import org.lep.leetcode.binarytreeinordertraversal.BinaryTreeInOrderTraversal;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import java.util.Stack;
/**
* Source : https://oj.leetcode.com/problems/binary-tree-level-order-traversal/
*
*
* Given a binary tree, return the level order traversal of its nodes' values.
* (ie, from left to right, level by level).
*
* For example:
* Given binary tree {3,9,20,#,#,15,7},
*
* 3
* /
* 9 20
* /
* 15 7
*
* return its level order traversal as:
*
* [
* [3],
* [9,20],
* [15,7]
* ]
*
*/
public class BinaryTreeLevelOrderTraversal {
/**
* 按层次输出二叉树的遍历结果
*
* 使用BFS,借助栈实现,因为需要知道节点属于第几层,在入栈的时候就需要把节点和节点所在层level入栈
*
* @param root
* @return
*/
public List<List<Integer>> levelOrderTraversal (TreeNode root) {
List<List<Integer>> result = new ArrayList<List<Integer>>();
if (root == null) {
return null;
}
Stack<LevelNode> stack = new Stack<LevelNode>();
int currentLevel = 0;
int lastLevel = 0;
stack.push(new LevelNode(root, currentLevel));
List<Integer> levelList = new ArrayList<Integer>();
result.add(levelList);
while (stack.size() > 0) {
currentLevel = lastLevel;
LevelNode node = stack.firstElement();
stack.remove(0);
if (node.node == null) {
continue;
}
if (node.level != currentLevel) {
levelList = new ArrayList<Integer>();
result.add(levelList);
lastLevel++;
}
result.get(lastLevel).add(node.node.value);
stack.push(new LevelNode(node.node.leftChild, currentLevel + 1));
stack.push(new LevelNode(node.node.rightChild, currentLevel + 1));
}
return result;
}
/**
*
* 按层次输出树
*
* 使用两个list分别保存当前层的node和下一层的node
* 先将节点加入当前层
* 遍历当前层,将每个节点的左右子节点加入下一层的list
* 遍历完成之后,swap当前层和下一层的list,再次遍历
*
* @param root
* @return
*/
public List<List<Integer>> levelOrderTraversal1 (TreeNode root) {
List<List<Integer>> result = new ArrayList<List<Integer>>();
if (root == null) {
return result;
}
List<TreeNode> curList = new ArrayList<TreeNode>();
List<TreeNode> nextList = new ArrayList<TreeNode>();
curList.add(root);
while (curList.size() > 0) {
List<Integer> list = new ArrayList<Integer>();
for (int i = 0; i < curList.size(); i++) {
if (curList.get(i) == null) {
continue;
}
list.add(curList.get(i).value);
nextList.add(curList.get(i).leftChild);
nextList.add(curList.get(i).rightChild);
}
if (list.size() > 0) {
result.add(list);
}
curList.clear();
curList.addAll(nextList);
nextList.clear();
}
return result;
}
public static void print (List<List<Integer>> lists) {
StringBuffer buffer = new StringBuffer();
buffer.append("[
");
for (int i = 0; i < lists.size(); i++) {
buffer.append(Arrays.toString(lists.get(i).toArray(new Integer[lists.get(i).size()])));
buffer.append(",
");
}
if (lists.size() > 0) {
buffer.deleteCharAt(buffer.length()-2);
}
buffer.append("]");
System.out.println(buffer.toString());
}
public TreeNode createTree (char[] treeArr) {
TreeNode[] tree = new TreeNode[treeArr.length];
for (int i = 0; i < treeArr.length; i++) {
if (treeArr[i] == '#') {
tree[i] = null;
continue;
}
tree[i] = new TreeNode(treeArr[i]-'0');
}
int pos = 0;
for (int i = 0; i < treeArr.length && pos < treeArr.length-1; i++) {
if (tree[i] != null) {
tree[i].leftChild = tree[++pos];
if (pos < treeArr.length-1) {
tree[i].rightChild = tree[++pos];
}
}
}
return tree[0];
}
private class LevelNode {
TreeNode node;
int level;
public LevelNode(TreeNode node, int level) {
this.node = node;
this.level = level;
}
}
private class TreeNode {
TreeNode leftChild;
TreeNode rightChild;
int value;
public TreeNode(int value) {
this.value = value;
}
public TreeNode() {
}
}
public static void main(String[] args) {
BinaryTreeLevelOrderTraversal binaryTreeLevelOrderTraversal = new BinaryTreeLevelOrderTraversal();
char[] arr = new char[]{'3','9','2','#','#','1','7'};
TreeNode tree = binaryTreeLevelOrderTraversal.createTree(arr);
print(binaryTreeLevelOrderTraversal.levelOrderTraversal(tree));
print(binaryTreeLevelOrderTraversal.levelOrderTraversal1(tree));
}
}