PrusaSlicer-NonPlainar/tests/sla_print/sla_treebuilder_tests.cpp

#include <catch2/catch.hpp>
#include <test_utils.hpp>

#include "libslic3r/TriangleMesh.hpp"
#include "libslic3r/SLA/SupportTreeBuildsteps.hpp"
#include "libslic3r/SLA/SupportTreeMesher.hpp"

TEST_CASE("Test bridge_mesh_intersect on a cube's wall", "[SLABridgeMeshInters]") {
    using namespace Slic3r;

    TriangleMesh cube = make_cube(10., 10., 10.);

    sla::SupportConfig cfg = {}; // use default config
    sla::SupportPoints pts = {{10.f, 5.f, 5.f, float(cfg.head_front_radius_mm), false}};
    sla::SupportableMesh sm{cube, pts, cfg};

    size_t steps = 45;
    SECTION("Bridge is straight horizontal and pointing away from the cube") {

        sla::Bridge bridge(pts[0].pos.cast<double>(), Vec3d{15., 5., 5.},
                           pts[0].head_front_radius);

        auto hit = sla::query_hit(sm, bridge);

        REQUIRE(std::isinf(hit.distance()));

        cube.merge(sla::to_triangle_mesh(get_mesh(bridge, steps)));
        cube.require_shared_vertices();
        cube.WriteOBJFile("cube1.obj");
    }

    SECTION("Bridge is tilted down in 45 degrees, pointing away from the cube") {
        sla::Bridge bridge(pts[0].pos.cast<double>(), Vec3d{15., 5., 0.},
                           pts[0].head_front_radius);

        auto hit = sla::query_hit(sm, bridge);

        REQUIRE(std::isinf(hit.distance()));

        cube.merge(sla::to_triangle_mesh(get_mesh(bridge, steps)));
        cube.require_shared_vertices();
        cube.WriteOBJFile("cube2.obj");
    }
}


TEST_CASE("Test bridge_mesh_intersect on a sphere", "[SLABridgeMeshInters]") {
    using namespace Slic3r;

    TriangleMesh sphere = make_sphere(1.);

    sla::SupportConfig cfg = {}; // use default config
    cfg.head_back_radius_mm = cfg.head_front_radius_mm;
    sla::SupportPoints pts = {{1.f, 0.f, 0.f, float(cfg.head_front_radius_mm), false}};
    sla::SupportableMesh sm{sphere, pts, cfg};

    size_t steps = 45;
    SECTION("Bridge is straight horizontal and pointing away from the sphere") {

        sla::Bridge bridge(pts[0].pos.cast<double>(), Vec3d{2., 0., 0.},
                           pts[0].head_front_radius);

        auto hit = sla::query_hit(sm, bridge);

        sphere.merge(sla::to_triangle_mesh(get_mesh(bridge, steps)));
        sphere.require_shared_vertices();
        sphere.WriteOBJFile("sphere1.obj");

        REQUIRE(std::isinf(hit.distance()));
    }

    SECTION("Bridge is tilted down 45 deg and pointing away from the sphere") {

        sla::Bridge bridge(pts[0].pos.cast<double>(), Vec3d{2., 0., -2.},
                           pts[0].head_front_radius);

        auto hit = sla::query_hit(sm, bridge);

        sphere.merge(sla::to_triangle_mesh(get_mesh(bridge, steps)));
        sphere.require_shared_vertices();
        sphere.WriteOBJFile("sphere2.obj");

        REQUIRE(std::isinf(hit.distance()));
    }

    SECTION("Bridge is tilted down 90 deg and pointing away from the sphere") {

        sla::Bridge bridge(pts[0].pos.cast<double>(), Vec3d{1., 0., -2.},
                           pts[0].head_front_radius);

        auto hit = sla::query_hit(sm, bridge);

        sphere.merge(sla::to_triangle_mesh(get_mesh(bridge, steps)));
        sphere.require_shared_vertices();
        sphere.WriteOBJFile("sphere3.obj");

        REQUIRE(std::isinf(hit.distance()));
    }
}
Create smaller supports in problematic areas with established strategies Completely remove the concept of CompactBridge. Replace it with Heads having the same back radius as front radius. Try to apply the same rules for mini supports as in the route_to_model step. Increased accuracy of bridge_mesh_intersect shot from support points Refining mini support integration 2020-06-02 15:31:52 +00:00			`#include <catch2/catch.hpp>`
			`#include <test_utils.hpp>`

