线性表的顺序存储算法

#define MaxSize 50

#define ERROR 0;
#define OK 1;
typedef  int ElemType;

typedef struct sqlList
{
    ElemType data[MaxSize];
    int length;
}SqList;

void InitList(SqList *L)
{
        printf("InitList\n");
        L->length =0;
}

int GetElem(SqList *L,int i,ElemType *e)
{
     printf("GetElem\n");
     if(i<1 || i>L->length)
     {
          printf("ERROR\n");
         return ERROR;
     }
     *e = L->data[i-1];
     printf("e=%d\n",*e);
     return OK;
}

int LocateElem(SqList *L,ElemType e)
{
    printf("LocateElem\n");
    return 0;
}

int ListInsert(SqList *L,ElemType e,int i)
{
     printf("ListInsert");
    if(i<1 || i > L->length+1)
    {
        return ERROR;
    }
    i--; //将逻辑顺序转为数组下标
    for(int j=L->length;j>i;j--)
    {
        L->data[j] =L->data[j-1];
    }
    printf(" 插入数据=%d\n", e);
    L->data[i] =e;
    L->length++;
    return OK;
}

void printListData(SqList *L)
{
    printf("printListData\n");
    for(int i =0;ilength;i++)
    {
        printf("%d, ",L->data[i]);
    }
    printf("\n");
}

int ListDelete(SqList *L,int i,ElemType *e)
{
    printf("ListDelete");
    if(i<1 || i > L->length+1)
    {
        return ERROR;
    }
    i--;
    *e = L->data[i];
    for(int j=i; jlength-1;j++)
    {
        L->data[j] = L->data[j+1];
    }
    L->length--;
    return OK;
}

void Merge(SqList *L,SqList *L2,SqList L3)
{

}


void main()
{
    printf("线性表\n");
    SqList sqList;

    InitList(&sqList);
    ElemType insertData = 1;
    for(int i=0;i<10;i++)
    {
        insertData =i * 5;
        ListInsert(&sqList,insertData,1);
    }

    printListData(&sqList);
    ElemType *e;
    GetElem(&sqList,5,e);
    printf("getE:%d\n",*e);

    ListDelete(&sqList,2,e);
    printf("deleted:%d\n",*e);
    printListData(&sqList);
    //ElemType locateData;
    //LocateElem(&sqList,locateData);

}

已经调试通过