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Simplification de insereFissureLongue

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GERALD NICOLAS 2021-01-27 11:50:20 +01:00
parent 0940378b4a
commit b00d213122
6 changed files with 405 additions and 225 deletions
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4
src/Tools/blocFissure/gmu/CMakeLists.txt
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@ -72,6 +72,10 @@ SET(plugin_SCRIPTS
insereFissureElliptique.py insereFissureElliptique.py
insereFissureGenerale.py insereFissureGenerale.py
insereFissureLongue.py insereFissureLongue.py
insereFissureLongue_a.py
insereFissureLongue_b.py
insereFissureLongue_c.py
insereFissureLongue_d.py
listOfExtraFunctions.py listOfExtraFunctions.py
mailleAretesEtJonction.py mailleAretesEtJonction.py
mailleFacesFissure.py mailleFacesFissure.py

242
src/Tools/blocFissure/gmu/insereFissureLongue.py
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@ -410,240 +410,32 @@ def insereFissureLongue(geometriesSaines, maillagesSains,
# --- maillage pipe fond fissure # --- maillage pipe fond fissure
meshFondFiss = smesh.Mesh(pipeFondFiss) meshFondFiss, groups_demiCercles, group_generFiss, nbSegGenLong, nbSegGenBout = \
algo2d = meshFondFiss.Quadrangle(algo=smeshBuilder.QUADRANGLE) insereFissureLongue_a (pipeFondFiss, disques, rayons, demiCercles, demiCerclesPeau, generatrices, \
algo3d = meshFondFiss.Prism() VerticesEndPipeFiss, verticesEdgePeauFiss, \
putName(algo3d.GetSubMesh(), "pipe") groupFaceFissInPipe, groupEdgeFondFiss, groupsDemiCerclesPipe, groupGenerFiss, \
putName(algo3d, "algo3d_pipe") profondeur, rayonPipe, distance2)
putName(algo2d, "algo2d_pipe")
for i, face in enumerate(disques):
algo2d = meshFondFiss.Quadrangle(algo=smeshBuilder.RADIAL_QUAD,geom=face)
putName(algo2d.GetSubMesh(), "disque", i)
putName(algo2d, "algo2d_disque", i)
for i, edge in enumerate(rayons):
algo1d = meshFondFiss.Segment(geom=edge)
hypo1d = algo1d.NumberOfSegments(4)
putName(algo1d.GetSubMesh(), "rayon", i)
putName(algo1d, "algo1d_rayon", i)
putName(hypo1d, "hypo1d_rayon", i)
for i, edge in enumerate(demiCercles):
algo1d = meshFondFiss.Segment(geom=edge)
hypo1d = algo1d.NumberOfSegments(6)
putName(algo1d.GetSubMesh(), "demiCercle", i)
putName(algo1d, "algo1d_demiCercle", i)
putName(hypo1d, "hypo1d_demiCercle", i)
generSorted, minlg, maxlg = sortEdges(generatrices)
nbSegGenLong = int(math.sqrt(3.0)*maxlg/(profondeur - rayonPipe)) # on veut 2 triangles equilateraux dans la largeur de la face
nbSegGenBout = 6
logging.info("min %s, max %s, nombre de segments %s, nombre de generatrices %s", minlg, maxlg, nbSegGenLong, len(generSorted))
for i, edge in enumerate(generSorted):
algo1d = meshFondFiss.Segment(geom=edge)
if i < 6:
hypo1d = algo1d.NumberOfSegments(nbSegGenBout)
else:
hypo1d = algo1d.NumberOfSegments(nbSegGenLong)
putName(algo1d.GetSubMesh(), "generatrice", i)
