axmol/core/physics/CCPhysicsWorld.cpp

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/****************************************************************************
Copyright (c) 2013-2016 Chukong Technologies Inc.
Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd.
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2022-01-04 12:36:20 +08:00
https://adxeproject.github.io/
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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:
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The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
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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 "physics/CCPhysicsWorld.h"
#if CC_USE_PHYSICS
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# include <algorithm>
# include <climits>
# include "chipmunk/chipmunk_private.h"
# include "physics/CCPhysicsBody.h"
# include "physics/CCPhysicsShape.h"
# include "physics/CCPhysicsContact.h"
# include "physics/CCPhysicsJoint.h"
# include "physics/CCPhysicsHelper.h"
# include "2d/CCDrawNode.h"
# include "2d/CCScene.h"
# include "base/CCDirector.h"
# include "base/CCEventDispatcher.h"
# include "base/CCEventCustom.h"
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NS_CC_BEGIN
const float PHYSICS_INFINITY = FLT_MAX;
extern const char* PHYSICSCONTACT_EVENT_NAME;
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const int PhysicsWorld::DEBUGDRAW_NONE = 0x00;
const int PhysicsWorld::DEBUGDRAW_SHAPE = 0x01;
const int PhysicsWorld::DEBUGDRAW_JOINT = 0x02;
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const int PhysicsWorld::DEBUGDRAW_CONTACT = 0x04;
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const int PhysicsWorld::DEBUGDRAW_ALL = DEBUGDRAW_SHAPE | DEBUGDRAW_JOINT | DEBUGDRAW_CONTACT;
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const float _debugDrawThickness = 0.5f; // thickness of the DebugDraw lines, circles, dots, polygons
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namespace
{
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typedef struct RayCastCallbackInfo
{
PhysicsWorld* world;
PhysicsRayCastCallbackFunc func;
Vec2 p1;
Vec2 p2;
void* data;
} RayCastCallbackInfo;
typedef struct RectQueryCallbackInfo
{
PhysicsWorld* world;
PhysicsQueryRectCallbackFunc func;
void* data;
} RectQueryCallbackInfo;
typedef struct PointQueryCallbackInfo
{
PhysicsWorld* world;
PhysicsQueryPointCallbackFunc func;
void* data;
} PointQueryCallbackInfo;
} // namespace
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class PhysicsWorldCallback
{
public:
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static cpBool collisionBeginCallbackFunc(cpArbiter* arb, struct cpSpace* space, PhysicsWorld* world);
static cpBool collisionPreSolveCallbackFunc(cpArbiter* arb, cpSpace* space, PhysicsWorld* world);
static void collisionPostSolveCallbackFunc(cpArbiter* arb, cpSpace* space, PhysicsWorld* world);
static void collisionSeparateCallbackFunc(cpArbiter* arb, cpSpace* space, PhysicsWorld* world);
static void rayCastCallbackFunc(cpShape* shape,
cpVect point,
cpVect normal,
cpFloat alpha,
RayCastCallbackInfo* info);
static void queryRectCallbackFunc(cpShape* shape, RectQueryCallbackInfo* info);
static void queryPointFunc(cpShape* shape,
cpVect point,
cpFloat distance,
cpVect gradient,
PointQueryCallbackInfo* info);
static void getShapesAtPointFunc(cpShape* shape,
cpVect point,
cpFloat distance,
cpVect gradient,
Vector<PhysicsShape*>* arr);
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public:
static bool continues;
};
bool PhysicsWorldCallback::continues = true;
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cpBool PhysicsWorldCallback::collisionBeginCallbackFunc(cpArbiter* arb, struct cpSpace* /*space*/, PhysicsWorld* world)
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{
CP_ARBITER_GET_SHAPES(arb, a, b);
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PhysicsShape* shapeA = static_cast<PhysicsShape*>(cpShapeGetUserData(a));
PhysicsShape* shapeB = static_cast<PhysicsShape*>(cpShapeGetUserData(b));
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CC_ASSERT(shapeA != nullptr && shapeB != nullptr);
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auto contact = PhysicsContact::construct(shapeA, shapeB);
cpArbiterSetUserData(arb, contact);
contact->_contactInfo = arb;
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return world->collisionBeginCallback(*contact);
