/* 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 BT_HASH_MAP_H #define BT_HASH_MAP_H #include "btAlignedObjectArray.h" ///very basic hashable string implementation, compatible with btHashMap struct btHashString { const char* m_string; unsigned int m_hash; SIMD_FORCE_INLINE unsigned int getHash()const { return m_hash; } btHashString(const char* name) :m_string(name) { /* magic numbers from http://www.isthe.com/chongo/tech/comp/fnv/ */ static const unsigned int InitialFNV = 2166136261u; static const unsigned int FNVMultiple = 16777619u; /* Fowler / Noll / Vo (FNV) Hash */ unsigned int hash = InitialFNV; for(int i = 0; m_string[i]; i++) { hash = hash ^ (m_string[i]); /* xor the low 8 bits */ hash = hash * FNVMultiple; /* multiply by the magic number */ } m_hash = hash; } int portableStringCompare(const char* src, const char* dst) const { int ret = 0 ; while( ! (ret = *(const unsigned char *)src - *(const unsigned char *)dst) && *dst) ++src, ++dst; if ( ret < 0 ) ret = -1 ; else if ( ret > 0 ) ret = 1 ; return( ret ); } bool equals(const btHashString& other) const { return (m_string == other.m_string) || (0==portableStringCompare(m_string,other.m_string)); } }; const int BT_HASH_NULL=0xffffffff; class btHashInt { int m_uid; public: btHashInt() { } btHashInt(int uid) :m_uid(uid) { } int getUid1() const { return m_uid; } void setUid1(int uid) { m_uid = uid; } bool equals(const btHashInt& other) const { return getUid1() == other.getUid1(); } //to our success SIMD_FORCE_INLINE unsigned int getHash()const { unsigned int key = m_uid; // Thomas Wang's hash key += ~(key << 15); key ^= (key >> 10); key += (key << 3); key ^= (key >> 6); key += ~(key << 11); key ^= (key >> 16); return key; } }; class btHashPtr { union { const void* m_pointer; unsigned int m_hashValues[2]; }; public: btHashPtr(const void* ptr) :m_pointer(ptr) { } const void* getPointer() const { return m_pointer; } bool equals(const btHashPtr& other) const { return getPointer() == other.getPointer(); } //to our success SIMD_FORCE_INLINE unsigned int getHash()const { const bool VOID_IS_8 = ((sizeof(void*)==8)); unsigned int key = VOID_IS_8? m_hashValues[0]+m_hashValues[1] : m_hashValues[0]; // Thomas Wang's hash key += ~(key << 15); key ^= (key >> 10); key += (key << 3); key ^= (key >> 6); key += ~(key << 11); key ^= (key >> 16); return key; } }; template class btHashKeyPtr { int m_uid; public: btHashKeyPtr(int uid) :m_uid(uid) { } int getUid1() const { return m_uid; } bool equals(const btHashKeyPtr& other) const { return getUid1() == other.getUid1(); } //to our success SIMD_FORCE_INLINE unsigned int getHash()const { unsigned int key = m_uid; // Thomas Wang's hash key += ~(key << 15); key ^= (key >> 10); key += (key << 3); key ^= (key >> 6); key += ~(key << 11); key ^= (key >> 16); return key; } }; template class btHashKey { int m_uid; public: btHashKey(int uid) :m_uid(uid) { } int getUid1() const { return m_uid; } bool equals(const btHashKey& other) const { return getUid1() == other.getUid1(); } //to our success SIMD_FORCE_INLINE unsigned int getHash()const { unsigned int key = m_uid; // Thomas Wang's hash key += ~(key << 15); key ^= (key >> 10); key += (key << 3); key ^= (key >> 6); key += ~(key << 11); key ^= (key >> 16); return key; } }; ///The btHashMap template class implements a generic and lightweight hashmap. ///A basic sample of how to use btHashMap is located in Demos\BasicDemo\main.cpp template class btHashMap { protected: btAlignedObjectArray m_hashTable; btAlignedObjectArray m_next; btAlignedObjectArray m_valueArray; btAlignedObjectArray m_keyArray; void growTables(const Key& /*key*/) { int newCapacity = m_valueArray.capacity(); if (m_hashTable.size() < newCapacity) { //grow hashtable and next table int curHashtableSize = m_hashTable.size(); m_hashTable.resize(newCapacity); m_next.resize(newCapacity); int i; for (i= 0; i < newCapacity; ++i) { m_hashTable[i] = BT_HASH_NULL; } for (i = 0; i < newCapacity; ++i) { m_next[i] = BT_HASH_NULL; } for(i=0;i=0); if (index>=0 && index < m_valueArray.size()) { return &m_valueArray[index]; } return 0; } Value* getAtIndex(int index) { btAssert(index < m_valueArray.size()); btAssert(index>=0); if (index>=0 && index < m_valueArray.size()) { return &m_valueArray[index]; } return 0; } Key getKeyAtIndex(int index) { btAssert(index < m_keyArray.size()); btAssert(index>=0); return m_keyArray[index]; } const Key getKeyAtIndex(int index) const { btAssert(index < m_keyArray.size()); btAssert(index>=0); return m_keyArray[index]; } Value* operator[](const Key& key) { return find(key); } const Value* operator[](const Key& key) const { return find(key); } const Value* find(const Key& key) const { int index = findIndex(key); if (index == BT_HASH_NULL) { return NULL; } return &m_valueArray[index]; } Value* find(const Key& key) { int index = findIndex(key); if (index == BT_HASH_NULL) { return NULL; } return &m_valueArray[index]; } int findIndex(const Key& key) const { unsigned int hash = key.getHash() & (m_valueArray.capacity()-1); if (hash >= (unsigned int)m_hashTable.size()) { return BT_HASH_NULL; } int index = m_hashTable[hash]; while ((index != BT_HASH_NULL) && key.equals(m_keyArray[index]) == false) { index = m_next[index]; } return index; } void clear() { m_hashTable.clear(); m_next.clear(); m_valueArray.clear(); m_keyArray.clear(); } }; #endif //BT_HASH_MAP_H