单链表是一种链式存取的数据结构,用一组地址任意的存储单元存放线性表中的数据元素。
链表结构:
SList.h
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#pragma oncetypedef int DataType;typedef struct SListNode{DataType data;struct SListNode* next;}SListNode;// 如果要修改链表就必须加引用SListNode* _BuyNode(DataType x); //建立节点void PrintSlist(SListNode* pHead); //打印单链表void PushBack(SListNode* & pHead, DataType x); //尾插 (这里用了引用,指明是list的别名,调用时传参,不用传地址)(引用在.c文件中不可用)//void PushBack(SListNode** pHead, DataType x); // 这里的第一个参数指向链表第一个节点的指针的地址(调用时传参,传的是地址)void PopBack(SListNode* & pHead); //尾删void PushFront(SListNode* & pHead, DataType x); //头插void PopFront(SListNode* & pHead); //头删void DestoryList(SListNode*& pHead); //清空整个链表int GetSize(SListNode* pHead); //获取链表长度SListNode* Find(SListNode* pHead, DataType x); //查找void Insert(SListNode* pos, DataType x); //某位置后插入数据void Erase(SListNode*& pHead, SListNode* pos); //删除某位置的数据void DelNonTailNode(SListNode* pos); //删除一个无头单链表的非尾节点void InsertFrontNode(SListNode* pos, DataType x); // 在无头单链表的一个非头节点前插入一个节点SListNode* FindMidNode(SListNode* pHead); //查找中间节点SListNode* FindKNode(SListNode* pHead, int k); //查找倒数第k个节点(要求只能遍历一次)void PrintTailToHead(SListNode* pHead); //倒着打印单链表(递归)//SListNode* Reverse_(SListNode* pHead); //逆置单链表(需要接收返回值),原链表会面目全非void Reverse(SListNode*& pHead); // 将原链表逆置SListNode* Merge(SListNode* pHead1, SListNode* pHead2); //合并两个有序链表(合并后依然有序)(递归)void Sort(SListNode* pHead); //冒泡排序 |
SList.cpp
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#include"SList.h"#include <stdio.h>#include<assert.h>#include <malloc.h>SListNode* _BuyNode(DataType x) //建立节点{SListNode* tmp = (SListNode*)malloc(sizeof(SListNode));tmp->data = x;tmp->next = NULL;return tmp;}void PrintSlist(SListNode* pHead) // 打印单链表{SListNode* cur = pHead;while (cur){printf("%d->", cur->data);cur = cur->next;}printf("NULL\n");}//void PushBack(SListNode** ppHead, DataType x) //尾插//{// assert(ppHead);// // 1.空// // 2.不为空// if(*ppHead == NULL)// {// *ppHead = _BuyNode(x);// }// else// {// // 找尾// SListNode* tail = *ppHead;// while(tail->next != NULL)// {// tail = tail->next;// }//// tail->next = _BuyNode(x);// }//}void PushBack(SListNode* & pHead, DataType x) //尾插{// 1.空// 2.不为空if (pHead == NULL){pHead = _BuyNode(x);}else{// 找尾SListNode* tail = pHead;while (tail->next != NULL){tail = tail->next;}tail->next = _BuyNode(x);}}void PopBack(SListNode* & pHead) // 尾删{//// 1.空// 2.一个节点// 3.多个节点//if (pHead == NULL){return;}else if (pHead->next == NULL){free(pHead);pHead = NULL;}else{SListNode* tail = pHead;SListNode* prev = NULL;while (tail->next){prev = tail;tail = tail->next;}free(tail);prev->next = NULL;}}void PushFront(SListNode* & pHead, DataType x) //头插{// 1.空// 2.不空if (pHead == NULL){pHead = _BuyNode(x);}else{SListNode* tmp = _BuyNode(x);tmp->next = pHead;pHead = tmp;}}void PopFront(SListNode*& pHead) //头删{//// 1.空// 2.一个节点// 3.一个以上的节点//if (pHead == NULL){return;}else if (pHead->next == NULL){free(pHead);pHead = NULL;}else{SListNode* tmp = pHead;pHead = pHead->next;free(tmp);}}void DestoryList(SListNode*& pHead) //清空整个链表{SListNode* cur = pHead;while (cur){SListNode* tmp = cur;cur = cur->next;free(tmp);}pHead = NULL;}int GetSize(SListNode* pHead) //获取链表长度{assert(pHead);SListNode* cur = pHead;int count = 0;while (cur){count++;cur = cur->next;}return count;}SListNode* Find(SListNode* pHead, DataType x) //查找节点{SListNode* cur = pHead;while (cur){if (cur->data == x){return cur;}cur = cur->next;}return NULL;}void Insert(SListNode* pos, DataType x) // 某位置后插入节点{assert(pos);SListNode* tmp = _BuyNode(x);tmp->next = pos->next;pos->next = tmp;}void Erase(SListNode*& pHead, SListNode* pos) //删除某位置的节点{assert(pos);assert(pHead);//pos为头结点if (pHead == pos){pHead = pHead->next;free(pos);return;}////SListNode* prev = pHead;while (prev){if (prev->next == pos){prev->next = pos->next;free(pos);break;}prev = prev->next;}}void