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# I don't understand this Huffman algorithm implementation

``````    template<class T>
void huffman(MinHeap<TreeNode<T>*> heap, int n)
{
for(int i=0;i<n-1;i++)
{
TreeNode<T> *first = heap.pop();
TreeNode<T> *second = heap.pop();
TreeNode<T> *bt = new BinaryTreeNode<T>(first, second, first.data, second.data);
heap.push(bt);
}
}
``````

In my Fundamentals of Data Structures in C++ textbook, it gave a 2 page definition of Huffman coding, and the code above. To me, the book wasn't enough detailed, so I've done the googling and I learned how the process of Huffman coding works. The textbook claims that at the end of the code above, a Huffman tree is made. But to me it seems wrong, because a Huffman tree, is not necessary a complete tree, but the code above seems to always give a complete tree because of the `heap.push()`. So can someone explain to me how this piece of code is not wrong?

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The heap is a temporary auxiliary data structure used to improve efficiency of the operation of finding the two Huffman nodes with the least weight. In the end, the heap contains only one element, a single `BinaryTreeNode<T>`, which can be popped out and is then the root of the finished Huffman tree; the heap can then be destroyed because it is no longer needed. – Jeffrey Hantin Jul 17 '10 at 0:20
So this algorithm is building the tree from the bottom up, and by the time you empty the heap you'll have a complete tree. I don't understand what the 'n' is for, though; the loop should be `while (heap.size() > 1)`. Regardless, the tree is not "full", different branches will be different lengths depending on how the frequencies of the items in the initial heap are scored.