godot/servers/physics_3d/godot_space_3d.cpp

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/*************************************************************************/
/* godot_space_3d.cpp */
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/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
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/*************************************************************************/
/* Copyright (c) 2007-2021 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2021 Godot Engine contributors (cf. AUTHORS.md). */
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/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/*************************************************************************/
#include "godot_space_3d.h"
#include "godot_collision_solver_3d.h"
#include "godot_physics_server_3d.h"
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#include "core/config/project_settings.h"
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#define TEST_MOTION_MIN_CONTACT_DEPTH_FACTOR 0.05
_FORCE_INLINE_ static bool _can_collide_with(GodotCollisionObject3D *p_object, uint32_t p_collision_mask, bool p_collide_with_bodies, bool p_collide_with_areas) {
if (!(p_object->get_collision_layer() & p_collision_mask)) {
return false;
}
if (p_object->get_type() == GodotCollisionObject3D::TYPE_AREA && !p_collide_with_areas) {
return false;
}
if (p_object->get_type() == GodotCollisionObject3D::TYPE_BODY && !p_collide_with_bodies) {
return false;
}
if (p_object->get_type() == GodotCollisionObject3D::TYPE_SOFT_BODY && !p_collide_with_bodies) {
return false;
}
return true;
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}
int GodotPhysicsDirectSpaceState3D::intersect_point(const PointParameters &p_parameters, ShapeResult *r_results, int p_result_max) {
ERR_FAIL_COND_V(space->locked, false);
int amount = space->broadphase->cull_point(p_parameters.position, space->intersection_query_results, GodotSpace3D::INTERSECTION_QUERY_MAX, space->intersection_query_subindex_results);
int cc = 0;
//Transform3D ai = p_xform.affine_inverse();
for (int i = 0; i < amount; i++) {
if (cc >= p_result_max) {
break;
}
if (!_can_collide_with(space->intersection_query_results[i], p_parameters.collision_mask, p_parameters.collide_with_bodies, p_parameters.collide_with_areas)) {
continue;
}
//area can't be picked by ray (default)
if (p_parameters.exclude.has(space->intersection_query_results[i]->get_self())) {
continue;
}
const GodotCollisionObject3D *col_obj = space->intersection_query_results[i];
int shape_idx = space->intersection_query_subindex_results[i];
Transform3D inv_xform = col_obj->get_transform() * col_obj->get_shape_transform(shape_idx);
inv_xform.affine_invert();
if (!col_obj->get_shape(shape_idx)->intersect_point(inv_xform.xform(p_parameters.position))) {
continue;
}
r_results[cc].collider_id = col_obj->get_instance_id();
if (r_results[cc].collider_id.is_valid()) {
r_results[cc].collider = ObjectDB::get_instance(r_results[cc].collider_id);
} else {
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r_results[cc].collider = nullptr;
}
r_results[cc].rid = col_obj->get_self();
r_results[cc].shape = shape_idx;
cc++;
}
return cc;
}
bool GodotPhysicsDirectSpaceState3D::intersect_ray(const RayParameters &p_parameters, RayResult &r_result) {
ERR_FAIL_COND_V(space->locked, false);
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Vector3 begin, end;
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Vector3 normal;
begin = p_parameters.from;
end = p_parameters.to;
normal = (end - begin).normalized();
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int amount = space->broadphase->cull_segment(begin, end, space->intersection_query_results, GodotSpace3D::INTERSECTION_QUERY_MAX, space->intersection_query_subindex_results);
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//todo, create another array that references results, compute AABBs and check closest point to ray origin, sort, and stop evaluating results when beyond first collision
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bool collided = false;
Vector3 res_point, res_normal;
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int res_shape;
const GodotCollisionObject3D *res_obj;
real_t min_d = 1e10;
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for (int i = 0; i < amount; i++) {
if (!_can_collide_with(space->intersection_query_results[i], p_parameters.collision_mask, p_parameters.collide_with_bodies, p_parameters.collide_with_areas)) {
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continue;
}
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if (p_parameters.pick_ray && !(space->intersection_query_results[i]->is_ray_pickable())) {
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continue;
}
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if (p_parameters.exclude.has(space->intersection_query_results[i]->get_self())) {
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continue;
}
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const GodotCollisionObject3D *col_obj = space->intersection_query_results[i];
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int shape_idx = space->intersection_query_subindex_results[i];
Transform3D inv_xform = col_obj->get_shape_inv_transform(shape_idx) * col_obj->get_inv_transform();
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Vector3 local_from = inv_xform.xform(begin);
Vector3 local_to = inv_xform.xform(end);
const GodotShape3D *shape = col_obj->get_shape(shape_idx);
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Vector3 shape_point, shape_normal;
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if (shape->intersect_point(local_from)) {
if (p_parameters.hit_from_inside) {
// Hit shape at starting point.
min_d = 0;
res_point = local_from;
res_normal = Vector3();
res_shape = shape_idx;
res_obj = col_obj;
collided = true;
break;
} else {
// Ignore shape when starting inside.
