本文实例为大家分享了c语言实现通用数据结构之通用链表的具体代码,供大家参考,具体内容如下
忽然想起来,大概在两年之前学习C语言的时候,曾经用C语言写过一些通用的数据结构。主要也就实现了链表、队列、椎、HashSet,还有HashMap。当时只是知道标准的C语言中没有这方面的类库,后来才知道有很多第三方的类似这样的类库。废话不多说,先把代码粘过来。
下面实现的是通用链表,注意链表中只存储了指针,没有储存实际的数据。
头文件
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/**************************** File myList.h**************************/ #ifndef MYLIST_H_INCLUDED#define MYLIST_H_INCLUDED#include <stdio.h> typedef struct myNode{ void * data; struct myNode *next;} MyNode; typedef struct myList{ MyNode * first; MyNode * last; int count; int (*equal)(void * a, void * b);} MyList; typedef struct myListIterator{ MyNode * p; int count; int allSize;} MyListIterator; //创建链表MyList * createMyList(); //创建链表,带有相等参数,用于查找MyList * createMySearchList(int(*equal)(void * a, void * b)); //释放链表void freeMyList(MyList * list); //插入在尾部void myListInsertDataAtLast(MyList* const list, void* const data); //插入在首部void myListInsertDataAtFirst(MyList * const list, void* const data); //插入void myListInsertDataAt(MyList * const list, void* const data, int index); //删除在尾部void* myListRemoveDataAtLast(MyList* const list); //删除在首部void* myListRemoveDataAtFirst(MyList * const list); //删除void* myListRemoveDataAt(MyList* const list, int index); //删除对象,返回是否删除成功int myListRemoveDataObject(MyList* const list, void * data); //长度int myListGetSize(const MyList * const list); //打印void myListOutput(const MyList * const list, void(*pt)(const void * const)); //取得数据void* myListGetDataAt(const MyList * const list, int index); //取得第一个数据void* myListGetDataAtFirst(const MyList * const list); //取得最后一个数据void* myListGetDataAtLast(const MyList * const list); //查找某个数据的位置,如果equal方法为空,比较地址,否则调用equal方法//如果不存在返回-1,如果存在,返回出现的第一个位置int myListFindDataIndex(const MyList * const list, void * data); //创建遍历器MyListIterator* createMyListIterator(const MyList * const list); //释放遍历器void freeMyListIterator(MyListIterator* iterator); //遍历器是否有下一个元素int myListIteratorHasNext(const MyListIterator* const iterator); //返回遍历器的下一个元素void * myListIteratorNext(MyListIterator* const iterator); #endif // MYLIST_H_INCLUDED |
源文件
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/**************************** File myList.c**************************/ #include "myList.h"#include <stdlib.h>//创建链表MyList * createMyList(){ MyList * re = (MyList *) malloc(sizeof(MyList)); re->count = 0; re->first = NULL; re->last = NULL; re->equal = NULL; return re;} //释放链表void freeMyList(MyList * list){ MyNode * p; while (list->first) { p = list->first->next; free(list->first); list->first = p; } free(list);} //插入在尾部void myListInsertDataAtLast(MyList * const list, void* const data){ MyNode * node = (MyNode *) malloc(sizeof(MyNode)); node->data = data; node->next = NULL; if (list->count) { list->last->next = node; list->last = node; } else { list->first = node; list->last = node; } (list->count)++;} //插入在首部void myListInsertDataAtFirst(MyList * const list, void* const data){ MyNode * node = (MyNode *) malloc(sizeof(MyNode)); node->data = data; node->next = NULL; if (list->count) { node->next = list->first; list->first = node; } else { list->first = node; list->last = node; } (list->count)++;} //长度int myListGetSize(const MyList * const list){ return list->count;} //打印void myListOutput(const MyList * const list, void(*pt)(const void * const)){ MyNode * p = list->first; while (p) { (*pt)(p->data); p = p->next; }} //删除在尾部void* myListRemoveDataAtLast(MyList* const list){ if (list->count == 1) { return myListRemoveDataAtFirst(list); } MyNode * p = list->first; while (p->next != list->last) { p = p->next; } void *re = list->last->data; free(list->last); p->next = NULL; list->last = p; (list->count)--; return re;} //删除在首部void* myListRemoveDataAtFirst(MyList * const list){ MyNode *p = list->first; list->first = p->next; void * re = p->data; free(p); (list->count)--; if (list->count == 0) { list->last = NULL; } return re;} //插入void