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Demos/CommonRigidBodySetup.h
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233
Demos/CommonRigidBodySetup.h
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#ifndef COMMON_RIGID_BODY_SETUP_H
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#define COMMON_RIGID_BODY_SETUP_H
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//todo: replace this 'btBulletDynamicsCommon.h' header with specific used header files
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#include "btBulletDynamicsCommon.h"
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#include "CommonPhysicsSetup.h"
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struct CommonRigidBodySetup : public CommonPhysicsSetup
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{
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//keep the collision shapes, for deletion/cleanup
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btAlignedObjectArray<btCollisionShape*> m_collisionShapes;
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btBroadphaseInterface* m_broadphase;
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btCollisionDispatcher* m_dispatcher;
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btConstraintSolver* m_solver;
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btDefaultCollisionConfiguration* m_collisionConfiguration;
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btDiscreteDynamicsWorld* m_dynamicsWorld;
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//data for picking objects
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class btRigidBody* m_pickedBody;
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class btTypedConstraint* m_pickedConstraint;
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btVector3 m_oldPickingPos;
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btVector3 m_hitPos;
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btScalar m_oldPickingDist;
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CommonRigidBodySetup()
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:m_broadphase(0),
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m_dispatcher(0),
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m_solver(0),
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m_collisionConfiguration(0),
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m_dynamicsWorld(0),
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m_pickedBody(0),
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m_pickedConstraint(0)
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{
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}
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virtual void createEmptyDynamicsWorld()
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{
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///collision configuration contains default setup for memory, collision setup
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m_collisionConfiguration = new btDefaultCollisionConfiguration();
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//m_collisionConfiguration->setConvexConvexMultipointIterations();
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///use the default collision dispatcher. For parallel processing you can use a diffent dispatcher (see Extras/BulletMultiThreaded)
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m_dispatcher = new btCollisionDispatcher(m_collisionConfiguration);
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m_broadphase = new btDbvtBroadphase();
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///the default constraint solver. For parallel processing you can use a different solver (see Extras/BulletMultiThreaded)
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btSequentialImpulseConstraintSolver* sol = new btSequentialImpulseConstraintSolver;
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m_solver = sol;
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m_dynamicsWorld = new btDiscreteDynamicsWorld(m_dispatcher, m_broadphase, m_solver, m_collisionConfiguration);
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m_dynamicsWorld->setGravity(btVector3(0, -10, 0));
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}
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virtual void stepSimulation(float deltaTime)
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{
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if (m_dynamicsWorld)
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{
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m_dynamicsWorld->stepSimulation(deltaTime);
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}
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}
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virtual void exitPhysics()
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{
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removePickingConstraint();
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//cleanup in the reverse order of creation/initialization
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//remove the rigidbodies from the dynamics world and delete them
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int i;
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if (m_dynamicsWorld)
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{
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for (i = m_dynamicsWorld->getNumCollisionObjects() - 1; i >= 0; i--)
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{
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btCollisionObject* obj = m_dynamicsWorld->getCollisionObjectArray()[i];
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btRigidBody* body = btRigidBody::upcast(obj);
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if (body && body->getMotionState())
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{
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delete body->getMotionState();
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}
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m_dynamicsWorld->removeCollisionObject(obj);
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delete obj;
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}
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}
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//delete collision shapes
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for (int j = 0; j<m_collisionShapes.size(); j++)
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{
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btCollisionShape* shape = m_collisionShapes[j];
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delete shape;
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}
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m_collisionShapes.clear();
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delete m_dynamicsWorld;
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delete m_solver;
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delete m_broadphase;
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delete m_dispatcher;
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delete m_collisionConfiguration;
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}
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virtual void syncPhysicsToGraphics(GraphicsPhysicsBridge& gfxBridge)
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{
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if (m_dynamicsWorld)
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{
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gfxBridge.syncPhysicsToGraphics(m_dynamicsWorld);
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}
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}
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virtual bool pickBody(const btVector3& rayFromWorld, const btVector3& rayToWorld)
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{
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if (m_dynamicsWorld==0)
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return false;
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btCollisionWorld::ClosestRayResultCallback rayCallback(rayFromWorld, rayToWorld);
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m_dynamicsWorld->rayTest(rayFromWorld, rayToWorld, rayCallback);
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if (rayCallback.hasHit())
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{
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btVector3 pickPos = rayCallback.m_hitPointWorld;
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btRigidBody* body = (btRigidBody*)btRigidBody::upcast(rayCallback.m_collisionObject);
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if (body)
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{
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//other exclusions?
