# Comparator and Priority Queues

I'm in the process of coding Huffman Code where I import a file, generate huffman code for each character, then output the binary to a file. To import the characters I am using a scanner that reads each character, puts it in a node that has values of the read character and a frequency of 1. Then, the node is added to a PriorityQueue. Since the Node class has a compareTo method that compares only frequency, how can I implement a comparator to this specific PriorityQueue that compares the characters when sorting in queue? Thanks in advanced.

Literal example: The queue of characters should be sorted as follows:

``````[A:1][A:1][A:1][B:1][C:1]
Next step:
[A:1][A:2][B:1][C:1]
Final:
[A:3][B:1][C:1]
``````

Here are some snippets:

``````protected class Node implements Comparable<Node>{
Character symbol;
int frequency;

Node left = null;
Node right = null;
@Override
public int compareTo(Node n) {
return n.frequency < this.frequency ? 1 : (n.frequency == this.frequency ? 0 : -1);
}

public Node(Character c, int f){
this.symbol = c;
this.frequency = f;
}
public String toString(){
return "["+this.symbol +","+this.frequency+"]";
}
``````

This is the PriorityQueue that needs a custom comparator:

``````public static PriorityQueue<Node> gatherFrequency(String file) throws Exception{
File f = new File(file);
PriorityQueue<Node> PQ = new PriorityQueue<Node>();
for(int i = 0; i < reader.next().length();i++){
}
}
if(PQ.size()>1){ //during this loop the nodes should be compared by character value
while(PQ.size() > 1){
Node a = PQ.remove();
Node b = PQ.remove();
if(a.symbol.compareTo(b.symbol)==0){
Node c = new Node(a.symbol, a.frequency + b.frequency);
}
else break;
}
return PQ;
}
return PQ;

}
``````

This is the new method I created using a HashMap:

``````public static Collection<Entry<Character,Integer>> gatherFrequency(String file) throws Exception{
File f = new File(file);
HashMap<Character, Integer> map = new HashMap<Character, Integer>();
for(int i = 0; i < reader.next().length();i++){
int freq = map.get(key);
map.put(key, freq+1);
}
else{
map.put(key, 1);
}
}
}
return map.entrySet();
}
``````
-
This appear to be far more complicated than it needs to be. Shouldn't all `A` be counted even if they are not consecutive. – Peter Lawrey Apr 15 '11 at 15:28
They will always be consecutive if they are in a PriorityQueue that sorts by Character value – Trevor Arjeski Apr 15 '11 at 15:31

The standard approach to implementing Huffman trees is to use a hashmap (in Java, you'd probably use a `HashMap<Character, Integer>`) to count the frequency for each letter, and insert into the priority queue one node for each letter. So when constructing the Huffman tree itself, you start out with a priority queue that is already in the "final" state that you showed. The Huffman algorithm then repeatedly extracts two nodes from the priority queue, constructs a new parent node for those two nodes, and inserts the new node into the priority queue.
@TrevorMA: Unless you really need the slight performance improvement offered by `TIntIntHashMap`, I recommend that you use the standard `HashMap`, in particular since you haven't used it before (this will be a good opportunity to learn it, and you'll come across `HashMap` much more often than `TIntIntHashMap`). – Aasmund Eldhuset Apr 15 '11 at 16:11
@TrevorMA: True; that can be a little confusing. The `put()` method is used both to place something in the hashmap for the first time, and also to replace an existing value. Let's say that you have a character stored in the variable `c`; then you'll first need to check if the hashmap contains `c` as a key. If it does, you can read the current frequency with `get()`, compute frequency + 1 and update the frequency in the hashmap with `put()`. If the key is not there, you can add it with the frequency 1. – Aasmund Eldhuset Apr 15 '11 at 16:30
@TrevorMA: No problem. Use the `entrySet()` method, which gives you a collection of map entries, where each entry contains both the key and the value. – Aasmund Eldhuset Apr 15 '11 at 16:47
@TrevorMA: After doing `Character key = reader.next().charAt(i);`, you call `reader.next()` once more, thus reading one more character. That character will likely be different from the one that is now stored in `key`, and you ask if the second character is present in the dictionary - and if it is, you try to update `key`. (Edit: I see now that you call `next()` many times - each call to next gives you the next string from the input... Use `next()` only once in the entire `while` loop body.) – Aasmund Eldhuset Apr 15 '11 at 17:50