}
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cpBool PhysicsWorldCallback::collisionPreSolveCallbackFunc(cpArbiter* arb, cpSpace* /*space*/, PhysicsWorld* world)
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{
return world->collisionPreSolveCallback(*static_cast<PhysicsContact*>(cpArbiterGetUserData(arb)));
}
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void PhysicsWorldCallback::collisionPostSolveCallbackFunc(cpArbiter* arb, cpSpace* /*space*/, PhysicsWorld* world)
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{
world->collisionPostSolveCallback(*static_cast<PhysicsContact*>(cpArbiterGetUserData(arb)));
}
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void PhysicsWorldCallback::collisionSeparateCallbackFunc(cpArbiter* arb, cpSpace* /*space*/, PhysicsWorld* world)
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{
PhysicsContact* contact = static_cast<PhysicsContact*>(cpArbiterGetUserData(arb));
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world->collisionSeparateCallback(*contact);
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delete contact;
}
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void PhysicsWorldCallback::rayCastCallbackFunc(cpShape* shape,
cpVect point,
cpVect normal,
cpFloat alpha,
RayCastCallbackInfo* info)
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{
if (!PhysicsWorldCallback::continues)
{
return;
}
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PhysicsShape* physicsShape = static_cast<PhysicsShape*>(cpShapeGetUserData(shape));
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CC_ASSERT(physicsShape != nullptr);
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PhysicsRayCastInfo callbackInfo = {
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physicsShape,
info->p1,
info->p2,
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PhysicsHelper::cpv2vec2(point),
PhysicsHelper::cpv2vec2(normal),
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static_cast<float>(alpha),
};
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PhysicsWorldCallback::continues = info->func(*info->world, callbackInfo, info->data);
}
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void PhysicsWorldCallback::queryRectCallbackFunc(cpShape* shape, RectQueryCallbackInfo* info)
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{
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PhysicsShape* physicsShape = static_cast<PhysicsShape*>(cpShapeGetUserData(shape));
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CC_ASSERT(physicsShape != nullptr);
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if (!PhysicsWorldCallback::continues)
{
return;
}
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PhysicsWorldCallback::continues = info->func(*info->world, *physicsShape, info->data);
}
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void PhysicsWorldCallback::getShapesAtPointFunc(cpShape* shape,
cpVect /*point*/,
cpFloat /*distance*/,
cpVect /*gradient*/,
Vector<PhysicsShape*>* arr)
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{
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PhysicsShape* physicsShape = static_cast<PhysicsShape*>(cpShapeGetUserData(shape));
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CC_ASSERT(physicsShape != nullptr);
arr->pushBack(physicsShape);
}
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void PhysicsWorldCallback::queryPointFunc(cpShape* shape,
cpVect /*point*/,
cpFloat /*distance*/,
cpVect /*gradient*/,
PointQueryCallbackInfo* info)
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{
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PhysicsShape* physicsShape = static_cast<PhysicsShape*>(cpShapeGetUserData(shape));
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CC_ASSERT(physicsShape != nullptr);
PhysicsWorldCallback::continues = info->func(*info->world, *physicsShape, info->data);
}
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static inline cpSpaceDebugColor RGBAColor(float r, float g, float b, float a)
{
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cpSpaceDebugColor color = {r, g, b, a};
return color;
}
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static inline cpSpaceDebugColor LAColor(float l, float a)
{
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cpSpaceDebugColor color = {l, l, l, a};
return color;
}
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static void DrawCircle(cpVect p,
cpFloat /*a*/,
cpFloat r,
