• 数据结构-顺序表相关算法


      1 #include <stdio.h>
      2 #include <stdlib.h>
      3 
      4 #define LIST_INIT_SIZE 100
      5 #define LISTINCREMENT 10
      6 #define OVERFLOW -2
      7 #define OK 1
      8 #define ERROR 0
      9 typedef int ElemType;
     10 typedef struct {
     11     ElemType *elem;
     12     int length;
     13     int listsize;
     14 }SqList;
     15 
     16 int InitList_Sq(SqList *L);
     17 int ListInsert_Sq(SqList *L,int i,ElemType e);
     18 void ListInput_Sq(SqList *L);
     19 void ListOutput_Sq(SqList *L);
     20 int ListLength_Sq(SqList *L);
     21 int ListDelete_Sq(SqList *L,int i,ElemType *e);
     22 int LocateElem_Sq(SqList *L,ElemType e,int (*compare)(ElemType,ElemType));
     23 int compare(ElemType a,ElemType b);
     24 void MergeList_Sq(SqList *La,SqList *Lb,SqList *Lc);
     25 void GetElem(SqList *L,ElemType i,ElemType *e);
     26 int EmptyList(SqList *L);
     27 void ListInverse(SqList *L);
     28 
     29 int main()
     30 {
     31     SqList sq,sq1,sq2;
     32     int len,e,loc,e1,f;
     33     e1 = 1;
     34     //顺序表初始化
     35     InitList_Sq(&sq);
     36 
     37     //输入顺序表中的元素
     38     ListInput_Sq(&sq);
     39 
     40     //输出顺序表中的元素
     41     ListOutput_Sq(&sq);
     42 
     43     //向顺序表中插入元素
     44     ListInsert_Sq(&sq,3,5);
     45     ListOutput_Sq(&sq);
     46 
     47     //输出顺序表的长度
     48     len = ListLength_Sq(&sq);
     49     printf("该线性表的长度为:%d
    ",len);
     50 
     51     //删除顺序表中某一位置的元素,并将被删除的元素返回
     52     ListDelete_Sq(&sq,4,&e);
     53     printf("被删除的元素为:%d
    ",e);
     54     ListOutput_Sq(&sq);
     55 
     56     //输出顺序表中某一元素的位序
     57     loc = LocateElem_Sq(&sq,3,&compare);
     58     printf("该元素位序为:%d
    ",loc);
     59 
     60     //将两个顺序表合并
     61     InitList_Sq(&sq1);
     62     ListInput_Sq(&sq1);
     63     MergeList_Sq(&sq,&sq1,&sq2);
     64     ListOutput_Sq(&sq2);
     65 
     66     //输出顺序表是否非空
     67     f = EmptyList(&sq2);
     68     if(f==0) {
     69         printf("该顺序表是否为空? false
    ");
     70     } else {
     71         printf("该顺序表是否为空? true
    ");
     72     }
     73 
     74     //输出顺序表某一位置的元素
     75     GetElem(&sq2,4,&e);
     76     printf("第i个元素为:%d
    ",e);
     77 
     78     //将顺序表逆置
     79     ListInverse(&sq2);
     80     ListOutput_Sq(&sq2);
     81     return 0;
     82 }
     83 //初始化线性表
     84 int InitList_Sq(SqList *L) {
     85     L->elem = (ElemType *)malloc(LIST_INIT_SIZE*sizeof(ElemType));
     86     if(!L->elem) exit(OVERFLOW);
     87     L->length = 0;
     88     L->listsize = LIST_INIT_SIZE;
     89     return OK;
     90 }
     91 //向线性表中输入元素
     92 void ListInput_Sq(SqList *L) {
     93     int i,m,n;
     94     printf("请输入线性表中元素个数:
    ");
     95     scanf("%d",&n);
     96     printf("请输入元素:
    ");
     97     for(i=0; i<n; i++) {
     98         scanf("%d",&m);
     99         L->elem[i] = m;
    100         L->length++;
    101     }
    102 
    103     return;
    104 }//从线性表输出元素
    105 void ListOutput_Sq(SqList *L) {
    106     int i;
    107     if(L->length == 0) {
    108         printf("该线性表中没有元素!
