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/*************************************************************************/
/* shape_bullet.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2018 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2018 Godot Engine contributors (cf. AUTHORS.md) */
/* */
/* 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 "shape_bullet.h"
#include "btRayShape.h"
#include "bullet_physics_server.h"
#include "bullet_types_converter.h"
#include "bullet_utilities.h"
#include "shape_owner_bullet.h"
#include <BulletCollision/CollisionShapes/btConvexPointCloudShape.h>
#include <BulletCollision/CollisionShapes/btHeightfieldTerrainShape.h>
#include <btBulletCollisionCommon.h>
/**
@author AndreaCatania
*/
ShapeBullet::ShapeBullet() {}
ShapeBullet::~ShapeBullet() {}
btCollisionShape *ShapeBullet::create_bt_shape() {
btVector3 s(1, 1, 1);
return create_bt_shape(s);
}
btCollisionShape *ShapeBullet::create_bt_shape(const Vector3 &p_implicit_scale, real_t p_margin) {
btVector3 s;
G_TO_B(p_implicit_scale, s);
return create_bt_shape(s, p_margin);
}
btCollisionShape *ShapeBullet::prepare(btCollisionShape *p_btShape) const {
p_btShape->setUserPointer(const_cast<ShapeBullet *>(this));
p_btShape->setMargin(0.);
return p_btShape;
}
void ShapeBullet::notifyShapeChanged() {
for (Map<ShapeOwnerBullet *, int>::Element *E = owners.front(); E; E = E->next()) {
static_cast<ShapeOwnerBullet *>(E->key())->on_shape_changed(this);
}
}
void ShapeBullet::add_owner(ShapeOwnerBullet *p_owner) {
Map<ShapeOwnerBullet *, int>::Element *E = owners.find(p_owner);
if (E) {
E->get()++;
} else {
owners[p_owner] = 1; // add new owner
}
}
void ShapeBullet::remove_owner(ShapeOwnerBullet *p_owner, bool p_permanentlyFromThisBody) {
Map<ShapeOwnerBullet *, int>::Element *E = owners.find(p_owner);
ERR_FAIL_COND(!E);
E->get()--;
if (p_permanentlyFromThisBody || 0 >= E->get()) {
owners.erase(E);
}
}
bool ShapeBullet::is_owner(ShapeOwnerBullet *p_owner) const {
return owners.has(p_owner);
}
const Map<ShapeOwnerBullet *, int> &ShapeBullet::get_owners() const {
return owners;
}
btEmptyShape *ShapeBullet::create_shape_empty() {
return bulletnew(btEmptyShape);
}
btStaticPlaneShape *ShapeBullet::create_shape_plane(const btVector3 &planeNormal, btScalar planeConstant) {
return bulletnew(btStaticPlaneShape(planeNormal, planeConstant));
}
btSphereShape *ShapeBullet::create_shape_sphere(btScalar radius) {
return bulletnew(btSphereShape(radius));
}
btBoxShape *ShapeBullet::create_shape_box(const btVector3 &boxHalfExtents) {
return bulletnew(btBoxShape(boxHalfExtents));
}
btCapsuleShapeZ *ShapeBullet::create_shape_capsule(btScalar radius, btScalar height) {
return bulletnew(btCapsuleShapeZ(radius, height));
}
btConvexPointCloudShape *ShapeBullet::create_shape_convex(btAlignedObjectArray<btVector3> &p_vertices, const btVector3 &p_local_scaling) {
return bulletnew(btConvexPointCloudShape(&p_vertices[0], p_vertices.size(), p_local_scaling));
}
