# Finding the path of the minimum in a tree

This is a problem in my research code and I am wondering what is the efficient way to go about doing this. I am leaving out unnecessary details and I am presenting it in a manner so that the crux of the problem can be understood.

Lets say I have a binary tree with numbers on each node. I want to find the minimum sum of all the branches in the tree starting from root to leaf. Below is a very rough pseudocode.

``````int minimum(tree){
// Some base cases
left_min = minimum(tree->left);
right_min= minimum(tree->right);
if (left_min < right_min){
return current_value + left_min;
}
else{
return current_value + right_min;
}
}
``````

From this, I can compute the minimum. However, if I want to compute the nodes which give me the minimum, how would I go about? i.e. if the answer is say 14, I want to find out which nodes at each level in the tree add up to give me a sum of 14. What would be the efficient way to go about doing this with minimal change to the existing function? By minimal change, I mean I can add additional variables to keep track of the branch but not rewrite the function completely.

Thanks

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Does your tree have `parent` links? Or only `left` and `right` links? –  AnT Jul 19 '12 at 3:30

You can use a list or stack or queue instead of vector:

``````typedef vector<yourIdType> idvec;

int minimum(tree, idvec &path){
// Some base cases
idvec leftPath, rightPath;
left_min = minimum(tree->left, leftPath);
right_min= minimum(tree->right, rightPath);
if (left_min < right_min){
swap(path, leftPath);
path.push_back(thisNodeId);
return current_value + left_min;
} else {
swap(path, rightPath);
path.push_back(thisNodeId);
return current_value + right_min;
}
}
``````
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Thanks. This is what I needed. –  user521968 Jul 19 '12 at 3:44

You can use a list/queue as an extra argument to keep track of selected nodes:

``````int minimum(tree, list){
List templeft, tempright;
// Some base cases
left_min = minimum(tree->left, templeft);
right_min= minimum(tree->right, tempright);
if (left_min < right_min){
list.push_back(templeft);
list.push_back(current);
return current_value + left_min;
}
else{
list.push_back(tempright);
list.push_back(current);
return current_value + right_min;
}
}
``````
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Essentially correct but important to note that the list should be passed as a reference type. –  Dylan Jul 19 '12 at 3:39
This will not work, both calls to minimum are modifying the same list, it will have the paths of both sub trees in it. –  walrii Jul 19 '12 at 3:39
Better :), but now you are push_back-ing a list onto a list of the same type. You also need to add the current node to your list somewhere. –  walrii Jul 19 '12 at 3:59