cpSpaceDebugColor outline,
cpSpaceDebugColor fill,
cpDataPointer data)
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{
const Color4F fillColor(fill.r, fill.g, fill.b, fill.a);
const Color4F outlineColor(outline.r, outline.g, outline.b, outline.a);
DrawNode* drawNode = static_cast<DrawNode*>(data);
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float radius = PhysicsHelper::cpfloat2float(r);
Vec2 centre = PhysicsHelper::cpv2vec2(p);
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static const int CIRCLE_SEG_NUM = 12;
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Vec2 seg[CIRCLE_SEG_NUM] = {};
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for (int i = 0; i < CIRCLE_SEG_NUM; ++i)
{
float angle = (float)i * M_PI / (float)CIRCLE_SEG_NUM * 2.0f;
Vec2 d(radius * cosf(angle), radius * sinf(angle));
seg[i] = centre + d;
}
drawNode->drawPolygon(seg, CIRCLE_SEG_NUM, fillColor, _debugDrawThickness, outlineColor);
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}
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static void DrawFatSegment(cpVect a,
cpVect b,
cpFloat r,
cpSpaceDebugColor outline,
cpSpaceDebugColor /*fill*/,
cpDataPointer data)
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{
const Color4F outlineColor(outline.r, outline.g, outline.b, outline.a);
DrawNode* drawNode = static_cast<DrawNode*>(data);
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drawNode->drawSegment(PhysicsHelper::cpv2vec2(a), PhysicsHelper::cpv2vec2(b),
PhysicsHelper::cpfloat2float(r == 0 ? _debugDrawThickness : r), outlineColor);
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}
static void DrawSegment(cpVect a, cpVect b, cpSpaceDebugColor color, cpDataPointer data)
{
DrawFatSegment(a, b, 0.0, color, color, data);
}
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static void DrawPolygon(int count,
const cpVect* verts,
cpFloat /*r*/,
cpSpaceDebugColor outline,
cpSpaceDebugColor fill,
cpDataPointer data)
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{
const Color4F fillColor(fill.r, fill.g, fill.b, fill.a);
const Color4F outlineColor(outline.r, outline.g, outline.b, outline.a);
DrawNode* drawNode = static_cast<DrawNode*>(data);
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int num = count;
Vec2* seg = new Vec2[num];
for (int i = 0; i < num; ++i)
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seg[i] = PhysicsHelper::cpv2vec2(verts[i]);
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drawNode->drawPolygon(seg, num, fillColor, _debugDrawThickness, outlineColor);
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delete[] seg;
}
static void DrawDot(cpFloat /*size*/, cpVect pos, cpSpaceDebugColor color, cpDataPointer data)
{
const Color4F dotColor(color.r, color.g, color.b, color.a);
DrawNode* drawNode = static_cast<DrawNode*>(data);
drawNode->drawDot(PhysicsHelper::cpv2vec2(pos), _debugDrawThickness, dotColor);
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}
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static cpSpaceDebugColor ColorForShape(cpShape* shape, cpDataPointer /*data*/)
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{
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if (cpShapeGetSensor(shape))
{
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return LAColor(1.0f, 0.3f);
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}
else
{
cpBody* body = cpShapeGetBody(shape);
if (cpBodyIsSleeping(body))
{
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return LAColor(0.2f, 0.3f);
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}
else if (body->sleeping.idleTime > shape->space->sleepTimeThreshold)
{
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return LAColor(0.66f, 0.3f);
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}
else
{
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float intensity = (cpBodyGetType(body) == CP_BODY_TYPE_STATIC ? 0.15f : 0.75f);
return RGBAColor(intensity, 0.0f, 0.0f, 0.3f);
}
}
}
void PhysicsWorld::debugDraw()
{
if (_debugDraw == nullptr)
{
_debugDraw = DrawNode::create();
_debugDraw->setIsolated(true);
_debugDraw->retain();
Director::getInstance()->getRunningScene()->addChild(_debugDraw);
}
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cpSpaceDebugDrawOptions drawOptions = {
DrawCircle,
DrawSegment,
DrawFatSegment,
DrawPolygon,
DrawDot,
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(cpSpaceDebugDrawFlags)(_debugDrawMask),
