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4-7 在一个数组中实现两个堆栈

2016-12-17 23:14 281 查看

本题要求在一个数组中实现两个堆栈。

函数接口定义：

Stack CreateStack( int MaxSize );

bool Push( Stack S, ElementType X, int Tag );

ElementType Pop( Stack S, int Tag );

其中Tag是堆栈编号，取1或2；MaxSize堆栈数组的规模；Stack结构定义如下：

typedef int Position;

struct SNode {

ElementType *Data;

Position Top1, Top2;

int MaxSize;

};

typedef struct SNode *Stack;

注意：如果堆栈已满，Push函数必须输出“Stack Full”并且返回false；如果某堆栈是空的，则Pop函数必须输出“Stack Tag Empty”（其中Tag是该堆栈的编号），并且返回ERROR。

裁判测试程序样例：

#include <stdio.h>
#include <stdlib.h>

#define ERROR 1e8
typedef int ElementType;
typedef enum { push, pop, end } Operation;
typedef enum { false, true } bool;
typedef int Position;
struct SNode {
ElementType *Data;
Position Top1, Top2;
int MaxSize;
};
typedef struct SNode *Stack;

Stack CreateStack( int MaxSize );
bool Push( Stack S, ElementType X, int Tag );
ElementType Pop( Stack S, int Tag );

Operation GetOp();  /* details omitted */
void PrintStack( Stack S, int Tag ); /* details omitted */

int main()
{
int N, Tag, X;
Stack S;
int done = 0;

scanf("%d", &N);
S = CreateStack(N);
while ( !done ) {
switch( GetOp() ) {
case push:
scanf("%d %d", &Tag, &X);
if (!Push(S, X, Tag)) printf("Stack %d is Full!\n", Tag);
break;
case pop:
scanf("%d", &Tag);
X = Pop(S, Tag);
if ( X==ERROR ) printf("Stack %d is Empty!\n", Tag);
break;
case end:
PrintStack(S, 1);
PrintStack(S, 2);
done = 1;
break;
}
}
return 0;
}

/* 你的代码将被嵌在这里 */

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输入样例：

5

Push 1 1

Pop 2

Push 2 11

Push 1 2

Push 2 12

Pop 1

Push 2 13

Push 2 14

Push 1 3

Pop 2

End

输出样例：

Stack 2 Empty
Stack 2 is Empty!
Stack Full
Stack 1 is Full!
Pop from Stack 1: 1

Pop from Stack 2: 13 12 11
代码如下所示：
Stack CreateStack( int MaxSize )
{
ElementType element[MaxSize];
Stack stack = (Stack)malloc(sizeof(struct SNode));
stack->Data = (ElementType*)malloc(sizeof(ElementType)*MaxSize); ////注意这儿的数组需要申请，之前的错误代码为
////ElementType a[5];stack->Data =a;

stack->Top1 = -1; //注意边界
stack->Top2 = MaxSize; //注意边界
stack->MaxSize = MaxSize;
return stack;
}
bool Push( Stack S, ElementType X, int Tag )
{
if(S->Top1+1==S->Top2)
{
printf("Stack Full\n");
return false;
}
if(Tag == 1)
{
S->Top1++;
S->Data[S->Top1] = X;
return true;
}
else
{
S->Top2--;
S->Data[S->Top2] = X;
return true;
}
return false;
}
ElementType Pop( Stack S, int Tag )
{
if(Tag==1)
{
if(S->Top1 == 0)
{
printf("Stack %d Empty\n",Tag);
return ERROR;
}
S->Top1--;
return S->Data[S->Top1+1];
}
else
{
if(S->Top2 == S->MaxSize)
{
printf("Stack %d Empty\n",Tag);
return ERROR;
}
S->Top2++;
return S->Data[S->Top2-1];
}
}
ElementType Pop( Stack S, int Tag ){
if(S == NULL)
return ERROR;
if(1 == Tag){
if(-1 == S->Top1){
printf("Stack %d Empty\n", Tag);
return ERROR;
}
return S->Data[(S->Top1)--];
}else if(2 == Tag){
if(S->MaxSize == S->Top2){
printf("Stack %d Empty\n", Tag);
return ERROR;
}
return S->Data[(S->Top2)++];
}
return ERROR;
}
Operation GetOp()
{
char a[5];
scanf("%s",a);
if(strcmp(a,"push")==0) return push;
if(strcmp(a,"pop")==0) return pop;
if(strcmp(a,"end")==0) return end;
}
void PrintStack( Stack S, int Tag )
{
if(Tag==1)
{
printf("Pop from Stack 1:") ;
for(int i =S->Top1;i>=0;i--)
printf("%d ",(S->Data)[i]);
printf("\n");
}
if(Tag==2)
{
printf("Pop from Stack 2:") ;
for(int i = S->Top2;i<S->MaxSize;i++)
printf("%d ",(S->Data)[i]);
}
}

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