# contains function to compute a mesh in parallel from platform import java_ver import sys from tkinter import W import salome import time salome.salome_init() import salome_notebook notebook = salome_notebook.NoteBook() ### ### GEOM component ### import GEOM from salome.geom import geomBuilder from salome.smesh import smeshBuilder import math import SALOMEDS import numpy as np geompy = geomBuilder.New() smesh = smeshBuilder.New() def build_seq_mesh(nbox, boxsize, offset): # Create 3D faces boxes = [] # First creating all the boxes for i in range(nbox): for j in range(nbox): for k in range(nbox): x_orig = i*(boxsize+offset) y_orig = j*(boxsize+offset) z_orig = k*(boxsize+offset) tmp_box = geompy.MakeBoxDXDYDZ(boxsize, boxsize, boxsize) if not i == j == k == 0: box = geompy.MakeTranslation(tmp_box, x_orig, y_orig, z_orig) else: box = tmp_box geompy.addToStudy(box, 'box_{}:{}:{}'.format(i, j, k)) boxes.append(box) # Create fuse of all boxes all_boxes = geompy.MakeCompound(boxes) geompy.addToStudy(all_boxes, 'Compound_1') # Removing duplicates faces and edges all_boxes = geompy.MakeGlueFaces(all_boxes, 1e-07) geompy.addToStudy(all_boxes, 'Glued_Faces_1') all_boxes = geompy.MakeGlueEdges(all_boxes, 1e-07) geompy.addToStudy(all_boxes, 'rubik_cube') # Building sequetial mesh print("Creating mesh") all_box_mesh = smesh.Mesh(all_boxes, "seq_mesh") print("Adding algo") algo3d = all_box_mesh.Tetrahedron(algo=smeshBuilder.NETGEN_1D2D3D) netgen_parameters = algo3d.Parameters() netgen_parameters.SetMaxSize(34.641) netgen_parameters.SetMinSize(0.141421) netgen_parameters.SetOptimize(1) netgen_parameters.SetCheckOverlapping(0) netgen_parameters.SetCheckChartBoundary(0) netgen_parameters.SetFineness(5) netgen_parameters.SetNbSegPerEdge(16*(boxsize//100)) netgen_parameters.SetNbSegPerRadius(1.5) netgen_parameters.SetGrowthRate(0.15) netgen_parameters.SetChordalError(-1) netgen_parameters.SetChordalErrorEnabled(0) netgen_parameters.SetUseSurfaceCurvature(1) netgen_parameters.SetQuadAllowed(0) netgen_parameters.SetCheckOverlapping(False) netgen_parameters.SetNbThreads(2) return all_boxes, all_box_mesh, netgen_parameters def run_test(nbox=2, boxsize=100): """ Run sequential mesh and parallel version of it nbox: NUmber of boxes boxsize: Size of each box """ geom, seq_mesh, netgen_parameters = build_seq_mesh(nbox, boxsize, 0) par_mesh = smesh.ParallelMesh(geom, netgen_parameters, 6, name="par_mesh") start = time.monotonic() is_done = seq_mesh.Compute() assert is_done stop = time.monotonic() time_seq = stop-start start = time.monotonic() is_done = par_mesh.Compute() assert is_done stop = time.monotonic() time_par = stop-start print(" Tetrahedron: ", seq_mesh.NbTetras(), par_mesh.NbTetras()) print(" Triangle: ", seq_mesh.NbTriangles(), par_mesh.NbTriangles()) print(" edge: ", seq_mesh.NbEdges(), par_mesh.NbEdges()) assert par_mesh.NbTetras() > 0 assert par_mesh.NbTriangles() > 0 assert par_mesh.NbEdges() > 0 print("Time elapsed (seq, par): ", time_seq, time_par) def main(): nbox = 2 boxsize = 100 run_test(nbox, boxsize) main()