diff --git a/apps/twop/example/input_0.yaml b/apps/twop/example/input_0.yaml index ff4bf516..0693dcf8 100644 --- a/apps/twop/example/input_0.yaml +++ b/apps/twop/example/input_0.yaml @@ -124,5 +124,5 @@ Output: Perform_FE_Out: false Perform_Out: true Test_Output_Interval: 4000 - Debug: 1 + Debug: 3 Tag_PP: 0 diff --git a/apps/twop/main.cpp b/apps/twop/main.cpp index 8e2cb6d8..de519100 100644 --- a/apps/twop/main.cpp +++ b/apps/twop/main.cpp @@ -78,8 +78,8 @@ class Model : public model::DEMModel { // check if init() successfully created quadrature data which we need for postprocessing { size_t totalQuadPoints = 0; - for (auto &p: d_particles) { - const auto *particle_mesh_p = p->d_rp_p->getMeshP(); + for (auto &p: d_particlesListTypeAll) { + const auto &particle_mesh_p = p->d_rp_p->getMeshP(); // get Quadrature fe::BaseElem *elem; diff --git a/examples/PeriDEM/attrition_tests/sim1_multi_particle_circ_tri_drum_with_rotating_cylinder_with_protrusion/problem_setup.py b/examples/PeriDEM/attrition_tests/sim1_multi_particle_circ_tri_drum_with_rotating_cylinder_with_protrusion/problem_setup.py index 39499678..2bccd7a7 100644 --- a/examples/PeriDEM/attrition_tests/sim1_multi_particle_circ_tri_drum_with_rotating_cylinder_with_protrusion/problem_setup.py +++ b/examples/PeriDEM/attrition_tests/sim1_multi_particle_circ_tri_drum_with_rotating_cylinder_with_protrusion/problem_setup.py @@ -903,6 +903,11 @@ def create_input_file(inp_dir, pp_tag): ## wall rotation rate rotation_rate = -20. * np.pi + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" + ### ---------------------------------------------------------------- ### # generate mesh and particle location data ### ---------------------------------------------------------------- ### @@ -1119,8 +1124,9 @@ def create_input_file(inp_dir, pp_tag): # Neighbor info inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # Material info inpf.write("Material:\n") diff --git a/examples/PeriDEM/attrition_tests/sim1_multi_particle_circ_tri_drum_with_rotating_cylinder_with_protrusion_increased_Kn_factor/problem_setup.py b/examples/PeriDEM/attrition_tests/sim1_multi_particle_circ_tri_drum_with_rotating_cylinder_with_protrusion_increased_Kn_factor/problem_setup.py index e1c47535..08df6d6a 100644 --- a/examples/PeriDEM/attrition_tests/sim1_multi_particle_circ_tri_drum_with_rotating_cylinder_with_protrusion_increased_Kn_factor/problem_setup.py +++ b/examples/PeriDEM/attrition_tests/sim1_multi_particle_circ_tri_drum_with_rotating_cylinder_with_protrusion_increased_Kn_factor/problem_setup.py @@ -903,6 +903,11 @@ def create_input_file(inp_dir, pp_tag): ## wall rotation rate rotation_rate = -20. * np.pi + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" + ### ---------------------------------------------------------------- ### # generate mesh and particle location data ### ---------------------------------------------------------------- ### @@ -1119,8 +1124,9 @@ def create_input_file(inp_dir, pp_tag): # Neighbor info inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # Material info inpf.write("Material:\n") diff --git a/examples/PeriDEM/attrition_tests/sim2_multi_particle_circ_tri_drum_hex_with_rotating_cylinder_with_protrusion/problem_setup.py b/examples/PeriDEM/attrition_tests/sim2_multi_particle_circ_tri_drum_hex_with_rotating_cylinder_with_protrusion/problem_setup.py index 4ac2bed0..e3ba6ca7 100644 --- a/examples/PeriDEM/attrition_tests/sim2_multi_particle_circ_tri_drum_hex_with_rotating_cylinder_with_protrusion/problem_setup.py +++ b/examples/PeriDEM/attrition_tests/sim2_multi_particle_circ_tri_drum_hex_with_rotating_cylinder_with_protrusion/problem_setup.py @@ -895,6 +895,11 @@ def create_input_file(inp_dir, pp_tag): ## wall rotation rate rotation_rate = -20. * np.pi + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" + ### ---------------------------------------------------------------- ### # generate mesh and particle location data ### ---------------------------------------------------------------- ### @@ -1080,8 +1085,9 @@ def create_input_file(inp_dir, pp_tag): # Neighbor info inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # Material info inpf.write("Material:\n") diff --git a/examples/PeriDEM/attrition_tests/sim2_multi_particle_circ_tri_drum_hex_with_rotating_cylinder_with_protrusion_thin_container_and_change_rotation_rate/problem_setup.py b/examples/PeriDEM/attrition_tests/sim2_multi_particle_circ_tri_drum_hex_with_rotating_cylinder_with_protrusion_thin_container_and_change_rotation_rate/problem_setup.py index 00391189..620e071b 100644 --- a/examples/PeriDEM/attrition_tests/sim2_multi_particle_circ_tri_drum_hex_with_rotating_cylinder_with_protrusion_thin_container_and_change_rotation_rate/problem_setup.py +++ b/examples/PeriDEM/attrition_tests/sim2_multi_particle_circ_tri_drum_hex_with_rotating_cylinder_with_protrusion_thin_container_and_change_rotation_rate/problem_setup.py @@ -894,6 +894,11 @@ def create_input_file(inp_dir, pp_tag): wall_rotation_rate = -40. * np.pi wall_rotation_center = [-0.2*R_in, 0.2*R_in, 0.] + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" + ### ---------------------------------------------------------------- ### # generate mesh and particle location data ### ---------------------------------------------------------------- ### @@ -1081,8 +1086,9 @@ def create_input_file(inp_dir, pp_tag): # Neighbor info inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # Material info inpf.write("Material:\n") diff --git a/examples/PeriDEM/attrition_tests/sim3_multi_particle_circ_tri_drum_hex_with_rotating_rectangle_container_with_protrusion_and_opening/problem_setup.py b/examples/PeriDEM/attrition_tests/sim3_multi_particle_circ_tri_drum_hex_with_rotating_rectangle_container_with_protrusion_and_opening/problem_setup.py index b705c736..7425343d 100644 --- a/examples/PeriDEM/attrition_tests/sim3_multi_particle_circ_tri_drum_hex_with_rotating_rectangle_container_with_protrusion_and_opening/problem_setup.py +++ b/examples/PeriDEM/attrition_tests/sim3_multi_particle_circ_tri_drum_hex_with_rotating_rectangle_container_with_protrusion_and_opening/problem_setup.py @@ -1103,6 +1103,11 @@ def create_input_file(inp_dir, pp_tag): wall_rotation_rate = -40. * np.pi wall_rotation_center = [0.15*Lin, 0.15*Win, 0.] + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" + ### ---------------------------------------------------------------- ### # generate mesh and particle location data ### ---------------------------------------------------------------- ### @@ -1327,8 +1332,9 @@ def create_input_file(inp_dir, pp_tag): # Neighbor info inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # Material info inpf.write("Material:\n") diff --git a/examples/PeriDEM/attrition_tests/sim4_multi_particle_circ_tri_drum_hex_with_rotating_rectangle_container_with_protrusion_and_opening_within_bigger_rectangle_container/problem_setup.py b/examples/PeriDEM/attrition_tests/sim4_multi_particle_circ_tri_drum_hex_with_rotating_rectangle_container_with_protrusion_and_opening_within_bigger_rectangle_container/problem_setup.py index 9f02d3f0..6e1c3c40 100644 --- a/examples/PeriDEM/attrition_tests/sim4_multi_particle_circ_tri_drum_hex_with_rotating_rectangle_container_with_protrusion_and_opening_within_bigger_rectangle_container/problem_setup.py +++ b/examples/PeriDEM/attrition_tests/sim4_multi_particle_circ_tri_drum_hex_with_rotating_rectangle_container_with_protrusion_and_opening_within_bigger_rectangle_container/problem_setup.py @@ -392,6 +392,7 @@ def particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R1, R pcount = 0 count = 0 + select_count = 0 while pcount < N1 and count < 100*N1: if count%N1 == 0: print('small particle iter = ', count) @@ -400,9 +401,10 @@ def particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R1, R r = R1 + np.random.uniform(-0.1 * R1, 0.1 * R1) x = center[0] + np.random.uniform(-0.5*Lin + R1 + padding, 0.5*Lin - R1- padding) y = np.random.uniform(-0.5*Lin + R1 + padding, max_y - R1 - padding) - p_zone = np.random.choice(id_choices1, size=1)[0] - if np.random.uniform(0., 1.) > 0.25: - p_zone = np.random.choice(id_choices1, size=1)[0] + # p_zone = np.random.choice(id_choices1, size=1)[0] + # if np.random.uniform(0., 1.) > 0.25: + # p_zone = np.random.choice(id_choices1, size=1)[0] + p_zone = id_choices1[select_count % len(id_choices1)] p = [p_zone, x,y,center[2], r] # check if it collides of existing particles @@ -411,6 +413,8 @@ def particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R1, R if pintersect == False: particles.append(p) pcount += 1 + select_count += 1 + count +=1 inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') @@ -1025,17 +1029,19 @@ def create_input_file(inp_dir, pp_tag): L = 0.04 W = 0.05 - Lin = L - horizon - Win = W - horizon + Lin = L - 3*horizon + Win = W - 3*horizon ## wall rotation rate - wall_rotation_rate = -20. * np.pi + wall_rotation_rate = -30. * np.pi wall_rotation_center = [0.15*Lin, 0.15*Win, 0.] ## rotation of outer rectangle will be within following rectangle wall_rot_max_dist_from_rot_center = L - (0.5*L - wall_rotation_center[0]) if wall_rot_max_dist_from_rot_center < W - (0.5*W - wall_rotation_center[1]): wall_rot_max_dist_from_rot_center = W - (0.5*W - wall_rotation_center[1]) + + wall_rot_max_dist_from_rot_center = wall_rot_max_dist_from_rot_center + 0.05*L # two corner points wall_rot_working_rect_relative_corner_point_1 = [-wall_rot_max_dist_from_rot_center, -wall_rot_max_dist_from_rot_center, 0.] @@ -1054,8 +1060,8 @@ def create_input_file(inp_dir, pp_tag): # right-top corner base_rect_inner_corner_point_2 = [wall_rot_working_rect_corner_point_2[0] + 0.2*L, wall_rot_working_rect_corner_point_2[1] + 0.2*L, wall_rot_working_rect_corner_point_2[2]] - base_rect_x_thickness = 0.5*horizon - base_rect_y_thickness = 0.5*horizon + base_rect_x_thickness = 3*horizon + base_rect_y_thickness = 3*horizon # annulus rectangle requires 12 parameters (first 6 are for outer rectangle and rest are inner/void rectangle). Six parameters are coordinates of two corner points base_rect_innr_pts = get_ref_rect_points(get_center(base_rect_inner_corner_point_1, base_rect_inner_corner_point_1), base_rect_inner_corner_point_2[0] - base_rect_inner_corner_point_1[0], base_rect_inner_corner_point_2[1] - base_rect_inner_corner_point_1[1]) @@ -1090,9 +1096,9 @@ def create_input_file(inp_dir, pp_tag): ## time final_time = 0.1 - num_steps = 4000000 - # final_time = 0.00002 - # num_steps = 2 + num_steps = 1000000 + # final_time = 0.1 + # num_steps = 40000 num_outputs = 400 dt_out_n = num_steps / num_outputs test_dt_out_n = dt_out_n / 100 @@ -1102,7 +1108,7 @@ def create_input_file(inp_dir, pp_tag): poisson = 0.25 rho_wall = 1200. - K_wall = 1.e+6 + K_wall = 1.e+4 E_wall = get_E(K_wall, poisson) G_wall = get_G(E_wall, poisson) Gc_wall = 100. @@ -1114,7 +1120,7 @@ def create_input_file(inp_dir, pp_tag): Gc_large = Gc_wall rho_small = 1200. - K_small = 2.e+5 + K_small = 2.e+3 E_small = get_E(K_small, poisson) G_small = get_G(E_small, poisson) Gc_small = 50. @@ -1151,6 +1157,10 @@ def create_input_file(inp_dir, pp_tag): gravity_active = True gravity = [0., -10., 0.] + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" ### ---------------------------------------------------------------- ### @@ -1161,7 +1171,7 @@ def create_input_file(inp_dir, pp_tag): padding = 1.1 * R_contact_factor * mesh_size max_y = 0.5*Lin - 3*mesh_size # number of particles of small and large sizes - N1, N2 = 30, 8 + N1, N2 = 40, 12 id_choices1 = [0, 3, 1, 2] id_choices2 = [4, 5, 6, 7] num_particles_zones_1_to_8, particles_zones_1_to_8 = particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R_small, R_large, id_choices1, id_choices2, N1, N2, Lin, Win, z_coord = 0., add_orient = True) @@ -1378,8 +1388,9 @@ def create_input_file(inp_dir, pp_tag): # Neighbor info inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # Material info inpf.write("Material:\n") diff --git a/src/fe/mesh.cpp b/src/fe/mesh.cpp index e01345a5..0fba0406 100644 --- a/src/fe/mesh.cpp +++ b/src/fe/mesh.cpp @@ -263,6 +263,7 @@ void fe::Mesh::computeVol() { "element mesh as the element-node connectivity data is " "invalid." << std::endl; + exit(EXIT_FAILURE); } if (false) { diff --git a/src/geometry/geometryUtil.cpp b/src/geometry/geometryUtil.cpp index 1c8ec39d..b33631a1 100644 --- a/src/geometry/geometryUtil.cpp +++ b/src/geometry/geometryUtil.cpp @@ -12,7 +12,7 @@ #include "nsearch/nsearch.h" #include -typedef nsearch::NFlannSearchKd NSearch; +typedef nsearch::NFlannSearchKd<3> NSearch; void geometry::computeNonlocalNeighborhood(const std::vector &nodes, double horizon, diff --git a/src/inp/input.cpp b/src/inp/input.cpp index 58184cc6..002f3361 100644 --- a/src/inp/input.cpp +++ b/src/inp/input.cpp @@ -366,6 +366,10 @@ void inp::Input::setParticleDeck() { d_particleDeck_p->d_pNeighDeck.d_sFactor = ne["Search_Factor"].as(); + if (ne["Search_Interval"]) + d_particleDeck_p->d_pNeighDeck.d_neighUpdateInterval = + ne["Search_Interval"].as(); + for (auto p : d_particleDeck_p->d_particleZones) { // if particle is actually a wall then we do it differently @@ -675,7 +679,7 @@ void inp::Input::setContactDeck() { for (size_t zz = z; zz <= n; zz++) { std::string read_zone = "Zone_" + std::to_string(z) + std::to_string(zz); - if (d_outputDeck_p->d_debug > 1) + if (d_outputDeck_p->d_debug > 3) std::cout << "Processing pair (z, zz) = (" << z << ", " << zz << ").\n"; auto e = config["Contact"][read_zone]; @@ -708,7 +712,7 @@ void inp::Input::setContactDeck() { inp::ContactPairDeck cd = d_contactDeck_p->d_data[zone_pair[0] - 1][zone_pair[1] - 1]; - if (d_outputDeck_p->d_debug > 1) { + if (d_outputDeck_p->d_debug > 3) { std::cout << "Processing pair (z, zz) = (" << z << ", " << zz << "). " << "Copying contact data from (n, m) = (" << zone_pair[0] << ", " << zone_pair[1] << ").\n"; diff --git a/src/inp/pdecks/pNeighborDeck.h b/src/inp/pdecks/pNeighborDeck.h index 797e35ef..f3838d67 100644 --- a/src/inp/pdecks/pNeighborDeck.h +++ b/src/inp/pdecks/pNeighborDeck.h @@ -27,14 +27,22 @@ struct PNeighborDeck { * radius of particle) */ double d_sFactor; - /*! @brief Neighbor search tolerance */ + /*! + * @brief Neighbor search tolerance + */ double d_sTol; + /*! @brief Neighbor update time interval (for contact) */ + size_t d_neighUpdateInterval; + /*! * @brief Constructor */ PNeighborDeck() - : d_updateCriteria("max_distance_travel"), d_sFactor(5.), d_sTol(0.){}; + : d_updateCriteria("simple_all"), + d_sFactor(1.), + d_sTol(0.), + d_neighUpdateInterval(1) {}; /*! * @brief Returns the string containing printable information about the object @@ -51,6 +59,7 @@ struct PNeighborDeck { oss << tabS << "Update criteria = " << d_updateCriteria << std::endl; oss << tabS << "Search factor = " << d_sFactor << std::endl; oss << tabS << "Search tolerance = " << d_sTol << std::endl; + oss << tabS << "Search update interval = " << d_neighUpdateInterval << std::endl; oss << tabS << std::endl; return oss.str(); diff --git a/src/loading/particleFLoading.cpp b/src/loading/particleFLoading.cpp index d44f2e0e..3810cfee 100644 --- a/src/loading/particleFLoading.cpp +++ b/src/loading/particleFLoading.cpp @@ -149,7 +149,7 @@ void loading::ParticleFLoading::apply(const double &time, auto force_i = util::Point(); for (auto d : bc.d_direction) { - force_i[d] = fmax; + force_i[d-1] = fmax; } // add force diff --git a/src/loading/particleULoading.cpp b/src/loading/particleULoading.cpp index 6f3218af..60bf76dc 100644 --- a/src/loading/particleULoading.cpp +++ b/src/loading/particleULoading.cpp @@ -182,8 +182,8 @@ void loading::ParticleULoading::apply(const double &time, auto u_i = util::Point(); auto v_i = util::Point(); for (auto d : bc.d_direction) { - u_i[d] = du; - v_i[d] = dv; + u_i[d-1] = du; + v_i[d-1] = dv; } if (bc.d_timeFnType == "rotation") { diff --git a/src/model/dem/demModel.cpp b/src/model/dem/demModel.cpp index ee74b5a8..de335531 100644 --- a/src/model/dem/demModel.cpp +++ b/src/model/dem/demModel.cpp @@ -48,14 +48,26 @@ FILE *pp_file = nullptr; int debug_once = -1; +int update_contact_neigh_search_params_init_call_count = 0; + double pen_dist = 0.; double contact_area_radius = 0.; +bool dbg_condition = false; + double tree_compute_time = 0.; double contact_compute_time = 0.; +double contact_neigh_update_time = 0.; +double peridynamics_neigh_update_time = 0.; double pd_compute_time = 0.; double extf_compute_time = 0.; double integrate_compute_time = 0.; +double pt_cloud_update_time = 0.; + +double avg_tree_update_time = 0.; +double avg_contact_neigh_update_time = 0.; +double avg_contact_force_time = 0.; +double avg_peridynamics_force_time = 0.; double max_y = 0.; @@ -80,6 +92,10 @@ bool isInList(const std::vector *list, size_t i) { return false; } +/*! @brief Pointer to nsearch */ +std::unique_ptr> nsearch_2d_p; +std::unique_ptr> nsearch_3d_p; + } // namespace model::DEMModel::DEMModel(inp::Input *deck) : ModelData(deck) { @@ -147,12 +163,18 @@ void model::DEMModel::init() { d_infoN = d_outputDeck_p->d_dtOut; auto t1 = steady_clock::now(); + auto t2 = steady_clock::now(); log("DEMModel: Initializing objects.\n"); // create particles log("DEMModel: Creating particles.\n"); createParticles(); + log("DEMModel: Creating maximum velocity data for particles.\n"); + d_maxVelocityParticlesListTypeAll + = std::vector(d_particlesListTypeAll.size(), 0.); + d_maxVelocity = util::methods::max(d_maxVelocityParticlesListTypeAll); + // setup contact log("DEMModel: Setting up contact.\n"); setupContact(); @@ -168,16 +190,24 @@ void model::DEMModel::init() { d_nsearch_p = std::make_unique(d_x, d_outputDeck_p->d_debug); // setup tree - double set_tree_time = d_nsearch_p->updatePointCloud(d_x, true); - set_tree_time += d_nsearch_p->setInputCloud(); + double set_tree_time = d_nsearch_p->setInputCloud(); log(fmt::format("DEMModel: Tree setup time (ms) = {}. \n", set_tree_time)); // create neighborlists log("DEMModel: Creating neighborlist for peridynamics.\n"); // log("DEMModel: Creating neighborlist for contact.\n"); + t1 = steady_clock::now(); updatePeridynamicNeighborlist(); - // updateContactNeighborlist(); - // updateNeighborlistCombine(); + t2 = steady_clock::now(); + peridynamics_neigh_update_time = util::methods::timeDiff(t1, t2); + + log("DEMModel: Creating neighborlist for contact.\n"); + d_contNeighUpdateInterval = d_pDeck_p->d_pNeighDeck.d_neighUpdateInterval; + d_contNeighSearchRadius = d_pDeck_p->d_pNeighDeck.d_sFactor * d_maxContactR; + t1 = steady_clock::now(); + updateContactNeighborlist(); + t2 = steady_clock::now(); + contact_neigh_update_time = util::methods::timeDiff(t1, t2); // create peridynamic bonds log("DEMModel: Creating peridynamics bonds.\n"); @@ -210,7 +240,8 @@ void model::DEMModel::init() { d_particlesListTypeAll[0]->d_computeForce = false; } - log(fmt::format("DEMModel: Total particles = {}. \n", d_particlesListTypeAll.size())); + log(fmt::format("DEMModel: Total particles = {}. \n", + d_particlesListTypeAll.size())); for (const auto &p : d_particlesListTypeAll) if (!p->d_computeForce) @@ -233,7 +264,7 @@ void model::DEMModel::init() { // initialize remaining fields (if any) d_Z = std::vector(d_x.size(), 0.); - auto t2 = steady_clock::now(); + t2 = steady_clock::now(); log(fmt::format("DEMModel: Total setup time (ms) = {}. \n", util::methods::timeDiff(t1, t2))); @@ -274,7 +305,11 @@ void model::DEMModel::integrate() { for (size_t i = d_n; i < d_modelDeck_p->d_Nt; i++) { - log(fmt::format("DEMModel: Time step: {}, time: {:.6f}\n", i, d_time), 2, d_n % d_infoN == 0, 3); + log(fmt::format("DEMModel: Time step: {}, time: {:8.6f}, steps completed = {}%\n", + i, + d_time, + float(i) * 100. / d_modelDeck_p->d_Nt), + 2, d_n % d_infoN == 0, 3); clock_begin = steady_clock::now(); log("Integrating\n", false, 0, 3); @@ -310,11 +345,17 @@ void model::DEMModel::integrate() { log(fmt::format( "DEMModel: Total compute time information (s) \n" - " Integration = {:.6f}, Peridynamic = {:.6f}, Contact = {:.6f}, " - "Tree update = {:.6f}, External force = {:.6f}\n", - integrate_compute_time * 1.e-6, pd_compute_time * 1.e-6, - contact_compute_time * 1.e-6, tree_compute_time * 1.e-6, - extf_compute_time * 1.e-6), 1); + " {:22s} = {:8.2f} \n" + " {:22s} = {:8.2f} \n" + " {:22s} = {:8.2f} \n" + " {:22s} = {:8.2f} \n" + " {:22s} = {:8.2f} \n", + "Time integration", integrate_compute_time * 1.e-6, + "Peridynamics force", pd_compute_time * 1.e-6, + "Contact force", contact_compute_time * 1.e-6, + "Search tree update", tree_compute_time * 1.e-6, + "External force", extf_compute_time * 1.e-6) + ); } void model::DEMModel::integrateStep() { @@ -327,7 +368,7 @@ void model::DEMModel::integrateStep() { void model::DEMModel::integrateCD() { // update velocity and displacement - const auto dt = d_modelDeck_p->d_dt; + d_currentDt = d_modelDeck_p->d_dt; const auto dim = d_modelDeck_p->d_dim; tf::Executor executor(util::parallel::getNThreads()); @@ -336,7 +377,7 @@ void model::DEMModel::integrateCD() { // update current position, displacement, and velocity of nodes taskflow.for_each_index( (std::size_t) 0, d_fPdCompNodes.size(), (std::size_t) 1, - [this, dt, dim](std::size_t II) { + [this, dim](std::size_t II) { auto i = this->d_fPdCompNodes[II]; const auto rho = this->getDensity(i); @@ -344,11 +385,13 @@ void model::DEMModel::integrateCD() { for (int dof = 0; dof < dim; dof++) { if (util::methods::isFree(fix, dof)) { - this->d_v[i][dof] += (dt / rho) * this->d_f[i][dof]; - this->d_u[i][dof] += dt * this->d_v[i][dof]; - this->d_x[i][dof] += dt * this->d_v[i][dof]; + this->d_v[i][dof] += (this->d_currentDt / rho) * this->d_f[i][dof]; + this->d_u[i][dof] += this->d_currentDt * this->d_v[i][dof]; + this->d_x[i][dof] += this->d_currentDt * this->d_v[i][dof]; } } + + this->d_vMag[i] = this->d_v[i].length(); } // loop over nodes ); // for_each @@ -356,7 +399,7 @@ void model::DEMModel::integrateCD() { // advance time d_n++; - d_time += dt; + d_time += d_currentDt; // update displacement bc computeExternalDisplacementBC(); @@ -368,7 +411,7 @@ void model::DEMModel::integrateCD() { void model::DEMModel::integrateVerlet() { // update velocity and displacement - const auto dt = d_modelDeck_p->d_dt; + d_currentDt = d_modelDeck_p->d_dt; const auto dim = d_modelDeck_p->d_dim; // update current position, displacement, and velocity of nodes @@ -378,7 +421,7 @@ void model::DEMModel::integrateVerlet() { taskflow.for_each_index( (std::size_t) 0, d_fPdCompNodes.size(), (std::size_t) 1, - [this, dt, dim](std::size_t II) { + [this, dim](std::size_t II) { auto i = this->d_fPdCompNodes[II]; const auto rho = this->getDensity(i); @@ -386,10 +429,12 @@ void model::DEMModel::integrateVerlet() { for (int dof = 0; dof < dim; dof++) { if (util::methods::isFree(fix, dof)) { - this->d_v[i][dof] += 0.5 * (dt / rho) * this->d_f[i][dof]; - this->d_u[i][dof] += dt * this->d_v[i][dof]; - this->d_x[i][dof] += dt * this->d_v[i][dof]; + this->d_v[i][dof] += 0.5 * (this->d_currentDt / rho) * this->d_f[i][dof]; + this->d_u[i][dof] += this->d_currentDt * this->d_v[i][dof]; + this->d_x[i][dof] += this->d_currentDt * this->d_v[i][dof]; } + + this->d_vMag[i] = this->d_v[i].length(); } } // loop over nodes ); // for_each @@ -399,7 +444,7 @@ void model::DEMModel::integrateVerlet() { // advance time d_n++; - d_time += dt; + d_time += d_currentDt; // update displacement bc computeExternalDisplacementBC(); @@ -414,15 +459,17 @@ void model::DEMModel::integrateVerlet() { taskflow.for_each_index( (std::size_t) 0, d_fPdCompNodes.size(), (std::size_t) 1, - [this, dt, dim](std::size_t II) { + [this, dim](std::size_t II) { auto i = this->d_fPdCompNodes[II]; const auto rho = this->getDensity(i); const auto &fix = this->d_fix[i]; for (int dof = 0; dof < dim; dof++) { if (util::methods::isFree(fix, dof)) { - this->d_v[i][dof] += 0.5 * (dt / rho) * this->d_f[i][dof]; + this->d_v[i][dof] += 0.5 * (this->d_currentDt / rho) * this->d_f[i][dof]; } + + this->d_vMag[i] = this->d_v[i].length(); } } // loop over nodes ); // for_each @@ -433,17 +480,10 @@ void model::DEMModel::integrateVerlet() { void model::DEMModel::computeForces() { - bool dbg_condition = d_n % d_infoN == 0; + dbg_condition = d_n % d_infoN == 0; log(" Compute forces \n", 2, dbg_condition, 3); - // update the point cloud (make sure that d_x is updated along with displacement) - auto pt_cloud_update_time = d_nsearch_p->updatePointCloud(d_x, true); - pt_cloud_update_time += d_nsearch_p->setInputCloud(); - tree_compute_time += pt_cloud_update_time; - log(fmt::format(" Point cloud update time (ms) = {} \n", - pt_cloud_update_time), 2, dbg_condition, 3); - // reset force auto t1 = steady_clock::now(); tf::Executor executor(util::parallel::getNThreads()); @@ -455,30 +495,92 @@ void model::DEMModel::computeForces() { ); // for_each executor.run(taskflow).get(); - - log(fmt::format(" Force reset time (ms) = {} \n", - util::methods::timeDiff(t1, steady_clock::now())), 2, dbg_condition, 3); + auto force_reset_time = util::methods::timeDiff(t1, steady_clock::now()); // compute peridynamic forces t1 = steady_clock::now(); computePeridynamicForces(); auto pd_time = util::methods::timeDiff(t1, steady_clock::now()); pd_compute_time += pd_time; - log(fmt::format(" Peridynamics force time (ms) = {} \n", pd_time), 2, dbg_condition, 3); + avg_peridynamics_force_time += pd_time; + + // update contact neighborlist + t1 = steady_clock::now(); + updateContactNeighborlist(); + auto current_contact_neigh_update_time = util::methods::timeDiff(t1, steady_clock::now()); + contact_neigh_update_time += current_contact_neigh_update_time; + avg_contact_neigh_update_time += current_contact_neigh_update_time; // compute contact forces between particles t1 = steady_clock::now(); computeContactForces(); auto contact_time = util::methods::timeDiff(t1, steady_clock::now()); contact_compute_time += contact_time; - log(fmt::format(" Contact force time (ms) = {} \n", contact_time), 2, dbg_condition, 3); + avg_contact_force_time += contact_time; // Compute external forces t1 = steady_clock::now(); computeExternalForces(); auto extf_time = util::methods::timeDiff(t1, steady_clock::now()); extf_compute_time += extf_time; - log(fmt::format(" External force time (ms) = {} \n", extf_time), 2, dbg_condition, 3); + + // output avg time info + if (dbg_condition) { + log(fmt::format(" Avg time (ms): \n" + " {:48s} = {:8d}\n" + " {:48s} = {:8d}\n" + " {:48s} = {:8d}\n" + " {:48s} = {:8d}\n" + " {:48s} = {:8d}\n", + "tree update", size_t(avg_tree_update_time/d_infoN), + "contact neigh update", size_t(avg_contact_neigh_update_time/d_infoN), + "contact force", size_t(avg_contact_force_time/d_infoN), + "total contact", size_t(avg_tree_update_time/d_infoN) + size_t(avg_contact_neigh_update_time/d_infoN) + size_t(avg_contact_force_time/d_infoN), + "peridynamics force", size_t(avg_peridynamics_force_time/d_infoN)), + 2, dbg_condition, 3); + + avg_tree_update_time = 0.; + avg_contact_neigh_update_time = 0.; + avg_contact_force_time = 0.; + avg_peridynamics_force_time = 0.; + } + + log(fmt::format(" {:50s} = {:8d} \n", + "Point cloud update time (ms)", + size_t(pt_cloud_update_time) + ), + 2, dbg_condition, 3); + + log(fmt::format(" {:50s} = {:8d} \n", + "Force reset time (ms)", + size_t(force_reset_time) + ), + 2, dbg_condition, 3); + + log(fmt::format(" {:50s} = {:8d} \n", + "Peridynamics force time (ms)", + size_t(pd_time) + ), + 2, dbg_condition, 3); + + log(fmt::format(" {:50s} = {:8d} \n", + "Contact neighborlist update time (ms)", + size_t(current_contact_neigh_update_time) + ), + 2, dbg_condition, 3); + + log(fmt::format(" {:50s} = {:8d} \n", + "Contact force time (ms)", + size_t(contact_time) + ), + 2, dbg_condition, 3); + + log(fmt::format(" {:50s} = {:8d} \n", + "External force time (ms)", + size_t(extf_time) + ), + 2, dbg_condition, 3); + } void model::DEMModel::computePeridynamicForces() { @@ -712,112 +814,117 @@ void model::DEMModel::computeContactForces() { tf::Executor executor(util::parallel::getNThreads()); tf::Taskflow taskflow; - taskflow.for_each_index((std::size_t) 0, d_fContCompNodes.size(), (std::size_t) 1, [this](std::size_t II) { - auto i = this->d_fContCompNodes[II]; - - // local variable to hold force - util::Point force_i = util::Point(); - double scalar_f = 0.; - - const auto &ptIdi = this->getPtId(i); - auto &pi = this->getParticleFromAllList(ptIdi); - double horizon = pi->d_material_p->getHorizon(); - double search_r = this->d_maxContactR; - - // particle data - double rhoi = pi->getDensity(); - - const auto &yi = this->d_x[i]; // current coordinates - const auto &ui = this->d_u[i]; - const auto &vi = this->d_v[i]; - const auto &voli = this->d_vol[i]; - - std::vector neighs; - std::vector sqr_dist; - auto search_status = - this->d_nsearch_p->radiusSearch(yi, search_r, neighs, sqr_dist); - - if (search_status > 0) { - for (std::size_t j = 0; j < neighs.size(); ++j) { - - auto &j_id = neighs[j]; - auto &rij_sqr = sqr_dist[j]; - auto &ptIdj = this->d_ptId[j_id]; - auto &pj = this->getParticleFromAllList(ptIdj); - double rhoj = pj->getDensity(); - // double Rji = std::sqrt(rij_sqr); - double Rji = (this->d_x[j_id] - yi).length(); - - bool both_walls = - (pi->getTypeIndex() == 1 and pj->getTypeIndex() == 1); - - if (j_id != i) { - if (ptIdj != ptIdi && !both_walls) { - // apply particle-particle or particle-wall contact here - const auto &contact = - d_cDeck_p->getContact(pi->d_zoneId, pj->d_zoneId); - if (util::isLess(Rji, contact.d_contactR)) { - - auto yji = this->d_x[j_id] - yi; - auto volj = this->d_vol[j_id]; - auto vji = this->d_v[j_id] - vi; - - // resolve velocity vector in normal and tangential components - auto en = yji / Rji; - auto vn_mag = (vji * en); - auto et = vji - vn_mag * en; - if (util::isGreater(et.length(), 0.)) - et = et / et.length(); - else - et = util::Point(); - - // Formula using bulk modulus and horizon - scalar_f = contact.d_Kn * (Rji - contact.d_contactR) * - volj; // divided by voli - if (scalar_f > 0.) - scalar_f = 0.; - force_i += scalar_f * en; - - // compute friction force (since f < 0, |f| = -f) - force_i += contact.d_mu * scalar_f * et; - - // if particle-wall pair, apply damping contact here <-- - // doesnt seem to work - bool node_lvl_damp = false; - // if (pi->getTypeIndex() == 0 and pj->getTypeIndex() == 1) - // node_lvl_damp = true; - - if (node_lvl_damp) { - // apply damping at the node level - auto meq = util::equivalentMass(rhoi * voli, rhoj * volj); - auto beta_n = - contact.d_betan * - std::sqrt(contact.d_kappa * contact.d_contactR * meq); - - auto &pii = this->d_particlesListTypeAll[pi->getId()]; - vji = this->d_v[j_id] - pii->getVCenter(); - vn_mag = (vji * en); - if (vn_mag > 0.) - vn_mag = 0.; - force_i += beta_n * vn_mag * en / voli; - } - } // within contact radius - } // particle-particle contact - } // if j_id is not i - } // loop over neighbors - } // contact neighbor - - this->d_f[i] += force_i; - } + taskflow.for_each_index((std::size_t) 0, + d_fContCompNodes.size(), + (std::size_t) 1, + [this](std::size_t II) { + + auto i = this->d_fContCompNodes[II]; + + // local variable to hold force + util::Point force_i = util::Point(); + double scalar_f = 0.; + + const auto &ptIdi = this->getPtId(i); + auto &pi = this->getParticleFromAllList(ptIdi); + double horizon = pi->d_material_p->getHorizon(); + double search_r = this->d_maxContactR; + + // particle data + double rhoi = pi->getDensity(); + + const auto &yi = this->d_x[i]; // current coordinates + const auto &ui = this->d_u[i]; + const auto &vi = this->d_v[i]; + const auto &voli = this->d_vol[i]; + + const std::vector &neighs = this->d_neighC[i]; + + if (neighs.size() > 0) { + + for (const auto &j_id: neighs) { + + //auto &j_id = neighs[j]; + const auto &yj = this->d_x[j_id]; // current coordinates + double Rji = (yj - yi).length(); + auto &ptIdj = this->d_ptId[j_id]; + auto &pj = this->getParticleFromAllList(ptIdj); + double rhoj = pj->getDensity(); + + bool both_walls = + (pi->getTypeIndex() == 1 and pj->getTypeIndex() == 1); + + if (j_id != i) { + if (ptIdj != ptIdi && !both_walls) { + + // apply particle-particle or particle-wall contact here + const auto &contact = + d_cDeck_p->getContact(pi->d_zoneId, pj->d_zoneId); + + if (util::isLess(Rji, contact.d_contactR)) { + + auto yji = this->d_x[j_id] - yi; + auto volj = this->d_vol[j_id]; + auto vji = this->d_v[j_id] - vi; + + // resolve velocity vector in normal and tangential components + auto en = yji / Rji; + auto vn_mag = (vji * en); + auto et = vji - vn_mag * en; + if (util::isGreater(et.length(), 0.)) + et = et / et.length(); + else + et = util::Point(); + + // Formula using bulk modulus and horizon + scalar_f = contact.d_Kn * (Rji - contact.d_contactR) * + volj; // divided by voli + if (scalar_f > 0.) + scalar_f = 0.; + force_i += scalar_f * en; + + // compute friction force (since f < 0, |f| = -f) + force_i += contact.d_mu * scalar_f * et; + + // if particle-wall pair, apply damping contact here <-- + // doesnt seem to work + bool node_lvl_damp = false; + // if (pi->getTypeIndex() == 0 and pj->getTypeIndex() == 1) + // node_lvl_damp = true; + + if (node_lvl_damp) { + // apply damping at the node level + auto meq = util::equivalentMass(rhoi * voli, rhoj * volj); + auto beta_n = + contact.d_betan * + std::sqrt(contact.d_kappa * contact.d_contactR * meq); + + auto &pii = this->d_particlesListTypeAll[pi->getId()]; + vji = this->d_v[j_id] - pii->getVCenter(); + vn_mag = (vji * en); + if (vn_mag > 0.) + vn_mag = 0.; + force_i += beta_n * vn_mag * en / voli; + } + } // within contact radius + } // particle-particle contact + } // if j_id is not i + } // loop over neighbors + } // contact neighbor + + this->d_f[i] += force_i; + } ); // for_each executor.run(taskflow).get(); - + // damping force log(" Computing normal damping force \n", 3); for (auto &pi : d_particlesListTypeParticle) { + auto pi_id = pi->getId(); + double Ri = pi->d_geom_p->boundingRadius(); double vol_pi = M_PI * Ri * Ri; auto pi_xc = pi->getXCenter(); @@ -867,51 +974,36 @@ void model::DEMModel::computeContactForces() { // particle-wall // Step 1: Create list of wall nodes that are within the Rc distance // of at least one of the particle - std::vector> wall_nodes(pi->getNumNodes()); + // This is done already in updateContactNeighborList() + // step 2 - condensed wall nodes into one vector (has to be done serially + d_neighWallNodesCondensed[pi->getId()].clear(); { - tf::Executor executor(util::parallel::getNThreads()); - tf::Taskflow taskflow; + for (size_t j=0; jgetNumNodes(), (std::size_t) 1, [this, pi, &wall_nodes](std::size_t i) { - auto yi = this->d_x[pi->getNodeId(i)]; - double search_r = this->d_maxContactR; - std::vector neighs; - std::vector sqr_dist; - auto search_status = - this->d_nsearch_p->radiusSearch(yi, search_r, neighs, sqr_dist); - - if (search_status > 0) { - for (std::size_t j = 0; j < neighs.size(); ++j) { - auto &j_id = neighs[j]; - auto &ptIdj = this->d_ptId[j_id]; - auto &pj = this->getParticleFromAllList(ptIdj); + const auto &j_id = pi->getNodeId(j); + const auto &yj = this->d_x[j_id]; - // we are only interested in nodes from wall - if (pj->getTypeIndex() == 1) { - double Rji = (this->d_x[j_id] - yi).length(); - const auto &contact = - d_cDeck_p->getContact(pi->d_zoneId, pj->d_zoneId); - if (util::isLess(Rji, contact.d_contactR)) - wall_nodes[i].push_back(j_id); - } - } - } - } - ); // for_each + for (size_t k=0; k wall_nodes_condense; - for (auto &nds : wall_nodes) { - for (auto &j : nds) - addToList(&wall_nodes_condense, j); - } + double Rjk = (this->d_x[k_id] - yj).length(); + + const auto &contact = + d_cDeck_p->getContact(pi->d_zoneId, pk->d_zoneId); + + if (util::isLess(Rjk, contact.d_contactR)) + addToList(&d_neighWallNodesCondensed[pi_id], k_id); + + } // loop over k + } // loop over j + } // step 2 // now loop over wall nodes and add force to center of particle - for (auto &j : wall_nodes_condense) { + for (auto &j : d_neighWallNodesCondensed[pi_id]) { + auto &ptIdj = this->d_ptId[j]; auto &pj = this->d_particlesListTypeAll[ptIdj]; auto rhoj = pj->getDensity(); @@ -919,7 +1011,8 @@ void model::DEMModel::computeContactForces() { auto meq = rhoi * vol_pi; //auto meq = util::equivalentMass(rhoi * vol_pi, rhoj * volj); - const auto &contact = d_cDeck_p->getContact(pi->d_zoneId, pj->d_zoneId); + const auto &contact + = d_cDeck_p->getContact(pi->d_zoneId, pj->d_zoneId); // beta_n auto beta_n = contact.d_betan * @@ -948,8 +1041,8 @@ void model::DEMModel::computeContactForces() { taskflow.for_each_index((std::size_t) 0, pi->getNumNodes(), (std::size_t) 1, [this, pi, force_i](std::size_t i) { - this->d_f[pi->getNodeId(i)] += force_i; - } + this->d_f[pi->getNodeId(i)] += force_i; + } ); // for_each executor.run(taskflow).get(); @@ -1076,7 +1169,7 @@ void model::DEMModel::createParticleUsingParticleZoneGeomObject( size_t z, std::shared_ptr ref_p) { - log("DEMModel: Creating particle using Particle Zone Geometry Object", 1); + log("DEMModel: Creating particle using Particle Zone Geometry Object\n", 1); // get particle zone auto &pz = d_pDeck_p->d_particleZones[z]; @@ -1121,7 +1214,7 @@ void model::DEMModel::createParticleUsingParticleZoneGeomObject( void model::DEMModel::createParticlesFromFile( size_t z, std::shared_ptr ref_p) { - log("DEMModel: Creating particle from file", 1); + log("DEMModel: Creating particle from file\n", 1); // get particle zone auto &pz = d_pDeck_p->d_particleZones[z]; @@ -1149,7 +1242,8 @@ void model::DEMModel::createParticlesFromFile( orients.push_back( util::transform_to_uniform_dist(0., 2. * M_PI, uniform_dist())); } - } else if (pz.d_particleFileDataType == "loc_rad_orient") { + } + else if (pz.d_particleFileDataType == "loc_rad_orient") { rw::reader::readParticleWithOrientCsvFile(pz.d_particleFile, d_modelDeck_p->d_dim, ¢ers, &rads, &orients, z_id); @@ -1375,13 +1469,15 @@ void model::DEMModel::setupContact() { "Vmax = {:5.3e}, " "betan = {:7.5f}, mu = {:.4f}, kappa = {:5.3e}\n", deck->d_contactR, d_hMin, deck->d_Kn, deck->d_vMax, - deck->d_betan, deck->d_mu, deck->d_kappa), 1); + deck->d_betan, deck->d_mu, deck->d_kappa), 2); } } } void model::DEMModel::setupQuadratureData() { + return ; + if (util::methods::isTagInList("Strain_Stress", d_outputDeck_p->d_outTags) or d_modelDeck_p->d_populateElementNodeConnectivity) { @@ -1443,7 +1539,12 @@ void model::DEMModel::updatePeridynamicNeighborlist() { std::vector neighs; std::vector sqr_dist; - if (this->d_nsearch_p->radiusSearch(this->d_x[i], search_r, neighs, sqr_dist) > 0) { + if (this->d_nsearch_p->radiusSearchIncludeTag(this->d_x[i], + search_r, + neighs, + sqr_dist, + this->d_ptId[i], + this->d_ptId) > 0) { for (std::size_t j = 0; j < neighs.size(); ++j) if (neighs[j] != i && this->d_ptId[neighs[j]] == pi) { this->d_neighPd[i].push_back(size_t(neighs[j])); @@ -1460,80 +1561,268 @@ void model::DEMModel::updatePeridynamicNeighborlist() { } void model::DEMModel::updateContactNeighborlist() { - d_neighC.resize(d_x.size()); - // d_neighCSqdDist.resize(d_x.size()); - auto t1 = steady_clock::now(); - tf::Executor executor(util::parallel::getNThreads()); - tf::Taskflow taskflow; + auto update = updateContactNeighborSearchParameters(); - taskflow.for_each_index((std::size_t) 0, d_x.size(), (std::size_t) 1, [this](std::size_t i) { - const auto &pi = this->d_ptId[i]; - double search_r = this->d_maxContactR; - std::vector neighs; - std::vector sqr_dist; - if (this->d_nsearch_p->radiusSearch(this->d_x[i], search_r, neighs, sqr_dist) > 0) { - for (std::size_t j = 0; j < neighs.size(); ++j) - if (neighs[j] != i && this->d_ptId[neighs[j]] != pi) { - this->d_neighC[i].push_back(size_t(neighs[j])); - // this->d_neighCSqdDist[i].push_back(sqr_dist[j]); - } - } - } - ); // for_each + if (!update) + return; - executor.run(taskflow).get(); + // update contact neighborlist - auto t2 = steady_clock::now(); - log(fmt::format("DEMModel: Contact neighbor update time = {}\n", util::methods::timeDiff(t1, t2)), 2); -} - -void model::DEMModel::updateNeighborlistCombine() { + // update the point cloud (make sure that d_x is updated along with displacement) + pt_cloud_update_time = d_nsearch_p->setInputCloud(); + tree_compute_time += pt_cloud_update_time; + avg_tree_update_time += pt_cloud_update_time; - d_neighC.resize(d_x.size()); - // d_neighCSqdDist.resize(d_x.size()); - d_neighPd.resize(d_x.size()); - // d_neighPdSqdDist.resize(d_x.size()); - auto t1 = steady_clock::now(); + if (d_neighC.size() != d_x.size()) + d_neighC.resize(d_x.size()); tf::Executor executor(util::parallel::getNThreads()); tf::Taskflow taskflow; - taskflow.for_each_index((std::size_t) 0, d_x.size(), (std::size_t) 1, [this](std::size_t i) { - const auto &pi = this->d_ptId[i]; - double horizon = this->d_particlesListTypeAll[pi]->d_material_p->getHorizon(); - double search_r = horizon; - if (this->d_maxContactR > search_r) - search_r = this->d_maxContactR; + taskflow.for_each_index((std::size_t) 0, d_x.size(), (std::size_t) 1, + [this](std::size_t i) { + + const auto &pi = this->d_ptId[i]; + const auto &pi_particle = this->d_particlesListTypeAll[pi]; + + // search? + bool perform_search_based_on_particle = true; + if (pi_particle->d_typeIndex == 1) // wall + perform_search_based_on_particle = false; + + if (pi_particle->d_allDofsConstrained or !pi_particle->d_computeForce) + perform_search_based_on_particle = false; + + if (perform_search_based_on_particle) { + std::vector neighs; std::vector sqr_dist; - if (this->d_nsearch_p->radiusSearch(this->d_x[i], search_r, neighs, sqr_dist) > 0) { - for (std::size_t j = 0; j < neighs.size(); ++j) { - auto &j_id = neighs[j]; - auto &rij = sqr_dist[j]; - - // for contact - if (j_id != i && this->d_ptId[j_id] != pi && - rij < this->d_maxContactR * 1.001) { - this->d_neighC[i].push_back(size_t(j_id)); - // this->d_neighCSqdDist[i].push_back(rij); - } - // for peridynamic - if (j_id != i && this->d_ptId[j_id] == pi && - rij < horizon * 1.001) { - this->d_neighPd[i].push_back(size_t(j_id)); - // this->d_neighPdSqdDist[i].push_back(rij); - } + this->d_neighC[i].clear(); + + auto n = this->d_nsearch_p->radiusSearchExcludeTag( + this->d_x[i], + this->d_contNeighSearchRadius, + neighs, + sqr_dist, + this->d_ptId[i], + this->d_ptId); + + if (n > 0) { + for (auto neigh: neighs) { + if (neigh != i) + this->d_neighC[i].push_back(neigh); } } } +} ); // for_each executor.run(taskflow).get(); - - auto t2 = steady_clock::now(); - log(fmt::format("DEMModel: Peridynamics+Contact neighbor update time = {}\n", util::methods::timeDiff(t1, t2)), 2); + + + // handle particle-wall neighborlist (based on the d_neighC that we already computed) + d_neighWallNodes.resize(d_particlesListTypeAll.size()); + d_neighWallNodesDistance.resize(d_particlesListTypeAll.size()); + d_neighWallNodesCondensed.resize(d_particlesListTypeAll.size()); + + for (auto &pi : d_particlesListTypeParticle) { + + d_neighWallNodes[pi->getId()].resize(pi->getNumNodes()); + d_neighWallNodesDistance[pi->getId()].resize(pi->getNumNodes()); + + // get all wall nodes that are within contact distance to the nodes of this particle + { + tf::Executor executor(util::parallel::getNThreads()); + tf::Taskflow taskflow; + + taskflow.for_each_index((std::size_t) 0, + pi->getNumNodes(), + (std::size_t) 1, + [this, &pi](std::size_t i) { + + auto i_glob = pi->getNodeId(i); + auto yi = this->d_x[i_glob]; + + const std::vector &neighs = this->d_neighC[i_glob]; + + this->d_neighWallNodes[pi->getId()][i].clear(); + this->d_neighWallNodesDistance[pi->getId()][i].clear(); + + for (const auto &j_id: neighs) { + + auto &ptIdj = this->d_ptId[j_id]; + auto &pj = this->getParticleFromAllList( + ptIdj); + + // we are only interested in nodes from wall + if (pj->getTypeIndex() == 1) { + this->d_neighWallNodes[pi->getId()][i].push_back(j_id); + //this->d_neighWallNodesDistance[pi->getId()][i].push_back(Rji); + } + } + } + ); // for_each + + executor.run(taskflow).get(); + } + } // loop over particles + +} + +bool model::DEMModel::updateContactNeighborSearchParameters() { + + // initialize parameters + if (d_contNeighUpdateInterval == 0 and + util::isLess(d_contNeighSearchRadius, 1.e-16)) { + d_contNeighUpdateInterval = d_pDeck_p->d_pNeighDeck.d_neighUpdateInterval; + d_contNeighTimestepCounter = d_n % d_contNeighUpdateInterval; + d_contNeighSearchRadius = d_maxContactR * d_pDeck_p->d_pNeighDeck.d_sFactor; + } + + // at d_n = 0, this function will be called twice because updateContactNeighborlist() will be + // called twice: one inside init() and second inside computeForces() + // so to match d_n and d_contNeighTimestepCounter in the initial stage of simulation, we need to handle the special case + if (d_n == 0) { + update_contact_neigh_search_params_init_call_count++; + + if (update_contact_neigh_search_params_init_call_count == 1) + return true; + + if (update_contact_neigh_search_params_init_call_count == 2) { + d_contNeighTimestepCounter++; + return (d_contNeighTimestepCounter - 1) % d_contNeighUpdateInterval == 0; + } + } + + // handle case of restart + if (d_modelDeck_p->d_isRestartActive and d_n == d_restartDeck_p->d_step) { + // assign correct value for restart step + d_contNeighTimestepCounter = d_n % d_contNeighUpdateInterval; + } + + if (d_contNeighUpdateInterval == 1) { + // further optimization of parameters is not possible + d_contNeighSearchRadius = d_maxContactR; + + // update counter and return condition for contact search + d_contNeighTimestepCounter++; + return (d_contNeighTimestepCounter - 1) % d_contNeighUpdateInterval == 0; + } + + // check if we should proceed with parameter update + // param update is done at smaller interval than the search itself to avoid + // scenarios where particles suddenly move with a high velocity + size_t update_param_interval = + d_contNeighUpdateInterval > 5 ? size_t( + 0.2 * d_contNeighUpdateInterval) : 1; + + // check if we ought to update search parameters; if not, return + if (d_contNeighTimestepCounter > 0 and d_contNeighTimestepCounter % update_param_interval != 0) { + // update counter and return condition for contact search + d_contNeighTimestepCounter++; + return (d_contNeighTimestepCounter - 1) % d_contNeighUpdateInterval == 0; + } + + // first update the maximum velocity in all particles + for (auto &pi : d_particlesListTypeAll) { + auto max_v_node = util::methods::maxIndex(d_vMag, + pi->d_globStart, pi->d_globEnd); + + if (max_v_node > pi->d_globEnd or max_v_node < pi->d_globStart) { + std::cerr << fmt::format("Error: max_v_node = {} for " + "particle of id = {} is not in the limit.\n", + max_v_node, pi->getId()) + << "Particle info = \n" + << pi->printStr() + << "\n\n Magnitude of velocity = " + << d_vMag[max_v_node] << "\n"; + exit(EXIT_FAILURE); + } + + d_maxVelocityParticlesListTypeAll[pi->getId()] + = d_vMag[max_v_node]; + } + + // find max velocity among all particles + d_maxVelocity = util::methods::max(d_maxVelocityParticlesListTypeAll); + + // now we find the best parameters for contact search + auto up_interval_old = d_contNeighUpdateInterval; + + // TO ensure that in d_neighUpdateInterval time steps, the search radius is above the + // distance traveled by object with velocity d_maxVelocity + // also multiply by a safety factor + double safety_factor = d_pDeck_p->d_pNeighDeck.d_sFactor > 5 ? d_pDeck_p->d_pNeighDeck.d_sFactor : 10; + auto max_search_r_from_contact_R = d_pDeck_p->d_pNeighDeck.d_sFactor * d_maxContactR; + auto max_search_r = d_maxVelocity * d_currentDt + * d_pDeck_p->d_pNeighDeck.d_neighUpdateInterval + * safety_factor; + + + if (util::isGreater(max_search_r, max_search_r_from_contact_R )) { + + d_contNeighUpdateInterval = size_t(d_maxContactR/(d_maxVelocity * d_currentDt)); + if (up_interval_old > d_contNeighUpdateInterval) { + // issue warning + log(fmt::format("Warning: Contact search radius based on velocity is greater than " + "the max contact radius.