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  • lintcode:Subtree 子树

    题目:

    有两个不同大小的二叉树: T1 有上百万的节点; T2 有好几百的节点。请设计一种算法,判定 T2 是否为 T1的子树。

    样例

    下面的例子中 T2 是 T1 的子树:

           1                3
          /               / 
    T1 = 2   3      T2 =  4
            /
           4
    

    下面的例子中 T2 不是 T1 的子树:

           1               3
          /                
    T1 = 2   3       T2 =    4
            /
           4
    
    注意

    若 T1 中存在从节点 n 开始的子树与 T2 相同,我们称 T2 是 T1 的子树。也就是说,如果在 T1 节点 n 处将砍断,砍断的部分将与 T2 完全相同。

    解题:

    感觉通过直接递归就可以解决,但是下面的程序运行到60%的测试数据结果就不对了

    Java程序:

    /**
     * Definition of TreeNode:
     * public class TreeNode {
     *     public int val;
     *     public TreeNode left, right;
     *     public TreeNode(int val) {
     *         this.val = val;
     *         this.left = this.right = null;
     *     }
     * }
     */
    public class Solution {
        /**
         * @param T1, T2: The roots of binary tree.
         * @return: True if T2 is a subtree of T1, or false.
         */
        public boolean isSubtree(TreeNode T1, TreeNode T2) {
            // write your code here
            if(T1==null && T2==null)
                return true;
            if(T1==null)
                return false;
            if(T2==null)
                return true;
            if(T1.val==T2.val&& T1.left==null && T2.left==null && T1.right==null && T2.right==null)
                return true;
    
            if(T1.val!=T2.val){
                boolean lft = isSubtree(T1.left,T2);
                boolean rit = isSubtree(T1.right,T2);
                if(lft || rit)
                    return true;
            }else{
                boolean lft = isSubtree(T1.left,T2.left);
                boolean rit = isSubtree(T1.right,T2.right);
                if(lft && rit)
                    return true;
            }
            return false;
        }
    }
    View Code

    上面的程序中,当当前节点相同和不相同的时候,都是自身递归,在网上看到,对应节点相同的时候,要单独搞个递归判断

    基本流程:

    若T1.val!=T2.val,分布判断两个子树是否和T2相等,只有有一个相等就可以

    若T1.val==T2.val,判断是否相等,若不相等,分布对其两个子树再判断

    上面程序,可以感觉到走了个圈。

    网上有的程序写的很简单。。。

    Java程序:

    /**
     * Definition of TreeNode:
     * public class TreeNode {
     *     public int val;
     *     public TreeNode left, right;
     *     public TreeNode(int val) {
     *         this.val = val;
     *         this.left = this.right = null;
     *     }
     * }
     */
    public class Solution {
        /**
         * @param T1, T2: The roots of binary tree.
         * @return: True if T2 is a subtree of T1, or false.
         */
        public boolean isSubtree(TreeNode T1, TreeNode T2) {
            // write your code here
            if(T1==null && T2==null)
                return true;
            if(T1==null)
                return false;
            if(T2==null)
                return true;
    
            if(T1.val!=T2.val){
                boolean lft = isSubtree(T1.left,T2);
                boolean rit = isSubtree(T1.right,T2);
                if(lft || rit)
                    return true;
            }else{
                boolean res = isEqual(T1,T2);
                if(res)
                    return true;
                else {
                boolean lft = isSubtree(T1.left,T2);
                boolean rit = isSubtree(T1.right,T2);
                if(lft || rit)
                    return true;
                }
            }
            return false;
        }
        public boolean isEqual(TreeNode T1,TreeNode T2){
            if(T1==null && T2==null)
                return true;
            if(T1==null)
                return false;
            if(T2==null)
                return false;
            if(T1.val==T2.val){
                boolean lft = isEqual(T1.left,T2.left);
                boolean rit = isEqual(T1.right,T2.right);
                if(lft && rit)
                    return true;
            }
            return false;
        }
    }
    View Code

    总耗时: 5048 ms

    上面的程序又部分冗余,现在修改如下,时间也少了好多

    /**
     * Definition of TreeNode:
     * public class TreeNode {
     *     public int val;
     *     public TreeNode left, right;
     *     public TreeNode(int val) {
     *         this.val = val;
     *         this.left = this.right = null;
     *     }
     * }
     */
    public class Solution {
        /**
         * @param T1, T2: The roots of binary tree.
         * @return: True if T2 is a subtree of T1, or false.
         */
        public boolean isSubtree(TreeNode T1, TreeNode T2) {
            // write your code here
            if(T1==null && T2==null)
                return true;
            if(T1==null)
                return false;
            if(T2==null)
                return true;
    
            if(T1.val==T2.val){
                boolean res = isEqual(T1,T2);
                if(res)
                    return true;
            }
            
            boolean lft = isSubtree(T1.left,T2);
            if(lft==true)
                return true;
            boolean rit = isSubtree(T1.right,T2);
            return rit;
        }
        public boolean isEqual(TreeNode T1,TreeNode T2){
            if(T1==null && T2==null)
                return true;
            if(T1==null)
                return false;
            if(T2==null)
                return false;
            if(T1.val==T2.val){
                boolean lft = isEqual(T1.left,T2.left);
                boolean rit = isEqual(T1.right,T2.right);
                if(lft && rit)
                    return true;
            }
            return false;
        }
    }
    Java Code

    总耗时: 3461 ms

    Python程序:

    """
    Definition of TreeNode:
    class TreeNode:
        def __init__(self, val):
            self.val = val
            self.left, self.right = None, None
    """
    class Solution:
        # @param T1, T2: The roots of binary tree.
        # @return: True if T2 is a subtree of T1, or false.
        def isSubtree(self, T1, T2):
            # write your code here
            if(T1==None and T2==None):
                return True
            if T1==None:
                return False
            if T2==None:
                return True
            if T1.val!=T2.val:
                lft = self.isSubtree(T1.left,T2)
                rit = self.isSubtree(T1.right,T2)
                if lft or rit:
                    return True
            else:
                res = self.isEqual(T1,T2)
                if res:
                    return True
                else:
                    lft = self.isSubtree(T1.left,T2)
                    rit = self.isSubtree(T1.right,T2)
                    if lft or rit:
                        return True
            return False
                
                
        def isEqual(self,T1,T2):
            
            if T1==None and T2==None:
                return True
            if T1==None:
                return False
            if T2==None:
                return False
            if T1!=None and T2!=None and T1.val==T2.val:
                lft = self.isEqual(T1.left,T2.left)
                rit = self.isEqual(T1.right,T2.right)
                if lft and rit:
                    return True
            return False
    View Code

    总耗时: 640 ms

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  • 原文地址:https://www.cnblogs.com/bbbblog/p/4873098.html
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