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  • 真二叉树重构(Proper Rebuild)

    真二叉树重构(Proper Rebuild)


    Description

    In general, given the preorder traversal sequence and postorder traversal sequence of a binary tree, we cannot determine the binary tree.

    img

    Figure 1

    In Figure 1 for example, although they are two different binary tree, their preorder traversal sequence and postorder traversal sequence are both of the same.

    But for one proper binary tree, in which each internal node has two sons, we can uniquely determine it through its given preorder traversal sequence and postorder traversal sequence.

    Label n nodes in one binary tree using the integers in [1, n], we would like to output the inorder traversal sequence of a binary tree through its preorder and postorder traversal sequence.

    Input

    The 1st line is an integer n, i.e., the number of nodes in one given binary tree,

    The 2nd and 3rd lines are the given preorder and postorder traversal sequence respectively.

    Output

    The inorder traversal sequence of the given binary tree in one line.

    Example

    Input

    5
    1 2 4 5 3
    4 5 2 3 1
    

    Output

    4 2 5 1 3
    

    Restrictions

    For 95% of the estimation, 1 <= n <= 1,000,00

    For 100% of the estimation, 1 <= n <= 4,000,000

    The input sequence is a permutation of {1,2...n}, corresponding to a legal binary tree.

    Time: 2 sec

    Memory: 256 MB

    Hints

    img

    Figure 2

    In Figure 2, observe the positions of the left and right children in preorder and postorder traversal sequence.

    1. 原理与要点:利用树的先序与后序的规律,递归建树,然后dfs输出树的中序遍历。可以发现先序的第一个节点是根节点,后序的最后一个节点是根节点,利用这个规律确定左右子树,一直递归下去,就可以确定每一个节点
    2. 遇到的问题:
    3. 时间和空间复杂度:时间复杂度(O(nlogn)),空间复杂度(O(n))
    #include <cstdlib>
    #include "cstdio"
    
    using namespace std;
    const int maxn = 4e6 + 100;
    const int SZ = 1 << 20;  //快速io
    struct fastio {
        char inbuf[SZ];
        char outbuf[SZ];
    
        fastio() {
            setvbuf(stdin, inbuf, _IOFBF, SZ);
            setvbuf(stdout, outbuf, _IOFBF, SZ);
        }
    } io;
    
    typedef struct node {
        int val;
        node *l, *r;
    } *tree;
    tree root = NULL;
    
    int mlr[maxn], lrm[maxn];
    int n;
    
    void build(tree &t, int s1, int e1, int s2, int e2) {
    
        t = (tree) malloc(sizeof(node));
        t->val = mlr[s1];
        if (s1 == e1) return;
        int now;
        for (int i = s2; i <= e2; i++) {
            if (mlr[s1 + 1] == lrm[i]) {
                now = i;
                break;
            }
        }
        build(t->l, s1 + 1, now - s2 + 1 + s1, s2, now);
        build(t->r, now - s2 + 2 + s1, e1, now + 1, e2 - 1);
    }
    
    void dfs(tree now) {
        if (now == NULL) return;
        dfs(now->l);
        printf("%d ", now->val);
        dfs(now->r);
    }
    
    int main() {
        scanf("%d", &n);
        for (int i = 1; i <= n; i++) {
            scanf("%d", &mlr[i]);
        }
        for (int i = 1; i <= n; i++) {
            scanf("%d", &lrm[i]);
        }
        build(root, 1, n, 1, n);
        dfs(root);
        return 0;
    }
    
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  • 原文地址:https://www.cnblogs.com/albert-biu/p/11542123.html
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