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Refactored HullScene making tests easier to visualize.

master
Martin Felis 2021-11-07 20:19:25 +01:00
parent 1adf0c611f
commit 7830840d81
3 changed files with 218 additions and 140 deletions
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6
src/sconvcol.h
View File

@ -524,7 +524,7 @@ float sch_query_face_directions(
sch_hull_get_support(hull_B, simd4f_sub(simd4f_zero(), plane_n_B), &vert_B); sch_hull_get_support(hull_B, simd4f_sub(simd4f_zero(), plane_n_B), &vert_B);
simd4f vert_A; simd4f vert_A;
simd4x4f_inv_ortho_matrix_point3_mul(trans_BtoA, &vert_B, &vert_A); simd4x4f_matrix_point3_mul(trans_BtoA, &vert_B, &vert_A);
float distance = sch_plane_distance(&plane, &vert_A); float distance = sch_plane_distance(&plane, &vert_A);
if (distance > result->dist) { if (distance > result->dist) {
result->dist = distance; result->dist = distance;
@ -730,7 +730,9 @@ bool sch_hull_sat(
} }
sch_face_query query_B_A; sch_face_query query_B_A;
sch_query_face_directions(hull_B, &trans_BtoA, hull_A, &query_B_A); simd4x4f trans_AtoB;
sch_simd4x4f_transform_inv(&trans_BtoA, &trans_AtoB);
sch_query_face_directions(hull_B, &trans_AtoB, hull_A, &query_B_A);
if (query_B_A.dist > 0.f) { if (query_B_A.dist > 0.f) {
return true; return true;
} }

308
src/vissim.cc
View File

@ -471,92 +471,62 @@ void SimulatorSceneRender(srcmdbuf* render_commands) {
} }
} }
sch_hull box_hull; struct SceneHull {
srmeshdata* box_hull_mesh; sch_hull hull;
simd4x4f box_hull_trasform { srmeshdata* mesh = nullptr;
simd4f_create(1.f, 0.f, 0.0, 0.f), simd4x4f transform = {
simd4f_create(0.f, 1.f, 0.f, 0.f), simd4f_create(1.f, 0.f, 0.0, 0.f),
simd4f_create(0.f, 0.f, 1.f, 0.f), simd4f_create(0.f, 1.f, 0.f, 0.f),
simd4f_create(0.f, 0.f, 0.f, 1.f)}; simd4f_create(0.f, 0.f, 1.f, 0.f),
simd4f_create(0.f, 0.f, 0.f, 1.f)};
void SconvHUllSceneInit() { ~SceneHull() {
sch_create_unitbox(&box_hull); if (mesh != nullptr) {
destroy();
}
};
// create mesh for hull void destroy() {
static srvrtxdata mesh_buffer_data[1024]; srmesh_destroy(mesh);
static GLuint index_buffer_data[1024]; mesh = nullptr;
int vertex_index = -1; }
int index_count = -1;
int triangle_count = 0;
sch_hull* hull = &box_hull; void createMesh() {
assert(mesh == nullptr);
int face_vert0_idx = 0; // create mesh for hull
static srvrtxdata mesh_buffer_data[1024];
static GLuint index_buffer_data[1024];
int vertex_index = -1;
int index_count = -1;
int triangle_count = 0;
for (int fi = 0; fi < hull->num_faces; fi++) { int face_vert0_idx = 0;
sch_face* face = &hull->faces[fi];
sch_edge* edge0 = face->edge;
sch_vert* face_vert0 = edge0->vert;
sch_edge* cur_edge = edge0->next;
sch_vert* cur_vert = nullptr;
sch_edge* next_edge = nullptr;
sch_vert* next_vert = nullptr;
