mesh.display(display_name="Trimeshpy: Smoothed Mesh") tri_mesh_flow = TriMeshFlow_Vtk(triangles, vertices) # Test parameters nb_step = 10 diffusion_step = 10 saved_flow = trimeshpy.data.output_test_flow saved_fib = trimeshpy.data.output_test_fib # Test functions start = time.time() #points = tri_mesh_flow.laplacian_smooth(nb_step, diffusion_step, l2_dist_weighted=False, area_weighted=False, backward_step=False, flow_file=saved_flow) #points = tri_mesh_flow.curvature_normal_smooth(nb_step, diffusion_step, area_weighted=True, backward_step=True, flow_file=saved_flow) #points = tri_mesh_flow.positive_curvature_normal_smooth(nb_step, diffusion_step, area_weighted=True, backward_step=True, flow_file=saved_flow) points = tri_mesh_flow.mass_stiffness_smooth(nb_step, diffusion_step, flow_file=saved_flow) #points = tri_mesh_flow.positive_mass_stiffness_smooth(nb_step, diffusion_step, flow_file=saved_flow) #points = tri_mesh_flow.volume_mass_stiffness_smooth(nb_step, diffusion_step, flow_file=saved_flow) stop = time.time() print (stop - start) lines = np.memmap(saved_flow, dtype=np.float64, mode='r', shape=(nb_step, vertices.shape[0], vertices.shape[1])) tri_mesh_flow.set_vertices_flow(np.array(lines)) tri_mesh_flow.display(display_name="Trimeshpy: Flow resulting surface") tri_mesh_flow.display_vertices_flow(display_name="Trimeshpy: Flow visualization") """ ### save fibers in .fib normal #line_to_save = streamline.compress_streamlines(np.swapaxes(lines, 0, 1)) line_to_save = np.swapaxes(lines, 0, 1) lines_polydata = lines_to_vtk_polydata(line_to_save, None, np.float32)
# spot laplacian spot_tmf.laplacian_smooth(100, 0.001, area_weighted=True, backward_step=True, flow_file=saved_flow) spot_tmf.set_vertices_flow_from_memmap(saved_flow, 100, sp_mesh.get_nb_vertices()) spot_tmf.display() spot_tmf.display_vertices_flow() # spot curv_flow spot_tmf.set_vertices_flow(sp_mesh.get_vertices()) spot_tmf.curvature_normal_smooth(20, 1000, area_weighted=True, backward_step=True, flow_file=saved_flow) spot_tmf.set_vertices_flow_from_memmap(saved_flow, 20, sp_mesh.get_nb_vertices()) spot_tmf.display() spot_tmf.display_vertices_flow() # spot mass_stiffness spot_tmf.set_vertices_flow(sp_mesh.get_vertices()) spot_tmf.mass_stiffness_smooth(30, 0.003, flow_file=saved_flow) spot_tmf.set_vertices_flow_from_memmap(saved_flow, 30, sp_mesh.get_nb_vertices()) spot_tmf.display() spot_tmf.display_vertices_flow() # Init Brain b_mesh = TriMesh_Vtk(brain_file_name, None) brain_tmf = TriMeshFlow_Vtk(b_mesh.get_triangles(), b_mesh.get_vertices()) brain_tmf.display() brain_tmf.mass_stiffness_smooth(10, 30, flow_file=saved_flow) brain_tmf.set_vertices_flow_from_memmap(saved_flow, 10, b_mesh.get_nb_vertices()) brain_tmf.display() brain_tmf.display_vertices_flow()
# spot curv_flow spot_tmf.set_vertices_flow(sp_mesh.get_vertices()) spot_tmf.curvature_normal_smooth(20, 1000, area_weighted=True, backward_step=True, flow_file=trimeshpy.data.output_test_flow) spot_tmf.set_vertices_flow_from_memmap(trimeshpy.data.output_test_flow, 20, sp_mesh.get_nb_vertices()) spot_tmf.display() spot_tmf.display_vertices_flow() # spot mass_stiffness spot_tmf.set_vertices_flow(sp_mesh.get_vertices()) spot_tmf.mass_stiffness_smooth(30, 0.003, flow_file=trimeshpy.data.output_test_flow) spot_tmf.set_vertices_flow_from_memmap(trimeshpy.data.output_test_flow, 30, sp_mesh.get_nb_vertices()) spot_tmf.display() spot_tmf.display_vertices_flow() # Init Brain b_mesh = TriMesh_Vtk(trimeshpy.data.brain_lh, None) brain_tmf = TriMeshFlow_Vtk(b_mesh.get_triangles(), b_mesh.get_vertices()) brain_tmf.display() brain_tmf.mass_stiffness_smooth(10, 30, flow_file=trimeshpy.data.output_test_flow) brain_tmf.set_vertices_flow_from_memmap(trimeshpy.data.output_test_flow, 10,