\n" + "Warning: Adjusting contact neighborlist update interval.\n" + "{:>13} = {:4.6e}, time step = {}, " + "velocity-based r = {:4.6e}, max contact r = {:4.6e}\n", + "Time", d_time, d_n, max_search_r, max_search_r_from_contact_R), + 2, dbg_condition, 3); + } + + d_contNeighSearchRadius = max_search_r_from_contact_R; + // reset time step counter for contact so that the contact list is updated in the current time step + // and the update cycle starts from the current time step + d_contNeighTimestepCounter = 0; + + if (d_contNeighUpdateInterval < 1) { + d_contNeighUpdateInterval = 1; + d_contNeighSearchRadius = d_maxContactR; + } + } + else { + // update search radius + d_contNeighSearchRadius = d_contNeighUpdateInterval < 2 ? d_maxContactR : max_search_r_from_contact_R; + } + + if (up_interval_old > d_contNeighUpdateInterval) { + log(fmt::format(" Contact neighbor parameters: \n" + " {:48s} = {:d}\n" + " {:48s} = {:d}\n" + " {:48s} = {:d}\n" + " {:48s} = {:4.6e}\n" + " {:48s} = {:4.6e}\n" + " {:48s} = {:4.6e}\n" + " {:48s} = {:4.6e}\n" + " {:48s} = {:4.6e}\n" + " {:48s} = {:4.6e}\n", + "time step", d_n, + "contact neighbor update interval", + d_contNeighUpdateInterval, + "contact neighbor update time step counter", + d_contNeighTimestepCounter, + "search radius", d_contNeighSearchRadius, + "max contact radius", d_maxContactR, + "search radius factor", d_pDeck_p->d_pNeighDeck.d_sFactor, + "max search r from velocity", max_search_r, + "max search r from contact r", max_search_r_from_contact_R, + "max velocity", d_maxVelocity), + 2, dbg_condition, 3); + } + + // update counter and return condition for contact search + d_contNeighTimestepCounter++; + return (d_contNeighTimestepCounter - 1) % d_contNeighUpdateInterval == 0; +} + +void model::DEMModel::updateNeighborlistCombine() { + // Not used + return; } void model::DEMModel::output() { diff --git a/src/model/dem/demModel.h b/src/model/dem/demModel.h index 0384d25e..a259327c 100644 --- a/src/model/dem/demModel.h +++ b/src/model/dem/demModel.h @@ -193,6 +193,9 @@ class DEMModel : public ModelData { /*! @brief Sets up quadrature data */ virtual void setupQuadratureData(); + /*! @brief Update contact neighbor search parameters */ + virtual bool updateContactNeighborSearchParameters(); + /** @}*/ /** diff --git a/src/model/modelData.h b/src/model/modelData.h index cd8e73ee..e2f9ab7a 100644 --- a/src/model/modelData.h +++ b/src/model/modelData.h @@ -23,7 +23,7 @@ #include // string and size_t type #include -typedef nsearch::NFlannSearchKd NSearch; +typedef nsearch::NFlannSearchKd<3> NSearch; // forward declare particle and wall namespace particle { @@ -49,13 +49,19 @@ class ModelData { * @param deck Input deck */ ModelData(inp::Input *deck) - : d_n(0), d_time(0.), d_infoN(1), + : d_n(0), + d_time(0.), + d_currentDt(0.), + d_infoN(1), d_input_p(deck), d_modelDeck_p(deck->getModelDeck()), d_restartDeck_p(deck->getRestartDeck()), d_outputDeck_p(deck->getOutputDeck()), d_pDeck_p(deck->getParticleDeck()), d_cDeck_p(deck->getContactDeck()), d_stop(false), d_hMax(0.), d_hMin(0.), d_maxContactR(0.), + d_contNeighUpdateInterval(0), + d_contNeighTimestepCounter(0), + d_contNeighSearchRadius(0.), d_uLoading_p(nullptr), d_fLoading_p(nullptr), d_fracture_p(nullptr), d_nsearch_p(nullptr) {} @@ -495,6 +501,9 @@ class ModelData { /*! @brief Current time */ double d_time; + /*! @brief Current timestep */ + double d_currentDt; + /*! @brief Print log step interval */ size_t d_infoN; @@ -516,6 +525,7 @@ class ModelData { /*! @brief Contact deck */ std::shared_ptr d_cDeck_p; + /*! @brief flag to stop the simulation midway */ bool d_stop; @@ -528,6 +538,15 @@ class ModelData { /*! @brief Maximum contact radius between over pairs of particles and walls */ double d_maxContactR; + /*! @brief Neighborlist update interval */ + size_t d_contNeighUpdateInterval; + + /*! @brief Contact neighborlist time step counter */ + size_t d_contNeighTimestepCounter; + + /*! @brief Neighborlist contact search radius (multiple of d_maxContactR). This variable will be updated during simulation based on maximum velocity */ + double d_contNeighSearchRadius; + /*! @brief Pointer to reference particle */ std::vector> d_referenceParticles; @@ -540,6 +559,12 @@ class ModelData { /*! @brief List of walls */ std::vector d_particlesListTypeWall; + /*! @brief Maximum velocity among all nodes in the particle for each particle */ + std::vector d_maxVelocityParticlesListTypeAll; + + /*! @brief Maximum velocity among all nodes */ + double d_maxVelocity; + /*! @brief Zone information of particles. For zone 0, d_zInfo[0] = [n1, n2] * where n1 is the index at which the particle in this zone starts in d_particlesListTypeAll * and n2 is the index + 1, where index is at which the particle in this zone ends. */ @@ -569,6 +594,9 @@ class ModelData { /*! @brief Velocity of the nodes */ std::vector d_v; + /*! @brief Magnitude of velocity of the nodes */ + std::vector d_vMag; + /*! @brief Total force on the nodes */ std::vector d_f; @@ -588,6 +616,15 @@ class ModelData { /*! @brief Square distance neighbor data for peridynamic forces */ std::vector> d_neighPdSqdDist; + /*! @brief Neighbor data for contact between particle and walls */ + std::vector>> d_neighWallNodes; + + /*! @brief Neighbor data (distance) for contact between particle and walls */ + std::vector>> d_neighWallNodesDistance; + + /*! @brief Neighbor data for contact between particle and walls condensed into single vector for each particle */ + std::vector> d_neighWallNodesCondensed; + /*! @brief Vector of fixity mask of each node * * First bit represents x-dof, second represents y-dof, and third diff --git a/src/nsearch/nflannSetup.h b/src/nsearch/nflannSetup.h index c560d568..fe32ca2b 100644 --- a/src/nsearch/nflannSetup.h +++ b/src/nsearch/nflannSetup.h @@ -179,9 +179,255 @@ class TreeSearchResult { } }; +/*! + * @brief To collect results of nanoflann tree search. In this class, we check the tag of a potential point + * and add the point to search list if the tag does not match the tag of a point for which neighbors are computed. + * This is useful when computing neighbor list for contact. + * In this case, we do not want points from the same particle to be in the contact neighbor lsit. + * Default result output of + * nanoflann search uses std::vector>. We prefer to + * get the index and distance in a separate list. + */ +template +class TreeSearchCheckIDExcludeResult { +public: + /*! @brief Distance type (double, float, etc) */ + typedef _DistanceType DistanceType; + + /*! @brief Index type (int, size_t, etc) */ + typedef _IndexType IndexType; + +public: + /*! @brief Define search radius. **Note** this should be square of radius, + * where radius is a distance within which we are searching for points. */ + const DistanceType d_r; + + /*! @brief Tag of the point we are searching for neighboring points */ + const IndexType &d_tag; + + /*! @brief Indices within the search radius */ + std::vector &d_indices; + + /*! @brief Distance of points found within the search radius */ + std::vector &d_dists; + + /*! @brief Tag of point data that we want to check with given point to be added to the search result */ + const std::vector &d_dataTags; + + /*! + * @brief Constructor + * + * @param radius_ Search radius (square of radius) + * @param indices Reference to index vector + * @param dists Reference to distance vector + * @param searchPointTag Tag of a search point + * @param dataTags Vector of tags for each point in the pointcloud + */ + inline TreeSearchCheckIDExcludeResult(DistanceType radius_, + std::vector &indices, + std::vector &dists, + const IndexType &searchPointTag, + const std::vector &dataTags) + : d_r(radius_), + d_tag(searchPointTag), + d_indices(indices), + d_dists(dists), + d_dataTags(dataTags) { + init(); + } -/*! @brief Define result atributes */ + /*! + * @brief Initialize the data (clear) + */ + inline void init() { clear(); } + + /*! + * @brief Clear the data + */ + inline void clear() { + d_indices.clear(); + d_dists.clear(); + } + + /*! + * @brief Get the size of currently stored (found so far) indices + * + * @return size Size of indices data + */ + inline size_t size() const { return d_indices.size(); } + + /*! + * @brief Check (not implemented) + * @return bool Status + */ + inline bool full() const { return true; } + + /*! + * @brief Called during search to add an element matching the criteria. + * + * @param dist Distance of point from the search point + * @param index Id of point + * @return True True if continue the search further + */ + inline bool addPoint(DistanceType dist, IndexType index) { + if (dist < d_r) { + if (d_dataTags[index] != d_tag) { + d_indices.push_back(index); + d_dists.push_back(dist); + } + } + return true; + } + + /*! + * @brief Return maximum distance for search + * @return Radius Maximum distance for search + */ + inline DistanceType worstDist() const { return d_r; } + + /*! + * @brief Find the worst result (furtherest neighbor) without copying or sorting + * Pre-conditions: size() > 0 + * + * Currently, we return pair(0, 0.) + * + * @return Pair Pair of id and max distanced point + */ + std::pair worst_item() const { + if (d_indices.empty()) + throw std::runtime_error("Cannot invoke RadiusResultSet::worst_item() on " + "an empty list of results."); + return std::make_pair(0, 0.); + } +}; + +/*! + * @brief To collect results of nanoflann tree search. In this class, we check the tag of a potential point + * and add the point to search list if the tag matches the tag of a point for which neighbors are computed. + * This is useful when computing neighbor list for peridynamics. + * In this case, we want points from the same particle to be in the peridynamics neighbor lsit. + * Default result output of + * nanoflann search uses std::vector>. We prefer to + * get the index and distance in a separate list. + */ +template +class TreeSearchCheckIDIncludeResult { +public: + /*! @brief Distance type (double, float, etc) */ + typedef _DistanceType DistanceType; + + /*! @brief Index type (int, size_t, etc) */ + typedef _IndexType IndexType; + +public: + /*! @brief Define search radius. **Note** this should be square of radius, + * where radius is a distance within which we are searching for points. */ + const DistanceType d_r; + + /*! @brief Tag of the point we are searching for neighboring points */ + const IndexType &d_tag; + + /*! @brief Indices within the search radius */ + std::vector &d_indices; + + /*! @brief Distance of points found within the search radius */ + std::vector &d_dists; + + /*! @brief Tag of point data that we want to check with given point to be added to the search result */ + const std::vector &d_dataTags; + + /*! + * @brief Constructor + * + * @param radius_ Search radius (square of radius) + * @param indices Reference to index vector + * @param dists Reference to distance vector + * @param searchPointTag Tag of a search point + * @param dataTags Vector of tags for each point in the pointcloud + */ + inline TreeSearchCheckIDIncludeResult(DistanceType radius_, + std::vector &indices, + std::vector &dists, + const IndexType &searchPointTag, + const std::vector &dataTags) + : d_r(radius_), + d_tag(searchPointTag), + d_indices(indices), + d_dists(dists), + d_dataTags(dataTags) { + init(); + } + + /*! + * @brief Initialize the data (clear) + */ + inline void init() { clear(); } + + /*! + * @brief Clear the data + */ + inline void clear() { + d_indices.clear(); + d_dists.clear(); + } + + /*! + * @brief Get the size of currently stored (found so far) indices + * + * @return size Size of indices data + */ + inline size_t size() const { return d_indices.size(); } + + /*! + * @brief Check (not implemented) + * @return bool Status + */ + inline bool full() const { return true; } + + /*! + * @brief Called during search to add an element matching the criteria. + * + * @param dist Distance of point from the search point + * @param index Id of point + * @return True True if continue the search further + */ + inline bool addPoint(DistanceType dist, IndexType index) { + if (dist < d_r) { + if (d_dataTags[index] == d_tag) { + d_indices.push_back(index); + d_dists.push_back(dist); + } + } + return true; + } + + /*! + * @brief Return maximum distance for search + * @return Radius Maximum distance for search + */ + inline DistanceType worstDist() const { return d_r; } + + /*! + * @brief Find the worst result (furtherest neighbor) without copying or sorting + * Pre-conditions: size() > 0 + * + * Currently, we return pair(0, 0.) + * + * @return Pair Pair of id and max distanced point + */ + std::pair worst_item() const { + if (d_indices.empty()) + throw std::runtime_error("Cannot invoke RadiusResultSet::worst_item() on " + "an empty list of results."); + return std::make_pair(0, 0.); + } +}; + + +/*! @brief Define result attributes */ typedef TreeSearchResult TreeSearchRes; +typedef TreeSearchCheckIDIncludeResult TreeSearchCheckIDIncludeRes; +typedef TreeSearchCheckIDExcludeResult TreeSearchCheckIDExcludeRes; /*! @brief Define tree data type for nanoflann */ @@ -189,7 +435,21 @@ typedef nanoflann::KDTreeSingleIndexAdaptor< nanoflann::L2_Simple_Adaptor, PointCloudAdaptor, 3 /* dim */ > - NFlannKdTree; +NFlannKdTree; + +/*! @brief Define tree data type for nanoflann (3D) */ +typedef nanoflann::KDTreeSingleIndexAdaptor< + nanoflann::L2_Simple_Adaptor, PointCloudAdaptor, + 3 /* dim */ +> +NFlannKdTree3D; + +/*! @brief Define tree data type for nanoflann (2D) */ +typedef nanoflann::KDTreeSingleIndexAdaptor< + nanoflann::L2_Simple_Adaptor, PointCloudAdaptor, + 2 /* dim */ +> +NFlannKdTree2D; } // namespace nsearch diff --git a/src/nsearch/nsearch.cpp b/src/nsearch/nsearch.cpp index fe6c26c3..00bfb324 100644 --- a/src/nsearch/nsearch.cpp +++ b/src/nsearch/nsearch.cpp @@ -8,59 +8,4 @@ * file LICENSE) */ -#include "nsearch.h" - -nsearch::NFlannSearchKd::NFlannSearchKd(const PointCloud &x, size_t debug, - double tree_resolution) - : BaseNSearch("nflann_kdtree", debug), d_cloud(x), d_tree(3, d_cloud, - nanoflann::KDTreeSingleIndexAdaptorParams(10 /* max leaf */)) { - d_params.sorted = false; -} - -double nsearch::NFlannSearchKd::setInputCloud() { - auto t1 = steady_clock::now(); - d_tree.buildIndex(); - auto t2 = steady_clock::now(); - return util::methods::timeDiff(t1, t2); -} - -double -nsearch::NFlannSearchKd::updatePointCloud(const std::vector &x, - bool parallel) { - return 0; -} - -size_t nsearch::NFlannSearchKd::radiusSearch(const util::Point &searchPoint, - const double &search_r, - std::vector &neighs, - std::vector &sqr_dist) { - - double query_pt[3] = {searchPoint[0], searchPoint[1], searchPoint[2]}; - - TreeSearchRes resultSet(search_r * search_r, neighs, sqr_dist); - return d_tree.radiusSearchCustomCallback(&query_pt[0], resultSet, d_params); -} - -size_t nsearch::NFlannSearchKd::radiusSearch(const util::Point &searchPoint, - const double &search_r, - std::vector &neighs, - std::vector &sqr_dist) { - - // ugly but quick fix - // first, get results using int and float and then convert - std::vector neighs_temp; - std::vector sqr_dist_temp; - auto N = - this->radiusSearch(searchPoint, search_r, neighs_temp, sqr_dist_temp); - - if (N > 0) { - neighs.resize(N); - sqr_dist.resize(N); - for (size_t i=0; i &sqr_dist) = 0; /*! - * @brief Perform radius search to find points in a point cloud within specified distance from a given point - * @param searchPoint Point near which we want neighbors - * @param search_r Search radius - * @param neighs Indices of points in neighborhood - * @param sqr_dist Squared distance of neighboring points from search point - * @return number Number of points in neighborhood + * @copydoc radiusSearch( + const util::Point &searchPoint, const double &search_r, + std::vector &neighs, + std::vector &sqr_dist) = 0 */ virtual size_t radiusSearch( const util::Point &searchPoint, const double &search_r, std::vector &neighs, std::vector &sqr_dist) = 0; + /*! + * @brief Perform radius search to find points in a point cloud within specified distance from a given point. + * This function also checks the tag of potential point and only if the point has a different tag it will be added to the list. + * This is useful for getting neighbor lists for contact. In this case, tag of a point is the particle id (particle it belongs to). + * + * @param searchPoint Point near which we want neighbors + * @param search_r Search radius + * @param neighs Indices of points in neighborhood + * @param sqr_dist Squared distance of neighboring points from search point + * @param searchPointTag Tag of a search point + * @param dataTags Vector of tags for each point in the pointcloud + * @return number Number of points in neighborhood + */ + virtual size_t radiusSearchExcludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + const std::vector &dataTags) = 0; + + /*! + * @copydoc radiusSearchExcludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + std::vector &dataTags) = 0 + */ + virtual size_t radiusSearchExcludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + const std::vector &dataTags) = 0; + + /*! + * @brief Perform radius search to find points in a point cloud within specified distance from a given point. + * This function also checks the tag of potential point and only if the point has a same tag it will be added to the list. + * This is useful for getting neighbor lists for peridynamics. In this case, tag of a point is the particle id (particle it belongs to). + * + * @param searchPoint Point near which we want neighbors + * @param search_r Search radius + * @param neighs Indices of points in neighborhood + * @param sqr_dist Squared distance of neighboring points from search point + * @param searchPointTag Tag of a search point + * @param dataTags Vector of tags for each point in the pointcloud + * @return number Number of points in neighborhood + */ + virtual size_t radiusSearchIncludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + const std::vector &dataTags) = 0; + + /*! + * @copydoc radiusSearchIncludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + std::vector &dataTags) = 0 + */ + virtual size_t radiusSearchIncludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + const std::vector &dataTags) = 0; + public: /*! @brief control the verbosity */ size_t d_debug; @@ -88,6 +162,7 @@ class BaseNSearch { /*! * @brief A class for nearest neighbor search using nanoflann library */ +template class NFlannSearchKd : public BaseNSearch { public: @@ -96,15 +171,26 @@ class NFlannSearchKd : public BaseNSearch { * * @param x Point cloud * @param debug Debug level to print information - * @param tree_resolution Tree resolution + * @param max_leaf Maximum number of leafs */ - explicit NFlannSearchKd(const PointCloud &x, size_t debug = 0, double tree_resolution = 1.); + explicit NFlannSearchKd(const PointCloud &x, size_t debug = 0, size_t max_leafs = 10) + : BaseNSearch("nflann_kdtree", debug), + d_cloud(x), + d_tree(dim, d_cloud, + nanoflann::KDTreeSingleIndexAdaptorParams(max_leafs /* max leaf */)) { + d_params.sorted = false; + }; /*! * @brief Set input cloud * @return double Time taken to update the point cloud */ - double setInputCloud() override; + double setInputCloud() override { + auto t1 = steady_clock::now(); + d_tree.buildIndex(); + auto t2 = steady_clock::now(); + return util::methods::timeDiff(t1, t2); + }; /*! * @brief Function to implement point cloud update @@ -116,40 +202,192 @@ class NFlannSearchKd : public BaseNSearch { * @return double Time taken to update the point cloud */ double updatePointCloud(const std::vector &x, - bool parallel = true) override; + bool parallel = true) override { + return 0; + }; /*! - * @brief Perform radius search to find points in a point cloud within specified distance from a given point - * @param searchPoint Point near which we want neighbors - * @param search_r Search radius - * @param neighs Indices of points in neighborhood - * @param sqr_dist Squared distance of neighboring points from search point - * @return number Number of points in neighborhood + * @copydoc BaseNSearch::radiusSearch( + const util::Point &searchPoint, const double &search_r, + std::vector &neighs, + std::vector &sqr_dist) = 0 */ size_t radiusSearch( const util::Point &searchPoint, const double &search_r, std::vector &neighs, - std::vector &sqr_dist) override; + std::vector &sqr_dist) override { + + double query_pt[3] = {searchPoint[0], searchPoint[1], searchPoint[2]}; + + TreeSearchRes resultSet(search_r * search_r, neighs, sqr_dist); + return d_tree.radiusSearchCustomCallback(&query_pt[0], resultSet, d_params); + }; /*! - * @brief Perform radius search to find points in a point cloud within specified distance from a given point - * @param searchPoint Point near which we want neighbors - * @param search_r Search radius - * @param neighs Indices of points in neighborhood - * @param sqr_dist Squared distance of neighboring points from search point - * @return number Number of points in neighborhood + * @copydoc BaseNSearch::radiusSearch( + const util::Point &searchPoint, const double &search_r, + std::vector &neighs, + std::vector &sqr_dist) = 0 */ size_t radiusSearch( const util::Point &searchPoint, const double &search_r, std::vector &neighs, - std::vector &sqr_dist) override; + std::vector &sqr_dist) override { + + // ugly but quick fix + // first, get results using int and float and then convert + std::vector neighs_temp; + std::vector sqr_dist_temp; + auto N = + this->radiusSearch(searchPoint, search_r, neighs_temp, sqr_dist_temp); + + if (N > 0) { + neighs.resize(N); + sqr_dist.resize(N); + for (size_t i=0; i &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + std::vector &dataTags) = 0 + */ + size_t radiusSearchExcludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + const std::vector &dataTags) override { + + double query_pt[3] = {searchPoint[0], searchPoint[1], searchPoint[2]}; + + TreeSearchCheckIDExcludeRes resultSet(search_r * search_r, + neighs, sqr_dist, searchPointTag, dataTags); + + return d_tree.radiusSearchCustomCallback(&query_pt[0], resultSet, d_params); + }; + + /*! + * @copydoc BaseNSearch::radiusSearchExcludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + std::vector &dataTags) = 0 + */ + size_t radiusSearchExcludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + const std::vector &dataTags) override { + + // first, get results using int and float and then convert + std::vector neighs_temp; + std::vector sqr_dist_temp; + auto N = + this->radiusSearchExcludeTag(searchPoint, search_r, + neighs_temp, sqr_dist_temp, + searchPointTag, dataTags); + + if (N > 0) { + neighs.resize(N); + sqr_dist.resize(N); + for (size_t i=0; i &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + std::vector &dataTags) = 0 + */ + size_t radiusSearchIncludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + const std::vector &dataTags) override { + + double query_pt[3] = {searchPoint[0], searchPoint[1], searchPoint[2]}; + + TreeSearchCheckIDIncludeRes resultSet(search_r * search_r, + neighs, sqr_dist, + searchPointTag, dataTags); + + return d_tree.radiusSearchCustomCallback(&query_pt[0], resultSet, d_params); + }; + + /*! + * @copydoc BaseNSearch::radiusSearchIncludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + std::vector &dataTags) = 0 + */ + size_t radiusSearchIncludeTag( + const util::Point &searchPoint, + const double &search_r, + std::vector &neighs, + std::vector &sqr_dist, + const size_t &searchPointTag, + const std::vector &dataTags) override { + + // first, get results using int and float and then convert + std::vector neighs_temp; + std::vector sqr_dist_temp; + auto N = + this->radiusSearchIncludeTag(searchPoint, search_r, + neighs_temp, sqr_dist_temp, + searchPointTag, dataTags); + + if (N > 0) { + neighs.resize(N); + sqr_dist.resize(N); + for (size_t i=0; i, PointCloudAdaptor, + dim + > d_tree; /*! @brief Tree search parameters */ nanoflann::SearchParameters d_params; diff --git a/src/particle/baseParticle.cpp b/src/particle/baseParticle.cpp index 96c0198b..36b07ca9 100644 --- a/src/particle/baseParticle.cpp +++ b/src/particle/baseParticle.cpp @@ -123,12 +123,14 @@ particle::BaseParticle::BaseParticle(std::string particle_type, d_globStart = d_modelData_p->d_x.size(); d_globEnd = d_modelData_p->d_x.size() + d_rp_p->getNumNodes(); + for (size_t i = 0; i < d_rp_p->getNumNodes(); i++) { d_modelData_p->d_xRef.push_back(d_tform.apply(d_rp_p->getNode(i))); d_modelData_p->d_x.push_back(d_tform.apply(d_rp_p->getNode(i))); d_modelData_p->d_u.push_back(util::Point()); d_modelData_p->d_v.push_back(util::Point()); + d_modelData_p->d_vMag.push_back(0.); d_modelData_p->d_f.push_back(util::Point()); d_modelData_p->d_vol.push_back( d_rp_p->getNodalVolume(i) * diff --git a/src/util/methods.h b/src/util/methods.h index 2682091e..88ac7391 100644 --- a/src/util/methods.h +++ b/src/util/methods.h @@ -106,12 +106,53 @@ inline std::pair minAndMinIndex(const std::vector &data) { return {data[i], i}; }; + +/*! + * @brief Returns the index corresponding to maximum from list of data + * @param data List of real numbers + * @return i Index with a maximum value + */ +template +inline size_t maxIndex(const std::vector &data, + size_t data_start, size_t data_end) { + + if (data.size() == 0) { + std::cerr << "Error: maxIndex() is called with data of size " << data.size() + << ".\n"; + exit(EXIT_FAILURE); + } + + if (data_end == 0 or data_end > data.size()) { + std::cerr << "Error: maxIndex() data_end = " << data_end + << " is not valid for the data of size " << data.size() + << ".\n"; + exit(EXIT_FAILURE); + } + + if (data_start > data.size() - 1) { + std::cerr << "Error: maxIndex() data_start = " << data_start + << " is not valid for the data of size " << data.size() + << ".\n"; + exit(EXIT_FAILURE); + } + + // initialize original index locations + std::vector idx(data_end - data_start); + std::iota(idx.begin(), idx.end() , 0); + + std::stable_sort(idx.begin(), idx.end(), + [&data, &data_start](size_t i1, size_t i2) + {return data[i1 + data_start] > data[i2 + data_start];}); + + return idx[0] + data_start; +}; + /*! * @brief Returns the index that has maximum length of point from list of points * @param data List of points * @return i Index with maximum length of point */ -inline double maxLengthIndex(const std::vector &data) { +inline size_t maxLengthIndex(const std::vector &data) { std::vector length_data(data.size()); for (size_t i = 0; i < data.size(); i++) length_data[i] = data[i].length(); @@ -124,7 +165,7 @@ inline double maxLengthIndex(const std::vector &data) { * @param data List of points * @return i Index with minimum length of point */ -inline double minLengthIndex(const std::vector &data) { +inline size_t minLengthIndex(const std::vector &data) { std::vector length_data(data.size()); for (size_t i = 0; i < data.size(); i++) length_data[i] = data[i].length(); @@ -187,7 +228,6 @@ inline std::pair minLengthAndMinLengthIndex(const std::vector LogNormalDistribution; typedef std::uniform_real_distribution<> UniformDistribution; typedef std::normal_distribution<> NormalDistribution; +typedef std::uniform_int_distribution<> UniformIntDistribution; namespace util { diff --git a/test/CMakeLists.txt b/test/CMakeLists.txt index 86ef3538..e7eb28bd 100644 --- a/test/CMakeLists.txt +++ b/test/CMakeLists.txt @@ -52,7 +52,12 @@ add_test(NAME testfe # nsearch lib add_test(NAME testnsearch - COMMAND ${EXECUTABLE_OUTPUT_PATH}/TestNSearch -i 20 + COMMAND ${EXECUTABLE_OUTPUT_PATH}/TestNSearch -i 10 -o 0 + WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH} +) + +add_test(NAME testnsearch_profilenanoflann + COMMAND ${EXECUTABLE_OUTPUT_PATH}/TestNSearch -i 10 -o 1 WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH} ) @@ -101,10 +106,15 @@ add_test(NAME twop_circ WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/twop_circ ) -# add_test(NAME twop_wall_concave_diff_material_diff_size -# COMMAND ${BASH_PROGRAM} ./run.sh -# WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/twop_wall_concave_diff_material_diff_size -# ) +add_test(NAME attrition_mix_particles_small_set + COMMAND ${BASH_PROGRAM} ./run.sh + WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/attrition_mix_particles_small_set +) + +add_test(NAME compression_small_set + COMMAND ${BASH_PROGRAM} ./run.sh + WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/compression_small_set +) if (${Enable_High_Load_Tests}) @@ -113,6 +123,21 @@ if (${Enable_High_Load_Tests}) WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/twop_concave_and_hex ) + add_test(NAME twop_wall_concave_diff_material_diff_size + COMMAND ${BASH_PROGRAM} ./run.sh + WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/twop_wall_concave_diff_material_diff_size + ) + + add_test(NAME attrition_mix_particles_large_set + COMMAND ${BASH_PROGRAM} ./run.sh + WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/attrition_mix_particles_large_set + ) + + add_test(NAME compression_large_set + COMMAND ${BASH_PROGRAM} ./run.sh + WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/compression_large_set + ) + #add_test(NAME twop_concave # COMMAND ${BASH_PROGRAM} ./run.sh # WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/twop_concave @@ -138,20 +163,20 @@ if (${Enable_High_Load_Tests}) # WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/twop_sphere # ) - add_test(NAME compressive_n25 - COMMAND ${BASH_PROGRAM} ./run.sh - WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/compressive_n25 - ) + # add_test(NAME compressive_n25 + # COMMAND ${BASH_PROGRAM} ./run.sh + # WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/compressive_n25 + # ) #add_test(NAME compressive_n51 # COMMAND ${BASH_PROGRAM} ./run.sh # WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/compressive_n51 # ) - add_test(NAME compressive_n51_restart - COMMAND ./run.sh - WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/compressive_n51_restart - ) + # add_test(NAME compressive_n51_restart + # COMMAND ./run.sh + # WORKING_DIRECTORY ${EXECUTABLE_OUTPUT_PATH}/../test/test_data/peridem/compressive_n51_restart + # ) endif() # high load tests #endif () diff --git a/test/test_data/peridem/attrition_mix_particles_large_set/inp/problem_setup.py b/test/test_data/peridem/attrition_mix_particles_large_set/inp/problem_setup.py new file mode 100644 index 00000000..13717543 --- /dev/null +++ b/test/test_data/peridem/attrition_mix_particles_large_set/inp/problem_setup.py @@ -0,0 +1,1201 @@ +import os +import numpy as np +# import csv +import sys +# import pyvista as pv + +def print_bool(arg, prefix = ""): + + str = prefix + if arg == True: + str += "True\n" + else: + str += "False\n" + return str + +def print_dbl(arg, prefix = ""): + + str = prefix + "%4.6e\n" % (arg) + return str + +def print_int(arg, prefix = ""): + str = prefix + "%d\n" % (arg) + return str + +def print_dbl_list(arg, prefix = ""): + str = prefix + "[" + N = len(arg) + for i in range(N): + str += "%4.6e" % (arg[i]) + if i < N - 1: + str += ", " + else: + str += "]\n" + + return str + +def print_int_list(arg, prefix = ""): + str = prefix + "[" + N = len(arg) + for i in range(N): + str += "%d" % (arg[i]) + if i < N - 1: + str += ", " + else: + str += "]\n" + + return str + + +def write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, zone_string, Kn): + inpf.write(" Zone_%s:\n" % (zone_string)) + inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) + + if damping_active == False: + inpf.write(" Damping_On: false\n") + if friction_active == False: + inpf.write(" Friction_On: false\n") + + inpf.write(" Kn: %4.6e\n" % (Kn)) + inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) + inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) + inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) + +def write_material_zone_part(inpf, zone_string, horizon, rho, K, G, Gc): + inpf.write(" Zone_%s:\n" % (zone_string)) + inpf.write(" Type: PDState\n") + inpf.write(" Horizon: %4.6e\n" % (horizon)) + inpf.write(" Density: %4.6e\n" % (rho)) + inpf.write(" Compute_From_Classical: true\n") + inpf.write(" K: %4.6e\n" % (K)) + inpf.write(" G: %4.6e\n" % (G)) + inpf.write(" Gc: %4.6e\n" % (Gc)) + inpf.write(" Influence_Function:\n") + inpf.write(" Type: 1\n") + +def copy_contact_zone(inpf, zone_numbers, zone_copy_from): + for s in zone_numbers: + inpf.write(" Zone_%d:\n" % (s)) + inpf.write(" Copy_Contact_Data: " + print_int_list(zone_copy_from)) + +def get_E(K, nu): + return 3. * K * (1. - 2. * nu) + +def get_G(E, nu): + return E / (2. * (1. + nu)) + + +def get_eff_k(k1, k2): + return 2. * k1 * k2 / (k1 + k2) + + +def get_max(l): + l = np.array(l) + return l.max() + + +def rotate(p, theta, axis): + + p_np = np.array(p) + axis_np = np.array(axis) + + ct = np.cos(theta); + st = np.sin(theta); + + # dot + p_dot_n = np.dot(p_np,axis_np) + + # cross + n_cross_p = np.cross(axis_np, p_np) + + return (1. - ct) * p_dot_n * axis_np + ct * p_np + st * n_cross_p + +def get_ref_rect_points(center, radius, add_center = False): + + p1 = [center[0] - radius, center[1] - radius, center[2]] + p2 = [center[0] + radius, center[1] - radius, center[2]] + p3 = [center[0] + radius, center[1] + radius, center[2]] + p4 = [center[0] - radius, center[1] + radius, center[2]] + + return [p1, p2, p3, p4] + +def get_ref_triangle_points(center, radius, add_center = False): + + # triangle + # 2 + # + + # + # + # o + # 1 + # + # +-------------------+ + # 3 4 + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + cp = np.cos(np.pi/6.) + sp = np.sin(np.pi/6.) + + points = [] + if add_center: + points.append([sim_Cx, sim_Cy, sim_Cz]) + points.append([sim_Cx, sim_Cy + sim_radius, sim_Cz]) + points.append([sim_Cx - sim_radius*cp, sim_Cy - sim_radius*sp, sim_Cz]) + points.append([sim_Cx + sim_radius*cp, sim_Cy - sim_radius*sp, sim_Cz]) + + return points + +def get_ref_hex_points(center, radius, add_center = False): + + # drum2d + # + # v3 v2 + # + + + # + # + # + o + + # v4 x v1 + # + # + + + # v5 v6 + # + # Axis is a vector from x to v1 + # + + axis = [1., 0., 0.] + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + rotate_axis = [0., 0., 1.] + + points = [] + if add_center: + points.append(center) + + for i in range(6): + xi = rotate(axis, i*np.pi/3., rotate_axis) + points.append([center[i] + radius * xi[i] for i in range(3)]) + + return points + +def get_ref_drum_points(center, radius, width, add_center = False): + + # drum2d + # + # v3 v2 + # + + + # + # + # + o + + # v4 x v1 + # + # + + + # v5 v6 + # + # Axis is a vector from x to v1 + # + + axis = [1., 0., 0.] + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + rotate_axis = [0., 0., 1.] + + x1 = rotate(axis, np.pi/3., rotate_axis) + x2 = rotate(axis, -np.pi/3., rotate_axis) + + points = [] + if add_center: + points.append(center) + + # v1 + points.append([center[i] + width*0.5*axis[i] for i in range(3)]) + # v2 + points.append([center[i] + radius*x1[i] for i in range(3)]) + # v3 + points.append([center[i] + radius*x1[i] - radius*axis[i] for i in range(3)]) + # v4 + points.append([center[i] - width*0.5*axis[i] for i in range(3)]) + # v5 + v6 = [center[i] + radius*x2[i] for i in range(3)] + points.append([v6[i] - radius*axis[i] for i in range(3)]) + # v6 + points.append(v6) + + return points + +def does_rect_intersect_rect(r1, r2, padding): + + # enlarge rectangle by adding padding + r1_padding = [r1[0] - padding, r1[1] - padding, r1[2], r1[3] + padding, r1[4] + padding, r1[5]] + + return r1_padding[0] < r2[3] and r1_padding[3] > r2[0] and r1_padding[1] < r2[4] and r1_padding[4] > r2[1] + +def does_intersect_with_cylindrical_wall(p, particles, R_in, center, bar_rect, padding): + + # p -> [id, x, y, z, r] + + p_center = [p[i+1] for i in range(3)] + p_r = p[4] + + for q in particles: + + pq = np.array([p[i+1] - q[i+1] for i in range(3)]) + if np.linalg.norm(pq) <= p[-1] + q[-1] + padding: + return True + + dx = np.array([p[i+1] - center[i] for i in range(3)]) + if np.linalg.norm(dx) > R_in - p[-1] - padding: + return True + + + p_rect = [p_center[0] - p_r, p_center[1] - p_r, p_center[2], p_center[0] + p_r, p_center[1] + p_r, p_center[2]] + + return does_rect_intersect_rect(p_rect, bar_rect, padding) + +def particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R1, R2, id_choices1, id_choices2, N1, N2, R_in, bar_rect, z_coord, add_orient = True): + + np.random.seed(30) + sim_inp_dir = str(inp_dir) + + """Generate particle location data""" + + particles = [] + points = [] + + method_to_use = 0 + + if method_to_use == 0: + pcount = 0 + count = 0 + select_count = 0 + while pcount < N2 and count < 100*N2: + if count%N2 == 0: + print('large particle iter = ', count) + + # random radius and center location + r = R2 + np.random.uniform(-0.1 * R2, 0.1 * R2) + x = center[0] + np.random.uniform(-R_in + R2 + padding, R_in - R2- padding) + y = np.random.uniform(-R_in + R2+padding, max_y - R2-padding) + #p_zone = np.random.choice(id_choices2, size=1)[0] + p_zone = id_choices2[select_count % len(id_choices2)] + p = [p_zone, x, y, center[2], r] + + # check if it collides of existing particles + pintersect = does_intersect_with_cylindrical_wall(p, particles, R_in, center, bar_rect, padding) + + if pintersect == False: + particles.append(p) + pcount += 1 + select_count += 1 + + count +=1 + + pcount = 0 + count = 0 + select_count = 0 + while pcount < N1 and count < 100*N1: + if count%N1 == 0: + print('small particle iter = ', count) + + # random radius and center location + r = R1 + np.random.uniform(-0.1 * R1, 0.1 * R1) + x = center[0] + np.random.uniform(-R_in + R1 + padding, R_in - R1- padding) + y = np.random.uniform(-R_in + R1 + padding, max_y - R1 - padding) + #p_zone = np.random.choice(id_choices1, size=1)[0] + p_zone = id_choices1[select_count % len(id_choices1)] + p = [p_zone, x,y,center[2], r] + + # check if it collides of existing particles + pintersect = does_intersect_with_cylindrical_wall(p, particles, R_in, center, bar_rect, padding) + + if pintersect == False: + particles.append(p) + pcount += 1 + select_count += 1 + + count +=1 + + elif method_to_use == 1: + Nmax = N1 + N2 + # find how approximate number of rows and cols we can have + check_r = R1 + if R1 > R2: + check_r = R2 + + rows = int(R_in / check_r) + cols = int(R_in / check_r) + + rads = [R1, R2] + + counter = 0 + x_old = -R_in + x_old_right = R_in + y_old = -R_in + pad = padding + + cx = 0. + cy = 0. + cz = z_coord + r = 0. + + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + for i in range(rows): + + if i > 0: + y_old = cy + get_max(row_rads) + + # reset + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + num_p_cols = 0 + j = 0 + while num_p_cols < cols - 1 and j < Nmax: + + if j == 0: + # for odd row, take x_old as first and for even take as last + x_old = -R_in + x_old_right = R_in + + # ptype = counter % 2 + p_type = 0 # 1 or 2 + p_index = 0 # zone this particle it belongs + if np.random.uniform(0., 1.) < 0.7: + p_type = 0 + p_index = np.random.choice(id_choices1, size=1)[0] + else: + p_type = 1 + p_index = np.random.choice(id_choices2, size=1)[0] + + r0 = rads[p_type] + + # perturb radius + r = r0 + np.random.uniform(-0.1 * r0, 0.1 * r0) + # r = r0 + row_rads.append(r) + + # random horizontal perturbation by 10% of radius + rph = np.random.uniform(-0.1 * r0, 0.1 * r0) + + cx0 = x_old + pad + r + cx = cx0 + rph + # for even row, we start from right edge of rectange + if i%2 == 0: + cx0 = x_old_right - pad - r + cx = cx0 - rph + cy = y_old + pad + r + + # check if it collides of existing particles + p = [float(p_index), cx, cy, cz, r] + pintersect = does_intersect_with_cylindrical_wall(p, particles, R_in, center, bar_rect, padding) + + if pintersect == False: + particles.append([float(p_index), cx, cy, cz, r]) + + # set x_old + if i % 2 == 0: + x_old_right = cx - r + else: + x_old = cx + r + + counter += 1 + + num_p_cols += 1 + + j += 1 + + + inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') + if add_orient: + inpf.write("i, x, y, z, r, o\n") + counter = 0 + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4], np.random.uniform(0., 2.*np.pi))) + counter += 1 + else: + inpf.write("i, x, y, z, r\n") + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4])) + + + inpf.close() + + # to visualize in paraview + write_vtu = False + if write_vtu: + points = [] + rads = [] + zones = [] + for p in particles: + points.append([p[1], p[2], p[3]]) + rads.append(p[-1]) + zones.append(int(p[0])) + + points = np.array(points) + rads = np.array(rads) + zones = np.array(zones) + mesh = pv.PolyData(points) + mesh["radius"] = rads + mesh["zone"] = zones + pv.save_meshio(sim_inp_dir + 'particle_locations_' + str(pp_tag) + '.vtu', mesh) + + print('number of particles created = {}'.format(len(particles))) + + return len(particles), particles + + +def generate_cir_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + # mesh size + sim_h = mesh_size + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy, sim_Cz, sim_h)); + geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx + sim_radius, sim_Cy, sim_Cz, sim_h)) + geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx - sim_radius, sim_Cy, sim_Cz, sim_h)) + geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy + sim_radius, sim_Cz, sim_h)) + geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy - sim_radius, sim_Cz, sim_h)) + + # + # circlular arc + # + geof.write("Circle(1) = {2, 1, 4};\n") + geof.write("Circle(2) = {4, 1, 3};\n") + geof.write("Circle(3) = {3, 1, 5};\n") + geof.write("Circle(4) = {5, 1, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {2, 3, 4, 1};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_hex_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + points = get_ref_hex_points(center, radius, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(7): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 5};\n") + geof.write("Line(4) = {5, 6};\n") + geof.write("Line(5) = {6, 7};\n") + geof.write("Line(6) = {7, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_tri_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # points + points = get_ref_triangle_points(center, radius, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(4): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_drum2d_particle_gmsh_input(inp_dir, filename, center, radius, width, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # points + points = get_ref_drum_points(center, radius, width, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(7): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 5};\n") + geof.write("Line(4) = {5, 6};\n") + geof.write("Line(5) = {6, 7};\n") + geof.write("Line(6) = {7, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_cylindrical_wall_gmsh_input(inp_dir, filename, center, outer_radius, inner_radius, bar_width, bar_length, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # center and radius + Cx = center[0] + Cy = center[1] + Cz = center[2] + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + points = [] + points.append([Cx, Cy, Cz]) + points.append([outer_radius, 0., 0.]) + points.append([0., outer_radius, 0.]) + points.append([-outer_radius, 0., 0.]) + points.append([0., -outer_radius, 0.]) + points.append([inner_radius, 0.5*bar_width, 0.]) + points.append([inner_radius, -0.5*bar_width, 0.]) + points.append([0., inner_radius, 0.]) + points.append([-inner_radius, 0., 0.]) + points.append([0., -inner_radius, 0.]) + points.append([inner_radius - bar_length, 0.5*bar_width, 0.]) + points.append([inner_radius - bar_length, -0.5*bar_width, 0.]) + + count = 0 + for p in points: + count += 1 + geof.write("Point(%d) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (count, p[0], p[1], p[2], mesh_size)) + + + # + # circular arc + # + circles = [] + circles.append([2, 1, 3]) + circles.append([3, 1, 4]) + circles.append([4, 1, 5]) + circles.append([5, 1, 2]) + + circles.append([6, 1, 8]) + circles.append([8, 1, 9]) + circles.append([9, 1, 10]) + circles.append([10, 1, 7]) + + count = 0 + for c in circles: + count += 1 + geof.write("Circle(%d) = {%d, %d, %d};\n" % (count, c[0], c[1], c[2])) + + # + # line + # + lines = [] + lines.append([6, 11]) + lines.append([11, 12]) + lines.append([12, 7]) + #count = 0 + for l in lines: + count += 1 + geof.write("Line(%d) = {%d, %d};\n" % (count, l[0], l[1])) + + # + # curve loop + # + geof.write("Line Loop(1) = {2, 3, 4, 1};\n") + geof.write("Line Loop(2) = {6, 7, 8, -11, -10, -9, 5};\n") + + # + # plane surface and physical tag + # + geof.write("Plane Surface(1) = {1, 2};\n") + #geof.write("Physical Surface(1) = {1};\n") + #geof.write("Physical Point(2) = {9, 4, 10, 5, 2, 7, 6, 11, 12, 3, 8};\n") + tag = '"' + "a" + '"' + geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + geof.close() + + +def create_input_file(inp_dir, pp_tag): + """Generates input file for two-particle test""" + + sim_inp_dir = str(inp_dir) + + # 1 - small particle circle + # 2 - small particle triangle + # 3 - small particle drum2d + # 4 - small particle hex + # 5 - large particle circle + # 6 - large particle triangle + # 7 - large particle drum2d + # 8 - large particle hex + # 9 - cylindrical wall + + ## geometry + center = [0., 0., 0.] + R_small = 0.001 + R_large = 0.002 + + mesh_size = R_small / 5. + horizon = 2. * mesh_size + + R_in = 0.015 + R_out = R_in + 1.5*mesh_size + + L_bar = 0.004 + W_bar = 1.5*mesh_size + bar_rectangle_attached_to_cylinder = [R_in - L_bar, -0.5 * W_bar, 0., R_in, 0.5 * W_bar, 0.] + + # define geometric parameters + # wall + wall_circle_plus = [R_out, center[0], center[1], center[2]] + wall_circle_minus = [R_in, center[0], center[1], center[2]] + wall_rectangle_plus = bar_rectangle_attached_to_cylinder + wall_params = wall_circle_plus + wall_circle_minus + wall_rectangle_plus + + # small circle + small_circle = [R_small, center[0], center[1], center[2]] + # small triangle + small_triangle = small_circle + # small drum2d + w_small_drum2d = R_small * 0.2 + small_drum2d = [R_small, w_small_drum2d, center[0], center[1], center[2]] + # small hex + small_hex = small_circle + + # large circle + large_circle = [R_large, center[0], center[1], center[2]] + # large triangle + large_triangle = large_circle + # large drum2d + w_large_drum2d = R_large* 0.2 + large_drum2d = [R_large, w_large_drum2d, center[0], center[1], center[2]] + # large hex + large_hex = large_circle + + ## time + final_time = 0.05 + num_steps = 20000 + # final_time = 0.00002 + # num_steps = 2 + num_outputs = 10 + dt_out_n = num_steps / num_outputs + test_dt_out_n = dt_out_n / 10 + perform_out = True + + ## material + poisson = 0.25 + + rho_wall = 600. + K_wall = 1.e+4 + E_wall = get_E(K_wall, poisson) + G_wall = get_G(E_wall, poisson) + Gc_wall = 100. + + rho_small = 600. + K_small = 5.e+3 + E_small = get_E(K_small, poisson) + G_small = get_G(E_small, poisson) + Gc_small = 100. + + rho_large = rho_small + K_large = K_small + E_large = E_small + G_large = G_small + Gc_large = Gc_small + + ## contact + # R_contact = 0.95 * mesh_size + # R_contact = 1.74e-04 + R_contact_factor = 0.95 + + # Kn_V_max = 7.385158e+05 + # Kn = np.power(Kn_V_max, 2) + # compute from bulk modulus + + # from bulk modulus + Kn_small_small = 18. * get_eff_k(K_small, K_small) / (np.pi * np.power(horizon, 5)) + Kn_large_large = 18. * get_eff_k(K_large, K_large) / (np.pi * np.power(horizon, 5)) + Kn_wall_wall = 18. * get_eff_k(K_wall, K_wall) / (np.pi * np.power(horizon, 5)) + Kn_small_large = 18. * get_eff_k(K_small, K_large) / (np.pi * np.power(horizon, 5)) + Kn_small_wall = 18. * get_eff_k(K_small, K_wall) / (np.pi * np.power(horizon, 5)) + Kn_large_wall = 18. * get_eff_k(K_large, K_wall) / (np.pi * np.power(horizon, 5)) + + beta_n_eps = 0.95 + friction_coeff = 0.5 + damping_active = False + friction_active = False + beta_n_factor = 100. + Kn_factor = 1. + + ## gravity + gravity_active = True + gravity = [0., -10., 0.] + + ## wall rotation rate + wall_rotation_rate = -40. * np.pi + wall_rotation_center = [-0.2*R_in, 0.2*R_in, 0.] + + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 100 + neigh_search_criteria = "simple_all" + + ### ---------------------------------------------------------------- ### + # generate mesh and particle location data + ### ---------------------------------------------------------------- ### + + # generate particle locations + padding = 1.1 * R_contact_factor * mesh_size + max_y = 0.4*R_in + # number of particles of small and large sizes + N1, N2 = 40, 12 + num_particles_zones_1_to_8, particles_zones_1_to_8 = particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R_small, R_large, [0, 1, 2, 3], [4, 5, 6, 7], N1, N2, R_in, bar_rectangle_attached_to_cylinder, z_coord = 0., add_orient = True) + + # generate particle .geo file (large) + zones_mesh_fnames = ["mesh_cir_small", "mesh_tri_small", "mesh_drum2d_small", "mesh_hex_small", "mesh_cir_large", "mesh_tri_large", "mesh_drum2d_large", "mesh_hex_large", "mesh_wall"] + + ## circle + generate_cir_particle_gmsh_input(inp_dir, zones_mesh_fnames[0], center, R_small, mesh_size, pp_tag) + generate_cir_particle_gmsh_input(inp_dir, zones_mesh_fnames[4], center, R_large, mesh_size, pp_tag) + + ## triangle + generate_tri_particle_gmsh_input(inp_dir, zones_mesh_fnames[1], center, R_small, mesh_size, pp_tag) + generate_tri_particle_gmsh_input(inp_dir, zones_mesh_fnames[5], center, R_large, mesh_size, pp_tag) + + ## drum2d + generate_drum2d_particle_gmsh_input(inp_dir, zones_mesh_fnames[2], center, R_small, 2.