btScaledBvhTriangleMeshShape *ShapeBullet::create_shape_concave(btBvhTriangleMeshShape *p_mesh_shape, const btVector3 &p_local_scaling) {
if (p_mesh_shape) {
return bulletnew(btScaledBvhTriangleMeshShape(p_mesh_shape, p_local_scaling));
} else {
return NULL;
}
}
btHeightfieldTerrainShape *ShapeBullet::create_shape_height_field(PoolVector<real_t> &p_heights, int p_width, int p_depth, real_t p_cell_size) {
const btScalar ignoredHeightScale(1);
const btScalar fieldHeight(500); // Meters
const int YAxis = 1; // 0=X, 1=Y, 2=Z
const bool flipQuadEdges = false;
const void *heightsPtr = p_heights.read().ptr();
return bulletnew(btHeightfieldTerrainShape(p_width, p_depth, heightsPtr, ignoredHeightScale, -fieldHeight, fieldHeight, YAxis, PHY_FLOAT, flipQuadEdges));
}
btRayShape *ShapeBullet::create_shape_ray(real_t p_length) {
return bulletnew(btRayShape(p_length));
}
/* PLANE */
PlaneShapeBullet::PlaneShapeBullet() :
ShapeBullet() {}
void PlaneShapeBullet::set_data(const Variant &p_data) {
setup(p_data);
}
Variant PlaneShapeBullet::get_data() const {
return plane;
}
PhysicsServer::ShapeType PlaneShapeBullet::get_type() const {
return PhysicsServer::SHAPE_PLANE;
}
void PlaneShapeBullet::setup(const Plane &p_plane) {
plane = p_plane;
notifyShapeChanged();
}
btCollisionShape *PlaneShapeBullet::create_bt_shape(const btVector3 &p_implicit_scale, real_t p_margin) {
btVector3 btPlaneNormal;
G_TO_B(plane.normal, btPlaneNormal);
return prepare(PlaneShapeBullet::create_shape_plane(btPlaneNormal, plane.d));
}
/* Sphere */
SphereShapeBullet::SphereShapeBullet() :
ShapeBullet() {}
void SphereShapeBullet::set_data(const Variant &p_data) {
setup(p_data);
}
Variant SphereShapeBullet::get_data() const {
return radius;
}
PhysicsServer::ShapeType SphereShapeBullet::get_type() const {
return PhysicsServer::SHAPE_SPHERE;
}
void SphereShapeBullet::setup(real_t p_radius) {
radius = p_radius;
notifyShapeChanged();
}
btCollisionShape *SphereShapeBullet::create_bt_shape(const btVector3 &p_implicit_scale, real_t p_margin) {
return prepare(ShapeBullet::create_shape_sphere(radius * p_implicit_scale[0] + p_margin));
}
/* Box */
BoxShapeBullet::BoxShapeBullet() :
ShapeBullet() {}
void BoxShapeBullet::set_data(const Variant &p_data) {
setup(p_data);
}
Variant BoxShapeBullet::get_data() const {
Vector3 g_half_extents;
B_TO_G(half_extents, g_half_extents);
return g_half_extents;
}
PhysicsServer::ShapeType BoxShapeBullet::get_type() const {
return PhysicsServer::SHAPE_BOX;
}
void BoxShapeBullet::setup(const Vector3 &p_half_extents) {
G_TO_B(p_half_extents, half_extents);
notifyShapeChanged();
}
btCollisionShape *BoxShapeBullet::create_bt_shape(const btVector3 &p_implicit_scale, real_t p_margin) {
return prepare(ShapeBullet::create_shape_box((half_extents * p_implicit_scale) + btVector3(p_margin, p_margin, p_margin)));
}
/* Capsule */
CapsuleShapeBullet::CapsuleShapeBullet() :
ShapeBullet() {}
void CapsuleShapeBullet::set_data(const Variant &p_data) {
Dictionary d = p_data;
