106. Construct Binary Tree from Inorder and Postorder Traversal
public TreeNode buildTree(int[] inorder, int[] postorder) { if(inorder==null || postorder==null || inorder.length==0 || postorder.length==0) { return null; } HashMap<Integer, Integer> map = new HashMap<Integer, Integer>(); for(int i=0;i<inorder.length;i++) { map.put(inorder[i],i); } return helper(inorder,postorder,0,inorder.length-1, 0, postorder.length-1,map); } private TreeNode helper(int[] inorder, int[] postorder, int inL, int inR, int postL, int postR,
HashMap<Integer, Integer> map) { if(inL>inR || postL>postR) //构造树的递归出口, return null; TreeNode root = new TreeNode(postorder[postR]); int index = map.get(root.val); root.left = helper(inorder,postorder,inL,index-1,postL,postL+index-inL-1,map); root.right = helper(inorder,postorder,index+1,inR, postL+index-inL, postR-1,map); return root; }
做个test case 看看起始点和终止点的位置, 构造树都不包括遍历过得