/* Bullet Continuous Collision Detection and Physics Library Copyright (c) 2003-2009 Erwin Coumans http://bulletphysics.org 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. */ #ifndef B3_SERIALIZER_H #define B3_SERIALIZER_H #include "Bullet3Common/b3Scalar.h" // has definitions like B3_FORCE_INLINE #include "Bullet3Common/b3StackAlloc.h" #include "Bullet3Common/b3HashMap.h" #if !defined( __CELLOS_LV2__) && !defined(__MWERKS__) #include #endif #include extern char b3s_bulletDNAstr[]; extern int b3s_bulletDNAlen; extern char b3s_bulletDNAstr64[]; extern int b3s_bulletDNAlen64; B3_FORCE_INLINE int b3StrLen(const char* str) { if (!str) return(0); int len = 0; while (*str != 0) { str++; len++; } return len; } class b3Chunk { public: int m_chunkCode; int m_length; void *m_oldPtr; int m_dna_nr; int m_number; }; enum b3SerializationFlags { B3_SERIALIZE_NO_BVH = 1, B3_SERIALIZE_NO_TRIANGLEINFOMAP = 2, B3_SERIALIZE_NO_DUPLICATE_ASSERT = 4 }; class b3Serializer { public: virtual ~b3Serializer() {} virtual const unsigned char* getBufferPointer() const = 0; virtual int getCurrentBufferSize() const = 0; virtual b3Chunk* allocate(size_t size, int numElements) = 0; virtual void finalizeChunk(b3Chunk* chunk, const char* structType, int chunkCode,void* oldPtr)= 0; virtual void* findPointer(void* oldPtr) = 0; virtual void* getUniquePointer(void*oldPtr) = 0; virtual void startSerialization() = 0; virtual void finishSerialization() = 0; virtual const char* findNameForPointer(const void* ptr) const = 0; virtual void registerNameForPointer(const void* ptr, const char* name) = 0; virtual void serializeName(const char* ptr) = 0; virtual int getSerializationFlags() const = 0; virtual void setSerializationFlags(int flags) = 0; }; #define B3_HEADER_LENGTH 12 #if defined(__sgi) || defined (__sparc) || defined (__sparc__) || defined (__PPC__) || defined (__ppc__) || defined (__BIG_ENDIAN__) # define B3_MAKE_ID(a,b,c,d) ( (int)(a)<<24 | (int)(b)<<16 | (c)<<8 | (d) ) #else # define B3_MAKE_ID(a,b,c,d) ( (int)(d)<<24 | (int)(c)<<16 | (b)<<8 | (a) ) #endif #define B3_SOFTBODY_CODE B3_MAKE_ID('S','B','D','Y') #define B3_COLLISIONOBJECT_CODE B3_MAKE_ID('C','O','B','J') #define B3_RIGIDBODY_CODE B3_MAKE_ID('R','B','D','Y') #define B3_CONSTRAINT_CODE B3_MAKE_ID('C','O','N','S') #define B3_BOXSHAPE_CODE B3_MAKE_ID('B','O','X','S') #define B3_QUANTIZED_BVH_CODE B3_MAKE_ID('Q','B','V','H') #define B3_TRIANLGE_INFO_MAP B3_MAKE_ID('T','M','A','P') #define B3_SHAPE_CODE B3_MAKE_ID('S','H','A','P') #define B3_ARRAY_CODE B3_MAKE_ID('A','R','A','Y') #define B3_SBMATERIAL_CODE B3_MAKE_ID('S','B','M','T') #define B3_SBNODE_CODE B3_MAKE_ID('S','B','N','D') #define B3_DYNAMICSWORLD_CODE B3_MAKE_ID('D','W','L','D') #define B3_DNA_CODE B3_MAKE_ID('D','N','A','1') struct b3PointerUid { union { void* m_ptr; int m_uniqueIds[2]; }; }; ///The b3DefaultSerializer is the main Bullet serialization class. ///The constructor takes an optional argument for backwards compatibility, it is recommended to leave this empty/zero. class b3DefaultSerializer : public b3Serializer { b3AlignedObjectArray mTypes; b3AlignedObjectArray mStructs; b3AlignedObjectArray mTlens; b3HashMap mStructReverse; b3HashMap mTypeLookup; b3HashMap m_chunkP; b3HashMap m_nameMap; b3HashMap m_uniquePointers; int m_uniqueIdGenerator; int m_totalSize; unsigned char* m_buffer; int m_currentSize; void* m_dna; int m_dnaLength; int m_serializationFlags; b3AlignedObjectArray m_chunkPtrs; protected: virtual void* findPointer(void* oldPtr) { void** ptr = m_chunkP.find(oldPtr); if (ptr && *ptr) return *ptr; return 0; } void writeDNA() { b3Chunk* dnaChunk = allocate(m_dnaLength,1); memcpy(dnaChunk->m_oldPtr,m_dna,m_dnaLength); finalizeChunk(dnaChunk,"DNA1",B3_DNA_CODE, m_dna); } int getReverseType(const char *type) const { b3HashString key(type); const int* valuePtr = mTypeLookup.find(key); if (valuePtr) return *valuePtr; return -1; } void initDNA(const char* bdnaOrg,int dnalen) { ///was already initialized if (m_dna) return; int littleEndian= 1; littleEndian= ((char*)&littleEndian)[0]; m_dna = b3AlignedAlloc(dnalen,16); memcpy(m_dna,bdnaOrg,dnalen); m_dnaLength = dnalen; int *intPtr=0; short *shtPtr=0; char *cp = 0;int dataLen =0; intPtr = (int*)m_dna; /* SDNA (4 bytes) (magic number) NAME (4 bytes) (4 bytes) amount of names (int) */ if (strncmp((const char*)m_dna, "SDNA", 4)==0) { // skip ++ NAME intPtr++; intPtr++; } // Parse names if (!littleEndian) *intPtr = b3SwapEndian(*intPtr); dataLen = *intPtr; intPtr++; cp = (char*)intPtr; int i; for ( i=0; i amount of types (int) */ intPtr = (int*)cp; b3Assert(strncmp(cp, "TYPE", 4)==0); intPtr++; if (!littleEndian) *intPtr = b3SwapEndian(*intPtr); dataLen = *intPtr; intPtr++; cp = (char*)intPtr; for (i=0; i (short) the lengths of types */ // Parse type lens intPtr = (int*)cp; b3Assert(strncmp(cp, "TLEN", 4)==0); intPtr++; dataLen = (int)mTypes.size(); shtPtr = (short*)intPtr; for (i=0; i amount of structs (int) */ intPtr = (int*)shtPtr; cp = (char*)intPtr; b3Assert(strncmp(cp, "STRC", 4)==0); intPtr++; if (!littleEndian) *intPtr = b3SwapEndian(*intPtr); dataLen = *intPtr ; intPtr++; shtPtr = (short*)intPtr; for (i=0; im_length; memcpy(currentPtr,m_chunkPtrs[i], curLength); b3AlignedFree(m_chunkPtrs[i]); currentPtr+=curLength; mysize+=curLength; } } mTypes.clear(); mStructs.clear(); mTlens.clear(); mStructReverse.clear(); mTypeLookup.clear(); m_chunkP.clear(); m_nameMap.clear(); m_uniquePointers.clear(); m_chunkPtrs.clear(); } virtual void* getUniquePointer(void*oldPtr) { if (!oldPtr) return 0; b3PointerUid* uptr = (b3PointerUid*)m_uniquePointers.find(oldPtr); if (uptr) { return uptr->m_ptr; } m_uniqueIdGenerator++; b3PointerUid uid; uid.m_uniqueIds[0] = m_uniqueIdGenerator; uid.m_uniqueIds[1] = m_uniqueIdGenerator; m_uniquePointers.insert(oldPtr,uid); return uid.m_ptr; } virtual const unsigned char* getBufferPointer() const { return m_buffer; } virtual int getCurrentBufferSize() const { return m_currentSize; } virtual void finalizeChunk(b3Chunk* chunk, const char* structType, int chunkCode,void* oldPtr) { if (!(m_serializationFlags&B3_SERIALIZE_NO_DUPLICATE_ASSERT)) { b3Assert(!findPointer(oldPtr)); } chunk->m_dna_nr = getReverseType(structType); chunk->m_chunkCode = chunkCode; void* uniquePtr = getUniquePointer(oldPtr); m_chunkP.insert(oldPtr,uniquePtr);//chunk->m_oldPtr); chunk->m_oldPtr = uniquePtr;//oldPtr; } virtual unsigned char* internalAlloc(size_t size) { unsigned char* ptr = 0; if (m_totalSize) { ptr = m_buffer+m_currentSize; m_currentSize += int(size); b3Assert(m_currentSizem_chunkCode = 0; chunk->m_oldPtr = data; chunk->m_length = int(size)*numElements; chunk->m_number = numElements; m_chunkPtrs.push_back(chunk); return chunk; } virtual const char* findNameForPointer(const void* ptr) const { const char*const * namePtr = m_nameMap.find(ptr); if (namePtr && *namePtr) return *namePtr; return 0; } virtual void registerNameForPointer(const void* ptr, const char* name) { m_nameMap.insert(ptr,name); } virtual void serializeName(const char* name) { if (name) { //don't serialize name twice if (findPointer((void*)name)) return; int len = b3StrLen(name); if (len) { int newLen = len+1; int padding = ((newLen+3)&~3)-newLen; newLen += padding; //serialize name string now b3Chunk* chunk = allocate(sizeof(char),newLen); char* destinationName = (char*)chunk->m_oldPtr; for (int i=0;i