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Copy pathL30_nodesAtADistanceKCpp
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L30_nodesAtADistanceKCpp
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class Solution {
void markParents(TreeNode* root, unordered_map<TreeNode*, TreeNode*> &parent_track, TreeNode* target) {
queue<TreeNode*> queue;
queue.push(root);
while(!queue.empty()) {
TreeNode* current = queue.front();
queue.pop();
if(current->left) {
parent_track[current->left] = current;
queue.push(current->left);
}
if(current->right) {
parent_track[current->right] = current;
queue.push(current->right);
}
}
}
public:
vector<int> distanceK(TreeNode* root, TreeNode* target, int k) {
unordered_map<TreeNode*, TreeNode*> parent_track; // node -> parent
markParents(root, parent_track, target);
unordered_map<TreeNode*, bool> visited;
queue<TreeNode*> queue;
queue.push(target);
visited[target] = true;
int curr_level = 0;
while(!queue.empty()) { /*Second BFS to go upto K level from target node and using our hashtable info*/
int size = queue.size();
if(curr_level++ == k) break;
for(int i=0; i<size; i++) {
TreeNode* current = queue.front(); queue.pop();
if(current->left && !visited[current->left]) {
queue.push(current->left);
visited[current->left] = true;
}
if(current->right && !visited[current->right]) {
queue.push(current->right);
visited[current->right] = true;
}
if(parent_track[current] && !visited[parent_track[current]]) {
queue.push(parent_track[current]);
visited[parent_track[current]] = true;
}
}
}
vector<int> result;
while(!queue.empty()) {
TreeNode* current = queue.front(); queue.pop();
result.push_back(current->val);
}
return result;
}
};