    ");
    109     } else {
    110         printf("该线性表中的元素为:");
    111         for(i=0; i<L->length; i++) {
    112             printf("%d ",L->elem[i]);
    113         }
    114     }
    115     printf("
    ");
    116     return;
    117 }
    118 //返回线性表中元素的个数
    119 int ListLength_Sq(SqList *L) {
    120     return L->length;
    121 }
    122 //向线性表中插入元素
    123 int ListInsert_Sq(SqList *L,int i,ElemType e) {
    124     SqList *newbase;
    125     //int *p,*q;
    126     int m;
    127     if(i<1 || i>L->length+1) return ERROR;
    128     if(L->length >= L->listsize) {
    129         newbase = (ElemType *)realloc(L->elem,(L->listsize+LISTINCREMENT)*sizeof(ElemType));
    130         if(!newbase) exit(OVERFLOW);
    131         L->elem = newbase;
    132         L->listsize += LISTINCREMENT;
    133     }
    134     /*q = &(L->elem[i-1]);
    135     for(p=&(L->elem[L->length-1]);p>=q;--p) {
    136         *(p+1) = *p;
    137     }
    138     *q = e;*/
    139     for(m=L->length-1; m>=i-1; --m) {
    140         L->elem[m+1] = L->elem[m];
    141     }
    142     L->elem[i-1] = e;
    143     ++L->length;
    144     return OK;
    145 }
    146 //删除线性表中的元素
    147 int ListDelete_Sq(SqList *L,int i,ElemType *e) {
    148     int m;
    149     //int *p,*q;
    150     if(i<1 || i>L->length+1) return ERROR;
    151     *e = L->elem[i-1];
    152     for(m=i-1;m<L->length-1;++m) {
    153         L->elem[m] = L->elem[m+1];
    154     }
    155 
    156     /*p = &(L->elem[i-1]);
    157     *e = *p;
    158     q = L->elem+L->length-1;
    159     for(++p; p<=q; ++p) {
    160         *(p-1) = *p;
    161     }*/
    162     --L->length;
    163     return OK;
    164 }
    165 //寻找某一元素在线性表里的位置
    166 int LocateElem_Sq(SqList *L,ElemType e,int (*compare)(ElemType,ElemType)) {
    167     int i;
    168     i = 1;
    169     while(i<=L->length && !(*compare)(L->elem[i-1],e)) {
    170         ++i;
    171     }
    172     if(i<=L->length) return i;
    173     else return 0;
    174 }
    175 int compare(ElemType a,ElemType b) {
    176     if(a == b) {
    177         return 1;
    178     } else {
    179         return 0;
    180     }
    181 }
    182 //归并排序将两个顺序表合并(这两个顺序表都是有序的)
    183 void MergeList_Sq(SqList *La,SqList *Lb,SqList *Lc) {
    184     int i,j,k;
    185     i=0;j=0;k=0;
    186     Lc->listsize = Lc->length = La->length + Lb->length;
    187     Lc->elem = (ElemType*)malloc(Lc->listsize*sizeof(ElemType));
    188     if(!Lc->elem) exit(OVERFLOW);
    189     while(i<La->length && j<Lb->length) {
    190         if(La->elem[i] <= Lb->elem[j]) Lc->elem[k++] = La->elem[i++];
    191         else Lc->elem[k++] = Lb->elem[j++];
    192     }
    193     while(i<La->length) Lc->elem[k++] = La->elem[i++];
    194     while(j<Lb->length) Lc->elem[k++] = Lb->elem[j++];
    195     return;
    196 }
    197 //返回顺序表中第i个元素的值
    198 void GetElem(SqList *L,ElemType i,ElemType *e) {
    199     *e = L->elem[i-1];
    200 }
    201 //判断顺序表是否非空,是空的,返回true;否则,返回false。
    202 int EmptyList(SqList *L) {
    203     if(L->length==0) {
    204         return 1;
    205     } else {
    206         return 0;
    207     }
    208 }
    209 //顺序表逆置
    210 void ListInverse(SqList *L) {
    211     int i,temp;
    212     for(i=0; i<L->length/2;i++) {
    213         temp = L->elem[i];
    214         L->elem[i] = L->elem[L->length-1-i];
    215         L->elem[L->length-1-i] = temp;
    216     }
    217     return;
    218 }
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  • 原文地址:https://www.cnblogs.com/chengzi123/p/4330458.html
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