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HDU1710 Binary Tree Traversals

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Binary Tree Traversals Time Limit:1000MSMemory Limit:32768KB64bit IO Format:%I64d %I64u Submit Status Description A binary tree is a finite set of vertices that is either empty or consists of a root r and two disjoint binary trees called th


Binary Tree Traversals


Time Limit:1000MS     Memory Limit:32768KB     64bit IO Format:%I64d & %I64u


Submit  Status



Description



A binary tree is a finite set of vertices that is either empty or consists of a root r and two disjoint binary trees called the left and right subtrees. There are three most important ways in which the vertices of a binary tree can be systematically traversed or ordered. They are preorder, inorder and postorder. Let T be a binary tree with root r and subtrees T1,T2. 


In a preorder traversal of the vertices of T, we visit the root r followed by visiting the vertices of T1 in preorder, then the vertices of T2 in preorder. 



In an inorder traversal of the vertices of T, we visit the vertices of T1 in inorder, then the root r, followed by the vertices of T2 in inorder. 



In a postorder traversal of the vertices of T, we visit the vertices of T1 in postorder, then the vertices of T2 in postorder and finally we visit r. 



Now you are given the preorder sequence and inorder sequence of a certain binary tree. Try to find out its postorder sequence. 




HDU1710    Binary Tree Traversals_#include


 


Input


The input contains several test cases. The first line of each test case contains a single integer n (1<=n<=1000), the number of vertices of the binary tree. Followed by two lines, respectively indicating the preorder sequence and inorder sequence. You can assume they are always correspond to a exclusive binary tree. 


 


Output


For each test case print a single line specifying the corresponding postorder sequence. 


 


Sample Input


9 1 2 4 7 3 5 8 9 6 4 7 2 1 8 5 9 3 6


 


Sample Output


7 4 2 8 9 5 6 3 1





#include<stdio.h>
#include<string.h>
#include<stdlib.h>

typedef struct tnode
{
    int data;
    tnode *left, *right;
} TNODE2;
TNODE2 *make(int *pstr,int *istr,int nn)

{
    TNODE2 *ptr;
    int *rstr;
    int k;
    if(nn<=0) return NULL;
    ptr = (TNODE2*)malloc(sizeof(TNODE2));
    ptr->data = *pstr;
    for(rstr=istr; rstr<istr+nn; rstr++)
        if(*rstr == *pstr)
            break;
    k = rstr - istr;
    ptr->left = make(pstr+1,istr,k);
    ptr->right = make(pstr+k+1,istr+k+1,nn-k-1);
    return ptr;
}
int h = 0;
void lastorder(TNODE2 *t,int n)
{
    if(t == NULL) return ;
    lastorder(t->left,n);
    lastorder(t->right,n);
    h++;
    if(h == n)
    {
        printf("%d\n",t->data);
    }
    else
    {
        printf("%d ",t->data);
    }


}
int main()
{
    TNODE2 *tree;
    int a[10001],b[10010];
    int n;
    while(scanf("%d",&n)!=EOF)
    {
        h = 0;
        for(int i=0;i<n;i++)
        {
            scanf("%d",&a[i]);
        }
        for(int i=0;i<n;i++)
        {
            scanf("%d",&b[i]);
        }
        tree = make(a,b,n);
        lastorder(tree,n);
    }

    return 0;
}




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