int tri_vert_0_idx = 0; for (int fi = 0; fi < hull.num_faces; fi++) {
int tri_vert_1_idx = 0; sch_face* face = &hull.faces[fi];
int tri_vert_2_idx = 0; sch_edge* edge0 = face->edge;
sch_vert* face_vert0 = edge0->vert;
sch_edge* cur_edge = edge0->next;
sch_vert* cur_vert = nullptr;
sch_edge* next_edge = nullptr;
sch_vert* next_vert = nullptr;
sch_plane plane; int tri_vert_0_idx = 0;
sch_hull_calc_plane(hull, fi, &plane); int tri_vert_1_idx = 0;
int tri_vert_2_idx = 0;
// add face_vert0 (later used as tri_vert_0) sch_plane plane;
vertex_index++; sch_hull_calc_plane(&hull, fi, &plane);
face_vert0_idx = vertex_index;
tri_vert_0_idx = face_vert0_idx;
srvrtxdata* mesh_vert = &mesh_buffer_data[tri_vert_0_idx];
mesh_vert->x = simd4f_get_x(face_vert0->p);
mesh_vert->y = simd4f_get_y(face_vert0->p);
mesh_vert->z = simd4f_get_z(face_vert0->p);
mesh_vert->w = 1.f;
mesh_vert->nx = simd4f_get_x(plane.n);
mesh_vert->ny = simd4f_get_y(plane.n);
mesh_vert->nz = simd4f_get_z(plane.n);
mesh_vert->color[0] = fabs(mesh_vert->nx) * 255;
mesh_vert->color[1] = fabs(mesh_vert->ny) * 255;
mesh_vert->color[2] = fabs(mesh_vert->nz) * 255;
mesh_vert->color[3] = 255;
// add tri_vert_1 // add face_vert0 (later used as tri_vert_0)
cur_vert = cur_edge->vert; vertex_index++;
tri_vert_1_idx = ++vertex_index; face_vert0_idx = vertex_index;
mesh_vert = &mesh_buffer_data[tri_vert_1_idx]; tri_vert_0_idx = face_vert0_idx;
mesh_vert->x = simd4f_get_x(cur_vert->p); srvrtxdata* mesh_vert = &mesh_buffer_data[tri_vert_0_idx];
mesh_vert->y = simd4f_get_y(cur_vert->p); mesh_vert->x = simd4f_get_x(face_vert0->p);
mesh_vert->z = simd4f_get_z(cur_vert->p); mesh_vert->y = simd4f_get_y(face_vert0->p);
mesh_vert->w = 1.f; mesh_vert->z = simd4f_get_z(face_vert0->p);
mesh_vert->nx = simd4f_get_x(plane.n);
mesh_vert->ny = simd4f_get_y(plane.n);
mesh_vert->nz = simd4f_get_z(plane.n);
mesh_vert->color[0] = fabs(mesh_vert->nx) * 255;
mesh_vert->color[1] = fabs(mesh_vert->ny) * 255;
mesh_vert->color[2] = fabs(mesh_vert->nz) * 255;
mesh_vert->color[3] = 255;
do {
// add face_vert0
index_buffer_data[++index_count] = tri_vert_0_idx;
// add face_vert1
index_buffer_data[++index_count] = tri_vert_1_idx;
next_edge = cur_edge->next;
next_vert = next_edge->vert;
tri_vert_2_idx = ++vertex_index;
mesh_vert = &mesh_buffer_data[tri_vert_2_idx];
mesh_vert->x = simd4f_get_x(next_vert->p);
mesh_vert->y = simd4f_get_y(next_vert->p);
mesh_vert->z = simd4f_get_z(next_vert->p);
mesh_vert->w = 1.f; mesh_vert->w = 1.f;
mesh_vert->nx = simd4f_get_x(plane.n); mesh_vert->nx = simd4f_get_x(plane.n);
mesh_vert->ny = simd4f_get_y(plane.n); mesh_vert->ny = simd4f_get_y(plane.n);
@ -565,70 +535,143 @@ void SconvHUllSceneInit() {
mesh_vert->color[1] = fabs(mesh_vert->ny) * 255; mesh_vert->color[1] = fabs(mesh_vert->ny) * 255;
