mirror of
https://github.com/bulletphysics/bullet3
synced 2024-12-17 15:01:06 +00:00
c0c4c8ba3f
remove btMultiSapBroadphase.* make collisionFilterGroup/collisionFilterMark int (instead of short int)
362 lines
12 KiB
C++
362 lines
12 KiB
C++
/*
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Bullet Continuous Collision Detection and Physics Library
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Copyright (c) 2003-2012 Erwin Coumans http://bulletphysics.org
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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 "btBulletWorldImporter.h"
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#include "../BulletFileLoader/btBulletFile.h"
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#include "btBulletDynamicsCommon.h"
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#ifndef USE_GIMPACT
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#include "BulletCollision/Gimpact/btGImpactShape.h"
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#endif
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//#define USE_INTERNAL_EDGE_UTILITY
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#ifdef USE_INTERNAL_EDGE_UTILITY
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#include "BulletCollision/CollisionDispatch/btInternalEdgeUtility.h"
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#endif //USE_INTERNAL_EDGE_UTILITY
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btBulletWorldImporter::btBulletWorldImporter(btDynamicsWorld* world)
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:btWorldImporter(world)
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{
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}
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btBulletWorldImporter::~btBulletWorldImporter()
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{
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}
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bool btBulletWorldImporter::loadFile( const char* fileName, const char* preSwapFilenameOut)
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{
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bParse::btBulletFile* bulletFile2 = new bParse::btBulletFile(fileName);
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bool result = loadFileFromMemory(bulletFile2);
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//now you could save the file in 'native' format using
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//bulletFile2->writeFile("native.bullet");
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if (result)
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{
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if (preSwapFilenameOut)
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{
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bulletFile2->preSwap();
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bulletFile2->writeFile(preSwapFilenameOut);
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}
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}
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delete bulletFile2;
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return result;
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}
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bool btBulletWorldImporter::loadFileFromMemory( char* memoryBuffer, int len)
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{
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bParse::btBulletFile* bulletFile2 = new bParse::btBulletFile(memoryBuffer,len);
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bool result = loadFileFromMemory(bulletFile2);
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delete bulletFile2;
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return result;
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}
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bool btBulletWorldImporter::loadFileFromMemory( bParse::btBulletFile* bulletFile2)
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{
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bool ok = (bulletFile2->getFlags()& bParse::FD_OK)!=0;
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if (ok)
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bulletFile2->parse(m_verboseMode);
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else
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return false;
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if (m_verboseMode & bParse::FD_VERBOSE_DUMP_CHUNKS)
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{
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bulletFile2->dumpChunks(bulletFile2->getFileDNA());
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}
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return convertAllObjects(bulletFile2);
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}
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bool btBulletWorldImporter::convertAllObjects( bParse::btBulletFile* bulletFile2)
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{
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m_shapeMap.clear();
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m_bodyMap.clear();
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int i;
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for (i=0;i<bulletFile2->m_bvhs.size();i++)
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{
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btOptimizedBvh* bvh = createOptimizedBvh();
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if (bulletFile2->getFlags() & bParse::FD_DOUBLE_PRECISION)
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{
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btQuantizedBvhDoubleData* bvhData = (btQuantizedBvhDoubleData*)bulletFile2->m_bvhs[i];
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bvh->deSerializeDouble(*bvhData);
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} else
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{
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btQuantizedBvhFloatData* bvhData = (btQuantizedBvhFloatData*)bulletFile2->m_bvhs[i];
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bvh->deSerializeFloat(*bvhData);
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}
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m_bvhMap.insert(bulletFile2->m_bvhs[i],bvh);
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}
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for (i=0;i<bulletFile2->m_collisionShapes.size();i++)
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{
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btCollisionShapeData* shapeData = (btCollisionShapeData*)bulletFile2->m_collisionShapes[i];
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btCollisionShape* shape = convertCollisionShape(shapeData);
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if (shape)
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{
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// printf("shapeMap.insert(%x,%x)\n",shapeData,shape);
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m_shapeMap.insert(shapeData,shape);
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}
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if (shape&& shapeData->m_name)
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{
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char* newname = duplicateName(shapeData->m_name);
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m_objectNameMap.insert(shape,newname);
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m_nameShapeMap.insert(newname,shape);
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}
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}
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for (int i=0;i<bulletFile2->m_dynamicsWorldInfo.size();i++)
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{
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if (bulletFile2->getFlags() & bParse::FD_DOUBLE_PRECISION)
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{
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btDynamicsWorldDoubleData* solverInfoData = (btDynamicsWorldDoubleData*)bulletFile2->m_dynamicsWorldInfo[i];