myListInsertDataAt(MyList * const list, void* const data, int index){ if (index == 0) { myListInsertDataAtFirst(list, data); return; } if (index == list->count) { myListInsertDataAtLast(list, data); return; } MyNode * node = (MyNode *) malloc(sizeof(MyNode)); node->data = data; node->next = NULL; MyNode * p = list->first; for (int i = 0; i < index - 1; i++) { p = p->next; } node->next = p->next; p->next = node; (list->count)++;} //删除void* myListRemoveDataAt(MyList* const list, int index){ if (index == 0) { return myListRemoveDataAtFirst(list); } if (index == list->count - 1) { return myListRemoveDataAtLast(list); } MyNode * p = list->first; for (int i = 0; i < index - 1; i++) { p = p->next; } MyNode *tp = p->next; p->next = p->next->next; void * re = tp->data; free(tp); (list->count)--; return re;} //取得数据void* myListGetDataAt(const MyList * const list, int index){ if (index == list->count - 1) { return myListGetDataAtLast(list); } MyNode * p = list->first; for (int i = 0; i < index; i++) { p = p->next; } return p->data;} //取得第一个数据void* myListGetDataAtFirst(const MyList * const list){ return list->first->data;} //取得最后一个数据void* myListGetDataAtLast(const MyList * const list){ return list->last->data;} //查找某个数据的位置,如果equal方法为空,比较地址,否则调用equal方法//如果不存在返回-1,如果存在,返回出现的第一个位置int myListFindDataIndex(const MyList * const list, void * data){ MyNode * p = list->first; int re = 0; if (list->equal) { while (p) { if (p->data == data || (*(list->equal))(p->data, data)) { return re; } re++; p = p->next; } } else { while (p) { if (p->data == data) { return re; } re++; p = p->next; } } return -1;} //创建链表,带有相等参数,用于查找MyList * createMySearchList(int(*equal)(void * a, void * b)){ MyList * re = createMyList(); re->equal = equal; return re;} //创建遍历器MyListIterator* createMyListIterator(const MyList * const list){ MyListIterator * re = (MyListIterator *) malloc(sizeof(MyListIterator)); re->p = list->first; re->allSize = list->count; re->count = 0; return re;} //释放遍历器void freeMyListIterator(MyListIterator* iterator){ free(iterator);} //遍历器是否有下一个元素int myListIteratorHasNext(const MyListIterator* const iterator){ return iterator->count < iterator->allSize;} //返回遍历器的下一个元素void * myListIteratorNext(MyListIterator* const iterator){ void * re = iterator->p->data; iterator->p = iterator->p->next; (iterator->count)++; return re;} //删除对象,返回是否删除成功int myListRemoveDataObject(MyList* const list, void * data){ MyListIterator * it = createMyListIterator(list); int a = 0; while (myListIteratorHasNext(it)) { void * ld = myListIteratorNext(it); if (data == ld || (list->equal != NULL && (*(list->equal))(ld, data))) { a = 1; break; } } if (a) { myListRemoveDataAt(list, it->count - 1); } return a;} |
测试文件
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/**************************** File main.c*** test for MyList**************************/#include <stdio.h>#include <stdlib.h>#include "myList.h" typedef struct a{ int i; char c;} A; void ppt(const void* const p){ A * pp= p; printf("%d(%c) ", pp->i, pp->c);} int main(){ const int S =10; //创建并初始化数据 A * data= malloc(sizeof(A)*S); for (int i=0; i< S; i++) { data[i].i=i; data[i].c=(char)('A'+0); } //创建链表 MyList * list= createMyList(); //测试三种插入方法 myListInsertDataAtLast( list, &data[0]); myListInsertDataAtFirst( list, &data[4]); myListInsertDataAt(list, &data[1], 1 ); //测试查找 int index = myListFindDataIndex(list, &data[2]); printf("%d\n", index); index = myListFindDataIndex(list, &data[4]); printf("%d\n", index); //输出 myListOutput(list, ppt ); puts(""); //测试使用迭代器输出 MyListIterator * it = createMyListIterator(list); while(myListIteratorHasNext(it)) { A * pp = myListIteratorNext(it); printf("%d[%c] ", pp->i, pp->c); } puts(""); //释放迭代器 freeMyListIterator(it); //释放链表 freeMyList(list); //释放数据 free(data); return 0;} |
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持服务器之家。
原文链接:https://blog.csdn.net/swwlqw/article/details/22498833
