You need to find the largest value in each row of a binary tree.
Example:
Input:
1
/ \
3 2
/ \ \
5 3 9
Output: [1, 3, 9]
Solution1:DFS
深度优先,建立一个result linked数组,index(level)上存的就是当前index(level) 行的Max值,linked数组随着level扩大
Time Complexity: O(N) Space Complexity: O(n) worst缓存
Solution2:BFS
广度优先,queue实现,queue中每一组就是一个level中的元素,找出最大依行存下
Time Complexity: O(N) Space Complexity: O(n) worst缓存
Solution1 Code:
class Solution {
public List<Integer> largestValues(TreeNode root) {
List<Integer> result = new ArrayList<Integer>();
dfs(root, result, 0);
return result;
}
private void dfs(TreeNode node, List<Integer> result, int level) {
if(node == null) {
return;
}
if(level == result.size()) {
// expand result list to next level
result.add(node.val);
}
else {
// update max
result.set(level, Math.max(result.get(level), node.val));
}
dfs(node.left, result, level + 1);
dfs(node.right, result, level + 1);
}
}
Solution2 Code:
class Solution {
//BFS 最要在Node进入queue前就进行非空判断,使得进入queue的node本身都非null
public List<Integer> largestValues(TreeNode root) {
Queue<TreeNode> queue = new LinkedList<TreeNode>();
List<Integer> result = new LinkedList<Integer>();
if(root == null) return result;
queue.offer(root);
while(!queue.isEmpty()) {
int largest_elem = Integer.MIN_VALUE;
int num_on_level = queue.size();
for(int i = 0; i < num_on_level; i++) {
TreeNode cur = queue.poll();
largest_elem = Math.max(largest_elem, cur.val);
if(cur.left != null) queue.add(cur.left);
if(cur.right != null) queue.add(cur.right);
}
result.add(largest_elem);
}
return result;
}
}
