Given a non-empty binary tree, return the average value of the nodes on each level in the form of an array.
Example 1:
Input:
3
/
9 20
/
15 7
Output: [3, 14.5, 11]
Explanation:
The average value of nodes on level 0 is 3, on level 1 is 14.5, and on level 2 is 11. Hence return [3, 14.5, 11].
Note:
- The range of node's value is in the range of 32-bit signed integer.
思路:首先要使用层次遍历,因为每次遍历后要计算对应层的平均值。所以又需要加上对层次的标记。
/** * Definition for a binary tree node. * public class TreeNode { * int val; * TreeNode left; * TreeNode right; * TreeNode(int x) { val = x; } * } */ class Solution { public List<Double> averageOfLevels(TreeNode root) { //存放平均值的list List<Double> list = new ArrayList<>(); //存放树的队列,用于层次遍历。 Queue<TreeNode> queue = new ArrayDeque<>(); // 存放对应树的层次信息,便于计算均值。 Queue<Integer> queue1 = new ArrayDeque<>(); // 初始层级h=0 int h = 0; // 对应层级的节点数 int n = 0; // 对应层级的节点数之和,要用double型。 double sum = 0; queue.offer(root); // 初始层级放入后+1,根节点只有一个。 queue1.offer(new Integer(h++)); while(!queue.isEmpty()){ root = queue.poll(); int hh = queue1.poll().intValue(); // 如果处于同一层,需要将层级+1,并完成平均数计算,放入list if(h == hh){ h++; list.add(new Double(sum/n)); sum = 0; n = 0; } sum += root.val; n++; // 层次遍历,放入左右子树和对应层级 if(root.left != null){ queue.offer(root.left); queue1.offer(new Integer(h)); } if(root.right != null){ queue.offer(root.right); queue1.offer(new Integer(h)); } } // 最后一次的均值未计算,要单独处理 list.add(new Double(sum/n)); return list; } }