Construct Binary Tree from Preorder and Inorder Traversal (M)
题目
Given preorder and inorder traversal of a tree, construct the binary tree.
Note:
You may assume that duplicates do not exist in the tree.
For example, given
preorder = [3,9,20,15,7]
inorder = [9,3,15,20,7]
Return the following binary tree:
3
/
9 20
/
15 7
题意
给定一棵二叉树的先序序列和中序序列,要求重建这棵二叉树。
思路
由二叉树的性质可知,先序序列的第一个元素是当前二叉树的根节点,根节点将中序序列分为左子树和右子树。先序序列的第一个元素即为整棵二叉树的根节点,在中序序列中找到该元素,则中序中该元素左侧为左子树,右侧为右子树,依照左右子树个数又可将先序序列剩余元素进行划分,接着只要对左子树和右子树进行递归操作即可。
代码实现
Java
class Solution {
public TreeNode buildTree(int[] preorder, int[] inorder) {
// 为了省去在中序序列中迭代查找元素的时间, 直接用HashMap将整个inorder存进去
Map<Integer, Integer> map = new HashMap<>();
for (int i = 0; i < inorder.length; i++) {
map.put(inorder[i], i);
}
return buildTree(map, preorder, 0, preorder.length - 1, 0, inorder.length - 1);
}
private TreeNode buildTree(Map<Integer, Integer> map, int[] preorder, int preI, int preJ, int inI, int inJ) {
// 递归边界
if (preI > preJ) {
return null;
}
if (preI == preJ) {
return new TreeNode(preorder[preI]);
}
// 在中序序列中找到先序序列的第一个元素,并求出左子树的长度
int len = map.get(preorder[preI]) - inI;
TreeNode root = new TreeNode(preorder[preI]);
// 划分区域后递归处理左右子树
root.left = buildTree(map, preorder, preI + 1, preI + len, inI, inI + len - 1);
root.right = buildTree(map, preorder, preI + len + 1, preJ, inI + len + 1, inJ);
return root;
}
}
JavaScript
/**
* @param {number[]} preorder
* @param {number[]} inorder
* @return {TreeNode}
*/
var buildTree = function (preorder, inorder) {
return construct(preorder, 0, preorder.length - 1, inorder, 0, inorder.length - 1)
}
var construct = function (preorder, pa, pb, inorder, ia, ib) {
if (pa > pb) return null
const root = new TreeNode(preorder[pa])
const leftLen = inorder.indexOf(root.val) - ia
root.left = construct(preorder, pa + 1, pa + leftLen, inorder, ia, ia + leftLen - 1)
root.right = construct(preorder, pa + leftLen + 1, pb, inorder, ia + leftLen + 1, ib)
return root
}