lc.106 中后序列构造二叉树
==这题一定要背下来、在leetcode上多写几遍;
还有由中、前序序列构造二叉树的,也要写!==
![[Pasted image 20241128005125.png]]
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class Solution {
public:
TreeNode* buildTree(vector<int>& inorder, vector<int>& postorder) {
if (inorder.size() == 0 || postorder.size() == 0) return NULL;
return traversal(inorder, postorder);
}
TreeNode* traversal (vector<int>& inorder, vector<int>& postorder) {
if (postorder.size() == 0) return NULL;
// 后序遍历数组最后一个元素,就是当前的中间节点
int rootValue = postorder[postorder.size() - 1];
TreeNode* root = new TreeNode(rootValue);
// 叶子节点
if (postorder.size() == 1) return root;
// 找到中序遍历的切割点
int delimiterIndex;
for (delimiterIndex = 0; delimiterIndex < inorder.size(); delimiterIndex++) {
if (inorder[delimiterIndex] == rootValue) break;
}
// 切割中序数组
// 左闭右开区间:[0, delimiterIndex)
vector<int> leftInorder(inorder.begin(), inorder.begin() + delimiterIndex);
// [delimiterIndex + 1, end)
vector<int> rightInorder(inorder.begin() + delimiterIndex + 1, inorder.end() );
// postorder 舍弃末尾元素
postorder.resize(postorder.size() - 1);
// 切割后序数组
// 依然左闭右开,注意这里使用了左中序数组大小作为切割点
// [0, leftInorder.size)
vector<int> leftPostorder(postorder.begin(), postorder.begin() + leftInorder.size());
// [leftInorder.size(), end)
vector<int> rightPostorder(postorder.begin() + leftInorder.size(), postorder.end());
root->left = traversal(leftInorder, leftPostorder);
root->right = traversal(rightInorder, rightPostorder);
return root;//这个函数返回的是所构造的二叉树的根节点!
}
};
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