mesh_vert->color[2] = fabs(mesh_vert->nz) * 255; mesh_vert->color[2] = fabs(mesh_vert->nz) * 255;
mesh_vert->color[3] = 255; mesh_vert->color[3] = 255;
index_buffer_data[++index_count] = tri_vert_2_idx;
triangle_count++; // add tri_vert_1
cur_edge = next_edge; cur_vert = cur_edge->vert;
tri_vert_1_idx = tri_vert_2_idx; tri_vert_1_idx = ++vertex_index;
} while (next_edge->next != edge0); mesh_vert = &mesh_buffer_data[tri_vert_1_idx];
} mesh_vert->x = simd4f_get_x(cur_vert->p);
mesh_vert->y = simd4f_get_y(cur_vert->p);
mesh_vert->z = simd4f_get_z(cur_vert->p);
mesh_vert->w = 1.f;
mesh_vert->nx = simd4f_get_x(plane.n);
mesh_vert->ny = simd4f_get_y(plane.n);
mesh_vert->nz = simd4f_get_z(plane.n);
mesh_vert->color[0] = fabs(mesh_vert->nx) * 255;
mesh_vert->color[1] = fabs(mesh_vert->ny) * 255;
mesh_vert->color[2] = fabs(mesh_vert->nz) * 255;
mesh_vert->color[3] = 255;
box_hull_mesh = srmesh_create( do {
mesh_buffer_data, // add face_vert0
vertex_index + 1, index_buffer_data[++index_count] = tri_vert_0_idx;
index_buffer_data,
index_count + 1,
GL_TRIANGLES,
index_count + 1);
}
void SconvHUllSceneCleanup() { srmesh_destroy(box_hull_mesh); } // add face_vert1
index_buffer_data[++index_count] = tri_vert_1_idx;
void SconvHUllSceneUpdate() {} next_edge = cur_edge->next;
next_vert = next_edge->vert;
tri_vert_2_idx = ++vertex_index;
void SconvHullSceneRender(srcmdbuf* render_commands) { mesh_vert = &mesh_buffer_data[tri_vert_2_idx];
// Populate render commands mesh_vert->x = simd4f_get_x(next_vert->p);
srcmdbuf_clear(render_commands); mesh_vert->y = simd4f_get_y(next_vert->p);
mesh_vert->z = simd4f_get_z(next_vert->p);
mesh_vert->w = 1.f;
mesh_vert->nx = simd4f_get_x(plane.n);
mesh_vert->ny = simd4f_get_y(plane.n);
mesh_vert->nz = simd4f_get_z(plane.n);
mesh_vert->color[0] = fabs(mesh_vert->nx) * 255;
mesh_vert->color[1] = fabs(mesh_vert->ny) * 255;
mesh_vert->color[2] = fabs(mesh_vert->nz) * 255;
mesh_vert->color[3] = 255;
index_buffer_data[++index_count] = tri_vert_2_idx;
srcmd rcmd; triangle_count++;
srcmd_clear(&rcmd); cur_edge = next_edge;
tri_vert_1_idx = tri_vert_2_idx;
rcmd.type = SRndrCmdTypeFrame; } while (next_edge->next != edge0);
srcmdbuf_add(render_commands, &rcmd);
rcmd.type = SRndrCmdTypeGrid;
float origin[3] = {0.f, 0.f, 0.f};
for (int i = -1; i <= 1; i++) {
for (int j = -1; j <= 1; j++) {
simd4x4f_translation(
&rcmd.mat,
origin[0] + i * 10.0f,
origin[1],
origin[2] + j * 10.f);
srcmdbuf_add(render_commands, &rcmd);
} }
mesh = srmesh_create(
mesh_buffer_data,
vertex_index + 1,
index_buffer_data,
index_count + 1,
GL_TRIANGLES,
index_count + 1);
}
};
struct SconvHullScene {
SceneHull mHullA;
SceneHull mHullB;
SceneHull* mCurrentHull;
void init() {
sch_create_unitbox(&mHullA.hull);
mHullA.createMesh();
