// 数据结构 栈的实现 C语言, 只能从头部储存和销毁数据 # include <stdio.h> # include <stdlib.h> # include <malloc.h> // 线性储存部分 typedef struct NONE { int data; struct NONE * pNext; }None, * pNone; // 栈的头部和底部 typedef struct stack { pNone top; pNone bottom; }St, * pSt; // 创建一个空栈 void Create_Stack(pSt stack); // 压栈 void Push_Stack(pSt stack, int val); // 出栈, 返回出栈的那个节点的数据 int Out_Stack(pSt stack); // 计算栈中数据个数 int Compute_Stack(pSt stack); // 栈的遍历 void Travel_Stack(pSt stack); int main(void) { St stack; Create_Stack(&stack); Push_Stack(&stack, 1); Push_Stack(&stack, 1); Push_Stack(&stack, 1); Push_Stack(&stack, 1); int cnt = Compute_Stack(&stack); printf("此时栈中共有%d个元素! ", cnt); Out_Stack(&stack); cnt = Compute_Stack(&stack); printf("此时栈中共有%d个元素! ", cnt); Travel_Stack(&stack); return 0; } void Create_Stack(pSt stack) { stack->top = (pNone)malloc(sizeof(None)); if (NULL == stack->top) { printf("动态内存分配失败! "); exit(-1); } else { stack->bottom = stack->top; stack->top->pNext = NULL; } return; } void Push_Stack(pSt stack, int val) { pNone pNew = (pNone)malloc(sizeof(None)); if (NULL == pNew) { printf("动态内存分配失败! "); exit(-1); } pNew->data = val; pNew->pNext = stack->top; stack->top = pNew; return; } int Out_Stack(pSt stack) { int val; pNone pOut; pOut = stack->top; val = pOut->data; stack->top = pOut->pNext; return val; } int Compute_Stack(pSt stack) { int cnt = 0; // 记录元素个数 pNone pTemp = stack->top; while (pTemp != stack->bottom) { ++cnt; pTemp = pTemp->pNext; } return cnt; } void Travel_Stack(pSt stack) { pNone pTemp = stack->top; while (pTemp != stack->bottom) { printf("%d ", pTemp->data); pTemp = pTemp->pNext; } return; }