continue;
}
}
if (shape->intersect_segment(local_from, local_to, shape_point, shape_normal, p_parameters.hit_back_faces)) {
Transform3D xform = col_obj->get_transform() * col_obj->get_shape_transform(shape_idx);
shape_point = xform.xform(shape_point);
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real_t ld = normal.dot(shape_point);
if (ld < min_d) {
min_d = ld;
res_point = shape_point;
res_normal = inv_xform.basis.xform_inv(shape_normal).normalized();
res_shape = shape_idx;
res_obj = col_obj;
collided = true;
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}
}
}
if (!collided) {
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return false;
}
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r_result.collider_id = res_obj->get_instance_id();
if (r_result.collider_id.is_valid()) {
r_result.collider = ObjectDB::get_instance(r_result.collider_id);
} else {
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r_result.collider = nullptr;
}
r_result.normal = res_normal;
r_result.position = res_point;
r_result.rid = res_obj->get_self();
r_result.shape = res_shape;
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return true;
}
int GodotPhysicsDirectSpaceState3D::intersect_shape(const ShapeParameters &p_parameters, ShapeResult *r_results, int p_result_max) {
if (p_result_max <= 0) {
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return 0;
}
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GodotShape3D *shape = GodotPhysicsServer3D::godot_singleton->shape_owner.get_or_null(p_parameters.shape_rid);
ERR_FAIL_COND_V(!shape, 0);
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AABB aabb = p_parameters.transform.xform(shape->get_aabb());
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int amount = space->broadphase->cull_aabb(aabb, space->intersection_query_results, GodotSpace3D::INTERSECTION_QUERY_MAX, space->intersection_query_subindex_results);
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int cc = 0;
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//Transform3D ai = p_xform.affine_inverse();
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for (int i = 0; i < amount; i++) {
if (cc >= p_result_max) {
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break;
}
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if (!_can_collide_with(space->intersection_query_results[i], p_parameters.collision_mask, p_parameters.collide_with_bodies, p_parameters.collide_with_areas)) {
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continue;
}
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//area can't be picked by ray (default)
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if (p_parameters.exclude.has(space->intersection_query_results[i]->get_self())) {
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continue;
}
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const GodotCollisionObject3D *col_obj = space->intersection_query_results[i];
int shape_idx = space->intersection_query_subindex_results[i];
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if (!GodotCollisionSolver3D::solve_static(shape, p_parameters.transform, col_obj->get_shape(shape_idx), col_obj->get_transform() * col_obj->get_shape_transform(shape_idx), nullptr, nullptr, nullptr, p_parameters.margin, 0)) {
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continue;
}
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if (r_results) {
r_results[cc].collider_id = col_obj->get_instance_id();
if (r_results[cc].collider_id.is_valid()) {
r_results[cc].collider = ObjectDB::get_instance(r_results[cc].collider_id);
} else {
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r_results[cc].collider = nullptr;
}
r_results[cc].rid = col_obj->get_self();
r_results[cc].shape = shape_idx;
}
cc++;
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}
return cc;
}
bool GodotPhysicsDirectSpaceState3D::cast_motion(const ShapeParameters &p_parameters, real_t &p_closest_safe, real_t &p_closest_unsafe, ShapeRestInfo *r_info) {
GodotShape3D *shape = GodotPhysicsServer3D::godot_singleton->shape_owner.get_or_null(p_parameters.shape_rid);
ERR_FAIL_COND_V(!shape, false);
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AABB aabb = p_parameters.transform.xform(shape->get_aabb());
aabb = aabb.merge(AABB(aabb.position + p_parameters.motion, aabb.size)); //motion
aabb = aabb.grow(p_parameters.margin);
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int amount = space->broadphase->cull_aabb(aabb, space->intersection_query_results, GodotSpace3D::INTERSECTION_QUERY_MAX, space->intersection_query_subindex_results);
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real_t best_safe = 1;
real_t best_unsafe = 1;
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Transform3D xform_inv = p_parameters.transform.affine_inverse();
GodotMotionShape3D mshape;
mshape.shape = shape;
mshape.motion = xform_inv.basis.xform(p_parameters.motion);
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bool best_first = true;
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Vector3 motion_normal = p_parameters.motion.normalized();
Vector3 closest_A, closest_B;
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for (int i = 0; i < amount; i++) {
if (!_can_collide_with(space->intersection_query_results[i], p_parameters.collision_mask, p_parameters.collide_with_bodies, p_parameters.collide_with_areas)) {
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continue;
}
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if (p_parameters.exclude.has(space->intersection_query_results[i]->get_self())) {
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continue; //ignore excluded
}
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const GodotCollisionObject3D *col_obj = space->intersection_query_results[i];
int shape_idx = space->intersection_query_subindex_results[i];
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Vector3 point_A, point_B;
Vector3 sep_axis = motion_normal;
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Transform3D col_obj_xform = col_obj->get_transform() * col_obj->get_shape_transform(shape_idx);
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//test initial overlap, does it collide if going all the way?
if (GodotCollisionSolver3D::solve_distance(&mshape, p_parameters.transform, col_obj->get_shape(shape_idx), col_obj_xform, point_A, point_B, aabb, &sep_axis)) {
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continue;
}
//test initial overlap, ignore objects it's inside of.
sep_axis = motion_normal;
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if (!GodotCollisionSolver3D::solve_distance(shape, p_parameters.transform, col_obj->get_shape(shape_idx), col_obj_xform, point_A, point_B, aabb, &sep_axis)) {
continue;
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}
//just do kinematic solving
real_t low = 0.0;
real_t hi = 1.0;
real_t fraction_coeff = 0.5;
for (int j = 0; j < 8; j++) { //steps should be customizable..
real_t fraction = low + (hi - low) * fraction_coeff;
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mshape.motion = xform_inv.basis.xform(p_parameters.motion * fraction);
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Vector3 lA, lB;
Vector3 sep = motion_normal; //important optimization for this to work fast enough
bool collided = !GodotCollisionSolver3D::solve_distance(&mshape, p_parameters.transform, col_obj->get_shape(shape_idx), col_obj_xform, lA, lB, aabb, &sep);
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if (collided) {
hi = fraction;
if ((j == 0) || (low > 0.0)) { // Did it not collide before?