*w_small_drum2d, mesh_size, pp_tag) + generate_drum2d_particle_gmsh_input(inp_dir, zones_mesh_fnames[6], center, R_large, 2.*w_large_drum2d, mesh_size, pp_tag) + + ## hex + generate_hex_particle_gmsh_input(inp_dir, zones_mesh_fnames[3], center, R_small, mesh_size, pp_tag) + generate_hex_particle_gmsh_input(inp_dir, zones_mesh_fnames[7], center, R_large, mesh_size, pp_tag) + + ## wall + generate_cylindrical_wall_gmsh_input(inp_dir, zones_mesh_fnames[8], center, R_out, R_in, W_bar, L_bar, mesh_size, pp_tag) + + os.system("mkdir -p ../out") + + for s in zones_mesh_fnames: + print('\n') + print(s) + print("gmsh {}_{}.geo -2 &> /dev/null".format(s, pp_tag)) + print('\n') + + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + #os.system("gmsh {}_{}.geo -2 &> /dev/null".format(s, pp_tag)) + #os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk &> /dev/null".format(s, pp_tag, s, pp_tag)) + + + ### ---------------------------------------------------------------- ### + # generate YAML file + ### ---------------------------------------------------------------- ### + # print('\nGenerating imput file\n') + inpf = open(sim_inp_dir + 'input_' + str(pp_tag) + '.yaml','w') + inpf.write("Model:\n") + inpf.write(" Dimension: 2\n") + inpf.write(" Discretization_Type:\n") + inpf.write(" Spatial: finite_difference\n") + inpf.write(" Time: central_difference\n") + inpf.write(" Final_Time: %4.6e\n" % (final_time)) + inpf.write(" Time_Steps: %d\n" % (num_steps)) + + # container info + inpf.write("Container:\n") + inpf.write(" Geometry:\n") + inpf.write(" Type: complex\n") + inpf.write(" Vec_Type: [circle, circle, rectangle]\n") + inpf.write(" Vec_Flag: [plus, minus, plus]\n") + inpf.write(" Parameters: " + print_dbl_list(wall_params)) + + # zone info + inpf.write("Zone:\n") + inpf.write(" Zones: 9\n") + + for i in range(9): + inpf.write(" Zone_%d:\n" % (i+1)) + if i == 8: + inpf.write(" Is_Wall: true\n") + else: + inpf.write(" Is_Wall: false\n") + + # particle info + inpf.write("Particle:\n") + inpf.write(" Test_Name: multi_particle_attrition\n") + + particle_data = [['circle', small_circle], ['triangle', small_triangle], ['drum2d', small_drum2d], ['hexagon', small_hex], ['circle', large_circle], ['triangle', large_triangle], ['drum2d', large_drum2d], ['hexagon', large_hex]] + for i in range(len(particle_data)): + inpf.write(" Zone_%d:\n" % (i+1)) + inpf.write(" Type: %s\n" % (particle_data[i][0])) + inpf.write(" Parameters: " + print_dbl_list((particle_data[i][1]))) + + ## last zone (wall) + inpf.write(" Zone_9:\n") + inpf.write(" Is_Wall: true\n") + inpf.write(" Type: complex\n") + inpf.write(" Vec_Type: [circle, circle, rectangle]\n") + inpf.write(" Vec_Flag: [plus, minus, plus]\n") + inpf.write(" Parameters: " + print_dbl_list(wall_params)) + inpf.write(" All_Dofs_Constrained: true\n") + inpf.write(" Create_Particle_Using_ParticleZone_GeomObject: true\n") + + # particle generation + inpf.write("Particle_Generation:\n") + inpf.write(" From_File: particle_locations_" + str(pp_tag) + ".csv\n") + inpf.write(" File_Data_Type: loc_rad_orient\n") + + # Mesh info + inpf.write("Mesh:\n") + + for i in range(9): + inpf.write(" Zone_%d:\n" % (i+1)) + inpf.write(" File: %s\n" % (zones_mesh_fnames[i] + "_" + str(pp_tag) + ".msh")) + + # Contact info + inpf.write("Contact:\n") + + ## 11 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "11", Kn_small_small) + + ## 12, 13, 14 --> copy from 11 + copy_contact_zone(inpf, [12, 13, 14], [1, 1]) + + ## 15 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "15", Kn_small_large) + + ## 16, 17, 18 --> copy from 15 + copy_contact_zone(inpf, [16, 17, 18], [1, 5]) + + ## 19 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "19", Kn_small_wall) + + ## 22, 23, 24 --> copy from 11 + copy_contact_zone(inpf, [22, 23, 24], [1, 1]) + + ## 25, 26, 27, 28 --> copy from 15 + copy_contact_zone(inpf, [25, 26, 27, 28], [1, 5]) + + ## 29 --> copy from 19 + copy_contact_zone(inpf, [29], [1, 9]) + + ## 33, 34 --> copy from 11 + copy_contact_zone(inpf, [33, 34], [1, 1]) + + ## 35, 36, 37, 38 --> copy from 15 + copy_contact_zone(inpf, [35, 36, 37, 38], [1, 5]) + + ## 39 --> copy from 19 + copy_contact_zone(inpf, [39], [1, 9]) + + ## 44 --> copy from 11 + copy_contact_zone(inpf, [44], [1, 1]) + + ## 45, 46, 47, 48 --> copy from 15 + copy_contact_zone(inpf, [45, 46, 47, 48], [1, 5]) + + ## 49 --> copy from 19 + copy_contact_zone(inpf, [49], [1, 9]) + + ## 55 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "55", Kn_large_large) + + ## 56, 57, 58 --> copy from 55 + copy_contact_zone(inpf, [56, 57, 58], [5, 5]) + + ## 59 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "59", Kn_large_wall) + + ## 66, 67, 68 --> copy from 55 + copy_contact_zone(inpf, [66, 67, 68], [5, 5]) + + ## 69 --> copy from 59 + copy_contact_zone(inpf, [69], [5, 9]) + + ## 77, 78 --> copy from 55 + copy_contact_zone(inpf, [77, 78], [5, 5]) + + ## 79 --> copy from 59 + copy_contact_zone(inpf, [79], [5, 9]) + + ## 88 --> copy from 55 + copy_contact_zone(inpf, [88], [5, 5]) + + ## 89 --> copy from 59 + copy_contact_zone(inpf, [89], [5, 9]) + + ## 99 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "99", Kn_wall_wall) + + # Neighbor info + inpf.write("Neighbor:\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) + + # Material info + inpf.write("Material:\n") + + ## zone 1 + write_material_zone_part(inpf, "1", horizon, rho_small, K_small, G_small, Gc_small) + + ## zone 2 + inpf.write(" Zone_2:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 3 + inpf.write(" Zone_3:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 4 + inpf.write(" Zone_4:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 5 + write_material_zone_part(inpf, "5", horizon, rho_large, K_large, G_large, Gc_large) + + ## zone 6 + inpf.write(" Zone_6:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 7 + inpf.write(" Zone_7:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 8 + inpf.write(" Zone_8:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 9 + write_material_zone_part(inpf, "9", horizon, rho_wall, K_wall, G_wall, Gc_wall) + + # Force + if gravity_active == True: + inpf.write("Force_BC:\n") + inpf.write(" Gravity: " + print_dbl_list(gravity)) + + # Displacement + inpf.write("Displacement_BC:\n") + inpf.write(" Sets: 1\n") + + inpf.write(" Set_1:\n") + # wall particle id will be num_particles_zones_1_to_8 + inpf.write(" Particle_List: [%d]\n" % (num_particles_zones_1_to_8)) + inpf.write(" Direction: [1,2]\n") + inpf.write(" Time_Function:\n") + inpf.write(" Type: rotation\n") + inpf.write(" Parameters: "+print_dbl_list([wall_rotation_rate, wall_rotation_center[0], wall_rotation_center[1], wall_rotation_center[2]])) + inpf.write(" Spatial_Function:\n") + inpf.write(" Type: rotation\n") + inpf.write(" Zero_Displacement: false\n") + + # + # Output info + # + inpf.write("Output:\n") + inpf.write(" Path: ../out/\n") + inpf.write(" Tags:\n") + inpf.write(" - Displacement\n") + inpf.write(" - Velocity\n") + inpf.write(" - Force\n") + inpf.write(" - Force_Density\n") + inpf.write(" - Damage_Z\n") + inpf.write(" - Damage\n") + inpf.write(" - Nodal_Volume\n") + inpf.write(" - Zone_ID\n") + inpf.write(" - Particle_ID\n") + inpf.write(" - Fixity\n") + inpf.write(" - Force_Fixity\n") + inpf.write(" - Contact_Nodes\n") + inpf.write(" - No_Fail_Node\n") + inpf.write(" - Boundary_Node_Flag\n") + # inpf.write(" - Contact_Data\n") + # inpf.write(" - Strain_Stress\n") + inpf.write(" Output_Interval: %d\n" % (dt_out_n)) + inpf.write(" Compress_Type: zlib\n") + inpf.write(" Perform_FE_Out: false\n") + if perform_out: + inpf.write(" Perform_Out: true\n") + else: + inpf.write(" Perform_Out: false\n") + inpf.write(" Test_Output_Interval: %d\n" % (test_dt_out_n)) + + inpf.write(" Debug: 2\n") + inpf.write(" Tag_PP: %d\n" %(int(pp_tag))) + + # close file + inpf.close() + + +##-------------------------------------------------------## +##-------------------------------------------------------## +inp_dir = './' +pp_tag = 0 +if len(sys.argv) > 1: + pp_tag = int(sys.argv[1]) + +create_input_file(inp_dir, pp_tag) diff --git a/test/test_data/peridem/attrition_mix_particles_large_set/run.sh b/test/test_data/peridem/attrition_mix_particles_large_set/run.sh new file mode 100755 index 00000000..1044145c --- /dev/null +++ b/test/test_data/peridem/attrition_mix_particles_large_set/run.sh @@ -0,0 +1,15 @@ +#!/bin/bash +MY_PWD=$(pwd) + +( +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi + +cd "inp" && python3 -B problem_setup.py + +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads +) 2>&1 | tee output.log + +# check if we have produced 'output_10.vtu' file +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/attrition_mix_particles_small_set/inp/problem_setup.py b/test/test_data/peridem/attrition_mix_particles_small_set/inp/problem_setup.py new file mode 100644 index 00000000..d0119be6 --- /dev/null +++ b/test/test_data/peridem/attrition_mix_particles_small_set/inp/problem_setup.py @@ -0,0 +1,1201 @@ +import os +import numpy as np +# import csv +import sys +# import pyvista as pv + +def print_bool(arg, prefix = ""): + + str = prefix + if arg == True: + str += "True\n" + else: + str += "False\n" + return str + +def print_dbl(arg, prefix = ""): + + str = prefix + "%4.6e\n" % (arg) + return str + +def print_int(arg, prefix = ""): + str = prefix + "%d\n" % (arg) + return str + +def print_dbl_list(arg, prefix = ""): + str = prefix + "[" + N = len(arg) + for i in range(N): + str += "%4.6e" % (arg[i]) + if i < N - 1: + str += ", " + else: + str += "]\n" + + return str + +def print_int_list(arg, prefix = ""): + str = prefix + "[" + N = len(arg) + for i in range(N): + str += "%d" % (arg[i]) + if i < N - 1: + str += ", " + else: + str += "]\n" + + return str + + +def write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, zone_string, Kn): + inpf.write(" Zone_%s:\n" % (zone_string)) + inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) + + if damping_active == False: + inpf.write(" Damping_On: false\n") + if friction_active == False: + inpf.write(" Friction_On: false\n") + + inpf.write(" Kn: %4.6e\n" % (Kn)) + inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) + inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) + inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) + +def write_material_zone_part(inpf, zone_string, horizon, rho, K, G, Gc): + inpf.write(" Zone_%s:\n" % (zone_string)) + inpf.write(" Type: PDState\n") + inpf.write(" Horizon: %4.6e\n" % (horizon)) + inpf.write(" Density: %4.6e\n" % (rho)) + inpf.write(" Compute_From_Classical: true\n") + inpf.write(" K: %4.6e\n" % (K)) + inpf.write(" G: %4.6e\n" % (G)) + inpf.write(" Gc: %4.6e\n" % (Gc)) + inpf.write(" Influence_Function:\n") + inpf.write(" Type: 1\n") + +def copy_contact_zone(inpf, zone_numbers, zone_copy_from): + for s in zone_numbers: + inpf.write(" Zone_%d:\n" % (s)) + inpf.write(" Copy_Contact_Data: " + print_int_list(zone_copy_from)) + +def get_E(K, nu): + return 3. * K * (1. - 2. * nu) + +def get_G(E, nu): + return E / (2. * (1. + nu)) + + +def get_eff_k(k1, k2): + return 2. * k1 * k2 / (k1 + k2) + + +def get_max(l): + l = np.array(l) + return l.max() + + +def rotate(p, theta, axis): + + p_np = np.array(p) + axis_np = np.array(axis) + + ct = np.cos(theta); + st = np.sin(theta); + + # dot + p_dot_n = np.dot(p_np,axis_np) + + # cross + n_cross_p = np.cross(axis_np, p_np) + + return (1. - ct) * p_dot_n * axis_np + ct * p_np + st * n_cross_p + +def get_ref_rect_points(center, radius, add_center = False): + + p1 = [center[0] - radius, center[1] - radius, center[2]] + p2 = [center[0] + radius, center[1] - radius, center[2]] + p3 = [center[0] + radius, center[1] + radius, center[2]] + p4 = [center[0] - radius, center[1] + radius, center[2]] + + return [p1, p2, p3, p4] + +def get_ref_triangle_points(center, radius, add_center = False): + + # triangle + # 2 + # + + # + # + # o + # 1 + # + # +-------------------+ + # 3 4 + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + cp = np.cos(np.pi/6.) + sp = np.sin(np.pi/6.) + + points = [] + if add_center: + points.append([sim_Cx, sim_Cy, sim_Cz]) + points.append([sim_Cx, sim_Cy + sim_radius, sim_Cz]) + points.append([sim_Cx - sim_radius*cp, sim_Cy - sim_radius*sp, sim_Cz]) + points.append([sim_Cx + sim_radius*cp, sim_Cy - sim_radius*sp, sim_Cz]) + + return points + +def get_ref_hex_points(center, radius, add_center = False): + + # drum2d + # + # v3 v2 + # + + + # + # + # + o + + # v4 x v1 + # + # + + + # v5 v6 + # + # Axis is a vector from x to v1 + # + + axis = [1., 0., 0.] + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + rotate_axis = [0., 0., 1.] + + points = [] + if add_center: + points.append(center) + + for i in range(6): + xi = rotate(axis, i*np.pi/3., rotate_axis) + points.append([center[i] + radius * xi[i] for i in range(3)]) + + return points + +def get_ref_drum_points(center, radius, width, add_center = False): + + # drum2d + # + # v3 v2 + # + + + # + # + # + o + + # v4 x v1 + # + # + + + # v5 v6 + # + # Axis is a vector from x to v1 + # + + axis = [1., 0., 0.] + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + rotate_axis = [0., 0., 1.] + + x1 = rotate(axis, np.pi/3., rotate_axis) + x2 = rotate(axis, -np.pi/3., rotate_axis) + + points = [] + if add_center: + points.append(center) + + # v1 + points.append([center[i] + width*0.5*axis[i] for i in range(3)]) + # v2 + points.append([center[i] + radius*x1[i] for i in range(3)]) + # v3 + points.append([center[i] + radius*x1[i] - radius*axis[i] for i in range(3)]) + # v4 + points.append([center[i] - width*0.5*axis[i] for i in range(3)]) + # v5 + v6 = [center[i] + radius*x2[i] for i in range(3)] + points.append([v6[i] - radius*axis[i] for i in range(3)]) + # v6 + points.append(v6) + + return points + +def does_rect_intersect_rect(r1, r2, padding): + + # enlarge rectangle by adding padding + r1_padding = [r1[0] - padding, r1[1] - padding, r1[2], r1[3] + padding, r1[4] + padding, r1[5]] + + return r1_padding[0] < r2[3] and r1_padding[3] > r2[0] and r1_padding[1] < r2[4] and r1_padding[4] > r2[1] + +def does_intersect_with_cylindrical_wall(p, particles, R_in, center, bar_rect, padding): + + # p -> [id, x, y, z, r] + + p_center = [p[i+1] for i in range(3)] + p_r = p[4] + + for q in particles: + + pq = np.array([p[i+1] - q[i+1] for i in range(3)]) + if np.linalg.norm(pq) <= p[-1] + q[-1] + padding: + return True + + dx = np.array([p[i+1] - center[i] for i in range(3)]) + if np.linalg.norm(dx) > R_in - p[-1] - padding: + return True + + + p_rect = [p_center[0] - p_r, p_center[1] - p_r, p_center[2], p_center[0] + p_r, p_center[1] + p_r, p_center[2]] + + return does_rect_intersect_rect(p_rect, bar_rect, padding) + +def particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R1, R2, id_choices1, id_choices2, N1, N2, R_in, bar_rect, z_coord, add_orient = True): + + np.random.seed(30) + sim_inp_dir = str(inp_dir) + + """Generate particle location data""" + + particles = [] + points = [] + + method_to_use = 0 + + if method_to_use == 0: + pcount = 0 + count = 0 + select_count = 0 + while pcount < N2 and count < 100*N2: + if count%N2 == 0: + print('large particle iter = ', count) + + # random radius and center location + r = R2 + np.random.uniform(-0.1 * R2, 0.1 * R2) + x = center[0] + np.random.uniform(-R_in + R2 + padding, R_in - R2- padding) + y = np.random.uniform(-R_in + R2+padding, max_y - R2-padding) + #p_zone = np.random.choice(id_choices2, size=1)[0] + p_zone = id_choices2[select_count % len(id_choices2)] + p = [p_zone, x, y, center[2], r] + + # check if it collides of existing particles + pintersect = does_intersect_with_cylindrical_wall(p, particles, R_in, center, bar_rect, padding) + + if pintersect == False: + particles.append(p) + pcount += 1 + select_count += 1 + + count +=1 + + pcount = 0 + count = 0 + select_count = 0 + while pcount < N1 and count < 100*N1: + if count%N1 == 0: + print('small particle iter = ', count) + + # random radius and center location + r = R1 + np.random.uniform(-0.1 * R1, 0.1 * R1) + x = center[0] + np.random.uniform(-R_in + R1 + padding, R_in - R1- padding) + y = np.random.uniform(-R_in + R1 + padding, max_y - R1 - padding) + #p_zone = np.random.choice(id_choices1, size=1)[0] + p_zone = id_choices1[select_count % len(id_choices1)] + p = [p_zone, x,y,center[2], r] + + # check if it collides of existing particles + pintersect = does_intersect_with_cylindrical_wall(p, particles, R_in, center, bar_rect, padding) + + if pintersect == False: + particles.append(p) + pcount += 1 + select_count += 1 + + count +=1 + + elif method_to_use == 1: + Nmax = N1 + N2 + # find how approximate number of rows and cols we can have + check_r = R1 + if R1 > R2: + check_r = R2 + + rows = int(R_in / check_r) + cols = int(R_in / check_r) + + rads = [R1, R2] + + counter = 0 + x_old = -R_in + x_old_right = R_in + y_old = -R_in + pad = padding + + cx = 0. + cy = 0. + cz = z_coord + r = 0. + + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + for i in range(rows): + + if i > 0: + y_old = cy + get_max(row_rads) + + # reset + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + num_p_cols = 0 + j = 0 + while num_p_cols < cols - 1 and j < Nmax: + + if j == 0: + # for odd row, take x_old as first and for even take as last + x_old = -R_in + x_old_right = R_in + + # ptype = counter % 2 + p_type = 0 # 1 or 2 + p_index = 0 # zone this particle it belongs + if np.random.uniform(0., 1.) < 0.7: + p_type = 0 + p_index = np.random.choice(id_choices1, size=1)[0] + else: + p_type = 1 + p_index = np.random.choice(id_choices2, size=1)[0] + + r0 = rads[p_type] + + # perturb radius + r = r0 + np.random.uniform(-0.1 * r0, 0.1 * r0) + # r = r0 + row_rads.append(r) + + # random horizontal perturbation by 10% of radius + rph = np.random.uniform(-0.1 * r0, 0.1 * r0) + + cx0 = x_old + pad + r + cx = cx0 + rph + # for even row, we start from right edge of rectange + if i%2 == 0: + cx0 = x_old_right - pad - r + cx = cx0 - rph + cy = y_old + pad + r + + # check if it collides of existing particles + p = [float(p_index), cx, cy, cz, r] + pintersect = does_intersect_with_cylindrical_wall(p, particles, R_in, center, bar_rect, padding) + + if pintersect == False: + particles.append([float(p_index), cx, cy, cz, r]) + + # set x_old + if i % 2 == 0: + x_old_right = cx - r + else: + x_old = cx + r + + counter += 1 + + num_p_cols += 1 + + j += 1 + + + inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') + if add_orient: + inpf.write("i, x, y, z, r, o\n") + counter = 0 + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4], np.random.uniform(0., 2.*np.pi))) + counter += 1 + else: + inpf.write("i, x, y, z, r\n") + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4])) + + + inpf.close() + + # to visualize in paraview + write_vtu = False + if write_vtu: + points = [] + rads = [] + zones = [] + for p in particles: + points.append([p[1], p[2], p[3]]) + rads.append(p[-1]) + zones.append(int(p[0])) + + points = np.array(points) + rads = np.array(rads) + zones = np.array(zones) + mesh = pv.PolyData(points) + mesh["radius"] = rads + mesh["zone"] = zones + pv.save_meshio(sim_inp_dir + 'particle_locations_' + str(pp_tag) + '.vtu', mesh) + + print('number of particles created = {}'.format(len(particles))) + + return len(particles), particles + + +def generate_cir_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + # mesh size + sim_h = mesh_size + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy, sim_Cz, sim_h)); + geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx + sim_radius, sim_Cy, sim_Cz, sim_h)) + geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx - sim_radius, sim_Cy, sim_Cz, sim_h)) + geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy + sim_radius, sim_Cz, sim_h)) + geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy - sim_radius, sim_Cz, sim_h)) + + # + # circlular arc + # + geof.write("Circle(1) = {2, 1, 4};\n") + geof.write("Circle(2) = {4, 1, 3};\n") + geof.write("Circle(3) = {3, 1, 5};\n") + geof.write("Circle(4) = {5, 1, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {2, 3, 4, 1};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_hex_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + points = get_ref_hex_points(center, radius, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(7): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 5};\n") + geof.write("Line(4) = {5, 6};\n") + geof.write("Line(5) = {6, 7};\n") + geof.write("Line(6) = {7, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_tri_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # points + points = get_ref_triangle_points(center, radius, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(4): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_drum2d_particle_gmsh_input(inp_dir, filename, center, radius, width, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # points + points = get_ref_drum_points(center, radius, width, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(7): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 5};\n") + geof.write("Line(4) = {5, 6};\n") + geof.write("Line(5) = {6, 7};\n") + geof.write("Line(6) = {7, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_cylindrical_wall_gmsh_input(inp_dir, filename, center, outer_radius, inner_radius, bar_width, bar_length, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # center and radius + Cx = center[0] + Cy = center[1] + Cz = center[2] + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + points = [] + points.append([Cx, Cy, Cz]) + points.append([outer_radius, 0., 0.]) + points.append([0., outer_radius, 0.]) + points.append([-outer_radius, 0., 0.]) + points.append([0., -outer_radius, 0.]) + points.append([inner_radius, 0.5*bar_width, 0.]) + points.append([inner_radius, -0.5*bar_width, 0.]) + points.append([0., inner_radius, 0.]) + points.append([-inner_radius, 0., 0.]) + points.append([0., -inner_radius, 0.]) + points.append([inner_radius - bar_length, 0.5*bar_width, 0.]) + points.append([inner_radius - bar_length, -0.5*bar_width, 0.]) + + count = 0 + for p in points: + count += 1 + geof.write("Point(%d) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (count, p[0], p[1], p[2], mesh_size)) + + + # + # circular arc + # + circles = [] + circles.append([2, 1, 3]) + circles.append([3, 1, 4]) + circles.append([4, 1, 5]) + circles.append([5, 1, 2]) + + circles.append([6, 1, 8]) + circles.append([8, 1, 9]) + circles.append([9, 1, 10]) + circles.append([10, 1, 7]) + + count = 0 + for c in circles: + count += 1 + geof.write("Circle(%d) = {%d, %d, %d};\n" % (count, c[0], c[1], c[2])) + + # + # line + # + lines = [] + lines.append([6, 11]) + lines.append([11, 12]) + lines.append([12, 7]) + #count = 0 + for l in lines: + count += 1 + geof.write("Line(%d) = {%d, %d};\n" % (count, l[0], l[1])) + + # + # curve loop + # + geof.write("Line Loop(1) = {2, 3, 4, 1};\n") + geof.write("Line Loop(2) = {6, 7, 8, -11, -10, -9, 5};\n") + + # + # plane surface and physical tag + # + geof.write("Plane Surface(1) = {1, 2};\n") + #geof.write("Physical Surface(1) = {1};\n") + #geof.write("Physical Point(2) = {9, 4, 10, 5, 2, 7, 6, 11, 12, 3, 8};\n") + tag = '"' + "a" + '"' + geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + geof.close() + + +def create_input_file(inp_dir, pp_tag): + """Generates input file for two-particle test""" + + sim_inp_dir = str(inp_dir) + + # 1 - small particle circle + # 2 - small particle triangle + # 3 - small particle drum2d + # 4 - small particle hex + # 5 - large particle circle + # 6 - large particle triangle + # 7 - large particle drum2d + # 8 - large particle hex + # 9 - cylindrical wall + + ## geometry + center = [0., 0., 0.] + R_small = 0.001 + R_large = 0.002 + + mesh_size = R_small / 5. + horizon = 2. * mesh_size + + R_in = 0.015 + R_out = R_in + 1.5*mesh_size + + L_bar = 0.004 + W_bar = 1.5*mesh_size + bar_rectangle_attached_to_cylinder = [R_in - L_bar, -0.5 * W_bar, 0., R_in, 0.5 * W_bar, 0.] + + # define geometric parameters + # wall + wall_circle_plus = [R_out, center[0], center[1], center[2]] + wall_circle_minus = [R_in, center[0], center[1], center[2]] + wall_rectangle_plus = bar_rectangle_attached_to_cylinder + wall_params = wall_circle_plus + wall_circle_minus + wall_rectangle_plus + + # small circle + small_circle = [R_small, center[0], center[1], center[2]] + # small triangle + small_triangle = small_circle + # small drum2d + w_small_drum2d = R_small * 0.2 + small_drum2d = [R_small, w_small_drum2d, center[0], center[1], center[2]] + # small hex + small_hex = small_circle + + # large circle + large_circle = [R_large, center[0], center[1], center[2]] + # large triangle + large_triangle = large_circle + # large drum2d + w_large_drum2d = R_large* 0.2 + large_drum2d = [R_large, w_large_drum2d, center[0], center[1], center[2]] + # large hex + large_hex = large_circle + + ## time + final_time = 0.05 + num_steps = 20000 + # final_time = 0.00002 + # num_steps = 2 + num_outputs = 10 + dt_out_n = num_steps / num_outputs + test_dt_out_n = dt_out_n / 10 + perform_out = True + + ## material + poisson = 0.25 + + rho_wall = 600. + K_wall = 1.e+4 + E_wall = get_E(K_wall, poisson) + G_wall = get_G(E_wall, poisson) + Gc_wall = 100. + + rho_small = 600. + K_small = 5.e+3 + E_small = get_E(K_small, poisson) + G_small = get_G(E_small, poisson) + Gc_small = 100. + + rho_large = rho_small + K_large = K_small + E_large = E_small + G_large = G_small + Gc_large = Gc_small + + ## contact + # R_contact = 0.95 * mesh_size + # R_contact = 1.74e-04 + R_contact_factor = 0.95 + + # Kn_V_max = 7.385158e+05 + # Kn = np.power(Kn_V_max, 2) + # compute from bulk modulus + + # from bulk modulus + Kn_small_small = 18. * get_eff_k(K_small, K_small) / (np.pi * np.power(horizon, 5)) + Kn_large_large = 18. * get_eff_k(K_large, K_large) / (np.pi * np.power(horizon, 5)) + Kn_wall_wall = 18. * get_eff_k(K_wall, K_wall) / (np.pi * np.power(horizon, 5)) + Kn_small_large = 18. * get_eff_k(K_small, K_large) / (np.pi * np.power(horizon, 5)) + Kn_small_wall = 18. * get_eff_k(K_small, K_wall) / (np.pi * np.power(horizon, 5)) + Kn_large_wall = 18. * get_eff_k(K_large, K_wall) / (np.pi * np.power(horizon, 5)) + + beta_n_eps = 0.95 + friction_coeff = 0.5 + damping_active = False + friction_active = False + beta_n_factor = 100. + Kn_factor = 1. + + ## gravity + gravity_active = True + gravity = [0., -10., 0.] + + ## wall rotation rate + wall_rotation_rate = -40. * np.pi + wall_rotation_center = [-0.2*R_in, 0.2*R_in, 0.] + + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 100 + neigh_search_criteria = "simple_all" + + ### ---------------------------------------------------------------- ### + # generate mesh and particle location data + ### ---------------------------------------------------------------- ### + + # generate particle locations + padding = 1.1 * R_contact_factor * mesh_size + max_y = 0.4*R_in + # number of particles of small and large sizes + N1, N2 = 8, 4 + num_particles_zones_1_to_8, particles_zones_1_to_8 = particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R_small, R_large, [0, 1, 2, 3], [4, 5, 6, 7], N1, N2, R_in, bar_rectangle_attached_to_cylinder, z_coord = 0., add_orient = True) + + # generate particle .geo file (large) + zones_mesh_fnames = ["mesh_cir_small", "mesh_tri_small", "mesh_drum2d_small", "mesh_hex_small", "mesh_cir_large", "mesh_tri_large", "mesh_drum2d_large", "mesh_hex_large", "mesh_wall"] + + ## circle + generate_cir_particle_gmsh_input(inp_dir, zones_mesh_fnames[0], center, R_small, mesh_size, pp_tag) + generate_cir_particle_gmsh_input(inp_dir, zones_mesh_fnames[4], center, R_large, mesh_size, pp_tag) + + ## triangle + generate_tri_particle_gmsh_input(inp_dir, zones_mesh_fnames[1], center, R_small, mesh_size, pp_tag) + generate_tri_particle_gmsh_input(inp_dir, zones_mesh_fnames[5], center, R_large, mesh_size, pp_tag) + + ## drum2d + generate_drum2d_particle_gmsh_input(inp_dir, zones_mesh_fnames[2], center, R_small, 2.*w_small_drum2d, mesh_size, pp_tag) + generate_drum2d_particle_gmsh_input(inp_dir, zones_mesh_fnames[6], center, R_large, 2.*w_large_drum2d, mesh_size, pp_tag) + + ## hex + generate_hex_particle_gmsh_input(inp_dir, zones_mesh_fnames[3], center, R_small, mesh_size, pp_tag) + generate_hex_particle_gmsh_input(inp_dir, zones_mesh_fnames[7], center, R_large, mesh_size, pp_tag) + + ## wall + generate_cylindrical_wall_gmsh_input(inp_dir, zones_mesh_fnames[8], center, R_out, R_in, W_bar, L_bar, mesh_size, pp_tag) + + os.system("mkdir -p ../out") + + for s in zones_mesh_fnames: + print('\n') + print(s) + print("gmsh {}_{}.geo -2 &> /dev/null".format(s, pp_tag)) + print('\n') + + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + #os.system("gmsh {}_{}.geo -2 &> /dev/null".format(s, pp_tag)) + #os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk &> /dev/null".format(s, pp_tag, s, pp_tag)) + + + ### ---------------------------------------------------------------- ### + # generate YAML file + ### ---------------------------------------------------------------- ### + # print('\nGenerating imput file\n') + inpf = open(sim_inp_dir + 'input_' + str(pp_tag) + '.yaml','w') + inpf.write("Model:\n") + inpf.write(" Dimension: 2\n") + inpf.write(" Discretization_Type:\n") + inpf.write(" Spatial: finite_difference\n") + inpf.write(" Time: central_difference\n") + inpf.write(" Final_Time: %4.6e\n" % (final_time)) + inpf.write(" Time_Steps: %d\n" % (num_steps)) + + # container info + inpf.write("Container:\n") + inpf.write(" Geometry:\n") + inpf.write(" Type: complex\n") + inpf.write(" Vec_Type: [circle, circle, rectangle]\n") + inpf.write(" Vec_Flag: [plus, minus, plus]\n") + inpf.write(" Parameters: " + print_dbl_list(wall_params)) + + # zone info + inpf.write("Zone:\n") + inpf.write(" Zones: 9\n") + + for i in range(9): + inpf.write(" Zone_%d:\n" % (i+1)) + if i == 8: + inpf.write(" Is_Wall: true\n") + else: + inpf.write(" Is_Wall: false\n") + + # particle info + inpf.write("Particle:\n") + inpf.write(" Test_Name: multi_particle_attrition\n") + + particle_data = [['circle', small_circle], ['triangle', small_triangle], ['drum2d', small_drum2d], ['hexagon', small_hex], ['circle', large_circle], ['triangle', large_triangle], ['drum2d', large_drum2d], ['hexagon', large_hex]] + for i in range(len(particle_data)): + inpf.write(" Zone_%d:\n" % (i+1)) + inpf.write(" Type: %s\n" % (particle_data[i][0])) + inpf.write(" Parameters: " + print_dbl_list((particle_data[i][1]))) + + ## last zone (wall) + inpf.write(" Zone_9:\n") + inpf.write(" Is_Wall: true\n") + inpf.write(" Type: complex\n") + inpf.write(" Vec_Type: [circle, circle, rectangle]\n") + inpf.write(" Vec_Flag: [plus, minus, plus]\n") + inpf.write(" Parameters: " + print_dbl_list(wall_params)) + inpf.write(" All_Dofs_Constrained: true\n") + inpf.write(" Create_Particle_Using_ParticleZone_GeomObject: true\n") + + # particle generation + inpf.write("Particle_Generation:\n") + inpf.write(" From_File: particle_locations_" + str(pp_tag) + ".csv\n") + inpf.write(" File_Data_Type: loc_rad_orient\n") + + # Mesh info + inpf.write("Mesh:\n") + + for i in range(9): + inpf.write(" Zone_%d:\n" % (i+1)) + inpf.write(" File: %s\n" % (zones_mesh_fnames[i] + "_" + str(pp_tag) + ".msh")) + + # Contact info + inpf.write("Contact:\n") + + ## 11 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "11", Kn_small_small) + + ## 12, 13, 14 --> copy from 11 + copy_contact_zone(inpf, [12, 13, 14], [1, 1]) + + ## 15 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "15", Kn_small_large) + + ## 16, 17, 18 --> copy from 15 + copy_contact_zone(inpf, [16, 17, 18], [1, 5]) + + ## 19 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "19", Kn_small_wall) + + ## 22, 23, 24 --> copy from 11 + copy_contact_zone(inpf, [22, 23, 24], [1, 1]) + + ## 25, 26, 27, 28 --> copy from 15 + copy_contact_zone(inpf, [25, 26, 27, 28], [1, 5]) + + ## 29 --> copy from 19 + copy_contact_zone(inpf, [29], [1, 9]) + + ## 33, 34 --> copy from 11 + copy_contact_zone(inpf, [33, 34], [1, 1]) + + ## 35, 36, 37, 38 --> copy from 15 + copy_contact_zone(inpf, [35, 36, 37, 38], [1, 5]) + + ## 39 --> copy from 19 + copy_contact_zone(inpf, [39], [1, 9]) + + ## 44 --> copy from 11 + copy_contact_zone(inpf, [44], [1, 1]) + + ## 45, 46, 47, 48 --> copy from 15 + copy_contact_zone(inpf, [45, 46, 47, 48], [1, 5]) + + ## 49 --> copy from 19 + copy_contact_zone(inpf, [49], [1, 9]) + + ## 55 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "55", Kn_large_large) + + ## 56, 57, 58 --> copy from 55 + copy_contact_zone(inpf, [56, 57, 58], [5, 5]) + + ## 59 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "59", Kn_large_wall) + + ## 66, 67, 68 --> copy from 55 + copy_contact_zone(inpf, [66, 67, 68], [5, 5]) + + ## 69 --> copy from 59 + copy_contact_zone(inpf, [69], [5, 9]) + + ## 77, 78 --> copy from 55 + copy_contact_zone(inpf, [77, 78], [5, 5]) + + ## 79 --> copy from 59 + copy_contact_zone(inpf, [79], [5, 9]) + + ## 88 --> copy from 55 + copy_contact_zone(inpf, [88], [5, 5]) + + ## 89 --> copy from 59 + copy_contact_zone(inpf, [89], [5, 9]) + + ## 99 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "99", Kn_wall_wall) + + # Neighbor info + inpf.write("Neighbor:\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) + + # Material info + inpf.write("Material:\n") + + ## zone 1 + write_material_zone_part(inpf, "1", horizon, rho_small, K_small, G_small, Gc_small) + + ## zone 2 + inpf.write(" Zone_2:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 3 + inpf.write(" Zone_3:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 4 + inpf.write(" Zone_4:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 5 + write_material_zone_part(inpf, "5", horizon, rho_large, K_large, G_large, Gc_large) + + ## zone 6 + inpf.write(" Zone_6:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 7 + inpf.write(" Zone_7:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 8 + inpf.write(" Zone_8:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 9 + write_material_zone_part(inpf, "9", horizon, rho_wall, K_wall, G_wall, Gc_wall) + + # Force + if gravity_active == True: + inpf.write("Force_BC:\n") + inpf.write(" Gravity: " + print_dbl_list(gravity)) + + # Displacement + inpf.write("Displacement_BC:\n") + inpf.write(" Sets: 1\n") + + inpf.write(" Set_1:\n") + # wall particle id will be num_particles_zones_1_to_8 + inpf.write(" Particle_List: [%d]\n" % (num_particles_zones_1_to_8)) + inpf.write(" Direction: [1,2]\n") + inpf.write(" Time_Function:\n") + inpf.write(" Type: rotation\n") + inpf.write(" Parameters: "+print_dbl_list([wall_rotation_rate, wall_rotation_center[0], wall_rotation_center[1], wall_rotation_center[2]])) + inpf.write(" Spatial_Function:\n") + inpf.write(" Type: rotation\n") + inpf.write(" Zero_Displacement: false\n") + + # + # Output info + # + inpf.write("Output:\n") + inpf.write(" Path: ../out/\n") + inpf.write(" Tags:\n") + inpf.write(" - Displacement\n") + inpf.write(" - Velocity\n") + inpf.write(" - Force\n") + inpf.write(" - Force_Density\n") + inpf.write(" - Damage_Z\n") + inpf.write(" - Damage\n") + inpf.write(" - Nodal_Volume\n") + inpf.write(" - Zone_ID\n") + inpf.write(" - Particle_ID\n") + inpf.write(" - Fixity\n") + inpf.write(" - Force_Fixity\n") + inpf.write(" - Contact_Nodes\n") + inpf.write(" - No_Fail_Node\n") + inpf.write(" - Boundary_Node_Flag\n") + # inpf.write(" - Contact_Data\n") + # inpf.write(" - Strain_Stress\n") + inpf.write(" Output_Interval: %d\n" % (dt_out_n)) + inpf.write(" Compress_Type: zlib\n") + inpf.write(" Perform_FE_Out: false\n") + if perform_out: + inpf.write(" Perform_Out: true\n") + else: + inpf.write(" Perform_Out: false\n") + inpf.write(" Test_Output_Interval: %d\n" % (test_dt_out_n)) + + inpf.write(" Debug: 2\n") + inpf.write(" Tag_PP: %d\n" %(int(pp_tag))) + + # close file + inpf.close() + + +##-------------------------------------------------------## +##-------------------------------------------------------## +inp_dir = './' +pp_tag = 0 +if len(sys.argv) > 1: + pp_tag = int(sys.argv[1]) + +create_input_file(inp_dir, pp_tag) diff --git a/test/test_data/peridem/attrition_mix_particles_small_set/run.sh b/test/test_data/peridem/attrition_mix_particles_small_set/run.sh new file mode 100755 index 00000000..1044145c --- /dev/null +++ b/test/test_data/peridem/attrition_mix_particles_small_set/run.sh @@ -0,0 +1,15 @@ +#!/bin/bash +MY_PWD=$(pwd) + +( +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi + +cd "inp" && python3 -B problem_setup.py + +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads +) 2>&1 | tee output.log + +# check if we have produced 'output_10.vtu' file +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/compression_large_set/inp/problem_setup.py b/test/test_data/peridem/compression_large_set/inp/problem_setup.py new file mode 100644 index 00000000..d00dc969 --- /dev/null +++ b/test/test_data/peridem/compression_large_set/inp/problem_setup.py @@ -0,0 +1,1635 @@ +import os +import numpy as np +# import csv +import sys +# import pyvista as pv + +def print_bool(arg, prefix = ""): + + str = prefix + if arg == True: + str += "True\n" + else: + str += "False\n" + return str + +def print_dbl(arg, prefix = ""): + + str = prefix + "%4.6e\n" % (arg) + return str + +def print_int(arg, prefix = ""): + str = prefix + "%d\n" % (arg) + return str + +def print_dbl_list(arg, prefix = ""): + str = prefix + "[" + N = len(arg) + for i in range(N): + str += "%4.6e" % (arg[i]) + if i < N - 1: + str += ", " + else: + str += "]\n" + + return str + +def print_int_list(arg, prefix = ""): + str = prefix + "[" + N = len(arg) + for i in range(N): + str += "%d" % (arg[i]) + if i < N - 1: + str += ", " + else: + str += "]\n" + + return str + +def serialize_matrix_list(p): + s = [] + for q in p: + for w in q: + s.append(w) + + return s + + +def write_point_geo(geof, p_id, x, h): + geof.write("Point(%d) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (p_id, x[0], x[1], x[2], h)) + return p_id + 1 + +def write_line_geo(geof, l_id, p1_id, p2_id): + geof.write("Line(%d) = {%d, %d};\n" % (l_id, p1_id, p2_id)) + return l_id + 1 + +def write_cir_line_geo(geof, l_id, p1_id, p2_id, p3_id): + geof.write("Circle(%d) = {%d, %d, %d};\n" % (l_id, p1_id, p2_id, p3_id)) + return l_id + 1 + +def write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, zone_string, Kn): + inpf.write(" Zone_%s:\n" % (zone_string)) + inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) + + if damping_active == False: + inpf.write(" Damping_On: false\n") + if friction_active == False: + inpf.write(" Friction_On: false\n") + + inpf.write(" Kn: %4.6e\n" % (Kn)) + inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) + inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) + inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) + +def write_material_zone_part(inpf, zone_string, horizon, rho, K, G, Gc): + inpf.write(" Zone_%s:\n" % (zone_string)) + inpf.write(" Type: PDState\n") + inpf.write(" Horizon: %4.6e\n" % (horizon)) + inpf.write(" Density: %4.6e\n" % (rho)) + inpf.write(" Compute_From_Classical: true\n") + inpf.write(" K: %4.6e\n" % (K)) + inpf.write(" G: %4.6e\n" % (G)) + inpf.write(" Gc: %4.6e\n" % (Gc)) + inpf.write(" Influence_Function:\n") + inpf.write(" Type: 1\n") + +def copy_contact_zone(inpf, zone_numbers, zone_copy_from): + for s in zone_numbers: + inpf.write(" Zone_%d:\n" % (s)) + inpf.write(" Copy_Contact_Data: " + print_int_list(zone_copy_from)) + +def get_E(K, nu): + return 3. * K * (1. - 2. * nu) + +def get_G(E, nu): + return E / (2. * (1. + nu)) + + +def get_eff_k(k1, k2): + return 2. * k1 * k2 / (k1 + k2) + + +def get_max(l): + l = np.array(l) + return l.max() + +def get_center(p1, p2): + return [0.5*(p1[i] + p2[i]) for i in range(3)] + +def rotate(p, theta, axis): + + p_np = np.array(p) + axis_np = np.array(axis) + + ct = np.cos(theta); + st = np.sin(theta); + + # dot + p_dot_n = np.dot(p_np,axis_np) + + # cross + n_cross_p = np.cross(axis_np, p_np) + + return (1. - ct) * p_dot_n * axis_np + ct * p_np + st * n_cross_p + +def get_ref_rect_points(center, L, W, add_center = False): + + points = [] + if add_center: + points.append(center) + + points.append([center[0] - 0.5*L, center[1] - 0.5*W, center[2]]) + points.append([center[0] + 0.5*L, center[1] - 0.5*W, center[2]]) + points.append([center[0] + 0.5*L, center[1] + 0.5*W, center[2]]) + points.append([center[0] - 0.5*L, center[1] + 0.5*W, center[2]]) + + return points + +def get_ref_triangle_points(center, radius, add_center = False): + + # triangle + # 2 + # + + # + # + # o + # 1 + # + # +-------------------+ + # 3 4 + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + cp = np.cos(np.pi/6.) + sp = np.sin(np.pi/6.) + + points = [] + if add_center: + points.append([sim_Cx, sim_Cy, sim_Cz]) + points.append([sim_Cx, sim_Cy + sim_radius, sim_Cz]) + points.append([sim_Cx - sim_radius*cp, sim_Cy - sim_radius*sp, sim_Cz]) + points.append([sim_Cx + sim_radius*cp, sim_Cy - sim_radius*sp, sim_Cz]) + + return points + +def get_ref_hex_points(center, radius, add_center = False): + + # drum2d + # + # v3 v2 + # + + + # + # + # + o + + # v4 x v1 + # + # + + + # v5 v6 + # + # Axis is a vector from x to v1 + # + + axis = [1., 0., 0.] + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + rotate_axis = [0., 0., 1.] + + points = [] + if add_center: + points.append(center) + + for i in range(6): + xi = rotate(axis, i*np.pi/3., rotate_axis) + points.append([center[i] + radius * xi[i] for i in range(3)]) + + return points + +def get_ref_drum_points(center, radius, width, add_center = False): + + # drum2d + # + # v3 v2 + # + + + # + # + # + o + + # v4 x v1 + # + # + + + # v5 v6 + # + # Axis is a vector from x to v1 + # + + axis = [1., 0., 0.] + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + rotate_axis = [0., 0., 1.] + + x1 = rotate(axis, np.pi/3., rotate_axis) + x2 = rotate(axis, -np.pi/3., rotate_axis) + + points = [] + if add_center: + points.append(center) + + # v1 + points.append([center[i] + width*0.5*axis[i] for i in range(3)]) + # v2 + points.append([center[i] + radius*x1[i] for i in range(3)]) + # v3 + points.append([center[i] + radius*x1[i] - radius*axis[i] for i in range(3)]) + # v4 + points.append([center[i] - width*0.5*axis[i] for i in range(3)]) + # v5 + v6 = [center[i] + radius*x2[i] for i in range(3)] + points.append([v6[i] - radius*axis[i] for i in range(3)]) + # v6 + points.append(v6) + + return points + +def does_rect_intersect_rect(r1, r2, padding): + + # enlarge rectangle by adding padding + r1_padding = [r1[0] - padding, r1[1] - padding, r1[2], r1[3] + padding, r1[4] + padding, r1[5]] + + return r1_padding[0] < r2[3] and r1_padding[3] > r2[0] and r1_padding[1] < r2[4] and r1_padding[4] > r2[1] + +def does_rect_intersect_rect_use_pair_coord(r1, r2, padding): + + # enlarge rectangle by adding padding + p1_r1_padding = [r1[0][0] - padding, r1[0][1] - padding, r1[0][2]] + p2_r1_padding = [r1[1][0] + padding, r1[1][1] + padding, r1[0][2]] + + p1_r2 = r2[0] + p2_r2 = r2[1] + + return p1_r1_padding[0] < p2_r2[0] and p2_r1_padding[0] > p1_r2[0] and p1_r1_padding[1] < p2_r2[1] and p2_r1_padding[1] > p1_r2[1] + + +def does_particle_intersect_rect(p, r2, padding): + + pr = p[4] + pc = [p[1], p[2], p[3]] + p_rect = [pc[0] - pr, pc[1] - pr, pc[2], pc[1] + pr, pc[2] + pr, pc[2]] + + return does_rect_intersect_rect(p_rect, r2, padding) + +def does_particle_intersect(p, particles, rect, padding): + + # p -> [id, x, y, z, r] + + p_center = [p[i+1] for i in range(3)] + p_r = p[4] + p_rect = [p_center[0] - p_r, p_center[1] - p_r, p_center[2], p_center[0] + p_r, p_center[1] + p_r, p_center[2]] + + if p_rect[0] < rect[0] + padding or p_rect[1] < rect[1] + padding or p_rect[3] > rect[3] - padding or p_rect[4] > rect[4] - padding: + return True + + for q in particles: + pq = np.array([p[i+1] - q[i+1] for i in range(3)]) + if np.linalg.norm(pq) <= p[-1] + q[-1] + padding: + return True + + return False + + +def particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R1, R2, id_choices1, id_choices2, N1, N2, rect, z_coord, add_orient = True): + + np.random.seed(30) + sim_inp_dir = str(inp_dir) + + """Generate particle location data""" + + particles = [] + points = [] + + method_to_use = 1 + + rect_L = rect[3] - rect[0] + rect_W = rect[4] - rect[1] + + if method_to_use == 0: + pcount = 0 + count = 0 + select_count = 0 + while pcount < N2 and count < 100*N2: + if count%N2 == 0: + print('large particle iter = ', count) + + # random radius and center location + r = R2 + np.random.uniform(-0.1 * R2, 0.1 * R2) + x = center[0] + np.random.uniform(-0.5*rect_L + R2 + padding, 0.5*rect_L - R2- padding) + y = np.random.uniform(-0.5*rect_W + R2+padding, max_y - R2-padding) + p_zone = id_choices2[select_count % len(id_choices2)] + p = [p_zone, x, y, center[2], r] + + # check if it collides of existing particles + pintersect = does_particle_intersect(p, particles, rect_L, rect_W, center, padding) + + if pintersect == False: + particles.append(p) + pcount += 1 + select_count += 1 + + count +=1 + + pcount = 0 + count = 0 + select_count = 0 + while pcount < N1 and count < 100*N1: + if count%N1 == 0: + print('small particle iter = ', count) + + # random radius and center location + r = R1 + np.random.uniform(-0.1 * R1, 0.1 * R1) + x = center[0] + np.random.uniform(-0.5*rect_L + R1 + padding, 0.5*rect_L - R1- padding) + y = np.random.uniform(-0.5*rect_W + R1 + padding, max_y - R1 - padding) + # p_zone = np.random.choice(id_choices1, size=1)[0] + # if np.random.uniform(0., 1.) > 0.25: + # p_zone = np.random.choice(id_choices1, size=1)[0] + p_zone = id_choices1[select_count % len(id_choices1)] + p = [p_zone, x,y,center[2], r] + + # check if it collides of existing particles + pintersect = does_particle_intersect(p, particles, rect_L, rect_W, center, padding) + + if pintersect == False: + particles.append(p) + pcount += 1 + select_count += 1 + + count +=1 + + elif method_to_use == 1: + + # find how approximate number of rows and cols we can have + check_r = R1 + if R1 > R2: + check_r = R2 + + rows = int((max_y - rect[1]) / (2. * check_r)) + cols = int(rect_L / (2. * check_r)) + + print(rows, cols, N1, N2) + + rads = [R1, R2] + + counter = 0 + counter1 = 0 + counter2 = 0 + x_old = rect[0] + x_old_right = rect[3] + y_old = rect[1] + + cx = 0. + cy = 0. + cz = center[2] + r = 0. + + + cy_accptd = [] + cy_accptd.append(y_old) + + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + for i in range(rows): + print('row = {}'.format(i), flush=True) + + if i > 0: + y_old = get_max(cy_accptd) + get_max(row_rads) + + #y_old = i*(2*get_max([R1, R2])) + rect[1] + + # print(i, cy, y_old) + + # reset + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + if y_old + padding + get_max(row_rads) < max_y: + num_p_cols = 0 + j = 0 + while True: + if num_p_cols > cols - 1 or j > 100*(N1 + N2): + break + + if counter1 >= N1 and counter2 >= N2: + break + + if j == 0: + # for odd row, take x_old as first and for even take as last + x_old = rect[0] + x_old_right = rect[3] + + # type of particle (type 1 or 2, e.g., small or large) + p_type = np.random.choice([0,1], size=1)[0] + if counter1 >= N1: + p_type = 1 + if counter2 >= N2 : + p_type = 0 + + r0 = rads[p_type] + + # zone this particle belongs to + p_zone = 0 + if p_type == 0: + p_zone = np.random.choice(id_choices1, size=1)[0] + else: + p_zone = np.random.choice(id_choices2, size=1)[0] + + # perturb radius + r = r0 + np.random.uniform(-0.1 * r0, 0.1 * r0) + + # for even row, we start from right edge of rectange + if i%2 == 0: + # random horizontal/vertical perturbation + rph = np.random.uniform(-0.1 * r0, 0.05 * r0) + rpv = np.random.uniform(-0.05 * r0, 0.05 * r0) + cx0 = x_old_right - padding - r + cx = cx0 - rph + cy = y_old + padding + r + rpv + else: + # random horizontal/vertical perturbation + rph = np.random.uniform(-0.05 * r0, 0.1 * r0) + rpv = np.random.uniform(-0.05 * r0, 0.05 * r0) + cx0 = x_old + padding + r + cx = cx0 + rph + cy = y_old + padding + r + rpv + + # particle + p = [p_zone, cx, cy, cz, r] + + # check for intersection + # if i < 3: + # print(p, particles, rect_L, rect_W, center, padding) + pintersect = does_particle_intersect(p, particles, rect, padding) + + if pintersect == False: + print(i, p, flush=True) + particles.append(p) + row_rads.append(p[4]) + cy_accptd.append(cy) + # set x_old + if i % 2 == 0: + x_old_right = cx - p[4] + else: + x_old = cx + p[4] + + if p_type == 0: + counter1 += 1 + elif p_type == 1: + counter2 += 1 + + counter += 1 + + num_p_cols += 1 + + j += 1 + + inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') + if add_orient: + inpf.write("i, x, y, z, r, o\n") + counter = 0 + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4], np.random.uniform(0., 2.