LintCode-73.前序遍历和中序遍历树构造二叉树

时间:2021-10-03 06:29:06

前序遍历和中序遍历树构造二叉树

根据前序遍历和中序遍历树构造二叉树.

注意事项

你可以假设树中不存在相同数值的节点

样例

给出中序遍历:[1,2,3]和前序遍历:[2,1,3]. 返回如下的树:

  2

 /  

1  3

标签

二叉树

code

/**
* Definition of TreeNode:
* class TreeNode {
* public:
* int val;
* TreeNode *left, *right;
* TreeNode(int val) {
* this->val = val;
* this->left = this->right = NULL;
* }
* }
*/
class Solution {
/**
*@param preorder : A list of integers that preorder traversal of a tree
*@param inorder : A list of integers that inorder traversal of a tree
*@return : Root of a tree
*/
public:
TreeNode *buildTree(vector<int> &preorder, vector<int> &inorder) {
// write your code here
TreeNode *root = NULL;
vector<int> preorder_l,preorder_r,inorder_l,inorder_r;
int i,root_index=0; if(preorder.empty()!=1 || inorder.empty()!=1) {
root = new TreeNode(preorder[0]); // 在前序队列中找根节点 // 在中序队列中找出根节点位置
for(i=0; i<inorder.size(); i++) {
if(preorder[0] == inorder[i])
break;
root_index++;
} // 左右子树的前序、中序队列
for(i=0; i<root_index; i++) {
preorder_l.push_back(preorder[i+1]);
inorder_l.push_back(inorder[i]);
}
for(i=root_index+1; i<inorder.size(); i++) {
preorder_r.push_back(preorder[i]);
inorder_r.push_back(inorder[i]);
} root->left = buildTree(preorder_l, inorder_l);
root->right = buildTree(preorder_r, inorder_r);
}
return root;
}
};