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192 lines
5.0 KiB
C++
192 lines
5.0 KiB
C++
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/**
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* @author huihut
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* @E-mail:huihut@outlook.com
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* @version 创建时间:2016年9月9日
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* 说明:本程序实现了一个顺序表。
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*/
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#include "stdio.h"
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#include "stdlib.h"
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#include "malloc.h"
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//5个常量定义
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#define TRUE 1
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#define FALSE 0
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#define OK 1
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#define ERROR 0
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#define OVERFLOW -1
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//测试程序长度定义
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#define LONGTH 5
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//类型定义
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typedef int Status;
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typedef int ElemType;
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//顺序栈的类型
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typedef struct {
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ElemType *elem;
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int length;
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int size;
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int increment;
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} SqList;
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Status InitList_Sq(SqList &L, int size, int inc); //初始化顺序表L
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Status DestroyList_Sq(SqList &L); //销毁顺序表L
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Status ClearList_Sq(SqList &L); //将顺序表L清空
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Status ListEmpty_Sq(SqList L); //若顺序表L为空表,则返回TRUE,否则FALSE
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int ListLength_Sq(SqList L); //返回顺序表L中元素个数
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Status GetElem_Sq(SqList L, int i, ElemType &e); //用e返回顺序表L中第i个元素的值
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int Search_Sq(SqList L, ElemType e); //在顺序表L顺序查找元素e,成功时返回该元素在表中第一次出现的位置,否则返回-1
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Status ListTraverse_Sq(SqList L, Status(*visit)(ElemType e)); //遍历顺序表L,依次对每个元素调用函数visit()
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Status PutElem_Sq(SqList &L, int i, ElemType e); //将顺序表L中第i个元素赋值为e
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Status Append_Sq(SqList &L, ElemType e); //在顺序表L表尾添加元素e
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Status DeleteLast_Sq(SqList &L, ElemType &e); //删除顺序表L的表尾元素,并用参数e返回其值
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//初始化顺序表L
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Status InitList_Sq(SqList &L, int size, int inc) {
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L.elem = (ElemType *)malloc(size * sizeof(ElemType));
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if (NULL == L.elem) return OVERFLOW;
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L.length = 0;
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L.size = size;
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L.increment = inc;
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return OK;
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}
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//销毁顺序表L
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Status DestroyList_Sq(SqList &L) {
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free(L.elem);
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L.elem = NULL;
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return OK;
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}
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//将顺序表L清空
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Status ClearList_Sq(SqList &L) {
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if (0 != L.length) L.length = 0;
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return OK;
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}
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//若顺序表L为空表,则返回TRUE,否则FALSE
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Status ListEmpty_Sq(SqList L) {
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if (0 == L.length) return TRUE;
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return FALSE;
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}
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//返回顺序表L中元素个数
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int ListLength_Sq(SqList L) {
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return L.length;
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}
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// 用e返回顺序表L中第i个元素的值
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Status GetElem_Sq(SqList L, int i, ElemType &e) {
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e = L.elem[--i];
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return OK;
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}
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// 在顺序表L顺序查找元素e,成功时返回该元素在表中第一次出现的位置,否则返回 - 1
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int Search_Sq(SqList L, ElemType e) {
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int i = 0;
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while (i < L.length && L.elem[i] != e) i++;
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if (i < L.length) return i;
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else return -1;
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}
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//遍历调用
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Status visit(ElemType e) {
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printf("%d\t",e);
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}
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//遍历顺序表L,依次对每个元素调用函数visit()
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Status ListTraverse_Sq(SqList L, Status(*visit)(ElemType e)) {
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if (0 == L.length) return ERROR;
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for (int i = 0; i < L.length; i++) {
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visit(L.elem[i]);
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}
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return OK;
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}
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//将顺序表L中第i个元素赋值为e
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Status PutElem_Sq(SqList &L, int i, ElemType e) {
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if (i > L.length) return ERROR;
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e = L.elem[--i];
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return OK;
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}
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//在顺序表L表尾添加元素e
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Status Append_Sq(SqList &L, ElemType e) {
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if (L.length >= L.size) return ERROR;
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L.elem[L.length] = e;
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L.length++;
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return OK;
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}
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//删除顺序表L的表尾元素,并用参数e返回其值
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Status DeleteLast_Sq(SqList &L, ElemType &e) {
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if (0 == L.length) return ERROR;
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e = L.elem[L.length - 1];
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L.length--;
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return OK;
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}
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int main() {
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//定义表L
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SqList L;
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//定义测量值
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int size, increment, i;
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//初始化测试值
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size = LONGTH;
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increment = LONGTH;
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ElemType e, eArray[LONGTH] = { 1, 2, 3, 4, 5 };
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//显示测试值
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printf("---【顺序栈】---\n");
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printf("表L的size为:%d\n表L的increment为:%d\n", size, increment);
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printf("待测试元素为:\n");
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for (i = 0; i < LONGTH; i++) {
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printf("%d\t", eArray[i]);
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}
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printf("\n");
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//初始化顺序表
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if (!InitList_Sq(L, size, increment)) {
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printf("初始化顺序表失败\n");
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exit(0);
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}
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printf("已初始化顺序表\n");
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//判空
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if(TRUE == ListEmpty_Sq(L)) printf("此表为空表\n");
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else printf("此表不是空表\n");
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//入表
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printf("将待测元素入表:\n");
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for (i = 0; i < LONGTH; i++) {
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if(ERROR == Append_Sq(L, eArray[i])) printf("入表失败\n");;
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}
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printf("入表成功\n");
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//遍历顺序表L
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printf("此时表内元素为:\n");
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ListTraverse_Sq(L, visit);
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//出表
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printf("\n将表尾元素入表到e:\n");
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if (ERROR == DeleteLast_Sq(L, e)) printf("出表失败\n");
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printf("出表成功\n出表元素为%d\n",e);
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//遍历顺序表L
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printf("此时表内元素为:\n");
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ListTraverse_Sq(L, visit);
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//销毁顺序表
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printf("\n销毁顺序表\n");
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if(OK == DestroyList_Sq(L)) printf("销毁成功\n");
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else printf("销毁失败\n");
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return 0;
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} |