DelNonTailNode(SListNode* pos) //// 删除一个无头单链表的非尾节点{assert(pos);assert(pos->next);SListNode* del = pos->next;SListNode* dnext = del->next;pos->data = del->data;pos->next = dnext;free(del);}void InsertFrontNode(SListNode* pos, DataType x) // 在无头单链表的一个非头节点前插入一个节点{assert(pos);SListNode* tmp = _BuyNode(pos->data);tmp->next = pos->next;pos->next = tmp;pos->data = x;}void Sort(SListNode* pHead) //冒泡排序{assert(pHead);int size = GetSize(pHead);for (int i = 0; i < size - 1; i++){SListNode* left = pHead;SListNode* right = pHead->next;for (int j = 0; j < size - i - 1; j++){if (left->data>right->data){int tmp = left->data;left->data = right->data;right->data = tmp;}right = right->next;left = left->next;}}}SListNode* FindMidNode(SListNode* pHead) //查找中间节点{SListNode* fast = pHead;SListNode* slow = pHead;while (fast&&fast->next){slow = slow->next;fast = fast->next->next;}return slow;}SListNode* FindKNode(SListNode* pHead, int k) //查找倒数第k个节点{SListNode* fast = pHead;SListNode* slow = pHead;while (fast && k--){fast = fast->next;}if (k > 0){return NULL;}while (fast){slow = slow->next;fast = fast->next;}return slow;}void PrintTailToHead(SListNode* pHead) //倒着打印单链表(递归){if (pHead){PrintTailToHead(pHead->next);printf("%d ", pHead->data);}}//SListNode* Reverse_(SListNode* pHead) //逆置单链表(需要接收返回值)原链表会面目全非//{// SListNode* cur = pHead;// SListNode* newHead = NULL;// while (cur)// {// SListNode* tmp = cur;// cur = cur->next;// tmp->next = newHead;// newHead = tmp;// }// return newHead;//}void Reverse(SListNode*& pHead) //逆置单链表{SListNode* cur = pHead;SListNode* newHead = NULL;while (cur){SListNode* tmp = cur;cur = cur->next; tmp->next = newHead;newHead = tmp;}pHead = newHead;//return newHead;}SListNode* Merge(SListNode* pHead1, SListNode* pHead2) //合并两个有序链表(合并后依然有序)递归{if (pHead1 == NULL)return pHead2;else if (pHead2 == NULL)return pHead1;SListNode* pMergedHead = NULL;if (pHead1->data < pHead2->data){pMergedHead = pHead1;pMergedHead->next = Merge(pHead1->next, pHead2);}else{pMergedHead = pHead2;pMergedHead->next = Merge(pHead1, pHead2->next);}return pMergedHead;} |
Test.cpp
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#include "SList.h"#include<stdlib.h>void Test1(){// 尾插 打印 尾删 头插 头删 清空链表SListNode* list = NULL;PushBack(list, 1);PushBack(list, 2);PushBack(list, 3);PushBack(list, 4);PrintSlist(list);PopBack(list);PrintSlist(list);PushFront(list,0);PrintSlist(list);PopFront(list);PrintSlist(list);DestoryList(list);PrintSlist(list);}void Test2(){// 查找节点 在某位置插入节点 删除某位置节点 SListNode* list = NULL;PushBack(list, 1);PushBack(list, 2);PushBack(list, 3);PushBack(list, 4);PrintSlist(list);SListNode* pos = Find(list, 2);Insert(pos, 0);PrintSlist(list);Erase(list, Find(list, 0));PrintSlist(list);}void Test3(){SListNode* list = NULL;PushBack(list, 1);PushBack(list, 2);PushBack(list, 3);PushBack(list, 4);PushBack(list, 5);PushBack(list, 6);PrintSlist(list);// 删除一个无头单链表的非尾节点 /*SListNode* pos = Find(list, 2);DelNonTailNode(pos);PrintSlist(list);*/// 在无头单链表的一个非头节点前插入一个节点/*SListNode* pos = Find(list, 2);InsertFrontNode(pos, 0);PrintSlist(list);*///查找中间节点//PrintSlist(FindMidNode(list));//查找倒数第k个节点//SListNode* ret = FindKNode(list, 2);//PrintSlist(ret);//倒着打印单链表(递归)//PrintTailToHead(list);//逆置单链表//SListNode* ret = Reverse(list);//PrintSlist(ret);//PrintSlist(Reverse_(list));}void Test4(){ //合并两个有序链表(合并后依然有序)SListNode* list = NULL;PushBack(list, 4);PushBack(list, 2);PushBack(list, 1);PushBack(list, 4);PrintSlist(list);Sort(list);PrintSlist(list);/*SListNode* list1 = NULL;PushBack(list1, 2);PushBack(list1, 3);PushBack(list1, 3);PushBack(list1, 0);PrintSlist(list);Sort(list1);PrintSlist(list1);SListNode* ret = Merge(list, list1);PrintSlist(ret);PrintSlist(list);PrintSlist(list1);*/}int main(){//Test1();//Test2();//Test3();Test4();system("pause");return 0;} |
以上内容是小编给大家介绍的C语言单链表的实现代码,希望对大家有所帮助!
