栈的实现(C语言实现)
程序员文章站
2023-12-25 09:14:33
//头文件
#include
/*====================
栈 数据结构
利用数组实现
====================*/
#define MAX...
//头文件
#include
/*====================
栈 数据结构
利用数组实现
====================*/
#define MAX 100
#define ok 1
#define error 0
typedef struct Stack
{
int data[MAX];
int top; //栈顶
int bottom; //栈底
}Stack,*STACK;
//初始化栈
int InitStack(STACK stack);
//销毁
int DestroyStack(STACK stack);
//清空
int ClearStack(STACK stack);
//栈空
int StackEmpty(STACK stack);
//获取栈顶元素
int GetTop(STACK stack,int* elem);
//压栈
int Push(STACK stack,int* elem);
//出栈
int Pop(STACK stack,int* elem);
//返回栈中元素长度
int StackLength(STACK stack,int* len);
//打印栈中元素
int PrintStack(STACK stack);
//栈满
int StackFull(STACK stack);
//main函数中实现
#include "stack.h"
int main()
{
int num=10, num1, i=0,j=0;
Stack stack;
int initFlag=InitStack(&stack);
if(!initFlag)
return 0;
for(num1=0;num1bottom=stack->top=0;
return ok;
}
//压栈
int Push(STACK stack,int* elem)
{
int flag=StackFull(stack);
if(!flag)
return error;
stack->data[stack->top] =*elem;
++stack->top;
return ok;
}
//打印栈中所有元素
int PrintStack(STACK stack)
{
int i=0;
int flag=StackEmpty(stack);
if(!flag)
return error;
for(i=0;itop;i++)
{
printf("%d ",stack->data[i]);
}
printf("\n");
return ok;
}
//栈空
int StackEmpty(STACK stack)
{
if(stack==NULL || stack->top==stack->bottom)
return error;
else
return ok;
}
//出栈
int Pop(STACK stack,int* elem)
{
int flag=StackEmpty(stack);
if(!flag)
return error;
*elem=stack->data[stack->top-1];
--stack->top;
return ok;
}
//栈满
int StackFull(STACK stack)
{
if(stack==NULL || stack->top>MAX)
return error;
else
return ok;
}
//销毁
int DestroyStack(STACK stack)
{
if(stack==NULL)
return ok;
else
{
stack->top=stack->bottom;
stack=NULL;
return ok;
}
}
//清空
int ClearStack(STACK stack)
{
int flag=StackEmpty(stack);
if(!flag)
return error;
else
{
stack->top=stack->bottom;
return ok;
}
}
//获取栈顶元素
int GetTop(STACK stack,int* elem)
{
int flag=StackEmpty(stack);
if(!flag)
return error;
*elem=stack->data[stack->top-1];
return ok;
}
//返回栈中元素长度
int StackLength(STACK stack,int* len)
{
if(stack==NULL)
return error;
if(stack->top==stack->bottom)
{
*len=0;
return ok;
}
else
{
*len=stack->top;
return ok;
}
}