/**************************************************************************** Copyright (c) 2010 cocos2d-x.org http://www.cocos2d-x.org Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ****************************************************************************/ #ifndef __COCOA_CC_MUTATLE_ARRAY_H__ #define __COCOA_CC_MUTATLE_ARRAY_H__ #include "CCObject.h" #include #include #include namespace cocos2d { // the element should be pointer of CCObject or it's sub class template class CCMutableArray : public CCObject { public: typedef std::vector CCObjectArray; typedef typename CCObjectArray::iterator CCMutableArrayIterator; typedef typename CCObjectArray::reverse_iterator CCMutableArrayRevIterator; public: CCMutableArray(unsigned int uSize = 0) { m_array.resize(uSize); } ~CCMutableArray(void) { removeAllObjects(); } unsigned int count(void) { unsigned int uCount = 0; if (!m_array.empty()) { CCMutableArrayIterator it; for (it = m_array.begin(); it != m_array.end(); ++it) { if (*it == NULL) { break; } ++uCount; } } return uCount; } unsigned int getIndexOfObject(T pObject) { if (m_array.empty() || (pObject == NULL)) { return 0; } CCMutableArrayIterator iter; unsigned int uRet = 0; int i; for (iter = m_array.begin(), i = 0; iter != m_array.end(); ++iter, ++i) { if (*iter == pObject) { uRet = i; break; } } return uRet; } bool containsObject(T pObject) { if (m_array.empty() || (! pObject)) { return false; } bool bRet = false; CCMutableArrayIterator iter; for (iter = m_array.begin(); iter != m_array.end(); ++iter) { if (*iter == pObject) { bRet = true; break; } } return bRet; } T getLastObject(void) { T pObject = NULL; int count = this->count(); if (count > 0) { pObject = m_array[count - 1]; } return pObject; } T getObjectAtIndex(unsigned int uIndex) { assert(uIndex < count()); if (uIndex >= count()) { return NULL; } return m_array[uIndex]; } // Adding objects void addObject(T pObject) { // make sure the pointer is not null if (pObject == NULL) { return; } // add the refrence pObject->retain(); // if the vector is empty, push back if (m_array.empty()) { m_array.push_back(pObject); return; } // find a position to store int count = 0;; CCMutableArrayIterator it; for (it = m_array.begin(); it != m_array.end(); ++it) { if (*it == NULL) { m_array[count] = pObject; return; } ++count; } // the array is full, push back m_array.push_back(pObject); } void addObjectsFromArray(CCMutableArray *pArray) { if (pArray && pArray->count() > 0) { CCMutableArrayIterator iter; for (iter = pArray->begin(); iter != pArray->end(); ++iter) { if (*iter) { (*iter)->retain(); m_array.push_back(*iter); } } } } void insertObjectAtIndex(T pObject, unsigned int uIndex) { // make sure the object is not null if (pObject == NULL) { return; } // add the refrence of the object pObject->retain(); // resize the capacity if the index out of it if (uIndex >= m_array.capacity()) { m_array.resize(uIndex + 4); } // insert the object m_array.insert(m_array.begin() + uIndex, pObject); } // Removing objects void removeLastObject(bool bDeleteObject = true) { int count = this->count(); if (count > 0) { removeObjectAtIndex(count - 1, bDeleteObject); } } void removeObject(T pObject, bool bDeleteObject = true) { if (m_array.empty() || (! pObject)) { return; } CCMutableArrayIterator iter; int i; for (iter = m_array.begin(), i = 0; iter != m_array.end(); ++iter, ++i) { if (*iter == pObject) { m_array.erase(iter); if (bDeleteObject) { pObject->release(); } break; } } } void removeObjectsInArray(CCMutableArray* pDeleteArray) { if(pDeleteArray && pDeleteArray->count()) { CCMutableArrayIterator it; for( it = pDeleteArray->m_array.begin(); it != pDeleteArray->m_array.end(); it++) { removeObject(*it); } } } void removeObjectAtIndex(unsigned int uIndex, bool bDeleteObject = true) { if (m_array.empty()) { return; } if (bDeleteObject) { T pObject = m_array.at(uIndex); if (pObject) { pObject->release(); } } m_array.erase(m_array.begin() + uIndex); } void removeAllObjects(bool bDeleteObject = true) { if (bDeleteObject) { CCMutableArrayIterator iter; for (iter = m_array.begin(); iter != m_array.end(); ++iter) { if (*iter) { (*iter)->release(); } } } m_array.clear(); } void replaceObjectAtIndex(unsigned int uIndex, T pObject, bool bDeleteObject = true) { if (m_array[uIndex] && bDeleteObject) { m_array[uIndex]->release(); } m_array[uIndex] = pObject; // add the ref if (pObject) { pObject->retain(); } } CCMutableArrayIterator begin(void) { return m_array.begin(); } CCMutableArrayRevIterator rbegin(void) { return m_array.rbegin(); } #if CC_ENABLE_LUA CCMutableArrayIterator endToLua(void) { return m_array.end(); } #endif CCMutableArrayIterator end(void) { return m_array.end(); } CCMutableArrayRevIterator rend(void) { return m_array.rend(); } CCMutableArray* copy(void) { CCMutableArray* pArray = new CCMutableArray(); pArray->m_array.assign(m_array.begin(), m_array.end()); if(pArray->count() > 0) { CCMutableArrayIterator it; for(it = pArray->begin(); it != pArray->end(); it++) { if(*it) { (*it)->retain(); } } } return pArray; } public: static CCMutableArray* arrayWithObjects(T pObject1, ...) { CCMutableArray *pArray = new CCMutableArray(); va_list params; va_start(params, pObject1); T pFirst = pObject1; while (pFirst) { pArray->addObject(pFirst); pFirst = va_arg(params, T); } va_end(params); return pArray; } static CCMutableArray* arrayWithArray(CCMutableArray *pArray) { if (pArray == NULL) { return new CCMutableArray(); } return pArray->copy(); } private: std::vector m_array; }; }//namespace cocos2d #endif // __COCOA_CC_MUTATLE_ARRAY_H__