--- /dev/null
+#
+# Tetrahedrization of the geometry union of 3 boxes aligned where the middle
+# one has a race in common with the two others.
+# Hypothesis and algorithms for the mesh generation are global
+#
+
+import salome
+from salome import sg
+
+import geompy
+
+import SMESH
+import smeshpy
+
+geom = geompy.geom
+myBuilder = geompy.myBuilder
+
+ShapeTypeShell = 3
+ShapeTypeFace = 4
+ShapeTypeEdge = 6
+
+# ---- define 3 boxes box1, box2 and box3
+
+box1 = geompy.MakeBox(0., 0., 0., 100., 200., 300.)
+
+idbox1 = geompy.addToStudy(box1,"box1")
+
+print "Analysis of the geometry box1 :"
+subShellList=geompy.SubShapeAll(box1,ShapeTypeShell)
+subFaceList=geompy.SubShapeAll(box1,ShapeTypeFace)
+subEdgeList=geompy.SubShapeAll(box1,ShapeTypeEdge)
+
+print "number of Shells in box1 : ",len(subShellList)
+print "number of Faces in box1 : ",len(subFaceList)
+print "number of Edges in box1 : ",len(subEdgeList)
+
+box2 = geompy.MakeBox(100., 0., 0., 200., 200., 300.)
+
+idbox2 = geompy.addToStudy(box2,"box2")
+
+print "Analysis of the geometry box2 :"
+subShellList=geompy.SubShapeAll(box2,ShapeTypeShell)
+subFaceList=geompy.SubShapeAll(box2,ShapeTypeFace)
+subEdgeList=geompy.SubShapeAll(box2,ShapeTypeEdge)
+
+print "number of Shells in box2 : ",len(subShellList)
+print "number of Faces in box2 : ",len(subFaceList)
+print "number of Edges in box2 : ",len(subEdgeList)
+
+box3 = geompy.MakeBox(0., 0., 300., 200., 200., 500.)
+
+idbox3 = geompy.addToStudy(box3,"box3")
+
+print "Analysis of the geometry box3 :"
+subShellList=geompy.SubShapeAll(box3,ShapeTypeShell)
+subFaceList=geompy.SubShapeAll(box3,ShapeTypeFace)
+subEdgeList=geompy.SubShapeAll(box3,ShapeTypeEdge)
+
+print "number of Shells in box3 : ",len(subShellList)
+print "number of Faces in box3 : ",len(subFaceList)
+print "number of Edges in box3 : ",len(subEdgeList)
+
+blocs = []
+blocs.append(box1._get_Name())
+blocs.append(box2._get_Name())
+blocs.append(box3._get_Name())
+
+shell = geompy.Partition(blocs)
+idshell = geompy.addToStudy(shell,"shell")
+
+print "Analysis of the geometry shell (union of box1, box2 and box3) :"
+subShellList=geompy.SubShapeAll(shell,ShapeTypeShell)
+subFaceList=geompy.SubShapeAll(shell,ShapeTypeFace)
+subEdgeList=geompy.SubShapeAll(shell,ShapeTypeEdge)
+
+print "number of Shells in shell : ",len(subShellList)
+print "number of Faces in shell : ",len(subFaceList)
+print "number of Edges in shell : ",len(subEdgeList)
+
+# ---- launch SMESH
+
+smeshgui = salome.ImportComponentGUI("SMESH")
+smeshgui.Init(salome.myStudyId)
+
+gen=smeshpy.smeshpy()
+
+# ---- create Hypothesis
+
+print "-------------------------- create Hypothesis"
+
+print "-------------------------- NumberOfSegments"
+
+numberOfSegments = 10
+
+hyp1=gen.CreateHypothesis("NumberOfSegments")
+hypNbSeg=hyp1._narrow(SMESH.SMESH_NumberOfSegments)
+hypNbSeg.SetNumberOfSegments(numberOfSegments)
+hypNbSegID = hypNbSeg.GetId()
+print hypNbSeg.GetName()
+print hypNbSegID
+print hypNbSeg.GetNumberOfSegments()
+
