栈的链式存储

 

代码示例:

 
栈的链式存储.c 
#define _CRT_SECURE_NO_WARNINGS
#include<stdio.h>
#include<string.h>
#include<stdlib.h>
#include"LinkStack.h"
typedef struct PERSON
{
        LinkNode node;
        char name[64];
        int age;
}Person;
void test01()
{
        //创建栈
        LinkStack*stack = Init_LinkStack();
        //创建数据
        Person p1, p2, p3, p4,p5;
        strcpy(p1.name, "aaa");
        strcpy(p2.name, "bbb");
        strcpy(p3.name, "ccc");
        strcpy(p4.name, "ddd");
        strcpy(p5.name, "eee");
        
        p1.age = 10;
        p2.age = 20;
        p3.age = 30;
        p4.age = 40;
        p5.age = 50;
        //入栈
        Push_LinkStack(stack, (LinkNode*)&p1);
        Push_LinkStack(stack, (LinkNode*)&p2);
        Push_LinkStack(stack, (LinkNode*)&p3);
        Push_LinkStack(stack, (LinkNode*)&p4);
        Push_LinkStack(stack, (LinkNode*)&p5);
        //输出
        while (Size_LinkStack(stack) > 0)
        {
               //取出栈顶元素
               Person*p = (Person*)Top_LinkStack(stack);
               printf("Name:%s Age:%d\n", p->name, p->age);
               //弹出栈顶元素
               Pop_LinkStack(stack);
        }
        //销毁栈
        FreeSpace_LinkStack(stack);
}
int main()
{
        test01();
        return EXIT_SUCCESS;
}

LinkStack.c

#include"LinkStack.h"
//初始化函数
LinkStack*Init_LinkStack()
{
        LinkStack*stack = (LinkStack*)malloc(sizeof(LinkStack));
        stack->head.next = NULL;
        stack->size = 0;
        
        return stack;
}
//入栈
void Push_LinkStack(LinkStack* stack, LinkNode*data)
{
        if (stack == NULL)
        {
               return;
        }
        if (data == NULL)
        {
               return;
        }
        data->next = stack->head.next;
        stack->head.next = data;
        stack->size++;
}
//出栈
void Pop_LinkStack(LinkStack*stack)
{
        if (stack == NULL)
        {
               return;
        }
        if (stack == 0)
        {
               return;
        }
        //第一个有效结点
        LinkNode*pNext = stack->head.next;
        stack->head.next=pNext->next;
        stack->size--;
}
//返回栈顶元素
LinkNode*Top_LinkStack(LinkStack*stack)
{
        if (stack == NULL)
        {
               return;
        }
        if (stack->size == 0)
        {
               return NULL;
        }
        return stack->head.next;
}
//返回栈元素的个数
int Size_LinkStack(LinkStack*stack)
{
        if (stack == NULL)
        {
               return -1;
        }
        return stack->size;
}
//清空栈
void Clear_LinkStack(LinkStack*stack)
{
        if (stack == NULL)
        {
               return;
        }
        stack->head.next = NULL;
        stack->size = 0;
}
//销毁栈
void FreeSpace_LinkStack(LinkStack*stack)
{
        if (stack == NULL)
        {
               return;
        }
        free(stack);
}

LinkStack.h

#ifndef LINKSTACK_H
#define LINKSTACK_H
#include<stdio.h>
#include<stdlib.h>
//链式栈的结点
typedef struct LINKNODE
{
        struct LINKNODE*next;
}LinkNode;
//链式表
typedef struct LINKSTACK
{
        LinkNode head;
        int size;
}LinkStack;
//初始化函数
LinkStack*Init_LinkStack();
//入栈
void Push_LinkStack(LinkStack* stack, LinkNode*data);
//出栈
void Pop_LinkStack(LinkStack*stack);
//返回栈顶元素
LinkNode*Top_LinkStack(LinkStack*stack);
//返回栈元素的个数
int Size_LinkStack(LinkStack*stack);
//清空栈
void Clear_LinkStack(LinkStack*stack);
//销毁栈
void FreeSpace_LinkStack(LinkStack*stack);
#endif