/* bParse Copyright (c) 2006-2010 Erwin Coumans http://gamekit.googlecode.com This software is provided 'as-is', without any express or implied warranty. In no event will the authors be held liable for any damages arising from the use of this software. Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions: 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. 2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software. 3. This notice may not be removed or altered from any source distribution. */ #include "b3BulletFile.h" #include "b3Defines.h" #include "b3DNA.h" #if !defined( __CELLOS_LV2__) && !defined(__MWERKS__) #include #endif #include // 32 && 64 bit versions #ifdef B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES #ifdef _WIN64 extern char b3s_bulletDNAstr64[]; extern int b3s_bulletDNAlen64; #else extern char b3s_bulletDNAstr[]; extern int b3s_bulletDNAlen; #endif //_WIN64 #else//B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES extern char b3s_bulletDNAstr64[]; extern int b3s_bulletDNAlen64; extern char b3s_bulletDNAstr[]; extern int b3s_bulletDNAlen; #endif //B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES using namespace bParse; b3BulletFile::b3BulletFile() :bFile("", "BULLET ") { mMemoryDNA = new bDNA(); //this memory gets released in the bFile::~bFile destructor,@todo not consistent with the rule 'who allocates it, has to deallocate it" m_DnaCopy = 0; #ifdef B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES #ifdef _WIN64 m_DnaCopy = (char*)b3AlignedAlloc(b3s_bulletDNAlen64,16); memcpy(m_DnaCopy,b3s_bulletDNAstr64,b3s_bulletDNAlen64); mMemoryDNA->init(m_DnaCopy,b3s_bulletDNAlen64); #else//_WIN64 m_DnaCopy = (char*)b3AlignedAlloc(b3s_bulletDNAlen,16); memcpy(m_DnaCopy,b3s_bulletDNAstr,b3s_bulletDNAlen); mMemoryDNA->init(m_DnaCopy,b3s_bulletDNAlen); #endif//_WIN64 #else//B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES if (VOID_IS_8) { m_DnaCopy = (char*) b3AlignedAlloc(b3s_bulletDNAlen64,16); memcpy(m_DnaCopy,b3s_bulletDNAstr64,b3s_bulletDNAlen64); mMemoryDNA->init(m_DnaCopy,b3s_bulletDNAlen64); } else { m_DnaCopy =(char*) b3AlignedAlloc(b3s_bulletDNAlen,16); memcpy(m_DnaCopy,b3s_bulletDNAstr,b3s_bulletDNAlen); mMemoryDNA->init(m_DnaCopy,b3s_bulletDNAlen); } #endif//B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES } b3BulletFile::b3BulletFile(const char* fileName) :bFile(fileName, "BULLET ") { m_DnaCopy = 0; } b3BulletFile::b3BulletFile(char *memoryBuffer, int len) :bFile(memoryBuffer,len, "BULLET ") { m_DnaCopy = 0; } b3BulletFile::~b3BulletFile() { if (m_DnaCopy) b3AlignedFree(m_DnaCopy); while (m_dataBlocks.size()) { char* dataBlock = m_dataBlocks[m_dataBlocks.size()-1]; delete[] dataBlock; m_dataBlocks.pop_back(); } } // ----------------------------------------------------- // void b3BulletFile::parseData() { // printf ("Building datablocks"); // printf ("Chunk size = %d",CHUNK_HEADER_LEN); // printf ("File chunk size = %d",ChunkUtils::getOffset(mFlags)); const bool brokenDNA = (mFlags&FD_BROKEN_DNA)!