*np.pi))) + counter += 1 + else: + inpf.write("i, x, y, z, r\n") + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4])) + + + inpf.close() + + # to visualize in paraview + write_vtu = False + if write_vtu: + points = [] + rads = [] + zones = [] + for p in particles: + points.append([p[1], p[2], p[3]]) + rads.append(p[-1]) + zones.append(int(p[0])) + + points = np.array(points) + rads = np.array(rads) + zones = np.array(zones) + mesh = pv.PolyData(points) + mesh["radius"] = rads + mesh["zone"] = zones + pv.save_meshio(sim_inp_dir + 'particle_locations_' + str(pp_tag) + '.vtu', mesh) + + print('number of particles created = {}'.format(len(particles)), flush=True) + + return len(particles), particles + +def particle_locations_old(inp_dir, pp_tag, center, padding, max_y, mesh_size, R1, R2, id_choices1, id_choices2, N1, N2, rect, z_coord, add_orient = True): + + """Generate particle location data""" + + + def does_intersect_old(p, r, R, particles, padding): + + for q in particles: + + pq = np.array([p[i] - q[i] for i in range(3)]) + if np.linalg.norm(pq) <= r + R + padding: + return True + + return False + + + def does_intersect_rect_old(p, r, particles, padding, rect): + + # check intersection with rectangle + pr = [p[0] - r, p[1] - r, p[2], p[0] + r, p[1] + r, p[2]] + + if pr[0] < rect[0] + padding or pr[1] < rect[1] + padding or pr[3] > rect[3] - padding or pr[4] > rect[4] - padding: + + # print('circle (xc = {}, r = {:5.3e}) intersects rect = {} with pad = {:5.3e}'.format(p, r, rect, padding)) + + return True + + # loop over particles + # for pi in particles: + # dx = [p[0] - pi[1], p[1] - pi[2], p[2] - pi[3]] + # rR = r + pi[4] + padding + # if np.linalg.norm(dx) < rR: + # return True + + # print('circle (xc = {}, r = {:5.3e}) does not intersects rect = {} with pad = {:5.3e}'.format(p, r, rect, padding)) + return False + + # + # + # Given rectangle, we want to fill it with particles of R1 and R2 radius + # in alternate fashion with padding between each particle + # + # + particles = [] + points = [] + + # find how approximate number of rows and cols we can have + check_r = R1 + if R1 > R2: + check_r = R2 + + rows = int((rect[3] - rect[0])/ check_r) + cols = int((rect[4] - rect[1])/ check_r) + + rads = [R1, R2] + + counter = 0 + x_old = rect[0] + x_old_right = rect[3] + y_old = rect[1] + pad = padding + + cx = 0. + cy = 0. + cz = 0. + r = 0. + + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + for i in range(rows): + + if i > 0: + y_old = cy + get_max(row_rads) + + # reset + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + num_p_cols = 0 + j = 0 + while num_p_cols < cols - 1 and j < 500: + + if j == 0: + # for odd row, take x_old as first and for even take as last + x_old = rect[0] + x_old_right = rect[3] + + # type of particle (type 1 or 2, e.g., small or large) + p_type = counter % 2 + + r0 = rads[p_type] + + # zone this particle belongs to + p_zone = 0 + if p_type == 0: + p_zone = np.random.choice(id_choices1, size=1)[0] + else: + p_zone = np.random.choice(id_choices2, size=1)[0] + + # perturb radius + r = r0 + np.random.uniform(-0.1 * r0, 0.1 * r0) + # r = r0 + row_rads.append(r) + + # random horizontal perturbation by 10% of radius + rph = np.random.uniform(-0.1 * r0, 0.1 * r0) + + cx0 = x_old + pad + r + cx = cx0 + rph + # for even row, we start from right edge of rectange + if i%2 == 0: + cx0 = x_old_right - pad - r + cx = cx0 - rph + + cy = y_old + pad + r + cz = rect[2] + + inters = does_intersect_rect_old([cx, cy, cz], r, particles, pad, rect) + inters_parts = does_intersect_old + + if inters == False: + particles.append([float(p_zone), cx, cy, cz, r]) + + # set x_old + if i % 2 == 0: + x_old_right = cx - r + else: + x_old = cx + r + + counter += 1 + + num_p_cols += 1 + + j += 1 + + + inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') + if add_orient: + inpf.write("i, x, y, z, r, o\n") + counter = 0 + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4], np.random.uniform(0., 2.*np.pi))) + counter += 1 + else: + inpf.write("i, x, y, z, r\n") + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4])) + + + inpf.close() + + # to visualize in paraview + write_vtu = False + if write_vtu: + points = [] + rads = [] + zones = [] + for p in particles: + points.append([p[1], p[2], p[3]]) + rads.append(p[-1]) + zones.append(int(p[0])) + + points = np.array(points) + rads = np.array(rads) + zones = np.array(zones) + mesh = pv.PolyData(points) + mesh["radius"] = rads + mesh["zone"] = zones + pv.save_meshio(sim_inp_dir + 'particle_locations_' + str(pp_tag) + '.vtu', mesh) + + print('number of particles created = {}'.format(len(particles))) + + return len(particles), particles + + +def generate_cir_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + # mesh size + sim_h = mesh_size + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy, sim_Cz, sim_h)); + geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx + sim_radius, sim_Cy, sim_Cz, sim_h)) + geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx - sim_radius, sim_Cy, sim_Cz, sim_h)) + geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy + sim_radius, sim_Cz, sim_h)) + geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy - sim_radius, sim_Cz, sim_h)) + + # + # circlular arc + # + geof.write("Circle(1) = {2, 1, 4};\n") + geof.write("Circle(2) = {4, 1, 3};\n") + geof.write("Circle(3) = {3, 1, 5};\n") + geof.write("Circle(4) = {5, 1, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {2, 3, 4, 1};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_hex_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + points = get_ref_hex_points(center, radius, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(7): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 5};\n") + geof.write("Line(4) = {5, 6};\n") + geof.write("Line(5) = {6, 7};\n") + geof.write("Line(6) = {7, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_tri_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # points + points = get_ref_triangle_points(center, radius, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(4): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_drum2d_particle_gmsh_input(inp_dir, filename, center, radius, width, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # points + points = get_ref_drum_points(center, radius, width, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(7): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 5};\n") + geof.write("Line(4) = {5, 6};\n") + geof.write("Line(5) = {6, 7};\n") + geof.write("Line(6) = {7, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + +def generate_rect_container_gmsh_input(inp_dir, filename, pi1, pi2, dx, dy, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + innr_pts = get_ref_rect_points(get_center(pi1, pi2), pi2[0] - pi1[0], pi2[1] - pi1[1]) + + outr_pts = get_ref_rect_points(get_center(pi1, pi2), pi2[0] - pi1[0] + 2*dx, pi2[1] - pi1[1] + 2*dy) + + h = mesh_size + hout = h # 5*h + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # points + p_id = 1 + for i in range(4): + p_id = write_point_geo(geof, p_id, outr_pts[i], h) + + for i in range(4): + p_id = write_point_geo(geof, p_id, innr_pts[i], h) + + # line + l_id = 1 + l_id = write_line_geo(geof, l_id, 1, 2) + l_id = write_line_geo(geof, l_id, 2, 3) + l_id = write_line_geo(geof, l_id, 3, 4) + l_id = write_line_geo(geof, l_id, 4, 1) + + l_id = write_line_geo(geof, l_id, 5, 6) + l_id = write_line_geo(geof, l_id, 6, 7) + l_id = write_line_geo(geof, l_id, 7, 8) + l_id = write_line_geo(geof, l_id, 8, 5) + + # line loop to define surface + geof.write("Line Loop(9) = {1, 2, 3, 4};\n") + geof.write("Line Loop(10) = {5, 6, 7, 8};\n") + + # define surface + geof.write("Plane Surface(11) = {9, 10};\n") + + # close file + geof.close() + +def generate_rigid_rect_container_moving_wall_setup_gmsh_input(inp_dir, filename, outer_rect, inner_rect, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # outer rectangle + sim_Lx_out1 = outer_rect[0] + sim_Ly_out1 = outer_rect[1] + sim_Lz_out1 = outer_rect[2] + sim_Lx_out2 = outer_rect[3] + sim_Ly_out2 = outer_rect[4] + sim_Lz_out2 = outer_rect[5] + + # inner rectangle + sim_Lx_in1 = inner_rect[0] + sim_Ly_in1 = inner_rect[1] + sim_Lz_in1 = inner_rect[2] + sim_Lx_in2 = inner_rect[3] + sim_Ly_in2 = inner_rect[4] + sim_Lz_in2 = inner_rect[5] + + # mesh size + sim_h = mesh_size + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # L7 L3 + # 4 + --- + 8 7 + --- + 3 + # | | | | + # | | | | + # | | L6 L4 | | + # L8 | | | | + # | | | | L2 + # | | L5 | | + # | + ------------------- + | + # | 5 6 | + # | | + # 1 + ------------------------------- + 2 + # L1 + # + # + # for point 8 and 7 --> choose y coordinate from outer rectangle and x + # coordinate from inner rectangle + + # + # points + # + geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)) + geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) + geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) + geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) + + geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_in1, sim_Lz_in1, sim_h)) + geof.write("Point(6) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_in1, sim_Lz_in1, sim_h)) + geof.write("Point(7) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_out2, sim_Lz_in1, sim_h)) + geof.write("Point(8) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_out2, sim_Lz_in1, sim_h)) + + # + # lines + # + geof.write("Line(1) = {1, 2};\n") + geof.write("Line(2) = {2, 3};\n") + geof.write("Line(3) = {3, 7};\n") + geof.write("Line(4) = {7, 6};\n") + geof.write("Line(5) = {6, 5};\n") + geof.write("Line(6) = {5, 8};\n") + geof.write("Line(7) = {8, 4};\n") + geof.write("Line(8) = {4, 1};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6, 7, 8};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + tag = '"' + "a" + '"' + geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # close file + geof.close() + + +def generate_moving_rect_wall_gmsh_input(inp_dir, filename, rectangle, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # outer rectangle + sim_Lx_out1 = rectangle[0] + sim_Ly_out1 = rectangle[1] + sim_Lz_out1 = rectangle[2] + sim_Lx_out2 = rectangle[3] + sim_Ly_out2 = rectangle[4] + sim_Lz_out2 = rectangle[5] + + # mesh size + sim_h = mesh_size + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)); + geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) + geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) + geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) + + # + # lines + # + geof.write("Line(1) = {1, 2};\n") + geof.write("Line(2) = {2, 3};\n") + geof.write("Line(3) = {3, 4};\n") + geof.write("Line(4) = {4, 1};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + tag = '"' + "a" + '"' + geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # close file + geof.close() + +def create_input_file(inp_dir, pp_tag): + """Generates input file for two-particle test""" + + sim_inp_dir = str(inp_dir) + + # 1 - small particle circle + # 2 - small particle triangle + # 3 - small particle drum2d + # 4 - small particle hex + # 5 - large particle circle + # 6 - large particle triangle + # 7 - large particle drum2d + # 8 - large particle hex + # 9 - rectangle wall rigid + # 10 - top of wall that is moving + + ## geometry + center = [0., 0., 0.] + R_small = 0.001 + R_large = 0.001 + + mesh_size = R_small / 5. + horizon = 2 * mesh_size + + ## internal rectangle + Lin, Win = 0.05, 0.04 + L, W = Lin + 1.5*horizon, Win + 1.5*horizon + + in_rect = [center[0] - 0.5*Lin, center[1] - 0.5*Win, center[2], center[0] + 0.5*Lin, center[1] + 0.5*Win, center[2]] + out_rect = [center[0] - 0.5*L, center[1] - 0.5*W, center[2], center[0] + 0.5*L, center[1] + 0.5*W, center[2]] + + # moving wall + moving_wall_y = 0.5*Win - 1.5*horizon + moving_rect = [center[0] - 0.5*Lin, center[1] + moving_wall_y, center[2], center[0] + 0.5*Lin, center[1] + moving_wall_y + 1.5*horizon, center[2]] + + # fixed container is annulus rectangle with top being removed + # so we can represent it as outer rectangle minus rectangle that includes inner part and the top part + remove_rect_from_out_rect = [in_rect[0], in_rect[1], in_rect[2], in_rect[3], out_rect[4], in_rect[5]] + if moving_rect[4] > out_rect[4]: + remove_rect_from_out_rect[4] = out_rect[4] + + fixed_container_params = [] + for a in out_rect: + fixed_container_params.append(a) + for a in remove_rect_from_out_rect: + fixed_container_params.append(a) + + # container rectangle + contain_rect = out_rect + + # small circle + small_circle = [R_small, center[0], center[1], center[2]] + # small triangle + small_triangle = small_circle + # small drum2d + w_small_drum2d = R_small * 0.2 + small_drum2d = [R_small, w_small_drum2d, center[0], center[1], center[2]] + # small hex + small_hex = small_circle + + # large circle + large_circle = [R_large, center[0], center[1], center[2]] + # large triangle + large_triangle = large_circle + # large drum2d + w_large_drum2d = R_large* 0.2 + large_drum2d = [R_large, w_large_drum2d, center[0], center[1], center[2]] + # large hex + large_hex = large_circle + + + ## time + final_time = 0.01 + num_steps = 4000 + # final_time = 0.00002 + # num_steps = 2000 + num_outputs = 10 + dt_out_n = num_steps / num_outputs + test_dt_out_n = dt_out_n / 10 + perform_out = True + + ## material + rho_wall = 600. + poisson_wall = 0.25 + K_wall = 1.e+4 + E_wall = get_E(K_wall, poisson_wall) + G_wall = get_G(E_wall, poisson_wall) + Gc_wall = 100. + + rho_small = 600. + poisson_small = poisson_wall + K_small = 5.e+3 + E_small = get_E(K_small, poisson_small) + G_small = get_G(E_small, poisson_small) + Gc_small = 100. + + rho_large = rho_small + poisson_large = poisson_small + K_large = K_small + E_large = E_small + G_large = G_small + Gc_large = Gc_small + + ## contact + # R_contact = 0.95 * mesh_size + # R_contact = 1.74e-04 + R_contact_factor = 0.95 + + # Kn_V_max = 7.385158e+05 + # Kn = np.power(Kn_V_max, 2) + # compute from bulk modulus + + # from bulk modulus + Kn_small_small = 18. * get_eff_k(K_small, K_small) / (np.pi * np.power(horizon, 5)) + Kn_large_large = 18. * get_eff_k(K_large, K_large) / (np.pi * np.power(horizon, 5)) + Kn_wall_wall = 18. * get_eff_k(K_wall, K_wall) / (np.pi * np.power(horizon, 5)) + Kn_small_large = 18. * get_eff_k(K_small, K_large) / (np.pi * np.power(horizon, 5)) + Kn_small_wall = 18. * get_eff_k(K_small, K_wall) / (np.pi * np.power(horizon, 5)) + Kn_large_wall = 18. * get_eff_k(K_large, K_wall) / (np.pi * np.power(horizon, 5)) + + # we do not want walls to interact + Kn_wall_wall = 0. + + beta_n_eps = 0.95 + friction_coeff = 0.5 + damping_active = False + damping_active_floor = True + friction_active = False + beta_n_factor = 100. + Kn_factor = 1. + + ## gravity + gravity_active = True + gravity = [0., -10., 0.] + + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 100 + neigh_search_criteria = "simple_all" + + ## moving wall downward velocity + moving_wall_vert_velocity = -0.06 + + ### ---------------------------------------------------------------- ### + # generate mesh and particle location data + ### ---------------------------------------------------------------- ### + + # generate particle locations + padding = 1.1 * R_contact_factor * mesh_size + max_y = moving_wall_y - 3*mesh_size + # number of particles of small and large sizes + N1, N2 = 300, 200 + id_choices1 = [0, 1, 2, 3] + id_choices2 = [4, 5, 6, 7] + num_particles_zones_1_to_8, particles_zones_1_to_8 = particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R_small, R_large, id_choices1, id_choices2, N1, N2, in_rect, z_coord = 0., add_orient = True) + + # generate particle .geo file (large) + zones_mesh_fnames = ["mesh_cir_small", "mesh_tri_small", "mesh_drum2d_small", "mesh_hex_small", "mesh_cir_large", "mesh_tri_large", "mesh_drum2d_large", "mesh_hex_large", "mesh_fixed_container", "mesh_moving_container"] + + ## circle + generate_cir_particle_gmsh_input(inp_dir, zones_mesh_fnames[0], center, R_small, mesh_size, pp_tag) + generate_cir_particle_gmsh_input(inp_dir, zones_mesh_fnames[4], center, R_large, mesh_size, pp_tag) + + ## triangle + generate_tri_particle_gmsh_input(inp_dir, zones_mesh_fnames[1], center, R_small, mesh_size, pp_tag) + generate_tri_particle_gmsh_input(inp_dir, zones_mesh_fnames[5], center, R_large, mesh_size, pp_tag) + + ## drum2d + generate_drum2d_particle_gmsh_input(inp_dir, zones_mesh_fnames[2], center, R_small, 2.*w_small_drum2d, mesh_size, pp_tag) + generate_drum2d_particle_gmsh_input(inp_dir, zones_mesh_fnames[6], center, R_large, 2.*w_large_drum2d, mesh_size, pp_tag) + + ## hex + generate_hex_particle_gmsh_input(inp_dir, zones_mesh_fnames[3], center, R_small, mesh_size, pp_tag) + generate_hex_particle_gmsh_input(inp_dir, zones_mesh_fnames[7], center, R_large, mesh_size, pp_tag) + + ## wall + generate_rigid_rect_container_moving_wall_setup_gmsh_input(inp_dir, zones_mesh_fnames[8], out_rect, in_rect, mesh_size, pp_tag) + + generate_moving_rect_wall_gmsh_input(inp_dir, zones_mesh_fnames[9], moving_rect, mesh_size, pp_tag) + + os.system("mkdir -p ../out") + + for s in zones_mesh_fnames: + print('\n') + print(s) + print("gmsh {}_{}.geo -2 &> /dev/null".format(s, pp_tag)) + print('\n') + + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 &> /dev/null".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk &> /dev/null".format(s, pp_tag, s, pp_tag)) + + + ### ---------------------------------------------------------------- ### + # generate YAML file + ### ---------------------------------------------------------------- ### + # print('\nGenerating imput file\n') + inpf = open(sim_inp_dir + 'input_' + str(pp_tag) + '.yaml','w') + inpf.write("Model:\n") + inpf.write(" Dimension: 2\n") + inpf.write(" Discretization_Type:\n") + inpf.write(" Spatial: finite_difference\n") + inpf.write(" Time: central_difference\n") + inpf.write(" Final_Time: %4.6e\n" % (final_time)) + inpf.write(" Time_Steps: %d\n" % (num_steps)) + + # container info + inpf.write("Container:\n") + inpf.write(" Geometry:\n") + inpf.write(" Type: rectangle\n") + inpf.write(" Parameters: " + print_dbl_list(contain_rect)) + + # zone info + inpf.write("Zone:\n") + inpf.write(" Zones: 10\n") + + for i in range(10): + inpf.write(" Zone_%d:\n" % (i+1)) + if i > 7: + inpf.write(" Is_Wall: true\n") + else: + inpf.write(" Is_Wall: false\n") + + # particle info + inpf.write("Particle:\n") + inpf.write(" Test_Name: multi_particle_compressive_test\n") + + particle_data = [['circle', small_circle], ['triangle', small_triangle], ['drum2d', small_drum2d], ['hexagon', small_hex], ['circle', large_circle], ['triangle', large_triangle], ['drum2d', large_drum2d], ['hexagon', large_hex]] + for i in range(len(particle_data)): + inpf.write(" Zone_%d:\n" % (i+1)) + inpf.write(" Type: %s\n" % (particle_data[i][0])) + inpf.write(" Parameters: " + print_dbl_list((particle_data[i][1]))) + + ## zone 9 (fixed container) + inpf.write(" Zone_9:\n") + inpf.write(" Is_Wall: true\n") + inpf.write(" Type: rectangle_minus_rectangle\n") + inpf.write(" Parameters: " + print_dbl_list(fixed_container_params)) + inpf.write(" All_Dofs_Constrained: true\n") + inpf.write(" Create_Particle_Using_ParticleZone_GeomObject: true\n") + + ## zone 10 (moving wall) + inpf.write(" Zone_10:\n") + inpf.write(" Is_Wall: true\n") + inpf.write(" Type: rectangle\n") + inpf.write(" Parameters: " + print_dbl_list(moving_rect)) + inpf.write(" All_Dofs_Constrained: true\n") + inpf.write(" Create_Particle_Using_ParticleZone_GeomObject: true\n") + + # particle generation + inpf.write("Particle_Generation:\n") + inpf.write(" From_File: particle_locations_" + str(pp_tag) + ".csv\n") + inpf.write(" File_Data_Type: loc_rad_orient\n") + + # Mesh info + inpf.write("Mesh:\n") + + for i in range(10): + inpf.write(" Zone_%d:\n" % (i+1)) + inpf.write(" File: %s\n" % (zones_mesh_fnames[i] + "_" + str(pp_tag) + ".msh")) + + # Contact info + inpf.write("Contact:\n") + + ## 11 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "11", Kn_small_small) + + ## 12, 13, 14 --> copy from 11 + copy_contact_zone(inpf, [12, 13, 14], [1, 1]) + + ## 15 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "15", Kn_small_large) + + ## 16, 17, 18 --> copy from 15 + copy_contact_zone(inpf, [16, 17, 18], [1, 5]) + + ## 19 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "19", Kn_small_wall) + + ## 110 = (1, 10) + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "110", Kn_small_wall) + + ## 22, 23, 24 --> copy from 11 + copy_contact_zone(inpf, [22, 23, 24], [1, 1]) + + ## 25, 26, 27, 28 --> copy from 15 + copy_contact_zone(inpf, [25, 26, 27, 28], [1, 5]) + + ## 29 --> copy from 19 + copy_contact_zone(inpf, [29], [1, 9]) + + ## 210 --> copy from 110 + copy_contact_zone(inpf, [210], [1, 10]) + + ## 33, 34 --> copy from 11 + copy_contact_zone(inpf, [33, 34], [1, 1]) + + ## 35, 36, 37, 38 --> copy from 15 + copy_contact_zone(inpf, [35, 36, 37, 38], [1, 5]) + + ## 39 --> copy from 19 + copy_contact_zone(inpf, [39], [1, 9]) + + ## 310 --> copy from 110 + copy_contact_zone(inpf, [310], [1, 10]) + + ## 44 --> copy from 11 + copy_contact_zone(inpf, [44], [1, 1]) + + ## 45, 46, 47, 48 --> copy from 15 + copy_contact_zone(inpf, [45, 46, 47, 48], [1, 5]) + + ## 49 --> copy from 19 + copy_contact_zone(inpf, [49], [1, 9]) + + ## 410 --> copy from 110 + copy_contact_zone(inpf, [410], [1, 10]) + + ## 55 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "55", Kn_large_large) + + ## 56, 57, 58 --> copy from 55 + copy_contact_zone(inpf, [56, 57, 58], [5, 5]) + + ## 59 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "59", Kn_large_wall) + + ## 510 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "510", Kn_large_wall) + + ## 66, 67, 68 --> copy from 55 + copy_contact_zone(inpf, [66, 67, 68], [5, 5]) + + ## 69 --> copy from 59 + copy_contact_zone(inpf, [69], [5, 9]) + + ## 610 --> copy from 510 + copy_contact_zone(inpf, [610], [5, 10]) + + ## 77, 78 --> copy from 55 + copy_contact_zone(inpf, [77, 78], [5, 5]) + + ## 79 --> copy from 59 + copy_contact_zone(inpf, [79], [5, 9]) + + ## 710 --> copy from 510 + copy_contact_zone(inpf, [710], [5, 10]) + + ## 88 --> copy from 55 + copy_contact_zone(inpf, [88], [5, 5]) + + ## 89 --> copy from 59 + copy_contact_zone(inpf, [89], [5, 9]) + + ## 810 --> copy from 510 + copy_contact_zone(inpf, [810], [5, 10]) + + ## 99 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "99", Kn_wall_wall) + + ## 910 --> copy from 99 + copy_contact_zone(inpf, [910], [9, 9]) + + ## 1010 --> copy from 99 + copy_contact_zone(inpf, [1010], [9, 9]) + + # Neighbor info + inpf.write("Neighbor:\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) + + # Material info + inpf.write("Material:\n") + + ## zone 1 + write_material_zone_part(inpf, "1", horizon, rho_small, K_small, G_small, Gc_small) + + ## zone 2 + inpf.write(" Zone_2:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 3 + inpf.write(" Zone_3:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 4 + inpf.write(" Zone_4:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 5 + write_material_zone_part(inpf, "5", horizon, rho_large, K_large, G_large, Gc_large) + + ## zone 6 + inpf.write(" Zone_6:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 7 + inpf.write(" Zone_7:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 8 + inpf.write(" Zone_8:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 9 + write_material_zone_part(inpf, "9", horizon, rho_wall, K_wall, G_wall, Gc_wall) + + ## zone 10 + inpf.write(" Zone_10:\n") + inpf.write(" Copy_Material_Data: 9\n") + + # Force + if gravity_active == True: + inpf.write("Force_BC:\n") + inpf.write(" Gravity: " + print_dbl_list(gravity)) + + # Displacement + inpf.write("Displacement_BC:\n") + inpf.write(" Sets: 2\n") + + inpf.write(" Set_1:\n") + # wall particle id will be num_particles_zones_1_to_8 + inpf.write(" Particle_List: [%d]\n" % (num_particles_zones_1_to_8)) + inpf.write(" Direction: [1,2]\n") + inpf.write(" Zero_Displacement: true\n") + + inpf.write(" Set_2:\n") + # wall particle id will be num_particles_zones_1_to_8 + 1 + inpf.write(" Particle_List: [%d]\n" % (num_particles_zones_1_to_8 + 1)) + inpf.write(" Direction: [2]\n") + inpf.write(" Time_Function:\n") + inpf.write(" Type: linear\n") + inpf.write(" Parameters:\n") + inpf.write(" - %4.6e\n" % (moving_wall_vert_velocity)) + inpf.write(" Spatial_Function:\n") + inpf.write(" Type: constant\n") + + + # + # Output info + # + inpf.write("Output:\n") + inpf.write(" Path: ../out/\n") + inpf.write(" Tags:\n") + inpf.write(" - Displacement\n") + inpf.write(" - Velocity\n") + inpf.write(" - Force\n") + inpf.write(" - Force_Density\n") + inpf.write(" - Damage_Z\n") + inpf.write(" - Damage\n") + inpf.write(" - Nodal_Volume\n") + inpf.write(" - Zone_ID\n") + inpf.write(" - Particle_ID\n") + inpf.write(" - Fixity\n") + inpf.write(" - Force_Fixity\n") + inpf.write(" - Contact_Nodes\n") + inpf.write(" - No_Fail_Node\n") + inpf.write(" - Boundary_Node_Flag\n") + inpf.write(" Output_Interval: %d\n" % (dt_out_n)) + inpf.write(" Compress_Type: zlib\n") + inpf.write(" Perform_FE_Out: false\n") + if perform_out: + inpf.write(" Perform_Out: true\n") + else: + inpf.write(" Perform_Out: false\n") + inpf.write(" Test_Output_Interval: %d\n" % (test_dt_out_n)) + + inpf.write(" Debug: 2\n") + inpf.write(" Tag_PP: %d\n" %(int(pp_tag))) + + # close file + inpf.close() + + +##-------------------------------------------------------## +##-------------------------------------------------------## +inp_dir = './' +pp_tag = 0 +if len(sys.argv) > 1: + pp_tag = int(sys.argv[1]) + +create_input_file(inp_dir, pp_tag) diff --git a/test/test_data/peridem/compression_large_set/run.sh b/test/test_data/peridem/compression_large_set/run.sh new file mode 100755 index 00000000..1044145c --- /dev/null +++ b/test/test_data/peridem/compression_large_set/run.sh @@ -0,0 +1,15 @@ +#!/bin/bash +MY_PWD=$(pwd) + +( +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi + +cd "inp" && python3 -B problem_setup.py + +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads +) 2>&1 | tee output.log + +# check if we have produced 'output_10.vtu' file +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/compression_small_set/inp/problem_setup.py b/test/test_data/peridem/compression_small_set/inp/problem_setup.py new file mode 100644 index 00000000..096ea68f --- /dev/null +++ b/test/test_data/peridem/compression_small_set/inp/problem_setup.py @@ -0,0 +1,1637 @@ +import os +import numpy as np +# import csv +import sys +# import pyvista as pv + +def print_bool(arg, prefix = ""): + + str = prefix + if arg == True: + str += "True\n" + else: + str += "False\n" + return str + +def print_dbl(arg, prefix = ""): + + str = prefix + "%4.6e\n" % (arg) + return str + +def print_int(arg, prefix = ""): + str = prefix + "%d\n" % (arg) + return str + +def print_dbl_list(arg, prefix = ""): + str = prefix + "[" + N = len(arg) + for i in range(N): + str += "%4.6e" % (arg[i]) + if i < N - 1: + str += ", " + else: + str += "]\n" + + return str + +def print_int_list(arg, prefix = ""): + str = prefix + "[" + N = len(arg) + for i in range(N): + str += "%d" % (arg[i]) + if i < N - 1: + str += ", " + else: + str += "]\n" + + return str + +def serialize_matrix_list(p): + s = [] + for q in p: + for w in q: + s.append(w) + + return s + + +def write_point_geo(geof, p_id, x, h): + geof.write("Point(%d) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (p_id, x[0], x[1], x[2], h)) + return p_id + 1 + +def write_line_geo(geof, l_id, p1_id, p2_id): + geof.write("Line(%d) = {%d, %d};\n" % (l_id, p1_id, p2_id)) + return l_id + 1 + +def write_cir_line_geo(geof, l_id, p1_id, p2_id, p3_id): + geof.write("Circle(%d) = {%d, %d, %d};\n" % (l_id, p1_id, p2_id, p3_id)) + return l_id + 1 + +def write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, zone_string, Kn): + inpf.write(" Zone_%s:\n" % (zone_string)) + inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) + + if damping_active == False: + inpf.write(" Damping_On: false\n") + if friction_active == False: + inpf.write(" Friction_On: false\n") + + inpf.write(" Kn: %4.6e\n" % (Kn)) + inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) + inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) + inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) + +def write_material_zone_part(inpf, zone_string, horizon, rho, K, G, Gc): + inpf.write(" Zone_%s:\n" % (zone_string)) + inpf.write(" Type: PDState\n") + inpf.write(" Horizon: %4.6e\n" % (horizon)) + inpf.write(" Density: %4.6e\n" % (rho)) + inpf.write(" Compute_From_Classical: true\n") + inpf.write(" K: %4.6e\n" % (K)) + inpf.write(" G: %4.6e\n" % (G)) + inpf.write(" Gc: %4.6e\n" % (Gc)) + inpf.write(" Influence_Function:\n") + inpf.write(" Type: 1\n") + +def copy_contact_zone(inpf, zone_numbers, zone_copy_from): + for s in zone_numbers: + inpf.write(" Zone_%d:\n" % (s)) + inpf.write(" Copy_Contact_Data: " + print_int_list(zone_copy_from)) + +def get_E(K, nu): + return 3. * K * (1. - 2. * nu) + +def get_G(E, nu): + return E / (2. * (1. + nu)) + + +def get_eff_k(k1, k2): + return 2. * k1 * k2 / (k1 + k2) + + +def get_max(l): + l = np.array(l) + return l.max() + +def get_center(p1, p2): + return [0.5*(p1[i] + p2[i]) for i in range(3)] + +def rotate(p, theta, axis): + + p_np = np.array(p) + axis_np = np.array(axis) + + ct = np.cos(theta); + st = np.sin(theta); + + # dot + p_dot_n = np.dot(p_np,axis_np) + + # cross + n_cross_p = np.cross(axis_np, p_np) + + return (1. - ct) * p_dot_n * axis_np + ct * p_np + st * n_cross_p + +def get_ref_rect_points(center, L, W, add_center = False): + + points = [] + if add_center: + points.append(center) + + points.append([center[0] - 0.5*L, center[1] - 0.5*W, center[2]]) + points.append([center[0] + 0.5*L, center[1] - 0.5*W, center[2]]) + points.append([center[0] + 0.5*L, center[1] + 0.5*W, center[2]]) + points.append([center[0] - 0.5*L, center[1] + 0.5*W, center[2]]) + + return points + +def get_ref_triangle_points(center, radius, add_center = False): + + # triangle + # 2 + # + + # + # + # o + # 1 + # + # +-------------------+ + # 3 4 + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + cp = np.cos(np.pi/6.) + sp = np.sin(np.pi/6.) + + points = [] + if add_center: + points.append([sim_Cx, sim_Cy, sim_Cz]) + points.append([sim_Cx, sim_Cy + sim_radius, sim_Cz]) + points.append([sim_Cx - sim_radius*cp, sim_Cy - sim_radius*sp, sim_Cz]) + points.append([sim_Cx + sim_radius*cp, sim_Cy - sim_radius*sp, sim_Cz]) + + return points + +def get_ref_hex_points(center, radius, add_center = False): + + # drum2d + # + # v3 v2 + # + + + # + # + # + o + + # v4 x v1 + # + # + + + # v5 v6 + # + # Axis is a vector from x to v1 + # + + axis = [1., 0., 0.] + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + rotate_axis = [0., 0., 1.] + + points = [] + if add_center: + points.append(center) + + for i in range(6): + xi = rotate(axis, i*np.pi/3., rotate_axis) + points.append([center[i] + radius * xi[i] for i in range(3)]) + + return points + +def get_ref_drum_points(center, radius, width, add_center = False): + + # drum2d + # + # v3 v2 + # + + + # + # + # + o + + # v4 x v1 + # + # + + + # v5 v6 + # + # Axis is a vector from x to v1 + # + + axis = [1., 0., 0.] + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + rotate_axis = [0., 0., 1.] + + x1 = rotate(axis, np.pi/3., rotate_axis) + x2 = rotate(axis, -np.pi/3., rotate_axis) + + points = [] + if add_center: + points.append(center) + + # v1 + points.append([center[i] + width*0.5*axis[i] for i in range(3)]) + # v2 + points.append([center[i] + radius*x1[i] for i in range(3)]) + # v3 + points.append([center[i] + radius*x1[i] - radius*axis[i] for i in range(3)]) + # v4 + points.append([center[i] - width*0.5*axis[i] for i in range(3)]) + # v5 + v6 = [center[i] + radius*x2[i] for i in range(3)] + points.append([v6[i] - radius*axis[i] for i in range(3)]) + # v6 + points.append(v6) + + return points + +def does_rect_intersect_rect(r1, r2, padding): + + # enlarge rectangle by adding padding + r1_padding = [r1[0] - padding, r1[1] - padding, r1[2], r1[3] + padding, r1[4] + padding, r1[5]] + + return r1_padding[0] < r2[3] and r1_padding[3] > r2[0] and r1_padding[1] < r2[4] and r1_padding[4] > r2[1] + +def does_rect_intersect_rect_use_pair_coord(r1, r2, padding): + + # enlarge rectangle by adding padding + p1_r1_padding = [r1[0][0] - padding, r1[0][1] - padding, r1[0][2]] + p2_r1_padding = [r1[1][0] + padding, r1[1][1] + padding, r1[0][2]] + + p1_r2 = r2[0] + p2_r2 = r2[1] + + return p1_r1_padding[0] < p2_r2[0] and p2_r1_padding[0] > p1_r2[0] and p1_r1_padding[1] < p2_r2[1] and p2_r1_padding[1] > p1_r2[1] + + +def does_particle_intersect_rect(p, r2, padding): + + pr = p[4] + pc = [p[1], p[2], p[3]] + p_rect = [pc[0] - pr, pc[1] - pr, pc[2], pc[1] + pr, pc[2] + pr, pc[2]] + + return does_rect_intersect_rect(p_rect, r2, padding) + +def does_particle_intersect(p, particles, rect, padding): + + # p -> [id, x, y, z, r] + + p_center = [p[i+1] for i in range(3)] + p_r = p[4] + p_rect = [p_center[0] - p_r, p_center[1] - p_r, p_center[2], p_center[0] + p_r, p_center[1] + p_r, p_center[2]] + + if p_rect[0] < rect[0] + padding or p_rect[1] < rect[1] + padding or p_rect[3] > rect[3] - padding or p_rect[4] > rect[4] - padding: + return True + + for q in particles: + pq = np.array([p[i+1] - q[i+1] for i in range(3)]) + if np.linalg.norm(pq) <= p[-1] + q[-1] + padding: + return True + + return False + + +def particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R1, R2, id_choices1, id_choices2, N1, N2, rect, z_coord, add_orient = True): + + np.random.seed(30) + sim_inp_dir = str(inp_dir) + + """Generate particle location data""" + + particles = [] + points = [] + + method_to_use = 1 + + rect_L = rect[3] - rect[0] + rect_W = rect[4] - rect[1] + + if method_to_use == 0: + pcount = 0 + count = 0 + select_count = 0 + while pcount < N2 and count < 100*N2: + if count%N2 == 0: + print('large particle iter = ', count) + + # random radius and center location + r = R2 + np.random.uniform(-0.1 * R2, 0.1 * R2) + x = center[0] + np.random.uniform(-0.5*rect_L + R2 + padding, 0.5*rect_L - R2- padding) + y = np.random.uniform(-0.5*rect_W + R2+padding, max_y - R2-padding) + p_zone = id_choices2[select_count % len(id_choices2)] + p = [p_zone, x, y, center[2], r] + + # check if it collides of existing particles + pintersect = does_particle_intersect(p, particles, rect_L, rect_W, center, padding) + + if pintersect == False: + particles.append(p) + pcount += 1 + select_count += 1 + + count +=1 + + pcount = 0 + count = 0 + select_count = 0 + while pcount < N1 and count < 100*N1: + if count%N1 == 0: + print('small particle iter = ', count) + + # random radius and center location + r = R1 + np.random.uniform(-0.1 * R1, 0.1 * R1) + x = center[0] + np.random.uniform(-0.5*rect_L + R1 + padding, 0.5*rect_L - R1- padding) + y = np.random.uniform(-0.5*rect_W + R1 + padding, max_y - R1 - padding) + # p_zone = np.random.choice(id_choices1, size=1)[0] + # if np.random.uniform(0., 1.) > 0.25: + # p_zone = np.random.choice(id_choices1, size=1)[0] + p_zone = id_choices1[select_count % len(id_choices1)] + p = [p_zone, x,y,center[2], r] + + # check if it collides of existing particles + pintersect = does_particle_intersect(p, particles, rect_L, rect_W, center, padding) + + if pintersect == False: + particles.append(p) + pcount += 1 + select_count += 1 + + count +=1 + + elif method_to_use == 1: + + # find how approximate number of rows and cols we can have + check_r = R1 + if R1 > R2: + check_r = R2 + + rows = int((max_y - rect[1]) / (2. * check_r)) + cols = int(rect_L / (2. * check_r)) + + print(rows, cols, N1, N2) + + rads = [R1, R2] + + counter = 0 + counter1 = 0 + counter2 = 0 + x_old = rect[0] + x_old_right = rect[3] + y_old = rect[1] + + cx = 0. + cy = 0. + cz = center[2] + r = 0. + + + cy_accptd = [] + cy_accptd.append(y_old) + + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + for i in range(rows): + print('row = {}'.format(i), flush=True) + + if i > 0: + y_old = get_max(cy_accptd) + get_max(row_rads) + + #y_old = i*(2*get_max([R1, R2])) + rect[1] + + # print(i, cy, y_old) + + # reset + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + if y_old + padding + get_max(row_rads) < max_y: + num_p_cols = 0 + j = 0 + while True: + if num_p_cols > cols - 1 or j > 100*(N1 + N2): + break + + if counter1 >= N1 and counter2 >= N2: + break + + if j == 0: + # for odd row, take x_old as first and for even take as last + x_old = rect[0] + x_old_right = rect[3] + + # type of particle (type 1 or 2, e.g., small or large) + p_type = np.random.choice([0,1], size=1)[0] + if counter1 >= N1: + p_type = 1 + if counter2 >= N2 : + p_type = 0 + + r0 = rads[p_type] + + # zone this particle belongs to + p_zone = 0 + if p_type == 0: + # p_zone = np.random.choice(id_choices1, size=1)[0] + p_zone = id_choices1[counter1 % len(id_choices1)] + else: + # p_zone = np.random.choice(id_choices2, size=1)[0] + p_zone = id_choices2[counter2 % len(id_choices2)] + + # perturb radius + r = r0 + np.random.uniform(-0.1 * r0, 0.1 * r0) + + # for even row, we start from right edge of rectange + if i%2 == 0: + # random horizontal/vertical perturbation + rph = np.random.uniform(-0.1 * r0, 0.05 * r0) + rpv = np.random.uniform(-0.05 * r0, 0.05 * r0) + cx0 = x_old_right - padding - r + cx = cx0 - rph + cy = y_old + padding + r + rpv + else: + # random horizontal/vertical perturbation + rph = np.random.uniform(-0.05 * r0, 0.1 * r0) + rpv = np.random.uniform(-0.05 * r0, 0.05 * r0) + cx0 = x_old + padding + r + cx = cx0 + rph + cy = y_old + padding + r + rpv + + # particle + p = [p_zone, cx, cy, cz, r] + + # check for intersection + # if i < 3: + # print(p, particles, rect_L, rect_W, center, padding) + pintersect = does_particle_intersect(p, particles, rect, padding) + + if pintersect == False: + print(i, p, flush=True) + particles.append(p) + row_rads.append(p[4]) + cy_accptd.append(cy) + # set x_old + if i % 2 == 0: + x_old_right = cx - p[4] + else: + x_old = cx + p[4] + + if p_type == 0: + counter1 += 1 + elif p_type == 1: + counter2 += 1 + + counter += 1 + + num_p_cols += 1 + + j += 1 + + inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') + if add_orient: + inpf.write("i, x, y, z, r, o\n") + counter = 0 + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4], np.random.uniform(0., 2.*np.pi))) + counter += 1 + else: + inpf.write("i, x, y, z, r\n") + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4])) + + + inpf.close() + + # to visualize in paraview + write_vtu = False + if write_vtu: + points = [] + rads = [] + zones = [] + for p in particles: + points.append([p[1], p[2], p[3]]) + rads.append(p[-1]) + zones.append(int(p[0])) + + points = np.array(points) + rads = np.array(rads) + zones = np.array(zones) + mesh = pv.PolyData(points) + mesh["radius"] = rads + mesh["zone"] = zones + pv.save_meshio(sim_inp_dir + 'particle_locations_' + str(pp_tag) + '.vtu', mesh) + + print('number of particles created = {}'.format(len(particles)), flush=True) + + return len(particles), particles + +def particle_locations_old(inp_dir, pp_tag, center, padding, max_y, mesh_size, R1, R2, id_choices1, id_choices2, N1, N2, rect, z_coord, add_orient = True): + + """Generate particle location data""" + + + def does_intersect_old(p, r, R, particles, padding): + + for q in particles: + + pq = np.array([p[i] - q[i] for i in range(3)]) + if np.linalg.norm(pq) <= r + R + padding: + return True + + return False + + + def does_intersect_rect_old(p, r, particles, padding, rect): + + # check intersection with rectangle + pr = [p[0] - r, p[1] - r, p[2], p[0] + r, p[1] + r, p[2]] + + if pr[0] < rect[0] + padding or pr[1] < rect[1] + padding or pr[3] > rect[3] - padding or pr[4] > rect[4] - padding: + + # print('circle (xc = {}, r = {:5.3e}) intersects rect = {} with pad = {:5.3e}'.format(p, r, rect, padding)) + + return True + + # loop over particles + # for pi in particles: + # dx = [p[0] - pi[1], p[1] - pi[2], p[2] - pi[3]] + # rR = r + pi[4] + padding + # if np.linalg.norm(dx) < rR: + # return True + + # print('circle (xc = {}, r = {:5.3e}) does not intersects rect = {} with pad = {:5.3e}'.format(p, r, rect, padding)) + return False + + # + # + # Given rectangle, we want to fill it with particles of R1 and R2 radius + # in alternate fashion with padding between each particle + # + # + particles = [] + points = [] + + # find how approximate number of rows and cols we can have + check_r = R1 + if R1 > R2: + check_r = R2 + + rows = int((rect[3] - rect[0])/ check_r) + cols = int((rect[4] - rect[1])/ check_r) + + rads = [R1, R2] + + counter = 0 + x_old = rect[0] + x_old_right = rect[3] + y_old = rect[1] + pad = padding + + cx = 0. + cy = 0. + cz = 0. + r = 0. + + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + for i in range(rows): + + if i > 0: + y_old = cy + get_max(row_rads) + + # reset + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + num_p_cols = 0 + j = 0 + while num_p_cols < cols - 1 and j < 500: + + if j == 0: + # for odd row, take x_old as first and for even take as last + x_old = rect[0] + x_old_right = rect[3] + + # type of particle (type 1 or 2, e.g., small or large) + p_type = counter % 2 + + r0 = rads[p_type] + + # zone this particle belongs to + p_zone = 0 + if p_type == 0: + p_zone = np.random.choice(id_choices1, size=1)[0] + else: + p_zone = np.random.choice(id_choices2, size=1)[0] + + # perturb radius + r = r0 + np.random.uniform(-0.1 * r0, 0.1 * r0) + # r = r0 + row_rads.append(r) + + # random horizontal perturbation by 10% of radius + rph = np.random.uniform(-0.1 * r0, 0.1 * r0) + + cx0 = x_old + pad + r + cx = cx0 + rph + # for even row, we start from right edge of rectange + if i%2 == 0: + cx0 = x_old_right - pad - r + cx = cx0 - rph + + cy = y_old + pad + r + cz = rect[2] + + inters = does_intersect_rect_old([cx, cy, cz], r, particles, pad, rect) + inters_parts = does_intersect_old + + if inters == False: + particles.append([float(p_zone), cx, cy, cz, r]) + + # set x_old + if i % 2 == 0: + x_old_right = cx - r + else: + x_old = cx + r + + counter += 1 + + num_p_cols += 1 + + j += 1 + + + inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') + if add_orient: + inpf.write("i, x, y, z, r, o\n") + counter = 0 + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4], np.random.uniform(0., 2.