前面我们讲到了队列,今天我们接着讨论另外一种数据结构:堆栈。堆栈几乎是程序设计的命脉,没有堆栈就没有函数调用,当然也就没有软件设计。那么堆栈有什么特殊的属性呢?其实,堆栈的属性主要表现在下面两个方面: (1)堆栈的数据是先入后出 (2)堆栈的长度取决于栈顶的高度 那么,作为连续内存类型的堆栈应该怎么设计呢?大家可以自己先试一下: (1)设计堆栈节点 [cpp] view plain copy typedef struct _STACK_NODE { int* pData; int length; int top; }STACK_NODE; (2)创建堆栈 [cpp] view plain copy STACK_NODE* alloca_stack(int number) { STACK_NODE* pStackNode = NULL; if(0 == number) return NULL; pStackNode = (STACK_NODE*)malloc(sizeof(STACK_NODE)); assert(NULL != pStackNode); memset(pStackNode, 0, sizeof(STACK_NODE)); pStackNode->pData = (int*)malloc(sizeof(int) * number); if(NULL == pStackNode->pData){ free(pStackNode); return NULL; } memset(pStackNode->pData, 0, sizeof(int) * number); pStackNode-> length = number; pStackNode-> top= 0; return pStackNode; } (3)释放堆栈 [cpp] view plain copy STATUS free_stack(const STACK_NODE* pStackNode) { if(NULL == pStackNode) return FALSE; assert(NULL != pStackNode->pData); free(pStackNode->pData); free((void*)pStackNode); return TRUE; } (4)堆栈压入数据 [cpp] view plain copy STATUS stack_push(STACK_NODE* pStackNode, int value) { if(NULL == pStackNode) return FALSE; if(pStackNode->length == pStackNode->top) return FALSE; pStackNode->pData[pStackNode->top ++] = value; return TRUE; } (5)堆栈弹出数据 [cpp] view plain copy STATUS stack_pop(STACK_NODE* pStackNode, int* value) { if(NULL == pStackNode || NULL == value) return FALSE; if(0 == pStackNode->top) return FALSE; *value = pStackNode->pData[-- pStackNode->top]; return TRUE; } (6)统计当前堆栈中包含多少数据 [cpp] view plain copy int count_stack_number(const STACK_NODE* pStackNode) { return pStackNode->top; } 建议: 堆栈是函数调用的基础,是递归调用的基础,是很多问题的根源,建议朋友们平时有时间好好练习一下。