// When alternating or first iteration, use dichotomy.
fraction_coeff = 0.5;
} else {
// When colliding again, converge faster towards low fraction
// for more accurate results with long motions that collide near the start.
fraction_coeff = 0.25;
}
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} else {
point_A = lA;
point_B = lB;
low = fraction;
if ((j == 0) || (hi < 1.0)) { // Did it collide before?
// When alternating or first iteration, use dichotomy.
fraction_coeff = 0.5;
} else {
// When not colliding again, converge faster towards high fraction
// for more accurate results with long motions that collide near the end.
fraction_coeff = 0.75;
}
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}
}
if (low < best_safe) {
best_first = true; //force reset
best_safe = low;
best_unsafe = hi;
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}
if (r_info && (best_first || (point_A.distance_squared_to(point_B) < closest_A.distance_squared_to(closest_B) && low <= best_safe))) {
closest_A = point_A;
closest_B = point_B;
r_info->collider_id = col_obj->get_instance_id();
r_info->rid = col_obj->get_self();
r_info->shape = shape_idx;
r_info->point = closest_B;
r_info->normal = (closest_A - closest_B).normalized();
best_first = false;
if (col_obj->get_type() == GodotCollisionObject3D::TYPE_BODY) {
const GodotBody3D *body = static_cast<const GodotBody3D *>(col_obj);
Vector3 rel_vec = closest_B - (body->get_transform().origin + body->get_center_of_mass());
r_info->linear_velocity = body->get_linear_velocity() + (body->get_angular_velocity()).cross(rel_vec);
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}
}
}
p_closest_safe = best_safe;
p_closest_unsafe = best_unsafe;
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return true;
}
bool GodotPhysicsDirectSpaceState3D::collide_shape(const ShapeParameters &p_parameters, Vector3 *r_results, int p_result_max, int &r_result_count) {
if (p_result_max <= 0) {
return false;
}
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GodotShape3D *shape = GodotPhysicsServer3D::godot_singleton->shape_owner.get_or_null(p_parameters.shape_rid);
ERR_FAIL_COND_V(!shape, 0);
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AABB aabb = p_parameters.transform.xform(shape->get_aabb());
aabb = aabb.grow(p_parameters.margin);
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int amount = space->broadphase->cull_aabb(aabb, space->intersection_query_results, GodotSpace3D::INTERSECTION_QUERY_MAX, space->intersection_query_subindex_results);
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bool collided = false;
r_result_count = 0;
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GodotPhysicsServer3D::CollCbkData cbk;
cbk.max = p_result_max;
cbk.amount = 0;
cbk.ptr = r_results;
GodotCollisionSolver3D::CallbackResult cbkres = GodotPhysicsServer3D::_shape_col_cbk;
GodotPhysicsServer3D::CollCbkData *cbkptr = &cbk;
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for (int i = 0; i < amount; i++) {
if (!_can_collide_with(space->intersection_query_results[i], p_parameters.collision_mask, p_parameters.collide_with_bodies, p_parameters.collide_with_areas)) {
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continue;
}
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const GodotCollisionObject3D *col_obj = space->intersection_query_results[i];
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if (p_parameters.exclude.has(col_obj->get_self())) {
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continue;
}
int shape_idx = space->intersection_query_subindex_results[i];
if (GodotCollisionSolver3D::solve_static(shape, p_parameters.transform, col_obj->get_shape(shape_idx), col_obj->get_transform() * col_obj->get_shape_transform(shape_idx), cbkres, cbkptr, nullptr, p_parameters.margin)) {
collided = true;
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}
}
r_result_count = cbk.amount;
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return collided;
}
struct _RestResultData {
const GodotCollisionObject3D *object = nullptr;
int local_shape = 0;
int shape = 0;
Vector3 contact;
Vector3 normal;
real_t len = 0.0;
};
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struct _RestCallbackData {
const GodotCollisionObject3D *object = nullptr;
int local_shape = 0;
int shape = 0;
real_t min_allowed_depth = 0.0;
_RestResultData best_result;
int max_results = 0;
int result_count = 0;
_RestResultData *other_results = nullptr;
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};
static void _rest_cbk_result(const Vector3 &p_point_A, int p_index_A, const Vector3 &p_point_B, int p_index_B, void *p_userdata) {
_RestCallbackData *rd = (_RestCallbackData *)p_userdata;
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Vector3 contact_rel = p_point_B - p_point_A;
real_t len = contact_rel.length();
if (len < rd->min_allowed_depth) {
return;
}
bool is_best_result = (len > rd->best_result.len);
if (rd->other_results && rd->result_count > 0) {
// Consider as new result by default.
int prev_result_count = rd->result_count++;
int result_index = 0;
real_t tested_len = is_best_result ? rd->best_result.len : len;
for (; result_index < prev_result_count - 1; ++result_index) {
if (tested_len > rd->other_results[result_index].len) {
// Re-using a previous result.
rd->result_count--;
break;
}
}
if (result_index < rd->max_results - 1) {
_RestResultData &result = rd->other_results[result_index];
if (is_best_result) {
// Keep the previous best result as separate result.
result = rd->best_result;
} else {
// Keep this result as separate result.
result.len = len;
result.contact = p_point_B;
result.normal = contact_rel / len;
result.object = rd->object;
result.shape = rd->shape;
result.local_shape = rd->local_shape;
}
} else {
// Discarding this result.