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btContactSolverInfo solverInfo;
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btVector3 gravity;
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gravity.deSerializeDouble(solverInfoData->m_gravity);
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solverInfo.m_tau = btScalar(solverInfoData->m_solverInfo.m_tau);
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solverInfo.m_damping = btScalar(solverInfoData->m_solverInfo.m_damping);
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solverInfo.m_friction = btScalar(solverInfoData->m_solverInfo.m_friction);
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solverInfo.m_timeStep = btScalar(solverInfoData->m_solverInfo.m_timeStep);
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solverInfo.m_restitution = btScalar(solverInfoData->m_solverInfo.m_restitution);
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solverInfo.m_maxErrorReduction = btScalar(solverInfoData->m_solverInfo.m_maxErrorReduction);
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solverInfo.m_sor = btScalar(solverInfoData->m_solverInfo.m_sor);
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solverInfo.m_erp = btScalar(solverInfoData->m_solverInfo.m_erp);
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solverInfo.m_erp2 = btScalar(solverInfoData->m_solverInfo.m_erp2);
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solverInfo.m_globalCfm = btScalar(solverInfoData->m_solverInfo.m_globalCfm);
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solverInfo.m_splitImpulsePenetrationThreshold = btScalar(solverInfoData->m_solverInfo.m_splitImpulsePenetrationThreshold);
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solverInfo.m_splitImpulseTurnErp = btScalar(solverInfoData->m_solverInfo.m_splitImpulseTurnErp);
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solverInfo.m_linearSlop = btScalar(solverInfoData->m_solverInfo.m_linearSlop);
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solverInfo.m_warmstartingFactor = btScalar(solverInfoData->m_solverInfo.m_warmstartingFactor);
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solverInfo.m_maxGyroscopicForce = btScalar(solverInfoData->m_solverInfo.m_maxGyroscopicForce);
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solverInfo.m_singleAxisRollingFrictionThreshold = btScalar(solverInfoData->m_solverInfo.m_singleAxisRollingFrictionThreshold);
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solverInfo.m_numIterations = solverInfoData->m_solverInfo.m_numIterations;
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solverInfo.m_solverMode = solverInfoData->m_solverInfo.m_solverMode;
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solverInfo.m_restingContactRestitutionThreshold = solverInfoData->m_solverInfo.m_restingContactRestitutionThreshold;
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solverInfo.m_minimumSolverBatchSize = solverInfoData->m_solverInfo.m_minimumSolverBatchSize;
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solverInfo.m_splitImpulse = solverInfoData->m_solverInfo.m_splitImpulse;
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setDynamicsWorldInfo(gravity,solverInfo);
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} else
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{
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btDynamicsWorldFloatData* solverInfoData = (btDynamicsWorldFloatData*)bulletFile2->m_dynamicsWorldInfo[i];
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btContactSolverInfo solverInfo;
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btVector3 gravity;
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gravity.deSerializeFloat(solverInfoData->m_gravity);
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solverInfo.m_tau = solverInfoData->m_solverInfo.m_tau;
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solverInfo.m_damping = solverInfoData->m_solverInfo.m_damping;
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solverInfo.m_friction = solverInfoData->m_solverInfo.m_friction;
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solverInfo.m_timeStep = solverInfoData->m_solverInfo.m_timeStep;
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solverInfo.m_restitution = solverInfoData->m_solverInfo.m_restitution;
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solverInfo.m_maxErrorReduction = solverInfoData->m_solverInfo.m_maxErrorReduction;
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solverInfo.m_sor = solverInfoData->m_solverInfo.m_sor;
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solverInfo.m_erp = solverInfoData->m_solverInfo.m_erp;
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solverInfo.m_erp2 = solverInfoData->m_solverInfo.m_erp2;
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solverInfo.m_globalCfm = solverInfoData->m_solverInfo.m_globalCfm;
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solverInfo.m_splitImpulsePenetrationThreshold = solverInfoData->m_solverInfo.m_splitImpulsePenetrationThreshold;
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solverInfo.m_splitImpulseTurnErp = solverInfoData->m_solverInfo.m_splitImpulseTurnErp;
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solverInfo.m_linearSlop = solverInfoData->m_solverInfo.m_linearSlop;
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solverInfo.m_warmstartingFactor = solverInfoData->m_solverInfo.m_warmstartingFactor;
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solverInfo.m_maxGyroscopicForce = solverInfoData->m_solverInfo.m_maxGyroscopicForce;
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solverInfo.m_singleAxisRollingFrictionThreshold = solverInfoData->m_solverInfo.m_singleAxisRollingFrictionThreshold;
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solverInfo.m_numIterations = solverInfoData->m_solverInfo.m_numIterations;
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solverInfo.m_solverMode = solverInfoData->m_solverInfo.m_solverMode;
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solverInfo.m_restingContactRestitutionThreshold = solverInfoData->m_solverInfo.m_restingContactRestitutionThreshold;
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solverInfo.m_minimumSolverBatchSize = solverInfoData->m_solverInfo.m_minimumSolverBatchSize;
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solverInfo.m_splitImpulse = solverInfoData->m_solverInfo.m_splitImpulse;
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setDynamicsWorldInfo(gravity,solverInfo);
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}
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}
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for (i=0;i<bulletFile2->m_rigidBodies.size();i++)
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{
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if (bulletFile2->getFlags() & bParse::FD_DOUBLE_PRECISION)
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{
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btRigidBodyDoubleData* colObjData = (btRigidBodyDoubleData*)bulletFile2->m_rigidBodies[i];
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convertRigidBodyDouble(colObjData);
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} else
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{
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btRigidBodyFloatData* colObjData = (btRigidBodyFloatData*)bulletFile2->m_rigidBodies[i];
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convertRigidBodyFloat(colObjData);
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}
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}
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for (i=0;i<bulletFile2->m_collisionObjects.size();i++)
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{
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if (bulletFile2->getFlags() & bParse::FD_DOUBLE_PRECISION)
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{
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btCollisionObjectDoubleData* colObjData = (btCollisionObjectDoubleData*)bulletFile2->m_collisionObjects[i];
