程序:
1 #include <stdio.h>
2 #include <stdlib.h>
3 typedef struct TreeNode *Tree;
4 struct TreeNode{
5 int v;
6 Tree Left,Right;
7 int flag;
8 };
9 Tree NewNode(int V){
10 Tree T=(Tree)malloc(sizeof(struct TreeNode));
11 T->v = V;
12 T->Left = T->Right=NULL;
13 T->flag=0;
14 return T;
15 }
16 Tree Insert(Tree T,int V){
17 if(!T) T=NewNode(V);
18 else{
19 if(V>T->v)
20 T->Right = Insert(T->Right,V);
21 else
22 T->Left = Insert(T->Left,V);
23 }
24 return T;
25 }
26 //读数据建树T
27 Tree MakeTree(int N){
28 Tree T;
29 int i,V;
30 scanf("%d",&V);
31 T = NewNode(V);
32 for(i=1;i<N;i++){
33 scanf("%d",&V);
34 T=Insert(T,V);
35 }
36 return T;
37 }
38 //查找结点
39 int check(Tree T,int V){
40 if(T->flag){
41 if(V<T->v) return check(T->Left,V);
42 else if(V>T->v) return check(T->Right,V);
43 else return 0;
44 }else{
45 if(V==T->v){
46 T->flag = 1;
47 return 1;
48 }else return 0;
49 }
50 }
51 int Judge(Tree T,int N){
52 int i,V,flag = 0; //flag:0代表目前还不一致,1代表已经不一致
53 scanf("%d",&V);
54 if(V!=T->v) flag = 1;
55 else T->flag = 1;
56 for(i=1;i<N;i++){
57 scanf("%d",&V);
58 if((!flag)&&(!check(T,V))) flag = 1;
59 }
60 if(flag) return 0;
61 else return 1;
62 }
63 //清除T中各节点flag标记
64 void ResetT(Tree T){
65 if(T->Left) ResetT(T->Left);
66 if(T->Right) ResetT(T->Right);
67 T->flag = 0;
68 }
69 //释放T的空间
70 void FreeTree(Tree T){
71 if(T->Left) FreeTree(T->Left);
72 if(T->Right) FreeTree(T->Right);
73 free(T);
74 }
75 //判别是否与T构成一样的树
76 int main(){
77 int N,L,i;
78 Tree T;
79 scanf("%d",&N);
80 while(N){
81 scanf("%d",&L);
82 T=MakeTree(N);
83 for(i=0;i<L;i++){
84 if(Judge(T,N)) printf("Yes\n");
85 else printf("No\n");
86 ResetT(T); //flag清零
87 }
88 FreeTree(T); //数据清零
89 scanf("%d",&N);
90 }
91 return 0;
92 }
分析:
- 用链表存储树