rd->result_count--;
}
} else if (is_best_result) {
rd->result_count = 1;
}
if (!is_best_result) {
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return;
}
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rd->best_result.len = len;
rd->best_result.contact = p_point_B;
rd->best_result.normal = contact_rel / len;
rd->best_result.object = rd->object;
rd->best_result.shape = rd->shape;
rd->best_result.local_shape = rd->local_shape;
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}
bool GodotPhysicsDirectSpaceState3D::rest_info(const ShapeParameters &p_parameters, ShapeRestInfo *r_info) {
GodotShape3D *shape = GodotPhysicsServer3D::godot_singleton->shape_owner.get_or_null(p_parameters.shape_rid);
ERR_FAIL_COND_V(!shape, 0);
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AABB aabb = p_parameters.transform.xform(shape->get_aabb());
aabb = aabb.grow(p_parameters.margin);
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int amount = space->broadphase->cull_aabb(aabb, space->intersection_query_results, GodotSpace3D::INTERSECTION_QUERY_MAX, space->intersection_query_subindex_results);
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_RestCallbackData rcd;
// Allowed depth can't be lower than motion length, in order to handle contacts at low speed.
real_t motion_length = p_parameters.motion.length();
real_t min_contact_depth = p_parameters.margin * TEST_MOTION_MIN_CONTACT_DEPTH_FACTOR;
rcd.min_allowed_depth = MIN(motion_length, min_contact_depth);
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for (int i = 0; i < amount; i++) {
if (!_can_collide_with(space->intersection_query_results[i], p_parameters.collision_mask, p_parameters.collide_with_bodies, p_parameters.collide_with_areas)) {
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continue;
}
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const GodotCollisionObject3D *col_obj = space->intersection_query_results[i];
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if (p_parameters.exclude.has(col_obj->get_self())) {
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continue;
}
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int shape_idx = space->intersection_query_subindex_results[i];
rcd.object = col_obj;
rcd.shape = shape_idx;
bool sc = GodotCollisionSolver3D::solve_static(shape, p_parameters.transform, col_obj->get_shape(shape_idx), col_obj->get_transform() * col_obj->get_shape_transform(shape_idx), _rest_cbk_result, &rcd, nullptr, p_parameters.margin);
if (!sc) {
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continue;
}
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}
if (rcd.best_result.len == 0 || !rcd.best_result.object) {
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return false;
}
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r_info->collider_id = rcd.best_result.object->get_instance_id();
r_info->shape = rcd.best_result.shape;
r_info->normal = rcd.best_result.normal;
r_info->point = rcd.best_result.contact;
r_info->rid = rcd.best_result.object->get_self();
if (rcd.best_result.object->get_type() == GodotCollisionObject3D::TYPE_BODY) {
const GodotBody3D *body = static_cast<const GodotBody3D *>(rcd.best_result.object);
Vector3 rel_vec = rcd.best_result.contact - (body->get_transform().origin + body->get_center_of_mass());
r_info->linear_velocity = body->get_linear_velocity() + (body->get_angular_velocity()).cross(rel_vec);
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} else {
r_info->linear_velocity = Vector3();
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}
return true;
}
Vector3 GodotPhysicsDirectSpaceState3D::get_closest_point_to_object_volume(RID p_object, const Vector3 p_point) const {
GodotCollisionObject3D *obj = GodotPhysicsServer3D::godot_singleton->area_owner.get_or_null(p_object);
if (!obj) {
obj = GodotPhysicsServer3D::godot_singleton->body_owner.get_or_null(p_object);
}
ERR_FAIL_COND_V(!obj, Vector3());
ERR_FAIL_COND_V(obj->get_space() != space, Vector3());
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real_t min_distance = 1e20;
Vector3 min_point;
bool shapes_found = false;
for (int i = 0; i < obj->get_shape_count(); i++) {
if (obj->is_shape_disabled(i)) {
continue;
}
Transform3D shape_xform = obj->get_transform() * obj->get_shape_transform(i);
GodotShape3D *shape = obj->get_shape(i);
Vector3 point = shape->get_closest_point_to(shape_xform.affine_inverse().xform(p_point));
point = shape_xform.xform(point);
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real_t dist = point.distance_to(p_point);
if (dist < min_distance) {
min_distance = dist;
min_point = point;
}
shapes_found = true;
}
if (!shapes_found) {
return obj->get_transform().origin; //no shapes found, use distance to origin.
} else {
return min_point;
}
}
GodotPhysicsDirectSpaceState3D::GodotPhysicsDirectSpaceState3D() {
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space = nullptr;
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}
////////////////////////////////////////////////////////////////////////////////////////////////////////////
int GodotSpace3D::_cull_aabb_for_body(GodotBody3D *p_body, const AABB &p_aabb) {
int amount = broadphase->cull_aabb(p_aabb, intersection_query_results, INTERSECTION_QUERY_MAX, intersection_query_subindex_results);
for (int i = 0; i < amount; i++) {
bool keep = true;
if (intersection_query_results[i] == p_body) {
keep = false;
} else if (intersection_query_results[i]->get_type() == GodotCollisionObject3D::TYPE_AREA) {
keep = false;
} else if (intersection_query_results[i]->get_type() == GodotCollisionObject3D::TYPE_SOFT_BODY) {
keep = false;
} else if (!p_body->collides_with(static_cast<GodotBody3D *>(intersection_query_results[i]))) {
keep = false;
} else if (static_cast<GodotBody3D *>(intersection_query_results[i])->has_exception(p_body->get_self()) || p_body->has_exception(intersection_query_results[i]->get_self())) {
keep = false;
}
if (!keep) {
if (i < amount - 1) {
SWAP(intersection_query_results[i], intersection_query_results[amount - 1]);
SWAP(intersection_query_subindex_results[i], intersection_query_subindex_results[amount - 1]);
}
amount--;
i--;
}
}
return amount;
}
bool GodotSpace3D::test_body_motion(GodotBody3D *p_body, const PhysicsServer3D::MotionParameters &p_parameters, PhysicsServer3D::MotionResult *r_result) {
//give me back regular physics engine logic
//this is madness
//and most people using this function will think
//what it does is simpler than using physics
//this took about a week to get right..
