Exemplo n.º 1
0
	virtual void processNode(int nodeSubPart, int nodeShapeIndex)
	{
		const btCompoundShape* compoundShape = static_cast<const btCompoundShape*>(m_compoundCollider.getCollisionShape());
		const btCollisionShape* childShape = compoundShape->getChildShape(nodeShapeIndex);

		//backup
		btTransform	orgTrans = m_compoundCollider.getWorldTransform();
		const btTransform& childTrans = compoundShape->getChildTransform(nodeShapeIndex);
		btTransform	newChildWorldTrans = orgTrans*childTrans ;

		//the contactpoint is still projected back using the original inverted worldtrans
		btCollider childCollider(&m_compoundCollider, childShape,m_compoundCollider.getCollisionObject(), newChildWorldTrans);

		if (!m_childCollisionAlgorithms[nodeShapeIndex])
			m_childCollisionAlgorithms[nodeShapeIndex] = m_dispatcher->findAlgorithm(&childCollider,&m_collidingObj,m_sharedManifold);

		///detect swapping case
		if (m_resultOut->getBody0Internal() == m_compoundCollider.getCollisionObject())
		{
			m_resultOut->setShapeIdentifiersA(-1,nodeShapeIndex);
		} else
		{
			m_resultOut->setShapeIdentifiersB(-1,nodeShapeIndex);
		}
		btCollisionProcessInfo processInfo(childCollider, m_collidingObj, m_dispatchInfo, m_resultOut, m_dispatcher);
		m_childCollisionAlgorithms[nodeShapeIndex]->processCollision(processInfo);
	}
	void	ProcessChildShape(btCollisionShape* childShape,int index)
	{
		
		btCompoundShape* compoundShape = static_cast<btCompoundShape*>(m_compoundColObj->getCollisionShape());


		//backup
		btTransform	orgTrans = m_compoundColObj->getWorldTransform();
		btTransform	orgInterpolationTrans = m_compoundColObj->getInterpolationWorldTransform();
		const btTransform& childTrans = compoundShape->getChildTransform(index);
		btTransform	newChildWorldTrans = orgTrans*childTrans ;

		//perform an AABB check first
		btVector3 aabbMin0,aabbMax0,aabbMin1,aabbMax1;
		childShape->getAabb(newChildWorldTrans,aabbMin0,aabbMax0);
		m_otherObj->getCollisionShape()->getAabb(m_otherObj->getWorldTransform(),aabbMin1,aabbMax1);

		if (TestAabbAgainstAabb2(aabbMin0,aabbMax0,aabbMin1,aabbMax1))
		{

			m_compoundColObj->setWorldTransform( newChildWorldTrans);
			m_compoundColObj->setInterpolationWorldTransform(newChildWorldTrans);

			//the contactpoint is still projected back using the original inverted worldtrans
			btCollisionShape* tmpShape = m_compoundColObj->getCollisionShape();
			m_compoundColObj->internalSetTemporaryCollisionShape( childShape );

			if (!m_childCollisionAlgorithms[index])
				m_childCollisionAlgorithms[index] = m_dispatcher->findAlgorithm(m_compoundColObj,m_otherObj,m_sharedManifold);

			///detect swapping case
			if (m_resultOut->getBody0Internal() == m_compoundColObj)
			{
				m_resultOut->setShapeIdentifiersA(-1,index);
			} else
			{
				m_resultOut->setShapeIdentifiersB(-1,index);
			}

			m_childCollisionAlgorithms[index]->processCollision(m_compoundColObj,m_otherObj,m_dispatchInfo,m_resultOut);
			if (m_dispatchInfo.m_debugDraw && (m_dispatchInfo.m_debugDraw->getDebugMode() & btIDebugDraw::DBG_DrawAabb))
			{
				btVector3 worldAabbMin,worldAabbMax;
				m_dispatchInfo.m_debugDraw->drawAabb(aabbMin0,aabbMax0,btVector3(1,1,1));
				m_dispatchInfo.m_debugDraw->drawAabb(aabbMin1,aabbMax1,btVector3(1,1,1));
			}
			
			//revert back transform
			m_compoundColObj->internalSetTemporaryCollisionShape( tmpShape);
			m_compoundColObj->setWorldTransform(  orgTrans );
			m_compoundColObj->setInterpolationWorldTransform(orgInterpolationTrans);
		}
	}
Exemplo n.º 3
0
	void	ProcessChildShape(const btCollisionShape* childShape,int index)
	{
		btAssert(index>=0);
		const btCompoundShape* compoundShape = static_cast<const btCompoundShape*>(m_compoundColObj->getCollisionShape());
		btAssert(index<compoundShape->getNumChildShapes());


		//backup
		btTransform	orgTrans = m_compoundColObj->getWorldTransform();
		const btTransform& childTrans = compoundShape->getChildTransform(index);
		btTransform	newChildWorldTrans = orgTrans*childTrans ;