sch_create_unitbox(&mHullB.hull);
mHullB.createMesh();
simd4x4f rot;
simd4x4f_axis_rotation(&rot, 0.4f, simd4f_create (0.f, 1.f, 0.f, 1.f));
simd4x4f translation;
simd4x4f_translation(&translation, -0.5f - 0.51f * sqrtf(2.), 0.0f, 0.f);
simd4x4f_matrix_mul(&translation, &rot, &mHullB.transform);
mCurrentHull = &mHullA;
};
void destroy() {
mHullA.destroy();
mHullB.destroy();
} }
void draw(srcmdbuf* render_commands) {
// Populate render commands
srcmdbuf_clear(render_commands);
ImGuizmo::Manipulate( srcmd rcmd;
(float*)&(gCameraState->mtxView), srcmd_clear(&rcmd);
(float*)&(gProjMatrix),
ImGuizmo::TRANSLATE,
ImGuizmo::WORLD,
(float*)(&box_hull_trasform),
NULL
);
// Render hull rcmd.type = SRndrCmdTypeFrame;
srcmd cmd; srcmdbuf_add(render_commands, &rcmd);
cmd.type = SrndrCmdTypeMesh;
cmd.color = simd4f_create(1.f, 1.f, 1.f, 1.f);
cmd.mat = box_hull_trasform;
cmd.meshdata = box_hull_mesh;
srcmdbuf_add(render_commands, &cmd); rcmd.type = SRndrCmdTypeGrid;
} float origin[3] = {0.f, 0.f, 0.f};
for (int i = -1; i <= 1; i++) {
for (int j = -1; j <= 1; j++) {
simd4x4f_translation(
&rcmd.mat,
origin[0] + i * 10.0f,
origin[1],
origin[2] + j * 10.f);
srcmdbuf_add(render_commands, &rcmd);
}
}
ImGuizmo::Manipulate(
(float*)&(gCameraState->mtxView),
(float*)&(gProjMatrix),
ImGuizmo::TRANSLATE,
ImGuizmo::WORLD,
(float*)(&mCurrentHull->transform),
NULL);
// Render hulls
srcmd cmd;
cmd.type = SrndrCmdTypeMesh;
cmd.color = simd4f_create(1.f, 1.f, 1.f, 1.f);
cmd.mat = mHullA.transform;
cmd.meshdata = mHullA.mesh;
srcmdbuf_add(render_commands, &cmd);
cmd.type = SrndrCmdTypeMesh;
cmd.color = simd4f_create(1.f, 1.f, 1.f, 1.f);
cmd.mat = mHullB.transform;
cmd.meshdata = mHullB.mesh;
srcmdbuf_add(render_commands, &cmd);
}
};
SconvHullScene gHullScene;
void ImSRenderWidget(srndr* renderer, srview* view) { void ImSRenderWidget(srndr* renderer, srview* view) {
ZoneScoped; ZoneScoped;
@ -777,7 +820,7 @@ int main() {
// Scene init // Scene init
// //
simulator_init(); simulator_init();
SconvHUllSceneInit(); gHullScene.init();
simd4x4f_translation(&gCameraState->mtxView, 0.1f, 0.1f, -0.5f); simd4x4f_translation(&gCameraState->mtxView, 0.1f, 0.1f, -0.5f);
simd4f eye = simd4f_create(5.f, 4.f, 5.f, 1.f); simd4f eye = simd4f_create(5.f, 4.f, 5.f, 1.f);
@ -929,14 +972,13 @@ int main() {
ImGui::End(); ImGui::End();
} }
SconvHullSceneRender(gRndrCmds); gHullScene.draw(gRndrCmds);
// SimulatorSceneRender(gRndrCmds); // SimulatorSceneRender(gRndrCmds);
srndr_render(gRndr, gView, gRndrCmds); srndr_render(gRndr, gView, gRndrCmds);
ImSRenderWidget(gRndr, gView); ImSRenderWidget(gRndr, gView);
} }
simulator_update(gTimer->mDeltaTime); simulator_update(gTimer->mDeltaTime);
SconvHUllSceneUpdate();
{ {
ZoneNamedN(render_submit, "RenderSubmit", true); ZoneNamedN(render_submit, "RenderSubmit", true);