putName(algo1d, "algo1d_generatrice", i)
putName(hypo1d, "hypo1d_generatrice", i)
is_done = meshFondFiss.Compute()
text = "meshFondFiss.Compute"
if is_done:
logging.info(text+" OK")
else:
text = "Erreur au calcul du maillage.\n" + text
logging.info(text)
raise Exception(text)
disks = list()
for i, face in enumerate(disques[:4]):
name = "disk%d"%i
disks.append(meshFondFiss.GroupOnGeom(face, name, SMESH.FACE))
peauext_pipe = meshFondFiss.GetMesh().UnionListOfGroups( disks, 'PEAUEXT' )
grpPFOR = meshFondFiss.GroupOnGeom(VerticesEndPipeFiss[0], "PFOR", SMESH.NODE)
grpPFEX = meshFondFiss.GroupOnGeom(VerticesEndPipeFiss[1], "PFEX", SMESH.NODE)
grp = meshFondFiss.GroupOnGeom(groupFaceFissInPipe, "fisInPi", SMESH.FACE)
group_edgeFondFiss = meshFondFiss.GroupOnGeom(groupEdgeFondFiss, "FONDFISS", SMESH.EDGE)
noeudsFondFissure = meshFondFiss.GroupOnGeom(groupEdgeFondFiss, "nfondfis", SMESH.NODE)
groups_demiCercles = list()
groupnodes_demiCercles = list()
for i, group in enumerate(groupsDemiCerclesPipe):
name = "Cercle%d"%i
groups_demiCercles.append(meshFondFiss.GroupOnGeom(group, name, SMESH.EDGE))
name = "nCercle%d"%i
groupnodes_demiCercles.append(meshFondFiss.GroupOnGeom(group, name, SMESH.NODE))
group_generFiss = meshFondFiss.GroupOnGeom(groupGenerFiss, "GenFiss", SMESH.EDGE)
groupnode_generFiss = meshFondFiss.GroupOnGeom(groupGenerFiss, "GenFiss", SMESH.NODE)
grpNode0 = meshFondFiss.IntersectGroups(groupnode_generFiss, groupnodes_demiCercles[0], "Node0")
grpNode1 = meshFondFiss.IntersectGroups(groupnode_generFiss, groupnodes_demiCercles[1], "Node1")
idNode0 = grpNode0.GetID(1)
idNode1 = grpNode1.GetID(1)
coordsMesh = list()
coordsMesh.append(meshFondFiss.GetNodeXYZ(idNode0))
coordsMesh.append(meshFondFiss.GetNodeXYZ(idNode1))
coordsGeom = list()
for vertex in verticesEdgePeauFiss:
coord = geompy.PointCoordinates(vertex)
if distance2(coord, coordsMesh[0]) < 0.1:
meshFondFiss.MoveNode(idNode0, coord[0], coord[1], coord[2])
if distance2(coord, coordsMesh[1]) < 0.1:
meshFondFiss.MoveNode(idNode1, coord[0], coord[1], coord[2])
for groupNodes in groupnodes_demiCercles:
for idNode in groupNodes.GetListOfID():
coordMesh = meshFondFiss.GetNodeXYZ(idNode)
vertex = geompy.MakeVertex(coordMesh[0], coordMesh[1], coordMesh[2])
minDist = 100000
minCoord = None
imin = -1
for i, edge in enumerate(demiCerclesPeau):
discoord = geompy.MinDistanceComponents(vertex, edge)
if discoord[0] <minDist:
minDist = discoord[0]
minCoord = discoord[1:]
imin = i
if imin >= 0 and minDist > 1.E-6:
logging.debug("node id moved : %s distance=%s", idNode, minDist)
meshFondFiss.MoveNode(idNode, coordMesh[0] + minCoord[0], coordMesh[1] + minCoord[1], coordMesh[2] + minCoord[2])
# --- maillage face de peau # --- maillage face de peau
meshFacePeau = smesh.Mesh(facePeau) meshFacePeau, groupEdgesPeauFiss = \
algo2d = meshFacePeau.Triangle(algo=smeshBuilder.NETGEN_2D) insereFissureLongue_b (facePeau, edgePeauFiss, groupEdgesBordPeau, bordsLibres, \