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{1.0f, 0.0f, 0.0f, 1.0f},
ColorForShape,
{0.0f, 0.75f, 0.0f, 1.0f},
{0.0f, 0.0f, 1.0f, 1.0f},
_debugDraw,
};
if (_debugDraw)
{
_debugDraw->clear();
cpSpaceDebugDraw(_cpSpace, &drawOptions);
}
}
bool PhysicsWorld::collisionBeginCallback(PhysicsContact& contact)
{
bool ret = true;
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PhysicsShape* shapeA = contact.getShapeA();
PhysicsShape* shapeB = contact.getShapeB();
PhysicsBody* bodyA = shapeA->getBody();
PhysicsBody* bodyB = shapeB->getBody();
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std::vector<PhysicsJoint*> jointsA = bodyA->getJoints();
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// check the joint is collision enable or not
for (PhysicsJoint* joint : jointsA)
{
if (std::find(_joints.begin(), _joints.end(), joint) == _joints.end())
{
continue;
}
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if (!joint->isCollisionEnabled())
{
PhysicsBody* body = joint->getBodyA() == bodyA ? joint->getBodyB() : joint->getBodyA();
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if (body == bodyB)
{
contact.setNotificationEnable(false);
return false;
}
}
}
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// bitmask check
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if ((shapeA->getCategoryBitmask() & shapeB->getContactTestBitmask()) == 0 ||
(shapeA->getContactTestBitmask() & shapeB->getCategoryBitmask()) == 0)
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{
contact.setNotificationEnable(false);
}
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if (shapeA->getGroup() != 0 && shapeA->getGroup() == shapeB->getGroup())
{
ret = shapeA->getGroup() > 0;
}
else
{
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if ((shapeA->getCategoryBitmask() & shapeB->getCollisionBitmask()) == 0 ||
(shapeB->getCategoryBitmask() & shapeA->getCollisionBitmask()) == 0)
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{
ret = false;
}
}
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if (contact.isNotificationEnabled())
{
contact.setEventCode(PhysicsContact::EventCode::BEGIN);
contact.setWorld(this);
_eventDispatcher->dispatchEvent(&contact);
}
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return ret ? contact.resetResult() : false;
}
bool PhysicsWorld::collisionPreSolveCallback(PhysicsContact& contact)
{
if (!contact.isNotificationEnabled())
{
return true;
}
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contact.setEventCode(PhysicsContact::EventCode::PRESOLVE);
contact.setWorld(this);
_eventDispatcher->dispatchEvent(&contact);
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return contact.resetResult();
}
void PhysicsWorld::collisionPostSolveCallback(PhysicsContact& contact)
{
if (!contact.isNotificationEnabled())
{
return;
}
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contact.setEventCode(PhysicsContact::EventCode::POSTSOLVE);
contact.setWorld(this);
_eventDispatcher->dispatchEvent(&contact);
}
void PhysicsWorld::collisionSeparateCallback(PhysicsContact& contact)
{
if (!contact.isNotificationEnabled())
{
return;
}
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contact.setEventCode(PhysicsContact::EventCode::SEPARATE);
contact.setWorld(this);
_eventDispatcher->dispatchEvent(&contact);
}
void PhysicsWorld::rayCast(PhysicsRayCastCallbackFunc func, const Vec2& point1, const Vec2& point2, void* data)
{
CCASSERT(func != nullptr, "func shouldn't be nullptr");
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if (func != nullptr)
{
if (!_delayAddBodies.empty() || !_delayRemoveBodies.empty())
{
updateBodies();
}
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RayCastCallbackInfo info = {this, func, point1, point2, data};
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PhysicsWorldCallback::continues = true;
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cpSpaceSegmentQuery(_cpSpace, PhysicsHelper::vec22cpv(point1), PhysicsHelper::vec22cpv(point2), 0.0f,
CP_SHAPE_FILTER_ALL, (cpSpaceSegmentQueryFunc)PhysicsWorldCallback::rayCastCallbackFunc,
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&info);
}
}
void PhysicsWorld::queryRect(PhysicsQueryRectCallbackFunc func, const Rect& rect, void* data)
{
CCASSERT(func != nullptr, "func shouldn't be nullptr");
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if (func != nullptr)
{
if (!_delayAddBodies.empty() || !_delayRemoveBodies.empty())
{
updateBodies();
}
RectQueryCallbackInfo info = {this, func, data};
