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It seems that my code for creating a binary tree for a huffman coding program is flawed. I can't figure out why, but when I exam the root node in the debugger the left node points to the letter N and the right node points to a parent node. The parent node's left node points to the letter N, while the right node points to a parent node. That parent node's left child is the letter N, while... (you see where this is going). This is the code where the problems are:

huff_sort(nodes); // sort nodes by weight

    //-------BUILDING TREE------
    while(nodes->size() != 1){ //Sorts nodes by weight and then removes two of them and replaces them with one
        int w= (**beg).weight + (**(beg+1)).weight;
        Node* p = new Node;
        p->set_node(w, '*', *nodes->begin(), *(nodes->begin()+1)); //making it the parent node of the two lowest nodes
        nodes->erase(nodes->begin(), nodes->begin()+2);
        unsigned int i = 0;
        while(w > (*nodes)[i]->weight && i <= nodes->size()){ //finds where to insert the parent node based on weight
        if(i > nodes->size()) //if it needs to be inserted at the end
            nodes->insert(nodes->begin()+i, p);
        delete p;

From previous debugging, I know that the huff_sort function works.

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Why not use std::map instead? –  Man of One Way Jul 24 '12 at 20:27
@ManofOneWay What about it? (Sorry, I'm new to programming) –  sinθ Jul 24 '12 at 20:29
std::map is implemented as a sorted binary tree: en.cppreference.com/w/cpp/container/map –  Man of One Way Jul 24 '12 at 20:29
@ManofOneWay I don't see how that could be implemented for use in a Huffman coding algorithm, since I don't see a way to manually traverse the tree. Anyway, I'm doing this as a learning opportunity, otherwise I would just use a library to compress the files. –  sinθ Jul 24 '12 at 20:32
You can use a custom comparator to order the elements in the way you want them to be ordered. You can traverse the tree using iterators as usual. –  Man of One Way Jul 24 '12 at 20:39

1 Answer 1

At the end of the loop you do delete p which invalidates the pointer and frees the node you just inserted.

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