//but is it right? who knows at this point..
ERR_FAIL_INDEX_V(p_parameters.max_collisions, PhysicsServer3D::MotionResult::MAX_COLLISIONS, false);
if (r_result) {
*r_result = PhysicsServer3D::MotionResult();
}
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AABB body_aabb;
bool shapes_found = false;
for (int i = 0; i < p_body->get_shape_count(); i++) {
if (p_body->is_shape_disabled(i)) {
continue;
}
if (!shapes_found) {
body_aabb = p_body->get_shape_aabb(i);
shapes_found = true;
} else {
body_aabb = body_aabb.merge(p_body->get_shape_aabb(i));
}
}
if (!shapes_found) {
if (r_result) {
r_result->travel = p_parameters.motion;
}
return false;
}
// Undo the currently transform the physics server is aware of and apply the provided one
body_aabb = p_parameters.from.xform(p_body->get_inv_transform().xform(body_aabb));
body_aabb = body_aabb.grow(p_parameters.margin);
real_t min_contact_depth = p_parameters.margin * TEST_MOTION_MIN_CONTACT_DEPTH_FACTOR;
real_t motion_length = p_parameters.motion.length();
Vector3 motion_normal = p_parameters.motion / motion_length;
Transform3D body_transform = p_parameters.from;
bool recovered = false;
{
//STEP 1, FREE BODY IF STUCK
const int max_results = 32;
int recover_attempts = 4;
Vector3 sr[max_results * 2];
do {
GodotPhysicsServer3D::CollCbkData cbk;
cbk.max = max_results;
cbk.amount = 0;
cbk.ptr = sr;
GodotPhysicsServer3D::CollCbkData *cbkptr = &cbk;
GodotCollisionSolver3D::CallbackResult cbkres = GodotPhysicsServer3D::_shape_col_cbk;
bool collided = false;
int amount = _cull_aabb_for_body(p_body, body_aabb);
for (int j = 0; j < p_body->get_shape_count(); j++) {
if (p_body->is_shape_disabled(j)) {
continue;
}
Transform3D body_shape_xform = body_transform * p_body->get_shape_transform(j);
GodotShape3D *body_shape = p_body->get_shape(j);
for (int i = 0; i < amount; i++) {
const GodotCollisionObject3D *col_obj = intersection_query_results[i];
if (p_parameters.exclude_bodies.has(col_obj->get_self())) {
continue;
}
if (p_parameters.exclude_objects.has(col_obj->get_instance_id())) {
continue;
}
int shape_idx = intersection_query_subindex_results[i];
if (GodotCollisionSolver3D::solve_static(body_shape, body_shape_xform, col_obj->get_shape(shape_idx), col_obj->get_transform() * col_obj->get_shape_transform(shape_idx), cbkres, cbkptr, nullptr, p_parameters.margin)) {
collided = cbk.amount > 0;
}
}
}
if (!collided) {
break;
}
recovered = true;
Vector3 recover_motion;
for (int i = 0; i < cbk.amount; i++) {
Vector3 a = sr[i * 2 + 0];
Vector3 b = sr[i * 2 + 1];
// Compute plane on b towards a.
Vector3 n = (a - b).normalized();
real_t d = n.dot(b);
// Compute depth on recovered motion.
real_t depth = n.dot(a + recover_motion) - d;
if (depth > min_contact_depth + CMP_EPSILON) {
// Only recover if there is penetration.
recover_motion -= n * (depth - min_contact_depth) * 0.4;
}
}
if (recover_motion == Vector3()) {
collided = false;
break;
}
body_transform.origin += recover_motion;
body_aabb.position += recover_motion;
recover_attempts--;
} while (recover_attempts);
}
real_t safe = 1.0;
real_t unsafe = 1.0;
int best_shape = -1;
{
// STEP 2 ATTEMPT MOTION
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AABB motion_aabb = body_aabb;
motion_aabb.position += p_parameters.motion;
motion_aabb = motion_aabb.merge(body_aabb);
int amount = _cull_aabb_for_body(p_body, motion_aabb);
for (int j = 0; j < p_body->get_shape_count(); j++) {
if (p_body->is_shape_disabled(j)) {
continue;
}
GodotShape3D *body_shape = p_body->get_shape(j);
// Colliding separation rays allows to properly snap to the ground,
// otherwise it's not needed in regular motion.
if (!p_parameters.collide_separation_ray && (body_shape->get_type() == PhysicsServer3D::SHAPE_SEPARATION_RAY)) {
// When slide on slope is on, separation ray shape acts like a regular shape.
if (!static_cast<GodotSeparationRayShape3D *>(body_shape)->get_slide_on_slope()) {
continue;
}
}
Transform3D body_shape_xform = body_transform * p_body->get_shape_transform(j);
Transform3D body_shape_xform_inv = body_shape_xform.affine_inverse();
GodotMotionShape3D mshape;
mshape.shape = body_shape;
mshape.motion = body_shape_xform_inv.basis.xform(p_parameters.motion);
bool stuck = false;
real_t best_safe = 1;
real_t best_unsafe = 1;
for (int i = 0; i < amount; i++) {
const GodotCollisionObject3D *col_obj = intersection_query_results[i];
if (p_parameters.exclude_bodies.has(col_obj->get_self())) {
continue;
}
if (p_parameters.exclude_objects.has(col_obj->get_instance_id())) {
continue;
}
int shape_idx = intersection_query_subindex_results[i];
//test initial overlap, does it collide if going all the way?