ERR_FAIL_COND(!d.has("radius"));
ERR_FAIL_COND(!d.has("height"));
setup(d["height"], d["radius"]);
}
Variant CapsuleShapeBullet::get_data() const {
Dictionary d;
d["radius"] = radius;
d["height"] = height;
return d;
}
PhysicsServer::ShapeType CapsuleShapeBullet::get_type() const {
return PhysicsServer::SHAPE_CAPSULE;
}
void CapsuleShapeBullet::setup(real_t p_height, real_t p_radius) {
radius = p_radius;
height = p_height;
notifyShapeChanged();
}
btCollisionShape *CapsuleShapeBullet::create_bt_shape(const btVector3 &p_implicit_scale, real_t p_margin) {
return prepare(ShapeBullet::create_shape_capsule(radius * p_implicit_scale[0] + p_margin, height * p_implicit_scale[1] + p_margin));
}
/* Convex polygon */
ConvexPolygonShapeBullet::ConvexPolygonShapeBullet() :
ShapeBullet() {}
void ConvexPolygonShapeBullet::set_data(const Variant &p_data) {
setup(p_data);
}
void ConvexPolygonShapeBullet::get_vertices(Vector<Vector3> &out_vertices) {
const int n_of_vertices = vertices.size();
out_vertices.resize(n_of_vertices);
for (int i = n_of_vertices - 1; 0 <= i; --i) {
B_TO_G(vertices[i], out_vertices[i]);
}
}
Variant ConvexPolygonShapeBullet::get_data() const {
ConvexPolygonShapeBullet *variable_self = const_cast<ConvexPolygonShapeBullet *>(this);
Vector<Vector3> out_vertices;
variable_self->get_vertices(out_vertices);
return out_vertices;
}
PhysicsServer::ShapeType ConvexPolygonShapeBullet::get_type() const {
return PhysicsServer::SHAPE_CONVEX_POLYGON;
}
void ConvexPolygonShapeBullet::setup(const Vector<Vector3> &p_vertices) {
// Make a copy of verticies
const int n_of_vertices = p_vertices.size();
vertices.resize(n_of_vertices);
for (int i = n_of_vertices - 1; 0 <= i; --i) {
G_TO_B(p_vertices[i], vertices[i]);
}
notifyShapeChanged();
}
btCollisionShape *ConvexPolygonShapeBullet::create_bt_shape(const btVector3 &p_implicit_scale, real_t p_margin) {
btCollisionShape *cs(ShapeBullet::create_shape_convex(vertices));
cs->setLocalScaling(p_implicit_scale);
prepare(cs);
cs->setMargin(p_margin);
return cs;
}
/* Concave polygon */
ConcavePolygonShapeBullet::ConcavePolygonShapeBullet() :
ShapeBullet(),
meshShape(NULL) {}
ConcavePolygonShapeBullet::~ConcavePolygonShapeBullet() {
if (meshShape) {
delete meshShape->getMeshInterface();
delete meshShape;
}
faces = PoolVector<Vector3>();
}
void ConcavePolygonShapeBullet::set_data(const Variant &p_data) {
setup(p_data);
}
Variant ConcavePolygonShapeBullet::get_data() const {
return faces;
}
PhysicsServer::ShapeType ConcavePolygonShapeBullet::get_type() const {
return PhysicsServer::SHAPE_CONCAVE_POLYGON;
}
void ConcavePolygonShapeBullet::setup(PoolVector<Vector3> p_faces) {
faces = p_faces;
if (meshShape) {
/// Clear previous created shape
delete meshShape->getMeshInterface();
bulletdelete(meshShape);
}
int src_face_count = faces.size();
if (0 < src_face_count) {
btTriangleMesh *shapeInterface = bulletnew(btTriangleMesh);
// It counts the faces and assert the array contains the correct number of vertices.