			`#include "libslic3r/TriangleMesh.hpp"`
Separate support tree routing and meshing, remove Common.hpp/.cpp . * Remove Common.hpp and Common.cpp, move things into their respective modules in sla. 2020-06-16 11:17:06 +00:00			`#include "libslic3r/SLA/SupportTreeBuildsteps.hpp"`
			`#include "libslic3r/SLA/SupportTreeMesher.hpp"`
Create smaller supports in problematic areas with established strategies Completely remove the concept of CompactBridge. Replace it with Heads having the same back radius as front radius. Try to apply the same rules for mini supports as in the route_to_model step. Increased accuracy of bridge_mesh_intersect shot from support points Refining mini support integration 2020-06-02 15:31:52 +00:00
			`TEST_CASE("Test bridge_mesh_intersect on a cube's wall", "[SLABridgeMeshInters]") {`
			`using namespace Slic3r;`

			`TriangleMesh cube = make_cube(10., 10., 10.);`

			`sla::SupportConfig cfg = {}; // use default config`
			`sla::SupportPoints pts = {{10.f, 5.f, 5.f, float(cfg.head_front_radius_mm), false}};`
			`sla::SupportableMesh sm{cube, pts, cfg};`

Separate support tree routing and meshing, remove Common.hpp/.cpp . * Remove Common.hpp and Common.cpp, move things into their respective modules in sla. 2020-06-16 11:17:06 +00:00			`size_t steps = 45;`
Create smaller supports in problematic areas with established strategies Completely remove the concept of CompactBridge. Replace it with Heads having the same back radius as front radius. Try to apply the same rules for mini supports as in the route_to_model step. Increased accuracy of bridge_mesh_intersect shot from support points Refining mini support integration 2020-06-02 15:31:52 +00:00			`SECTION("Bridge is straight horizontal and pointing away from the cube") {`

			`sla::Bridge bridge(pts[0].pos.cast<double>(), Vec3d{15., 5., 5.},`
			`pts[0].head_front_radius);`

			`auto hit = sla::query_hit(sm, bridge);`

			`REQUIRE(std::isinf(hit.distance()));`

Separate support tree routing and meshing, remove Common.hpp/.cpp . * Remove Common.hpp and Common.cpp, move things into their respective modules in sla. 2020-06-16 11:17:06 +00:00			`cube.merge(sla::to_triangle_mesh(get_mesh(bridge, steps)));`
Create smaller supports in problematic areas with established strategies Completely remove the concept of CompactBridge. Replace it with Heads having the same back radius as front radius. Try to apply the same rules for mini supports as in the route_to_model step. Increased accuracy of bridge_mesh_intersect shot from support points Refining mini support integration 2020-06-02 15:31:52 +00:00			`cube.require_shared_vertices();`
			`cube.WriteOBJFile("cube1.obj");`
			`}`

			`SECTION("Bridge is tilted down in 45 degrees, pointing away from the cube") {`
			`sla::Bridge bridge(pts[0].pos.cast<double>(), Vec3d{15., 5., 0.},`
			`pts[0].head_front_radius);`

			`auto hit = sla::query_hit(sm, bridge);`

			`REQUIRE(std::isinf(hit.distance()));`

Separate support tree routing and meshing, remove Common.hpp/.cpp . * Remove Common.hpp and Common.cpp, move things into their respective modules in sla. 2020-06-16 11:17:06 +00:00			`cube.merge(sla::to_triangle_mesh(get_mesh(bridge, steps)));`
Create smaller supports in problematic areas with established strategies Completely remove the concept of CompactBridge. Replace it with Heads having the same back radius as front radius. Try to apply the same rules for mini supports as in the route_to_model step. Increased accuracy of bridge_mesh_intersect shot from support points Refining mini support integration 2020-06-02 15:31:52 +00:00			`cube.require_shared_vertices();`
			`cube.WriteOBJFile("cube2.obj");`
			`}`
			`}`


			`TEST_CASE("Test bridge_mesh_intersect on a sphere", "[SLABridgeMeshInters]") {`
			`using namespace Slic3r;`