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PhysicsWorldCallback::continues = true;
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cpSpaceBBQuery(_cpSpace, PhysicsHelper::rect2cpbb(rect), CP_SHAPE_FILTER_ALL,
(cpSpaceBBQueryFunc)PhysicsWorldCallback::queryRectCallbackFunc, &info);
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}
}
void PhysicsWorld::queryPoint(PhysicsQueryPointCallbackFunc func, const Vec2& point, void* data)
{
CCASSERT(func != nullptr, "func shouldn't be nullptr");
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if (func != nullptr)
{
if (!_delayAddBodies.empty() || !_delayRemoveBodies.empty())
{
updateBodies();
}
PointQueryCallbackInfo info = {this, func, data};
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PhysicsWorldCallback::continues = true;
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cpSpacePointQuery(_cpSpace, PhysicsHelper::vec22cpv(point), 0, CP_SHAPE_FILTER_ALL,
(cpSpacePointQueryFunc)PhysicsWorldCallback::queryPointFunc, &info);
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}
}
Vector<PhysicsShape*> PhysicsWorld::getShapes(const Vec2& point) const
{
Vector<PhysicsShape*> arr;
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cpSpacePointQuery(_cpSpace, PhysicsHelper::vec22cpv(point), 0, CP_SHAPE_FILTER_ALL,
(cpSpacePointQueryFunc)PhysicsWorldCallback::getShapesAtPointFunc, &arr);
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return arr;
}
PhysicsShape* PhysicsWorld::getShape(const Vec2& point) const
{
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cpShape* shape =
cpSpacePointQueryNearest(_cpSpace, PhysicsHelper::vec22cpv(point), 0, CP_SHAPE_FILTER_ALL, nullptr);
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return shape == nullptr ? nullptr : static_cast<PhysicsShape*>(cpShapeGetUserData(shape));
}
bool PhysicsWorld::init()
{
do
{
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# if CC_TARGET_PLATFORM == CC_PLATFORM_WIN32
_cpSpace = cpSpaceNew();
# else
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_cpSpace = cpHastySpaceNew();
cpHastySpaceSetThreads(_cpSpace, 0);
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# endif
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CC_BREAK_IF(_cpSpace == nullptr);
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cpSpaceSetGravity(_cpSpace, PhysicsHelper::vec22cpv(_gravity));
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cpCollisionHandler* handler = cpSpaceAddDefaultCollisionHandler(_cpSpace);
handler->userData = this;
handler->beginFunc = (cpCollisionBeginFunc)PhysicsWorldCallback::collisionBeginCallbackFunc;
handler->preSolveFunc = (cpCollisionPreSolveFunc)PhysicsWorldCallback::collisionPreSolveCallbackFunc;
handler->postSolveFunc = (cpCollisionPostSolveFunc)PhysicsWorldCallback::collisionPostSolveCallbackFunc;
handler->separateFunc = (cpCollisionSeparateFunc)PhysicsWorldCallback::collisionSeparateCallbackFunc;
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return true;
} while (false);
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return false;
}
void PhysicsWorld::addBody(PhysicsBody* body)
{
CCASSERT(body != nullptr, "the body can not be nullptr");
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if (body->getWorld() == this)
{
return;
}
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if (body->getWorld() != nullptr)
{
body->removeFromWorld();
}
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addBodyOrDelay(body);
_bodies.pushBack(body);
body->_world = this;
}
void PhysicsWorld::doAddBody(PhysicsBody* body)
{
if (body->isEnabled())
{
// add body to space
if (!cpSpaceContainsBody(_cpSpace, body->_cpBody))
{
cpSpaceAddBody(_cpSpace, body->_cpBody);
}
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// add shapes to space
for (auto& shape : body->getShapes())
{
addShape(dynamic_cast<PhysicsShape*>(shape));
}
}
}
void PhysicsWorld::addBodyOrDelay(PhysicsBody* body)
{
auto removeBodyIter = _delayRemoveBodies.find(body);
if (removeBodyIter != _delayRemoveBodies.end())
{
_delayRemoveBodies.erase(removeBodyIter);
return;
}
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if (_delayAddBodies.find(body) == _delayAddBodies.end())
{
_delayAddBodies.pushBack(body);
}
}
void PhysicsWorld::updateBodies()
{
if (cpSpaceIsLocked(_cpSpace))
{
return;
}
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// issue #4944, contact callback will be invoked when add/remove body, _delayAddBodies maybe changed, so we need
// make a copy.
