栈的顺序表示和实现

栈的顺序存储结构

#define STACK_INIT_SIZE 10#define STACK_INCREMENT 2struct SqStack//顺序栈{    SElemType *base;//在栈构造指针之前和销毁之后，base值为NULL    SElemType *top;//栈顶指针    int stacksize;//当前已分配的存储空间，以元素为单位};

栈的9个基本操作

void InitStack(SqStack &S){//构造一个空栈S    S.base = (SElemType *)malloc(STACK_INIT_SIZE * sizeof(SElemType));    if (!S.base) exit(OVERFLOW);    S.top = S.base;//栈顶指向栈底    S.stacksize = STACK_INIT_SIZE;}void DestroyStack(SqStack &S){    free(S.base);    S.top = S.base = NULL;    S.stacksize = 0;}void ClearStack(SqStack &S){//把S置为空栈    S.top = S.base;//栈顶指针指向栈底}Status StackEmpty(SqStack S){    if (S.top == S.base)return TRUE;//空栈条件    else return FALSE;}int StackLength(SqStack S){    return S.top - S.base;}Status GetTop(SqStack S, SElemType &e){    if (S.top > S.base){        e = *(S.top - 1);        return OK;    }    else        return ERROR;}void Push(SqStack &S, SElemType e){    if (S.top - S.base == S.stacksize){        S.base = (SElemType *)realloc(S.base, (S.stacksize + STACK_INCREMENT) * sizeof(SElemType));        if (!S.base) exit(OVERFLOW);        S.top = S.base + S.stacksize;//修改栈顶指针，指向新的栈顶        S.stacksize += STACK_INCREMENT;//更新当前已分配的存储空间    }    *(S.top)++ = e;//将e入栈，成为新的栈顶元素，栈顶指针上移1个存储单元}Status Pop(SqStack &S, SElemType &e){    if (S.top == S.base)return ERROR;    e = *--S.top;//将栈顶元素赋给e，栈顶指针下移1个存储单元    return OK;}void StackTraverse(SqStack S, void(*visit)(SElemType&)){    while (S.top > S.base)    {        visit(*S.base++);    }    printf("\n");}