#
# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
#
-
-#==============================================================================
-# Info.
-# Bug (from script, bug) : hexaedre_modified.py, PAL6194, PAL7153
-# Modified : 25/11/2004
-# Author : Kovaltchuk Alexey
-# Project : PAL/SALOME
-#==============================================================================
-#
import salome
import geompy
import smesh
-import math
-
# -----------------------------------------------------------------------------
geom = salome.lcc.FindOrLoadComponent("FactoryServer", "GEOM")
-myBuilder = salome.myStudy.NewBuilder()
-gg = salome.ImportComponentGUI("GEOM")
-
-ShapeTypeCompSolid = 1
-ShapeTypeSolid = 2
-ShapeTypeShell = 3
-ShapeTypeFace = 4
-ShapeTypeWire = 5
-ShapeTypeEdge = 6
-ShapeTypeVertex = 7
-
-Boolop_common = 1
-Boolop_cut = 2
-Boolop_fuse = 3
-Boolop_section = 4
p0 = geompy.MakeVertex(0., 0., 0.)
px = geompy.MakeVertex(100., 0., 0.)
idblob = geompy.addToStudy(blob,"blob")
-aretes = []
-aretes = geompy.SubShapeAllSorted(blob, ShapeTypeEdge)
-eid=0
-
-# -------------------------------
-# --- numerotation des aretes
-##for edge in aretes:
-## edname="arete%d"%eid
-## idedge=geompy.addToStudy(edge,edname)
-## eid=eid+1
+edgeGroups = geompy.Propagate( blob )
+assert len( edgeGroups ) == 3
salome.sg.updateObjBrowser(1)
-# --- epaisseur 0 2 8 10
-# --- hauteur 1 3 9 11
-# --- largeur 4 5 6 7
-
# -----------------------------------------------------------------------------
print "-------------------------- mesh"
smesh.SetCurrentStudy(salome.myStudy)
-# ---- init a Mesh with the geom shape
-shape_mesh = blob
-mesh=smesh.Mesh(shape_mesh, "MeshBlob")
+# ---- define a mesh on the geom shape 'blob'
+mesh=smesh.Mesh(blob, "MeshBlob")
-# ---- add hypothesis and algorithms to mesh
+# ---- assign global hypothesis and algorithms to mesh
print "-------------------------- add hypothesis to mesh"
algo1 = mesh.Segment()
algo2 = mesh.Quadrangle()
algo3 = mesh.Hexahedron()
-numberOfSegmentsA = 4
-
-algo = mesh.Segment(aretes[0])
-algo.NumberOfSegments(numberOfSegmentsA)
-algo = mesh.Segment(aretes[2])
-algo.NumberOfSegments(numberOfSegmentsA)
-algo = mesh.Segment(aretes[8])
-algo.NumberOfSegments(numberOfSegmentsA)
-algo = mesh.Segment(aretes[10])
-algo.NumberOfSegments(numberOfSegmentsA)
-
-
-numberOfSegmentsC = 15
-
-algo = mesh.Segment(aretes[1])
-algo.NumberOfSegments(numberOfSegmentsC)
-algo = mesh.Segment(aretes[3])
-algo.NumberOfSegments(numberOfSegmentsC)
-algo = mesh.Segment(aretes[9])
-algo.NumberOfSegments(numberOfSegmentsC)
-algo = mesh.Segment(aretes[11])
-algo.NumberOfSegments(numberOfSegmentsC)
-
-
-numberOfSegmentsB = 10
-algo = mesh.Segment(aretes[4])
-algo.NumberOfSegments(numberOfSegmentsB)
-algo = mesh.Segment(aretes[5])
-algo.NumberOfSegments(numberOfSegmentsB)
-algo = mesh.Segment(aretes[6])
-algo.NumberOfSegments(numberOfSegmentsB)
-algo = mesh.Segment(aretes[7])
-algo.NumberOfSegments(numberOfSegmentsB)
-
+# ---- assign local hypothesis and algorithms to mesh
+for edges in edgeGroups: # loop on groups of logically parallel edges
+ length = geompy.BasicProperties( edges )[0]
+ if length < 500: nbSeg = 4
+ elif length < 2000: nbSeg = 10
+ else: nbSeg = 15
+ algo = mesh.Segment( edges )
+ algo.NumberOfSegments( nbSeg )
+ pass
# ---- compute mesh
-
print "-------------------------- compute mesh"
-ret=mesh.Compute()
-print ret
-if ret != 0:
- #log=mesh.GetLog(0) # no erase trace
- #for linelog in log:
- # print linelog
+ok = mesh.Compute()
+if ok:
print "Information about the Mesh:"
print "Number of nodes : ", mesh.NbNodes()
print "Number of edges : ", mesh.NbEdges()
