# Why is my probability so far off with this Binary Tree using?

It's basically just an implementation of the Huffman Coding algorithm, but when I check the probability of the end BinaryTree (the only item in the queue left) it's grossly high.

// Make a BinaryTree for each item in CharOccurrences and add as an entry in initialQueue
for (int i = 0; i < charOccurrences.size(); i++) {
BinaryTree<CharProfile> bTree = new BinaryTree<CharProfile>();
bTree.makeRoot(charOccurrences.get(i));
}

// Create the BinaryTree that we're adding to the resultQueue
BinaryTree<CharProfile> treeMerge = new BinaryTree<CharProfile>();

// Create the CharProfile that will hold the probability of the two merged trees
CharProfile data;

while (!initialQueue.isEmpty()) {
// Check if the resultQueue is empty, in which case we only need to look at initialQueue
if (resultQueue.isEmpty()) {
treeMerge.setLeft(initialQueue.remove());
treeMerge.setRight(initialQueue.remove());

// Set treeMerge's data to be the sum of its two child trees' probabilities with a null char value
data = new CharProfile('\0');
data.setProbability(treeMerge.getLeft().getData().getProbability() + treeMerge.getRight().getData().getProbability());
treeMerge.setData(data);
}
else {
// Set the left part of treeMerge to the lowest of the front of the two queues
if (initialQueue.peek().getData().getProbability() <= resultQueue.peek().getData().getProbability()) {
treeMerge.setLeft(initialQueue.remove());
}
else {
treeMerge.setLeft(resultQueue.remove());
}

if (!initialQueue.isEmpty()) {
// Set the right part of treeMerge to the lowest of the front of the two queues
if (initialQueue.peek().getData().getProbability() <= resultQueue.peek().getData().getProbability()) {
treeMerge.setRight(initialQueue.remove());
}
else {
treeMerge.setRight(resultQueue.remove());
}
}
// In the case that initialQueue is now empty (as a result of just dequeuing the last element), simply make the right tree resultQueue's head
else {
treeMerge.setRight(resultQueue.remove());
}

// Set treeMerge's data to be the sum of its two child trees' probabilities with a null char value
data = new CharProfile('\0');
data.setProbability(treeMerge.getLeft().getData().getProbability() + treeMerge.getRight().getData().getProbability());
treeMerge.setData(data);
}

// Add the new tree we create to the resultQueue
}

if (resultQueue.size() > 1) {
while (resultQueue.size() != 1) {
treeMerge.setLeft(resultQueue.remove());
treeMerge.setRight(resultQueue.remove());

data = new CharProfile('\0');
data.setProbability(treeMerge.getLeft().getData().getProbability() + treeMerge.getRight().getData().getProbability());
treeMerge.setData(data);

}
}

I then have this at the end:

System.out.println("\nProbability of end tree: "
+ resultQueue.peek().getData().getProbability());

Which gives me:

Probability of end tree: 42728.31718061674

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