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auto addCopy = _delayAddBodies;
_delayAddBodies.clear();
for (auto& body : addCopy)
{
doAddBody(body);
}
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auto removeCopy = _delayRemoveBodies;
_delayRemoveBodies.clear();
for (auto& body : removeCopy)
{
doRemoveBody(body);
}
}
void PhysicsWorld::removeBody(int tag)
{
for (auto& body : _bodies)
{
if (body->getTag() == tag)
{
removeBody(body);
return;
}
}
}
void PhysicsWorld::removeBody(PhysicsBody* body)
{
if (body->getWorld() != this)
{
CCLOG("Physics Warning: this body doesn't belong to this world");
return;
}
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// destroy the body's joints
auto removeCopy = body->_joints;
for (auto joint : removeCopy)
{
removeJoint(joint, true);
}
body->_joints.clear();
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removeBodyOrDelay(body);
_bodies.eraseObject(body);
body->_world = nullptr;
}
void PhysicsWorld::removeBodyOrDelay(PhysicsBody* body)
{
if (_delayAddBodies.getIndex(body) != CC_INVALID_INDEX)
{
_delayAddBodies.eraseObject(body);
return;
}
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if (cpSpaceIsLocked(_cpSpace))
{
if (_delayRemoveBodies.getIndex(body) == CC_INVALID_INDEX)
{
_delayRemoveBodies.pushBack(body);
}
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}
else
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{
doRemoveBody(body);
}
}
void PhysicsWorld::removeJoint(PhysicsJoint* joint, bool destroy)
{
if (joint)
{
if (joint->getWorld() != this && destroy)
{
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CCLOG(
"physics warning: the joint is not in this world, it won't be destroyed until the body it connects is "
"destroyed");
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return;
}
joint->_destroyMark = destroy;
bool removedFromDelayAdd = false;
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auto it = std::find(_delayAddJoints.begin(), _delayAddJoints.end(), joint);
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if (it != _delayAddJoints.end())
{
_delayAddJoints.erase(it);
removedFromDelayAdd = true;
}
if (cpSpaceIsLocked(_cpSpace))
{
if (removedFromDelayAdd)
return;
if (std::find(_delayRemoveJoints.rbegin(), _delayRemoveJoints.rend(), joint) == _delayRemoveJoints.rend())
{
_delayRemoveJoints.push_back(joint);
}
}
else
{
doRemoveJoint(joint);
}
}
}
void PhysicsWorld::updateJoints()
{
if (cpSpaceIsLocked(_cpSpace))
{
return;
}
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for (auto joint : _delayAddJoints)
{
joint->_world = this;
if (joint->initJoint())
{
_joints.push_back(joint);
}
else
{
delete joint;
}
}
_delayAddJoints.clear();
for (auto joint : _delayRemoveJoints)
{
doRemoveJoint(joint);
}
_delayRemoveJoints.clear();
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for (auto joint : _joints)
{
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joint->flushDelayTasks();
}
}
void PhysicsWorld::removeShape(PhysicsShape* shape)
{
if (shape)
{
for (auto cps : shape->_cpShapes)
{
if (cpSpaceContainsShape(_cpSpace, cps))
{
cpSpaceRemoveShape(_cpSpace, cps);
}
}
}
}
void PhysicsWorld::addJoint(PhysicsJoint* joint)
{
if (joint)
{
CCASSERT(joint->getWorld() == nullptr, "Can not add joint already add to other world!");
joint->_world = this;
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auto it = std::find(_delayRemoveJoints.begin(), _delayRemoveJoints.end(), joint);
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if (it != _delayRemoveJoints.end())
{
_delayRemoveJoints.erase(it);
return;
}
if (std::find(_delayAddJoints.begin(), _delayAddJoints.end(), joint) == _delayAddJoints.end())
{
_delayAddJoints.push_back(joint);
}
}
}
void PhysicsWorld::removeAllJoints(bool destroy)
{
auto removeCopy = _joints;
for (auto joint : removeCopy)
{
removeJoint(joint, destroy);
}
}
void PhysicsWorld::addShape(PhysicsShape* physicsShape)
{
if (physicsShape)
{
for (auto shape : physicsShape->_cpShapes)
{
cpSpaceAddShape(_cpSpace, shape);
}
}
}
void PhysicsWorld::doRemoveBody(PhysicsBody* body)
{
CCASSERT(body != nullptr, "the body can not be nullptr");
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// remove shapes
for (auto& shape : body->getShapes())
{
removeShape(shape);
}
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// remove body
