习题2.5 两个有序链表序列的合并(15 分)
本题要求实现一个函数,将两个链表表示的递增整数序列合并为一个非递减的整数序列。
函数接口定义:
List Merge( List L1, List L2 );
其中List结构定义如下:
typedef struct Node *PtrToNode;
struct Node {
ElementType Data; /* 存储结点数据 */
PtrToNode Next; /* 指向下一个结点的指针 */
};
typedef PtrToNode List; /* 定义单链表类型 */
L1和L2是给定的带头结点的单链表,其结点存储的数据是递增有序的;函数Merge要将L1和L2合并为一个非递减的整数序列。应直接使用原序列中的结点,返回归并后的带头结点的链表头指针。
裁判测试程序样例:
#include <stdio.h>
#include <stdlib.h>
typedef int ElementType;
typedef struct Node *PtrToNode;
struct Node {
ElementType Data;
PtrToNode Next;
};
typedef PtrToNode List;
List Read(); /* 细节在此不表 */
void Print( List L ); /* 细节在此不表;空链表将输出NULL */
List Merge( List L1, List L2 );
int main()
{
List L1, L2, L;
L1 = Read();
L2 = Read();
L = Merge(L1, L2);
Print(L);
Print(L1);
Print(L2);
return 0;
}
/* 你的代码将被嵌在这里 */
输入样例:
3
1 3 5
5
2 4 6 8 10
输出样例:
1 2 3 4 5 6 8 10
NULL
NULL//我的答案是:有缺陷;标准答案见: https://blog.csdn.net/feng_zhiyu/article/details/80612822;
#include<stdio.h> #include <stdlib.h> typedef int ElementType; typedef struct Node *PtrToNode; struct Node { ElementType Data; PtrToNode Next; }; typedef PtrToNode List;//List是一个 struct Node 指针 List Merge( List L1, List L2 ); List creat(); List print(List L1); int main(){ List L1,L2,L; L1 = creat(); L2 = creat(); print(L1); print(L2); L=Merge( L1, L2 ); printf("\n------\n"); print(L); print(L1); print(L2); } List creat(){ int number; List end=NULL,head; scanf("%d",&number); if(number!=-1){ end=(List)malloc(sizeof(struct Node)); end->Data=number; end->Next=NULL; } head=end; //创造了第一个链表节点; while(number!=-1){ scanf("%d",&number); if(number!=-1){ List p; p=(List)malloc(sizeof(struct Node)); p->Data=number; end->Next=p; //生成了一个临时节点; end=p; //将两个链表节点链接起来了; } end->Next=NULL; } return head; } List print(List L1){ List last=L1; if(last==NULL){ printf("NULL"); return 0; }//判断是否为空链表; while(last->Next!=NULL){ printf("%d ",last->Data); last=last->Next; } printf("%d \n",last->Data); } List Merge( List L1, List L2 ) { List head = (List)malloc(sizeof(struct Node)),ptr; if(L1->Data <= L2->Data) { head->Data = L1->Data; head->Next = NULL; ptr = L1; L1 = L1->Next; free(ptr); } else { head->Data = L2->Data; head->Next = NULL; ptr = L2; L2 = L2->Next; free(ptr); } List q = head; while(1) { if(L1==NULL){ q->Next=L2; break; }else if(L2==NULL){ q->Next=L1; break; } List p = (List)malloc(sizeof(struct Node)); if(L1->Data <= L2->Data) { p->Data = L1->Data; p->Next = NULL; ptr = L1; L1 = L1->Next; free(ptr); } else { p->Data = L2->Data; p->Next = NULL; ptr = L2; L2 = L2->Next; free(ptr); } q->Next = p; q=p; } // L1->Next = NULL; // L2->Next = NULL; return head; }