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Given a complete binary tree, count the number of nodes.
Definition of a complete binary tree from Wikipedia:
In a complete binary tree every level, except possibly the last, is completely filled, and all nodes in the last level are as far left as possible. It can have between 1 and 2h nodes inclusive at the last level h.
注意完全二叉树的定义和满二叉树是有区别的。
对完全二叉树前序遍历时,有值得节点先于空节点遍历。
满二叉树的节点数是2^k-1,k是树的深度。
所以我们可以先判断该树是否为满二叉树,然后是的话直接返回结果,如果不是递归地求解子树。
这样不用遍历所有的节点。复杂度小于O(N),比对所有点遍历复杂度要小,最好的情况是O(lgN)。
推算大概在O(lgN)~O(N)之间。
具体的分析,取左右子树只有一个是满树的最差情况。
T(N) = lg(N/2) + T(N/2)
T(1) =1
可以推导下复杂度最差在O(lgN*lgN)。
/**
* Definition for a binary tree node.
* struct TreeNode {
* int val;
* TreeNode *left;
* TreeNode *right;
* TreeNode(int x) : val(x), left(NULL), right(NULL) {}
* };
*/
class Solution {
public:
int countNodes(TreeNode* root){
if(root==nullptr)
return 0;
TreeNode* lt = root;
TreeNode* rt = root;
int leftdepth = 0;
int rightdepth = 0;
while(lt){
leftdepth++;
lt = lt->left;
}
while(rt){
rightdepth++;
rt = rt->right;
}
if(leftdepth==rightdepth)
return pow(2,leftdepth)-1;
else
return countNodes(root->left)+countNodes(root->right)+1;
}
};
[LeetCode]Count Complete Tree Nodes
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原文地址:http://blog.csdn.net/ciaoliang/article/details/46391459