hypo2d = algo2d.Parameters() groupsDemiCerclesPeau, groups_demiCercles, verticesOutCercles, \
hypo2d.SetMaxSize( 1000 ) nbSegGenLong, nbSegGenBout, profondeur)
hypo2d.SetOptimize( 1 )
hypo2d.SetFineness( 2 )
hypo2d.SetMinSize( 2 )
hypo2d.SetQuadAllowed( 0 )
putName(algo2d.GetSubMesh(), "facePeau")
putName(algo2d, "algo2d_facePeau")
putName(hypo2d, "hypo2d_facePeau")
#
lenEdgePeauFiss = geompy.BasicProperties(edgePeauFiss)[0]
frac = profondeur/lenEdgePeauFiss
nbSeg = nbSegGenLong +2*nbSegGenBout
ratio = (nbSegGenBout/float(profondeur)) / (nbSegGenLong/lenEdgePeauFiss)
logging.info("lenEdgePeauFiss %s, profondeur %s, nbSegGenLong %s, nbSegGenBout %s, frac %s, ratio %s", lenEdgePeauFiss, profondeur, nbSegGenLong, nbSegGenBout, frac, ratio)
algo1d = meshFacePeau.Segment(geom=edgePeauFiss)
hypo1d = algo1d.NumberOfSegments(nbSeg,list(),[ ])
hypo1d.SetDistrType( 2 )
hypo1d.SetConversionMode( 1 )
hypo1d.SetTableFunction( [ 0, ratio, frac, 1, (1.-frac), 1, 1, ratio ] )
putName(algo1d.GetSubMesh(), "edgePeauFiss")
putName(algo1d, "algo1d_edgePeauFiss")
putName(hypo1d, "hypo1d_edgePeauFiss")
#
algo1d = meshFacePeau.UseExisting1DElements(geom=groupEdgesBordPeau)
hypo1d = algo1d.SourceEdges([ bordsLibres ],0,0)
putName(algo1d.GetSubMesh(), "bordsLibres")
putName(algo1d, "algo1d_bordsLibres")
putName(hypo1d, "hypo1d_bordsLibres")
#
for i in range(2):
algo1d = meshFacePeau.UseExisting1DElements(geom=groupsDemiCerclesPeau[i])
hypo1d = algo1d.SourceEdges([ groups_demiCercles[i] ],0,0)
putName(algo1d.GetSubMesh(), "DemiCercles", i)
putName(algo1d, "algo1d_groupDemiCercles", i)
putName(hypo1d, "hypo1d_groupDemiCercles", i)
#
is_done = meshFacePeau.Compute()
text = "meshFacePeau.Compute"
if is_done:
logging.info(text+" OK")
else:
text = "Erreur au calcul du maillage.\n" + text
logging.info(text)
raise Exception(text)
grpTHOR = meshFacePeau.GroupOnGeom(verticesOutCercles[0], "THOR", SMESH.NODE)
grpTHEX = meshFacePeau.GroupOnGeom(verticesOutCercles[1], "THEX", SMESH.NODE)
groupEdgesPeauFiss = meshFacePeau.GroupOnGeom(edgePeauFiss, "PeauFis", SMESH.EDGE)
peauext_face = meshFacePeau.CreateEmptyGroup( SMESH.FACE, 'PEAUEXT' )
nbAdd = peauext_face.AddFrom( meshFacePeau.GetMesh() )
# --- maillage face de fissure # --- maillage face de fissure
meshFaceFiss = smesh.Mesh(faceFiss) meshFaceFiss = \
algo2d = meshFaceFiss.Triangle(algo=smeshBuilder.NETGEN_2D) insereFissureLongue_c (faceFiss, groupEdgesPeauFiss, edgePeauFiss, group_generFiss, groupEdgesFaceFissPipe, \
hypo2d = algo2d.Parameters() profondeur, rayonPipe)
hypo2d.SetMaxSize( (profondeur - rayonPipe)/math.sqrt(3.0) ) # pour avoir deux couches de triangles equilateraux partout sur la fissure
hypo2d.SetOptimize( 1 )
hypo2d.SetFineness( 2 )
hypo2d.SetMinSize( 2 )
hypo2d.SetQuadAllowed( 0 )
putName(algo2d.GetSubMesh(), "faceFiss")
putName(algo2d, "algo2d_faceFiss")
