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construct-binary-tree-from-preorder-and-postorder-traversal.cpp
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construct-binary-tree-from-preorder-and-postorder-traversal.cpp
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// Time: O(n)
// Space: O(h)
/**
* Definition for a binary tree node.
* struct TreeNode {
* int val;
* TreeNode *left;
* TreeNode *right;
* TreeNode(int x) : val(x), left(NULL), right(NULL) {}
* };
*/
class Solution {
public:
TreeNode* constructFromPrePost(vector<int>& pre, vector<int>& post) {
vector<TreeNode*> s;
s.emplace_back(new TreeNode(pre[0]));
for (int i = 1, j = 0; i < pre.size(); ++i) {
auto node = new TreeNode(pre[i]);
while (s.back()->val == post[j]) {
s.pop_back(), ++j;
}
if (s.back()->left == nullptr) {
s.back()->left = node;
} else {
s.back()->right = node;
}
s.emplace_back(node);
}
return s[0];
}
};
// Time: O(n)
// Space: O(n)
class Solution2 {
public:
TreeNode* constructFromPrePost(vector<int>& pre, vector<int>& post) {
unordered_map<int, size_t> post_entry_idx_map;
for (size_t i = 0; i < post.size(); ++i) {
post_entry_idx_map[post[i]] = i;
}
return constructFromPrePostHelper(pre, 0, pre.size(), post, 0, post.size(),
post_entry_idx_map);
}
private:
TreeNode *constructFromPrePostHelper(const vector<int>& pre, size_t pre_s, size_t pre_e,
const vector<int>& post, size_t post_s, size_t post_e,
const unordered_map<int, size_t>& post_entry_idx_map) {
if (pre_s >= pre_e || post_s >= post_e) {
return nullptr;
}
auto node = new TreeNode(pre[pre_s]);
if (pre_e - pre_s > 1) {
auto left_tree_size = post_entry_idx_map.at(pre[pre_s + 1]) - post_s + 1;
node->left = constructFromPrePostHelper(pre, pre_s + 1, pre_s + 1 + left_tree_size,
post, post_s, post_s + left_tree_size,
post_entry_idx_map);
node->right = constructFromPrePostHelper(pre, pre_s + 1 + left_tree_size, pre_e,
post, post_s + left_tree_size, post_e - 1,
post_entry_idx_map);
}
return node;
}
};