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btCollisionShape** shapePtr = m_shapeMap.find(colObjData->m_collisionShape);
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if (shapePtr && *shapePtr)
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{
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btTransform startTransform;
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colObjData->m_worldTransform.m_origin.m_floats[3] = 0.f;
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startTransform.deSerializeDouble(colObjData->m_worldTransform);
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btCollisionShape* shape = (btCollisionShape*)*shapePtr;
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btCollisionObject* body = createCollisionObject(startTransform,shape,colObjData->m_name);
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body->setFriction(btScalar(colObjData->m_friction));
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body->setRestitution(btScalar(colObjData->m_restitution));
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#ifdef USE_INTERNAL_EDGE_UTILITY
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if (shape->getShapeType() == TRIANGLE_MESH_SHAPE_PROXYTYPE)
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{
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btBvhTriangleMeshShape* trimesh = (btBvhTriangleMeshShape*)shape;
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if (trimesh->getTriangleInfoMap())
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{
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body->setCollisionFlags(body->getCollisionFlags() | btCollisionObject::CF_CUSTOM_MATERIAL_CALLBACK);
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}
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}
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#endif //USE_INTERNAL_EDGE_UTILITY
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m_bodyMap.insert(colObjData,body);
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} else
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{
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printf("error: no shape found\n");
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}
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} else
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{
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btCollisionObjectFloatData* colObjData = (btCollisionObjectFloatData*)bulletFile2->m_collisionObjects[i];
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btCollisionShape** shapePtr = m_shapeMap.find(colObjData->m_collisionShape);
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if (shapePtr && *shapePtr)
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{
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btTransform startTransform;
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colObjData->m_worldTransform.m_origin.m_floats[3] = 0.f;
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startTransform.deSerializeFloat(colObjData->m_worldTransform);
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btCollisionShape* shape = (btCollisionShape*)*shapePtr;
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btCollisionObject* body = createCollisionObject(startTransform,shape,colObjData->m_name);
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#ifdef USE_INTERNAL_EDGE_UTILITY
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if (shape->getShapeType() == TRIANGLE_MESH_SHAPE_PROXYTYPE)
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{
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btBvhTriangleMeshShape* trimesh = (btBvhTriangleMeshShape*)shape;
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if (trimesh->getTriangleInfoMap())
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{
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body->setCollisionFlags(body->getCollisionFlags() | btCollisionObject::CF_CUSTOM_MATERIAL_CALLBACK);
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}
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}
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#endif //USE_INTERNAL_EDGE_UTILITY
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m_bodyMap.insert(colObjData,body);
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} else
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{
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printf("error: no shape found\n");
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}
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}
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}
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for (i=0;i<bulletFile2->m_constraints.size();i++)
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{
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btTypedConstraintData2* constraintData = (btTypedConstraintData2*)bulletFile2->m_constraints[i];
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btCollisionObject** colAptr = m_bodyMap.find(constraintData->m_rbA);
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btCollisionObject** colBptr = m_bodyMap.find(constraintData->m_rbB);
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btRigidBody* rbA = 0;
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btRigidBody* rbB = 0;
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if (colAptr)
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{
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rbA = btRigidBody::upcast(*colAptr);
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if (!rbA)
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rbA = &getFixedBody();
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}
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if (colBptr)
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{
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rbB = btRigidBody::upcast(*colBptr);
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if (!rbB)
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rbB = &getFixedBody();
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}
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if (!rbA && !rbB)
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continue;
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bool isDoublePrecisionData = (bulletFile2->getFlags() & bParse::FD_DOUBLE_PRECISION)!=0;
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if (isDoublePrecisionData)
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{
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if (bulletFile2->getVersion()>=282)
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{
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btTypedConstraintDoubleData* dc = (btTypedConstraintDoubleData*)constraintData;
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convertConstraintDouble(dc, rbA,rbB, bulletFile2->getVersion());
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} else
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{
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//double-precision constraints were messed up until 2.82, try to recover data...
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btTypedConstraintData* oldData = (btTypedConstraintData*)constraintData;
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convertConstraintBackwardsCompatible281(oldData, rbA,rbB, bulletFile2->getVersion());
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}
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}
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else
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{
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btTypedConstraintFloatData* dc = (btTypedConstraintFloatData*)constraintData;
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convertConstraintFloat(dc, rbA,rbB, bulletFile2->getVersion());
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}
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}
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return true;
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}
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