ref: 75f242d49ab0f5da5f118a5aebc403f1eef74a9a
dir: /codec/common/inc/WelsList.h/
/*! * \copy * Copyright (c) 2009-2015, Cisco Systems * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * * \file WelsList * * \brief for the list function needed in ThreadPool * * \date 9/27/2015 Created * ************************************************************************************* */ #ifndef _WELS_LIST_H_ #define _WELS_LIST_H_ #include "typedefs.h" namespace WelsCommon { template<typename TNodeType> struct SNode { TNodeType* pPointer; SNode* pPrevNode; SNode* pNextNode; }; template<typename TNodeType> class CWelsList { public: CWelsList() { m_iCurrentNodeCount = 0; m_iMaxNodeCount = 50; m_pCurrentList = NULL; m_pFirst = NULL; m_pCurrent = NULL; m_pLast = NULL; }; ~CWelsList() { if (m_pCurrentList) free (m_pCurrentList); }; int32_t size() { return m_iCurrentNodeCount; } bool push_back (TNodeType* pNode) { if (NULL == m_pCurrentList) { m_pCurrentList = static_cast<SNode<TNodeType>*> (malloc (m_iMaxNodeCount * sizeof (SNode<TNodeType>))); if (NULL == m_pCurrentList) { return false; } else { ResetStorage(); } } if (NULL == m_pCurrent) { if (!ExpandList()) { return false; } } m_pCurrent->pPointer = pNode; m_pCurrent = m_pCurrent->pNextNode; m_iCurrentNodeCount++; return true; } TNodeType* begin() { if (m_pFirst) { return m_pFirst->pPointer; } return NULL; } void pop_front() { if (m_iCurrentNodeCount == 0) { return; } SNode<TNodeType>* pTemp = m_pFirst; m_pFirst = m_pFirst->pNextNode; m_pFirst->pPrevNode = NULL; CleanOneNode (pTemp); m_pLast->pNextNode = pTemp; pTemp->pPrevNode = m_pLast; m_pLast = pTemp; if (NULL == m_pCurrent) m_pCurrent = m_pLast; m_iCurrentNodeCount --; } bool erase (TNodeType* pNode) { if (0 == m_iCurrentNodeCount) { return false; } SNode<TNodeType>* pTemp = m_pFirst; do { if (pNode == pTemp->pPointer) { if (pTemp->pPrevNode) { pTemp->pPrevNode->pNextNode = pTemp->pNextNode; } else { m_pFirst = pTemp->pNextNode; } if (pTemp->pNextNode) { pTemp->pNextNode->pPrevNode = pTemp->pPrevNode; } CleanOneNode (pTemp); m_iCurrentNodeCount --; m_pLast->pNextNode = pTemp; pTemp->pPrevNode = m_pLast; m_pLast = pTemp; return true; } pTemp = pTemp->pNextNode; } while (pTemp && pTemp->pPointer); return false; } private: bool ExpandList() { SNode<TNodeType>* tmpCurrentList = static_cast<SNode<TNodeType>*> (malloc (m_iMaxNodeCount * 2 * sizeof ( SNode<TNodeType>))); if (tmpCurrentList == NULL) { return false; } InitStorage (tmpCurrentList, (m_iMaxNodeCount * 2) - 1); SNode<TNodeType>* pTemp = m_pFirst; for (int i = 0; ((i < m_iMaxNodeCount) && pTemp); i++) { tmpCurrentList[i].pPointer = pTemp->pPointer; pTemp = pTemp->pNextNode; } free (m_pCurrentList); m_pCurrentList = tmpCurrentList; m_iCurrentNodeCount = m_iMaxNodeCount; m_iMaxNodeCount = m_iMaxNodeCount * 2; m_pFirst = & (m_pCurrentList[0]); m_pLast = & (m_pCurrentList[m_iMaxNodeCount - 1]); m_pCurrent = & (m_pCurrentList[m_iCurrentNodeCount]); return true; } void InitStorage (SNode<TNodeType>* pList, const int32_t iMaxIndex) { pList[0].pPrevNode = NULL; pList[0].pPointer = NULL; pList[0].pNextNode = & (pList[1]); for (int i = 1; i < iMaxIndex; i++) { pList[i].pPrevNode = & (pList[i - 1]); pList[i].pPointer = NULL; pList[i].pNextNode = & (pList[i + 1]); } pList[iMaxIndex].pPrevNode = & (pList[iMaxIndex - 1]); pList[iMaxIndex].pPointer = NULL; pList[iMaxIndex].pNextNode = NULL; } void CleanOneNode (SNode<TNodeType>* pSNode) { pSNode->pPointer = NULL; pSNode->pPrevNode = NULL; pSNode->pNextNode = NULL; } void ResetStorage() { InitStorage (m_pCurrentList, m_iMaxNodeCount - 1); m_pCurrent = m_pCurrentList; m_pFirst = & (m_pCurrentList[0]); m_pLast = & (m_pCurrentList[m_iMaxNodeCount - 1]); } int32_t m_iCurrentNodeCount; int32_t m_iMaxNodeCount; SNode<TNodeType>* m_pCurrentList; SNode<TNodeType>* m_pFirst; SNode<TNodeType>* m_pLast; SNode<TNodeType>* m_pCurrent; }; } #endif