ffcdb0f93d
BulletMultiThreaded support function for box shouldn't compensate for the collision margin anymore
199 lines
6.5 KiB
C++
199 lines
6.5 KiB
C++
/*
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Bullet Continuous Collision Detection and Physics Library
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Copyright (c) 2003-2006 Erwin Coumans http://continuousphysics.com/Bullet/
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This software is provided 'as-is', without any express or implied warranty.
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In no event will the authors be held liable for any damages arising from the use of this software.
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Permission is granted to anyone to use this software for any purpose,
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including commercial applications, and to alter it and redistribute it freely,
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subject to the following restrictions:
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1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required.
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2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.
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3. This notice may not be removed or altered from any source distribution.
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*/
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#include "SpuContactResult.h"
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//#define DEBUG_SPU_COLLISION_DETECTION 1
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SpuContactResult::SpuContactResult()
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{
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m_manifoldAddress = 0;
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m_spuManifold = NULL;
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m_RequiresWriteBack = false;
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}
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SpuContactResult::~SpuContactResult()
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{
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g_manifoldDmaExport.swapBuffers();
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}
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void SpuContactResult::setContactInfo(btPersistentManifold* spuManifold, uint64_t manifoldAddress,const btTransform& worldTrans0,const btTransform& worldTrans1, bool isSwapped)
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{
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//spu_printf("SpuContactResult::setContactInfo ManifoldAddress: %lu\n", manifoldAddress);
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m_rootWorldTransform0 = worldTrans0;
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m_rootWorldTransform1 = worldTrans1;
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m_manifoldAddress = manifoldAddress;
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m_spuManifold = spuManifold;
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m_isSwapped = isSwapped;
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}
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void SpuContactResult::setShapeIdentifiers(int partId0,int index0, int partId1,int index1)
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{
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}
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///return true if it requires a dma transfer back
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bool ManifoldResultAddContactPoint(const btVector3& normalOnBInWorld,
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const btVector3& pointInWorld,
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float depth,
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btPersistentManifold* manifoldPtr,
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btTransform& transA,
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btTransform& transB,
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bool isSwapped)
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{
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float contactTreshold = manifoldPtr->getContactBreakingThreshold();
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//spu_printf("SPU: add contactpoint, depth:%f, contactTreshold %f, manifoldPtr %llx\n",depth,contactTreshold,manifoldPtr);
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#ifdef DEBUG_SPU_COLLISION_DETECTION
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spu_printf("SPU: contactTreshold %f\n",contactTreshold);
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#endif //DEBUG_SPU_COLLISION_DETECTION
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if (depth > manifoldPtr->getContactBreakingThreshold())
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return false;
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//provide inverses or just calculate?
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btTransform transAInv = transA.inverse();//m_body0->m_cachedInvertedWorldTransform;
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btTransform transBInv= transB.inverse();//m_body1->m_cachedInvertedWorldTransform;
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btVector3 pointA;
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btVector3 localA;
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btVector3 localB;
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btVector3 normal;
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if (isSwapped)
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{
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normal = normalOnBInWorld * -1;
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pointA = pointInWorld + normal * depth;
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localA = transAInv(pointA );
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localB = transBInv(pointInWorld);
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/*localA = transBInv(pointA );
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localB = transAInv(pointInWorld);*/
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}
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else
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{
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normal = normalOnBInWorld;
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pointA = pointInWorld + normal * depth;
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localA = transAInv(pointA );
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localB = transBInv(pointInWorld);
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}
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btManifoldPoint newPt(localA,localB,normal,depth);
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int insertIndex = manifoldPtr->getCacheEntry(newPt);
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if (insertIndex >= 0)
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{
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// manifoldPtr->replaceContactPoint(newPt,insertIndex);
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// return true;
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#ifdef DEBUG_SPU_COLLISION_DETECTION
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spu_printf("SPU: same contact detected, nothing done\n");
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#endif //DEBUG_SPU_COLLISION_DETECTION
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// This is not needed, just use the old info! saves a DMA transfer as well
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} else
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{
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newPt.m_combinedFriction = 0.25f;//calculateCombinedFriction(m_body0,m_body1);
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newPt.m_combinedRestitution = 0.0f;//calculateCombinedRestitution(m_body0,m_body1);
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/*
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//potential TODO: SPU callbacks, either immediate (local on the SPU), or deferred
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//User can override friction and/or restitution
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if (gContactAddedCallback &&
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//and if either of the two bodies requires custom material
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((m_body0->m_collisionFlags & btCollisionObject::customMaterialCallback) ||
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(m_body1->m_collisionFlags & btCollisionObject::customMaterialCallback)))
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{
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//experimental feature info, for per-triangle material etc.