Vector3 point_A, point_B;
Vector3 sep_axis = motion_normal;
Transform3D col_obj_xform = col_obj->get_transform() * col_obj->get_shape_transform(shape_idx);
//test initial overlap, does it collide if going all the way?
if (GodotCollisionSolver3D::solve_distance(&mshape, body_shape_xform, col_obj->get_shape(shape_idx), col_obj_xform, point_A, point_B, motion_aabb, &sep_axis)) {
continue;
}
sep_axis = motion_normal;
if (!GodotCollisionSolver3D::solve_distance(body_shape, body_shape_xform, col_obj->get_shape(shape_idx), col_obj_xform, point_A, point_B, motion_aabb, &sep_axis)) {
stuck = true;
break;
}
//just do kinematic solving
real_t low = 0.0;
real_t hi = 1.0;
real_t fraction_coeff = 0.5;
for (int k = 0; k < 8; k++) { //steps should be customizable..
real_t fraction = low + (hi - low) * fraction_coeff;
mshape.motion = body_shape_xform_inv.basis.xform(p_parameters.motion * fraction);
Vector3 lA, lB;
Vector3 sep = motion_normal; //important optimization for this to work fast enough
bool collided = !GodotCollisionSolver3D::solve_distance(&mshape, body_shape_xform, col_obj->get_shape(shape_idx), col_obj_xform, lA, lB, motion_aabb, &sep);
if (collided) {
hi = fraction;
if ((k == 0) || (low > 0.0)) { // Did it not collide before?
// When alternating or first iteration, use dichotomy.
fraction_coeff = 0.5;
} else {
// When colliding again, converge faster towards low fraction
// for more accurate results with long motions that collide near the start.
fraction_coeff = 0.25;
}
} else {
point_A = lA;
point_B = lB;
low = fraction;
if ((k == 0) || (hi < 1.0)) { // Did it collide before?
// When alternating or first iteration, use dichotomy.
fraction_coeff = 0.5;
} else {
// When not colliding again, converge faster towards high fraction
// for more accurate results with long motions that collide near the end.
fraction_coeff = 0.75;
}
}
}
if (low < best_safe) {
best_safe = low;
best_unsafe = hi;
}
}
if (stuck) {
safe = 0;
unsafe = 0;
best_shape = j; //sadly it's the best
break;
}
if (best_safe == 1.0) {
continue;
}
if (best_safe < safe) {
safe = best_safe;
unsafe = best_unsafe;
best_shape = j;
}
}
}
bool collided = false;
if (recovered || (safe < 1)) {
if (safe >= 1) {
best_shape = -1; //no best shape with cast, reset to -1
}
//it collided, let's get the rest info in unsafe advance
Transform3D ugt = body_transform;
ugt.origin += p_parameters.motion * unsafe;
_RestResultData results[PhysicsServer3D::MotionResult::MAX_COLLISIONS];
_RestCallbackData rcd;
if (p_parameters.max_collisions > 1) {
rcd.max_results = p_parameters.max_collisions;
rcd.other_results = results;
}
// Allowed depth can't be lower than motion length, in order to handle contacts at low speed.
rcd.min_allowed_depth = MIN(motion_length, min_contact_depth);
int from_shape = best_shape != -1 ? best_shape : 0;
int to_shape = best_shape != -1 ? best_shape + 1 : p_body->get_shape_count();
for (int j = from_shape; j < to_shape; j++) {
if (p_body->is_shape_disabled(j)) {
continue;
}
Transform3D body_shape_xform = ugt * p_body->get_shape_transform(j);
GodotShape3D *body_shape = p_body->get_shape(j);
body_aabb.position += p_parameters.motion * unsafe;
int amount = _cull_aabb_for_body(p_body, body_aabb);
for (int i = 0; i < amount; i++) {
const GodotCollisionObject3D *col_obj = intersection_query_results[i];
if (p_parameters.exclude_bodies.has(col_obj->get_self())) {
continue;
}
if (p_parameters.exclude_objects.has(col_obj->get_instance_id())) {
continue;
}
int shape_idx = intersection_query_subindex_results[i];
rcd.object = col_obj;
rcd.shape = shape_idx;
bool sc = GodotCollisionSolver3D::solve_static(body_shape, body_shape_xform, col_obj->get_shape(shape_idx), col_obj->get_transform() * col_obj->get_shape_transform(shape_idx), _rest_cbk_result, &rcd, nullptr, p_parameters.margin);
if (!sc) {
continue;
}
}
}
if (rcd.result_count > 0) {
if (r_result) {
for (int collision_index = 0; collision_index < rcd.result_count; ++collision_index) {
const _RestResultData &result = (collision_index > 0) ? rcd.other_results[collision_index - 1] : rcd.best_result;
PhysicsServer3D::MotionCollision &collision = r_result->collisions[collision_index];
collision.collider = result.object->get_self();
collision.collider_id = result.object->get_instance_id();
collision.collider_shape = result.shape;
collision.local_shape = result.local_shape;
collision.normal = result.normal;
collision.position = result.contact;
collision.depth = result.len;
const GodotBody3D *body = static_cast<const GodotBody3D *>(result.object);
Vector3 rel_vec = result.contact - (body->get_transform().origin + body->get_center_of_mass());
collision.collider_velocity = body->get_linear_velocity() + (body->get_angular_velocity()).cross(rel_vec);
}
r_result->travel = safe * p_parameters.motion;
r_result->remainder = p_parameters.motion - safe * p_parameters.motion;
r_result->travel += (body_transform.get_origin() - p_parameters.from.get_origin());
r_result->collision_safe_fraction = safe;
r_result->collision_unsafe_fraction = unsafe;
r_result->collision_count = rcd.result_count;
}
collided = true;
}
}
if (!collided && r_result) {
r_result->travel = p_parameters.motion;
r_result->remainder = Vector3();
