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C语言一个双向链表的实现
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DList.c
#include"DList.h" #include<malloc.h> #include<stdlib.h> /*分配值为i的节点,并返回节点地址*/ Position MakeNode(Item i) { PNode p = NULL; p = (PNode)malloc(sizeof(Node)); if(p!=NULL) { p->data =http://www.mamicode.com/ i; p->previous = NULL; p->next = NULL; } return p; } /*释放p所指的节点*/ void FreeNode(PNode p) { free(p); } /*构造一个空的双向链表*/ DList * InitList() { DList *plist = (DList *)malloc(sizeof(DList)); PNode head = MakeNode(0); if(plist!=NULL) { if(head!=NULL) { plist->head = head; plist->tail = head; plist->size = 0; } else return NULL; } return plist; } /*摧毁一个双向链表*/ void DestroyList(DList *plist) { ClearList(plist); free(GetHead(plist)); free(plist); } /*判断链表是否为空表*/ int IsEmpty(DList *plist) { if(GetSize(plist)==0&&GetTail(plist)==GetHead(plist)) return 1; else return 0; } /*将一个链表置为空表,释放原链表节点空间*/ void ClearList(DList *plist) { PNode temp,p; p = GetTail(plist); while(!IsEmpty(plist)) { temp = GetPrevious(p); FreeNode(p); p = temp; plist->tail = temp; plist->size--; } } /*返回头节点地址*/ Position GetHead(DList *plist) { return plist->head; } /*返回尾节点地址*/ Position GetTail(DList *plist) { return plist->tail; } /*返回链表大小*/ int GetSize(DList *plist) { return plist->size; } /*返回p的直接后继位置*/ Position GetNext(Position p) { return p->next; } /*返回p的直接前驱位置*/ Position GetPrevious(Position p) { return p->previous; } /*将pnode所指节点插入第一个节点之前*/ PNode InsFirst(DList *plist,PNode pnode) { Position head = GetHead(plist); if(IsEmpty(plist)) plist->tail = pnode; plist->size++; pnode->next = head->next; pnode->previous = head; if(head->next!=NULL) head->next->previous = pnode; head->next = pnode; return pnode; } /*将链表第一个节点删除,返回该节点的地址*/ PNode DelFirst(DList *plist) { Position head = GetHead(plist); Position p=head->next; if(p!=NULL) { if(p==GetTail(plist)) plist->tail = p->previous; head->next = p->next; head->next->previous = head; plist->size--; } return p; } /*获得节点的数据项*/ Item GetItem(Position p) { return p->data; } /*设置节点的数据项*/ void SetItem(Position p,Item i) { p->data =http://www.mamicode.com/ i; } /*删除链表中的尾节点并返回地址,改变链表的尾指针指向新的尾节点*/ PNode Remove(DList *plist) { Position p=NULL; if(IsEmpty(plist)) return NULL; else { p = GetTail(plist); p->previous->next = p->next; plist->tail = p->previous; plist->size--; return p; } } /*在链表中p位置之前插入新节点s*/ PNode InsBefore(DList *plist,Position p,PNode s) { s->previous = p->previous; s->next = p; p->previous->next = s; p->previous = s; plist->size++; return s; } /*在链表中p位置之后插入新节点s*/ PNode InsAfter(DList *plist,Position p,PNode s) { s->next = p->next; s->previous = p; if(p->next != NULL) p->next->previous = s; p->next = s; if(p = GetTail(plist)) plist->tail = s; plist->size++; return s; } /*返回在链表中第i个节点的位置*/ PNode LocatePos(DList *plist,int i) { int cnt = 0; Position p = GetHead(plist); if(i>GetSize(plist)||i<1) return NULL; while(++cnt<=i) { p=p->next; } return p; } /*依次对链表中每个元素调用函数visit()*/ void ListTraverse(DList *plist,void (*visit)()) { Position p = GetHead(plist); if(IsEmpty(plist)) exit(0); else { while(p->next!=NULL) { p = p->next; visit(p->data); } } }
DList.h
#ifndef DList_H #define DList_H typedef int Item; typedef struct Node * PNode; typedef PNode Position; /*定义节点类型*/ typedef struct Node { Item data; /*数据域*/ PNode previous; /*指向前驱*/ PNode next; /*指向后继*/ }Node; /*定义链表类型*/ typedef struct { PNode head; /*指向头节点*/ PNode tail; /*指向尾节点*/ int size; }DList; /*分配值为i的节点,并返回节点地址*/ Position MakeNode(Item i); /*释放p所指的节点*/ void FreeNode(PNode p); /*构造一个空的双向链表*/ DList* InitList(); /*摧毁一个双向链表*/ void DestroyList(DList *plist); /*将一个链表置为空表,释放原链表节点空间*/ void ClearList(DList *plist); /*返回头节点地址*/ Position GetHead(DList *plist); /*返回尾节点地址*/ Position GetTail(DList *plist); /*返回链表大小*/ int GetSize(DList *plist); /*返回p的直接后继位置*/ Position GetNext(Position p); /*返回p的直接前驱位置*/ Position GetPrevious(Position p); /*将pnode所指节点插入第一个节点之前*/ PNode InsFirst(DList *plist,PNode pnode); /*将链表第一个节点删除并返回其地址*/ PNode DelFirst(DList *plist); /*获得节点的数据项*/ Item GetItem(Position p); /*设置节点的数据项*/ void SetItem(Position p,Item i); /*删除链表中的尾节点并返回其地址,改变链表的尾指针指向新的尾节点*/ PNode Remove(DList *plist); /*在链表中p位置之前插入新节点S*/ PNode InsBefore(DList *plist,Position p,PNode s); /*在链表中p位置之后插入新节点s*/ PNode InsAfter(DList *plist,Position p,PNode s); /*返回在链表中第i个节点的位置*/ PNode LocatePos(DList *plist,int i); /*依次对链表中每个元素调用函数visit()*/ void ListTraverse(DList *plist,void (*visit)()); #endif
main.c
#include"DList.h" #include<stdio.h> void print(Item i) { printf("数据项为%d \n",i); } main() { DList *plist = NULL; PNode p = NULL; plist = InitList(); p = InsFirst(plist,MakeNode(1)); InsBefore(plist,p,MakeNode(2)); InsAfter(plist,p,MakeNode(3)); printf("p前驱位置的值为%d\n",GetItem(GetPrevious(p))); printf("p位置的值为%d\n",GetItem(p)); printf("p后继位置的值为%d\n",GetItem(GetNext(p))); printf("遍历输出各节点数据项:\n"); ListTraverse(plist,print); printf("除了头节点该链表共有%d个节点\n",GetSize(plist)); FreeNode(DelFirst(plist)); printf("删除第一个节点后重新遍历输出为:\n"); ListTraverse(plist,print); printf("除了头节点该链表共有%d个节点\n",GetSize(plist)); DestroyList(plist); printf("链表已被销毁\n"); }
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C语言一个双向链表的实现
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