putName(hypo2d, "hypo2d_faceFiss")
#
algo1d = meshFaceFiss.UseExisting1DElements(geom=edgePeauFiss)
hypo1d = algo1d.SourceEdges([ groupEdgesPeauFiss ],0,0)
putName(algo1d.GetSubMesh(), "edgeFissPeau")
putName(algo1d, "algo1d_edgeFissPeau")
putName(hypo1d, "hypo1d_edgeFissPeau")
#
algo1d = meshFaceFiss.UseExisting1DElements(geom=groupEdgesFaceFissPipe)
hypo1d = algo1d.SourceEdges([ group_generFiss ],0,0)
putName(algo1d.GetSubMesh(), "edgeFissPeau")
putName(algo1d, "algo1d_edgeFissPeau")
putName(hypo1d, "hypo1d_edgeFissPeau")
#
is_done = meshFaceFiss.Compute()
text = "meshFaceFiss.Compute"
if is_done:
logging.info(text+" OK")
else:
text = "Erreur au calcul du maillage.\n" + text
logging.info(text)
raise Exception(text)
grp = meshFaceFiss.GroupOnGeom(faceFiss, "fisOutPi", SMESH.FACE) # --- maillage meshBoiteDefaut
meshBoiteDefaut = smesh.Concatenate( [internalBoundary.GetMesh(), \
meshFondFiss.GetMesh(), \
meshFacePeau.GetMesh(), \
meshFaceFiss.GetMesh()], \
1, 1, 1e-05,False)
# pour aider l'algo hexa-tetra a ne pas mettre de pyramides a l'exterieur des volumes replies sur eux-memes
# on designe les faces de peau en quadrangles par le groupe "skinFaces"
group_faceFissOutPipe = None
group_faceFissInPipe = None
groups = meshBoiteDefaut.GetGroups()
for grp in groups:
if grp.GetType() == SMESH.FACE:
#if "internalBoundary" in grp.GetName():
# grp.SetName("skinFaces")
if grp.GetName() == "fisOutPi":
group_faceFissOutPipe = grp
elif grp.GetName() == "fisInPi":
group_faceFissInPipe = grp
# le maillage NETGEN ne passe pas toujours ==> utiliser GHS3D
distene=True distene=True
if distene: meshBoiteDefaut, group_faceFissInPipe, group_faceFissOutPipe = \
algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.GHS3D) insereFissureLongue_d (internalBoundary, meshFondFiss, meshFacePeau, meshFaceFiss, \
else: distene)
algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.NETGEN)
hypo3d = algo3d.MaxElementVolume(1000.0)
putName(algo3d.GetSubMesh(), "boiteDefaut")
putName(algo3d, "algo3d_boiteDefaut")
putName(meshBoiteDefaut, "boiteDefaut")
is_done = meshBoiteDefaut.Compute()
text = "meshBoiteDefaut.Compute"
if is_done:
logging.info(text+" OK")
else:
text = "Erreur au calcul du maillage.\n" + text
logging.info(text)
raise Exception(text)
groups = maillageSain.GetGroups() groups = maillageSain.GetGroups()
grps1 = [ grp for grp in groups if grp.GetName() == 'P1'] grps1 = [ grp for grp in groups if grp.GetName() == 'P1']

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src/Tools/blocFissure/gmu/insereFissureLongue_a.py Normal file
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@ -0,0 +1,145 @@
# -*- coding: utf-8 -*-
# Copyright (C) 2014-2020 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, 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
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
#
"""Insertion de fissure longue - maillage pipe fond fissure"""