*np.pi))) + counter += 1 + else: + inpf.write("i, x, y, z, r\n") + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4])) + + + inpf.close() + + # to visualize in paraview + write_vtu = False + if write_vtu: + points = [] + rads = [] + zones = [] + for p in particles: + points.append([p[1], p[2], p[3]]) + rads.append(p[-1]) + zones.append(int(p[0])) + + points = np.array(points) + rads = np.array(rads) + zones = np.array(zones) + mesh = pv.PolyData(points) + mesh["radius"] = rads + mesh["zone"] = zones + pv.save_meshio(sim_inp_dir + 'particle_locations_' + str(pp_tag) + '.vtu', mesh) + + print('number of particles created = {}'.format(len(particles))) + + return len(particles), particles + + +def generate_cir_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + # mesh size + sim_h = mesh_size + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy, sim_Cz, sim_h)); + geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx + sim_radius, sim_Cy, sim_Cz, sim_h)) + geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx - sim_radius, sim_Cy, sim_Cz, sim_h)) + geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy + sim_radius, sim_Cz, sim_h)) + geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy - sim_radius, sim_Cz, sim_h)) + + # + # circlular arc + # + geof.write("Circle(1) = {2, 1, 4};\n") + geof.write("Circle(2) = {4, 1, 3};\n") + geof.write("Circle(3) = {3, 1, 5};\n") + geof.write("Circle(4) = {5, 1, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {2, 3, 4, 1};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_hex_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + points = get_ref_hex_points(center, radius, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(7): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 5};\n") + geof.write("Line(4) = {5, 6};\n") + geof.write("Line(5) = {6, 7};\n") + geof.write("Line(6) = {7, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_tri_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # points + points = get_ref_triangle_points(center, radius, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(4): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_drum2d_particle_gmsh_input(inp_dir, filename, center, radius, width, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # points + points = get_ref_drum_points(center, radius, width, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(7): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 5};\n") + geof.write("Line(4) = {5, 6};\n") + geof.write("Line(5) = {6, 7};\n") + geof.write("Line(6) = {7, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + +def generate_rect_container_gmsh_input(inp_dir, filename, pi1, pi2, dx, dy, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + innr_pts = get_ref_rect_points(get_center(pi1, pi2), pi2[0] - pi1[0], pi2[1] - pi1[1]) + + outr_pts = get_ref_rect_points(get_center(pi1, pi2), pi2[0] - pi1[0] + 2*dx, pi2[1] - pi1[1] + 2*dy) + + h = mesh_size + hout = h # 5*h + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # points + p_id = 1 + for i in range(4): + p_id = write_point_geo(geof, p_id, outr_pts[i], h) + + for i in range(4): + p_id = write_point_geo(geof, p_id, innr_pts[i], h) + + # line + l_id = 1 + l_id = write_line_geo(geof, l_id, 1, 2) + l_id = write_line_geo(geof, l_id, 2, 3) + l_id = write_line_geo(geof, l_id, 3, 4) + l_id = write_line_geo(geof, l_id, 4, 1) + + l_id = write_line_geo(geof, l_id, 5, 6) + l_id = write_line_geo(geof, l_id, 6, 7) + l_id = write_line_geo(geof, l_id, 7, 8) + l_id = write_line_geo(geof, l_id, 8, 5) + + # line loop to define surface + geof.write("Line Loop(9) = {1, 2, 3, 4};\n") + geof.write("Line Loop(10) = {5, 6, 7, 8};\n") + + # define surface + geof.write("Plane Surface(11) = {9, 10};\n") + + # close file + geof.close() + +def generate_rigid_rect_container_moving_wall_setup_gmsh_input(inp_dir, filename, outer_rect, inner_rect, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # outer rectangle + sim_Lx_out1 = outer_rect[0] + sim_Ly_out1 = outer_rect[1] + sim_Lz_out1 = outer_rect[2] + sim_Lx_out2 = outer_rect[3] + sim_Ly_out2 = outer_rect[4] + sim_Lz_out2 = outer_rect[5] + + # inner rectangle + sim_Lx_in1 = inner_rect[0] + sim_Ly_in1 = inner_rect[1] + sim_Lz_in1 = inner_rect[2] + sim_Lx_in2 = inner_rect[3] + sim_Ly_in2 = inner_rect[4] + sim_Lz_in2 = inner_rect[5] + + # mesh size + sim_h = mesh_size + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # L7 L3 + # 4 + --- + 8 7 + --- + 3 + # | | | | + # | | | | + # | | L6 L4 | | + # L8 | | | | + # | | | | L2 + # | | L5 | | + # | + ------------------- + | + # | 5 6 | + # | | + # 1 + ------------------------------- + 2 + # L1 + # + # + # for point 8 and 7 --> choose y coordinate from outer rectangle and x + # coordinate from inner rectangle + + # + # points + # + geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)) + geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) + geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) + geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) + + geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_in1, sim_Lz_in1, sim_h)) + geof.write("Point(6) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_in1, sim_Lz_in1, sim_h)) + geof.write("Point(7) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_out2, sim_Lz_in1, sim_h)) + geof.write("Point(8) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_out2, sim_Lz_in1, sim_h)) + + # + # lines + # + geof.write("Line(1) = {1, 2};\n") + geof.write("Line(2) = {2, 3};\n") + geof.write("Line(3) = {3, 7};\n") + geof.write("Line(4) = {7, 6};\n") + geof.write("Line(5) = {6, 5};\n") + geof.write("Line(6) = {5, 8};\n") + geof.write("Line(7) = {8, 4};\n") + geof.write("Line(8) = {4, 1};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6, 7, 8};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + tag = '"' + "a" + '"' + geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # close file + geof.close() + + +def generate_moving_rect_wall_gmsh_input(inp_dir, filename, rectangle, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # outer rectangle + sim_Lx_out1 = rectangle[0] + sim_Ly_out1 = rectangle[1] + sim_Lz_out1 = rectangle[2] + sim_Lx_out2 = rectangle[3] + sim_Ly_out2 = rectangle[4] + sim_Lz_out2 = rectangle[5] + + # mesh size + sim_h = mesh_size + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)); + geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) + geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) + geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) + + # + # lines + # + geof.write("Line(1) = {1, 2};\n") + geof.write("Line(2) = {2, 3};\n") + geof.write("Line(3) = {3, 4};\n") + geof.write("Line(4) = {4, 1};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + tag = '"' + "a" + '"' + geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # close file + geof.close() + +def create_input_file(inp_dir, pp_tag): + """Generates input file for two-particle test""" + + sim_inp_dir = str(inp_dir) + + # 1 - small particle circle + # 2 - small particle triangle + # 3 - small particle drum2d + # 4 - small particle hex + # 5 - large particle circle + # 6 - large particle triangle + # 7 - large particle drum2d + # 8 - large particle hex + # 9 - rectangle wall rigid + # 10 - top of wall that is moving + + ## geometry + center = [0., 0., 0.] + R_small = 0.001 + R_large = 0.001 + + mesh_size = R_small / 5. + horizon = 2 * mesh_size + + ## internal rectangle + Lin, Win = 0.012, 0.008 + L, W = Lin + 1.5*horizon, Win + 1.5*horizon + + in_rect = [center[0] - 0.5*Lin, center[1] - 0.5*Win, center[2], center[0] + 0.5*Lin, center[1] + 0.5*Win, center[2]] + out_rect = [center[0] - 0.5*L, center[1] - 0.5*W, center[2], center[0] + 0.5*L, center[1] + 0.5*W, center[2]] + + # moving wall + moving_wall_y = 0.5*Win - 1.5*horizon + moving_rect = [center[0] - 0.5*Lin, center[1] + moving_wall_y, center[2], center[0] + 0.5*Lin, center[1] + moving_wall_y + 1.5*horizon, center[2]] + + # fixed container is annulus rectangle with top being removed + # so we can represent it as outer rectangle minus rectangle that includes inner part and the top part + remove_rect_from_out_rect = [in_rect[0], in_rect[1], in_rect[2], in_rect[3], out_rect[4], in_rect[5]] + if moving_rect[4] > out_rect[4]: + remove_rect_from_out_rect[4] = out_rect[4] + + fixed_container_params = [] + for a in out_rect: + fixed_container_params.append(a) + for a in remove_rect_from_out_rect: + fixed_container_params.append(a) + + # container rectangle + contain_rect = out_rect + + # small circle + small_circle = [R_small, center[0], center[1], center[2]] + # small triangle + small_triangle = small_circle + # small drum2d + w_small_drum2d = R_small * 0.2 + small_drum2d = [R_small, w_small_drum2d, center[0], center[1], center[2]] + # small hex + small_hex = small_circle + + # large circle + large_circle = [R_large, center[0], center[1], center[2]] + # large triangle + large_triangle = large_circle + # large drum2d + w_large_drum2d = R_large* 0.2 + large_drum2d = [R_large, w_large_drum2d, center[0], center[1], center[2]] + # large hex + large_hex = large_circle + + + ## time + final_time = 0.05 + num_steps = 20000 + # final_time = 0.00002 + # num_steps = 2000 + num_outputs = 10 + dt_out_n = num_steps / num_outputs + test_dt_out_n = dt_out_n / 10 + perform_out = True + + ## material + rho_wall = 600. + poisson_wall = 0.25 + K_wall = 1.e+4 + E_wall = get_E(K_wall, poisson_wall) + G_wall = get_G(E_wall, poisson_wall) + Gc_wall = 100. + + rho_small = 600. + poisson_small = poisson_wall + K_small = 5.e+3 + E_small = get_E(K_small, poisson_small) + G_small = get_G(E_small, poisson_small) + Gc_small = 100. + + rho_large = rho_small + poisson_large = poisson_small + K_large = K_small + E_large = E_small + G_large = G_small + Gc_large = Gc_small + + ## contact + # R_contact = 0.95 * mesh_size + # R_contact = 1.74e-04 + R_contact_factor = 0.95 + + # Kn_V_max = 7.385158e+05 + # Kn = np.power(Kn_V_max, 2) + # compute from bulk modulus + + # from bulk modulus + Kn_small_small = 18. * get_eff_k(K_small, K_small) / (np.pi * np.power(horizon, 5)) + Kn_large_large = 18. * get_eff_k(K_large, K_large) / (np.pi * np.power(horizon, 5)) + Kn_wall_wall = 18. * get_eff_k(K_wall, K_wall) / (np.pi * np.power(horizon, 5)) + Kn_small_large = 18. * get_eff_k(K_small, K_large) / (np.pi * np.power(horizon, 5)) + Kn_small_wall = 18. * get_eff_k(K_small, K_wall) / (np.pi * np.power(horizon, 5)) + Kn_large_wall = 18. * get_eff_k(K_large, K_wall) / (np.pi * np.power(horizon, 5)) + + # we do not want walls to interact + Kn_wall_wall = 0. + + beta_n_eps = 0.95 + friction_coeff = 0.5 + damping_active = False + damping_active_floor = True + friction_active = False + beta_n_factor = 100. + Kn_factor = 1. + + ## gravity + gravity_active = True + gravity = [0., -10., 0.] + + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 100 + neigh_search_criteria = "simple_all" + + ## moving wall downward velocity + moving_wall_vert_velocity = -0.06 + + ### ---------------------------------------------------------------- ### + # generate mesh and particle location data + ### ---------------------------------------------------------------- ### + + # generate particle locations + padding = 1.1 * R_contact_factor * mesh_size + max_y = moving_wall_y - 3*mesh_size + # number of particles of small and large sizes + N1, N2 = 10, 8 + id_choices1 = [0, 1, 2, 3] + id_choices2 = [4, 5, 6, 7] + num_particles_zones_1_to_8, particles_zones_1_to_8 = particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R_small, R_large, id_choices1, id_choices2, N1, N2, in_rect, z_coord = 0., add_orient = True) + + # generate particle .geo file (large) + zones_mesh_fnames = ["mesh_cir_small", "mesh_tri_small", "mesh_drum2d_small", "mesh_hex_small", "mesh_cir_large", "mesh_tri_large", "mesh_drum2d_large", "mesh_hex_large", "mesh_fixed_container", "mesh_moving_container"] + + ## circle + generate_cir_particle_gmsh_input(inp_dir, zones_mesh_fnames[0], center, R_small, mesh_size, pp_tag) + generate_cir_particle_gmsh_input(inp_dir, zones_mesh_fnames[4], center, R_large, mesh_size, pp_tag) + + ## triangle + generate_tri_particle_gmsh_input(inp_dir, zones_mesh_fnames[1], center, R_small, mesh_size, pp_tag) + generate_tri_particle_gmsh_input(inp_dir, zones_mesh_fnames[5], center, R_large, mesh_size, pp_tag) + + ## drum2d + generate_drum2d_particle_gmsh_input(inp_dir, zones_mesh_fnames[2], center, R_small, 2.*w_small_drum2d, mesh_size, pp_tag) + generate_drum2d_particle_gmsh_input(inp_dir, zones_mesh_fnames[6], center, R_large, 2.*w_large_drum2d, mesh_size, pp_tag) + + ## hex + generate_hex_particle_gmsh_input(inp_dir, zones_mesh_fnames[3], center, R_small, mesh_size, pp_tag) + generate_hex_particle_gmsh_input(inp_dir, zones_mesh_fnames[7], center, R_large, mesh_size, pp_tag) + + ## wall + generate_rigid_rect_container_moving_wall_setup_gmsh_input(inp_dir, zones_mesh_fnames[8], out_rect, in_rect, mesh_size, pp_tag) + + generate_moving_rect_wall_gmsh_input(inp_dir, zones_mesh_fnames[9], moving_rect, mesh_size, pp_tag) + + os.system("mkdir -p ../out") + + for s in zones_mesh_fnames: + print('\n') + print(s) + print("gmsh {}_{}.geo -2 &> /dev/null".format(s, pp_tag)) + print('\n') + + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 &> /dev/null".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk &> /dev/null".format(s, pp_tag, s, pp_tag)) + + + ### ---------------------------------------------------------------- ### + # generate YAML file + ### ---------------------------------------------------------------- ### + # print('\nGenerating imput file\n') + inpf = open(sim_inp_dir + 'input_' + str(pp_tag) + '.yaml','w') + inpf.write("Model:\n") + inpf.write(" Dimension: 2\n") + inpf.write(" Discretization_Type:\n") + inpf.write(" Spatial: finite_difference\n") + inpf.write(" Time: central_difference\n") + inpf.write(" Final_Time: %4.6e\n" % (final_time)) + inpf.write(" Time_Steps: %d\n" % (num_steps)) + + # container info + inpf.write("Container:\n") + inpf.write(" Geometry:\n") + inpf.write(" Type: rectangle\n") + inpf.write(" Parameters: " + print_dbl_list(contain_rect)) + + # zone info + inpf.write("Zone:\n") + inpf.write(" Zones: 10\n") + + for i in range(10): + inpf.write(" Zone_%d:\n" % (i+1)) + if i > 7: + inpf.write(" Is_Wall: true\n") + else: + inpf.write(" Is_Wall: false\n") + + # particle info + inpf.write("Particle:\n") + inpf.write(" Test_Name: multi_particle_compressive_test\n") + + particle_data = [['circle', small_circle], ['triangle', small_triangle], ['drum2d', small_drum2d], ['hexagon', small_hex], ['circle', large_circle], ['triangle', large_triangle], ['drum2d', large_drum2d], ['hexagon', large_hex]] + for i in range(len(particle_data)): + inpf.write(" Zone_%d:\n" % (i+1)) + inpf.write(" Type: %s\n" % (particle_data[i][0])) + inpf.write(" Parameters: " + print_dbl_list((particle_data[i][1]))) + + ## zone 9 (fixed container) + inpf.write(" Zone_9:\n") + inpf.write(" Is_Wall: true\n") + inpf.write(" Type: rectangle_minus_rectangle\n") + inpf.write(" Parameters: " + print_dbl_list(fixed_container_params)) + inpf.write(" All_Dofs_Constrained: true\n") + inpf.write(" Create_Particle_Using_ParticleZone_GeomObject: true\n") + + ## zone 10 (moving wall) + inpf.write(" Zone_10:\n") + inpf.write(" Is_Wall: true\n") + inpf.write(" Type: rectangle\n") + inpf.write(" Parameters: " + print_dbl_list(moving_rect)) + inpf.write(" All_Dofs_Constrained: true\n") + inpf.write(" Create_Particle_Using_ParticleZone_GeomObject: true\n") + + # particle generation + inpf.write("Particle_Generation:\n") + inpf.write(" From_File: particle_locations_" + str(pp_tag) + ".csv\n") + inpf.write(" File_Data_Type: loc_rad_orient\n") + + # Mesh info + inpf.write("Mesh:\n") + + for i in range(10): + inpf.write(" Zone_%d:\n" % (i+1)) + inpf.write(" File: %s\n" % (zones_mesh_fnames[i] + "_" + str(pp_tag) + ".msh")) + + # Contact info + inpf.write("Contact:\n") + + ## 11 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "11", Kn_small_small) + + ## 12, 13, 14 --> copy from 11 + copy_contact_zone(inpf, [12, 13, 14], [1, 1]) + + ## 15 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "15", Kn_small_large) + + ## 16, 17, 18 --> copy from 15 + copy_contact_zone(inpf, [16, 17, 18], [1, 5]) + + ## 19 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "19", Kn_small_wall) + + ## 110 = (1, 10) + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "110", Kn_small_wall) + + ## 22, 23, 24 --> copy from 11 + copy_contact_zone(inpf, [22, 23, 24], [1, 1]) + + ## 25, 26, 27, 28 --> copy from 15 + copy_contact_zone(inpf, [25, 26, 27, 28], [1, 5]) + + ## 29 --> copy from 19 + copy_contact_zone(inpf, [29], [1, 9]) + + ## 210 --> copy from 110 + copy_contact_zone(inpf, [210], [1, 10]) + + ## 33, 34 --> copy from 11 + copy_contact_zone(inpf, [33, 34], [1, 1]) + + ## 35, 36, 37, 38 --> copy from 15 + copy_contact_zone(inpf, [35, 36, 37, 38], [1, 5]) + + ## 39 --> copy from 19 + copy_contact_zone(inpf, [39], [1, 9]) + + ## 310 --> copy from 110 + copy_contact_zone(inpf, [310], [1, 10]) + + ## 44 --> copy from 11 + copy_contact_zone(inpf, [44], [1, 1]) + + ## 45, 46, 47, 48 --> copy from 15 + copy_contact_zone(inpf, [45, 46, 47, 48], [1, 5]) + + ## 49 --> copy from 19 + copy_contact_zone(inpf, [49], [1, 9]) + + ## 410 --> copy from 110 + copy_contact_zone(inpf, [410], [1, 10]) + + ## 55 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "55", Kn_large_large) + + ## 56, 57, 58 --> copy from 55 + copy_contact_zone(inpf, [56, 57, 58], [5, 5]) + + ## 59 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "59", Kn_large_wall) + + ## 510 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "510", Kn_large_wall) + + ## 66, 67, 68 --> copy from 55 + copy_contact_zone(inpf, [66, 67, 68], [5, 5]) + + ## 69 --> copy from 59 + copy_contact_zone(inpf, [69], [5, 9]) + + ## 610 --> copy from 510 + copy_contact_zone(inpf, [610], [5, 10]) + + ## 77, 78 --> copy from 55 + copy_contact_zone(inpf, [77, 78], [5, 5]) + + ## 79 --> copy from 59 + copy_contact_zone(inpf, [79], [5, 9]) + + ## 710 --> copy from 510 + copy_contact_zone(inpf, [710], [5, 10]) + + ## 88 --> copy from 55 + copy_contact_zone(inpf, [88], [5, 5]) + + ## 89 --> copy from 59 + copy_contact_zone(inpf, [89], [5, 9]) + + ## 810 --> copy from 510 + copy_contact_zone(inpf, [810], [5, 10]) + + ## 99 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "99", Kn_wall_wall) + + ## 910 --> copy from 99 + copy_contact_zone(inpf, [910], [9, 9]) + + ## 1010 --> copy from 99 + copy_contact_zone(inpf, [1010], [9, 9]) + + # Neighbor info + inpf.write("Neighbor:\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) + + # Material info + inpf.write("Material:\n") + + ## zone 1 + write_material_zone_part(inpf, "1", horizon, rho_small, K_small, G_small, Gc_small) + + ## zone 2 + inpf.write(" Zone_2:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 3 + inpf.write(" Zone_3:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 4 + inpf.write(" Zone_4:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 5 + write_material_zone_part(inpf, "5", horizon, rho_large, K_large, G_large, Gc_large) + + ## zone 6 + inpf.write(" Zone_6:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 7 + inpf.write(" Zone_7:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 8 + inpf.write(" Zone_8:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 9 + write_material_zone_part(inpf, "9", horizon, rho_wall, K_wall, G_wall, Gc_wall) + + ## zone 10 + inpf.write(" Zone_10:\n") + inpf.write(" Copy_Material_Data: 9\n") + + # Force + if gravity_active == True: + inpf.write("Force_BC:\n") + inpf.write(" Gravity: " + print_dbl_list(gravity)) + + # Displacement + inpf.write("Displacement_BC:\n") + inpf.write(" Sets: 2\n") + + inpf.write(" Set_1:\n") + # wall particle id will be num_particles_zones_1_to_8 + inpf.write(" Particle_List: [%d]\n" % (num_particles_zones_1_to_8)) + inpf.write(" Direction: [1,2]\n") + inpf.write(" Zero_Displacement: true\n") + + inpf.write(" Set_2:\n") + # wall particle id will be num_particles_zones_1_to_8 + 1 + inpf.write(" Particle_List: [%d]\n" % (num_particles_zones_1_to_8 + 1)) + inpf.write(" Direction: [2]\n") + inpf.write(" Time_Function:\n") + inpf.write(" Type: linear\n") + inpf.write(" Parameters:\n") + inpf.write(" - %4.6e\n" % (moving_wall_vert_velocity)) + inpf.write(" Spatial_Function:\n") + inpf.write(" Type: constant\n") + + + # + # Output info + # + inpf.write("Output:\n") + inpf.write(" Path: ../out/\n") + inpf.write(" Tags:\n") + inpf.write(" - Displacement\n") + inpf.write(" - Velocity\n") + inpf.write(" - Force\n") + inpf.write(" - Force_Density\n") + inpf.write(" - Damage_Z\n") + inpf.write(" - Damage\n") + inpf.write(" - Nodal_Volume\n") + inpf.write(" - Zone_ID\n") + inpf.write(" - Particle_ID\n") + inpf.write(" - Fixity\n") + inpf.write(" - Force_Fixity\n") + inpf.write(" - Contact_Nodes\n") + inpf.write(" - No_Fail_Node\n") + inpf.write(" - Boundary_Node_Flag\n") + inpf.write(" Output_Interval: %d\n" % (dt_out_n)) + inpf.write(" Compress_Type: zlib\n") + inpf.write(" Perform_FE_Out: false\n") + if perform_out: + inpf.write(" Perform_Out: true\n") + else: + inpf.write(" Perform_Out: false\n") + inpf.write(" Test_Output_Interval: %d\n" % (test_dt_out_n)) + + inpf.write(" Debug: 3\n") + inpf.write(" Tag_PP: %d\n" %(int(pp_tag))) + + # close file + inpf.close() + + +##-------------------------------------------------------## +##-------------------------------------------------------## +inp_dir = './' +pp_tag = 0 +if len(sys.argv) > 1: + pp_tag = int(sys.argv[1]) + +create_input_file(inp_dir, pp_tag) diff --git a/test/test_data/peridem/compression_small_set/run.sh b/test/test_data/peridem/compression_small_set/run.sh new file mode 100755 index 00000000..1044145c --- /dev/null +++ b/test/test_data/peridem/compression_small_set/run.sh @@ -0,0 +1,15 @@ +#!/bin/bash +MY_PWD=$(pwd) + +( +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi + +cd "inp" && python3 -B problem_setup.py + +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads +) 2>&1 | tee output.log + +# check if we have produced 'output_10.vtu' file +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/compression_small_set_restart/inp/problem_setup.py b/test/test_data/peridem/compression_small_set_restart/inp/problem_setup.py new file mode 100644 index 00000000..76e76d02 --- /dev/null +++ b/test/test_data/peridem/compression_small_set_restart/inp/problem_setup.py @@ -0,0 +1,1635 @@ +import os +import numpy as np +# import csv +import sys +# import pyvista as pv + +def print_bool(arg, prefix = ""): + + str = prefix + if arg == True: + str += "True\n" + else: + str += "False\n" + return str + +def print_dbl(arg, prefix = ""): + + str = prefix + "%4.6e\n" % (arg) + return str + +def print_int(arg, prefix = ""): + str = prefix + "%d\n" % (arg) + return str + +def print_dbl_list(arg, prefix = ""): + str = prefix + "[" + N = len(arg) + for i in range(N): + str += "%4.6e" % (arg[i]) + if i < N - 1: + str += ", " + else: + str += "]\n" + + return str + +def print_int_list(arg, prefix = ""): + str = prefix + "[" + N = len(arg) + for i in range(N): + str += "%d" % (arg[i]) + if i < N - 1: + str += ", " + else: + str += "]\n" + + return str + +def serialize_matrix_list(p): + s = [] + for q in p: + for w in q: + s.append(w) + + return s + + +def write_point_geo(geof, p_id, x, h): + geof.write("Point(%d) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (p_id, x[0], x[1], x[2], h)) + return p_id + 1 + +def write_line_geo(geof, l_id, p1_id, p2_id): + geof.write("Line(%d) = {%d, %d};\n" % (l_id, p1_id, p2_id)) + return l_id + 1 + +def write_cir_line_geo(geof, l_id, p1_id, p2_id, p3_id): + geof.write("Circle(%d) = {%d, %d, %d};\n" % (l_id, p1_id, p2_id, p3_id)) + return l_id + 1 + +def write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, zone_string, Kn): + inpf.write(" Zone_%s:\n" % (zone_string)) + inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) + + if damping_active == False: + inpf.write(" Damping_On: false\n") + if friction_active == False: + inpf.write(" Friction_On: false\n") + + inpf.write(" Kn: %4.6e\n" % (Kn)) + inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) + inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) + inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) + +def write_material_zone_part(inpf, zone_string, horizon, rho, K, G, Gc): + inpf.write(" Zone_%s:\n" % (zone_string)) + inpf.write(" Type: PDState\n") + inpf.write(" Horizon: %4.6e\n" % (horizon)) + inpf.write(" Density: %4.6e\n" % (rho)) + inpf.write(" Compute_From_Classical: true\n") + inpf.write(" K: %4.6e\n" % (K)) + inpf.write(" G: %4.6e\n" % (G)) + inpf.write(" Gc: %4.6e\n" % (Gc)) + inpf.write(" Influence_Function:\n") + inpf.write(" Type: 1\n") + +def copy_contact_zone(inpf, zone_numbers, zone_copy_from): + for s in zone_numbers: + inpf.write(" Zone_%d:\n" % (s)) + inpf.write(" Copy_Contact_Data: " + print_int_list(zone_copy_from)) + +def get_E(K, nu): + return 3. * K * (1. - 2. * nu) + +def get_G(E, nu): + return E / (2. * (1. + nu)) + + +def get_eff_k(k1, k2): + return 2. * k1 * k2 / (k1 + k2) + + +def get_max(l): + l = np.array(l) + return l.max() + +def get_center(p1, p2): + return [0.5*(p1[i] + p2[i]) for i in range(3)] + +def rotate(p, theta, axis): + + p_np = np.array(p) + axis_np = np.array(axis) + + ct = np.cos(theta); + st = np.sin(theta); + + # dot + p_dot_n = np.dot(p_np,axis_np) + + # cross + n_cross_p = np.cross(axis_np, p_np) + + return (1. - ct) * p_dot_n * axis_np + ct * p_np + st * n_cross_p + +def get_ref_rect_points(center, L, W, add_center = False): + + points = [] + if add_center: + points.append(center) + + points.append([center[0] - 0.5*L, center[1] - 0.5*W, center[2]]) + points.append([center[0] + 0.5*L, center[1] - 0.5*W, center[2]]) + points.append([center[0] + 0.5*L, center[1] + 0.5*W, center[2]]) + points.append([center[0] - 0.5*L, center[1] + 0.5*W, center[2]]) + + return points + +def get_ref_triangle_points(center, radius, add_center = False): + + # triangle + # 2 + # + + # + # + # o + # 1 + # + # +-------------------+ + # 3 4 + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + cp = np.cos(np.pi/6.) + sp = np.sin(np.pi/6.) + + points = [] + if add_center: + points.append([sim_Cx, sim_Cy, sim_Cz]) + points.append([sim_Cx, sim_Cy + sim_radius, sim_Cz]) + points.append([sim_Cx - sim_radius*cp, sim_Cy - sim_radius*sp, sim_Cz]) + points.append([sim_Cx + sim_radius*cp, sim_Cy - sim_radius*sp, sim_Cz]) + + return points + +def get_ref_hex_points(center, radius, add_center = False): + + # drum2d + # + # v3 v2 + # + + + # + # + # + o + + # v4 x v1 + # + # + + + # v5 v6 + # + # Axis is a vector from x to v1 + # + + axis = [1., 0., 0.] + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + rotate_axis = [0., 0., 1.] + + points = [] + if add_center: + points.append(center) + + for i in range(6): + xi = rotate(axis, i*np.pi/3., rotate_axis) + points.append([center[i] + radius * xi[i] for i in range(3)]) + + return points + +def get_ref_drum_points(center, radius, width, add_center = False): + + # drum2d + # + # v3 v2 + # + + + # + # + # + o + + # v4 x v1 + # + # + + + # v5 v6 + # + # Axis is a vector from x to v1 + # + + axis = [1., 0., 0.] + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + rotate_axis = [0., 0., 1.] + + x1 = rotate(axis, np.pi/3., rotate_axis) + x2 = rotate(axis, -np.pi/3., rotate_axis) + + points = [] + if add_center: + points.append(center) + + # v1 + points.append([center[i] + width*0.5*axis[i] for i in range(3)]) + # v2 + points.append([center[i] + radius*x1[i] for i in range(3)]) + # v3 + points.append([center[i] + radius*x1[i] - radius*axis[i] for i in range(3)]) + # v4 + points.append([center[i] - width*0.5*axis[i] for i in range(3)]) + # v5 + v6 = [center[i] + radius*x2[i] for i in range(3)] + points.append([v6[i] - radius*axis[i] for i in range(3)]) + # v6 + points.append(v6) + + return points + +def does_rect_intersect_rect(r1, r2, padding): + + # enlarge rectangle by adding padding + r1_padding = [r1[0] - padding, r1[1] - padding, r1[2], r1[3] + padding, r1[4] + padding, r1[5]] + + return r1_padding[0] < r2[3] and r1_padding[3] > r2[0] and r1_padding[1] < r2[4] and r1_padding[4] > r2[1] + +def does_rect_intersect_rect_use_pair_coord(r1, r2, padding): + + # enlarge rectangle by adding padding + p1_r1_padding = [r1[0][0] - padding, r1[0][1] - padding, r1[0][2]] + p2_r1_padding = [r1[1][0] + padding, r1[1][1] + padding, r1[0][2]] + + p1_r2 = r2[0] + p2_r2 = r2[1] + + return p1_r1_padding[0] < p2_r2[0] and p2_r1_padding[0] > p1_r2[0] and p1_r1_padding[1] < p2_r2[1] and p2_r1_padding[1] > p1_r2[1] + + +def does_particle_intersect_rect(p, r2, padding): + + pr = p[4] + pc = [p[1], p[2], p[3]] + p_rect = [pc[0] - pr, pc[1] - pr, pc[2], pc[1] + pr, pc[2] + pr, pc[2]] + + return does_rect_intersect_rect(p_rect, r2, padding) + +def does_particle_intersect(p, particles, rect, padding): + + # p -> [id, x, y, z, r] + + p_center = [p[i+1] for i in range(3)] + p_r = p[4] + p_rect = [p_center[0] - p_r, p_center[1] - p_r, p_center[2], p_center[0] + p_r, p_center[1] + p_r, p_center[2]] + + if p_rect[0] < rect[0] + padding or p_rect[1] < rect[1] + padding or p_rect[3] > rect[3] - padding or p_rect[4] > rect[4] - padding: + return True + + for q in particles: + pq = np.array([p[i+1] - q[i+1] for i in range(3)]) + if np.linalg.norm(pq) <= p[-1] + q[-1] + padding: + return True + + return False + + +def particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R1, R2, id_choices1, id_choices2, N1, N2, rect, z_coord, add_orient = True): + + np.random.seed(30) + sim_inp_dir = str(inp_dir) + + """Generate particle location data""" + + particles = [] + points = [] + + method_to_use = 1 + + rect_L = rect[3] - rect[0] + rect_W = rect[4] - rect[1] + + if method_to_use == 0: + pcount = 0 + count = 0 + select_count = 0 + while pcount < N2 and count < 100*N2: + if count%N2 == 0: + print('large particle iter = ', count) + + # random radius and center location + r = R2 + np.random.uniform(-0.1 * R2, 0.1 * R2) + x = center[0] + np.random.uniform(-0.5*rect_L + R2 + padding, 0.5*rect_L - R2- padding) + y = np.random.uniform(-0.5*rect_W + R2+padding, max_y - R2-padding) + p_zone = id_choices2[select_count % len(id_choices2)] + p = [p_zone, x, y, center[2], r] + + # check if it collides of existing particles + pintersect = does_particle_intersect(p, particles, rect_L, rect_W, center, padding) + + if pintersect == False: + particles.append(p) + pcount += 1 + select_count += 1 + + count +=1 + + pcount = 0 + count = 0 + select_count = 0 + while pcount < N1 and count < 100*N1: + if count%N1 == 0: + print('small particle iter = ', count) + + # random radius and center location + r = R1 + np.random.uniform(-0.1 * R1, 0.1 * R1) + x = center[0] + np.random.uniform(-0.5*rect_L + R1 + padding, 0.5*rect_L - R1- padding) + y = np.random.uniform(-0.5*rect_W + R1 + padding, max_y - R1 - padding) + # p_zone = np.random.choice(id_choices1, size=1)[0] + # if np.random.uniform(0., 1.) > 0.25: + # p_zone = np.random.choice(id_choices1, size=1)[0] + p_zone = id_choices1[select_count % len(id_choices1)] + p = [p_zone, x,y,center[2], r] + + # check if it collides of existing particles + pintersect = does_particle_intersect(p, particles, rect_L, rect_W, center, padding) + + if pintersect == False: + particles.append(p) + pcount += 1 + select_count += 1 + + count +=1 + + elif method_to_use == 1: + + # find how approximate number of rows and cols we can have + check_r = R1 + if R1 > R2: + check_r = R2 + + rows = int((max_y - rect[1]) / (2. * check_r)) + cols = int(rect_L / (2. * check_r)) + + print(rows, cols, N1, N2) + + rads = [R1, R2] + + counter = 0 + counter1 = 0 + counter2 = 0 + x_old = rect[0] + x_old_right = rect[3] + y_old = rect[1] + + cx = 0. + cy = 0. + cz = center[2] + r = 0. + + + cy_accptd = [] + cy_accptd.append(y_old) + + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + for i in range(rows): + print('row = {}'.format(i), flush=True) + + if i > 0: + y_old = get_max(cy_accptd) + get_max(row_rads) + + #y_old = i*(2*get_max([R1, R2])) + rect[1] + + # print(i, cy, y_old) + + # reset + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + if y_old + padding + get_max(row_rads) < max_y: + num_p_cols = 0 + j = 0 + while True: + if num_p_cols > cols - 1 or j > 100*(N1 + N2): + break + + if counter1 >= N1 and counter2 >= N2: + break + + if j == 0: + # for odd row, take x_old as first and for even take as last + x_old = rect[0] + x_old_right = rect[3] + + # type of particle (type 1 or 2, e.g., small or large) + p_type = np.random.choice([0,1], size=1)[0] + if counter1 >= N1: + p_type = 1 + if counter2 >= N2 : + p_type = 0 + + r0 = rads[p_type] + + # zone this particle belongs to + p_zone = 0 + if p_type == 0: + p_zone = np.random.choice(id_choices1, size=1)[0] + else: + p_zone = np.random.choice(id_choices2, size=1)[0] + + # perturb radius + r = r0 + np.random.uniform(-0.1 * r0, 0.1 * r0) + + # for even row, we start from right edge of rectange + if i%2 == 0: + # random horizontal/vertical perturbation + rph = np.random.uniform(-0.1 * r0, 0.05 * r0) + rpv = np.random.uniform(-0.05 * r0, 0.05 * r0) + cx0 = x_old_right - padding - r + cx = cx0 - rph + cy = y_old + padding + r + rpv + else: + # random horizontal/vertical perturbation + rph = np.random.uniform(-0.05 * r0, 0.1 * r0) + rpv = np.random.uniform(-0.05 * r0, 0.05 * r0) + cx0 = x_old + padding + r + cx = cx0 + rph + cy = y_old + padding + r + rpv + + # particle + p = [p_zone, cx, cy, cz, r] + + # check for intersection + # if i < 3: + # print(p, particles, rect_L, rect_W, center, padding) + pintersect = does_particle_intersect(p, particles, rect, padding) + + if pintersect == False: + print(i, p, flush=True) + particles.append(p) + row_rads.append(p[4]) + cy_accptd.append(cy) + # set x_old + if i % 2 == 0: + x_old_right = cx - p[4] + else: + x_old = cx + p[4] + + if p_type == 0: + counter1 += 1 + elif p_type == 1: + counter2 += 1 + + counter += 1 + + num_p_cols += 1 + + j += 1 + + inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') + if add_orient: + inpf.write("i, x, y, z, r, o\n") + counter = 0 + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4], np.random.uniform(0., 2.*np.pi))) + counter += 1 + else: + inpf.write("i, x, y, z, r\n") + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4])) + + + inpf.close() + + # to visualize in paraview + write_vtu = False + if write_vtu: + points = [] + rads = [] + zones = [] + for p in particles: + points.append([p[1], p[2], p[3]]) + rads.append(p[-1]) + zones.append(int(p[0])) + + points = np.array(points) + rads = np.array(rads) + zones = np.array(zones) + mesh = pv.PolyData(points) + mesh["radius"] = rads + mesh["zone"] = zones + pv.save_meshio(sim_inp_dir + 'particle_locations_' + str(pp_tag) + '.vtu', mesh) + + print('number of particles created = {}'.format(len(particles)), flush=True) + + return len(particles), particles + +def particle_locations_old(inp_dir, pp_tag, center, padding, max_y, mesh_size, R1, R2, id_choices1, id_choices2, N1, N2, rect, z_coord, add_orient = True): + + """Generate particle location data""" + + + def does_intersect_old(p, r, R, particles, padding): + + for q in particles: + + pq = np.array([p[i] - q[i] for i in range(3)]) + if np.linalg.norm(pq) <= r + R + padding: + return True + + return False + + + def does_intersect_rect_old(p, r, particles, padding, rect): + + # check intersection with rectangle + pr = [p[0] - r, p[1] - r, p[2], p[0] + r, p[1] + r, p[2]] + + if pr[0] < rect[0] + padding or pr[1] < rect[1] + padding or pr[3] > rect[3] - padding or pr[4] > rect[4] - padding: + + # print('circle (xc = {}, r = {:5.3e}) intersects rect = {} with pad = {:5.3e}'.format(p, r, rect, padding)) + + return True + + # loop over particles + # for pi in particles: + # dx = [p[0] - pi[1], p[1] - pi[2], p[2] - pi[3]] + # rR = r + pi[4] + padding + # if np.linalg.norm(dx) < rR: + # return True + + # print('circle (xc = {}, r = {:5.3e}) does not intersects rect = {} with pad = {:5.3e}'.format(p, r, rect, padding)) + return False + + # + # + # Given rectangle, we want to fill it with particles of R1 and R2 radius + # in alternate fashion with padding between each particle + # + # + particles = [] + points = [] + + # find how approximate number of rows and cols we can have + check_r = R1 + if R1 > R2: + check_r = R2 + + rows = int((rect[3] - rect[0])/ check_r) + cols = int((rect[4] - rect[1])/ check_r) + + rads = [R1, R2] + + counter = 0 + x_old = rect[0] + x_old_right = rect[3] + y_old = rect[1] + pad = padding + + cx = 0. + cy = 0. + cz = 0. + r = 0. + + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + for i in range(rows): + + if i > 0: + y_old = cy + get_max(row_rads) + + # reset + row_rads = [] + row_rads.append(R1) + row_rads.append(R2) + + num_p_cols = 0 + j = 0 + while num_p_cols < cols - 1 and j < 500: + + if j == 0: + # for odd row, take x_old as first and for even take as last + x_old = rect[0] + x_old_right = rect[3] + + # type of particle (type 1 or 2, e.g., small or large) + p_type = counter % 2 + + r0 = rads[p_type] + + # zone this particle belongs to + p_zone = 0 + if p_type == 0: + p_zone = np.random.choice(id_choices1, size=1)[0] + else: + p_zone = np.random.choice(id_choices2, size=1)[0] + + # perturb radius + r = r0 + np.random.uniform(-0.1 * r0, 0.1 * r0) + # r = r0 + row_rads.append(r) + + # random horizontal perturbation by 10% of radius + rph = np.random.uniform(-0.1 * r0, 0.1 * r0) + + cx0 = x_old + pad + r + cx = cx0 + rph + # for even row, we start from right edge of rectange + if i%2 == 0: + cx0 = x_old_right - pad - r + cx = cx0 - rph + + cy = y_old + pad + r + cz = rect[2] + + inters = does_intersect_rect_old([cx, cy, cz], r, particles, pad, rect) + inters_parts = does_intersect_old + + if inters == False: + particles.append([float(p_zone), cx, cy, cz, r]) + + # set x_old + if i % 2 == 0: + x_old_right = cx - r + else: + x_old = cx + r + + counter += 1 + + num_p_cols += 1 + + j += 1 + + + inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') + if add_orient: + inpf.write("i, x, y, z, r, o\n") + counter = 0 + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4], np.random.uniform(0., 2.*np.pi))) + counter += 1 + else: + inpf.write("i, x, y, z, r\n") + for p in particles: + inpf.write("%d, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4])) + + + inpf.close() + + # to visualize in paraview + write_vtu = False + if write_vtu: + points = [] + rads = [] + zones = [] + for p in particles: + points.append([p[1], p[2], p[3]]) + rads.append(p[-1]) + zones.append(int(p[0])) + + points = np.array(points) + rads = np.array(rads) + zones = np.array(zones) + mesh = pv.PolyData(points) + mesh["radius"] = rads + mesh["zone"] = zones + pv.save_meshio(sim_inp_dir + 'particle_locations_' + str(pp_tag) + '.vtu', mesh) + + print('number of particles created = {}'.format(len(particles))) + + return len(particles), particles + + +def generate_cir_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # center and radius + sim_Cx = center[0] + sim_Cy = center[1] + sim_Cz = center[2] + sim_radius = radius + + # mesh size + sim_h = mesh_size + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy, sim_Cz, sim_h)); + geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx + sim_radius, sim_Cy, sim_Cz, sim_h)) + geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx - sim_radius, sim_Cy, sim_Cz, sim_h)) + geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy + sim_radius, sim_Cz, sim_h)) + geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy - sim_radius, sim_Cz, sim_h)) + + # + # circlular arc + # + geof.write("Circle(1) = {2, 1, 4};\n") + geof.write("Circle(2) = {4, 1, 3};\n") + geof.write("Circle(3) = {3, 1, 5};\n") + geof.write("Circle(4) = {5, 1, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {2, 3, 4, 1};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_hex_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + points = get_ref_hex_points(center, radius, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(7): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 5};\n") + geof.write("Line(4) = {5, 6};\n") + geof.write("Line(5) = {6, 7};\n") + geof.write("Line(6) = {7, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_tri_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # points + points = get_ref_triangle_points(center, radius, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(4): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + + +def generate_drum2d_particle_gmsh_input(inp_dir, filename, center, radius, width, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # points + points = get_ref_drum_points(center, radius, width, True) + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + for i in range(7): + p = points[i] + sts = "Point({}) = ".format(i+1) + sts += "{" + sts += "{}, {}, {}, {}".format(p[0], p[1], p[2], mesh_size) + sts += "};\n" + geof.write(sts); + + # + # circlular arc + # + geof.write("Line(1) = {2, 3};\n") + geof.write("Line(2) = {3, 4};\n") + geof.write("Line(3) = {4, 5};\n") + geof.write("Line(4) = {5, 6};\n") + geof.write("Line(5) = {6, 7};\n") + geof.write("Line(6) = {7, 2};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + # tag = '"' + "a" + '"' + # geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # # add center point to plane surface + geof.write("Point{1} In Surface {1};") + + # close file + geof.close() + +def generate_rect_container_gmsh_input(inp_dir, filename, pi1, pi2, dx, dy, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + innr_pts = get_ref_rect_points(get_center(pi1, pi2), pi2[0] - pi1[0], pi2[1] - pi1[1]) + + outr_pts = get_ref_rect_points(get_center(pi1, pi2), pi2[0] - pi1[0] + 2*dx, pi2[1] - pi1[1] + 2*dy) + + h = mesh_size + hout = h # 5*h + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # points + p_id = 1 + for i in range(4): + p_id = write_point_geo(geof, p_id, outr_pts[i], h) + + for i in range(4): + p_id = write_point_geo(geof, p_id, innr_pts[i], h) + + # line + l_id = 1 + l_id = write_line_geo(geof, l_id, 1, 2) + l_id = write_line_geo(geof, l_id, 2, 3) + l_id = write_line_geo(geof, l_id, 3, 4) + l_id = write_line_geo(geof, l_id, 4, 1) + + l_id = write_line_geo(geof, l_id, 5, 6) + l_id = write_line_geo(geof, l_id, 6, 7) + l_id = write_line_geo(geof, l_id, 7, 8) + l_id = write_line_geo(geof, l_id, 8, 5) + + # line loop to define surface + geof.write("Line Loop(9) = {1, 2, 3, 4};\n") + geof.write("Line Loop(10) = {5, 6, 7, 8};\n") + + # define surface + geof.write("Plane Surface(11) = {9, 10};\n") + + # close file + geof.close() + +def generate_rigid_rect_container_moving_wall_setup_gmsh_input(inp_dir, filename, outer_rect, inner_rect, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # outer rectangle + sim_Lx_out1 = outer_rect[0] + sim_Ly_out1 = outer_rect[1] + sim_Lz_out1 = outer_rect[2] + sim_Lx_out2 = outer_rect[3] + sim_Ly_out2 = outer_rect[4] + sim_Lz_out2 = outer_rect[5] + + # inner rectangle + sim_Lx_in1 = inner_rect[0] + sim_Ly_in1 = inner_rect[1] + sim_Lz_in1 = inner_rect[2] + sim_Lx_in2 = inner_rect[3] + sim_Ly_in2 = inner_rect[4] + sim_Lz_in2 = inner_rect[5] + + # mesh size + sim_h = mesh_size + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # L7 L3 + # 4 + --- + 8 7 + --- + 3 + # | | | | + # | | | | + # | | L6 L4 | | + # L8 | | | | + # | | | | L2 + # | | L5 | | + # | + ------------------- + | + # | 5 6 | + # | | + # 1 + ------------------------------- + 2 + # L1 + # + # + # for point 8 and 7 --> choose y coordinate from outer rectangle and x + # coordinate from inner rectangle + + # + # points + # + geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)) + geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) + geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) + geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) + + geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_in1, sim_Lz_in1, sim_h)) + geof.write("Point(6) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_in1, sim_Lz_in1, sim_h)) + geof.write("Point(7) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_out2, sim_Lz_in1, sim_h)) + geof.write("Point(8) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_out2, sim_Lz_in1, sim_h)) + + # + # lines + # + geof.write("Line(1) = {1, 2};\n") + geof.write("Line(2) = {2, 3};\n") + geof.write("Line(3) = {3, 7};\n") + geof.write("Line(4) = {7, 6};\n") + geof.write("Line(5) = {6, 5};\n") + geof.write("Line(6) = {5, 8};\n") + geof.write("Line(7) = {8, 4};\n") + geof.write("Line(8) = {4, 1};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6, 7, 8};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + tag = '"' + "a" + '"' + geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # close file + geof.close() + + +def generate_moving_rect_wall_gmsh_input(inp_dir, filename, rectangle, mesh_size, pp_tag): + + sim_inp_dir = str(inp_dir) + + # outer rectangle + sim_Lx_out1 = rectangle[0] + sim_Ly_out1 = rectangle[1] + sim_Lz_out1 = rectangle[2] + sim_Lx_out2 = rectangle[3] + sim_Ly_out2 = rectangle[4] + sim_Lz_out2 = rectangle[5] + + # mesh size + sim_h = mesh_size + + # + # create .geo file for gmsh + # + geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') + geof.write("cl__1 = 1;\n") + geof.write("Mesh.MshFileVersion = 2.2;\n") + + # + # points + # + geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)); + geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) + geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) + geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) + + # + # lines + # + geof.write("Line(1) = {1, 2};\n") + geof.write("Line(2) = {2, 3};\n") + geof.write("Line(3) = {3, 4};\n") + geof.write("Line(4) = {4, 1};\n") + + # + # surfaces + # + geof.write("Line Loop(1) = {1, 2, 3, 4};\n") + + # + # plane surface + # + geof.write("Plane Surface(1) = {1};\n") + + # + # physical surface + # + tag = '"' + "a" + '"' + geof.write("Physical Surface(%s) = {1};\n" % (tag)) + + # close file + geof.close() + +def create_input_file(inp_dir, pp_tag): + """Generates input file for two-particle test""" + + sim_inp_dir = str(inp_dir) + + # 1 - small particle circle + # 2 - small particle triangle + # 3 - small particle drum2d + # 4 - small particle hex + # 5 - large particle circle + # 6 - large particle triangle + # 7 - large particle drum2d + # 8 - large particle hex + # 9 - rectangle wall rigid + # 10 - top of wall that is moving + + ## geometry + center = [0., 0., 0.] + R_small = 0.001 + R_large = 0.001 + + mesh_size = R_small / 5. + horizon = 2 * mesh_size + + ## internal rectangle + Lin, Win = 0.011, 0.009 + L, W = Lin + 1.5*horizon, Win + 1.5*horizon + + in_rect = [center[0] - 0.5*Lin, center[1] - 0.5*Win, center[2], center[0] + 0.5*Lin, center[1] + 0.5*Win, center[2]] + out_rect = [center[0] - 0.5*L, center[1] - 0.5*W, center[2], center[0] + 0.5*L, center[1] + 0.5*W, center[2]] + + # moving wall + moving_wall_y = 0.5*Win - 1.5*horizon + moving_rect = [center[0] - 0.5*Lin, center[1] + moving_wall_y, center[2], center[0] + 0.5*Lin, center[1] + moving_wall_y + 1.5*horizon, center[2]] + + # fixed container is annulus rectangle with top being removed + # so we can represent it as outer rectangle minus rectangle that includes inner part and the top part + remove_rect_from_out_rect = [in_rect[0], in_rect[1], in_rect[2], in_rect[3], out_rect[4], in_rect[5]] + if moving_rect[4] > out_rect[4]: + remove_rect_from_out_rect[4] = out_rect[4] + + fixed_container_params = [] + for a in out_rect: + fixed_container_params.append(a) + for a in remove_rect_from_out_rect: + fixed_container_params.append(a) + + # container rectangle + contain_rect = out_rect + + # small circle + small_circle = [R_small, center[0], center[1], center[2]] + # small triangle + small_triangle = small_circle + # small drum2d + w_small_drum2d = R_small * 0.2 + small_drum2d = [R_small, w_small_drum2d, center[0], center[1], center[2]] + # small hex + small_hex = small_circle + + # large circle + large_circle = [R_large, center[0], center[1], center[2]] + # large triangle + large_triangle = large_circle + # large drum2d + w_large_drum2d = R_large* 0.2 + large_drum2d = [R_large, w_large_drum2d, center[0], center[1], center[2]] + # large hex + large_hex = large_circle + + + ## time + final_time = 0.05 + num_steps = 20000 + # final_time = 0.00002 + # num_steps = 2000 + num_outputs = 10 + dt_out_n = num_steps / num_outputs + test_dt_out_n = dt_out_n / 10 + perform_out = True + + ## material + rho_wall = 600. + poisson_wall = 0.25 + K_wall = 1.e+4 + E_wall = get_E(K_wall, poisson_wall) + G_wall = get_G(E_wall, poisson_wall) + Gc_wall = 100. + + rho_small = 600. + poisson_small = poisson_wall + K_small = 5.e+3 + E_small = get_E(K_small, poisson_small) + G_small = get_G(E_small, poisson_small) + Gc_small = 100. + + rho_large = rho_small + poisson_large = poisson_small + K_large = K_small + E_large = E_small + G_large = G_small + Gc_large = Gc_small + + ## contact + # R_contact = 0.95 * mesh_size + # R_contact = 1.74e-04 + R_contact_factor = 0.95 + + # Kn_V_max = 7.385158e+05 + # Kn = np.power(Kn_V_max, 2) + # compute from bulk modulus + + # from bulk modulus + Kn_small_small = 18. * get_eff_k(K_small, K_small) / (np.pi * np.power(horizon, 5)) + Kn_large_large = 18. * get_eff_k(K_large, K_large) / (np.pi * np.power(horizon, 5)) + Kn_wall_wall = 18. * get_eff_k(K_wall, K_wall) / (np.pi * np.power(horizon, 5)) + Kn_small_large = 18. * get_eff_k(K_small, K_large) / (np.pi * np.power(horizon, 5)) + Kn_small_wall = 18. * get_eff_k(K_small, K_wall) / (np.pi * np.power(horizon, 5)) + Kn_large_wall = 18. * get_eff_k(K_large, K_wall) / (np.pi * np.power(horizon, 5)) + + # we do not want walls to interact + Kn_wall_wall = 0. + + beta_n_eps = 0.95 + friction_coeff = 0.5 + damping_active = False + damping_active_floor = True + friction_active = False + beta_n_factor = 100. + Kn_factor = 1. + + ## gravity + gravity_active = True + gravity = [0., -10., 0.] + + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 100 + neigh_search_criteria = "simple_all" + + ## moving wall downward velocity + moving_wall_vert_velocity = -0.06 + + ### ---------------------------------------------------------------- ### + # generate mesh and particle location data + ### ---------------------------------------------------------------- ### + + # generate particle locations + padding = 1.1 * R_contact_factor * mesh_size + max_y = moving_wall_y - 3*mesh_size + # number of particles of small and large sizes + N1, N2 = 12, 8 + id_choices1 = [0, 1, 2, 3] + id_choices2 = [4, 5, 6, 7] + num_particles_zones_1_to_8, particles_zones_1_to_8 = particle_locations(inp_dir, pp_tag, center, padding, max_y, mesh_size, R_small, R_large, id_choices1, id_choices2, N1, N2, in_rect, z_coord = 0., add_orient = True) + + # generate particle .geo file (large) + zones_mesh_fnames = ["mesh_cir_small", "mesh_tri_small", "mesh_drum2d_small", "mesh_hex_small", "mesh_cir_large", "mesh_tri_large", "mesh_drum2d_large", "mesh_hex_large", "mesh_fixed_container", "mesh_moving_container"] + + ## circle + generate_cir_particle_gmsh_input(inp_dir, zones_mesh_fnames[0], center, R_small, mesh_size, pp_tag) + generate_cir_particle_gmsh_input(inp_dir, zones_mesh_fnames[4], center, R_large, mesh_size, pp_tag) + + ## triangle + generate_tri_particle_gmsh_input(inp_dir, zones_mesh_fnames[1], center, R_small, mesh_size, pp_tag) + generate_tri_particle_gmsh_input(inp_dir, zones_mesh_fnames[5], center, R_large, mesh_size, pp_tag) + + ## drum2d + generate_drum2d_particle_gmsh_input(inp_dir, zones_mesh_fnames[2], center, R_small, 2.