[置顶] ※数据结构※→☆线性表结构(list)☆============双向链表结构(list double)(三)
双向链表也叫双链表,是链表的一种,它的每个数据结点中都有两个指针,分别指向直接后继和直接前驱。所以,从双向链表中的任意一个结点开始,都可以很方便地访问它的前驱结点和后继结点。
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C++完整个代码示例(代码在VS2005下测试可运行)
AL_ListDouble.h
/** @(#)$Id: AL_ListDouble.h 26 2013-09-02 06:38:34Z xiaoting $ @brief Also called double-linked list doubly linked list is a list in which each data node in both two pointers that point to a direct successor and direct precursors. Therefore, two-way linked list from any one of the node point, can easily access its predecessor and successor nodes node. @Author $Author: xiaoting $ @Date $Date: 2013-09-02 14:38:34 +0800 (周一, 02 九月 2013) $ @Revision $Revision: 26 $ @URL $URL: https://svn.code.sf.net/p/xiaoting/game/trunk/MyProject/AL_DataStructure/groupinc/AL_ListDouble.h $ @Header $Header: https://svn.code.sf.net/p/xiaoting/game/trunk/MyProject/AL_DataStructure/groupinc/AL_ListDouble.h 26 2013-09-02 06:38:34Z xiaoting $ */ #ifndef CXX_AL_LISTDOUBLE_H #define CXX_AL_LISTDOUBLE_H #ifndef CXX_AL_NODE_H #include "AL_Node.h" #endif /////////////////////////////////////////////////////////////////////////// // AL_ListDouble /////////////////////////////////////////////////////////////////////////// template<typename T> class AL_ListDouble { public: static const DWORD LISTDOUBLE_POSITION_INVALID = 0xffffffff; /** * Construction * * @param * @return * @note * @attention */ AL_ListDouble(); /** * Destruction * * @param * @return * @note * @attention */ ~AL_ListDouble(); /** * Length * * @param VOID * @return DWORD * @note get the length of the list * @attention */ DWORD Length() const; /** * Find * * @param const T& tTemplate * @return DWORD * @note find the position of tTemplate * @attention if not find, will be return 0xffffffff */ DWORD Find(const T& tTemplate ) const; /** * IsElement * * @param const T& tTemplate * @return BOOL * @note the tTemplate is in the list? * @attention */ BOOL IsElement(const T& tTemplate ) const; /** * Insert * * @param DWORD dwIndex * @param const T& tTemplate * @return BOOL * @note inset the tTemplate into the list at the position * @attention */ BOOL Insert(DWORD dwIndex,const T& tTemplate ); /** * InsertBegin * * @param const T& tTemplate * @return BOOL * @note inset the tTemplate into the list at the position * @attention */ BOOL InsertBegin(const T& tTemplate ); /** * InsertEnd * * @param const T& tTemplate * @return BOOL * @note inset the tTemplate into the list at the position * @attention */ BOOL InsertEnd(const T& tTemplate ); /** * Remove * * @param const T& tTemplate * @return BOOL * @note remove the tTemplate into the list * @attention */ BOOL Remove(const T& tTemplate ); /** * IsEmpty * * @param VOID * @return BOOL * @note the list has data? * @attention */ BOOL IsEmpty() const; /** * Get * * @param * @return BOOL * @note get the const T& at the position * @attention the dwIndex must is little than the list length */ T Get(DWORD dwIndex) const; /** * Set * * @param DWORD dwIndex * @param const T& tTemplate * @return BOOL * @note Replaced with the element element element on position index, and returns the old element... * @attention Index must in the list */ T Set(DWORD dwIndex, const T& tTemplate ); /** * Clear * * @param VOID * @return VOID * @note clear the data in the list * @attention all data will be clear */ VOID Clear(); protected: private: /** * GetNodeByIndex * * @param * @return BOOL * @note get the const T& at the position * @attention the dwIndex must is little than the list length */ AL_Node<T>* GetNodeByIndex(DWORD dwIndex) const; public: protected: private: AL_Node<T>* m_pHeader; }; /////////////////////////////////////////////////////////////////////////// // AL_ListDouble /////////////////////////////////////////////////////////////////////////// /** * Construction * * @param * @return * @note * @attention */ template<typename T> AL_ListDouble<T>::AL_ListDouble(): m_pHeader(NULL) { m_pHeader = new AL_Node<T>; } /** * Destruction * * @param * @return * @note * @attention */ template<typename T> AL_ListDouble<T>::~AL_ListDouble() { Clear(); //delete the