=0; //const bool swap = (mFlags&FD_ENDIAN_SWAP)!=0; mDataStart = 12; char *dataPtr = mFileBuffer+mDataStart; bChunkInd dataChunk; dataChunk.code = 0; //dataPtr += ChunkUtils::getNextBlock(&dataChunk, dataPtr, mFlags); int seek = getNextBlock(&dataChunk, dataPtr, mFlags); if (mFlags &FD_ENDIAN_SWAP) swapLen(dataPtr); //dataPtr += ChunkUtils::getOffset(mFlags); char *dataPtrHead = 0; while (dataChunk.code != B3_DNA1) { if (!brokenDNA || (dataChunk.code != B3_QUANTIZED_BVH_CODE) ) { // one behind if (dataChunk.code == B3_SDNA) break; //if (dataChunk.code == DNA1) break; // same as (BHEAD+DATA dependency) dataPtrHead = dataPtr+ChunkUtils::getOffset(mFlags); if (dataChunk.dna_nr>=0) { char *id = readStruct(dataPtrHead, dataChunk); // lookup maps if (id) { m_chunkPtrPtrMap.insert(dataChunk.oldPtr, dataChunk); mLibPointers.insert(dataChunk.oldPtr, (bStructHandle*)id); m_chunks.push_back(dataChunk); // block it //bListBasePtr *listID = mMain->getListBasePtr(dataChunk.code); //if (listID) // listID->push_back((bStructHandle*)id); } if (dataChunk.code == B3_SOFTBODY_CODE) { m_softBodies.push_back((bStructHandle*) id); } if (dataChunk.code == B3_RIGIDBODY_CODE) { m_rigidBodies.push_back((bStructHandle*) id); } if (dataChunk.code == B3_DYNAMICSWORLD_CODE) { m_dynamicsWorldInfo.push_back((bStructHandle*) id); } if (dataChunk.code == B3_CONSTRAINT_CODE) { m_constraints.push_back((bStructHandle*) id); } if (dataChunk.code == B3_QUANTIZED_BVH_CODE) { m_bvhs.push_back((bStructHandle*) id); } if (dataChunk.code == B3_TRIANLGE_INFO_MAP) { m_triangleInfoMaps.push_back((bStructHandle*) id); } if (dataChunk.code == B3_COLLISIONOBJECT_CODE) { m_collisionObjects.push_back((bStructHandle*) id); } if (dataChunk.code == B3_SHAPE_CODE) { m_collisionShapes.push_back((bStructHandle*) id); } // if (dataChunk.code == GLOB) // { // m_glob = (bStructHandle*) id; // } } else { //printf("unknown chunk\n"); mLibPointers.insert(dataChunk.oldPtr, (bStructHandle*)dataPtrHead); } } else { printf("skipping B3_QUANTIZED_BVH_CODE due to broken DNA\n"); } dataPtr += seek; seek = getNextBlock(&dataChunk, dataPtr, mFlags); if (mFlags &FD_ENDIAN_SWAP) swapLen(dataPtr); if (seek < 0) break; } } void b3BulletFile::addDataBlock(char* dataBlock) { m_dataBlocks.push_back(dataBlock); } void b3BulletFile::writeDNA(FILE* fp) { bChunkInd dataChunk; dataChunk.code = B3_DNA1; dataChunk.dna_nr = 0; dataChunk.nr = 1; #ifdef B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES if (VOID_IS_8) { #ifdef _WIN64 dataChunk.len = b3s_bulletDNAlen64; dataChunk.oldPtr = b3s_bulletDNAstr64; fwrite(&dataChunk,sizeof(bChunkInd),1,fp); fwrite(b3s_bulletDNAstr64, b3s_bulletDNAlen64,1,fp); #else b3Assert(0); #endif } else { #ifndef _WIN64 dataChunk.len = b3s_bulletDNAlen; dataChunk.oldPtr = b3s_bulletDNAstr; fwrite(&dataChunk,sizeof(bChunkInd),1,fp); fwrite(b3s_bulletDNAstr, b3s_bulletDNAlen,1,fp); #else//_WIN64 b3Assert(0); #endif//_WIN64 } #else//B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES if (VOID_IS_8) { dataChunk.len = b3s_bulletDNAlen64; dataChunk.oldPtr = b3s_bulletDNAstr64; fwrite(&dataChunk,sizeof(bChunkInd),1,fp); fwrite(b3s_bulletDNAstr64, b3s_bulletDNAlen64,1,fp); } else { dataChunk.len = b3s_bulletDNAlen; dataChunk.oldPtr = b3s_bulletDNAstr; fwrite(&dataChunk,sizeof(bChunkInd),1,fp); fwrite(b3s_bulletDNAstr, b3s_bulletDNAlen,1,fp); } #endif//B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES } void b3BulletFile::parse(int verboseMode) { #ifdef B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES if (VOID_IS_8) { #ifdef _WIN64 if (m_DnaCopy) delete m_DnaCopy; m_DnaCopy = (char*)b3AlignedAlloc(b3s_bulletDNAlen64,16); memcpy(m_DnaCopy,b3s_bulletDNAstr64,b3s_bulletDNAlen64); parseInternal(verboseMode,(char*)b3s_bulletDNAstr64,b3s_bulletDNAlen64); #else b3Assert(0); #endif } else { #ifndef _WIN64 if (m_DnaCopy) delete m_DnaCopy; m_DnaCopy = (char*)b3AlignedAlloc(b3s_bulletDNAlen,16); memcpy(m_DnaCopy,b3s_bulletDNAstr,b3s_bulletDNAlen); parseInternal(verboseMode,m_DnaCopy,b3s_bulletDNAlen); #else b3Assert(0); #endif } #else//B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES if (VOID_IS_8) { if (m_DnaCopy) delete m_DnaCopy; m_DnaCopy = (char*)b3AlignedAlloc(b3s_bulletDNAlen64,16); memcpy(m_DnaCopy,b3s_bulletDNAstr64,b3s_bulletDNAlen64); parseInternal(verboseMode,m_DnaCopy,b3s_bulletDNAlen64); } else { if (m_DnaCopy) delete m_DnaCopy; m_DnaCopy = (char*)b3AlignedAlloc(b3s_bulletDNAlen,16); memcpy(m_DnaCopy,b3s_bulletDNAstr,b3s_bulletDNAlen); parseInternal(verboseMode,m_DnaCopy,b3s_bulletDNAlen); } #endif//B3_INTERNAL_UPDATE_SERIALIZATION_STRUCTURES //the parsing will convert to cpu endian mFlags &=~FD_ENDIAN_SWAP; int littleEndian= 1; littleEndian= ((char*)&littleEndian)[0]; mFileBuffer[8] = littleEndian?'v':'V'; } // experimental int b3BulletFile::write(const char* fileName, bool fixupPointers) { FILE *fp = fopen(fileName, "wb"); if (fp) { char header[B3_SIZEOFBLENDERHEADER] ; memcpy(header, m_headerString, 7); int endian= 1; endian= ((char*)&endian)[0]; if (endian) { header[7] = '_'; } else { header[7] = '-'; } if (VOID_IS_8) { header[8]='V'; } else { header[8]='v'; } header[9] = '2'; header[10] = '7'; header[11] = '5'; fwrite(header,B3_SIZEOFBLENDERHEADER,1,fp); writeChunks(fp, fixupPointers); writeDNA(fp); fclose(fp); } else { printf("Error: cannot open file %s for writing\n",fileName); return 0; } return 1; } void b3BulletFile::addStruct(const char* structType,void* data, int len, void* oldPtr, int code) { bParse::bChunkInd dataChunk; dataChunk.code = code; dataChunk.nr = 1; dataChunk.len = len; dataChunk.dna_nr = mMemoryDNA->getReverseType(structType); dataChunk.oldPtr = oldPtr; ///Perform structure size validation short* structInfo= mMemoryDNA->getStruct(dataChunk.dna_nr); int elemBytes; elemBytes= mMemoryDNA->getLength(structInfo[0]); // int elemBytes = mMemoryDNA->getElementSize(structInfo[0],structInfo[1]); assert(len==elemBytes); mLibPointers.insert(dataChunk.oldPtr, (bStructHandle*)data); m_chunks.push_back(dataChunk); }