smesh/test/netgen_runner_2D.py
cconopoima a33b1ed60e [bos #38045][bos #38046] New SA versions of NETGEN and GMSH.
Add netgen_runner_test for 1D2D3D

add test for gmsh_runner

Improve test for netgen and gmsh. Add new versions in option mesher_launcher.py

Add test for Netgen2D SA version.

Test for Netgen 2D SA version.

Code cleanup.

Adapt mesher_launcher and add creating_parallel_gmsh_mesh.py test for Remote version of 3D GMSH.

test for parallel mesh for 2D using new netgen SA/Remote version. Add the possibility to export Mesh1D.med in SMESH_Gen.cxx at method parallelComputeSubMeshes. Modify the constructor of ParallelMesh class in smeshBuilder to handle 2D meshing in parallel.
2024-01-18 10:27:15 +00:00

183 lines
4.7 KiB
Python

#!/usr/bin/env python
import sys
import salome
salome.salome_init()
from os import path
import tempfile
import subprocess
import GEOM, SMESH, SALOMEDS
from salome.geom import geomBuilder
from salome.smesh import smeshBuilder
import math
smesh = smeshBuilder.New()
geompy = geomBuilder.New()
import medcoupling as mc
def create_param_file(param_file):
""" Create a parameter file for runner """
param = """1
34.641
0.14
16
0.15
1.5
0
0
1
5
1
1
-1
3
3
0.2
2
1
0
0
2
2
0
0
0
0"""
with open(param_file, "w") as ffile:
ffile.write(param)
def create_maxarea_param_file_2D(param_file,maxArea):
""" Create a parameter file for runner """
param = """1
{}
""".format(maxArea)
with open(param_file, "w") as ffile:
ffile.write(param)
def create_lenghtFromEdges_param_file_2D(param_file):
""" Create a parameter file for runner """
param = """1
"""
with open(param_file, "w") as ffile:
ffile.write(param)
def CommonFunction(netgen,case,numberOfEdges1D,hypo,maxArea):
# Building geometry
geometry = geompy.MakeBoxDXDYDZ(200, 200, 200)
# Create 1D regular elements
mesh_1d = smesh.Mesh(geometry, 'Maillage_1')
mesh_1d.Segment().NumberOfSegments(numberOfEdges1D)
isDone = mesh_1d.Compute()
if not isDone:
raise Exception("Error when computing Mesh")
smesh.SetName(mesh_1d, 'Maillage_1')
nb_points = 0
nb_segments = 0
nb_triangles = 0
nb_tetras = 0
with tempfile.TemporaryDirectory() as tmp_dir:
mesh_file = path.join(tmp_dir, "mesh.med")
shape_file = path.join(tmp_dir, "shape.brep")
if ( hypo == 0 ):
param_file = path.join(tmp_dir, "param.txt")
create_param_file(param_file )
if ( hypo == 1 ):
param_file = path.join(tmp_dir, "param_lenghtfromedge.txt")
create_lenghtFromEdges_param_file_2D(param_file )
if ( hypo == 2 ):
param_file = path.join(tmp_dir, "param_maxarea.txt")
create_maxarea_param_file_2D(param_file,maxArea)
bin_file = path.join(tmp_dir, "mesh.bin")
output_mesh = path.join(tmp_dir, "meshout.med")
print("Running in folder: ", tmp_dir)
mesh_1d.ExportMED(mesh_file, 0, 41, 1, mesh_1d, 1, [], '', -1, 1)
geompy.ExportBREP( geometry, shape_file )
runner = path.join("${NETGENPLUGIN_ROOT_DIR}",
"bin",
"salome",
"NETGENPlugin_Runner")
if sys.platform == 'win32':
runner += ".exe"
cmd = "{runner} {NETGEN} {mesh_file} {shape_file} "\
"{param_file} NONE {bin_file} {output_mesh}"\
.format(runner=runner,
NETGEN=netgen,
mesh_file=mesh_file,
shape_file=shape_file,
param_file=param_file,
bin_file=bin_file,
output_mesh=output_mesh)
print(cmd)
subprocess.check_call(cmd, shell=True)
mesh_read = mc.ReadUMeshFromFile(output_mesh, "MESH", 0)
nb_points = mesh_read.getNumberOfNodes()
if (case == 2):
nb_triangles = mesh_read.getNumberOfCellsWithType(mc.NORM_TRI3)
mesh_read = mc.ReadUMeshFromFile(output_mesh, "MESH", -1)
nb_segments = mesh_read.getNumberOfCellsWithType(mc.NORM_SEG2)
return [nb_points,nb_segments,nb_triangles,nb_tetras]
def test_netgen2d():
""" Test netgen2d mesher """
[nb_points,nb_segments,nb_triangles,nb_tetras] = CommonFunction( "NETGEN2D", 2, 3, 0, 0.0 )
print("Nb Triangles:", nb_triangles)
print("Nb Segments:", nb_segments)
print("Nb Points:", nb_points)
assert nb_triangles > 12
assert nb_points > 8
assert nb_segments > 12
def test_netgen2dMaxArea():
""" Test netgen2d mesher """
[nb_points,nb_segments,nb_triangles,nb_tetras] = CommonFunction( "NETGEN2D", 2, 3, 2, 75.0 )
print("Nb Triangles:", nb_triangles)
print("Nb Segments:", nb_segments)
print("Nb Points:", nb_points)
assert nb_triangles > 12
assert nb_points > 8
assert nb_segments > 12
def test_netgen2dLenghtFromEdge():
""" Test netgen2d mesher """
[nb_points,nb_segments,nb_triangles,nb_tetras] = CommonFunction( "NETGEN2D", 2, 1, 1, 0.0 )
print("Nb Triangles:", nb_triangles)
print("Nb Segments:", nb_segments)
print("Nb Points:", nb_points)
assert nb_triangles == 12
assert nb_points == 8
assert nb_segments == 12
if __name__ == "__main__":
if sys.platform == "win32":
print("Disabled on windows")
sys.exit(0)
test_netgen2d()
test_netgen2dMaxArea()
test_netgen2dLenghtFromEdge()