import logging
from geomsmesh import geompy
+from geomsmesh import geomPublish
+from geomsmesh import geomPublishInFather
+import initLog
# -----------------------------------------------------------------------------
# --- partition du bloc defaut par generatrice, tore et plan fissure
faceFissure = geompy.GetInPlaceByHistory(volDefautPart, facefis)
#ellipsoidep =geompy.GetInPlaceByHistory(volDefautPart, ellipsoide)
- geompy.addToStudy( volDefautPart, 'volDefautPart' )
- geompy.addToStudyInFather( volDefautPart, tore, 'tore' )
- geompy.addToStudyInFather( volDefautPart, faceFissure, 'FACE1' )
- #geompy.addToStudyInFather( volDefautPart, gencnt, 'generatrice' )
+ geomPublish(initLog.debug, volDefautPart, 'volDefautPart' )
+ geomPublishInFather(initLog.debug, volDefautPart, tore, 'tore' )
+ geomPublishInFather(initLog.debug, volDefautPart, faceFissure, 'FACE1' )
+ #geomPublishInFather(initLog.debug, volDefautPart, gencnt, 'generatrice' )
solids = geompy.ExtractShapes(blocp, geompy.ShapeType["SOLID"], True)
vols = []
imaxvol = vols.index(maxvol)
ellipsoidep = solids[imaxvol]
- geompy.addToStudyInFather( volDefautPart, blocp, 'bloc' )
- geompy.addToStudyInFather( volDefautPart, ellipsoidep, 'ellipsoide' )
+ geomPublishInFather(initLog.debug, volDefautPart, blocp, 'bloc' )
+ geomPublishInFather(initLog.debug, volDefautPart, ellipsoidep, 'ellipsoide' )
sharedFaces = geompy.GetSharedShapesMulti([blocp, ellipsoidep], geompy.ShapeType["FACE"])
for i in range(len(sharedFaces)):
name = "faceCommuneEllipsoideBloc_%d"%i
- geompy.addToStudyInFather(blocp, sharedFaces[i], name)
+ geomPublishInFather(initLog.debug,blocp, sharedFaces[i], name)
#sharedEdges = geompy.GetSharedShapesMulti([blocp, ellipsoidep], geompy.ShapeType["EDGE"])
allSharedEdges = geompy.GetSharedShapesMulti([blocp, ellipsoidep], geompy.ShapeType["EDGE"])
sharedEdges.append(allSharedEdges[i])
for i in range(len(sharedEdges)):
name = "edgeCommuneEllipsoideBloc_%d"%i
- geompy.addToStudyInFather(blocp, sharedEdges[i], name)
+ geomPublishInFather(initLog.debug,blocp, sharedEdges[i], name)
facesExternes = []
facesExtBloc = []
faceExt = geompy.GetInPlace(ellipsoidep, faces[i])
if faceExt is not None:
name = "faceExterne_e%d"%i
- geompy.addToStudyInFather(ellipsoidep, faceExt, name)
+ geomPublishInFather(initLog.debug,ellipsoidep, faceExt, name)
facesExternes.append(faceExt)
facesExtElli.append(faceExt)
faceExt = geompy.GetInPlace(blocp, faces[i])
if faceExt is not None:
name = "faceExterne_b%d"%i
- geompy.addToStudyInFather(blocp, faceExt, name)
+ geomPublishInFather(initLog.debug,blocp, faceExt, name)
facesExternes.append(faceExt)
facesExtBloc.append(faceExt)
else:
#extrusionFace = geompy.MakePrismVecH2Ways(faces[i], normal, 0.1)
#extrusionFace = geompy.MakeScaleTransform(extrusionFace, vertex, 1.01)
name = "extrusionFace_b%d"%i
- geompy.addToStudyInFather(blocp, extrusionFace, name)
+ geomPublishInFather(initLog.debug,blocp, extrusionFace, name)
#facesExt = geompy.GetShapesOnShape(extrusionFace, blocp, geompy.ShapeType["FACE"], GEOM.ST_ONIN)
facesExt = geompy.GetShapesOnShape(extrusionFace, blocp, geompy.ShapeType["FACE"], GEOM.ST_ON)
for j in range(len(facesExt)):
name = "faceExterne_b%d_%d"%(i,j)
- geompy.addToStudyInFather(blocp, facesExt[j], name)
+ geomPublishInFather(initLog.debug,blocp, facesExt[j], name)
facesExternes.append(facesExt[j])
facesExtBloc.append(facesExt[j])
pass
if len(allSharedEdges) > 0:
name = "faceExterne_b%d_%d"%(i,j)
- geompy.addToStudyInFather(blocp, facesBloc[i], name)
+ geomPublishInFather(initLog.debug,blocp, facesBloc[i], name)
facesExternes.append(facesBloc[i])
facesExtBloc.append(facesBloc[i])
aretesInternes += shared
for i in range(len(aretesInternes)):
name = "aretesInternes_%d"%i
- geompy.addToStudyInFather(blocp, aretesInternes[i], name)
+ geomPublishInFather(initLog.debug,blocp, aretesInternes[i], name)
edgesBords = []
for faceExtB in facesExtBloc:
if not isInterne:
edgesBords.append(edges[i])
name = "edgeBord%d"%i
- geompy.addToStudyInFather(blocp,edges[i] , name)
+ geomPublishInFather(initLog.debug,blocp,edges[i] , name)
group = None
if len(edgesBords) > 0:
group = geompy.CreateGroup(blocp, geompy.ShapeType["EDGE"])