header delete m_pHeader; m_pHeader = NULL; } /** * Length * * @param * @return * @note get the length of the list * @attention */ template<typename T> DWORD AL_ListDouble<T>::Length() const { if (TRUE == IsEmpty()) { return 0; } AL_Node<T>* pMove = NULL; DWORD dwCount = 1; pMove = m_pHeader->m_pNext; while (NULL != pMove->m_pNext) { dwCount ++; pMove = pMove->m_pNext; } return dwCount; } /** * Find * * @param const T& tTemplate * @return DWORD * @note find the position of tTemplate * @attention if not find, will be return 0xffffffff */ template<typename T> DWORD AL_ListDouble<T>::Find(const T& tTemplate ) const { if (TRUE == IsEmpty()) { return LISTDOUBLE_POSITION_INVALID; } AL_Node<T>* pMove = NULL; DWORD dwCount = 1; //loop the next data; pMove = m_pHeader->m_pNext; while (NULL != pMove->m_pNext) { if (tTemplate == pMove->m_data) { //find the data return dwCount-1; } dwCount ++; pMove = pMove->m_pNext; } //the end if (tTemplate == pMove->m_data) { //find the data return dwCount-1; } return LISTDOUBLE_POSITION_INVALID; } /** * IsElement * * @param const T& tTemplate * @return BOOL * @note the tTemplate is in the list? * @attention */ template<typename T> BOOL AL_ListDouble<T>::IsElement(const T& tTemplate ) const { if (LISTDOUBLE_POSITION_INVALID == Find(tTemplate )) { return FALSE; } return TRUE; } /** * Insert * * @param const T& tTemplate * @param DWORD dwIndex * @return BOOL * @note inset the tTemplate into the list at the position * @attention */ template<typename T> BOOL AL_ListDouble<T>::Insert(DWORD dwIndex, const T& tTemplate ) { if (dwIndex > Length()) { //can not insert to this position return FALSE; } AL_Node<T>* pInsert = new AL_Node<T>; pInsert->m_data = tTemplate; AL_Node<T>* pPre = NULL; //get the previous Node if (0x00 == dwIndex) { pPre = m_pHeader; } else { pPre = GetNodeByIndex(dwIndex - 1); } if ((NULL == pPre)) { //error return FALSE; } if (Length() == dwIndex){ //end pPre->m_pNext = pInsert; pInsert->m_pPre = pPre; } else { //among of the list AL_Node<T>* pIndexNode = pPre->m_pNext; if ((NULL == pIndexNode)) { //error return FALSE; } pInsert->m_pNext = pIndexNode; pIndexNode->m_pPre = pInsert; pPre->m_pNext = pInsert; pInsert->m_pPre = pPre; } return TRUE; } /** * InsertBegin * * @param const T& tTemplate * @return BOOL * @note inset the tTemplate into the list at the position * @attention */ template<typename T> BOOL AL_ListDouble<T>::InsertBegin(const T& tTemplate ) { return Insert(0, tTemplate); } /** * InsertEnd * * @param const T& tTemplate * @return BOOL * @note inset the tTemplate into the list at the position * @attention */ template<typename T> BOOL AL_ListDouble<T>::InsertEnd(const T& tTemplate ) { return Insert(Length(), tTemplate); } /** * Remove * * @param const T& tTemplate * @return BOOL * @note remove the tTemplate into the list * @attention */ template<typename T> BOOL AL_ListDouble<T>::Remove(const T& tTemplate ) { if (TRUE == IsEmpty()) { return FALSE; } DWORD dwPosition = Find(tTemplate); if (LISTDOUBLE_POSITION_INVALID == dwPosition) { //can not find the data return FALSE; } AL_Node<T>* pDelete = GetNodeByIndex(dwPosition); if (NULL == pDelete) { //error return FALSE; } AL_Node<T>* pPre = NULL; //get the previous Node if (0x00 == dwPosition) { pPre = m_pHeader; } else { pPre = pDelete->m_pPre; } if (NULL == pPre) { //error return FALSE; } pPre->m_pNext = pDelete->m_pNext; AL_Node<T>* pNext = pDelete->m_pNext; if (NULL != pNext) { //among of the list pNext->m_pPre = pPre; } delete pDelete; pDelete = NULL; return TRUE; } /** * IsEmpty * * @param * @return BOOL * @note the list has data? * @attention */ template<typename T> BOOL AL_ListDouble<T>::IsEmpty() const { return (NULL == m_pHeader->m_pNext) ? TRUE:FALSE; } /** * Get * * @param * @return T * @note get the T at the position * @attention the dwIndex must is little than the list length */ template<typename T> T AL_ListDouble<T>::Get(DWORD dwIndex) const { T tTypeTemp; memset(&tTypeTemp, 0x00, sizeof(T)); if (TRUE == IsEmpty()) { //error return tTypeTemp; } if (Length()-1 < dwIndex) { //error return tTypeTemp; } AL_Node<T>* pGet = GetNodeByIndex(dwIndex); if (NULL == pGet) { //error return tTypeTemp; } return pGet->m_data; } /** * Set * * @param DWORD dwIndex * @param const T& tTemplate * @return T * @note Replaced with the element element element on position index, and returns the old element... * @attention Index must in the list */ template<typename T> T AL_ListDouble<T>::Set(DWORD dwIndex, const T& tTemplate ) { T tTypeTemp; memset(&tTypeTemp, 0x00, sizeof(T)); if (Length()-1 < dwIndex) { //error return tTypeTemp; } AL_Node<T>* pSet = GetNodeByIndex(dwIndex); if (NULL == pSet) { //error return tTypeTemp; } tTypeTemp = pSet->m_data; pSet->m_data = tTemplate; return tTypeTemp; } /** * Clear * * @param VOID * @return VOID * @note clear the data in the list * @attention all data will be clear */ template<typename T> VOID AL_ListDouble<T>::Clear() { if (TRUE == IsEmpty()) { //No data, return; } AL_Node<T>* pDelete = NULL; while(NULL != m_pHeader->m_pNext){ //get the node pDelete = m_pHeader->m_pNext; m_pHeader->m_pNext = pDelete->m_pNext; delete pDelete; pDelete = NULL; } } /** * GetNodeByIndex * * @param * @return BOOL * @note get the const T& at the position * @attention the dwIndex must is little than the list length */ template<typename T> AL_Node<T>* AL_ListDouble<T>::GetNodeByIndex(DWORD dwIndex) const { if (Length()-1 < dwIndex) { //error return NULL; } AL_Node<T>* pMove = NULL; DWORD dwCount = 1; //loop the next data; pMove = m_pHeader->m_pNext; while (NULL != pMove->m_pNext) { if (dwCount-1 == dwIndex) { //get this place return pMove; } dwCount ++; pMove = pMove->m_pNext; } //the end return pMove; /* //forward loop (only for test) //get the end node AL_Node<T>* pEnd = NULL; AL_Node<T>* pMove = NULL; //loop the next data; pMove = m_pHeader->m_pNext; while (NULL != pMove->m_pNext) { pMove = pMove->m_pNext; } pEnd = pMove; pMove = NULL; DWORD dwCount = Length(); //loop the next data; pMove = pEnd; while (m_pHeader != pMove->m_pPre) { if (dwCount-1 == dwIndex) { //get this place return pMove; } dwCount --; pMove = pMove->m_pPre; } //the end return pMove; */ } #endif // CXX_AL_LISTDOUBLE_H /* EOF */
测试代码
#ifdef TEST_AL_LISTDOUBLE AL_ListDouble<DWORD> cListDouble; BOOL bEmpty = cListDouble.IsEmpty(); std::cout<<bEmpty<<std::endl; int array[15]={1,2,3,4,5,6,7,8,9,10,11,12,13,14,15}; for(int i=0;i<15;i++) cListDouble.Insert(cListDouble.Length(), array[i]); bEmpty = cListDouble.IsEmpty(); std::cout<<bEmpty<<std::endl; //test the interface DWORD dwListSeqLen = cListDouble.Length(); std::cout<<dwListSeqLen<<std::endl; DWORD dwFind = cListDouble.Find(16); std::cout<<dwFind<<std::endl; dwFind = cListDouble.Find(12); std::cout<<dwFind<<std::endl; BOOL bElement = cListDouble.IsElement(16); std::cout<<bElement<<std::endl; bElement = cListDouble.IsElement(14); std::cout<<bElement<<std::endl; BOOL bInsert = cListDouble.Insert(0, 0); std::cout<<bInsert<<std::endl; bInsert = cListDouble.Insert(16, 16); std::cout<<bInsert<<std::endl; bInsert = cListDouble.Insert(16, 999); std::cout<<bInsert<<std::endl; BOOL bRemove = cListDouble.Remove(9846354); std::cout<<bRemove<<std::endl; bRemove = cListDouble.Remove(999); std::cout<<bRemove<<std::endl; bRemove = cListDouble.Remove(10); std::cout<<bRemove<<std::endl; INT it = 0x00; for (DWORD i=0; i<cListDouble.Length(); i++) { it = cListDouble.Get(i); std::cout<<it<<std::endl; } DWORD dwSet = cListDouble.Set(16, 999); std::cout<<dwSet<<std::endl; dwSet = cListDouble.Set(0, 888); std::cout<<dwSet<<std::endl; dwSet = cListDouble.Set(11, 777); std::cout<<dwSet<<std::endl; for (DWORD i=0; i<cListDouble.Length(); i++) { it = cListDouble.Get(i); std::cout<<it<<std::endl; } cListDouble.Clear(); bEmpty = cListDouble.IsEmpty(); std::cout<<bEmpty<<std::endl; dwListSeqLen = cListDouble.Length(); std::cout<<dwListSeqLen<<std::endl; bInsert = cListDouble.Insert(1, 999); std::cout<<bInsert<<std::endl; bInsert = cListDouble.Insert(0, 666); std::cout<<bInsert<<std::endl; bRemove = cListDouble.Remove(666); std::cout<<bRemove<<std::endl; bEmpty = cListDouble.IsEmpty(); std::cout<<bEmpty<<std::endl; dwListSeqLen = cListDouble.Length(); std::cout<<dwListSeqLen<<std::endl; #endif