*w_small_drum2d, mesh_size, pp_tag) + generate_drum2d_particle_gmsh_input(inp_dir, zones_mesh_fnames[6], center, R_large, 2.*w_large_drum2d, mesh_size, pp_tag) + + ## hex + generate_hex_particle_gmsh_input(inp_dir, zones_mesh_fnames[3], center, R_small, mesh_size, pp_tag) + generate_hex_particle_gmsh_input(inp_dir, zones_mesh_fnames[7], center, R_large, mesh_size, pp_tag) + + ## wall + generate_rigid_rect_container_moving_wall_setup_gmsh_input(inp_dir, zones_mesh_fnames[8], out_rect, in_rect, mesh_size, pp_tag) + + generate_moving_rect_wall_gmsh_input(inp_dir, zones_mesh_fnames[9], moving_rect, mesh_size, pp_tag) + + os.system("mkdir -p ../out") + + for s in zones_mesh_fnames: + print('\n') + print(s) + print("gmsh {}_{}.geo -2 &> /dev/null".format(s, pp_tag)) + print('\n') + + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 &> /dev/null".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk &> /dev/null".format(s, pp_tag, s, pp_tag)) + + + ### ---------------------------------------------------------------- ### + # generate YAML file + ### ---------------------------------------------------------------- ### + # print('\nGenerating imput file\n') + inpf = open(sim_inp_dir + 'input_' + str(pp_tag) + '.yaml','w') + inpf.write("Model:\n") + inpf.write(" Dimension: 2\n") + inpf.write(" Discretization_Type:\n") + inpf.write(" Spatial: finite_difference\n") + inpf.write(" Time: central_difference\n") + inpf.write(" Final_Time: %4.6e\n" % (final_time)) + inpf.write(" Time_Steps: %d\n" % (num_steps)) + + # container info + inpf.write("Container:\n") + inpf.write(" Geometry:\n") + inpf.write(" Type: rectangle\n") + inpf.write(" Parameters: " + print_dbl_list(contain_rect)) + + # zone info + inpf.write("Zone:\n") + inpf.write(" Zones: 10\n") + + for i in range(10): + inpf.write(" Zone_%d:\n" % (i+1)) + if i > 7: + inpf.write(" Is_Wall: true\n") + else: + inpf.write(" Is_Wall: false\n") + + # particle info + inpf.write("Particle:\n") + inpf.write(" Test_Name: multi_particle_compressive_test\n") + + particle_data = [['circle', small_circle], ['triangle', small_triangle], ['drum2d', small_drum2d], ['hexagon', small_hex], ['circle', large_circle], ['triangle', large_triangle], ['drum2d', large_drum2d], ['hexagon', large_hex]] + for i in range(len(particle_data)): + inpf.write(" Zone_%d:\n" % (i+1)) + inpf.write(" Type: %s\n" % (particle_data[i][0])) + inpf.write(" Parameters: " + print_dbl_list((particle_data[i][1]))) + + ## zone 9 (fixed container) + inpf.write(" Zone_9:\n") + inpf.write(" Is_Wall: true\n") + inpf.write(" Type: rectangle_minus_rectangle\n") + inpf.write(" Parameters: " + print_dbl_list(fixed_container_params)) + inpf.write(" All_Dofs_Constrained: true\n") + inpf.write(" Create_Particle_Using_ParticleZone_GeomObject: true\n") + + ## zone 10 (moving wall) + inpf.write(" Zone_10:\n") + inpf.write(" Is_Wall: true\n") + inpf.write(" Type: rectangle\n") + inpf.write(" Parameters: " + print_dbl_list(moving_rect)) + inpf.write(" All_Dofs_Constrained: true\n") + inpf.write(" Create_Particle_Using_ParticleZone_GeomObject: true\n") + + # particle generation + inpf.write("Particle_Generation:\n") + inpf.write(" From_File: particle_locations_" + str(pp_tag) + ".csv\n") + inpf.write(" File_Data_Type: loc_rad_orient\n") + + # Mesh info + inpf.write("Mesh:\n") + + for i in range(10): + inpf.write(" Zone_%d:\n" % (i+1)) + inpf.write(" File: %s\n" % (zones_mesh_fnames[i] + "_" + str(pp_tag) + ".msh")) + + # Contact info + inpf.write("Contact:\n") + + ## 11 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "11", Kn_small_small) + + ## 12, 13, 14 --> copy from 11 + copy_contact_zone(inpf, [12, 13, 14], [1, 1]) + + ## 15 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "15", Kn_small_large) + + ## 16, 17, 18 --> copy from 15 + copy_contact_zone(inpf, [16, 17, 18], [1, 5]) + + ## 19 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "19", Kn_small_wall) + + ## 110 = (1, 10) + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "110", Kn_small_wall) + + ## 22, 23, 24 --> copy from 11 + copy_contact_zone(inpf, [22, 23, 24], [1, 1]) + + ## 25, 26, 27, 28 --> copy from 15 + copy_contact_zone(inpf, [25, 26, 27, 28], [1, 5]) + + ## 29 --> copy from 19 + copy_contact_zone(inpf, [29], [1, 9]) + + ## 210 --> copy from 110 + copy_contact_zone(inpf, [210], [1, 10]) + + ## 33, 34 --> copy from 11 + copy_contact_zone(inpf, [33, 34], [1, 1]) + + ## 35, 36, 37, 38 --> copy from 15 + copy_contact_zone(inpf, [35, 36, 37, 38], [1, 5]) + + ## 39 --> copy from 19 + copy_contact_zone(inpf, [39], [1, 9]) + + ## 310 --> copy from 110 + copy_contact_zone(inpf, [310], [1, 10]) + + ## 44 --> copy from 11 + copy_contact_zone(inpf, [44], [1, 1]) + + ## 45, 46, 47, 48 --> copy from 15 + copy_contact_zone(inpf, [45, 46, 47, 48], [1, 5]) + + ## 49 --> copy from 19 + copy_contact_zone(inpf, [49], [1, 9]) + + ## 410 --> copy from 110 + copy_contact_zone(inpf, [410], [1, 10]) + + ## 55 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "55", Kn_large_large) + + ## 56, 57, 58 --> copy from 55 + copy_contact_zone(inpf, [56, 57, 58], [5, 5]) + + ## 59 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "59", Kn_large_wall) + + ## 510 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "510", Kn_large_wall) + + ## 66, 67, 68 --> copy from 55 + copy_contact_zone(inpf, [66, 67, 68], [5, 5]) + + ## 69 --> copy from 59 + copy_contact_zone(inpf, [69], [5, 9]) + + ## 610 --> copy from 510 + copy_contact_zone(inpf, [610], [5, 10]) + + ## 77, 78 --> copy from 55 + copy_contact_zone(inpf, [77, 78], [5, 5]) + + ## 79 --> copy from 59 + copy_contact_zone(inpf, [79], [5, 9]) + + ## 710 --> copy from 510 + copy_contact_zone(inpf, [710], [5, 10]) + + ## 88 --> copy from 55 + copy_contact_zone(inpf, [88], [5, 5]) + + ## 89 --> copy from 59 + copy_contact_zone(inpf, [89], [5, 9]) + + ## 810 --> copy from 510 + copy_contact_zone(inpf, [810], [5, 10]) + + ## 99 + write_contact_zone_part(inpf, R_contact_factor, damping_active, friction_active, beta_n_eps, friction_coeff, Kn_factor, beta_n_factor, "99", Kn_wall_wall) + + ## 910 --> copy from 99 + copy_contact_zone(inpf, [910], [9, 9]) + + ## 1010 --> copy from 99 + copy_contact_zone(inpf, [1010], [9, 9]) + + # Neighbor info + inpf.write("Neighbor:\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) + + # Material info + inpf.write("Material:\n") + + ## zone 1 + write_material_zone_part(inpf, "1", horizon, rho_small, K_small, G_small, Gc_small) + + ## zone 2 + inpf.write(" Zone_2:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 3 + inpf.write(" Zone_3:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 4 + inpf.write(" Zone_4:\n") + inpf.write(" Copy_Material_Data: 1\n") + + ## zone 5 + write_material_zone_part(inpf, "5", horizon, rho_large, K_large, G_large, Gc_large) + + ## zone 6 + inpf.write(" Zone_6:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 7 + inpf.write(" Zone_7:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 8 + inpf.write(" Zone_8:\n") + inpf.write(" Copy_Material_Data: 5\n") + + ## zone 9 + write_material_zone_part(inpf, "9", horizon, rho_wall, K_wall, G_wall, Gc_wall) + + ## zone 10 + inpf.write(" Zone_10:\n") + inpf.write(" Copy_Material_Data: 9\n") + + # Force + if gravity_active == True: + inpf.write("Force_BC:\n") + inpf.write(" Gravity: " + print_dbl_list(gravity)) + + # Displacement + inpf.write("Displacement_BC:\n") + inpf.write(" Sets: 2\n") + + inpf.write(" Set_1:\n") + # wall particle id will be num_particles_zones_1_to_8 + inpf.write(" Particle_List: [%d]\n" % (num_particles_zones_1_to_8)) + inpf.write(" Direction: [1,2]\n") + inpf.write(" Zero_Displacement: true\n") + + inpf.write(" Set_2:\n") + # wall particle id will be num_particles_zones_1_to_8 + 1 + inpf.write(" Particle_List: [%d]\n" % (num_particles_zones_1_to_8 + 1)) + inpf.write(" Direction: [2]\n") + inpf.write(" Time_Function:\n") + inpf.write(" Type: linear\n") + inpf.write(" Parameters:\n") + inpf.write(" - %4.6e\n" % (moving_wall_vert_velocity)) + inpf.write(" Spatial_Function:\n") + inpf.write(" Type: constant\n") + + + # + # Output info + # + inpf.write("Output:\n") + inpf.write(" Path: ../out/\n") + inpf.write(" Tags:\n") + inpf.write(" - Displacement\n") + inpf.write(" - Velocity\n") + inpf.write(" - Force\n") + inpf.write(" - Force_Density\n") + inpf.write(" - Damage_Z\n") + inpf.write(" - Damage\n") + inpf.write(" - Nodal_Volume\n") + inpf.write(" - Zone_ID\n") + inpf.write(" - Particle_ID\n") + inpf.write(" - Fixity\n") + inpf.write(" - Force_Fixity\n") + inpf.write(" - Contact_Nodes\n") + inpf.write(" - No_Fail_Node\n") + inpf.write(" - Boundary_Node_Flag\n") + inpf.write(" Output_Interval: %d\n" % (dt_out_n)) + inpf.write(" Compress_Type: zlib\n") + inpf.write(" Perform_FE_Out: false\n") + if perform_out: + inpf.write(" Perform_Out: true\n") + else: + inpf.write(" Perform_Out: false\n") + inpf.write(" Test_Output_Interval: %d\n" % (test_dt_out_n)) + + inpf.write(" Debug: 2\n") + inpf.write(" Tag_PP: %d\n" %(int(pp_tag))) + + # close file + inpf.close() + + +##-------------------------------------------------------## +##-------------------------------------------------------## +inp_dir = './' +pp_tag = 0 +if len(sys.argv) > 1: + pp_tag = int(sys.argv[1]) + +create_input_file(inp_dir, pp_tag) diff --git a/test/test_data/peridem/compression_small_set_restart/run.sh b/test/test_data/peridem/compression_small_set_restart/run.sh new file mode 100755 index 00000000..1044145c --- /dev/null +++ b/test/test_data/peridem/compression_small_set_restart/run.sh @@ -0,0 +1,15 @@ +#!/bin/bash +MY_PWD=$(pwd) + +( +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi + +cd "inp" && python3 -B problem_setup.py + +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads +) 2>&1 | tee output.log + +# check if we have produced 'output_10.vtu' file +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/compressive_n25/inp/particle_locations_0.csv b/test/test_data/peridem/compressive_n25/inp/particle_locations_0.csv deleted file mode 100644 index c381bc3c..00000000 --- a/test/test_data/peridem/compressive_n25/inp/particle_locations_0.csv +++ /dev/null @@ -1,26 +0,0 @@ -i, x, y, z, r -0, 0.001142, 0.001222, 0.000000, 0.000922 -1, 0.003326, 0.001281, 0.000000, 0.000981 -0, 0.005667, 0.001387, 0.000000, 0.001087 -1, 0.007878, 0.001208, 0.000000, 0.000908 -0, 0.010144, 0.001298, 0.000000, 0.000998 -1, 0.001412, 0.003671, 0.000000, 0.001083 -0, 0.003828, 0.003539, 0.000000, 0.000951 -1, 0.006031, 0.003541, 0.000000, 0.000953 -0, 0.008215, 0.003605, 0.000000, 0.001017 -1, 0.010547, 0.003590, 0.000000, 0.001002 -0, 0.001240, 0.005858, 0.000000, 0.000937 -1, 0.003445, 0.005893, 0.000000, 0.000971 -0, 0.005783, 0.006010, 0.000000, 0.001089 -1, 0.008318, 0.005999, 0.000000, 0.001078 -0, 0.010674, 0.005972, 0.000000, 0.001051 -1, 0.001298, 0.008325, 0.000000, 0.000971 -0, 0.003486, 0.008293, 0.000000, 0.000939 -1, 0.005766, 0.008415, 0.000000, 0.001060 -0, 0.008057, 0.008316, 0.000000, 0.000962 -1, 0.010310, 0.008398, 0.000000, 0.001044 -0, 0.001188, 0.010591, 0.000000, 0.000942 -1, 0.003405, 0.010649, 0.000000, 0.001000 -0, 0.005592, 0.010571, 0.000000, 0.000922 -1, 0.007879, 0.010746, 0.000000, 0.001096 -0, 0.010366, 0.010648, 0.000000, 0.000999 diff --git a/test/test_data/peridem/compressive_n25/inp/problem_setup.py b/test/test_data/peridem/compressive_n25/inp/problem_setup.py deleted file mode 100644 index d77b8e63..00000000 --- a/test/test_data/peridem/compressive_n25/inp/problem_setup.py +++ /dev/null @@ -1,914 +0,0 @@ -import os -import numpy as np -import sys - -def print_bool(arg, prefix = ""): - - str = prefix - if arg == True: - str += "True\n" - else: - str += "False\n" - return str - -def print_dbl(arg, prefix = ""): - - str = prefix + "%4.6e\n" % (arg) - return str - -def print_int(arg, prefix = ""): - str = prefix + "%d\n" % (arg) - return str - -def print_dbl_list(arg, prefix = ""): - str = prefix + "[" - N = len(arg) - for i in range(N): - str += "%4.6e" % (arg[i]) - if i < N - 1: - str += ", " - else: - str += "]\n" - - return str - -def print_int_list(arg, prefix = ""): - str = prefix + "[" - N = len(arg) - for i in range(N): - str += "%d" % (arg[i]) - if i < N - 1: - str += ", " - else: - str += "]\n" - - return str - -def does_intersect(p, r, R, particles, padding): - - for q in particles: - - pq = np.array([p[i] - q[i] for i in range(3)]) - if np.linalg.norm(pq) <= r + R + padding: - return True - - return False - - -def does_intersect_rect(p, r, particles, padding, rect): - - # check intersection with rectangle - pr = [p[0] - r, p[1] - r, p[2], p[0] + r, p[1] + r, p[2]] - - if pr[0] < rect[0] - padding or pr[1] < rect[1] - padding or pr[3] > rect[3] + padding or pr[4] > rect[4] + padding: - return True - - return False - - -def get_E(K, nu): - return 3. * K * (1. - 2. * nu) - -def get_G(E, nu): - return E / (2. * (1. + nu)) - - -def get_eff_k(k1, k2): - return 2. * k1 * k2 / (k1 + k2) - - -def get_max(l): - l = np.array(l) - return l.max() - - -def particle_locations(inp_dir, pp_tag, R1, R2, rect, mesh_size, padding): - """Generate particle location data""" - - # - # - # Given rectangle, we want to fill it with particles of R1 and R2 radius - # in alternate fashion with padding between each particle - # - # - particles = [] - - # find how approximate number of rows and cols we can have - check_r = R1 - if R1 > R2: - check_r = R2 - - rows = int((rect[3] - rect[0])/ check_r) - cols = int((rect[4] - rect[1])/ check_r) - - rads = [R1, R2] - - counter = 0 - x_old = rect[0] - y_old = rect[1] - pad = padding - - cx = 0. - cy = 0. - cz = 0. - r = 0. - - row_rads = [] - row_rads.append(R1) - row_rads.append(R2) - - for i in range(rows): - - if i > 0: - y_old = cy + get_max(row_rads) - - # reset - row_rads = [] - row_rads.append(R1) - row_rads.append(R2) - - for j in range(cols): - - if j == 0: - x_old = rect[0] - - ptype = counter % 2 - r0 = rads[ptype] - - # perturb radius - r = r0 + np.random.uniform(-0.1 * r0, 0.1 * r0) - # r = r0 - row_rads.append(r) - - # random horizontal perturbation by 10% of radius - rph = np.random.uniform(-0.1 * r0, 0.1 * r0) - - cx0 = x_old + pad + r - cx = cx0 + rph - cy = y_old + pad + r - cz = rect[2] - - inters = does_intersect_rect([cx, cy, cz], r, particles, pad, rect) - - if inters == False: - particles.append([float(ptype), cx, cy, cz, r]) - - # set x_old - x_old = cx + r - - counter += 1 - - - inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') - inpf.write("i, x, y, z, r\n") - for p in particles: - inpf.write("%d, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4])) - - inpf.close() - -def generate_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): - - sim_inp_dir = str(inp_dir) - - # center and radius - sim_Cx = center[0] - sim_Cy = center[1] - sim_Cz = center[2] - sim_radius = radius - - # mesh size - sim_h = mesh_size - - # - # create .geo file for gmsh - # - geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') - geof.write("cl__1 = 1;\n") - geof.write("Mesh.MshFileVersion = 2.2;\n") - - # - # points - # - geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy, sim_Cz, sim_h)); - geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx + sim_radius, sim_Cy, sim_Cz, sim_h)) - geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx - sim_radius, sim_Cy, sim_Cz, sim_h)) - geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy + sim_radius, sim_Cz, sim_h)) - geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy - sim_radius, sim_Cz, sim_h)) - - # - # circlular arc - # - geof.write("Circle(1) = {2, 1, 4};\n") - geof.write("Circle(2) = {4, 1, 3};\n") - geof.write("Circle(3) = {3, 1, 5};\n") - geof.write("Circle(4) = {5, 1, 2};\n") - - # - # surfaces - # - geof.write("Line Loop(1) = {2, 3, 4, 1};\n") - - # - # plane surface - # - geof.write("Plane Surface(1) = {1};\n") - - # - # physical surface - # - # tag = '"' + "a" + '"' - # geof.write("Physical Surface(%s) = {1};\n" % (tag)) - - # # add center point to plane surface - geof.write("Point{1} In Surface {1};") - - # close file - geof.close() - - -def generate_rigid_wall_gmsh_input(inp_dir, filename, outer_rect, inner_rect, mesh_size, pp_tag): - - sim_inp_dir = str(inp_dir) - - # outer rectangle - sim_Lx_out1 = outer_rect[0] - sim_Ly_out1 = outer_rect[1] - sim_Lz_out1 = outer_rect[2] - sim_Lx_out2 = outer_rect[3] - sim_Ly_out2 = outer_rect[4] - sim_Lz_out2 = outer_rect[5] - - # inner rectangle - sim_Lx_in1 = inner_rect[0] - sim_Ly_in1 = inner_rect[1] - sim_Lz_in1 = inner_rect[2] - sim_Lx_in2 = inner_rect[3] - sim_Ly_in2 = inner_rect[4] - sim_Lz_in2 = inner_rect[5] - - # mesh size - sim_h = mesh_size - - # - # create .geo file for gmsh - # - geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') - geof.write("cl__1 = 1;\n") - geof.write("Mesh.MshFileVersion = 2.2;\n") - - # - # L7 L3 - # 4 + --- + 8 7 + --- + 3 - # | | | | - # | | | | - # | | L6 L4 | | - # L8 | | | | - # | | | | L2 - # | | L5 | | - # | + ------------------- + | - # | 5 6 | - # | | - # 1 + ------------------------------- + 2 - # L1 - # - # - # for point 8 and 7 --> choose y coordinate from outer rectangle and x - # coordinate from inner rectangle - - # - # points - # - geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)) - geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) - geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) - geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) - - geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_in1, sim_Lz_in1, sim_h)) - geof.write("Point(6) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_in1, sim_Lz_in1, sim_h)) - geof.write("Point(7) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_out2, sim_Lz_in1, sim_h)) - geof.write("Point(8) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_out2, sim_Lz_in1, sim_h)) - - # - # lines - # - geof.write("Line(1) = {1, 2};\n") - geof.write("Line(2) = {2, 3};\n") - geof.write("Line(3) = {3, 7};\n") - geof.write("Line(4) = {7, 6};\n") - geof.write("Line(5) = {6, 5};\n") - geof.write("Line(6) = {5, 8};\n") - geof.write("Line(7) = {8, 4};\n") - geof.write("Line(8) = {4, 1};\n") - - # - # surfaces - # - geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6, 7, 8};\n") - - # - # plane surface - # - geof.write("Plane Surface(1) = {1};\n") - - # - # physical surface - # - tag = '"' + "a" + '"' - geof.write("Physical Surface(%s) = {1};\n" % (tag)) - - # close file - geof.close() - - -def generate_moving_wall_gmsh_input(inp_dir, filename, rectangle, mesh_size, pp_tag): - - sim_inp_dir = str(inp_dir) - - # outer rectangle - sim_Lx_out1 = rectangle[0] - sim_Ly_out1 = rectangle[1] - sim_Lz_out1 = rectangle[2] - sim_Lx_out2 = rectangle[3] - sim_Ly_out2 = rectangle[4] - sim_Lz_out2 = rectangle[5] - - # mesh size - sim_h = mesh_size - - # - # create .geo file for gmsh - # - geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') - geof.write("cl__1 = 1;\n") - geof.write("Mesh.MshFileVersion = 2.2;\n") - - # - # points - # - geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)); - geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) - geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) - geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) - - # - # lines - # - geof.write("Line(1) = {1, 2};\n") - geof.write("Line(2) = {2, 3};\n") - geof.write("Line(3) = {3, 4};\n") - geof.write("Line(4) = {4, 1};\n") - - # - # surfaces - # - geof.write("Line Loop(1) = {1, 2, 3, 4};\n") - - # - # plane surface - # - geof.write("Plane Surface(1) = {1};\n") - - # - # physical surface - # - tag = '"' + "a" + '"' - geof.write("Physical Surface(%s) = {1};\n" % (tag)) - - # close file - geof.close() - - -def create_input_file(inp_dir, pp_tag): - """Generates input file for two-particle test""" - - sim_inp_dir = str(inp_dir) - - ## domain inside the wall - dx0, dy0, dz0 = 0., 0., 0. - dx1, dy1, dz1 = 0.012, 0.012, 0. - - ## - center = [0., 0., 0.] - R1 = 0.001 - R2 = 0.001 - mesh_size = R1 / 5. - if R2 < R1: - mesh_size = R2 / 5. - - horizon = 3. * mesh_size - particle_dist = 0.001 - - particle_padding = 1.5 * mesh_size - - ## wall - - # rigid wall - wpd = 1.1 * mesh_size # particle-wall initial distance - rwp = horizon + wpd # padding outside domain (thickness plust wpd) - rwo_rect = [dx0 - rwp, dy0 - rwp, dz0, dx1 + rwp, dy1 + rwp, dz0] - rwi_rect = [dx0 - wpd, dy0 - wpd, dz0, dx1 + wpd, dy1 + wpd, dz0] - - # moving wall - mw_rect = [dx0-wpd, dy1+wpd, dz0, dx1+wpd, dy1+rwp, dz0] - - # maximum distance to stop the simulation - max_dist_check = 20.*dx1 - - ## time - final_time = 0.04 - num_steps = 400000 - # final_time = 0.00002 - # num_steps = 2 - num_outputs = 40 - dt_out_n = num_steps / num_outputs - test_dt_out_n = dt_out_n / 100 - perform_out = True - - ## material - poisson1 = 0.25 - rho1 = 1200. - K1 = 2.16e+7 - E1 = get_E(K1, poisson1) - G1 = get_G(E1, poisson1) - Gc1 = 50. - - poisson2 = 0.25 - rho2 = 1200. - K2 = 2.16e+7 - E2 = get_E(K2, poisson2) - G2 = get_G(E2, poisson2) - Gc2 = 50. - - # rigid wall - poisson3 = 0.25 - rho3 = 1200. - K3 = 2.16e+7 - E3 = get_E(K3, poisson3) - G3 = get_G(E3, poisson3) - Gc3 = 50. - - # moving wall - poisson4 = 0.25 - rho4 = 1200. - K4 = 2.16e+7 - E4 = get_E(K4, poisson4) - G4 = get_G(E4, poisson4) - Gc4 = 50. - - ## contact - # R_contact = 0.95 * mesh_size - # R_contact = 1.74e-04 - R_contact_factor = 0.95 - - # Kn_V_max = 7.385158e+05 - # Kn = np.power(Kn_V_max, 2) - # compute from bulk modulus - - # from bulk modulus - Kn_11 = 18. * get_eff_k(K1, K1) / (np.pi * np.power(horizon, 5)) - Kn_22 = 18. * get_eff_k(K2, K2) / (np.pi * np.power(horizon, 5)) - Kn_33 = 18. * get_eff_k(K3, K3) / (np.pi * np.power(horizon, 5)) - Kn_44 = 18. * get_eff_k(K4, K4) / (np.pi * np.power(horizon, 5)) - Kn_12 = 18. * get_eff_k(K1, K2) / (np.pi * np.power(horizon, 5)) - Kn_13 = 18. * get_eff_k(K1, K3) / (np.pi * np.power(horizon, 5)) - Kn_14 = 18. * get_eff_k(K1, K4) / (np.pi * np.power(horizon, 5)) - Kn_23 = 18. * get_eff_k(K2, K3) / (np.pi * np.power(horizon, 5)) - Kn_24 = 18. * get_eff_k(K2, K4) / (np.pi * np.power(horizon, 5)) - Kn_34 = 18. * get_eff_k(K3, K4) / (np.pi * np.power(horizon, 5)) - - beta_n_eps = 0.95 - friction_coeff = 0.5 - damping_active = True - friction_active = False - beta_n_factor = 100. - - ## gravity - gravity_active = True - gravity = [0., -10., 0.] - - ## moving wall downward velocity - mw_vy = -0.06 - - - ### ---------------------------------------------------------------- ### - # generate YAML file - ### ---------------------------------------------------------------- ### - # print('\nGenerating imput file\n') - inpf = open(sim_inp_dir + 'input_' + str(pp_tag) + '.yaml','w') - inpf.write("Model:\n") - inpf.write(" Dimension: 2\n") - inpf.write(" Discretization_Type:\n") - inpf.write(" Spatial: finite_difference\n") - inpf.write(" Time: central_difference\n") - inpf.write(" Final_Time: %4.6e\n" % (final_time)) - inpf.write(" Time_Steps: %d\n" % (num_steps)) - - # - # container info - # - inpf.write("Container:\n") - inpf.write(" Geometry:\n") - inpf.write(" Type: rectangle\n") - inpf.write(" Parameters: " + print_dbl_list(rwo_rect)) - - # - # zone info - # - inpf.write("Zone:\n") - inpf.write(" Zones: 4\n") - - ## zone 1 (bottom particle) - inpf.write(" Zone_1:\n") - inpf.write(" Is_Wall: false\n") - - ## zone 2 (top particle) - inpf.write(" Zone_2:\n") - inpf.write(" Is_Wall: false\n") - - ## zone 3 (rigid wall) - inpf.write(" Zone_3:\n") - inpf.write(" Is_Wall: true\n") - inpf.write(" Type: rectangle\n") - inpf.write(" Parameters: " + print_dbl_list(rwo_rect)) - - ## zone 4 (moving wall) - inpf.write(" Zone_4:\n") - inpf.write(" Is_Wall: true\n") - inpf.write(" Type: rectangle\n") - inpf.write(" Parameters: " + print_dbl_list(mw_rect)) - - # - # particle info - # - inpf.write("Particle:\n") - - inpf.write(" Test_Name: compressive_test\n") - inpf.write(" Compressive_Test:\n") - inpf.write(" Wall_Id: 1\n") - inpf.write(" Wall_Force_Direction: 2\n") - - inpf.write(" Zone_1:\n") - inpf.write(" Type: circle\n") - p1_geom = [R1, center[0], center[1], center[2]] - p2_geom = [R2, center[0], center[1], center[2]] - inpf.write(" Parameters: " + print_dbl_list(p1_geom)) - inpf.write(" Zone_2:\n") - inpf.write(" Type: circle\n") - inpf.write(" Parameters: " + print_dbl_list(p2_geom)) - - # - # wall info - # - inpf.write("Wall:\n") - inpf.write(" Zone_3:\n") - inpf.write(" Type: flexible\n") - inpf.write(" All_Dofs_Constrained: true\n") - inpf.write(" Mesh: true\n") - - inpf.write(" Zone_4:\n") - inpf.write(" Type: flexible\n") - inpf.write(" All_Dofs_Constrained: false\n") - inpf.write(" Mesh: true\n") - - # - # particle generation - # - inpf.write("Particle_Generation:\n") - inpf.write(" From_File: particle_locations_" + str(pp_tag) + ".csv\n") - - # - # Mesh info - # - inpf.write("Mesh:\n") - - ## zone 1 - inpf.write(" Zone_1:\n") - inpf.write(" File: mesh_cir_1_" + str(pp_tag) + ".msh \n") - - ## zone 2 - inpf.write(" Zone_2:\n") - inpf.write(" File: mesh_cir_2_" + str(pp_tag) + ".msh \n") - - ## zone 3 (wall) - inpf.write(" Zone_3:\n") - inpf.write(" File: mesh_rigid_wall_" + str(pp_tag) + ".msh \n") - - ## zone 4 (wall) - inpf.write(" Zone_4:\n") - inpf.write(" File: mesh_moving_wall_" + str(pp_tag) + ".msh \n") - - # - # Contact info - # - inpf.write("Contact:\n") - - ## 11 - inpf.write(" Zone_11:\n") - # inpf.write(" Contact_Radius: %4.6e\n" % (R_contact)) - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_11)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 12 - inpf.write(" Zone_12:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_12)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 13 - inpf.write(" Zone_13:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_13)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 14 - inpf.write(" Zone_14:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_14)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 22 - inpf.write(" Zone_22:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_22)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 23 - inpf.write(" Zone_23:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_23)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 24 - inpf.write(" Zone_24:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_24)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 33 - inpf.write(" Zone_33:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_33)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 34 - inpf.write(" Zone_34:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_34)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 4 - inpf.write(" Zone_44:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_44)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - # - # Neighbor info - # - inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") - - # - # Material info - # - inpf.write("Material:\n") - - ## zone 1 - inpf.write(" Zone_1:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho1)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K1)) - inpf.write(" G: %4.6e\n" % (G1)) - inpf.write(" Gc: %4.6e\n" % (Gc1)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - ## zone 2 - inpf.write(" Zone_2:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho2)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K2)) - inpf.write(" G: %4.6e\n" % (G2)) - inpf.write(" Gc: %4.6e\n" % (Gc2)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - ## zone 3 - inpf.write(" Zone_3:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho3)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K3)) - inpf.write(" G: %4.6e\n" % (G3)) - inpf.write(" Gc: %4.6e\n" % (Gc3)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - ## zone 4 - inpf.write(" Zone_4:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho4)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K4)) - inpf.write(" G: %4.6e\n" % (G4)) - inpf.write(" Gc: %4.6e\n" % (Gc4)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - # - # Force - # - if gravity_active == True: - inpf.write("Force_BC:\n") - inpf.write(" Gravity: " + print_dbl_list(gravity)) - - # - # Displacement - # - inpf.write("Displacement_BC:\n") - inpf.write(" Sets: 2\n") - - inpf.write(" Set_1:\n") - inpf.write(" Wall_List: [0]\n") - inpf.write(" Direction: [1,2]\n") - inpf.write(" Time_Function:\n") - inpf.write(" Type: constant\n") - inpf.write(" Parameters:\n") - inpf.write(" - 0.0\n") - inpf.write(" Spatial_Function:\n") - inpf.write(" Type: constant\n") - inpf.write(" Zero_Displacement: true\n") - - inpf.write(" Set_2:\n") - inpf.write(" Wall_List: [1]\n") - inpf.write(" Direction: [2]\n") - inpf.write(" Time_Function:\n") - inpf.write(" Type: linear\n") - inpf.write(" Parameters:\n") - inpf.write(" - %4.6e\n" % (mw_vy)) - inpf.write(" Spatial_Function:\n") - inpf.write(" Type: constant\n") - - # - # Output info - # - inpf.write("Output:\n") - inpf.write(" Path: ../out/\n") - inpf.write(" Tags:\n") - inpf.write(" - Displacement\n") - inpf.write(" - Velocity\n") - inpf.write(" - Force\n") - inpf.write(" - Force_Density\n") - inpf.write(" - Damage_Z\n") - inpf.write(" - Damage\n") - inpf.write(" - Nodal_Volume\n") - inpf.write(" - Zone_ID\n") - inpf.write(" - Particle_ID\n") - inpf.write(" - Fixity\n") - inpf.write(" - Force_Fixity\n") - inpf.write(" - Contact_Data\n") - inpf.write(" - No_Fail_Node\n") - inpf.write(" - Boundary_Node_Flag\n") - # inpf.write(" - Strain_Stress\n") - inpf.write(" Output_Interval: %d\n" % (dt_out_n)) - inpf.write(" Compress_Type: zlib\n") - inpf.write(" Perform_FE_Out: false\n") - if perform_out: - inpf.write(" Perform_Out: true\n") - else: - inpf.write(" Perform_Out: false\n") - inpf.write(" Test_Output_Interval: %d\n" % (test_dt_out_n)) - - inpf.write(" Debug: 1\n") - inpf.write(" Tag_PP: %d\n" %(int(pp_tag))) - inpf.write(" Output_Criteria: \n") - # inpf.write(" Type: max_particle_dist\n") - # inpf.write(" Parameters: [%4.6e]\n" % (2. * sim_h)) - inpf.write(" Type: max_node_dist\n") - inpf.write(" Parameters: [%4.6e]\n" % (max_dist_check)) - - - inpf.write("HPX:\n") - inpf.write(" Partitions: 1\n") - - # close file - inpf.close() - - - # generate particle locations - re_generate_files = False - if re_generate_files: - particle_locations(inp_dir, pp_tag, R1, R2, [dx0, dy0, dz0, dx1, dy1, dz1], mesh_size, particle_padding) - - # generate particle .geo file (large) - generate_particle_gmsh_input(inp_dir, 'mesh_cir_1', center, R1, mesh_size, pp_tag) - generate_particle_gmsh_input(inp_dir, 'mesh_cir_2', center, R2, mesh_size, pp_tag) - generate_moving_wall_gmsh_input(inp_dir, 'mesh_moving_wall', mw_rect, mesh_size, pp_tag) - generate_rigid_wall_gmsh_input(inp_dir, 'mesh_rigid_wall', rwo_rect, rwi_rect, mesh_size, pp_tag) - -##-------------------------------------------------------## -##-------------------------------------------------------## -inp_dir = './' -pp_tag = 0 -if len(sys.argv) > 1: - pp_tag = int(sys.argv[1]) - -create_input_file(inp_dir, pp_tag) diff --git a/test/test_data/peridem/compressive_n25/run.sh b/test/test_data/peridem/compressive_n25/run.sh deleted file mode 100755 index b1d685cb..00000000 --- a/test/test_data/peridem/compressive_n25/run.sh +++ /dev/null @@ -1,55 +0,0 @@ -#!/bin/bash -MY_PWD=$(pwd) - -( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" - -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_cir_1$f_suf" -gmsh "$f_p_1_mesh.geo" -2 &> /dev/null -gmsh "$f_p_1_mesh.geo" -2 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_cir_2$f_suf" -gmsh "$f_p_2_mesh.geo" -2 &> /dev/null -gmsh "$f_p_2_mesh.geo" -2 -o "$f_p_2_mesh.vtk" &> /dev/null - -f_mw_mesh="mesh_moving_wall$f_suf" -gmsh "$f_mw_mesh.geo" -2 &> /dev/null -gmsh "$f_mw_mesh.geo" -2 -o "$f_mw_mesh.vtk" &> /dev/null - -f_rw_mesh="mesh_rigid_wall$f_suf" -gmsh "$f_rw_mesh.geo" -2 &> /dev/null -gmsh "$f_rw_mesh.geo" -2 -o "$f_rw_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts - -) 2>&1 | tee output.log - - -# check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi diff --git a/test/test_data/peridem/compressive_n51/inp/particle_locations_0.csv b/test/test_data/peridem/compressive_n51/inp/particle_locations_0.csv deleted file mode 100644 index 178c648d..00000000 --- a/test/test_data/peridem/compressive_n51/inp/particle_locations_0.csv +++ /dev/null @@ -1,52 +0,0 @@ -i, x, y, z, r -0, 0.001276, 0.001269, 0.000000, 0.000969 -1, 0.003506, 0.001245, 0.000000, 0.000945 -0, 0.005686, 0.001276, 0.000000, 0.000976 -1, 0.007841, 0.001261, 0.000000, 0.000961 -0, 0.010086, 0.001245, 0.000000, 0.000945 -1, 0.012343, 0.001219, 0.000000, 0.000919 -0, 0.001231, 0.003603, 0.000000, 0.000927 -1, 0.003363, 0.003679, 0.000000, 0.001002 -0, 0.005636, 0.003637, 0.000000, 0.000960 -1, 0.007964, 0.003682, 0.000000, 0.001005 -0, 0.010226, 0.003689, 0.000000, 0.001012 -1, 0.012460, 0.003603, 0.000000, 0.000927 -0, 0.001359, 0.006108, 0.000000, 0.000985 -1, 0.003720, 0.006153, 0.000000, 0.001030 -0, 0.006177, 0.006220, 0.000000, 0.001098 -1, 0.008592, 0.006043, 0.000000, 0.000920 -0, 0.010755, 0.006127, 0.000000, 0.001004 -1, 0.001413, 0.008625, 0.000000, 0.001079 -0, 0.003720, 0.008449, 0.000000, 0.000903 -1, 0.005876, 0.008480, 0.000000, 0.000934 -0, 0.008271, 0.008619, 0.000000, 0.001073 -1, 0.010637, 0.008470, 0.000000, 0.000923 -0, 0.012760, 0.008470, 0.000000, 0.000923 -1, 0.001422, 0.011078, 0.000000, 0.001037 -0, 0.003756, 0.011003, 0.000000, 0.000962 -1, 0.006095, 0.011068, 0.000000, 0.001027 -0, 0.008442, 0.011043, 0.000000, 0.001002 -1, 0.010801, 0.011126, 0.000000, 0.001085 -0, 0.001335, 0.013448, 0.000000, 0.001018 -1, 0.003584, 0.013445, 0.000000, 0.001015 -0, 0.005917, 0.013426, 0.000000, 0.000997 -1, 0.008171, 0.013417, 0.000000, 0.000988 -0, 0.010463, 0.013499, 0.000000, 0.001069 -1, 0.012730, 0.013397, 0.000000, 0.000967 -0, 0.001490, 0.015939, 0.000000, 0.001093 -1, 0.003882, 0.015899, 0.000000, 0.001053 -0, 0.006211, 0.015749, 0.000000, 0.000903 -1, 0.008522, 0.015856, 0.000000, 0.001010 -0, 0.010682, 0.015779, 0.000000, 0.000933 -1, 0.012752, 0.015760, 0.000000, 0.000914 -0, 0.001256, 0.018117, 0.000000, 0.000917 -1, 0.003411, 0.018223, 0.000000, 0.001022 -0, 0.005725, 0.018169, 0.000000, 0.000969 -1, 0.007985, 0.018189, 0.000000, 0.000989 -0, 0.010230, 0.018202, 0.000000, 0.001001 -1, 0.012624, 0.018249, 0.000000, 0.001049 -0, 0.001379, 0.020659, 0.000000, 0.000997 -1, 0.003625, 0.020668, 0.000000, 0.001006 -0, 0.005918, 0.020639, 0.000000, 0.000977 -1, 0.008266, 0.020646, 0.000000, 0.000984 -0, 0.010651, 0.020678, 0.000000, 0.001016 diff --git a/test/test_data/peridem/compressive_n51/inp/problem_setup.py b/test/test_data/peridem/compressive_n51/inp/problem_setup.py deleted file mode 100644 index 8cddebfe..00000000 --- a/test/test_data/peridem/compressive_n51/inp/problem_setup.py +++ /dev/null @@ -1,936 +0,0 @@ -import os -import numpy as np -import sys - -def print_bool(arg, prefix = ""): - - str = prefix - if arg == True: - str += "True\n" - else: - str += "False\n" - return str - -def print_dbl(arg, prefix = ""): - - str = prefix + "%4.6e\n" % (arg) - return str - -def print_int(arg, prefix = ""): - str = prefix + "%d\n" % (arg) - return str - -def print_dbl_list(arg, prefix = ""): - str = prefix + "[" - N = len(arg) - for i in range(N): - str += "%4.6e" % (arg[i]) - if i < N - 1: - str += ", " - else: - str += "]\n" - - return str - -def print_int_list(arg, prefix = ""): - str = prefix + "[" - N = len(arg) - for i in range(N): - str += "%d" % (arg[i]) - if i < N - 1: - str += ", " - else: - str += "]\n" - - return str - -def does_intersect(p, r, R, particles, padding): - - for q in particles: - - pq = np.array([p[i] - q[i] for i in range(3)]) - if np.linalg.norm(pq) <= r + R + padding: - return True - - return False - - -def does_intersect_rect(p, r, particles, padding, rect): - - # check intersection with rectangle - pr = [p[0] - r, p[1] - r, p[2], p[0] + r, p[1] + r, p[2]] - - if pr[0] < rect[0] + padding or pr[1] < rect[1] + padding or pr[3] > rect[3] - padding or pr[4] > rect[4] - padding: - - # print('circle (xc = {}, r = {:5.3e}) intersects rect = {} with pad = {:5.3e}'.format(p, r, rect, padding)) - - return True - - # loop over particles - # for pi in particles: - # dx = [p[0] - pi[1], p[1] - pi[2], p[2] - pi[3]] - # rR = r + pi[4] + padding - # if np.linalg.norm(dx) < rR: - # return True - - # print('circle (xc = {}, r = {:5.3e}) does not intersects rect = {} with pad = {:5.3e}'.format(p, r, rect, padding)) - return False - - -def get_E(K, nu): - return 3. * K * (1. - 2. * nu) - -def get_G(E, nu): - return E / (2. * (1. + nu)) - - -def get_eff_k(k1, k2): - return 2. * k1 * k2 / (k1 + k2) - - -def get_max(l): - l = np.array(l) - return l.max() - - -def particle_locations(inp_dir, pp_tag, R1, R2, rect, mesh_size, padding): - """Generate particle location data""" - - # - # - # Given rectangle, we want to fill it with particles of R1 and R2 radius - # in alternate fashion with padding between each particle - # - # - particles = [] - - # find how approximate number of rows and cols we can have - check_r = R1 - if R1 > R2: - check_r = R2 - - rows = int((rect[3] - rect[0])/ check_r) - cols = int((rect[4] - rect[1])/ check_r) - - rads = [R1, R2] - - counter = 0 - x_old = rect[0] - y_old = rect[1] - pad = padding - - cx = 0. - cy = 0. - cz = 0. - r = 0. - - row_rads = [] - row_rads.append(R1) - row_rads.append(R2) - - for i in range(rows): - - if i > 0: - y_old = cy + get_max(row_rads) - - # reset - row_rads = [] - row_rads.append(R1) - row_rads.append(R2) - - num_p_cols = 0 - j = 0 - while num_p_cols < cols - 1 and j < 100: - - if j == 0: - x_old = rect[0] - - ptype = counter % 2 - r0 = rads[ptype] - - # perturb radius - r = r0 + np.random.uniform(-0.1 * r0, 0.1 * r0) - # r = r0 - row_rads.append(r) - - # random horizontal perturbation by 10% of radius - rph = np.random.uniform(-0.1 * r0, 0.1 * r0) - - cx0 = x_old + pad + r - cx = cx0 + rph - cy = y_old + pad + r - cz = rect[2] - - inters = does_intersect_rect([cx, cy, cz], r, particles, pad, rect) - inters_parts = does_intersect - - if inters == False: - particles.append([float(ptype), cx, cy, cz, r]) - - # set x_old - x_old = cx + r - - counter += 1 - - num_p_cols += 1 - - j += 1 - - - inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') - inpf.write("i, x, y, z, r\n") - for p in particles: - inpf.write("%d, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4])) - - inpf.close() - - print('number of particles created = {}'.format(len(particles))) - - -def generate_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): - - sim_inp_dir = str(inp_dir) - - # center and radius - sim_Cx = center[0] - sim_Cy = center[1] - sim_Cz = center[2] - sim_radius = radius - - # mesh size - sim_h = mesh_size - - # - # create .geo file for gmsh - # - geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') - geof.write("cl__1 = 1;\n") - geof.write("Mesh.MshFileVersion = 2.2;\n") - - # - # points - # - geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy, sim_Cz, sim_h)); - geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx + sim_radius, sim_Cy, sim_Cz, sim_h)) - geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx - sim_radius, sim_Cy, sim_Cz, sim_h)) - geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy + sim_radius, sim_Cz, sim_h)) - geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy - sim_radius, sim_Cz, sim_h)) - - # - # circlular arc - # - geof.write("Circle(1) = {2, 1, 4};\n") - geof.write("Circle(2) = {4, 1, 3};\n") - geof.write("Circle(3) = {3, 1, 5};\n") - geof.write("Circle(4) = {5, 1, 2};\n") - - # - # surfaces - # - geof.write("Line Loop(1) = {2, 3, 4, 1};\n") - - # - # plane surface - # - geof.write("Plane Surface(1) = {1};\n") - - # - # physical surface - # - # tag = '"' + "a" + '"' - # geof.write("Physical Surface(%s) = {1};\n" % (tag)) - - # # add center point to plane surface - geof.write("Point{1} In Surface {1};") - - # close file - geof.close() - - -def generate_rigid_wall_gmsh_input(inp_dir, filename, outer_rect, inner_rect, mesh_size, pp_tag): - - sim_inp_dir = str(inp_dir) - - # outer rectangle - sim_Lx_out1 = outer_rect[0] - sim_Ly_out1 = outer_rect[1] - sim_Lz_out1 = outer_rect[2] - sim_Lx_out2 = outer_rect[3] - sim_Ly_out2 = outer_rect[4] - sim_Lz_out2 = outer_rect[5] - - # inner rectangle - sim_Lx_in1 = inner_rect[0] - sim_Ly_in1 = inner_rect[1] - sim_Lz_in1 = inner_rect[2] - sim_Lx_in2 = inner_rect[3] - sim_Ly_in2 = inner_rect[4] - sim_Lz_in2 = inner_rect[5] - - # mesh size - sim_h = mesh_size - - # - # create .geo file for gmsh - # - geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') - geof.write("cl__1 = 1;\n") - geof.write("Mesh.MshFileVersion = 2.2;\n") - - # - # L7 L3 - # 4 + --- + 8 7 + --- + 3 - # | | | | - # | | | | - # | | L6 L4 | | - # L8 | | | | - # | | | | L2 - # | | L5 | | - # | + ------------------- + | - # | 5 6 | - # | | - # 1 + ------------------------------- + 2 - # L1 - # - # - # for point 8 and 7 --> choose y coordinate from outer rectangle and x - # coordinate from inner rectangle - - # - # points - # - geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)) - geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) - geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) - geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) - - geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_in1, sim_Lz_in1, sim_h)) - geof.write("Point(6) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_in1, sim_Lz_in1, sim_h)) - geof.write("Point(7) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_out2, sim_Lz_in1, sim_h)) - geof.write("Point(8) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_out2, sim_Lz_in1, sim_h)) - - # - # lines - # - geof.write("Line(1) = {1, 2};\n") - geof.write("Line(2) = {2, 3};\n") - geof.write("Line(3) = {3, 7};\n") - geof.write("Line(4) = {7, 6};\n") - geof.write("Line(5) = {6, 5};\n") - geof.write("Line(6) = {5, 8};\n") - geof.write("Line(7) = {8, 4};\n") - geof.write("Line(8) = {4, 1};\n") - - # - # surfaces - # - geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6, 7, 8};\n") - - # - # plane surface - # - geof.write("Plane Surface(1) = {1};\n") - - # - # physical surface - # - tag = '"' + "a" + '"' - geof.write("Physical Surface(%s) = {1};\n" % (tag)) - - # close file - geof.close() - - -def generate_moving_wall_gmsh_input(inp_dir, filename, rectangle, mesh_size, pp_tag): - - sim_inp_dir = str(inp_dir) - - # outer rectangle - sim_Lx_out1 = rectangle[0] - sim_Ly_out1 = rectangle[1] - sim_Lz_out1 = rectangle[2] - sim_Lx_out2 = rectangle[3] - sim_Ly_out2 = rectangle[4] - sim_Lz_out2 = rectangle[5] - - # mesh size - sim_h = mesh_size - - # - # create .geo file for gmsh - # - geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') - geof.write("cl__1 = 1;\n") - geof.write("Mesh.MshFileVersion = 2.2;\n") - - # - # points - # - geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)); - geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) - geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) - geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) - - # - # lines - # - geof.write("Line(1) = {1, 2};\n") - geof.write("Line(2) = {2, 3};\n") - geof.write("Line(3) = {3, 4};\n") - geof.write("Line(4) = {4, 1};\n") - - # - # surfaces - # - geof.write("Line Loop(1) = {1, 2, 3, 4};\n") - - # - # plane surface - # - geof.write("Plane Surface(1) = {1};\n") - - # - # physical surface - # - tag = '"' + "a" + '"' - geof.write("Physical Surface(%s) = {1};\n" % (tag)) - - # close file - geof.close() - - -def create_input_file(inp_dir, pp_tag): - """Generates input file for two-particle test""" - - sim_inp_dir = str(inp_dir) - - ## domain inside the wall - dx0, dy0, dz0 = 0., 0., 0. - dx1, dy1, dz1 = 0.014, 0.022, 0. - - ## - center = [0., 0., 0.] - R1 = 0.001 - R2 = 0.001 - mesh_size = R1 / 5. - if R2 < R1: - mesh_size = R2 / 5. - - horizon = 3. * mesh_size - particle_dist = 0.001 - - #particle_padding = 2 * mesh_size - particle_padding = 0.3 * R1 - - ## wall - - # rigid wall - wpd = 1.1 * mesh_size # particle-wall initial distance - rwp = horizon + wpd # padding outside domain (thickness plust wpd) - rwo_rect = [dx0 - rwp, dy0 - rwp, dz0, dx1 + rwp, dy1 + rwp, dz0] - rwi_rect = [dx0 - wpd, dy0 - wpd, dz0, dx1 + wpd, dy1 + wpd, dz0] - - # moving wall - mw_rect = [dx0-wpd, dy1+wpd, dz0, dx1+wpd, dy1+rwp, dz0] - - # maximum distance to stop the simulation - max_dist_check = 20.