# ---------------------------------------------------------------------------
def genereGeometrieSaine(self, geomParams):
+ """a écrire"""
logging.info("genereGeometrieSaine %s", self.nomCas)
angleCoude = geomParams['angleCoude']
P2 = geompy.MakeTranslationVectorDistance(P2, Rotation_2, -l_tube_p2)
geomPublish(initLog.always, P2, "P2", self.numeroCas )
-
# --- tube coude sain
geometrieSaine = geompy.MakePartition([Extrusion_1, Revolution_1, Extrusion_2, P1, P2], [Plane_1], [], [], geompy.ShapeType["SOLID"], 0, [], 1)
pp2 = geompy.MakeTranslationVectorDistance(P2, Rotation_2, 10)
vec2 = geompy.MakeVector(P2, pp2)
- #geomPublish(initLog.debug,vec2, 'vec2')
+ #geomPublish(initLog.debug, vec2, 'vec2', self.numeroCas)
facesIds = geompy.GetShapesOnPlaneIDs(geometrieSaine, geompy.ShapeType["FACE"], vec2, GEOM.ST_ON)
CLGV = geompy.CreateGroup(geometrieSaine, geompy.ShapeType["FACE"])
geompy.UnionIDs(CLGV, facesIds)
extru2 = geompy.MakePrismVecH(rot1, Rotation_2, -l_tube_p2)
interne = geompy.MakeFuse(extru1, revol1)
interne = geompy.MakeFuse(extru2, interne)
- geomPublish(initLog.debug,interne, 'interne')
+ geomPublish(initLog.debug, interne, 'interne', self.numeroCas)
facesIds = geompy.GetShapesOnShapeIDs(interne, geometrieSaine, geompy.ShapeType["FACE"], GEOM.ST_ONIN)
PEAUINT = geompy.CreateGroup(geometrieSaine, geompy.ShapeType["FACE"])
geompy.UnionIDs(PEAUINT, facesIds)
extru2 = geompy.MakePrismVecH(rot1, Rotation_2, -l_tube_p2)
externe = geompy.MakeFuse(extru1, revol1)
externe = geompy.MakeFuse(extru2, externe)
- geomPublish(initLog.debug,externe, 'externe')
+ geomPublish(initLog.debug, externe, 'externe', self.numeroCas)
facesIds = geompy.GetShapesOnShapeIDs(externe, geometrieSaine, geompy.ShapeType["FACE"], GEOM.ST_ON)
PEAUEXT = geompy.CreateGroup(geometrieSaine, geompy.ShapeType["FACE"])
geompy.UnionIDs(PEAUEXT, facesIds)
n_long_p2 = meshParams['n_long_p2']
maillageSain = smesh.Mesh(geometrieSaine)
+ putName(maillageSain, "maillageSain", i_pref=self.numeroCas)
algo3d = maillageSain.Hexahedron()
algo2d = maillageSain.Quadrangle()
- putName(algo3d, "3d_maillageSain", i_pref=self.numeroCas)
- putName(algo2d, "2d_maillageSain", i_pref=self.numeroCas)
algo1d_long_p1 = maillageSain.Segment(geom=long_p1)
hypo1d_long_p1 = algo1d_long_p1.NumberOfSegments(n_long_p1)
- putName(algo1d_long_p1, "algo1d_long_p1", i_pref=self.numeroCas)
- putName(hypo1d_long_p1, "hypo1d_long_p1", i_pref=self.numeroCas)
+ putName(hypo1d_long_p1, "n_long_p1={}".format(n_long_p1), i_pref=self.numeroCas)
algo1d_ep = maillageSain.Segment(geom=ep)
hypo1d_ep = algo1d_ep.NumberOfSegments(n_ep)
- putName(algo1d_ep, "algo1d_ep", i_pref=self.numeroCas)
- putName(hypo1d_ep, "hypo1d_ep", i_pref=self.numeroCas)
+ putName(hypo1d_ep, "n_ep={}".format(n_ep), i_pref=self.numeroCas)
algo1d_long_coude = maillageSain.Segment(geom=long_coude)
hypo1d_long_coude = algo1d_long_coude.NumberOfSegments(n_long_coude)
- putName(algo1d_long_coude, "algo1d_long_coude", i_pref=self.numeroCas)
- putName(hypo1d_long_coude, "hypo1d_long_coude", i_pref=self.numeroCas)
+ putName(hypo1d_long_coude, "n_long_coude={}".format(n_long_coude), i_pref=self.numeroCas)
algo1d_circ_g = maillageSain.Segment(geom=circ_g)
hypo1d_circ_g = algo1d_circ_g.NumberOfSegments(n_circ_g)
- putName(algo1d_circ_g, "algo1d_circ_g", i_pref=self.numeroCas)
- putName(hypo1d_circ_g, "hypo1d_circ_g", i_pref=self.numeroCas)
+ putName(hypo1d_circ_g, "n_circ_g={}".format(n_circ_g), i_pref=self.numeroCas)
algo1d_circ_d = maillageSain.Segment(geom=circ_d)
hypo1d_circ_d = algo1d_circ_d.NumberOfSegments(n_circ_d)
- putName(algo1d_circ_d, "algo1d_circ_d", i_pref=self.numeroCas)
- putName(hypo1d_circ_d, "hypo1d_circ_d", i_pref=self.numeroCas)
+ putName(hypo1d_circ_d, "n_circ_d={}".format(n_circ_d), i_pref=self.numeroCas)
algo1d_long_p2 = maillageSain.Segment(geom=long_p2)
hypo1d_long_p2 = algo1d_long_p2.NumberOfSegments(n_long_p2)
- putName(algo1d_long_p2, "algo1d_long_p2", i_pref=self.numeroCas)
- putName(hypo1d_long_p2, "hypo1d_long_p2", i_pref=self.numeroCas)
+ putName(hypo1d_long_p2, "n_long_p2={}".format(n_long_p2), i_pref=self.numeroCas)
_ = maillageSain.GroupOnGeom(P1,'P1',SMESH.NODE)
_ = maillageSain.GroupOnGeom(P2,'P2',SMESH.NODE)
_ = maillageSain.GroupOnGeom(PEAUEXT,'PEAUEXT',SMESH.FACE)
_ = maillageSain.GroupOnGeom(COUDE,'COUDSAIN',SMESH.VOLUME)
- _ = maillageSain.Compute()
+ is_done = maillageSain.Compute()
+ text = "maillageSain.Compute"
+ if is_done:
+ logging.info(text+" OK")
+ else:
+ text = "Erreur au calcul du maillage.\n" + text
+ logging.info(text)
+ raise Exception(text)
return [maillageSain, True] # True : maillage hexa
# ---------------------------------------------------------------------------
def setParamShapeFissure(self):
"""
- paramètres de la fissure
+ paramètres de la fissure pour le tuyau coude
profondeur : 0 < profondeur <= épaisseur
azimut : entre 0 et 360°
alpha : 0 < alpha < angleCoude
# ---------------------------------------------------------------------------
def setParamMaillageFissure(self):
self.maillageFissureParams = dict(nomRep = os.curdir,
- nomFicSain = self.nomCas,
- nomFicFissure = self.nomCas + "_fissure",
+ nomFicSain = self.nomProbleme,
+ nomFicFissure = self.nomProbleme + "_fissure",
nbsegExt = 5,
nbsegGen = 25,
nbsegRad = 5,