ERR_FAIL_COND(src_face_count % 3);
src_face_count /= 3;
PoolVector<Vector3>::Read r = p_faces.read();
const Vector3 *facesr = r.ptr();
btVector3 supVec_0;
btVector3 supVec_1;
btVector3 supVec_2;
for (int i = 0; i < src_face_count; ++i) {
G_TO_B(facesr[i * 3], supVec_0);
G_TO_B(facesr[i * 3 + 1], supVec_1);
G_TO_B(facesr[i * 3 + 2], supVec_2);
shapeInterface->addTriangle(supVec_0, supVec_1, supVec_2);
}
const bool useQuantizedAabbCompression = true;
meshShape = bulletnew(btBvhTriangleMeshShape(shapeInterface, useQuantizedAabbCompression));
} else {
meshShape = NULL;
ERR_PRINT("The faces count are 0, the mesh shape cannot be created");
}
notifyShapeChanged();
}
btCollisionShape *ConcavePolygonShapeBullet::create_bt_shape(const btVector3 &p_implicit_scale, real_t p_margin) {
btCollisionShape *cs = ShapeBullet::create_shape_concave(meshShape);
if (!cs)
// This is necessary since if 0 faces the creation of concave return NULL
cs = ShapeBullet::create_shape_empty();
cs->setLocalScaling(p_implicit_scale);
prepare(cs);
cs->setMargin(p_margin);
return cs;
}
/* Height map shape */
HeightMapShapeBullet::HeightMapShapeBullet() :
ShapeBullet() {}
void HeightMapShapeBullet::set_data(const Variant &p_data) {
ERR_FAIL_COND(p_data.get_type() != Variant::DICTIONARY);
Dictionary d = p_data;
ERR_FAIL_COND(!d.has("width"));
ERR_FAIL_COND(!d.has("depth"));
ERR_FAIL_COND(!d.has("cell_size"));
ERR_FAIL_COND(!d.has("heights"));
int l_width = d["width"];
int l_depth = d["depth"];
real_t l_cell_size = d["cell_size"];
PoolVector<real_t> l_heights = d["heights"];
ERR_FAIL_COND(l_width <= 0);
ERR_FAIL_COND(l_depth <= 0);
ERR_FAIL_COND(l_cell_size <= CMP_EPSILON);
ERR_FAIL_COND(l_heights.size() != (width * depth));
setup(heights, width, depth, cell_size);
}
Variant HeightMapShapeBullet::get_data() const {
ERR_FAIL_V(Variant());
}
PhysicsServer::ShapeType HeightMapShapeBullet::get_type() const {
return PhysicsServer::SHAPE_HEIGHTMAP;
}
void HeightMapShapeBullet::setup(PoolVector<real_t> &p_heights, int p_width, int p_depth, real_t p_cell_size) {
{ // Copy
const int heights_size = p_heights.size();
heights.resize(heights_size);
PoolVector<real_t>::Read p_heights_r = p_heights.read();
PoolVector<real_t>::Write heights_w = heights.write();
for (int i = heights_size - 1; 0 <= i; --i) {
heights_w[i] = p_heights_r[i];
}
}
width = p_width;
depth = p_depth;
cell_size = p_cell_size;
notifyShapeChanged();
}
btCollisionShape *HeightMapShapeBullet::create_bt_shape(const btVector3 &p_implicit_scale, real_t p_margin) {
btCollisionShape *cs(ShapeBullet::create_shape_height_field(heights, width, depth, cell_size));
cs->setLocalScaling(p_implicit_scale);
prepare(cs);
cs->setMargin(p_margin);
return cs;
}
/* Ray shape */
RayShapeBullet::RayShapeBullet() :
ShapeBullet(),
length(1) {}
void RayShapeBullet::set_data(const Variant &p_data) {
setup(p_data);
}
Variant RayShapeBullet::get_data() const {
return length;
}
PhysicsServer::ShapeType RayShapeBullet::get_type() const {
return PhysicsServer::SHAPE_RAY;
}
void RayShapeBullet::setup(real_t p_length) {
length = p_length;
notifyShapeChanged();
}
btCollisionShape *RayShapeBullet::create_bt_shape(const btVector3 &p_implicit_scale, real_t p_margin) {
return prepare(ShapeBullet::create_shape_ray(length * p_implicit_scale[1] + p_margin));
}
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