+# -*- 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