r_result->travel += (body_transform.get_origin() - p_parameters.from.get_origin());
r_result->collision_safe_fraction = 1.0;
r_result->collision_unsafe_fraction = 1.0;
}
return collided;
}
void *GodotSpace3D::_broadphase_pair(GodotCollisionObject3D *A, int p_subindex_A, GodotCollisionObject3D *B, int p_subindex_B, void *p_self) {
if (!A->interacts_with(B)) {
return nullptr;
}
GodotCollisionObject3D::Type type_A = A->get_type();
GodotCollisionObject3D::Type type_B = B->get_type();
if (type_A > type_B) {
SWAP(A, B);
SWAP(p_subindex_A, p_subindex_B);
SWAP(type_A, type_B);
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}
GodotSpace3D *self = (GodotSpace3D *)p_self;
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self->collision_pairs++;
if (type_A == GodotCollisionObject3D::TYPE_AREA) {
GodotArea3D *area = static_cast<GodotArea3D *>(A);
if (type_B == GodotCollisionObject3D::TYPE_AREA) {
GodotArea3D *area_b = static_cast<GodotArea3D *>(B);
GodotArea2Pair3D *area2_pair = memnew(GodotArea2Pair3D(area_b, p_subindex_B, area, p_subindex_A));
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return area2_pair;
} else if (type_B == GodotCollisionObject3D::TYPE_SOFT_BODY) {
GodotSoftBody3D *softbody = static_cast<GodotSoftBody3D *>(B);
GodotAreaSoftBodyPair3D *soft_area_pair = memnew(GodotAreaSoftBodyPair3D(softbody, p_subindex_B, area, p_subindex_A));
return soft_area_pair;
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} else {
GodotBody3D *body = static_cast<GodotBody3D *>(B);
GodotAreaPair3D *area_pair = memnew(GodotAreaPair3D(body, p_subindex_B, area, p_subindex_A));
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return area_pair;
}
} else if (type_A == GodotCollisionObject3D::TYPE_BODY) {
if (type_B == GodotCollisionObject3D::TYPE_SOFT_BODY) {
GodotBodySoftBodyPair3D *soft_pair = memnew(GodotBodySoftBodyPair3D((GodotBody3D *)A, p_subindex_A, (GodotSoftBody3D *)B));
return soft_pair;
} else {
GodotBodyPair3D *b = memnew(GodotBodyPair3D((GodotBody3D *)A, p_subindex_A, (GodotBody3D *)B, p_subindex_B));
return b;
}
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} else {
// Soft Body/Soft Body, not supported.
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}
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return nullptr;
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}
void GodotSpace3D::_broadphase_unpair(GodotCollisionObject3D *A, int p_subindex_A, GodotCollisionObject3D *B, int p_subindex_B, void *p_data, void *p_self) {
if (!p_data) {
return;
}
GodotSpace3D *self = (GodotSpace3D *)p_self;
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self->collision_pairs--;
GodotConstraint3D *c = (GodotConstraint3D *)p_data;
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memdelete(c);
}
const SelfList<GodotBody3D>::List &GodotSpace3D::get_active_body_list() const {
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return active_list;
}
void GodotSpace3D::body_add_to_active_list(SelfList<GodotBody3D> *p_body) {
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active_list.add(p_body);
}
void GodotSpace3D::body_remove_from_active_list(SelfList<GodotBody3D> *p_body) {
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active_list.remove(p_body);
}
void GodotSpace3D::body_add_to_mass_properties_update_list(SelfList<GodotBody3D> *p_body) {
mass_properties_update_list.add(p_body);
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}
void GodotSpace3D::body_remove_from_mass_properties_update_list(SelfList<GodotBody3D> *p_body) {
mass_properties_update_list.remove(p_body);
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}
GodotBroadPhase3D *GodotSpace3D::get_broadphase() {
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return broadphase;
}
void GodotSpace3D::add_object(GodotCollisionObject3D *p_object) {
ERR_FAIL_COND(objects.has(p_object));
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objects.insert(p_object);
}
void GodotSpace3D::remove_object(GodotCollisionObject3D *p_object) {
ERR_FAIL_COND(!objects.has(p_object));
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objects.erase(p_object);
}
const Set<GodotCollisionObject3D *> &GodotSpace3D::get_objects() const {
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return objects;
}
void GodotSpace3D::body_add_to_state_query_list(SelfList<GodotBody3D> *p_body) {
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state_query_list.add(p_body);
}
void GodotSpace3D::body_remove_from_state_query_list(SelfList<GodotBody3D> *p_body) {
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state_query_list.remove(p_body);
}
void GodotSpace3D::area_add_to_monitor_query_list(SelfList<GodotArea3D> *p_area) {
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monitor_query_list.add(p_area);
}
void GodotSpace3D::area_remove_from_monitor_query_list(SelfList<GodotArea3D> *p_area) {
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monitor_query_list.remove(p_area);
}
void GodotSpace3D::area_add_to_moved_list(SelfList<GodotArea3D> *p_area) {
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area_moved_list.add(p_area);
}
void GodotSpace3D::area_remove_from_moved_list(SelfList<GodotArea3D> *p_area) {
