anisotropy/temp/mutils.old.py

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2021-03-15 16:16:48 +05:00
import salome, GEOM, SMESH, SALOMEDS
from salome.geom import geomBuilder
from salome.smesh import smeshBuilder
import math
import os, sys
import logging
import time
from datetime import timedelta
def meshCreate(gobj, boundary, fineness, viscousLayers=None):
"""
Creates a mesh from a geometry.
Parameters:
fineness (int): Fineness of mesh.
0 - Very coarse,
1 - Coarse,
2 - Moderate,
3 - Fine,
4 - Very fine.
viscousLayers (dict or None): Defines viscous layers for mesh.
By default, inlets and outlets specified without layers.
{
"thickness": float,
"number": int,
"stretch": float
}
Returns:
Configured instance of class <SMESH.SMESH_Mesh>, containig the parameters and boundary groups.
"""
smesh = smeshBuilder.New()
Fineness = {
0: "Very coarse",
1: "Coarse",
2: "Moderate",
3: "Fine",
4: "Very fine"
}[fineness]
logging.info("meshCreate: mesh fineness - {}".format(Fineness))
mesh = smesh.Mesh(gobj)
netgen = mesh.Tetrahedron(algo=smeshBuilder.NETGEN_1D2D3D)
param = netgen.Parameters()
param.SetSecondOrder( 0 )
param.SetOptimize( 1 )
param.SetChordalError( -1 )
param.SetChordalErrorEnabled( 0 )
param.SetUseSurfaceCurvature( 1 )
param.SetFuseEdges( 1 )
param.SetCheckChartBoundary( 0 )
param.SetMinSize( 0.01 )
param.SetMaxSize( 0.1 )
param.SetFineness(fineness)
#param.SetGrowthRate( 0.1 )
#param.SetNbSegPerEdge( 5 )
#param.SetNbSegPerRadius( 10 )
param.SetQuadAllowed( 0 )
if not viscousLayers is None:
logging.info("meshCreate: viscous layers params - thickness = {}, number = {}, stretch factor = {}".format(
viscousLayers["thickness"], viscousLayers["number"], viscousLayers["stretch"]))
vlayer = netgen.ViscousLayers(
viscousLayers["thickness"],
viscousLayers["number"],
viscousLayers["stretch"],
[boundary["inlet"], boundary["outlet"]],
1, smeshBuilder.NODE_OFFSET)
else:
logging.info("meshCreate: viscous layers are disabled")
for name, b in boundary.items():
mesh.GroupOnGeom(b, "{}_".format(name), SMESH.FACE)
return mesh
def meshCompute(mobj):
"""Compute the mesh."""
status = mobj.Compute()
if status:
logging.info("Mesh succesfully computed.")
else:
logging.warning("Mesh is not computed.")
def meshExport(mobj, path):
"""
Export the mesh in a file in UNV format.
Parameters:
path (string): full path to the expected directory.
"""
exportpath = os.path.join(path, "{}.unv".format(mobj.name))
try:
mobj.ExportUNV(exportpath)
except:
logging.error("Cannot export mesh to '{}'".format(exportpath))