import logging
import salome
from .geomsmesh import geompy
from .geomsmesh import smesh
from salome.smesh import smeshBuilder
import SMESH
from .sortEdges import sortEdges
from .putName import putName
import math
def insereFissureLongue_a (pipeFondFiss, disques, rayons, demiCercles, demiCerclesPeau, generatrices, \
VerticesEndPipeFiss, verticesEdgePeauFiss, \
groupFaceFissInPipe, groupEdgeFondFiss, groupsDemiCerclesPipe, groupGenerFiss, \
profondeur, rayonPipe, distance2):
"""maillage pipe fond fissure"""
logging.info('start')
meshFondFiss = smesh.Mesh(pipeFondFiss)
algo2d = meshFondFiss.Quadrangle(algo=smeshBuilder.QUADRANGLE)
algo3d = meshFondFiss.Prism()
putName(algo3d.GetSubMesh(), "pipe")
putName(algo3d, "algo3d_pipe")
putName(algo2d, "algo2d_pipe")
for i, face in enumerate(disques):
algo2d = meshFondFiss.Quadrangle(algo=smeshBuilder.RADIAL_QUAD,geom=face)
putName(algo2d.GetSubMesh(), "disque", i)
putName(algo2d, "algo2d_disque", i)
for i, edge in enumerate(rayons):
algo1d = meshFondFiss.Segment(geom=edge)
hypo1d = algo1d.NumberOfSegments(4)
putName(algo1d.GetSubMesh(), "rayon", i)
putName(algo1d, "algo1d_rayon", i)
putName(hypo1d, "hypo1d_rayon", i)
for i, edge in enumerate(demiCercles):
algo1d = meshFondFiss.Segment(geom=edge)
hypo1d = algo1d.NumberOfSegments(6)
putName(algo1d.GetSubMesh(), "demiCercle", i)
putName(algo1d, "algo1d_demiCercle", i)
putName(hypo1d, "hypo1d_demiCercle", i)
generSorted, minlg, maxlg = sortEdges(generatrices)
nbSegGenLong = int(math.sqrt(3.0)*maxlg/(profondeur - rayonPipe)) # on veut 2 triangles equilateraux dans la largeur de la face
nbSegGenBout = 6
logging.info("min %s, max %s, nombre de segments %s, nombre de generatrices %s", minlg, maxlg, nbSegGenLong, len(generSorted))
for i, edge in enumerate(generSorted):
algo1d = meshFondFiss.Segment(geom=edge)
if i < 6:
hypo1d = algo1d.NumberOfSegments(nbSegGenBout)
else:
hypo1d = algo1d.NumberOfSegments(nbSegGenLong)
putName(algo1d.GetSubMesh(), "generatrice", i)
putName(algo1d, "algo1d_generatrice", i)
putName(hypo1d, "hypo1d_generatrice", i)
disks = list()
for i, face in enumerate(disques[:4]):
name = "disk%d"%i
disks.append(meshFondFiss.GroupOnGeom(face, name, SMESH.FACE))
_ = meshFondFiss.GetMesh().UnionListOfGroups( disks, 'PEAUEXT' )
_ = meshFondFiss.GroupOnGeom(VerticesEndPipeFiss[0], "PFOR", SMESH.NODE)
_ = meshFondFiss.GroupOnGeom(VerticesEndPipeFiss[1], "PFEX", SMESH.NODE)
_ = meshFondFiss.GroupOnGeom(groupFaceFissInPipe, "fisInPi", SMESH.FACE)
_ = meshFondFiss.GroupOnGeom(groupEdgeFondFiss, "FONDFISS", SMESH.EDGE)
_ = meshFondFiss.GroupOnGeom(groupEdgeFondFiss, "nfondfis", SMESH.NODE)
groups_demiCercles = list()
groupnodes_demiCercles = list()
for i, group in enumerate(groupsDemiCerclesPipe):
name = "Cercle%d"%i
groups_demiCercles.append(meshFondFiss.GroupOnGeom(group, name, SMESH.EDGE))
name = "nCercle%d"%i
groupnodes_demiCercles.append(meshFondFiss.GroupOnGeom(group, name, SMESH.NODE))