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area_moved_list.remove(p_area);
}
const SelfList<GodotArea3D>::List &GodotSpace3D::get_moved_area_list() const {
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return area_moved_list;
}
const SelfList<GodotSoftBody3D>::List &GodotSpace3D::get_active_soft_body_list() const {
return active_soft_body_list;
}
void GodotSpace3D::soft_body_add_to_active_list(SelfList<GodotSoftBody3D> *p_soft_body) {
active_soft_body_list.add(p_soft_body);
}
void GodotSpace3D::soft_body_remove_from_active_list(SelfList<GodotSoftBody3D> *p_soft_body) {
active_soft_body_list.remove(p_soft_body);
}
void GodotSpace3D::call_queries() {
while (state_query_list.first()) {
GodotBody3D *b = state_query_list.first()->self();
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state_query_list.remove(state_query_list.first());
b->call_queries();
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}
while (monitor_query_list.first()) {
GodotArea3D *a = monitor_query_list.first()->self();
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monitor_query_list.remove(monitor_query_list.first());
a->call_queries();
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}
}
void GodotSpace3D::setup() {
contact_debug_count = 0;
while (mass_properties_update_list.first()) {
mass_properties_update_list.first()->self()->update_mass_properties();
mass_properties_update_list.remove(mass_properties_update_list.first());
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}
}
void GodotSpace3D::update() {
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broadphase->update();
}
void GodotSpace3D::set_param(PhysicsServer3D::SpaceParameter p_param, real_t p_value) {
switch (p_param) {
case PhysicsServer3D::SPACE_PARAM_CONTACT_RECYCLE_RADIUS:
contact_recycle_radius = p_value;
break;
case PhysicsServer3D::SPACE_PARAM_CONTACT_MAX_SEPARATION:
contact_max_separation = p_value;
break;
case PhysicsServer3D::SPACE_PARAM_BODY_MAX_ALLOWED_PENETRATION:
contact_max_allowed_penetration = p_value;
break;
case PhysicsServer3D::SPACE_PARAM_BODY_LINEAR_VELOCITY_SLEEP_THRESHOLD:
body_linear_velocity_sleep_threshold = p_value;
break;
case PhysicsServer3D::SPACE_PARAM_BODY_ANGULAR_VELOCITY_SLEEP_THRESHOLD:
body_angular_velocity_sleep_threshold = p_value;
break;
case PhysicsServer3D::SPACE_PARAM_BODY_TIME_TO_SLEEP:
body_time_to_sleep = p_value;
break;
case PhysicsServer3D::SPACE_PARAM_BODY_ANGULAR_VELOCITY_DAMP_RATIO:
body_angular_velocity_damp_ratio = p_value;
break;
case PhysicsServer3D::SPACE_PARAM_CONSTRAINT_DEFAULT_BIAS:
constraint_bias = p_value;
break;
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}
}
real_t GodotSpace3D::get_param(PhysicsServer3D::SpaceParameter p_param) const {
switch (p_param) {
case PhysicsServer3D::SPACE_PARAM_CONTACT_RECYCLE_RADIUS:
return contact_recycle_radius;
case PhysicsServer3D::SPACE_PARAM_CONTACT_MAX_SEPARATION:
return contact_max_separation;
case PhysicsServer3D::SPACE_PARAM_BODY_MAX_ALLOWED_PENETRATION:
return contact_max_allowed_penetration;
case PhysicsServer3D::SPACE_PARAM_BODY_LINEAR_VELOCITY_SLEEP_THRESHOLD:
return body_linear_velocity_sleep_threshold;
case PhysicsServer3D::SPACE_PARAM_BODY_ANGULAR_VELOCITY_SLEEP_THRESHOLD:
return body_angular_velocity_sleep_threshold;
case PhysicsServer3D::SPACE_PARAM_BODY_TIME_TO_SLEEP:
return body_time_to_sleep;
case PhysicsServer3D::SPACE_PARAM_BODY_ANGULAR_VELOCITY_DAMP_RATIO:
return body_angular_velocity_damp_ratio;
case PhysicsServer3D::SPACE_PARAM_CONSTRAINT_DEFAULT_BIAS:
return constraint_bias;
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}
return 0;
}
void GodotSpace3D::lock() {
locked = true;
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}
void GodotSpace3D::unlock() {
locked = false;
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}
bool GodotSpace3D::is_locked() const {
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return locked;
}
GodotPhysicsDirectSpaceState3D *GodotSpace3D::get_direct_state() {
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return direct_access;
}
GodotSpace3D::GodotSpace3D() {
body_linear_velocity_sleep_threshold = GLOBAL_DEF("physics/3d/sleep_threshold_linear", 0.1);
body_angular_velocity_sleep_threshold = GLOBAL_DEF("physics/3d/sleep_threshold_angular", Math::deg2rad(8.0));
body_time_to_sleep = GLOBAL_DEF("physics/3d/time_before_sleep", 0.5);
ProjectSettings::get_singleton()->set_custom_property_info("physics/3d/time_before_sleep", PropertyInfo(Variant::FLOAT, "physics/3d/time_before_sleep", PROPERTY_HINT_RANGE, "0,5,0.01,or_greater"));
body_angular_velocity_damp_ratio = 10;
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broadphase = GodotBroadPhase3D::create_func();
broadphase->set_pair_callback(_broadphase_pair, this);
broadphase->set_unpair_callback(_broadphase_unpair, this);
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direct_access = memnew(GodotPhysicsDirectSpaceState3D);
direct_access->space = this;
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}
GodotSpace3D::~GodotSpace3D() {
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memdelete(broadphase);
memdelete(direct_access);
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}