le maillage. Nous faisons donc une copie préalable. Nous passons en paramètre la finesse de découpage (0.1 est suffisant
-- angle en radian). Attention donc à ne pas modifer ni ``fixm`` ni ``mobm`` ! ::
- fixm2 = fixm.deepCpy() # tessellate2D() modifies the current mesh
+ fixm2 = fixm.deepCopy() # tessellate2D() modifies the current mesh
fixm2.tessellate2D(0.1)
fixm2.writeVTK("fixm2.vtu")
- mobm2 = mobm.deepCpy()
+ mobm2 = mobm.deepCopy()
mobm2.tessellate2D(0.1)
mobm2.writeVTK("mobm2.vtu")
Faire une petite méthode ``displayVTK()``, faisant le travail qui nous servira souvent après. ::
def displayVTK(m,fname):
- tmp = m.deepCpy()
+ tmp = m.deepCopy()
tmp.tessellate2D(0.1)
tmp.writeVTK(fname)
return
Récupérer et afficher la partie de ``partFixm`` qui n'est pas dans ``zone1Mobm``. Appeler ce maillage ``partFixmWithoutZone1Mobm``. ::
- ids3 = iMob.getIdsEqual(-1)
+ ids3 = iMob.findIdsEqual(-1)
partFixmWithoutZone1Mobm = partFixMob[ids3]
displayVTK(partFixmWithoutZone1Mobm,"partFixmWithoutZone1Mobm.vtu")
areaZone1Mobm = zone1Mobm.getMeasureField(ml.ON_CELLS).getArray()
areaZone1Mobm.abs()
val3 = areaZone1Mobm.accumulate()[0]
- ids4 = iMob.getIdsNotEqual(-1)
+ ids4 = iMob.findIdsNotEqual(-1)
areaPartFixMob2 = areaPartFixMob[ids4]
val4 = areaPartFixMob2.accumulate()[0]
print "Check #1 %lf == %lf with precision 1e-8 ? %s" % (val3,val4,str(abs(val3-val4)<1e-8))
isCheck2OK = True
for icell in xrange(partFixm.getNumberOfCells()):
- ids5 = iPart.getIdsEqual(icell)
+ ids5 = iPart.findIdsEqual(icell)
areaOfCells = areaPartFixMob[ids5]
areaOfCells.abs()
if abs(areaOfCells.accumulate()[0] - areaPartFixm[icell]) > 1e-9:
Le visualiser en utilisant un fichier VTK (ne pas oublier l'option *Triangulate* de ParaView). ::
f = ml.MEDCouplingFieldDouble(ml.ON_CELLS,ml.ONE_TIME)
- m = partFixMob.deepCpy()
+ m = partFixMob.deepCopy()
m.tessellate2D(0.1)
f.setMesh(m)
arr = ml.DataArrayDouble(partFixMob.getNumberOfCells(),1)
- arr[iMob.getIdsEqual(-1)] = 0.
- arr[iMob.getIdsNotEqual(-1)] = 1.
+ arr[iMob.findIdsEqual(-1)] = 0.
+ arr[iMob.findIdsNotEqual(-1)] = 1.
f.setArray(arr)
- f.checkCoherency()
+ f.checkConsistencyLight()
f.setName("Zone")
ml.MEDCouplingFieldDouble.WriteVTK("Zone.vtu",[f])
partFixMob2,iPart2,iMob2 = ml.MEDCouplingUMesh.Intersect2DMeshes(partFixm,zonesMobm,1e-10)
partFixMob2.mergeNodes(1e-10)
f2 = ml.MEDCouplingFieldDouble(ml.ON_CELLS, ml.ONE_TIME)
- m2 = partFixMob2.deepCpy()
+ m2 = partFixMob2.deepCopy()
m2.tessellate2D(0.1)
f2.setMesh(m2)
arr = ml.DataArrayDouble(partFixMob2.getNumberOfCells(),1)
- arr[iMob2.getIdsEqual(-1)]=0.
+ arr[iMob2.findIdsEqual(-1)]=0.
st = 0
end = st + len(zonesInMobm[0])
- arr[iMob2.getIdsInRange(st,end)] = 1.
+ arr[iMob2.findIdsInRange(st,end)] = 1.
st += len(zonesInMobm[0]) ;
end = st + len(zonesInMobm[1])
- arr[iMob2.getIdsInRange(st,end)] = 2.
+ arr[iMob2.findIdsInRange(st,end)] = 2.
st += len(zonesInMobm[1])
end = st + len(zonesInMobm[2])
- arr[iMob2.getIdsInRange(st,end)] = 3.
+ arr[iMob2.findIdsInRange(st,end)] = 3.
f2.setArray(arr)
- f2.checkCoherency()
+ f2.checkConsistencyLight()
f2.setName("Zone2")
ml.MEDCouplingFieldDouble.WriteVTK("Zone2.vtu",[f2])