group_generFiss = meshFondFiss.GroupOnGeom(groupGenerFiss, "GenFiss", SMESH.EDGE)
groupnode_generFiss = meshFondFiss.GroupOnGeom(groupGenerFiss, "GenFiss", SMESH.NODE)
is_done = meshFondFiss.Compute()
text = "meshFondFiss.Compute"
if is_done:
logging.info(text+" OK")
else:
text = "Erreur au calcul du maillage.\n" + text
logging.info(text)
raise Exception(text)
grpNode0 = meshFondFiss.IntersectGroups(groupnode_generFiss, groupnodes_demiCercles[0], "Node0")
grpNode1 = meshFondFiss.IntersectGroups(groupnode_generFiss, groupnodes_demiCercles[1], "Node1")
idNode0 = grpNode0.GetID(1)
idNode1 = grpNode1.GetID(1)
coordsMesh = list()
coordsMesh.append(meshFondFiss.GetNodeXYZ(idNode0))
coordsMesh.append(meshFondFiss.GetNodeXYZ(idNode1))
for vertex in verticesEdgePeauFiss:
coord = geompy.PointCoordinates(vertex)
if distance2(coord, coordsMesh[0]) < 0.1:
meshFondFiss.MoveNode(idNode0, coord[0], coord[1], coord[2])
if distance2(coord, coordsMesh[1]) < 0.1:
meshFondFiss.MoveNode(idNode1, coord[0], coord[1], coord[2])
for groupNodes in groupnodes_demiCercles:
for idNode in groupNodes.GetListOfID():
coordMesh = meshFondFiss.GetNodeXYZ(idNode)
vertex = geompy.MakeVertex(coordMesh[0], coordMesh[1], coordMesh[2])
minDist = 100000
minCoord = None
imin = -1
for i, edge in enumerate(demiCerclesPeau):
discoord = geompy.MinDistanceComponents(vertex, edge)
if discoord[0] <minDist:
minDist = discoord[0]
minCoord = discoord[1:]
imin = i
if imin >= 0 and minDist > 1.E-6:
logging.debug("node id moved : %s distance=%s", idNode, minDist)
meshFondFiss.MoveNode(idNode, coordMesh[0] + minCoord[0], coordMesh[1] + minCoord[1], coordMesh[2] + minCoord[2])
return meshFondFiss, groups_demiCercles, group_generFiss, nbSegGenLong, nbSegGenBout

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src/Tools/blocFissure/gmu/insereFissureLongue_b.py Normal file
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@ -0,0 +1,94 @@
# -*- coding: utf-8 -*-
# Copyright (C) 2014-2020 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, 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
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
#
"""Insertion de fissure longue - maillage face de peau"""
import logging
import salome
from .geomsmesh import geompy
from .geomsmesh import smesh
from salome.smesh import smeshBuilder
import SMESH
from .putName import putName
def insereFissureLongue_b (facePeau, edgePeauFiss, groupEdgesBordPeau, bordsLibres, \
groupsDemiCerclesPeau, groups_demiCercles, verticesOutCercles, \
nbSegGenLong, nbSegGenBout, profondeur):
"""maillage face de peau"""
logging.info('start')
meshFacePeau = smesh.Mesh(facePeau)
algo2d = meshFacePeau.Triangle(algo=smeshBuilder.NETGEN_2D)
hypo2d = algo2d.Parameters()
hypo2d.SetMaxSize( 1000 )
hypo2d.SetOptimize( 1 )
hypo2d.SetFineness( 2 )
hypo2d.SetMinSize( 2 )
hypo2d.SetQuadAllowed( 0 )