			`TriangleMesh sphere = make_sphere(1.);`

			`sla::SupportConfig cfg = {}; // use default config`
			`cfg.head_back_radius_mm = cfg.head_front_radius_mm;`
			`sla::SupportPoints pts = {{1.f, 0.f, 0.f, float(cfg.head_front_radius_mm), false}};`
			`sla::SupportableMesh sm{sphere, pts, cfg};`

Separate support tree routing and meshing, remove Common.hpp/.cpp . * Remove Common.hpp and Common.cpp, move things into their respective modules in sla. 2020-06-16 11:17:06 +00:00			`size_t steps = 45;`
Create smaller supports in problematic areas with established strategies Completely remove the concept of CompactBridge. Replace it with Heads having the same back radius as front radius. Try to apply the same rules for mini supports as in the route_to_model step. Increased accuracy of bridge_mesh_intersect shot from support points Refining mini support integration 2020-06-02 15:31:52 +00:00			`SECTION("Bridge is straight horizontal and pointing away from the sphere") {`

			`sla::Bridge bridge(pts[0].pos.cast<double>(), Vec3d{2., 0., 0.},`
			`pts[0].head_front_radius);`

			`auto hit = sla::query_hit(sm, bridge);`

Separate support tree routing and meshing, remove Common.hpp/.cpp . * Remove Common.hpp and Common.cpp, move things into their respective modules in sla. 2020-06-16 11:17:06 +00:00			`sphere.merge(sla::to_triangle_mesh(get_mesh(bridge, steps)));`
Create smaller supports in problematic areas with established strategies Completely remove the concept of CompactBridge. Replace it with Heads having the same back radius as front radius. Try to apply the same rules for mini supports as in the route_to_model step. Increased accuracy of bridge_mesh_intersect shot from support points Refining mini support integration 2020-06-02 15:31:52 +00:00			`sphere.require_shared_vertices();`
			`sphere.WriteOBJFile("sphere1.obj");`

			`REQUIRE(std::isinf(hit.distance()));`
			`}`

			`SECTION("Bridge is tilted down 45 deg and pointing away from the sphere") {`

			`sla::Bridge bridge(pts[0].pos.cast<double>(), Vec3d{2., 0., -2.},`
			`pts[0].head_front_radius);`

			`auto hit = sla::query_hit(sm, bridge);`

Separate support tree routing and meshing, remove Common.hpp/.cpp . * Remove Common.hpp and Common.cpp, move things into their respective modules in sla. 2020-06-16 11:17:06 +00:00			`sphere.merge(sla::to_triangle_mesh(get_mesh(bridge, steps)));`
Create smaller supports in problematic areas with established strategies Completely remove the concept of CompactBridge. Replace it with Heads having the same back radius as front radius. Try to apply the same rules for mini supports as in the route_to_model step. Increased accuracy of bridge_mesh_intersect shot from support points Refining mini support integration 2020-06-02 15:31:52 +00:00			`sphere.require_shared_vertices();`
			`sphere.WriteOBJFile("sphere2.obj");`

			`REQUIRE(std::isinf(hit.distance()));`
			`}`

			`SECTION("Bridge is tilted down 90 deg and pointing away from the sphere") {`

			`sla::Bridge bridge(pts[0].pos.cast<double>(), Vec3d{1., 0., -2.},`
			`pts[0].head_front_radius);`

			`auto hit = sla::query_hit(sm, bridge);`

Separate support tree routing and meshing, remove Common.hpp/.cpp . * Remove Common.hpp and Common.cpp, move things into their respective modules in sla. 2020-06-16 11:17:06 +00:00			`sphere.merge(sla::to_triangle_mesh(get_mesh(bridge, steps)));`
Create smaller supports in problematic areas with established strategies Completely remove the concept of CompactBridge. Replace it with Heads having the same back radius as front radius. Try to apply the same rules for mini supports as in the route_to_model step. Increased accuracy of bridge_mesh_intersect shot from support points Refining mini support integration 2020-06-02 15:31:52 +00:00			`sphere.require_shared_vertices();`
			`sphere.WriteOBJFile("sphere3.obj");`

			`REQUIRE(std::isinf(hit.distance()));`
			`}`
			`}`