一、通过业务结点构建关联
1、头文件linkstack.h
#include <stdio.h>
typedef struct Node
{
struct Node* next;
}Node;
typedef struct StackNode //业务结点
{
Node node;
void* data;
}StackNode;
typedef struct LinkStack
{
int length;
StackNode* top;
}LinkStack;
void InitStack(LinkStack*); //初始化栈
int StackEmpty(LinkStack*); //判断栈是否为空
int StackLength(LinkStack*); //返回栈的大小
void GetTop(LinkStack*, void**); //获取栈顶元素值
void PushStack(LinkStack*, void*); //入栈
void PopStack(LinkStack*, void**); //出栈
void ClearStack(LinkStack*); //清空栈
2、相关操作函数linkstack.c
#include "linkstack2.h"
#include <stdlib.h>
void InitStack(LinkStack* st)
{
st->length = 0;
st->top = NULL;
}
int StackEmpty(LinkStack* st)
{
if(st->length == 0)
return 1;
return 0;
}
int StackLength(LinkStack* st)
{
return st->length;
}
void GetTop(LinkStack* st, void** e)
{
if(st->length == 0)
{
printf("空栈!\n");
return;
}
*e = st->top->data;
}
void PushStack(LinkStack* st, void* e)
{
StackNode* pNew = (StackNode*)malloc(sizeof(StackNode));
pNew->data = e;
pNew->node.next = &st->top->node;
st->top = pNew;
st->length++;
}
void PopStack(LinkStack* st, void** e)
{
StackNode* pDel = st->top;
*e = pDel->data;
st->top = (StackNode*)pDel->node.next;
free(pDel);
st->length--;
}
void ClearStack(LinkStack* st)
{
if(st->length == 0)
{
printf("空栈!\n");
return;
}
while(st->length)
{
void* tmp;
PopStack(st, &tmp);
}
}
3、主函数main.c
#include <stdio.h>
#include <stdlib.h>
#include "linkstack2.h"
typedef struct stu
{
int id;
int age;
}student;
int main()
{
LinkStack st;
InitStack(&st);
student s[10];
int i = 0;
for(i = 0; i < sizeof(s) / sizeof(student); i++)
{
s[i].id = i;
s[i].age = i + 20;
PushStack(&st, &s[i]);
}
printf("当前栈的大小为:%d\n", st.length);
for(i = 0; i < 5; i++)
{
student* tmp;
GetTop(&st, (void**)&tmp);
printf("当前栈顶元素的值为:id = %d, age = %d\n", tmp->id, tmp->age);
PopStack(&st, (void**)&tmp);
printf("当前出栈元素的值为:id = %d, age = %d\n", tmp->id, tmp->age);
printf("\n");
}
printf("当前栈的大小为:%d\n", st.length);
ClearStack(&st);
printf("当前栈的大小为:%d\n", st.length);
return 0;
}
二、通过在存放数据的结构体中加入结点建立关联
1、头文件linkstack2.h
#include <stdio.h>
typedef struct Node
{
struct Node* next;
}Node;
typedef struct LinkStack
{
int length;
Node* top; //栈顶指针,永远指向第一个数据结点
}LinkStack;
void InitStack(LinkStack*);
int StackEmpty(LinkStack*);
int StackLength(LinkStack*);
void GetTop(LinkStack*, Node**);
void PopStack(LinkStack*, Node**);
void PushStack(LinkStack*, Node*);
void ClearStack(LinkStack*);
2、相关操作函数linkstack2.c
#include "linkstack.h"
void InitStack(LinkStack* st)
{
st->length = 0;
st->top = NULL;
}
int StackEmpty(LinkStack* st)
{
if(st->length == 0)
return 1;
return 0;
}
int StackLength(LinkStack* st)
{
return st->length;
}
void GetTop(LinkStack* st, Node** e)
{
if(st->length == 0)
{
printf("空栈!\n");
return;
}
*e = st->top;
}
void PopStack(LinkStack* st, Node** e)
{
if(st->length == 0)
{
printf("空栈!\n");
return;
}
Node* pDel = st->top;
*e = pDel;
st->top = pDel->next;
st->length--;
}
void PushStack(LinkStack* st, Node* e)
{
Node* pNew = e;
pNew->next = st->top;
st->top = pNew;
st->length++;
}
void ClearStack(LinkStack* st)
{
Node* tmp;
while(st->length)
{
PopStack(st, &tmp);
}
}
3、主函数main.c
#include <stdio.h>
#include <stdlib.h>
#include "linkstack.h"
typedef struct stu
{
Node P;
int id;
int age;
}Student;
int main()
{
Student s[10];
LinkStack st;
InitStack(&st);
int i = 0;
for(i = 0; i < (sizeof(s) / sizeof(s[0])); i++)
{
s[i].id = i;
s[i].age = i + 20;
}
for(i = 0; i < 10; i++)
{
PushStack(&st, &s[i].P);
}
for(i = 0; i < 5; i++)
{
Node* tmp;
GetTop(&st, &tmp);
Student* tmp1 = (Student*) tmp;
printf("当前栈顶元素值为:id = %d, age = %d\n", tmp1->id, tmp1->age);
PopStack(&st, &tmp);
tmp1 = (Student*) tmp;
printf("出栈元素值为:id = %d, age = %d\n", tmp1->id, tmp1->age);
printf("\n");
}
printf("当前栈的大小为:%d\n", st.length);
ClearStack(&st);
printf("当前栈的大小为:%d\n", st.length);
return 0;
}
