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67 lines
3.4 KiB
67 lines
3.4 KiB
#include <iostream>
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#include <array>
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#include <solve.h>
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#include <math/math_defs.hpp>
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int main()
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{
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auto primitive_data_center = create_primitive_data_center();
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//auto sphere1 = create_primitive(primitive_data_center, PRIMITIVE_TYPE_SPHERE);
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//auto sphere2 = create_primitive(primitive_data_center, PRIMITIVE_TYPE_SPHERE);
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//auto cylinder1 = create_primitive(primitive_data_center, PRIMITIVE_TYPE_CYLINDER);
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//auto cylinder2 = create_primitive(primitive_data_center, PRIMITIVE_TYPE_CYLINDER);
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//auto polyline_extrude = create_primitive(primitive_data_center, PRIMITIVE_TYPE_EXTRUDE_POLYLINE);
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auto helixline_extrude = create_primitive(primitive_data_center, PRIMITIVE_TYPE_EXTRUDE_HELIXLINE);
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//primitive_apply_translation(cylinder1, {1.0, 0.0, 0.0});
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//primitive_apply_translation(sphere1, {1.0, 0.0, 0.0});
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//primitive_apply_translation(polyline_extrude, {0.3, 0.0, 0.0});
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//primitive_apply_scale(cylinder1, {0.5, 1.0, 1.5});
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//primitive_apply_scale(sphere2, {0.5, 1.0, 1.5});
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////primitive_apply_scale(polyline_extrude, {1.3, 2.0, 0.6});
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////primitive_apply_scale(helixline_extrude, {0.7, 2.0, 1.0});
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//double angle_x = 90.0 * pi / 180.0; // 角度转弧度
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//primitive_apply_rotation(cylinder1, {sin(angle_x / 2.0), 0.0, 0.0, cos(angle_x / 2.0)});
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//primitive_apply_rotation(sphere1, {sin(angle_x / 2.0), 0.0, 0.0, cos(angle_x / 2.0)});
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////primitive_apply_rotation(polyline_extrude, {sin(angle_x / 3.0), 0.0, 0.0, cos(angle_x / 1.0)});
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//std::cout << "primitive created..." << std::endl;
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auto runtime_blobtree = create_blobtree();
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auto node_iter = blobtree_add_primitive_node(runtime_blobtree, helixline_extrude);
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//auto node_iter1 = blobtree_add_primitive_node(runtime_blobtree, cylinder1);
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//auto node_iter2 = blobtree_add_primitive_node(runtime_blobtree, sphere1);
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//auto node_iter3 = blobtree_add_operation_node(runtime_blobtree, node_iter1, node_iter2, INTERSECTION_OP);
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//auto node_iter4 = blobtree_add_primitive_node(runtime_blobtree, sphere2);
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//auto node_iter5 = blobtree_add_operation_node(runtime_blobtree, node_iter3, node_iter4, UNION_OP);
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//auto node_iter6 = blobtree_add_primitive_node(runtime_blobtree, cylinder2);
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//auto node_iter7 = blobtree_add_operation_node(runtime_blobtree, node_iter6, node_iter5, DIFFERENCE_OP);
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//auto node_iter8 = blobtree_add_primitive_node(runtime_blobtree, polyline_extrude);
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//auto node_iter9 = blobtree_add_operation_node(runtime_blobtree, node_iter7, node_iter8, UNION_OP);
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auto baked_blobtree = bake_blobtree(runtime_blobtree);
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destroy_blobtree(runtime_blobtree);
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std::cout << "blobtree created..." << std::endl;
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s_settings settings{};
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settings.resolution = 48; // 72
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settings.scene_aabb_margin = 1e-5;
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settings.restricted_primitive_bounding_test = true;
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auto solver = create_solver(baked_blobtree, settings);
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auto result = generate_polymesh(solver);
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print_statistics(solver);
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destroy_solver(solver);
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destroy_baked_blobtree(baked_blobtree);
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//destroy_primitive(sphere1);
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//destroy_primitive(cylinder1);
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//destroy_primitive(polyline_extrude);
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destroy_primitive(helixline_extrude);
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destroy_primitive_data_center(primitive_data_center);
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return 0;
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}
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