@ -986,7 +1028,7 @@ int main() {
gLog("Exiting application"); gLog("Exiting application");
SconvHUllSceneCleanup(); gHullScene.destroy();
srview_destroy(gView); srview_destroy(gView);
srndr_destroy(gRndr); srndr_destroy(gRndr);

44
tests/sconvcolTests.cc
View File

@ -350,13 +350,12 @@ TEST_CASE ("UnitCubeSAT", "[sconvcol]") {
sch_manifold_alloc(&manifold, SCH_BUILDER_MAX_NUM_FACE_VERTICES); sch_manifold_alloc(&manifold, SCH_BUILDER_MAX_NUM_FACE_VERTICES);
GIVEN ("Two unit boxes separated by 1.1 along x axis") { GIVEN ("Two unit boxes separated by 1.1 along x axis") {
simd4f r = simd4f_create(0.5f + 0.4f * sqrtf(2.), 0.f, 0.f, 1.f);
simd4x4f translation; simd4x4f translation;
simd4x4f_translation( simd4x4f_translation(
&translation, &translation,
simd4f_get_x(r), 0.5f + 0.4f * sqrtf(2.),
simd4f_get_y(r), 0.f,
simd4f_get_z(r)); 0.f);
THEN("Boxes separated") { THEN("Boxes separated") {
sch_hull_transform(&hull_B, translation); sch_hull_transform(&hull_B, translation);
@ -374,7 +373,7 @@ TEST_CASE ("UnitCubeSAT", "[sconvcol]") {
} }
THEN("Boxes separated when supplying trans_A") { THEN("Boxes separated when supplying trans_A") {
simd4f r = simd4f_create(-0.5f -0.4f * sqrtf(2.), 0.f, 0.f, 1.f); simd4f r = simd4f_create(-0.5f -0.51f * sqrtf(2.), 0.f, 0.f, 1.f);
simd4x4f_translation( simd4x4f_translation(
&translation, &translation,
simd4f_get_x(r), simd4f_get_x(r),
@ -386,6 +385,41 @@ TEST_CASE ("UnitCubeSAT", "[sconvcol]") {
bool separated = sch_hull_sat(&hull_A, &translation, &hull_B, &identity, &manifold); bool separated = sch_hull_sat(&hull_A, &translation, &hull_B, &identity, &manifold);
REQUIRE(separated); REQUIRE(separated);
} }
THEN("Boxes separated when supplying rot_trans to B") {
simd4x4f identity;
simd4x4f_identity(&identity);
simd4x4f rot;
simd4x4f_axis_rotation(&rot, 0.4f, simd4f_create (0.f, 1.f, 0.f, 1.f));
simd4x4f translation;
simd4x4f_translation(&translation, 0.5f + 0.51f * sqrtf(2.), 0.0f, 0.f);
simd4x4f rot_trans;
simd4x4f_matrix_mul(&translation, &rot, &rot_trans);
bool separated = sch_hull_sat(&hull_A, &identity, &hull_B, &rot_trans, &manifold);
REQUIRE(separated);
}
THEN("Boxes separated when supplying rot_trans to A") {
simd4x4f identity;
simd4x4f_identity(&identity);
simd4x4f rot;
simd4x4f_axis_rotation(&rot, 0.4f, simd4f_create (0.f, 1.f, 0.f, 1.f));
simd4x4f translation;
simd4x4f_translation(&translation, -0.5f - 0.51f * sqrtf(2.), 0.0f, 0.f);
simd4x4f rot_trans;
simd4x4f_matrix_mul(&translation, &rot, &rot_trans);
bool separated = sch_hull_sat(&hull_A, &rot_trans, &hull_B, &identity, &manifold);
REQUIRE(separated);
}
} }
GIVEN("Box B rotated by 45 degrees around y and translated along x by 1.1") { GIVEN("Box B rotated by 45 degrees around y and translated along x by 1.1") {