putName(algo2d.GetSubMesh(), "facePeau")
putName(algo2d, "algo2d_facePeau")
putName(hypo2d, "hypo2d_facePeau")
#
lenEdgePeauFiss = geompy.BasicProperties(edgePeauFiss)[0]
frac = profondeur/lenEdgePeauFiss
nbSeg = nbSegGenLong +2*nbSegGenBout
ratio = (nbSegGenBout/float(profondeur)) / (nbSegGenLong/lenEdgePeauFiss)
logging.info("lenEdgePeauFiss %s, profondeur %s, nbSegGenLong %s, nbSegGenBout %s, frac %s, ratio %s", lenEdgePeauFiss, profondeur, nbSegGenLong, nbSegGenBout, frac, ratio)
algo1d = meshFacePeau.Segment(geom=edgePeauFiss)
hypo1d = algo1d.NumberOfSegments(nbSeg,list(),[ ])
hypo1d.SetDistrType( 2 )
hypo1d.SetConversionMode( 1 )
hypo1d.SetTableFunction( [ 0, ratio, frac, 1, (1.-frac), 1, 1, ratio ] )
putName(algo1d.GetSubMesh(), "edgePeauFiss")
putName(algo1d, "algo1d_edgePeauFiss")
putName(hypo1d, "hypo1d_edgePeauFiss")
#
algo1d = meshFacePeau.UseExisting1DElements(geom=groupEdgesBordPeau)
hypo1d = algo1d.SourceEdges([ bordsLibres ],0,0)
putName(algo1d.GetSubMesh(), "bordsLibres")
putName(algo1d, "algo1d_bordsLibres")
putName(hypo1d, "hypo1d_bordsLibres")
#
for i in range(2):
algo1d = meshFacePeau.UseExisting1DElements(geom=groupsDemiCerclesPeau[i])
hypo1d = algo1d.SourceEdges([ groups_demiCercles[i] ],0,0)
putName(algo1d.GetSubMesh(), "DemiCercles", i)
putName(algo1d, "algo1d_groupDemiCercles", i)
putName(hypo1d, "hypo1d_groupDemiCercles", i)
_ = meshFacePeau.GroupOnGeom(verticesOutCercles[0], "THOR", SMESH.NODE)
_ = meshFacePeau.GroupOnGeom(verticesOutCercles[1], "THEX", SMESH.NODE)
groupEdgesPeauFiss = meshFacePeau.GroupOnGeom(edgePeauFiss, "PeauFis", SMESH.EDGE)
is_done = meshFacePeau.Compute()
text = "meshFacePeau.Compute"
if is_done:
logging.info(text+" OK")
else:
text = "Erreur au calcul du maillage.\n" + text
logging.info(text)
raise Exception(text)
peauext_face = meshFacePeau.CreateEmptyGroup( SMESH.FACE, 'PEAUEXT' )
_ = peauext_face.AddFrom( meshFacePeau.GetMesh() )
return meshFacePeau, groupEdgesPeauFiss

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# -*- coding: utf-8 -*-
# Copyright (C) 2014-2020 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, 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
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
#
"""Insertion de fissure longue - maillage face de fissure"""
import logging
import salome
from .geomsmesh import smesh
from salome.smesh import smeshBuilder
import SMESH
from .putName import putName
import math
def insereFissureLongue_c (faceFiss, edgePeauFiss, groupEdgesPeauFiss, group_generFiss, groupEdgesFaceFissPipe, \
profondeur, rayonPipe):
"""maillage face de fissure"""
logging.info('start')
meshFaceFiss = smesh.Mesh(faceFiss)
algo2d = meshFaceFiss.Triangle(algo=smeshBuilder.NETGEN_2D)
hypo2d = algo2d.Parameters()
hypo2d.SetMaxSize( (profondeur - rayonPipe)/math.sqrt(3.0) ) # pour avoir deux couches de triangles equilateraux partout sur la fissure
hypo2d.SetOptimize( 1 )
