Merge pull request #33864 from madmiraal/partial-revert-20908
Ensure move_and_slide() is consistent between the 2D and 3D versions.
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9607fc48a0
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@ -1214,18 +1214,20 @@ bool KinematicBody2D::move_and_collide(const Vector2 &p_motion, bool p_infinite_
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Vector2 KinematicBody2D::move_and_slide(const Vector2 &p_linear_velocity, const Vector2 &p_floor_direction, bool p_stop_on_slope, int p_max_slides, float p_floor_max_angle, bool p_infinite_inertia) {
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Vector2 floor_motion = floor_velocity;
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Vector2 body_velocity = p_linear_velocity;
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Vector2 body_velocity_normal = body_velocity.normalized();
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Vector2 current_floor_velocity = floor_velocity;
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if (on_floor && on_floor_body.is_valid()) {
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//this approach makes sure there is less delay between the actual body velocity and the one we saved
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Physics2DDirectBodyState *bs = Physics2DServer::get_singleton()->body_get_direct_state(on_floor_body);
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if (bs) {
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floor_motion = bs->get_linear_velocity();
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current_floor_velocity = bs->get_linear_velocity();
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}
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}
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// Hack in order to work with calling from _process as well as from _physics_process; calling from thread is risky
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Vector2 motion = (floor_motion + p_linear_velocity) * (Engine::get_singleton()->is_in_physics_frame() ? get_physics_process_delta_time() : get_process_delta_time());
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Vector2 lv = p_linear_velocity;
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Vector2 motion = (current_floor_velocity + body_velocity) * (Engine::get_singleton()->is_in_physics_frame() ? get_physics_process_delta_time() : get_process_delta_time());
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on_floor = false;
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on_floor_body = RID();
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@ -1234,14 +1236,12 @@ Vector2 KinematicBody2D::move_and_slide(const Vector2 &p_linear_velocity, const
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colliders.clear();
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floor_velocity = Vector2();
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Vector2 lv_n = p_linear_velocity.normalized();
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while (p_max_slides) {
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Collision collision;
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bool found_collision = false;
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for (int i = 0; i < 2; i++) {
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for (int i = 0; i < 2; ++i) {
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bool collided;
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if (i == 0) { //collide
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collided = move_and_collide(motion, p_infinite_inertia, collision);
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@ -1273,14 +1273,13 @@ Vector2 KinematicBody2D::move_and_slide(const Vector2 &p_linear_velocity, const
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floor_velocity = collision.collider_vel;
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if (p_stop_on_slope) {
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if ((lv_n + p_floor_direction).length() < 0.01 && collision.travel.length() < 1) {
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if ((body_velocity_normal + p_floor_direction).length() < 0.01 && collision.travel.length() < 1) {
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Transform2D gt = get_global_transform();
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gt.elements[2] -= collision.travel.project(p_floor_direction.tangent());
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gt.elements[2] -= collision.travel.slide(p_floor_direction);
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set_global_transform(gt);
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return Vector2();
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}
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}
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} else if (Math::acos(collision.normal.dot(-p_floor_direction)) <= p_floor_max_angle + FLOOR_ANGLE_THRESHOLD) { //ceiling
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on_ceiling = true;
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} else {
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@ -1288,21 +1287,18 @@ Vector2 KinematicBody2D::move_and_slide(const Vector2 &p_linear_velocity, const
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}
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}
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Vector2 n = collision.normal;
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motion = motion.slide(n);
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lv = lv.slide(n);
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motion = motion.slide(collision.normal);
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body_velocity = body_velocity.slide(collision.normal);
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}
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}
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if (!found_collision) {
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break;
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}
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p_max_slides--;
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if (motion == Vector2())
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if (!found_collision || motion == Vector2())
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break;
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--p_max_slides;
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}
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return lv;
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return body_velocity;
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}
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Vector2 KinematicBody2D::move_and_slide_with_snap(const Vector2 &p_linear_velocity, const Vector2 &p_snap, const Vector2 &p_floor_direction, bool p_stop_on_slope, int p_max_slides, float p_floor_max_angle, bool p_infinite_inertia) {
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@ -1142,25 +1142,34 @@ bool KinematicBody::move_and_collide(const Vector3 &p_motion, bool p_infinite_in