if (cpSpaceContainsBody(_cpSpace, body->_cpBody))
{
cpSpaceRemoveBody(_cpSpace, body->_cpBody);
}
}
void PhysicsWorld::doRemoveJoint(PhysicsJoint* joint)
{
for (auto constraint : joint->_cpConstraints)
{
cpSpaceRemoveConstraint(_cpSpace, constraint);
}
_joints.remove(joint);
joint->_world = nullptr;
if (joint->getBodyA())
{
joint->getBodyA()->removeJoint(joint);
}
if (joint->getBodyB())
{
joint->getBodyB()->removeJoint(joint);
}
if (joint->_destroyMark)
{
delete joint;
}
}
void PhysicsWorld::removeAllBodies()
{
for (auto& child : _bodies)
{
removeBodyOrDelay(child);
child->_world = nullptr;
}
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_bodies.clear();
}
void PhysicsWorld::setDebugDrawMask(int mask)
{
if (mask == DEBUGDRAW_NONE && _debugDraw)
{
_debugDraw->removeFromParent();
CC_SAFE_RELEASE_NULL(_debugDraw);
}
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_debugDrawMask = mask;
}
const Vector<PhysicsBody*>& PhysicsWorld::getAllBodies() const
{
return _bodies;
}
PhysicsBody* PhysicsWorld::getBody(int tag) const
{
for (auto& body : _bodies)
{
if (body->getTag() == tag)
{
return body;
}
}
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return nullptr;
}
void PhysicsWorld::setGravity(const Vec2& gravity)
{
_gravity = gravity;
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cpSpaceSetGravity(_cpSpace, PhysicsHelper::vec22cpv(gravity));
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}
void PhysicsWorld::setSubsteps(int steps)
{
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if (steps > 0)
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{
_substeps = steps;
if (steps > 1)
{
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_updateRate = 1;
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}
}
}
void PhysicsWorld::step(float delta)
{
if (_autoStep)
{
CCLOG("Physics Warning: You need to close auto step( setAutoStep(false) ) first");
}
else
{
update(delta, true);
}
}
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void PhysicsWorld::update(float delta, bool userCall /* = false*/)
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{
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if (_preUpdateCallback)
_preUpdateCallback(); // fix #11154
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if (!_delayAddBodies.empty())
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{
updateBodies();
}
else if (!_delayRemoveBodies.empty())
{
updateBodies();
}
auto sceneToWorldTransform = _scene->getNodeToParentTransform();
beforeSimulation(_scene, sceneToWorldTransform, 1.f, 1.f, 0.f);
if (!_delayAddJoints.empty() || !_delayRemoveJoints.empty())
{
updateJoints();
}
if (delta < FLT_EPSILON)
{
return;
}
if (userCall)
{
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# if CC_TARGET_PLATFORM == CC_PLATFORM_WIN32
cpSpaceStep(_cpSpace, delta);
# else
cpHastySpaceStep(_cpSpace, delta);
# endif
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}
else
{
_updateTime += delta;
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if (_fixedRate)
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{
const float step = 1.0f / _fixedRate;
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const float dt = step * _speed;
while (_updateTime > step)
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{
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_updateTime -= step;
# if CC_TARGET_PLATFORM == CC_PLATFORM_WIN32
cpSpaceStep(_cpSpace, dt);
# else
cpHastySpaceStep(_cpSpace, dt);
# endif
}
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}
else
{
if (++_updateRateCount >= _updateRate)
{
const float dt = _updateTime * _speed / _substeps;
for (int i = 0; i < _substeps; ++i)
{
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# if CC_TARGET_PLATFORM == CC_PLATFORM_WIN32
cpSpaceStep(_cpSpace, dt);
# else
cpHastySpaceStep(_cpSpace, dt);
# endif
for (auto& body : _bodies)
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{
body->update(dt);
}
}
_updateRateCount = 0;
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_updateTime = 0.0f;
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}
}
}
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if (_debugDrawMask != DEBUGDRAW_NONE)
{
debugDraw();
}
// Update physics position, should loop as the same sequence as node tree.