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if (!(body->isStaticObject() || body->isKinematicObject()))
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{
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m_pickedBody = body;
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m_pickedBody->setActivationState(DISABLE_DEACTIVATION);
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//printf("pickPos=%f,%f,%f\n",pickPos.getX(),pickPos.getY(),pickPos.getZ());
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btVector3 localPivot = body->getCenterOfMassTransform().inverse() * pickPos;
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btPoint2PointConstraint* p2p = new btPoint2PointConstraint(*body, localPivot);
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m_dynamicsWorld->addConstraint(p2p, true);
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m_pickedConstraint = p2p;
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btScalar mousePickClamping = 30.f;
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p2p->m_setting.m_impulseClamp = mousePickClamping;
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//very weak constraint for picking
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p2p->m_setting.m_tau = 0.001f;
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}
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}
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// pickObject(pickPos, rayCallback.m_collisionObject);
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m_oldPickingPos = rayToWorld;
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m_hitPos = pickPos;
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m_oldPickingDist = (pickPos - rayFromWorld).length();
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// printf("hit !\n");
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//add p2p
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}
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return false;
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}
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virtual bool movePickedBody(const btVector3& rayFromWorld, const btVector3& rayToWorld)
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{
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if (m_pickedBody && m_pickedConstraint)
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{
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btPoint2PointConstraint* pickCon = static_cast<btPoint2PointConstraint*>(m_pickedConstraint);
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if (pickCon)
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{
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//keep it at the same picking distance
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btVector3 newPivotB;
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btVector3 dir = rayToWorld - rayFromWorld;
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dir.normalize();
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dir *= m_oldPickingDist;
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newPivotB = rayFromWorld + dir;
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pickCon->setPivotB(newPivotB);
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return true;
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}
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}
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return false;
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}
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virtual void removePickingConstraint()
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{
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if (m_pickedConstraint)
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{
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m_dynamicsWorld->removeConstraint(m_pickedConstraint);
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delete m_pickedConstraint;
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m_pickedConstraint = 0;
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m_pickedBody = 0;
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}
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}
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btBoxShape* createBoxShape(const btVector3& halfExtents)
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{
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btBoxShape* box = new btBoxShape(halfExtents);
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return box;
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}
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btRigidBody* createRigidBody(float mass, const btTransform& startTransform, btCollisionShape* shape, const btVector4& color = btVector4(1, 0, 0, 1))
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{
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btAssert((!shape || shape->getShapeType() != INVALID_SHAPE_PROXYTYPE));
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//rigidbody is dynamic if and only if mass is non zero, otherwise static
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bool isDynamic = (mass != 0.f);
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btVector3 localInertia(0, 0, 0);
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if (isDynamic)
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shape->calculateLocalInertia(mass, localInertia);
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//using motionstate is recommended, it provides interpolation capabilities, and only synchronizes 'active' objects
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#define USE_MOTIONSTATE 1
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#ifdef USE_MOTIONSTATE
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btDefaultMotionState* myMotionState = new btDefaultMotionState(startTransform);
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btRigidBody::btRigidBodyConstructionInfo cInfo(mass, myMotionState, shape, localInertia);
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btRigidBody* body = new btRigidBody(cInfo);
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//body->setContactProcessingThreshold(m_defaultContactProcessingThreshold);
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#else
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btRigidBody* body = new btRigidBody(mass, 0, shape, localInertia);
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body->setWorldTransform(startTransform);
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#endif//
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body->setUserIndex(-1);
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m_dynamicsWorld->addRigidBody(body);
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return body;
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}
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};
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#endif //COMMON_RIGID_BODY_SETUP_H
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