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Vector3 KinematicBody::move_and_slide(const Vector3 &p_linear_velocity, const Vector3 &p_floor_direction, bool p_stop_on_slope, int p_max_slides, float p_floor_max_angle, bool p_infinite_inertia) {
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Vector3 lv = p_linear_velocity;
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Vector3 body_velocity = p_linear_velocity;
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Vector3 body_velocity_normal = body_velocity.normalized();
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for (int i = 0; i < 3; i++) {
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if (locked_axis & (1 << i)) {
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lv[i] = 0;
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body_velocity[i] = 0;
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}
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}
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Vector3 current_floor_velocity = floor_velocity;
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if (on_floor && on_floor_body.is_valid()) {
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//this approach makes sure there is less delay between the actual body velocity and the one we saved
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PhysicsDirectBodyState *bs = PhysicsServer::get_singleton()->body_get_direct_state(on_floor_body);
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if (bs) {
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current_floor_velocity = bs->get_linear_velocity();
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}
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}
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// Hack in order to work with calling from _process as well as from _physics_process; calling from thread is risky
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Vector3 motion = (floor_velocity + lv) * (Engine::get_singleton()->is_in_physics_frame() ? get_physics_process_delta_time() : get_process_delta_time());
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Vector3 motion = (current_floor_velocity + body_velocity) * (Engine::get_singleton()->is_in_physics_frame() ? get_physics_process_delta_time() : get_process_delta_time());
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on_floor = false;
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on_floor_body = RID();
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on_ceiling = false;
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on_wall = false;
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colliders.clear();
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floor_velocity = Vector3();
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Vector3 lv_n = p_linear_velocity.normalized();
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while (p_max_slides) {
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Collision collision;
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@ -1187,7 +1196,6 @@ Vector3 KinematicBody::move_and_slide(const Vector3 &p_linear_velocity, const Ve
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colliders.push_back(collision);
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motion = collision.remainder;
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bool is_on_slope = false;
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if (p_floor_direction == Vector3()) {
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//all is a wall
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on_wall = true;
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@ -1199,16 +1207,13 @@ Vector3 KinematicBody::move_and_slide(const Vector3 &p_linear_velocity, const Ve
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floor_velocity = collision.collider_vel;
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if (p_stop_on_slope) {
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if ((lv_n + p_floor_direction).length() < 0.01 && collision.travel.length() < 1) {
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if ((body_velocity_normal + p_floor_direction).length() < 0.01 && collision.travel.length() < 1) {
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Transform gt = get_global_transform();
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gt.origin -= collision.travel.slide(p_floor_direction);
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set_global_transform(gt);
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return Vector3();
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}
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}
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is_on_slope = true;
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} else if (Math::acos(collision.normal.dot(-p_floor_direction)) <= p_floor_max_angle + FLOOR_ANGLE_THRESHOLD) { //ceiling
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on_ceiling = true;
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} else {
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@ -1216,18 +1221,12 @@ Vector3 KinematicBody::move_and_slide(const Vector3 &p_linear_velocity, const Ve
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}
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}
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if (p_stop_on_slope && is_on_slope) {
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motion = motion.slide(p_floor_direction);
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lv = lv.slide(p_floor_direction);
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} else {
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Vector3 n = collision.normal;
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motion = motion.slide(n);
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lv = lv.slide(n);
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}
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motion = motion.slide(collision.normal);
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body_velocity = body_velocity.slide(collision.normal);
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for (int j = 0; j < 3; j++) {
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if (locked_axis & (1 << j)) {
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lv[j] = 0;
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body_velocity[j] = 0;
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}
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}
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}
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@ -1239,7 +1238,7 @@ Vector3 KinematicBody::move_and_slide(const Vector3 &p_linear_velocity, const Ve
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--p_max_slides;
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}
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return lv;
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return body_velocity;
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}
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Vector3 KinematicBody::move_and_slide_with_snap(const Vector3 &p_linear_velocity, const Vector3 &p_snap, const Vector3 &p_floor_direction, bool p_stop_on_slope, int p_max_slides, float p_floor_max_angle, bool p_infinite_inertia) {
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