		//perform an AABB check first
		btVector3 aabbMin0,aabbMax0,aabbMin1,aabbMax1;
		childShape->getAabb(newChildWorldTrans,aabbMin0,aabbMax0);
		m_otherObj->getCollisionShape()->getAabb(m_otherObj->getWorldTransform(),aabbMin1,aabbMax1);

		if (TestAabbAgainstAabb2(aabbMin0,aabbMax0,aabbMin1,aabbMax1))
		{
			//the contactpoint is still projected back using the original inverted worldtrans
			btCollider childCollider(m_compoundColObj, childShape, m_compoundColObj->getCollisionObject(), newChildWorldTrans);

			if (!m_childCollisionAlgorithms[index])
				m_childCollisionAlgorithms[index] = m_dispatcher->findAlgorithm(&childCollider,m_otherObj,m_sharedManifold);

			///detect swapping case
			if (m_resultOut->getBody0Internal() == m_compoundColObj->getCollisionObject())
			{
				m_resultOut->setShapeIdentifiersA(-1,index);
			} else
			{
				m_resultOut->setShapeIdentifiersB(-1,index);
			}
			btCollisionProcessInfo processInfo(childCollider, *m_otherObj, m_dispatchInfo, m_resultOut, m_dispatcher);
			m_childCollisionAlgorithms[index]->processCollision(processInfo);

			if (m_dispatchInfo.m_debugDraw && (m_dispatchInfo.m_debugDraw->getDebugMode() & btIDebugDraw::DBG_DrawAabb))
			{
				btVector3 worldAabbMin,worldAabbMax;
				m_dispatchInfo.m_debugDraw->drawAabb(aabbMin0,aabbMax0,btVector3(1,1,1));
				m_dispatchInfo.m_debugDraw->drawAabb(aabbMin1,aabbMax1,btVector3(1,1,1));
			}
		}
	}
	void	ProcessChildShape(const btCollisionShape* childShape,int index)
	{
		btAssert(index>=0);
		const btCompoundShape* compoundShape = static_cast<const btCompoundShape*>(m_compoundColObjWrap->getCollisionShape());
		btAssert(index<compoundShape->getNumChildShapes());


		//backup
		btTransform	orgTrans = m_compoundColObjWrap->getWorldTransform();
		
		const btTransform& childTrans = compoundShape->getChildTransform(index);
		btTransform	newChildWorldTrans = orgTrans*childTrans ;

		//perform an AABB check first
		btVector3 aabbMin0,aabbMax0,aabbMin1,aabbMax1;
		childShape->getAabb(newChildWorldTrans,aabbMin0,aabbMax0);
		m_otherObjWrap->getCollisionShape()->getAabb(m_otherObjWrap->getWorldTransform(),aabbMin1,aabbMax1);

		if (gCompoundChildShapePairCallback)
		{
			if (!gCompoundChildShapePairCallback(m_otherObjWrap->getCollisionShape(), childShape))
				return;
		}

		if (TestAabbAgainstAabb2(aabbMin0,aabbMax0,aabbMin1,aabbMax1))
		{

			btCollisionObjectWrapper compoundWrap(this->m_compoundColObjWrap,childShape,m_compoundColObjWrap->getCollisionObject(),newChildWorldTrans,-1,index);


			//the contactpoint is still projected back using the original inverted worldtrans
			if (!m_childCollisionAlgorithms[index])
				m_childCollisionAlgorithms[index] = m_dispatcher->findAlgorithm(&compoundWrap,m_otherObjWrap,m_sharedManifold);

			
			const btCollisionObjectWrapper* tmpWrap = 0;

			///detect swapping case
			if (m_resultOut->getBody0Internal() == m_compoundColObjWrap->getCollisionObject())
			{
				tmpWrap = m_resultOut->getBody0Wrap();
				m_resultOut->setBody0Wrap(&compoundWrap);
				m_resultOut->setShapeIdentifiersA(-1,index);
			} else
			{
				tmpWrap = m_resultOut->getBody1Wrap();
				m_resultOut->setBody1Wrap(&compoundWrap);
				m_resultOut->setShapeIdentifiersB(-1,index);
			}


			m_childCollisionAlgorithms[index]->processCollision(&compoundWrap,m_otherObjWrap,m_dispatchInfo,m_resultOut);

#if 0
			if (m_dispatchInfo.m_debugDraw && (m_dispatchInfo.m_debugDraw->getDebugMode() & btIDebugDraw::DBG_DrawAabb))
			{
				btVector3 worldAabbMin,worldAabbMax;
				m_dispatchInfo.m_debugDraw->drawAabb(aabbMin0,aabbMax0,btVector3(1,1,1));
				m_dispatchInfo.m_debugDraw->drawAabb(aabbMin1,aabbMax1,btVector3(1,1,1));
			}
#endif

			if (m_resultOut->getBody0Internal() == m_compoundColObjWrap->getCollisionObject())
			{
				m_resultOut->setBody0Wrap(tmpWrap);
			} else
			{
				m_resultOut->setBody1Wrap(tmpWrap);
			}
			
		}
	}