// PhysicsWorld::afterSimulation() will depend on the sequence.
afterSimulation(_scene, sceneToWorldTransform, 0.f);
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if (_postUpdateCallback)
_postUpdateCallback(); // fix #11154
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}
PhysicsWorld* PhysicsWorld::construct(Scene* scene)
{
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PhysicsWorld* world = new PhysicsWorld();
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if (world->init())
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{
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world->_scene = scene;
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world->_eventDispatcher = scene->getEventDispatcher();
return world;
}
CC_SAFE_DELETE(world);
return nullptr;
}
PhysicsWorld::PhysicsWorld()
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: _gravity(Vec2(0.0f, -98.0f))
, _speed(1.0f)
, _updateRate(1)
, _updateRateCount(0)
, _updateTime(0.0f)
, _substeps(1)
, _fixedRate(0)
, _cpSpace(nullptr)
, _updateBodyTransform(false)
, _scene(nullptr)
, _autoStep(true)
, _debugDraw(nullptr)
, _debugDrawMask(DEBUGDRAW_NONE)
, _eventDispatcher(nullptr)
{}
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PhysicsWorld::~PhysicsWorld()
{
removeAllJoints(true);
removeAllBodies();
if (_cpSpace)
{
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# if CC_TARGET_PLATFORM == CC_PLATFORM_WIN32
cpSpaceFree(_cpSpace);
# else
cpHastySpaceFree(_cpSpace);
# endif
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}
CC_SAFE_RELEASE_NULL(_debugDraw);
}
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void PhysicsWorld::beforeSimulation(Node* node,
const Mat4& parentToWorldTransform,
float nodeParentScaleX,
float nodeParentScaleY,
float parentRotation)
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{
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auto scaleX = nodeParentScaleX * node->getScaleX();
auto scaleY = nodeParentScaleY * node->getScaleY();
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auto rotation = parentRotation + node->getRotation();
auto nodeToWorldTransform = parentToWorldTransform * node->getNodeToParentTransform();
auto physicsBody = node->getPhysicsBody();
if (physicsBody)
{
physicsBody->beforeSimulation(parentToWorldTransform, nodeToWorldTransform, scaleX, scaleY, rotation);
}
for (auto child : node->getChildren())
beforeSimulation(child, nodeToWorldTransform, scaleX, scaleY, rotation);
}
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void PhysicsWorld::afterSimulation(Node* node, const Mat4& parentToWorldTransform, float parentRotation)
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{
auto nodeToWorldTransform = parentToWorldTransform * node->getNodeToParentTransform();
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auto nodeRotation = parentRotation + node->getRotation();
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auto physicsBody = node->getPhysicsBody();
if (physicsBody)
{
physicsBody->afterSimulation(parentToWorldTransform, parentRotation);
}
for (auto child : node->getChildren())
afterSimulation(child, nodeToWorldTransform, nodeRotation);
}
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void PhysicsWorld::setPostUpdateCallback(const std::function<void()>& callback)
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{
_postUpdateCallback = callback;
}
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void PhysicsWorld::setPreUpdateCallback(const std::function<void()>& callback)
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{
_preUpdateCallback = callback;
}
NS_CC_END
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#endif // CC_USE_PHYSICS