[LintCode] Binary Tree Vertical Order Traversal
Given a binary tree, return the vertical order traversal of its nodes' values. (ie, from top to bottom, column by column).
If two nodes are in the same row and column, the order should be from left to right.
Given binary tree {3,9,20,#,#,15,7}
3
/\
/ \
9 20
/\
/ \
15 7
Return its vertical order traversal as:[[9],[3,15],[20],[7]]
Given binary tree {3,9,8,4,0,1,7}
3
/\
/ \
9 8
/\ /\
/ \/ \
4 01 7
Return its vertical order traversal as:[[4],[9],[3,0,1],[8],[7]]
Analysis: There are 3 rules that need to be followed.
1. Each column's nodes are put in the same list. Columns are processed from left to right.
2. For each column, nodes of smaller row are added first. Rows are processed from top to bottom.
3. If both the column and row numbers are the same, the node that is on the left is added first.
Rules 2 and 3 are met by a regular level order traversal. To meet rule 1, we need to keep each node's
column number and have a fast way of adding the node to its corresponding column list.
To do this, we enqueue/dequeue a node's column number along the node itself during lever order traversal.
A mapping between a column number and its corresponding node list is also created.
1 public List<List<Integer>> verticalOrder(TreeNode root) { 2 List<List<Integer>> result = new ArrayList<List<Integer>>(); 3 if(root == null) { 4 return result; 5 } 6 Queue<TreeNode> q1 = new LinkedList<TreeNode>(); 7 Queue<Integer> q2 = new LinkedList<Integer>(); 8 HashMap<Integer, List<Integer>> listMap = new HashMap<Integer, List<Integer>>(); 9 int minCol = 0; int maxCol = 0; 10 q1.add(root); 11 q2.add(0); 12 13 while(!q1.isEmpty()) { 14 TreeNode curr = q1.poll(); 15 int col = q2.poll(); 16 minCol = Math.min(minCol, col); 17 maxCol = Math.max(maxCol, col); 18 if(!listMap.containsKey(col)) { 19 listMap.put(col, new ArrayList<Integer>()); 20 } 21 listMap.get(col).add(curr.val); 22 23 if(curr.left != null) { 24 q1.add(curr.left); 25 q2.add(col - 1); 26 } 27 if(curr.right != null) { 28 q1.add(curr.right); 29 q2.add(col + 1); 30 } 31 } 32 33 for(int i = minCol; i <= maxCol; i++) { 34 result.add(listMap.get(i)); 35 } 36 return result; 37 }
Related Problems
Binary Tree Level Order Traversal