hypo2d.SetFineness( 2 )
hypo2d.SetMinSize( 2 )
hypo2d.SetQuadAllowed( 0 )
putName(algo2d.GetSubMesh(), "faceFiss")
putName(algo2d, "algo2d_faceFiss")
putName(hypo2d, "hypo2d_faceFiss")
#
algo1d = meshFaceFiss.UseExisting1DElements(geom=edgePeauFiss)
hypo1d = algo1d.SourceEdges([ groupEdgesPeauFiss ],0,0)
putName(algo1d.GetSubMesh(), "edgeFissPeau")
putName(algo1d, "algo1d_edgeFissPeau")
putName(hypo1d, "hypo1d_edgeFissPeau")
#
algo1d = meshFaceFiss.UseExisting1DElements(geom=groupEdgesFaceFissPipe)
hypo1d = algo1d.SourceEdges([ group_generFiss ],0,0)
putName(algo1d.GetSubMesh(), "edgeFissPeau")
putName(algo1d, "algo1d_edgeFissPeau")
putName(hypo1d, "hypo1d_edgeFissPeau")
_ = meshFaceFiss.GroupOnGeom(faceFiss, "fisOutPi", SMESH.FACE)
is_done = meshFaceFiss.Compute()
text = "meshFaceFiss.Compute"
if is_done:
logging.info(text+" OK")
else:
text = "Erreur au calcul du maillage.\n" + text
logging.info(text)
raise Exception(text)
return meshFaceFiss

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# -*- coding: utf-8 -*-
# Copyright (C) 2014-2020 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, 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
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
#
"""Insertion de fissure longue - maillage meshBoiteDefaut"""
import logging
import salome
from .geomsmesh import smesh
from salome.smesh import smeshBuilder
import SMESH
from .putName import putName
def insereFissureLongue_d (internalBoundary, meshFondFiss, meshFacePeau, meshFaceFiss, \
distene = True):
"""maillage meshBoiteDefaut"""
logging.info('start')
meshBoiteDefaut = smesh.Concatenate( [internalBoundary.GetMesh(), \
meshFondFiss.GetMesh(), \
meshFacePeau.GetMesh(), \
meshFaceFiss.GetMesh()], \
1, 1, 1e-05,False)
# pour aider l'algo hexa-tetra a ne pas mettre de pyramides a l'exterieur des volumes replies sur eux-memes
# on designe les faces de peau en quadrangles par le groupe "skinFaces"
group_faceFissOutPipe = None
group_faceFissInPipe = None
groups = meshBoiteDefaut.GetGroups()
for grp in groups:
if grp.GetType() == SMESH.FACE:
#if "internalBoundary" in grp.GetName():
# grp.SetName("skinFaces")
if grp.GetName() == "fisOutPi":
group_faceFissOutPipe = grp
elif grp.GetName() == "fisInPi":
group_faceFissInPipe = grp
# le maillage NETGEN ne passe pas toujours ==> utiliser GHS3D
if distene:
algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.GHS3D)
else:
algo3d = meshBoiteDefaut.Tetrahedron(algo=smeshBuilder.NETGEN)
hypo3d = algo3d.MaxElementVolume(1000.0)
putName(algo3d.GetSubMesh(), "boiteDefaut")
putName(algo3d, "algo3d_boiteDefaut")
putName(meshBoiteDefaut, "boiteDefaut")
is_done = meshBoiteDefaut.Compute()
text = "meshBoiteDefaut.Compute"
if is_done:
logging.info(text+" OK")
else:
text = "Erreur au calcul du maillage.\n" + text
logging.info(text)
raise Exception(text)
return meshBoiteDefaut, group_faceFissInPipe, group_faceFissOutPipe