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(*gContactAddedCallback)(newPt,m_body0,m_partId0,m_index0,m_body1,m_partId1,m_index1);
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}
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*/
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manifoldPtr->AddManifoldPoint(newPt);
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return true;
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}
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return false;
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}
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void SpuContactResult::writeDoubleBufferedManifold(btPersistentManifold* lsManifold, btPersistentManifold* mmManifold)
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{
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memcpy(g_manifoldDmaExport.getFront(),lsManifold,sizeof(btPersistentManifold));
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g_manifoldDmaExport.swapBuffers();
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g_manifoldDmaExport.backBufferDmaPut((uint64_t)mmManifold, sizeof(btPersistentManifold), DMA_TAG(9));
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// Should there be any kind of wait here? What if somebody tries to use this tag again? What if we call this function again really soon?
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//no, the swapBuffers does the wait
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}
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void SpuContactResult::addContactPoint(const btVector3& normalOnBInWorld,const btPoint3& pointInWorld,float depth)
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{
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//spu_printf("*** SpuContactResult::addContactPoint: depth = %f\n",depth);
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#ifdef DEBUG_SPU_COLLISION_DETECTION
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// int sman = sizeof(rage::phManifold);
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// spu_printf("sizeof_manifold = %i\n",sman);
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#endif //DEBUG_SPU_COLLISION_DETECTION
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btPersistentManifold* localManifold = m_spuManifold;
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btVector3 normalB(normalOnBInWorld.getX(),normalOnBInWorld.getY(),normalOnBInWorld.getZ());
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btVector3 pointWrld(pointInWorld.getX(),pointInWorld.getY(),pointInWorld.getZ());
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//process the contact point
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const bool retVal = ManifoldResultAddContactPoint(normalB,
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pointWrld,
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depth,
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localManifold,
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m_rootWorldTransform0,
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m_rootWorldTransform1,
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m_isSwapped);
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m_RequiresWriteBack = m_RequiresWriteBack || retVal;
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}
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void SpuContactResult::flush()
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{
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if (m_spuManifold && m_spuManifold->getNumContacts())
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{
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m_spuManifold->refreshContactPoints(m_rootWorldTransform0,m_rootWorldTransform1);
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m_RequiresWriteBack = true;
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}
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if (m_RequiresWriteBack)
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{
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#ifdef DEBUG_SPU_COLLISION_DETECTION
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spu_printf("SPU: Start SpuContactResult::flush (Put) DMA\n");
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spu_printf("Num contacts:%d\n", m_spuManifold->getNumContacts());
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spu_printf("Manifold address: %llu\n", m_manifoldAddress);
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#endif //DEBUG_SPU_COLLISION_DETECTION
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// spu_printf("writeDoubleBufferedManifold\n");
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writeDoubleBufferedManifold(m_spuManifold, (btPersistentManifold*)m_manifoldAddress);
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#ifdef DEBUG_SPU_COLLISION_DETECTION
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spu_printf("SPU: Finished (Put) DMA\n");
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#endif //DEBUG_SPU_COLLISION_DETECTION
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}
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m_spuManifold = NULL;
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m_RequiresWriteBack = false;
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}
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