+idseg = smeshgui.AddNewHypothesis( salome.orb.object_to_string(hypNbSeg) )
+smeshgui.SetName(idseg, "NumberOfSegments")
+
+print "-------------------------- MaxElementArea"
+
+maxElementArea = 500
+
+hyp2=gen.CreateHypothesis("MaxElementArea")
+hypArea=hyp2._narrow(SMESH.SMESH_MaxElementArea)
+hypArea.SetMaxElementArea(maxElementArea)
+print hypArea.GetName()
+print hypArea.GetId()
+print hypArea.GetMaxElementArea()
+
+idarea = smeshgui.AddNewHypothesis( salome.orb.object_to_string(hypArea) )
+smeshgui.SetName(idarea, "MaxElementArea")
+
+print "-------------------------- MaxElementVolume"
+
+maxElementVolume = 500
+
+hyp3=gen.CreateHypothesis("MaxElementVolume")
+hypVolume=hyp3._narrow(SMESH.SMESH_MaxElementVolume)
+hypVolume.SetMaxElementVolume(maxElementVolume)
+print hypVolume.GetName()
+print hypVolume.GetId()
+print hypVolume.GetMaxElementVolume()
+
+idvolume = smeshgui.AddNewHypothesis( salome.orb.object_to_string(hypVolume) )
+smeshgui.SetName(idvolume, "MaxElementVolume")
+
+# ---- create Algorithms
+
+print "-------------------------- create Algorithms"
+
+print "-------------------------- Regular_1D"
+
+hypothesis=gen.CreateHypothesis("Regular_1D")
+regular1D = hypothesis._narrow(SMESH.SMESH_Regular_1D)
+regularID = smeshgui.AddNewAlgorithms( salome.orb.object_to_string(regular1D) )
+smeshgui.SetName(regularID, "Wire Discretisation")
+
+print "-------------------------- MEFISTO_2D"
+
+hypothesis=gen.CreateHypothesis("MEFISTO_2D")
+mefisto2D = hypothesis._narrow(SMESH.SMESH_MEFISTO_2D)
+mefistoID = smeshgui.AddNewAlgorithms( salome.orb.object_to_string(mefisto2D) )
+smeshgui.SetName(mefistoID, "MEFISTO_2D")
+
+print "-------------------------- Tetra_3D"
+
+hypothesis=gen.CreateHypothesis("Tetra_3D")
+tetra3D = hypothesis._narrow(SMESH.SMESH_Tetra_3D)
+tetraID = smeshgui.AddNewAlgorithms( salome.orb.object_to_string(tetra3D) )
+smeshgui.SetName(tetraID, "Tetra_3D")
+
+# ---- init a Mesh with the shell
+
+mesh=gen.Init(idshell)
+idmesh = smeshgui.AddNewMesh( salome.orb.object_to_string(mesh) )
+smeshgui.SetName(idmesh, "MeshBox2")
+smeshgui.SetShape(idshell, idmesh)
+
+# ---- add hypothesis to shell
+
+print "-------------------------- add hypothesis to shell"
+
+ret=mesh.AddHypothesis(shell,regular1D)
+print ret
+ret=mesh.AddHypothesis(shell,hypNbSeg)
+print ret
+ret=mesh.AddHypothesis(shell,mefisto2D)
+print ret
+ret=mesh.AddHypothesis(shell,hypArea)
+print ret
+ret=mesh.AddHypothesis(shell,tetra3D)
+print ret
+ret=mesh.AddHypothesis(shell,hypVolume)
+print ret
+
+smeshgui.SetAlgorithms( idmesh, regularID)
+smeshgui.SetHypothesis( idmesh, idseg )
+smeshgui.SetAlgorithms( idmesh, mefistoID )
+smeshgui.SetHypothesis( idmesh, idarea )
+smeshgui.SetAlgorithms( idmesh, tetraID )
+smeshgui.SetHypothesis( idmesh, idvolume )
+
+sg.updateObjBrowser(1)
+
+
+print "-------------------------- compute shell"
+ret=gen.Compute(mesh,idshell)
+print ret
+log=mesh.GetLog(0) # no erase trace
+for linelog in log:
+ print linelog
+
+
+sg.updateObjBrowser(1)