
+ arr0mc1=DataArrayInt(arr0).deepCopy()
+ arr0mc2=DataArrayInt(len(arr0),2) ; arr0mc2[:,0]=DataArrayInt(arr0)-1 ; arr0mc2[:,1]=1 ; arr0mc2.rearrange(1) ; arr0mc2.computeOffsetsFull()
arr0mc3=DataArrayInt.Range(0,2*len(arr0),2).buildExplicitArrByRanges(arr0mc2)
- arr1mc0=DataArrayInt(arr1) ; arr1mc0.computeOffsets2()
+ arr1mc0=DataArrayInt(arr1) ; arr1mc0.computeOffsetsFull()
arr1mc1=arr1mc0[arr0mc0] ; arr1mc1[1:]+=arr0mc0[1:]
- arr1mc2=DataArrayInt(arr1).deepCpy() ; arr1mc2+=1 ; arr1mc2.computeOffsets2()
+ arr1mc2=DataArrayInt(arr1).deepCopy() ; arr1mc2+=1 ; arr1mc2.computeOffsetsFull()
arr2mc0=(arr1mc2[1:])[arr0mc3]
#
c=DataArrayInt(arr1.size+arr2.size)
c[a]=DataArrayInt(arr2)
#
m.setConnectivity(c,arr1mc1,True)
- m.checkCoherency2()
+ m.checkConsistency()
return m
def __traduceMeshForPolygon(self,name,coords,arr0,arr1):
m=MEDCouplingUMesh(name,2)
m.setCoords(coo)
#
- arr0_0=DataArrayInt(arr0+1) ; arr0_0.computeOffsets2()
- arr0_1=DataArrayInt(len(arr0),2) ; arr0_1[:,1]=DataArrayInt(arr0) ; arr0_1[:,0]=1 ; arr0_1.rearrange(1) ; arr0_1.computeOffsets2()
+ arr0_0=DataArrayInt(arr0+1) ; arr0_0.computeOffsetsFull()
+ arr0_1=DataArrayInt(len(arr0),2) ; arr0_1[:,1]=DataArrayInt(arr0) ; arr0_1[:,0]=1 ; arr0_1.rearrange(1) ; arr0_1.computeOffsetsFull()
arr0_2=DataArrayInt.Range(1,2*len(arr0),2).buildExplicitArrByRanges(arr0_1)
c=DataArrayInt(len(arr0)+len(arr1)) ; c[:]=0 ; c[arr0_0[:-1]]=NORM_POLYGON
c[arr0_2]=DataArrayInt(arr1-1)
#
m.setConnectivity(c,arr0_0,True)
- m.checkCoherency2()
+ m.checkConsistency()
return m
def __convertGeo2MED(self,geoFileName):
typ=fd.read(80).strip() ; pos=fd.tell()
mcmeshes2=[]
while pos!=end and typ!="part":
+ if typ[0]=='\0': pos+=1; continue
mctyp=self.dictMCTyp2[typ]
nbCellsOfType=np.memmap(fd,dtype='int32',mode='r',offset=int(pos),shape=(1,)).tolist()[0]
pos+=4
elt=fd.read(80) ; elt=elt.strip() ; typ=elt[:] ; pos+=80
pass
pass
- coo=mcmeshes2[0].getCoords() ; name=mcmeshes2[0].getName()
- for itmesh in mcmeshes2: itmesh.setCoords(coo)
- m=MEDCouplingUMesh.MergeUMeshesOnSameCoords(mcmeshes2) ; m.setName(name)
- mcmeshes.append(m)
+ if mcmeshes2:
+ coo=mcmeshes2[0].getCoords() ; name=mcmeshes2[0].getName()
+ for itmesh in mcmeshes2: itmesh.setCoords(coo)
+ m=MEDCouplingUMesh.MergeUMeshesOnSameCoords(mcmeshes2) ; m.setName(name)
+ mcmeshes.append(m)
pass
return mcmeshes
raise Exception("ConvertField : mismatch #2")
fdisc=MEDCouplingFieldDiscretization.New(self.discSpatial2[discr])
meshId=np.memmap(fd,dtype='int32',mode='r',offset=int(pos),shape=(1)).tolist()[0]-1
+ if meshId >= len( mcmeshes ):
+ return
nbOfValues=fdisc.getNumberOfTuples(mcmeshes[meshId])
vals2=DataArrayDouble(nbOfValues,nbCompo)
fd.seek(pos+4)
pass
f=MEDCouplingFieldDouble(self.discSpatial2[discr],ONE_TIME) ; f.setName("%s_%s"%(fieldName,mcmeshes[meshId].getName()))
f.setMesh(mcmeshes[meshId]) ; f.setArray(vals2) ; f.setTime(float(it),it,-1)
- f.checkCoherency()
+ f.checkConsistencyLight()
mlfields[locId+meshId].appendFieldNoProfileSBT(f)
pass
pass
f=MEDCouplingFieldDouble(self.discSpatial2[discr],ONE_TIME) ; f.setName("%s_%s"%(fieldName,mcmeshes[nbTurn].getName()))
f.setMesh(mcmeshes[nbTurn]) ; f.setArray(vals2) ; f.setTime(float(it),it,-1)
- f.checkCoherency()
+ f.checkConsistencyLight()
mlfields[locId+nbTurn].appendFieldNoProfileSBT(f)
nbTurn+=1
pass