*dx1 - - ## time - final_time = 0.04 - num_steps = 400000 - # final_time = 0.00002 - # num_steps = 2 - num_outputs = 10 - dt_out_n = num_steps / num_outputs - test_dt_out_n = dt_out_n / 100 - perform_out = True - - ## material - poisson1 = 0.25 - rho1 = 1200. - K1 = 2.16e+7 - E1 = get_E(K1, poisson1) - G1 = get_G(E1, poisson1) - Gc1 = 50. - - poisson2 = 0.25 - rho2 = 1200. - K2 = 2.16e+7 - E2 = get_E(K2, poisson2) - G2 = get_G(E2, poisson2) - Gc2 = 50. - - # rigid wall - poisson3 = 0.25 - rho3 = 1200. - K3 = 2.16e+7 - E3 = get_E(K3, poisson3) - G3 = get_G(E3, poisson3) - Gc3 = 50. - - # moving wall - poisson4 = 0.25 - rho4 = 1200. - K4 = 2.16e+7 - E4 = get_E(K4, poisson4) - G4 = get_G(E4, poisson4) - Gc4 = 50. - - ## contact - # R_contact = 0.95 * mesh_size - # R_contact = 1.74e-04 - R_contact_factor = 0.95 - - # Kn_V_max = 7.385158e+05 - # Kn = np.power(Kn_V_max, 2) - # compute from bulk modulus - - # from bulk modulus - Kn_11 = 18. * get_eff_k(K1, K1) / (np.pi * np.power(horizon, 5)) - Kn_22 = 18. * get_eff_k(K2, K2) / (np.pi * np.power(horizon, 5)) - Kn_33 = 18. * get_eff_k(K3, K3) / (np.pi * np.power(horizon, 5)) - Kn_44 = 18. * get_eff_k(K4, K4) / (np.pi * np.power(horizon, 5)) - Kn_12 = 18. * get_eff_k(K1, K2) / (np.pi * np.power(horizon, 5)) - Kn_13 = 18. * get_eff_k(K1, K3) / (np.pi * np.power(horizon, 5)) - Kn_14 = 18. * get_eff_k(K1, K4) / (np.pi * np.power(horizon, 5)) - Kn_23 = 18. * get_eff_k(K2, K3) / (np.pi * np.power(horizon, 5)) - Kn_24 = 18. * get_eff_k(K2, K4) / (np.pi * np.power(horizon, 5)) - Kn_34 = 18. * get_eff_k(K3, K4) / (np.pi * np.power(horizon, 5)) - - beta_n_eps = 0.95 - friction_coeff = 0.5 - damping_active = True - friction_active = False - beta_n_factor = 100. - - ## gravity - gravity_active = True - gravity = [0., -10., 0.] - - ## moving wall downward velocity - mw_vy = -0.06 - - - ### ---------------------------------------------------------------- ### - # generate YAML file - ### ---------------------------------------------------------------- ### - # print('\nGenerating imput file\n') - inpf = open(sim_inp_dir + 'input_' + str(pp_tag) + '.yaml','w') - inpf.write("Model:\n") - inpf.write(" Dimension: 2\n") - inpf.write(" Discretization_Type:\n") - inpf.write(" Spatial: finite_difference\n") - inpf.write(" Time: central_difference\n") - inpf.write(" Final_Time: %4.6e\n" % (final_time)) - inpf.write(" Time_Steps: %d\n" % (num_steps)) - - # - # container info - # - inpf.write("Container:\n") - inpf.write(" Geometry:\n") - inpf.write(" Type: rectangle\n") - inpf.write(" Parameters: " + print_dbl_list(rwo_rect)) - - # - # zone info - # - inpf.write("Zone:\n") - inpf.write(" Zones: 4\n") - - ## zone 1 (bottom particle) - inpf.write(" Zone_1:\n") - inpf.write(" Is_Wall: false\n") - - ## zone 2 (top particle) - inpf.write(" Zone_2:\n") - inpf.write(" Is_Wall: false\n") - - ## zone 3 (rigid wall) - inpf.write(" Zone_3:\n") - inpf.write(" Is_Wall: true\n") - inpf.write(" Type: rectangle\n") - inpf.write(" Parameters: " + print_dbl_list(rwo_rect)) - - ## zone 4 (moving wall) - inpf.write(" Zone_4:\n") - inpf.write(" Is_Wall: true\n") - inpf.write(" Type: rectangle\n") - inpf.write(" Parameters: " + print_dbl_list(mw_rect)) - - # - # particle info - # - inpf.write("Particle:\n") - - inpf.write(" Test_Name: compressive_test\n") - inpf.write(" Compressive_Test:\n") - inpf.write(" Wall_Id: 1\n") - inpf.write(" Wall_Force_Direction: 2\n") - - inpf.write(" Zone_1:\n") - inpf.write(" Type: circle\n") - p1_geom = [R1, center[0], center[1], center[2]] - p2_geom = [R2, center[0], center[1], center[2]] - inpf.write(" Parameters: " + print_dbl_list(p1_geom)) - inpf.write(" Zone_2:\n") - inpf.write(" Type: circle\n") - inpf.write(" Parameters: " + print_dbl_list(p2_geom)) - - # - # wall info - # - inpf.write("Wall:\n") - inpf.write(" Zone_3:\n") - inpf.write(" Type: flexible\n") - inpf.write(" All_Dofs_Constrained: true\n") - inpf.write(" Mesh: true\n") - - inpf.write(" Zone_4:\n") - inpf.write(" Type: flexible\n") - inpf.write(" All_Dofs_Constrained: false\n") - inpf.write(" Mesh: true\n") - - # - # particle generation - # - inpf.write("Particle_Generation:\n") - inpf.write(" From_File: particle_locations_" + str(pp_tag) + ".csv\n") - - # - # Mesh info - # - inpf.write("Mesh:\n") - - ## zone 1 - inpf.write(" Zone_1:\n") - inpf.write(" File: mesh_cir_1_" + str(pp_tag) + ".msh \n") - - ## zone 2 - inpf.write(" Zone_2:\n") - inpf.write(" File: mesh_cir_2_" + str(pp_tag) + ".msh \n") - - ## zone 3 (wall) - inpf.write(" Zone_3:\n") - inpf.write(" File: mesh_rigid_wall_" + str(pp_tag) + ".msh \n") - - ## zone 4 (wall) - inpf.write(" Zone_4:\n") - inpf.write(" File: mesh_moving_wall_" + str(pp_tag) + ".msh \n") - - # - # Contact info - # - inpf.write("Contact:\n") - - ## 11 - inpf.write(" Zone_11:\n") - # inpf.write(" Contact_Radius: %4.6e\n" % (R_contact)) - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_11)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 12 - inpf.write(" Zone_12:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_12)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 13 - inpf.write(" Zone_13:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_13)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 14 - inpf.write(" Zone_14:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_14)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 22 - inpf.write(" Zone_22:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_22)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 23 - inpf.write(" Zone_23:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_23)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 24 - inpf.write(" Zone_24:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_24)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 33 - inpf.write(" Zone_33:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_33)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 34 - inpf.write(" Zone_34:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_34)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 4 - inpf.write(" Zone_44:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_44)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - # - # Neighbor info - # - inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") - - # - # Material info - # - inpf.write("Material:\n") - - ## zone 1 - inpf.write(" Zone_1:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho1)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K1)) - inpf.write(" G: %4.6e\n" % (G1)) - inpf.write(" Gc: %4.6e\n" % (Gc1)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - ## zone 2 - inpf.write(" Zone_2:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho2)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K2)) - inpf.write(" G: %4.6e\n" % (G2)) - inpf.write(" Gc: %4.6e\n" % (Gc2)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - ## zone 3 - inpf.write(" Zone_3:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho3)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K3)) - inpf.write(" G: %4.6e\n" % (G3)) - inpf.write(" Gc: %4.6e\n" % (Gc3)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - ## zone 4 - inpf.write(" Zone_4:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho4)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K4)) - inpf.write(" G: %4.6e\n" % (G4)) - inpf.write(" Gc: %4.6e\n" % (Gc4)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - # - # Force - # - if gravity_active == True: - inpf.write("Force_BC:\n") - inpf.write(" Gravity: " + print_dbl_list(gravity)) - - # - # Displacement - # - inpf.write("Displacement_BC:\n") - inpf.write(" Sets: 2\n") - - inpf.write(" Set_1:\n") - inpf.write(" Wall_List: [0]\n") - inpf.write(" Direction: [1,2]\n") - inpf.write(" Time_Function:\n") - inpf.write(" Type: constant\n") - inpf.write(" Parameters:\n") - inpf.write(" - 0.0\n") - inpf.write(" Spatial_Function:\n") - inpf.write(" Type: constant\n") - inpf.write(" Zero_Displacement: true\n") - - inpf.write(" Set_2:\n") - inpf.write(" Wall_List: [1]\n") - inpf.write(" Direction: [2]\n") - inpf.write(" Time_Function:\n") - inpf.write(" Type: linear\n") - inpf.write(" Parameters:\n") - inpf.write(" - %4.6e\n" % (mw_vy)) - inpf.write(" Spatial_Function:\n") - inpf.write(" Type: constant\n") - - # - # Output info - # - inpf.write("Output:\n") - inpf.write(" Path: ../out/\n") - inpf.write(" Tags:\n") - inpf.write(" - Displacement\n") - inpf.write(" - Velocity\n") - inpf.write(" - Force\n") - inpf.write(" - Force_Density\n") - inpf.write(" - Damage_Z\n") - inpf.write(" - Damage\n") - inpf.write(" - Nodal_Volume\n") - inpf.write(" - Zone_ID\n") - inpf.write(" - Particle_ID\n") - inpf.write(" - Fixity\n") - inpf.write(" - Force_Fixity\n") - inpf.write(" - Contact_Nodes\n") - inpf.write(" - No_Fail_Node\n") - inpf.write(" - Boundary_Node_Flag\n") - # inpf.write(" - Strain_Stress\n") - inpf.write(" Output_Interval: %d\n" % (dt_out_n)) - inpf.write(" Compress_Type: zlib\n") - inpf.write(" Perform_FE_Out: false\n") - if perform_out: - inpf.write(" Perform_Out: true\n") - else: - inpf.write(" Perform_Out: false\n") - inpf.write(" Test_Output_Interval: %d\n" % (test_dt_out_n)) - - inpf.write(" Debug: 1\n") - inpf.write(" Tag_PP: %d\n" %(int(pp_tag))) - inpf.write(" Output_Criteria: \n") - # inpf.write(" Type: max_particle_dist\n") - # inpf.write(" Parameters: [%4.6e]\n" % (2. * sim_h)) - inpf.write(" Type: max_node_dist\n") - inpf.write(" Parameters: [%4.6e]\n" % (max_dist_check)) - - - inpf.write("HPX:\n") - inpf.write(" Partitions: 1\n") - - # close file - inpf.close() - - - # generate particle locations - re_generate_files = False - if re_generate_files: - particle_locations(inp_dir, pp_tag, R1, R2, [dx0, dy0, dz0, dx1, dy1, dz1], mesh_size, particle_padding) - - # generate particle .geo file (large) - generate_particle_gmsh_input(inp_dir, 'mesh_cir_1', center, R1, mesh_size, pp_tag) - generate_particle_gmsh_input(inp_dir, 'mesh_cir_2', center, R2, mesh_size, pp_tag) - generate_moving_wall_gmsh_input(inp_dir, 'mesh_moving_wall', mw_rect, mesh_size, pp_tag) - generate_rigid_wall_gmsh_input(inp_dir, 'mesh_rigid_wall', rwo_rect, rwi_rect, mesh_size, pp_tag) - -##-------------------------------------------------------## -##-------------------------------------------------------## -inp_dir = './' -pp_tag = 0 -if len(sys.argv) > 1: - pp_tag = int(sys.argv[1]) - -create_input_file(inp_dir, pp_tag) diff --git a/test/test_data/peridem/compressive_n51/run.sh b/test/test_data/peridem/compressive_n51/run.sh deleted file mode 100755 index b1d685cb..00000000 --- a/test/test_data/peridem/compressive_n51/run.sh +++ /dev/null @@ -1,55 +0,0 @@ -#!/bin/bash -MY_PWD=$(pwd) - -( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" - -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_cir_1$f_suf" -gmsh "$f_p_1_mesh.geo" -2 &> /dev/null -gmsh "$f_p_1_mesh.geo" -2 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_cir_2$f_suf" -gmsh "$f_p_2_mesh.geo" -2 &> /dev/null -gmsh "$f_p_2_mesh.geo" -2 -o "$f_p_2_mesh.vtk" &> /dev/null - -f_mw_mesh="mesh_moving_wall$f_suf" -gmsh "$f_mw_mesh.geo" -2 &> /dev/null -gmsh "$f_mw_mesh.geo" -2 -o "$f_mw_mesh.vtk" &> /dev/null - -f_rw_mesh="mesh_rigid_wall$f_suf" -gmsh "$f_rw_mesh.geo" -2 &> /dev/null -gmsh "$f_rw_mesh.geo" -2 -o "$f_rw_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts - -) 2>&1 | tee output.log - - -# check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi diff --git a/test/test_data/peridem/compressive_n51_restart/inp/particle_locations_0.csv b/test/test_data/peridem/compressive_n51_restart/inp/particle_locations_0.csv deleted file mode 100644 index 178c648d..00000000 --- a/test/test_data/peridem/compressive_n51_restart/inp/particle_locations_0.csv +++ /dev/null @@ -1,52 +0,0 @@ -i, x, y, z, r -0, 0.001276, 0.001269, 0.000000, 0.000969 -1, 0.003506, 0.001245, 0.000000, 0.000945 -0, 0.005686, 0.001276, 0.000000, 0.000976 -1, 0.007841, 0.001261, 0.000000, 0.000961 -0, 0.010086, 0.001245, 0.000000, 0.000945 -1, 0.012343, 0.001219, 0.000000, 0.000919 -0, 0.001231, 0.003603, 0.000000, 0.000927 -1, 0.003363, 0.003679, 0.000000, 0.001002 -0, 0.005636, 0.003637, 0.000000, 0.000960 -1, 0.007964, 0.003682, 0.000000, 0.001005 -0, 0.010226, 0.003689, 0.000000, 0.001012 -1, 0.012460, 0.003603, 0.000000, 0.000927 -0, 0.001359, 0.006108, 0.000000, 0.000985 -1, 0.003720, 0.006153, 0.000000, 0.001030 -0, 0.006177, 0.006220, 0.000000, 0.001098 -1, 0.008592, 0.006043, 0.000000, 0.000920 -0, 0.010755, 0.006127, 0.000000, 0.001004 -1, 0.001413, 0.008625, 0.000000, 0.001079 -0, 0.003720, 0.008449, 0.000000, 0.000903 -1, 0.005876, 0.008480, 0.000000, 0.000934 -0, 0.008271, 0.008619, 0.000000, 0.001073 -1, 0.010637, 0.008470, 0.000000, 0.000923 -0, 0.012760, 0.008470, 0.000000, 0.000923 -1, 0.001422, 0.011078, 0.000000, 0.001037 -0, 0.003756, 0.011003, 0.000000, 0.000962 -1, 0.006095, 0.011068, 0.000000, 0.001027 -0, 0.008442, 0.011043, 0.000000, 0.001002 -1, 0.010801, 0.011126, 0.000000, 0.001085 -0, 0.001335, 0.013448, 0.000000, 0.001018 -1, 0.003584, 0.013445, 0.000000, 0.001015 -0, 0.005917, 0.013426, 0.000000, 0.000997 -1, 0.008171, 0.013417, 0.000000, 0.000988 -0, 0.010463, 0.013499, 0.000000, 0.001069 -1, 0.012730, 0.013397, 0.000000, 0.000967 -0, 0.001490, 0.015939, 0.000000, 0.001093 -1, 0.003882, 0.015899, 0.000000, 0.001053 -0, 0.006211, 0.015749, 0.000000, 0.000903 -1, 0.008522, 0.015856, 0.000000, 0.001010 -0, 0.010682, 0.015779, 0.000000, 0.000933 -1, 0.012752, 0.015760, 0.000000, 0.000914 -0, 0.001256, 0.018117, 0.000000, 0.000917 -1, 0.003411, 0.018223, 0.000000, 0.001022 -0, 0.005725, 0.018169, 0.000000, 0.000969 -1, 0.007985, 0.018189, 0.000000, 0.000989 -0, 0.010230, 0.018202, 0.000000, 0.001001 -1, 0.012624, 0.018249, 0.000000, 0.001049 -0, 0.001379, 0.020659, 0.000000, 0.000997 -1, 0.003625, 0.020668, 0.000000, 0.001006 -0, 0.005918, 0.020639, 0.000000, 0.000977 -1, 0.008266, 0.020646, 0.000000, 0.000984 -0, 0.010651, 0.020678, 0.000000, 0.001016 diff --git a/test/test_data/peridem/compressive_n51_restart/inp/problem_setup.py b/test/test_data/peridem/compressive_n51_restart/inp/problem_setup.py deleted file mode 100644 index 9ec1dbf2..00000000 --- a/test/test_data/peridem/compressive_n51_restart/inp/problem_setup.py +++ /dev/null @@ -1,942 +0,0 @@ -import os -import numpy as np -import sys - -def print_bool(arg, prefix = ""): - - str = prefix - if arg == True: - str += "True\n" - else: - str += "False\n" - return str - -def print_dbl(arg, prefix = ""): - - str = prefix + "%4.6e\n" % (arg) - return str - -def print_int(arg, prefix = ""): - str = prefix + "%d\n" % (arg) - return str - -def print_dbl_list(arg, prefix = ""): - str = prefix + "[" - N = len(arg) - for i in range(N): - str += "%4.6e" % (arg[i]) - if i < N - 1: - str += ", " - else: - str += "]\n" - - return str - -def print_int_list(arg, prefix = ""): - str = prefix + "[" - N = len(arg) - for i in range(N): - str += "%d" % (arg[i]) - if i < N - 1: - str += ", " - else: - str += "]\n" - - return str - -def does_intersect(p, r, R, particles, padding): - - for q in particles: - - pq = np.array([p[i] - q[i] for i in range(3)]) - if np.linalg.norm(pq) <= r + R + padding: - return True - - return False - - -def does_intersect_rect(p, r, particles, padding, rect): - - # check intersection with rectangle - pr = [p[0] - r, p[1] - r, p[2], p[0] + r, p[1] + r, p[2]] - - if pr[0] < rect[0] + padding or pr[1] < rect[1] + padding or pr[3] > rect[3] - padding or pr[4] > rect[4] - padding: - - # print('circle (xc = {}, r = {:5.3e}) intersects rect = {} with pad = {:5.3e}'.format(p, r, rect, padding)) - - return True - - # loop over particles - # for pi in particles: - # dx = [p[0] - pi[1], p[1] - pi[2], p[2] - pi[3]] - # rR = r + pi[4] + padding - # if np.linalg.norm(dx) < rR: - # return True - - # print('circle (xc = {}, r = {:5.3e}) does not intersects rect = {} with pad = {:5.3e}'.format(p, r, rect, padding)) - return False - - -def get_E(K, nu): - return 3. * K * (1. - 2. * nu) - -def get_G(E, nu): - return E / (2. * (1. + nu)) - - -def get_eff_k(k1, k2): - return 2. * k1 * k2 / (k1 + k2) - - -def get_max(l): - l = np.array(l) - return l.max() - - -def particle_locations(inp_dir, pp_tag, R1, R2, rect, mesh_size, padding): - """Generate particle location data""" - - # - # - # Given rectangle, we want to fill it with particles of R1 and R2 radius - # in alternate fashion with padding between each particle - # - # - particles = [] - - # find how approximate number of rows and cols we can have - check_r = R1 - if R1 > R2: - check_r = R2 - - rows = int((rect[3] - rect[0])/ check_r) - cols = int((rect[4] - rect[1])/ check_r) - - rads = [R1, R2] - - counter = 0 - x_old = rect[0] - y_old = rect[1] - pad = padding - - cx = 0. - cy = 0. - cz = 0. - r = 0. - - row_rads = [] - row_rads.append(R1) - row_rads.append(R2) - - for i in range(rows): - - if i > 0: - y_old = cy + get_max(row_rads) - - # reset - row_rads = [] - row_rads.append(R1) - row_rads.append(R2) - - num_p_cols = 0 - j = 0 - while num_p_cols < cols - 1 and j < 100: - - if j == 0: - x_old = rect[0] - - ptype = counter % 2 - r0 = rads[ptype] - - # perturb radius - r = r0 + np.random.uniform(-0.1 * r0, 0.1 * r0) - # r = r0 - row_rads.append(r) - - # random horizontal perturbation by 10% of radius - rph = np.random.uniform(-0.1 * r0, 0.1 * r0) - - cx0 = x_old + pad + r - cx = cx0 + rph - cy = y_old + pad + r - cz = rect[2] - - inters = does_intersect_rect([cx, cy, cz], r, particles, pad, rect) - inters_parts = does_intersect - - if inters == False: - particles.append([float(ptype), cx, cy, cz, r]) - - # set x_old - x_old = cx + r - - counter += 1 - - num_p_cols += 1 - - j += 1 - - - inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') - inpf.write("i, x, y, z, r\n") - for p in particles: - inpf.write("%d, %Lf, %Lf, %Lf, %Lf\n" % (int(p[0]), p[1], p[2], p[3], p[4])) - - inpf.close() - - print('number of particles created = {}'.format(len(particles))) - - -def generate_particle_gmsh_input(inp_dir, filename, center, radius, mesh_size, pp_tag): - - sim_inp_dir = str(inp_dir) - - # center and radius - sim_Cx = center[0] - sim_Cy = center[1] - sim_Cz = center[2] - sim_radius = radius - - # mesh size - sim_h = mesh_size - - # - # create .geo file for gmsh - # - geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') - geof.write("cl__1 = 1;\n") - geof.write("Mesh.MshFileVersion = 2.2;\n") - - # - # points - # - geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy, sim_Cz, sim_h)); - geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx + sim_radius, sim_Cy, sim_Cz, sim_h)) - geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx - sim_radius, sim_Cy, sim_Cz, sim_h)) - geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy + sim_radius, sim_Cz, sim_h)) - geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Cx, sim_Cy - sim_radius, sim_Cz, sim_h)) - - # - # circlular arc - # - geof.write("Circle(1) = {2, 1, 4};\n") - geof.write("Circle(2) = {4, 1, 3};\n") - geof.write("Circle(3) = {3, 1, 5};\n") - geof.write("Circle(4) = {5, 1, 2};\n") - - # - # surfaces - # - geof.write("Line Loop(1) = {2, 3, 4, 1};\n") - - # - # plane surface - # - geof.write("Plane Surface(1) = {1};\n") - - # - # physical surface - # - # tag = '"' + "a" + '"' - # geof.write("Physical Surface(%s) = {1};\n" % (tag)) - - # # add center point to plane surface - geof.write("Point{1} In Surface {1};") - - # close file - geof.close() - - -def generate_rigid_wall_gmsh_input(inp_dir, filename, outer_rect, inner_rect, mesh_size, pp_tag): - - sim_inp_dir = str(inp_dir) - - # outer rectangle - sim_Lx_out1 = outer_rect[0] - sim_Ly_out1 = outer_rect[1] - sim_Lz_out1 = outer_rect[2] - sim_Lx_out2 = outer_rect[3] - sim_Ly_out2 = outer_rect[4] - sim_Lz_out2 = outer_rect[5] - - # inner rectangle - sim_Lx_in1 = inner_rect[0] - sim_Ly_in1 = inner_rect[1] - sim_Lz_in1 = inner_rect[2] - sim_Lx_in2 = inner_rect[3] - sim_Ly_in2 = inner_rect[4] - sim_Lz_in2 = inner_rect[5] - - # mesh size - sim_h = mesh_size - - # - # create .geo file for gmsh - # - geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') - geof.write("cl__1 = 1;\n") - geof.write("Mesh.MshFileVersion = 2.2;\n") - - # - # L7 L3 - # 4 + --- + 8 7 + --- + 3 - # | | | | - # | | | | - # | | L6 L4 | | - # L8 | | | | - # | | | | L2 - # | | L5 | | - # | + ------------------- + | - # | 5 6 | - # | | - # 1 + ------------------------------- + 2 - # L1 - # - # - # for point 8 and 7 --> choose y coordinate from outer rectangle and x - # coordinate from inner rectangle - - # - # points - # - geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)) - geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) - geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) - geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) - - geof.write("Point(5) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_in1, sim_Lz_in1, sim_h)) - geof.write("Point(6) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_in1, sim_Lz_in1, sim_h)) - geof.write("Point(7) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in2, sim_Ly_out2, sim_Lz_in1, sim_h)) - geof.write("Point(8) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_in1, sim_Ly_out2, sim_Lz_in1, sim_h)) - - # - # lines - # - geof.write("Line(1) = {1, 2};\n") - geof.write("Line(2) = {2, 3};\n") - geof.write("Line(3) = {3, 7};\n") - geof.write("Line(4) = {7, 6};\n") - geof.write("Line(5) = {6, 5};\n") - geof.write("Line(6) = {5, 8};\n") - geof.write("Line(7) = {8, 4};\n") - geof.write("Line(8) = {4, 1};\n") - - # - # surfaces - # - geof.write("Line Loop(1) = {1, 2, 3, 4, 5, 6, 7, 8};\n") - - # - # plane surface - # - geof.write("Plane Surface(1) = {1};\n") - - # - # physical surface - # - tag = '"' + "a" + '"' - geof.write("Physical Surface(%s) = {1};\n" % (tag)) - - # close file - geof.close() - - -def generate_moving_wall_gmsh_input(inp_dir, filename, rectangle, mesh_size, pp_tag): - - sim_inp_dir = str(inp_dir) - - # outer rectangle - sim_Lx_out1 = rectangle[0] - sim_Ly_out1 = rectangle[1] - sim_Lz_out1 = rectangle[2] - sim_Lx_out2 = rectangle[3] - sim_Ly_out2 = rectangle[4] - sim_Lz_out2 = rectangle[5] - - # mesh size - sim_h = mesh_size - - # - # create .geo file for gmsh - # - geof = open(sim_inp_dir + filename + '_' + str(pp_tag) + '.geo','w') - geof.write("cl__1 = 1;\n") - geof.write("Mesh.MshFileVersion = 2.2;\n") - - # - # points - # - geof.write("Point(1) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out1, sim_Lz_out1, sim_h)); - geof.write("Point(2) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out1, sim_Lz_out1, sim_h)) - geof.write("Point(3) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out2, sim_Ly_out2, sim_Lz_out1, sim_h)) - geof.write("Point(4) = {%4.6e, %4.6e, %4.6e, %4.6e};\n" % (sim_Lx_out1, sim_Ly_out2, sim_Lz_out1, sim_h)) - - # - # lines - # - geof.write("Line(1) = {1, 2};\n") - geof.write("Line(2) = {2, 3};\n") - geof.write("Line(3) = {3, 4};\n") - geof.write("Line(4) = {4, 1};\n") - - # - # surfaces - # - geof.write("Line Loop(1) = {1, 2, 3, 4};\n") - - # - # plane surface - # - geof.write("Plane Surface(1) = {1};\n") - - # - # physical surface - # - tag = '"' + "a" + '"' - geof.write("Physical Surface(%s) = {1};\n" % (tag)) - - # close file - geof.close() - - -def create_input_file(inp_dir, pp_tag): - """Generates input file for two-particle test""" - - sim_inp_dir = str(inp_dir) - - ## domain inside the wall - dx0, dy0, dz0 = 0., 0., 0. - dx1, dy1, dz1 = 0.014, 0.022, 0. - - ## - center = [0., 0., 0.] - R1 = 0.001 - R2 = 0.001 - mesh_size = R1 / 5. - if R2 < R1: - mesh_size = R2 / 5. - - horizon = 3. * mesh_size - particle_dist = 0.001 - - #particle_padding = 2 * mesh_size - particle_padding = 0.3 * R1 - - ## wall - - # rigid wall - wpd = 1.1 * mesh_size # particle-wall initial distance - rwp = horizon + wpd # padding outside domain (thickness plust wpd) - rwo_rect = [dx0 - rwp, dy0 - rwp, dz0, dx1 + rwp, dy1 + rwp, dz0] - rwi_rect = [dx0 - wpd, dy0 - wpd, dz0, dx1 + wpd, dy1 + wpd, dz0] - - # moving wall - mw_rect = [dx0-wpd, dy1+wpd, dz0, dx1+wpd, dy1+rwp, dz0] - - # maximum distance to stop the simulation - max_dist_check = 20.*dx1 - - ## time - final_time = 0.04 - num_steps = 400000 - # final_time = 0.00002 - # num_steps = 2 - num_outputs = 10 - dt_out_n = num_steps / num_outputs - test_dt_out_n = dt_out_n / 100 - perform_out = True - - ## material - poisson1 = 0.25 - rho1 = 1200. - K1 = 2.16e+7 - E1 = get_E(K1, poisson1) - G1 = get_G(E1, poisson1) - Gc1 = 50. - - poisson2 = 0.25 - rho2 = 1200. - K2 = 2.16e+7 - E2 = get_E(K2, poisson2) - G2 = get_G(E2, poisson2) - Gc2 = 50. - - # rigid wall - poisson3 = 0.25 - rho3 = 1200. - K3 = 2.16e+7 - E3 = get_E(K3, poisson3) - G3 = get_G(E3, poisson3) - Gc3 = 50. - - # moving wall - poisson4 = 0.25 - rho4 = 1200. - K4 = 2.16e+7 - E4 = get_E(K4, poisson4) - G4 = get_G(E4, poisson4) - Gc4 = 50. - - ## contact - # R_contact = 0.95 * mesh_size - # R_contact = 1.74e-04 - R_contact_factor = 0.95 - - # Kn_V_max = 7.385158e+05 - # Kn = np.power(Kn_V_max, 2) - # compute from bulk modulus - - # from bulk modulus - Kn_11 = 18. * get_eff_k(K1, K1) / (np.pi * np.power(horizon, 5)) - Kn_22 = 18. * get_eff_k(K2, K2) / (np.pi * np.power(horizon, 5)) - Kn_33 = 18. * get_eff_k(K3, K3) / (np.pi * np.power(horizon, 5)) - Kn_44 = 18. * get_eff_k(K4, K4) / (np.pi * np.power(horizon, 5)) - Kn_12 = 18. * get_eff_k(K1, K2) / (np.pi * np.power(horizon, 5)) - Kn_13 = 18. * get_eff_k(K1, K3) / (np.pi * np.power(horizon, 5)) - Kn_14 = 18. * get_eff_k(K1, K4) / (np.pi * np.power(horizon, 5)) - Kn_23 = 18. * get_eff_k(K2, K3) / (np.pi * np.power(horizon, 5)) - Kn_24 = 18. * get_eff_k(K2, K4) / (np.pi * np.power(horizon, 5)) - Kn_34 = 18. * get_eff_k(K3, K4) / (np.pi * np.power(horizon, 5)) - - beta_n_eps = 0.95 - friction_coeff = 0.5 - damping_active = True - friction_active = False - beta_n_factor = 100. - - ## gravity - gravity_active = True - gravity = [0., -10., 0.] - - ## moving wall downward velocity - mw_vy = -0.06 - - - ### ---------------------------------------------------------------- ### - # generate YAML file - ### ---------------------------------------------------------------- ### - # print('\nGenerating imput file\n') - inpf = open(sim_inp_dir + 'input_' + str(pp_tag) + '.yaml','w') - inpf.write("Model:\n") - inpf.write(" Dimension: 2\n") - inpf.write(" Discretization_Type:\n") - inpf.write(" Spatial: finite_difference\n") - inpf.write(" Time: central_difference\n") - inpf.write(" Final_Time: %4.6e\n" % (final_time)) - inpf.write(" Time_Steps: %d\n" % (num_steps)) - - # - # container info - # - inpf.write("Container:\n") - inpf.write(" Geometry:\n") - inpf.write(" Type: rectangle\n") - inpf.write(" Parameters: " + print_dbl_list(rwo_rect)) - - # - # zone info - # - inpf.write("Zone:\n") - inpf.write(" Zones: 4\n") - - ## zone 1 (bottom particle) - inpf.write(" Zone_1:\n") - inpf.write(" Is_Wall: false\n") - - ## zone 2 (top particle) - inpf.write(" Zone_2:\n") - inpf.write(" Is_Wall: false\n") - - ## zone 3 (rigid wall) - inpf.write(" Zone_3:\n") - inpf.write(" Is_Wall: true\n") - inpf.write(" Type: rectangle\n") - inpf.write(" Parameters: " + print_dbl_list(rwo_rect)) - - ## zone 4 (moving wall) - inpf.write(" Zone_4:\n") - inpf.write(" Is_Wall: true\n") - inpf.write(" Type: rectangle\n") - inpf.write(" Parameters: " + print_dbl_list(mw_rect)) - - # - # particle info - # - inpf.write("Particle:\n") - - inpf.write(" Test_Name: compressive_test\n") - inpf.write(" Compressive_Test:\n") - inpf.write(" Wall_Id: 1\n") - inpf.write(" Wall_Force_Direction: 2\n") - - inpf.write(" Zone_1:\n") - inpf.write(" Type: circle\n") - p1_geom = [R1, center[0], center[1], center[2]] - p2_geom = [R2, center[0], center[1], center[2]] - inpf.write(" Parameters: " + print_dbl_list(p1_geom)) - inpf.write(" Zone_2:\n") - inpf.write(" Type: circle\n") - inpf.write(" Parameters: " + print_dbl_list(p2_geom)) - - # - # wall info - # - inpf.write("Wall:\n") - inpf.write(" Zone_3:\n") - inpf.write(" Type: flexible\n") - inpf.write(" All_Dofs_Constrained: true\n") - inpf.write(" Mesh: true\n") - - inpf.write(" Zone_4:\n") - inpf.write(" Type: flexible\n") - inpf.write(" All_Dofs_Constrained: false\n") - inpf.write(" Mesh: true\n") - - # - # particle generation - # - inpf.write("Particle_Generation:\n") - inpf.write(" From_File: particle_locations_" + str(pp_tag) + ".csv\n") - - # - # Mesh info - # - inpf.write("Mesh:\n") - - ## zone 1 - inpf.write(" Zone_1:\n") - inpf.write(" File: mesh_cir_1_" + str(pp_tag) + ".msh \n") - - ## zone 2 - inpf.write(" Zone_2:\n") - inpf.write(" File: mesh_cir_2_" + str(pp_tag) + ".msh \n") - - ## zone 3 (wall) - inpf.write(" Zone_3:\n") - inpf.write(" File: mesh_rigid_wall_" + str(pp_tag) + ".msh \n") - - ## zone 4 (wall) - inpf.write(" Zone_4:\n") - inpf.write(" File: mesh_moving_wall_" + str(pp_tag) + ".msh \n") - - # - # Contact info - # - inpf.write("Contact:\n") - - ## 11 - inpf.write(" Zone_11:\n") - # inpf.write(" Contact_Radius: %4.6e\n" % (R_contact)) - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_11)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 12 - inpf.write(" Zone_12:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_12)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 13 - inpf.write(" Zone_13:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_13)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 14 - inpf.write(" Zone_14:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_14)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 22 - inpf.write(" Zone_22:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_22)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 23 - inpf.write(" Zone_23:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_23)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 24 - inpf.write(" Zone_24:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_24)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 33 - inpf.write(" Zone_33:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_33)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 34 - inpf.write(" Zone_34:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_34)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - ## 4 - inpf.write(" Zone_44:\n") - inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) - - if damping_active == False: - inpf.write(" Damping_On: false\n") - if friction_active == False: - inpf.write(" Friction_On: false\n") - - inpf.write(" Kn: %4.6e\n" % (Kn_44)) - inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) - inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") - inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - - # - # Neighbor info - # - inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") - - # - # Material info - # - inpf.write("Material:\n") - - ## zone 1 - inpf.write(" Zone_1:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho1)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K1)) - inpf.write(" G: %4.6e\n" % (G1)) - inpf.write(" Gc: %4.6e\n" % (Gc1)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - ## zone 2 - inpf.write(" Zone_2:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho2)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K2)) - inpf.write(" G: %4.6e\n" % (G2)) - inpf.write(" Gc: %4.6e\n" % (Gc2)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - ## zone 3 - inpf.write(" Zone_3:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho3)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K3)) - inpf.write(" G: %4.6e\n" % (G3)) - inpf.write(" Gc: %4.6e\n" % (Gc3)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - ## zone 4 - inpf.write(" Zone_4:\n") - inpf.write(" Type: PDState\n") - inpf.write(" Horizon: %4.6e\n" % (horizon)) - inpf.write(" Density: %4.6e\n" % (rho4)) - inpf.write(" Compute_From_Classical: true\n") - inpf.write(" K: %4.6e\n" % (K4)) - inpf.write(" G: %4.6e\n" % (G4)) - inpf.write(" Gc: %4.6e\n" % (Gc4)) - inpf.write(" Influence_Function:\n") - inpf.write(" Type: 1\n") - - # - # Force - # - if gravity_active == True: - inpf.write("Force_BC:\n") - inpf.write(" Gravity: " + print_dbl_list(gravity)) - - # - # Displacement - # - inpf.write("Displacement_BC:\n") - inpf.write(" Sets: 2\n") - - inpf.write(" Set_1:\n") - inpf.write(" Wall_List: [0]\n") - inpf.write(" Direction: [1,2]\n") - inpf.write(" Time_Function:\n") - inpf.write(" Type: constant\n") - inpf.write(" Parameters:\n") - inpf.write(" - 0.0\n") - inpf.write(" Spatial_Function:\n") - inpf.write(" Type: constant\n") - inpf.write(" Zero_Displacement: true\n") - - inpf.write(" Set_2:\n") - inpf.write(" Wall_List: [1]\n") - inpf.write(" Direction: [2]\n") - inpf.write(" Time_Function:\n") - inpf.write(" Type: linear\n") - inpf.write(" Parameters:\n") - inpf.write(" - %4.6e\n" % (mw_vy)) - inpf.write(" Spatial_Function:\n") - inpf.write(" Type: constant\n") - - # - # Output info - # - inpf.write("Output:\n") - inpf.write(" Path: ../out/\n") - inpf.write(" Tags:\n") - inpf.write(" - Displacement\n") - inpf.write(" - Velocity\n") - inpf.write(" - Force\n") - inpf.write(" - Force_Density\n") - inpf.write(" - Damage_Z\n") - inpf.write(" - Damage\n") - inpf.write(" - Nodal_Volume\n") - inpf.write(" - Zone_ID\n") - inpf.write(" - Particle_ID\n") - inpf.write(" - Fixity\n") - inpf.write(" - Force_Fixity\n") - inpf.write(" - Contact_Nodes\n") - inpf.write(" - No_Fail_Node\n") - inpf.write(" - Boundary_Node_Flag\n") - # inpf.write(" - Strain_Stress\n") - inpf.write(" Output_Interval: %d\n" % (dt_out_n)) - inpf.write(" Compress_Type: zlib\n") - inpf.write(" Perform_FE_Out: false\n") - if perform_out: - inpf.write(" Perform_Out: true\n") - else: - inpf.write(" Perform_Out: false\n") - inpf.write(" Test_Output_Interval: %d\n" % (test_dt_out_n)) - - inpf.write(" Debug: 1\n") - inpf.write(" Tag_PP: %d\n" %(int(pp_tag))) - inpf.write(" Output_Criteria: \n") - # inpf.write(" Type: max_particle_dist\n") - # inpf.write(" Parameters: [%4.6e]\n" % (2. * sim_h)) - inpf.write(" Type: max_node_dist\n") - inpf.write(" Parameters: [%4.6e]\n" % (max_dist_check)) - - # - #restart - # - inpf.write("Restart:\n") - inpf.write(" File: restart\n") - inpf.write(" Step: 1\n") - - inpf.write("HPX:\n") - inpf.write(" Partitions: 1\n") - - # close file - inpf.close() - - - # generate particle locations - re_generate_files = False - if re_generate_files: - particle_locations(inp_dir, pp_tag, R1, R2, [dx0, dy0, dz0, dx1, dy1, dz1], mesh_size, particle_padding) - - # generate particle .geo file (large) - generate_particle_gmsh_input(inp_dir, 'mesh_cir_1', center, R1, mesh_size, pp_tag) - generate_particle_gmsh_input(inp_dir, 'mesh_cir_2', center, R2, mesh_size, pp_tag) - generate_moving_wall_gmsh_input(inp_dir, 'mesh_moving_wall', mw_rect, mesh_size, pp_tag) - generate_rigid_wall_gmsh_input(inp_dir, 'mesh_rigid_wall', rwo_rect, rwi_rect, mesh_size, pp_tag) - -##-------------------------------------------------------## -##-------------------------------------------------------## -inp_dir = './' -pp_tag = 0 -if len(sys.argv) > 1: - pp_tag = int(sys.argv[1]) - -create_input_file(inp_dir, pp_tag) diff --git a/test/test_data/peridem/compressive_n51_restart/inp/restart.vtu b/test/test_data/peridem/compressive_n51_restart/inp/restart.vtu deleted file mode 100644 index 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- - diff --git a/test/test_data/peridem/compressive_n51_restart/run.sh b/test/test_data/peridem/compressive_n51_restart/run.sh deleted file mode 100755 index b1d685cb..00000000 --- a/test/test_data/peridem/compressive_n51_restart/run.sh +++ /dev/null @@ -1,55 +0,0 @@ -#!/bin/bash -MY_PWD=$(pwd) - -( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" - -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_cir_1$f_suf" -gmsh "$f_p_1_mesh.geo" -2 &> /dev/null -gmsh "$f_p_1_mesh.geo" -2 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_cir_2$f_suf" -gmsh "$f_p_2_mesh.geo" -2 &> /dev/null -gmsh "$f_p_2_mesh.geo" -2 -o "$f_p_2_mesh.vtk" &> /dev/null - -f_mw_mesh="mesh_moving_wall$f_suf" -gmsh "$f_mw_mesh.geo" -2 &> /dev/null -gmsh "$f_mw_mesh.geo" -2 -o "$f_mw_mesh.vtk" &> /dev/null - -f_rw_mesh="mesh_rigid_wall$f_suf" -gmsh "$f_rw_mesh.geo" -2 &> /dev/null -gmsh "$f_rw_mesh.geo" -2 -o "$f_rw_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts - -) 2>&1 | tee output.log - - -# check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi diff --git a/test/test_data/peridem/twop_circ/inp/problem_setup.py b/test/test_data/peridem/twop_circ/inp/problem_setup.py index d6191630..a2053c6f 100644 --- a/test/test_data/peridem/twop_circ/inp/problem_setup.py +++ b/test/test_data/peridem/twop_circ/inp/problem_setup.py @@ -212,6 +212,11 @@ def create_input_file(inp_dir, pp_tag): free_fall_vel[1] = -np.sqrt(2. * np.abs(gravity[1]) * free_fall_dist) # free_fall_vel[1] = -2. + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" + ### ---------------------------------------------------------------- ### # generate YAML file @@ -338,12 +343,11 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn_Factor: 1.0\n") inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - # # Neighbor info - # inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # # Material info @@ -436,13 +440,9 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Perform_Out: false\n") inpf.write(" Test_Output_Interval: %d\n" % (dt_out_n)) - inpf.write(" Debug: 1\n") + inpf.write(" Debug: 3\n") inpf.write(" Tag_PP: %d\n" %(int(pp_tag))) - - inpf.write("HPX:\n") - inpf.write(" Partitions: 1\n") - # close file inpf.close() @@ -450,10 +450,21 @@ def create_input_file(inp_dir, pp_tag): # generate particle locations particle_locations(inp_dir, pp_tag, R1, R2, particle_dist - free_fall_dist) + p_mesh_fname = ['mesh_cir_1', 'mesh_cir_2'] # generate particle .geo file (large) generate_particle_gmsh_input(inp_dir, 'mesh_cir_1', center, R1, mesh_size, pp_tag) generate_particle_gmsh_input(inp_dir, 'mesh_cir_2', center, R2, mesh_size, pp_tag) + os.system("mkdir -p ../out") + + for s in p_mesh_fname: + print('\n\n') + print(s) + print("gmsh {}_{}.geo -2".format(s, pp_tag)) + print('\n\n') + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk".format(s, pp_tag, s, pp_tag)) + ##-------------------------------------------------------## ##-------------------------------------------------------## diff --git a/test/test_data/peridem/twop_circ/run.sh b/test/test_data/peridem/twop_circ/run.sh index 7413bac4..1044145c 100755 --- a/test/test_data/peridem/twop_circ/run.sh +++ b/test/test_data/peridem/twop_circ/run.sh @@ -2,45 +2,14 @@ MY_PWD=$(pwd) ( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_cir_1$f_suf" -gmsh "$f_p_1_mesh.geo" -2 &> /dev/null -gmsh "$f_p_1_mesh.geo" -2 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_cir_2$f_suf" -gmsh "$f_p_2_mesh.geo" -2 &> /dev/null -gmsh "$f_p_2_mesh.geo" -2 -o "$f_p_2_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts +cd "inp" && python3 -B problem_setup.py +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads ) 2>&1 | tee output.log # check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/twop_circ_diff_material/inp/problem_setup.py b/test/test_data/peridem/twop_circ_diff_material/inp/problem_setup.py index 06a6e3cb..55391781 100644 --- a/test/test_data/peridem/twop_circ_diff_material/inp/problem_setup.py +++ b/test/test_data/peridem/twop_circ_diff_material/inp/problem_setup.py @@ -212,6 +212,11 @@ def create_input_file(inp_dir, pp_tag): free_fall_vel[1] = -np.sqrt(2. * np.abs(gravity[1]) * free_fall_dist) # free_fall_vel[1] = -2. + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" + ### ---------------------------------------------------------------- ### # generate YAML file @@ -338,12 +343,11 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn_Factor: 1.0\n") inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - # # Neighbor info - # inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # # Material info @@ -450,10 +454,21 @@ def create_input_file(inp_dir, pp_tag): # generate particle locations particle_locations(inp_dir, pp_tag, R1, R2, particle_dist - free_fall_dist) + p_mesh_fname = ['mesh_cir_1', 'mesh_cir_2'] # generate particle .geo file (large) generate_particle_gmsh_input(inp_dir, 'mesh_cir_1', center, R1, mesh_size, pp_tag) generate_particle_gmsh_input(inp_dir, 'mesh_cir_2', center, R2, mesh_size, pp_tag) + os.system("mkdir -p ../out") + + for s in p_mesh_fname: + print('\n\n') + print(s) + print("gmsh {}_{}.geo -2".format(s, pp_tag)) + print('\n\n') + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk".format(s, pp_tag, s, pp_tag)) + ##-------------------------------------------------------## ##-------------------------------------------------------## diff --git a/test/test_data/peridem/twop_circ_diff_material/run.sh b/test/test_data/peridem/twop_circ_diff_material/run.sh index c1ec3b45..1044145c 100755 --- a/test/test_data/peridem/twop_circ_diff_material/run.sh +++ b/test/test_data/peridem/twop_circ_diff_material/run.sh @@ -2,46 +2,14 @@ MY_PWD=$(pwd) ( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_cir_1$f_suf" -gmsh "$f_p_1_mesh.geo" -2 &> /dev/null -gmsh "$f_p_1_mesh.geo" -2 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_cir_2$f_suf" -gmsh "$f_p_2_mesh.geo" -2 &> /dev/null -gmsh "$f_p_2_mesh.geo" -2 -o "$f_p_2_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts +cd "inp" && python3 -B problem_setup.py +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads ) 2>&1 | tee output.log - # check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/twop_circ_diff_radius/inp/problem_setup.py b/test/test_data/peridem/twop_circ_diff_radius/inp/problem_setup.py index 8e5fed4d..339ab5df 100644 --- a/test/test_data/peridem/twop_circ_diff_radius/inp/problem_setup.py +++ b/test/test_data/peridem/twop_circ_diff_radius/inp/problem_setup.py @@ -213,6 +213,11 @@ def create_input_file(inp_dir, pp_tag): # free_fall_vel[1] = -2. + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" + ### ---------------------------------------------------------------- ### # generate YAML file ### ---------------------------------------------------------------- ### @@ -338,12 +343,11 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn_Factor: 1.0\n") inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - # # Neighbor info - # inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # # Material info @@ -450,10 +454,21 @@ def create_input_file(inp_dir, pp_tag): # generate particle locations particle_locations(inp_dir, pp_tag, R1, R2, particle_dist - free_fall_dist) + p_mesh_fname = ['mesh_cir_1', 'mesh_cir_2'] # generate particle .geo file (large) generate_particle_gmsh_input(inp_dir, 'mesh_cir_1', center, R1, mesh_size, pp_tag) generate_particle_gmsh_input(inp_dir, 'mesh_cir_2', center, R2, mesh_size, pp_tag) + os.system("mkdir -p ../out") + + for s in p_mesh_fname: + print('\n\n') + print(s) + print("gmsh {}_{}.geo -2".format(s, pp_tag)) + print('\n\n') + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk".format(s, pp_tag, s, pp_tag)) + ##-------------------------------------------------------## ##-------------------------------------------------------## diff --git a/test/test_data/peridem/twop_circ_diff_radius/run.sh b/test/test_data/peridem/twop_circ_diff_radius/run.sh index 7413bac4..1044145c 100755 --- a/test/test_data/peridem/twop_circ_diff_radius/run.sh +++ b/test/test_data/peridem/twop_circ_diff_radius/run.sh @@ -2,45 +2,14 @@ MY_PWD=$(pwd) ( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_cir_1$f_suf" -gmsh "$f_p_1_mesh.geo" -2 &> /dev/null -gmsh "$f_p_1_mesh.geo" -2 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_cir_2$f_suf" -gmsh "$f_p_2_mesh.geo" -2 &> /dev/null -gmsh "$f_p_2_mesh.geo" -2 -o "$f_p_2_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts +cd "inp" && python3 -B problem_setup.py +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads ) 2>&1 | tee output.log # check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/twop_circ_diff_radius_diff_material/inp/problem_setup.py b/test/test_data/peridem/twop_circ_diff_radius_diff_material/inp/problem_setup.py index c8d28482..fa68c71d 100644 --- a/test/test_data/peridem/twop_circ_diff_radius_diff_material/inp/problem_setup.py +++ b/test/test_data/peridem/twop_circ_diff_radius_diff_material/inp/problem_setup.py @@ -212,6 +212,11 @@ def create_input_file(inp_dir, pp_tag): free_fall_vel[1] = -np.sqrt(2. * np.abs(gravity[1]) * free_fall_dist) # free_fall_vel[1] = -2. + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" + ### ---------------------------------------------------------------- ### # generate YAML file @@ -338,12 +343,11 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn_Factor: 1.0\n") inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - # # Neighbor info - # inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # # Material info @@ -439,10 +443,6 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Debug: 1\n") inpf.write(" Tag_PP: %d\n" %(int(pp_tag))) - - inpf.write("HPX:\n") - inpf.write(" Partitions: 1\n") - # close file inpf.close() @@ -450,10 +450,21 @@ def create_input_file(inp_dir, pp_tag): # generate particle locations particle_locations(inp_dir, pp_tag, R1, R2, particle_dist - free_fall_dist) + p_mesh_fname = ['mesh_cir_1', 'mesh_cir_2'] # generate particle .geo file (large) generate_particle_gmsh_input(inp_dir, 'mesh_cir_1', center, R1, mesh_size, pp_tag) generate_particle_gmsh_input(inp_dir, 'mesh_cir_2', center, R2, mesh_size, pp_tag) + os.system("mkdir -p ../out") + + for s in p_mesh_fname: + print('\n\n') + print(s) + print("gmsh {}_{}.geo -2".format(s, pp_tag)) + print('\n\n') + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk".format(s, pp_tag, s, pp_tag)) + ##-------------------------------------------------------## ##-------------------------------------------------------## diff --git a/test/test_data/peridem/twop_circ_diff_radius_diff_material/run.sh b/test/test_data/peridem/twop_circ_diff_radius_diff_material/run.sh index 7413bac4..1044145c 100755 --- a/test/test_data/peridem/twop_circ_diff_radius_diff_material/run.sh +++ b/test/test_data/peridem/twop_circ_diff_radius_diff_material/run.sh @@ -2,45 +2,14 @@ MY_PWD=$(pwd) ( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_cir_1$f_suf" -gmsh "$f_p_1_mesh.geo" -2 &> /dev/null -gmsh "$f_p_1_mesh.geo" -2 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_cir_2$f_suf" -gmsh "$f_p_2_mesh.geo" -2 &> /dev/null -gmsh "$f_p_2_mesh.geo" -2 -o "$f_p_2_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts +cd "inp" && python3 -B problem_setup.py +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads ) 2>&1 | tee output.log # check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/twop_circ_no_python/inp/input_0.yaml b/test/test_data/peridem/twop_circ_no_python/inp/input_0.yaml index d4e09ef2..2dfbb999 100644 --- a/test/test_data/peridem/twop_circ_no_python/inp/input_0.yaml +++ b/test/test_data/peridem/twop_circ_no_python/inp/input_0.yaml @@ -60,7 +60,8 @@ Contact: Beta_n_Factor: 1.000000e+02 Neighbor: Update_Criteria: simple_all - Search_Factor: 5.0 + Search_Factor: 1e+01 + Search_Interval: 40 Material: Zone_1: Type: PDState @@ -125,5 +126,3 @@ Output: Test_Output_Interval: 2000 Debug: 1 Tag_PP: 0 -HPX: - Partitions: 1 diff --git a/test/test_data/peridem/twop_circ_no_python/run.sh b/test/test_data/peridem/twop_circ_no_python/run.sh index 7413bac4..1044145c 100755 --- a/test/test_data/peridem/twop_circ_no_python/run.sh +++ b/test/test_data/peridem/twop_circ_no_python/run.sh @@ -2,45 +2,14 @@ MY_PWD=$(pwd) ( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_cir_1$f_suf" -gmsh "$f_p_1_mesh.geo" -2 &> /dev/null -gmsh "$f_p_1_mesh.geo" -2 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_cir_2$f_suf" -gmsh "$f_p_2_mesh.geo" -2 &> /dev/null -gmsh "$f_p_2_mesh.geo" -2 -o "$f_p_2_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts +cd "inp" && python3 -B problem_setup.py +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads ) 2>&1 | tee output.log # check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/twop_concave/inp/problem_setup.py b/test/test_data/peridem/twop_concave/inp/problem_setup.py index 69479d3f..4c7f7e5f 100644 --- a/test/test_data/peridem/twop_concave/inp/problem_setup.py +++ b/test/test_data/peridem/twop_concave/inp/problem_setup.py @@ -291,6 +291,11 @@ def create_input_file(inp_dir, pp_tag): # free_fall_vel[1] = -np.sqrt(2. * np.abs(gravity[1]) * free_fall_dist) free_fall_vel[1] = -8. + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" + ### ---------------------------------------------------------------- ### # generate YAML file @@ -423,12 +428,11 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn_Factor: 1.0\n") inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - # # Neighbor info - # inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # # Material info @@ -528,10 +532,6 @@ def create_input_file(inp_dir, pp_tag): # inpf.write(" Type: max_particle_dist\n") # inpf.write(" Parameters: [%4.6e]\n" % (2. * sim_h)) - - inpf.write("HPX:\n") - inpf.write(" Partitions: 1\n") - # close file inpf.close() @@ -540,9 +540,20 @@ def create_input_file(inp_dir, pp_tag): # particle_locations(inp_dir, pp_tag, R1, R2, particle_dist - free_fall_dist) particle_locations_orient(inp_dir, pp_tag, R1, R2, particle_dist - free_fall_dist) + p_mesh_fname = ['mesh_drum_1', 'mesh_drum_2'] # generate particle .geo file (large) - generate_particle_gmsh_input(inp_dir, 'mesh_drum_1', center, R1, drum1_neck_width, mesh_size, pp_tag) - generate_particle_gmsh_input(inp_dir, 'mesh_drum_2', center, R2, drum2_neck_width, mesh_size, pp_tag) + generate_particle_gmsh_input(inp_dir, p_mesh_fname[0], center, R1, drum1_neck_width, mesh_size, pp_tag) + generate_particle_gmsh_input(inp_dir, p_mesh_fname[1], center, R2, drum2_neck_width, mesh_size, pp_tag) + + os.system("mkdir -p ../out") + + for s in p_mesh_fname: + print('\n\n') + print(s) + print("gmsh {}_{}.geo -2".format(s, pp_tag)) + print('\n\n') + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk".format(s, pp_tag, s, pp_tag)) ##-------------------------------------------------------## diff --git a/test/test_data/peridem/twop_concave/run.sh b/test/test_data/peridem/twop_concave/run.sh index 8f180d49..1044145c 100755 --- a/test/test_data/peridem/twop_concave/run.sh +++ b/test/test_data/peridem/twop_concave/run.sh @@ -2,45 +2,14 @@ MY_PWD=$(pwd) ( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_drum_1$f_suf" -gmsh "$f_p_1_mesh.geo" -2 &> /dev/null -gmsh "$f_p_1_mesh.geo" -2 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_drum_2$f_suf" -gmsh "$f_p_2_mesh.geo" -2 &> /dev/null -gmsh "$f_p_2_mesh.geo" -2 -o "$f_p_2_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts +cd "inp" && python3 -B problem_setup.py +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads ) 2>&1 | tee output.log # check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/twop_concave_and_hex/inp/problem_setup.py b/test/test_data/peridem/twop_concave_and_hex/inp/problem_setup.py index 81af132e..f82fc2a7 100644 --- a/test/test_data/peridem/twop_concave_and_hex/inp/problem_setup.py +++ b/test/test_data/peridem/twop_concave_and_hex/inp/problem_setup.py @@ -386,6 +386,11 @@ def create_input_file(inp_dir, pp_tag): # free_fall_vel[1] = -np.sqrt(2. * np.abs(gravity[1]) * free_fall_dist) free_fall_vel[1] = -1. + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 40 + neigh_search_criteria = "simple_all" + ### ---------------------------------------------------------------- ### # generate YAML file @@ -517,12 +522,11 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn_Factor: 1.0\n") inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - # # Neighbor info - # inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # # Material info @@ -622,10 +626,6 @@ def create_input_file(inp_dir, pp_tag): # inpf.write(" Type: max_particle_dist\n") # inpf.write(" Parameters: [%4.6e]\n" % (2. * sim_h)) - - inpf.write("HPX:\n") - inpf.write(" Partitions: 1\n") - # close file inpf.close() @@ -634,9 +634,20 @@ def create_input_file(inp_dir, pp_tag): # particle_locations(inp_dir, pp_tag, R1, R2, particle_dist - free_fall_dist) particle_locations_orient(inp_dir, pp_tag, R1, R2, particle_dist - free_fall_dist) + p_mesh_fname = ['mesh_particle_1', 'mesh_particle_2'] # generate particle .geo file (large) - generate_drum_particle_gmsh_input(inp_dir, 'mesh_particle_1', center, R1, drum1_neck_width, mesh_size, pp_tag) - generate_hex_particle_gmsh_input(inp_dir, 'mesh_particle_2', center, R2, mesh_size, pp_tag) + generate_drum_particle_gmsh_input(inp_dir, p_mesh_fname[0], center, R1, drum1_neck_width, mesh_size, pp_tag) + generate_hex_particle_gmsh_input(inp_dir, p_mesh_fname[1], center, R2, mesh_size, pp_tag) + + os.system("mkdir -p ../out") + + for s in p_mesh_fname: + print('\n\n') + print(s) + print("gmsh {}_{}.geo -2".format(s, pp_tag)) + print('\n\n') + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk".format(s, pp_tag, s, pp_tag)) ##-------------------------------------------------------## diff --git a/test/test_data/peridem/twop_concave_and_hex/run.sh b/test/test_data/peridem/twop_concave_and_hex/run.sh index e9d6ffca..1044145c 100755 --- a/test/test_data/peridem/twop_concave_and_hex/run.sh +++ b/test/test_data/peridem/twop_concave_and_hex/run.sh @@ -2,45 +2,14 @@ MY_PWD=$(pwd) ( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_particle_1$f_suf" -gmsh "$f_p_1_mesh.geo" -2 &> /dev/null -gmsh "$f_p_1_mesh.geo" -2 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_particle_2$f_suf" -gmsh "$f_p_2_mesh.geo" -2 &> /dev/null -gmsh "$f_p_2_mesh.geo" -2 -o "$f_p_2_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts +cd "inp" && python3 -B problem_setup.py +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads ) 2>&1 | tee output.log # check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/twop_sphere/run.sh b/test/test_data/peridem/twop_sphere/run.sh index efb5e4de..1044145c 100755 --- a/test/test_data/peridem/twop_sphere/run.sh +++ b/test/test_data/peridem/twop_sphere/run.sh @@ -2,45 +2,14 @@ MY_PWD=$(pwd) ( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_cir_1$f_suf" -gmsh "$f_p_1_mesh.geo" -3 &> /dev/null -gmsh "$f_p_1_mesh.geo" -3 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_cir_2$f_suf" -gmsh "$f_p_2_mesh.geo" -3 &> /dev/null -gmsh "$f_p_2_mesh.geo" -3 -o "$f_p_2_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts +cd "inp" && python3 -B problem_setup.py +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads ) 2>&1 | tee output.log # check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_data/peridem/twop_wall_concave_diff_material_diff_size/inp/problem_setup.py b/test/test_data/peridem/twop_wall_concave_diff_material_diff_size/inp/problem_setup.py index d92062bd..3c10ec95 100644 --- a/test/test_data/peridem/twop_wall_concave_diff_material_diff_size/inp/problem_setup.py +++ b/test/test_data/peridem/twop_wall_concave_diff_material_diff_size/inp/problem_setup.py @@ -65,14 +65,19 @@ def get_G(E, nu): def get_eff_k(k1, k2): return 2. * k1 * k2 / (k1 + k2) +def rect_to_five_param(r): + return [r[3] - r[0], r[4] - r[1], 0.5*(r[0] + r[3]), 0.5*(r[1] + r[4]), 0.5*(r[2] + r[5])] -def particle_locations(inp_dir, pp_tag, R1, R2, offset): +def particle_locations(inp_dir, pp_tag, R1, R2, offset, w1_rect_five_format, w2_rect_five_format): """Generate particle location data""" sim_particles = [] sim_particles.append([0., R1, R1, 0., R1]) sim_particles.append([1., R1, 2. * R1 + R2 + offset, 0., R2]) + sim_particles.append([2., w1_rect_five_format[2], w1_rect_five_format[3], w1_rect_five_format[4], w1_rect_five_format[0]]) + sim_particles.append([3., w2_rect_five_format[2], w2_rect_five_format[3], w2_rect_five_format[4], w2_rect_five_format[0]]) + inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') inpf.write("i, x, y, z, r\n") for p in sim_particles: @@ -80,12 +85,15 @@ def particle_locations(inp_dir, pp_tag, R1, R2, offset): inpf.close() -def particle_locations_orient(inp_dir, pp_tag, R1, R2, offset): +def particle_locations_orient(inp_dir, pp_tag, R1, R2, offset, w1_rect_five_format, w2_rect_five_format): """Generate particle location data""" sim_particles = [] sim_particles.append([0., R1, R1, 0., R1, 0.5*np.pi]) - sim_particles.append([1., R1+1.*R1*np.sin(np.pi/3.), 2. * R1 + R2 + offset, 0., R2, 0.5*np.pi]) + sim_particles.append([1., R1+1.*R1*np.sin(np.pi/3.), 2. * R1 + R2 + offset, 0., R2, 0.3*np.pi]) + + sim_particles.append([2., w1_rect_five_format[2], w1_rect_five_format[3], w1_rect_five_format[4], w1_rect_five_format[0], 0.]) + sim_particles.append([3., w2_rect_five_format[2], w2_rect_five_format[3], w2_rect_five_format[4], w2_rect_five_format[0], 0.]) inpf = open(inp_dir + 'particle_locations_' + str(pp_tag) + '.csv','w') inpf.write("i, x, y, z, r, o\n") @@ -283,7 +291,7 @@ def create_input_file(inp_dir, pp_tag): sim_inp_dir = str(inp_dir) - ## 1 - bottom 2 - top 3 - wall + ## 1 - bottom 2 - top 3 - wall 1 4 - wall 2 center = [0., 0., 0.] R1 = 0.001 R2 = 0.0015 @@ -291,19 +299,52 @@ def create_input_file(inp_dir, pp_tag): if R2 < R1: mesh_size = R2 / 5. - horizon = 3. * mesh_size - particle_dist = 1.2*mesh_size + horizon = 2. * mesh_size + particle_dist = -R1 - ## wall - wall_bottom_particle_dist = 1.5 * mesh_size - wall_rect = [-R1, -horizon - wall_bottom_particle_dist, 0., 3.*R1, -wall_bottom_particle_dist, 0.] + ## wall 1 (at bottom) + wall1_bottom_particle_dist = 1.5 * mesh_size + wall1_top_edge_y = 0. - wall1_bottom_particle_dist + wall1_rect = [-R1, wall1_top_edge_y - 2*horizon, 0., 3.*R1, wall1_top_edge_y, 0.] + if R2 > R1: + wall1_rect[0] = R1-2.*R2 + wall1_rect[3] = R1+2.*R2 + + + # for peridem input cv file for particle locations and orientation, + # we need to represent rectangle using five parameters + # [Lx, Ly, xc1, xc2, xc3] where (xc1, xc2, xc3) is center of rectangle + wall1_five_param_format = rect_to_five_param(wall1_rect) + wall1_gmsh_input_rect = [-0.5*wall1_five_param_format[0], -0.5*wall1_five_param_format[1], 0., 0.5*wall1_five_param_format[0], 0.5*wall1_five_param_format[1], 0.] + wall1_peridem_input_param = [wall1_five_param_format[0], wall1_five_param_format[1], 0., 0., 0.] + wall1_peridem_input_param[2] = 0. + wall1_peridem_input_param[3] = 0. + wall1_peridem_input_param[4] = 0. + + ## wall 2 (at top) + ## center of top wall is (R1, 2R1 + R2 + offset), where + ## offset = particle_dist - free_fall_dist + ## free_fall_dist = particle_dist - horizon + ## so + ## offset = horizon + wall2_top_particle_dist = 4 * mesh_size + top_particle_center_y = 2*R1 + R2 + horizon + wall2_bottom_edge_y = top_particle_center_y + R2 + wall2_top_particle_dist + wall2_rect = [-R1, wall2_bottom_edge_y, 0., 3.*R1, wall2_bottom_edge_y + 2*horizon, 0.] if R2 > R1: - wall_rect[0] = R1-2.*R2 - wall_rect[3] = R1+2.*R2 + wall2_rect[0] = R1-2.*R2 + wall2_rect[3] = R1+2.*R2 + + wall2_five_param_format = rect_to_five_param(wall2_rect) + wall2_gmsh_input_rect = [-0.5*wall2_five_param_format[0], -0.5*wall2_five_param_format[1], 0., 0.5*wall2_five_param_format[0], 0.5*wall2_five_param_format[1], 0.] + wall2_peridem_input_param = [wall2_five_param_format[0], wall1_five_param_format[1], 0., 0., 0.] + wall2_peridem_input_param[2] = 0. + wall2_peridem_input_param[3] = 0. + wall2_peridem_input_param[4] = 0. ## time - final_time = 0.0015 - num_steps = 15000 + final_time = 0.004 + num_steps = 20000 # final_time = 0.00002 # num_steps = 2 num_outputs = 10 @@ -313,26 +354,34 @@ def create_input_file(inp_dir, pp_tag): ## material poisson1 = 0.25 rho1 = 1200. - K1 = 2.16e+7 + K1 = 2.16e+5 E1 = get_E(K1, poisson1) G1 = get_G(E1, poisson1) - Gc1 = 50. + Gc1 = 500. poisson2 = 0.25 rho2 = 1200. - K2 = 2e+9 + K2 = 2.e+6 E2 = get_E(K2, poisson2) G2 = get_G(E2, poisson2) Gc2 = 500. - # wall + # wall 1 (at bottom) poisson3 = 0.25 rho3 = 1200. - K3 = 2e+9 + K3 = 2.e+6 E3 = get_E(K3, poisson3) G3 = get_G(E3, poisson3) Gc3 = 500. + # wall 2 (at top) --- same as wall 1 so we will copy in input data + poisson4 = 0.25 + rho4 = 1200. + K4 = 2.e+9 + E4 = get_E(K4, poisson4) + G4 = get_G(E4, poisson4) + Gc4 = 500. + ## contact # R_contact = 0.95 * mesh_size # R_contact = 1.74e-04 @@ -346,10 +395,15 @@ def create_input_file(inp_dir, pp_tag): Kn_11 = 18. * get_eff_k(K1, K1) / (np.pi * np.power(horizon, 5)) Kn_22 = 18. * get_eff_k(K2, K2) / (np.pi * np.power(horizon, 5)) Kn_33 = 18. * get_eff_k(K3, K3) / (np.pi * np.power(horizon, 5)) + Kn_44 = 18. * get_eff_k(K4, K4) / (np.pi * np.power(horizon, 5)) Kn_12 = 18. * get_eff_k(K1, K2) / (np.pi * np.power(horizon, 5)) Kn_13 = 18. * get_eff_k(K1, K3) / (np.pi * np.power(horizon, 5)) + Kn_14 = 18. * get_eff_k(K1, K4) / (np.pi * np.power(horizon, 5)) Kn_23 = 18. * get_eff_k(K2, K3) / (np.pi * np.power(horizon, 5)) + Kn_24 = 18. * get_eff_k(K2, K4) / (np.pi * np.power(horizon, 5)) + Kn_34 = 18. * get_eff_k(K3, K4) / (np.pi * np.power(horizon, 5)) + Kn_factor = 10. beta_n_eps = 0.95 friction_coeff = 0.5 damping_active = False @@ -361,10 +415,15 @@ def create_input_file(inp_dir, pp_tag): gravity = [0., -10., 0.] ## assign free fall velocity to second particle - free_fall_dist = 0. + free_fall_dist = particle_dist - horizon free_fall_vel = [0., 0., 0.] #free_fall_vel[1] = -np.sqrt(2. * np.abs(gravity[1]) * free_fall_dist) - free_fall_vel[1] = -2. + free_fall_vel[1] = -1 + + ## neighbor search details + neigh_search_factor = 10. + neigh_search_interval = 100 + neigh_search_criteria = "simple_all" ### ---------------------------------------------------------------- ### @@ -386,17 +445,18 @@ def create_input_file(inp_dir, pp_tag): inpf.write("Container:\n") inpf.write(" Geometry:\n") inpf.write(" Type: rectangle\n") - contain_params = [-R1, -horizon - wall_bottom_particle_dist, 0., 3.*R1, 2.*R1 + 2.*R2 + particle_dist, 0.] + contain_params = [-R1, -horizon - wall1_bottom_particle_dist, 0., 3.*R1, 2.*R1 + 2.*R2 + wall2_top_particle_dist + horizon, 0.] if R2 > R1: contain_params[0] = R1-2.*R2 contain_params[3] = R1+2.*R2 + contain_peridem_input_param = rect_to_five_param(contain_params) inpf.write(" Parameters: " + print_dbl_list(contain_params)) # # zone info # inpf.write("Zone:\n") - inpf.write(" Zones: 3\n") + inpf.write(" Zones: 4\n") ## zone 1 (bottom particle) inpf.write(" Zone_1:\n") @@ -409,35 +469,41 @@ def create_input_file(inp_dir, pp_tag): ## zone 3 (wall) inpf.write(" Zone_3:\n") inpf.write(" Is_Wall: true\n") - inpf.write(" Type: rectangle\n") - inpf.write(" Parameters: " + print_dbl_list(wall_rect)) + + ## zone 4 (wall) + inpf.write(" Zone_4:\n") + inpf.write(" Is_Wall: true\n") # # particle info # inpf.write("Particle:\n") - inpf.write(" Test_Name: two_particle_wall\n") + inpf.write(" Test_Name: two_particle_two_wall\n") + inpf.write(" Zone_1:\n") inpf.write(" Type: drum2d\n") - drum_axis = [1., 0., 0.] + drum1_axis = [1., 0., 0.] drum1_neck_width = 0.5*R1 - p1_geom = [R1, drum1_neck_width, center[0], center[1], center[2], drum_axis[0], drum_axis[1], drum_axis[2]] + p1_geom = [R1, drum1_neck_width, center[0], center[1], center[2], drum1_axis[0], drum1_axis[1], drum1_axis[2]] inpf.write(" Parameters: " + print_dbl_list(p1_geom)) + inpf.write(" Zone_2:\n") inpf.write(" Type: drum2d\n") + drum2_axis = [1., 0., 0.] #[np.cos(0.1*np.pi), np.sin(0.1*np.pi), 0.] drum2_neck_width = 0.5*R2 - p2_geom = [R2, drum2_neck_width, center[0], center[1], center[2], drum_axis[0], drum_axis[1], drum_axis[2]] + p2_geom = [R2, drum2_neck_width, center[0], center[1], center[2], drum2_axis[0], drum2_axis[1], drum2_axis[2]] inpf.write(" Parameters: " + print_dbl_list(p2_geom)) - # - # wall info - # - inpf.write("Wall:\n") inpf.write(" Zone_3:\n") - inpf.write(" Type: flexible\n") + inpf.write(" Type: rectangle\n") + inpf.write(" Parameters: " + print_dbl_list(wall1_peridem_input_param)) + inpf.write(" All_Dofs_Constrained: true\n") + + inpf.write(" Zone_4:\n") + inpf.write(" Type: rectangle\n") + inpf.write(" Parameters: " + print_dbl_list(wall2_peridem_input_param)) inpf.write(" All_Dofs_Constrained: true\n") - inpf.write(" Mesh: true\n") # # particle generation @@ -447,8 +513,6 @@ def create_input_file(inp_dir, pp_tag): # specify that we also provide the orientation information in the file inpf.write(" File_Data_Type: loc_rad_orient\n") - - # # Mesh info # @@ -464,7 +528,11 @@ def create_input_file(inp_dir, pp_tag): ## zone 3 (wall) inpf.write(" Zone_3:\n") - inpf.write(" File: mesh_wall_" + str(pp_tag) + ".msh \n") + inpf.write(" File: mesh_wall_1_" + str(pp_tag) + ".msh \n") + + ## zone 4 (wall) + inpf.write(" Zone_4:\n") + inpf.write(" File: mesh_wall_2_" + str(pp_tag) + ".msh \n") # # Contact info @@ -484,7 +552,7 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn: %4.6e\n" % (Kn_11)) inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) ## 12 @@ -499,7 +567,7 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn: %4.6e\n" % (Kn_12)) inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) ## 13 @@ -514,7 +582,22 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn: %4.6e\n" % (Kn_13)) inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) + inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) + + ## 14 + inpf.write(" Zone_14:\n") + inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) + + if damping_active == False: + inpf.write(" Damping_On: false\n") + if friction_active == False: + inpf.write(" Friction_On: false\n") + + inpf.write(" Kn: %4.6e\n" % (Kn_14)) + inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) + inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) ## 22 @@ -529,7 +612,7 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn: %4.6e\n" % (Kn_22)) inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) ## 23 @@ -544,7 +627,22 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn: %4.6e\n" % (Kn_23)) inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) + inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) + + ## 24 + inpf.write(" Zone_24:\n") + inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) + + if damping_active == False: + inpf.write(" Damping_On: false\n") + if friction_active == False: + inpf.write(" Friction_On: false\n") + + inpf.write(" Kn: %4.6e\n" % (Kn_24)) + inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) + inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) ## 33 @@ -559,15 +657,44 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Kn: %4.6e\n" % (Kn_33)) inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) - inpf.write(" Kn_Factor: 1.0\n") + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) + inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) + + ## 34 + inpf.write(" Zone_34:\n") + inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) + + if damping_active == False: + inpf.write(" Damping_On: false\n") + if friction_active == False: + inpf.write(" Friction_On: false\n") + + inpf.write(" Kn: %4.6e\n" % (Kn_34)) + inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) + inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) + inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) + + ## 44 + inpf.write(" Zone_44:\n") + inpf.write(" Contact_Radius_Factor: %4.6e\n" % (R_contact_factor)) + + if damping_active == False: + inpf.write(" Damping_On: false\n") + if friction_active == False: + inpf.write(" Friction_On: false\n") + + inpf.write(" Kn: %4.6e\n" % (Kn_44)) + inpf.write(" Epsilon: %4.6e\n" % (beta_n_eps)) + inpf.write(" Friction_Coeff: %4.6e\n" % (friction_coeff)) + inpf.write(" Kn_Factor: %4.6e\n" % (Kn_factor)) inpf.write(" Beta_n_Factor: %4.6e\n" % (beta_n_factor)) - # # Neighbor info - # inpf.write("Neighbor:\n") - inpf.write(" Update_Criteria: simple_all\n") - inpf.write(" Search_Factor: 5.0\n") + inpf.write(" Update_Criteria: %s\n" % (neigh_search_criteria)) + inpf.write(" Search_Factor: %4.e\n" % (neigh_search_factor)) + inpf.write(" Search_Interval: %d\n" % (neigh_search_interval)) # # Material info @@ -610,6 +737,18 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Influence_Function:\n") inpf.write(" Type: 1\n") + ## zone 4 + inpf.write(" Zone_4:\n") + inpf.write(" Type: PDState\n") + inpf.write(" Horizon: %4.6e\n" % (horizon)) + inpf.write(" Density: %4.6e\n" % (rho3)) + inpf.write(" Compute_From_Classical: true\n") + inpf.write(" K: %4.6e\n" % (K4)) + inpf.write(" G: %4.6e\n" % (G4)) + inpf.write(" Gc: %4.6e\n" % (Gc4)) + inpf.write(" Influence_Function:\n") + inpf.write(" Type: 1\n") + # # Force # @@ -632,14 +771,8 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Sets: 1\n") inpf.write(" Set_1:\n") - inpf.write(" Wall_List: [0]\n") + inpf.write(" Particle_List: [2, 3]\n") inpf.write(" Direction: [1,2]\n") - inpf.write(" Time_Function:\n") - inpf.write(" Type: constant\n") - inpf.write(" Parameters:\n") - inpf.write(" - 0.0\n") - inpf.write(" Spatial_Function:\n") - inpf.write(" Type: constant\n") inpf.write(" Zero_Displacement: true\n") # @@ -659,7 +792,7 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" - Particle_ID\n") inpf.write(" - Fixity\n") inpf.write(" - Force_Fixity\n") - # inpf.write(" - Contact_Data\n") + inpf.write(" - Contact_Data\n") inpf.write(" - No_Fail_Node\n") inpf.write(" - Boundary_Node_Flag\n") # inpf.write(" - Strain_Stress\n") @@ -672,28 +805,33 @@ def create_input_file(inp_dir, pp_tag): inpf.write(" Perform_Out: false\n") inpf.write(" Test_Output_Interval: %d\n" % (dt_out_n)) - inpf.write(" Debug: 1\n") + inpf.write(" Debug: 2\n") inpf.write(" Tag_PP: %d\n" %(int(pp_tag))) - # inpf.write(" Output_Criteria: \n") - # inpf.write(" Type: max_particle_dist\n") - # inpf.write(" Parameters: [%4.6e]\n" % (2. * sim_h)) - - - inpf.write("HPX:\n") - inpf.write(" Partitions: 1\n") # close file inpf.close() # generate particle locations - # particle_locations(inp_dir, pp_tag, R1, R2, particle_dist - free_fall_dist) - particle_locations_orient(inp_dir, pp_tag, R1, R2, particle_dist - free_fall_dist) + particle_locations_orient(inp_dir, pp_tag, R1, R2, particle_dist - free_fall_dist, wall1_five_param_format, wall2_five_param_format) # generate particle .geo file (large) - generate_particle_gmsh_input(inp_dir, 'mesh_drum_1', center, R1, drum1_neck_width, mesh_size, pp_tag) - generate_particle_gmsh_input(inp_dir, 'mesh_drum_2', center, R2, drum2_neck_width, mesh_size, pp_tag) - generate_wall_gmsh_input(inp_dir, 'mesh_wall', wall_rect, mesh_size, pp_tag) + p_mesh_fname = ['mesh_drum_1', 'mesh_drum_2', 'mesh_wall_1', 'mesh_wall_2'] + generate_particle_gmsh_input(inp_dir, p_mesh_fname[0], center, R1, drum1_neck_width, mesh_size, pp_tag) + generate_particle_gmsh_input(inp_dir, p_mesh_fname[1], center, R2, drum2_neck_width, mesh_size, pp_tag) + generate_wall_gmsh_input(inp_dir, p_mesh_fname[2], wall1_gmsh_input_rect, 0.5*mesh_size, pp_tag) + generate_wall_gmsh_input(inp_dir, p_mesh_fname[3], wall2_gmsh_input_rect, 0.5*mesh_size, pp_tag) + + os.system("mkdir -p ../out") + + for s in p_mesh_fname: + print('\n\n') + print(s) + print("gmsh {}_{}.geo -2".format(s, pp_tag)) + print('\n\n') + os.system("gmsh {}_{}.geo -2".format(s, pp_tag)) + # os.system("gmsh {}_{}.geo -2 -o {}_{}.vtk".format(s, pp_tag, s, pp_tag)) + ##-------------------------------------------------------## ##-------------------------------------------------------## diff --git a/test/test_data/peridem/twop_wall_concave_diff_material_diff_size/run.sh b/test/test_data/peridem/twop_wall_concave_diff_material_diff_size/run.sh index affeb24d..1044145c 100755 --- a/test/test_data/peridem/twop_wall_concave_diff_material_diff_size/run.sh +++ b/test/test_data/peridem/twop_wall_concave_diff_material_diff_size/run.sh @@ -2,50 +2,14 @@ MY_PWD=$(pwd) ( -# locate executable -execsrc="../../../../../bin/PeriDEM" -nts="2" +if [[ $# -gt 0 ]]; then n_threads="$1"; else n_threads="2"; fi -if [[ ! -d "out" ]]; then - mkdir "out" -fi - -# go to input directory -cd "inp" - -# get tag from command line -pp_tag="0" -if [[ $# -gt 0 ]]; then - pp_tag="$1" -fi - -f_suf="_$pp_tag" -echo "Setting up problem ... " -python3 -B problem_setup.py $pp_tag - -echo "Creating mesh for particles ... " -f_p_1_mesh="mesh_drum_1$f_suf" -gmsh "$f_p_1_mesh.geo" -2 &> /dev/null -gmsh "$f_p_1_mesh.geo" -2 -o "$f_p_1_mesh.vtk" &> /dev/null - -f_p_2_mesh="mesh_drum_2$f_suf" -gmsh "$f_p_2_mesh.geo" -2 &> /dev/null -gmsh "$f_p_2_mesh.geo" -2 -o "$f_p_2_mesh.vtk" &> /dev/null - -f_w_mesh="mesh_wall$f_suf" -gmsh "$f_w_mesh.geo" -2 &> /dev/null -gmsh "$f_w_mesh.geo" -2 -o "$f_w_mesh.vtk" &> /dev/null - -echo "Running PeriDEM ... " -f_inp="input$f_suf.yaml" -"$execsrc" -i "$f_inp" -nThreads $nts +cd "inp" && python3 -B problem_setup.py +peridem="../../../../../bin/PeriDEM" +$peridem -i input_0.yaml -nThreads $n_threads ) 2>&1 | tee output.log - # check if we have produced 'output_10.vtu' file -if [[ -f "out/output_10.vtu" ]]; then - exit 0 -else - exit 1 -fi +cd $MY_PWD +if [[ -f "out/output_10.vtu" ]]; then exit 0; else exit 1; fi diff --git a/test/test_exec/nsearch/testNSearch.cpp b/test/test_exec/nsearch/testNSearch.cpp index 079a159a..95c311ea 100644 --- a/test/test_exec/nsearch/testNSearch.cpp +++ b/test/test_exec/nsearch/testNSearch.cpp @@ -30,7 +30,7 @@ int main(int argc, char *argv[]) { // print help std::cout << argv[0] << " (Version " << MAJOR_VERSION << "." << MINOR_VERSION << "." << UPDATE_VERSION - << ") -i " << std::endl; + << ") -i -o " << std::endl; //exit(EXIT_FAILURE); } @@ -38,27 +38,146 @@ int main(int argc, char *argv[]) { int N; if (input.cmdOptionExists("-i")) N = std::stoi(input.getCmdOption("-i")); else { - std::cout << "Running test with default num-points = 20\n"; N = 20; + std::cout << "Running test with default num-points = " << N << "\n"; } - // test - std::vector L_test = {1., 1000., 0.01}; + int testSelect; + if (input.cmdOptionExists("-o")) testSelect = std::stoi(input.getCmdOption("-o")); + else { + testSelect = 0; + std::cout << "Running test with default test selection = " << testSelect << "\n"; + } + + std::vector leafMaxSizes = {2, 5, 8, 10, 12, 15, 20}; + std::vector L_test = {1., 0.01}; std::vector dL_test = {0.2, 0.5}; std::vector seeds = {1093};//, 13828, 78474}; std::vector N_test = {N}; + std::vector dims{2, 3}; + std::vector numTags{4, 8, 12}; int test_count = 0; - for (auto L : L_test) - for (auto dL : dL_test) - for (auto seed : seeds) - for (auto n : N_test) { - std::cout << "**** Test number = " << test_count++ << " ****\n"; + + + if (testSelect == 0) { + // test 1 + std::cout << "\n\nTesting Exclude and Include tag for different lattice sizes\n\n"; + + for (auto L: L_test) { + for (auto dL: dL_test) { + for (auto seed: seeds) { + for (auto n: N_test) { + for (auto dim: dims) { + + std::string msg; + test::testNSearchData data; + data.d_dim = dim; + data.d_numTags = numTags[0]; + data.d_leafMaxSize = leafMaxSizes[0]; + + std::cout << "\n**** Test number = " << test_count++ << " ****\n"; + std::cout << fmt::format("Test parameters: L = {}, lattice " + "perturbation = {}, seed = {}, " + "N = {}, leafMaxSize = {}, num_tags = {}, " + "dim = {}\n\n", + L, dL * L, seed, n, + data.d_leafMaxSize, + data.d_numTags, data.d_dim); + + + if (dim == 2) + msg = test::testNanoflannExcludeInclude<2>(n, L, dL * L, seed, + data); + else if (dim == 3) + msg = test::testNanoflannExcludeInclude<3>(n, L, dL * L, seed, + data); + + std::cout << msg; + + } // loop dim + } // loop N + } // loop seed + } // loop dL + } // loop L + } + else if (testSelect == 1) { + // test 2 + std::cout + << "\n\nTesting Exclude and Include tag type neighbor search for different leaf sizes and number of tags\n\n"; + + test_count = 0; + std::vector > > data_set( + leafMaxSizes.size()); + + for (size_t i = 0; i < leafMaxSizes.size(); i++) { + + data_set[i].resize(numTags.size()); + + for (size_t j = 0; j < numTags.size(); j++) { + + data_set[i][j].resize(dims.size()); + + for (size_t k = 0; k < dims.size(); k++) { + + auto L = L_test[0]; + auto dL = dL_test[0]; + auto seed = seeds[0]; + auto n = N_test[0]; + + std::string msg; + test::testNSearchData data; + data.d_dim = dims[k]; + data.d_numTags = numTags[j]; + data.d_leafMaxSize = leafMaxSizes[i]; + + std::cout << "\n**** Test number = " << test_count++ << " ****\n"; std::cout << fmt::format("Test parameters: L = {}, lattice " - "perturbation = {}, seed = {}, N = {}\n\n", - L, dL * L, seed, n); - auto msg = test::testNanoflann(n, L, dL*L, seed); + "perturbation = {}, seed = {}, " + "N = {}, leafMaxSize = {}, num_tags = {}, " + "dim = {}\n\n", + L, dL * L, seed, n, + data.d_leafMaxSize, + data.d_numTags, data.d_dim); + + + if (data.d_dim == 2) + msg = test::testNanoflannExcludeInclude<2>(n, L, dL * L, seed, + data); + else if (data.d_dim == 3) + msg = test::testNanoflannExcludeInclude<3>(n, L, dL * L, seed, + data); + std::cout << msg; + + data_set[i][j][k] = data; + } // loop dim + }// loop numTag + } // loop leaf + + std::cout << "\n\nSummarize results of test 2\n\n"; + for (size_t k = 0; k < dims.size(); k++) { + std::cout << "Dim = " << dims[k] << "\n"; + for (size_t j = 0; j < numTags.size(); j++) { + std::cout << fmt::format(" numTag = {:2d}\n", numTags[j]); + for (size_t i = 0; i < leafMaxSizes.size(); i++) { + const auto &data = data_set[i][j][k]; + std::cout << fmt::format( + " leafMaxSize = {:2d}, numPoints = {:8d}, bld_time = {:8d}\n" + " (brute-search) def_time = {:8d}, exc_time = {:8d}, inc_time = {:8d}\n" + " (nflan-search) def_time = {:8d}, exc_time = {:8d}, inc_time = {:8d}\n", + data.d_leafMaxSize, + data.d_numPoints, + int(data.d_treeBuildTime), + int(data.d_defaultBruteSearchTime), + int(data.d_excludeBruteSearchTime), + int(data.d_includeBruteSearchTime), + int(data.d_defaultNFlannSearchTime), + int(data.d_excludeNFlannSearchTime), + int(data.d_includeNFlannSearchTime)); } + } + } + } return EXIT_SUCCESS; } diff --git a/test/test_exec/nsearch/testNSearchLib.cpp b/test/test_exec/nsearch/testNSearchLib.cpp index 9232c3df..f3f540e0 100644 --- a/test/test_exec/nsearch/testNSearchLib.cpp +++ b/test/test_exec/nsearch/testNSearchLib.cpp @@ -52,30 +52,61 @@ void stats(const std::vector &x, double &mean, double &std) { } void lattice(double L, size_t Nx, size_t Ny, size_t Nz, double dL, int seed, - std::vector &x) { + std::vector &x, int dim = 3) { RandGenerator gen(util::get_rd_gen(seed)); UniformDistribution dist(-dL, dL); - x.resize(Nx * Ny * Nz); + if (dim == 2) + x.resize(Nx * Ny); + else if (dim == 3) + x.resize(Nx * Ny * Nz); + else { + std::cerr << "Dimension = " << dim << " not supprted.\n"; + exit(EXIT_FAILURE); + } size_t count = 0; - for (size_t i = 0; i < Nx; i++) - for (size_t j = 0; j < Ny; j++) - for (size_t k = 0; k < Nz; k++) { + for (size_t i = 0; i < Nx; i++) { + for (size_t j = 0; j < Ny; j++) { + if (dim == 2) { auto y = util::Point(); y.d_x = i * L + dist(gen); y.d_y = j * L + dist(gen); - y.d_z = k * L + dist(gen); + y.d_z = 0.; x[count] = y; count++; - } + } else if (dim == 3) { + for (size_t k = 0; k < Nz; k++) { + auto y = util::Point(); + y.d_x = i * L + dist(gen); + y.d_y = j * L + dist(gen); + y.d_z = k * L + dist(gen); + + x[count] = y; + count++; + } // loop over k + } // if-else + } // loop over j + } // loop over i +} + +void assignRandomTags(std::vector &x, + int numTags, + int seed, + std::vector &xTags) { + RandGenerator gen(util::get_rd_gen(seed)); + UniformIntDistribution dist(0, numTags - 1); + + for (size_t i=0; i double neighSearchTree(const std::vector &x, - const std::unique_ptr &nsearch, const double &r, + const std::unique_ptr &nsearch, + const double &r, std::vector> &neigh, std::vector> &neigh_sq_dist) { neigh.resize(x.size()); @@ -108,7 +139,8 @@ double neighSearchTree(const std::vector &x, template double neighSearchTreeSizet(const std::vector &x, - const std::unique_ptr &nsearch, const double &r, + const std::unique_ptr &nsearch, + const double &r, std::vector> &neigh, std::vector> &neigh_sq_dist) { neigh.resize(x.size()); @@ -139,9 +171,72 @@ double neighSearchTreeSizet(const std::vector &x, return util::methods::timeDiff(t1, t2, "microseconds"); } +template +double neighSearchTreeSizetExcludeInclude(const std::vector &x, + const std::vector &xTags, + const std::unique_ptr &nsearch, + const double &r, + std::vector> &neigh, + std::vector> &neigh_sq_dist, + int selection_criteria) { + + // selection_criteria = 1 --> exclude search + // selection_criteria = 2 --> include search + + neigh.resize(x.size()); + neigh_sq_dist.resize(x.size()); + auto t1 = steady_clock::now(); + + tf::Executor executor(util::parallel::getNThreads()); + tf::Taskflow taskflow; + + taskflow.for_each_index((std::size_t) 0, + x.size(), + (std::size_t) 1, + [&x, + &xTags, + &neigh, + &neigh_sq_dist, + &nsearch, + r, + selection_criteria](std::size_t i) { + + std::vector neighs; + std::vector sqr_dist; + size_t n = 0; + + if (selection_criteria == 1) + n = nsearch->radiusSearchExcludeTag(x[i], r, + neighs, + sqr_dist, + xTags[i], + xTags); + else if (selection_criteria == 2) + n = nsearch->radiusSearchIncludeTag(x[i], r, + neighs, + sqr_dist, + xTags[i], + xTags); + if (n > 0) { + for (std::size_t j = 0; j < neighs.size(); ++j) + if (size_t(neighs[j]) != i) { + neigh[i].push_back(size_t(neighs[j])); + neigh_sq_dist[i].push_back(sqr_dist[j]); + } + } + } + ); // for_each + + executor.run(taskflow).get(); + + auto t2 = steady_clock::now(); + return util::methods::timeDiff(t1, t2, "microseconds"); +} + double neighSearchBrute(const std::vector &x, const double &r, std::vector> &neigh, std::vector> &neigh_sq_dist) { + neigh.resize(x.size()); neigh_sq_dist.resize(x.size()); @@ -150,7 +245,13 @@ double neighSearchBrute(const std::vector &x, const double &r, tf::Executor executor(util::parallel::getNThreads()); tf::Taskflow taskflow; - taskflow.for_each_index((std::size_t) 0, x.size(), (std::size_t) 1, [&x, &neigh, &neigh_sq_dist, r](std::size_t i) { + taskflow.for_each_index((std::size_t) 0, + x.size(), + (std::size_t) 1, + [&x, + &neigh, + &neigh_sq_dist, + r](std::size_t i) { auto searchPoint = x[i]; for (size_t j = 0; j < x.size(); j++) { @@ -170,6 +271,66 @@ double neighSearchBrute(const std::vector &x, const double &r, return util::methods::timeDiff(t1, t2, "microseconds"); } + +double neighSearchBruteExcludeInclude(const std::vector &x, + const std::vector &xTags, + const double &r, + std::vector> &neigh, + std::vector> &neigh_sq_dist, + int selection_criteria) { + + // selection_criteria = 1 --> exclude search + // selection_criteria = 2 --> include search + + neigh.resize(x.size()); + neigh_sq_dist.resize(x.size()); + + auto t1 = steady_clock::now(); + + tf::Executor executor(util::parallel::getNThreads()); + tf::Taskflow taskflow; + + taskflow.for_each_index((std::size_t) 0, + x.size(), + (std::size_t) 1, + [&x, + &xTags, + &neigh, + &neigh_sq_dist, + r, + selection_criteria](std::size_t i) { + + auto searchPoint = x[i]; + auto searchPointTag = xTags[i]; + + for (size_t j = 0; j < x.size(); j++) { + auto dx = searchPoint - x[j]; + auto l = dx.length(); + if (util::isLess(l, r) and j != i) { + + if (selection_criteria == 1) { + if (xTags[j] != searchPointTag) { + neigh[i].push_back(j); + neigh_sq_dist[i].push_back(l); + } + } + else if (selection_criteria == 2) { + if (xTags[j] == searchPointTag) { + neigh[i].push_back(j); + neigh_sq_dist[i].push_back(l); + } + } + } + } + } + ); // for_each + + executor.run(taskflow).get(); + + auto t2 = steady_clock::now(); + return util::methods::timeDiff(t1, t2, "microseconds"); +} + std::string compare_results(const std::vector> &neigh1, const std::vector> &neigh2, std::vector tags, @@ -223,65 +384,299 @@ std::string compare_results(const std::vector> &neigh1, } } // namespace +template std::string test::testNanoflann(size_t N, double L, double dL, int seed) { + if (dim < 2 or dim > 3) { + return "testNanoflann: only dim = 2, 3 are accepted.\n"; + } + // create 3D lattice and perturb each lattice point size_t Nx, Ny, Nz; Nx = Ny = Nz = N; - size_t N_tot = Nx * Ny * Nz; + size_t N_tot = Nx * Ny; + if (dim == 3) + N_tot = N_tot * Nz; std::vector x(N_tot, util::Point()); - lattice(L, Nx, Ny, Nz, dL, seed, x); + lattice(L, Nx, Ny, Nz, dL, seed, x, dim); std::cout << "Total points = " << x.size() << "\n"; - std::vector> neigh_nflann(N_tot, std::vector()); - std::vector> neigh_nflann_sq_dist(N_tot, + + if (dim == 2) { + std::vector> neigh_nflann(N_tot, std::vector()); + std::vector> neigh_nflann_sq_dist(N_tot, + std::vector()); + + std::vector> neigh_nflann_3d(N_tot, std::vector()); + std::vector> neigh_nflann_3d_sq_dist(N_tot, + std::vector()); + + std::vector> neigh_brute(N_tot, std::vector()); + std::vector> neigh_brute_sq_dist(N_tot, + std::vector()); + + // brute-force search + double search_r = 1.5 * L; + auto brute_force_search_time = + neighSearchBrute(x, search_r, neigh_brute, neigh_brute_sq_dist); + + // nanoflann tree search + std::unique_ptr> nflann_nsearch_3d + = std::make_unique>(x, 0); + + std::unique_ptr> nflann_nsearch + = std::make_unique>(x, 0); + + auto nflann_tree_set_time_3d = nflann_nsearch_3d->setInputCloud(); + auto nflann_tree_search_time_3d = + neighSearchTreeSizet(x, nflann_nsearch_3d, search_r, neigh_nflann_3d, neigh_nflann_3d_sq_dist); + + auto nflann_tree_set_time = nflann_nsearch->setInputCloud(); + auto nflann_tree_search_time = + neighSearchTreeSizet(x, nflann_nsearch, search_r, neigh_nflann, neigh_nflann_sq_dist); + + // Compare search results + auto nflann_brute_compare = compare_results( + neigh_nflann, neigh_brute, {"nflann_tree", "brute_force"}, -1, true); + + auto nflann_brute_compare_3d = compare_results( + neigh_nflann_3d, neigh_brute, {"nflann_tree-3d", "brute_force"}, -1, true); + + std::ostringstream msg; + msg << fmt::format(" Setup times (microseconds): \n" + " nflann_tree_set_time = {} \n " + " nflann_tree_set_time_3d = {}\n", + nflann_tree_set_time, nflann_tree_set_time_3d); + + msg << fmt::format(" Search times (microseconds): \n" + " brute_force_search_time = {}\n" + " nflann_tree_search_time = {}\n" + " nflann_tree_search_time_3d = {}\n", + brute_force_search_time, + nflann_tree_search_time, + nflann_tree_search_time_3d); + + msg << fmt::format(" Comparison results: \n" + " nflann_brute_compare: \n{}\n", + nflann_brute_compare); + + msg << fmt::format(" Comparison results: \n" + " nflann_brute_compare_3d: \n{}\n", + nflann_brute_compare_3d); + + return msg.str(); + } + else if (dim == 3) { + std::vector> neigh_nflann(N_tot, std::vector()); + std::vector> neigh_nflann_sq_dist(N_tot, + std::vector()); + + std::vector> neigh_brute(N_tot, std::vector()); + std::vector> neigh_brute_sq_dist(N_tot, + std::vector()); + + // brute-force search + double search_r = 1.5 * L; + auto brute_force_search_time = + neighSearchBrute(x, search_r, neigh_brute, neigh_brute_sq_dist); + + // nanoflann tree search + std::unique_ptr> nflann_nsearch + = std::make_unique>(x, 0); + + auto nflann_tree_set_time = nflann_nsearch->setInputCloud(); + auto nflann_tree_search_time = + neighSearchTreeSizet(x, nflann_nsearch, search_r, neigh_nflann, neigh_nflann_sq_dist); + + // Compare search results + auto nflann_brute_compare = compare_results( + neigh_nflann, neigh_brute, {"nflann_tree", "brute_force"}, -1, true); + + std::ostringstream msg; + msg << fmt::format(" Setup times (microseconds): \n" + " nflann_tree_set_time = {}\n", + nflann_tree_set_time); + + msg << fmt::format(" Search times (microseconds): \n" + " brute_force_search_time = {}\n" + " nflann_tree_search_time = {}\n", + brute_force_search_time, + nflann_tree_search_time); + + msg << fmt::format(" Comparison results: \n" + " nflann_brute_compare: \n{}\n", + nflann_brute_compare); + + return msg.str(); + } + + +} + + +template +std::string test::testNanoflannExcludeInclude(size_t N, double L, + double dL, int seed, testNSearchData &data) { + + if (dim < 2 or dim > 3) { + return "testNanoflannExcludeInclude: only dim = 2, 3 are accepted.\n"; + } + + // create 3D lattice and perturb each lattice point + size_t Nx, Ny, Nz; + Nx = Ny = Nz = N; + size_t N_tot = Nx * Ny; + if (dim == 3) + N_tot = N_tot * Nz; + + std::vector x(N_tot, util::Point()); + std::vector xTags(N_tot, 0); + lattice(L, Nx, Ny, Nz, dL, seed, x, dim); + assignRandomTags(x, data.d_numTags, seed, xTags); + data.d_numPoints = x.size(); + std::cout << "Total points = " << x.size() << "\n"; + + std::vector> neigh_default_nflann(N_tot, std::vector()); + std::vector> neigh_default_nflann_sq_dist(N_tot, + std::vector()); + + std::vector> neigh_exclude_nflann(N_tot, std::vector()); + std::vector> neigh_exclude_nflann_sq_dist(N_tot, std::vector()); - std::vector> neigh_brute(N_tot, std::vector()); - std::vector> neigh_brute_sq_dist(N_tot, + std::vector> neigh_include_nflann(N_tot, std::vector()); + std::vector> neigh_include_nflann_sq_dist(N_tot, + std::vector()); + + + std::vector> neigh_default_brute(N_tot, std::vector()); + std::vector> neigh_default_brute_sq_dist(N_tot, + std::vector()); + + std::vector> neigh_exclude_brute(N_tot, std::vector()); + std::vector> neigh_exclude_brute_sq_dist(N_tot, std::vector()); - std::vector> neigh_pcl(N_tot, std::vector()); - std::vector> neigh_pcl_sq_dist(N_tot, - std::vector()); + std::vector> neigh_include_brute(N_tot, std::vector()); + std::vector> neigh_include_brute_sq_dist(N_tot, + std::vector()); - // // brute-force search - // - double search_r = 1.5 * L; - auto brute_force_search_time = - neighSearchBrute(x, search_r, neigh_brute, neigh_brute_sq_dist); + double search_r = 3. * L; + + data.d_defaultBruteSearchTime = + neighSearchBrute(x, + search_r, + neigh_default_brute, + neigh_default_brute_sq_dist); + + data.d_excludeBruteSearchTime = + neighSearchBruteExcludeInclude(x, xTags, search_r, + neigh_exclude_brute, + neigh_exclude_brute_sq_dist, + 1); + + data.d_includeBruteSearchTime = + neighSearchBruteExcludeInclude(x, xTags, search_r, + neigh_include_brute, + neigh_include_brute_sq_dist, + 2); - // // nanoflann tree search - // - std::unique_ptr nflann_nsearch = std::make_unique(x, 0); - auto nflann_tree_set_time = nflann_nsearch->updatePointCloud(x, true); - nflann_tree_set_time += nflann_nsearch->setInputCloud(); - auto nflann_tree_search_time = - neighSearchTreeSizet(x, nflann_nsearch, search_r, neigh_nflann, neigh_nflann_sq_dist); - - // - // Compare three search lists - // - auto nflann_brute_compare = compare_results( - neigh_nflann, neigh_brute, {"nflann_tree", "brute_force"}, -1, true); + std::unique_ptr> nflann_nsearch + = std::make_unique>(x, 0, + data.d_leafMaxSize); + + data.d_treeBuildTime = nflann_nsearch->setInputCloud(); + + // default + data.d_defaultNFlannSearchTime = + neighSearchTreeSizet(x, nflann_nsearch, + search_r, neigh_default_nflann, + neigh_default_nflann_sq_dist); + + // exclude + data.d_excludeNFlannSearchTime = + neighSearchTreeSizetExcludeInclude(x, xTags, nflann_nsearch, + search_r, neigh_exclude_nflann, + neigh_exclude_nflann_sq_dist, + 1); + + // include + data.d_includeNFlannSearchTime = + neighSearchTreeSizetExcludeInclude(x, xTags, nflann_nsearch, + search_r, neigh_include_nflann, + neigh_include_nflann_sq_dist, + 2); + + // Compare search results + auto nflann_brute_compare_default = compare_results( + neigh_default_nflann, neigh_default_brute, + {"nflann_tree_default", "brute_force_default"}, -1, true); + + auto nflann_brute_compare_exclude = compare_results( + neigh_exclude_nflann, neigh_exclude_brute, + {"nflann_tree_exclude", "brute_force_exclude"}, -1, true); + + auto nflann_brute_compare_include = compare_results( + neigh_include_nflann, neigh_include_brute, + {"nflann_tree_include", "brute_force_include"}, -1, true); std::ostringstream msg; msg << fmt::format(" Setup times (microseconds): \n" " nflann_tree_set_time = {}\n", - nflann_tree_set_time); + data.d_treeBuildTime); + + msg << fmt::format(" Default search times (microseconds): \n" + " brute_force_search_time = {}\n" + " nflann_tree_search_time = {}\n", + data.d_defaultBruteSearchTime, + data.d_defaultNFlannSearchTime); + + msg << fmt::format(" Exclude comparison results: \n" + " nflann_brute_compare: \n{}\n", + nflann_brute_compare_default); - msg << fmt::format(" Search times (microseconds): \n" + msg << fmt::format(" Exclude search times (microseconds): \n" " brute_force_search_time = {}\n" " nflann_tree_search_time = {}\n", - brute_force_search_time, - nflann_tree_search_time); + data.d_excludeBruteSearchTime, + data.d_excludeNFlannSearchTime); - msg << fmt::format(" Comparison results: \n" + msg << fmt::format(" Exclude comparison results: \n" " nflann_brute_compare: \n{}\n", - nflann_brute_compare); + nflann_brute_compare_exclude); + + msg << fmt::format(" Include search times (microseconds): \n" + " brute_force_search_time = {}\n" + " nflann_tree_search_time = {}\n", + data.d_includeBruteSearchTime, + data.d_includeNFlannSearchTime); + + msg << fmt::format(" Include comparison results: \n" + " nflann_brute_compare: \n{}\n", + nflann_brute_compare_include); + + + msg << fmt::format(" Nflann all search times (microseconds): \n" + " default = {}\n" + " exclude = {}\n" + " include = {}\n", + data.d_defaultNFlannSearchTime, + data.d_excludeNFlannSearchTime, + data.d_includeNFlannSearchTime); return msg.str(); + + } + + +template std::string test::testNanoflann<2>(size_t N, double L, double dL, int seed); +template std::string test::testNanoflann<3>(size_t N, double L, double dL, int seed); + +template std::string test::testNanoflannExcludeInclude<2>(size_t N, double L, + double dL, int seed, testNSearchData &data); +template std::string test::testNanoflannExcludeInclude<3>(size_t N, double L, + double dL, int seed, testNSearchData &data); diff --git a/test/test_exec/nsearch/testNSearchLib.h b/test/test_exec/nsearch/testNSearchLib.h index da77511e..b1db0070 100644 --- a/test/test_exec/nsearch/testNSearchLib.h +++ b/test/test_exec/nsearch/testNSearchLib.h @@ -16,16 +16,47 @@ namespace test { +struct testNSearchData { + int d_dim = 3; + int d_leafMaxSize = 10; + int d_numTags = 4; + int d_numPoints = 0; + double d_treeBuildTime = 0.; + double d_defaultNFlannSearchTime = 0.; + double d_excludeNFlannSearchTime = 0.; + double d_includeNFlannSearchTime = 0.; + double d_defaultBruteSearchTime = 0.; + double d_excludeBruteSearchTime = 0.; + double d_includeBruteSearchTime = 0.; +}; + /*! * @brief Perform test on nsearch * @param N size of particle cloud in each dimension. total size would be N^3 * @param L Size of unit cell to create crystal lattice point cloud * @param dL Perturbation of lattice sites * @param seed Seed + * @param dim Dimension * @return str String containing various information */ +template std::string testNanoflann(size_t N, double L, double dL, int seed); +/*! + * @brief Perform test on nsearch + * @param N size of particle cloud in each dimension. total size would be N^3 + * @param L Size of unit cell to create crystal lattice point cloud + * @param dL Perturbation of lattice sites + * @param seed Seed + * @param dim Dimension + * @param data Search data + * @return str String containing various information + */ +template +std::string testNanoflannExcludeInclude(size_t N, double L, + double dL, int seed, + testNSearchData &data); + } // namespace test #endif // TEST_NSEARCH_LIB_H