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I am working on an algorithm that has three parts. The first is a recursive method that will wrap words to a specific length with the least penalty. The second is an algorithm that is a Dynamic implementation of the recursive method. The last one is a Greedy Algorithm of the problem. I already have the Greedy one coded but I'm struggling on the Recursive solution. I'm not quite sure where exactly I'm running into an issue with my Recursive method but I know it should be something similar to the Knuth-Plass Algorithm. The recursive algorithm is supposed to have a factorial running time, and used more to help with the dynamic solution. If anyone has a link to a Knuth-Plass implementation or can spot something huge in my code, any help would be appreciated.

Recursive Algorithm:

    public static ArrayList<String> recursive(ArrayList<String> input, int size) {
    if(input.size() <= 1)
        return input;
    ArrayList<String> temp1 = input;
    ArrayList<String> temp2 = input;
    for(int i = 0; i < input.size(); i++) {
        if(input.size() - 1 >= size)
        else {
            for(int j = 0; j < input.size(); j++) {
                temp1.set(j, temp1.get(j) + " " + temp1.get(j + 1));
                temp1.remove(j + 1);
                if(totalPenalty(blankChars(temp1, size)) < totalPenalty(blankChars(temp2, size))) {
                    input = recursive(temp1, size);
                } else {
                    input = recursive(temp2, size);
    return input;

The totalPenalty() and blankChars return the amount of penalty at the end of each line.

EDIT: I'm still not seeing any immediate solutions. Any help would be appreciated.

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Why do you explicitly want it to be recursive? Recursion is inefficient programming if you can avoid it. You can eventually run out of stack space. –  Chris Dennett Mar 6 '11 at 23:03
It is to get me to a Dynamic Programming solution. Basically I am trying to go Recursive(bad big-O but helps with converting to Dynamic)>Dynamic(faster and always correct)>Greedy(not always gonna be right). If that makes sense. –  Zach Mar 6 '11 at 23:15
@Chris Dennett: It will be a bit more accurate to say that such recursion is inefficient because: a) it's Java b) there are no tail calls that can be eliminated anyway. However even in such conditions recursion may help us to express algorithm more clearly if we can guarantee that input will be reasonably small. –  hoha Mar 6 '11 at 23:25
@hoha: Thank you for clarifying. –  Zach Mar 6 '11 at 23:28
I must admit I can't get how this is supposed to work. Since you don't want to use Knuth's approach can you update question text with pseudocode or description of your algorithm? –  hoha Mar 6 '11 at 23:49
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1 Answer 1

That looks like Java, and in Java there is no implicit copy-constructor.

ArrayList<String> temp1 = input; <-- this will not create another object with the same content, but instead a reference to the same object.

You need to change line 4 and 5 to:

ArrayList<String> temp1 = new ArrayList<String>(input);
ArrayList<String> temp2 = new ArrayList<String>(input);

I haven't looked for any other mistakes, so try this out and update the question if you have any more problems.

About the Knuth-Pass breaking algorithm; You can find a Python implementation at http://oedipus.sourceforge.net/texlib/. I haven't looked closer at it, but the description seems to be what you are looking for.

share|improve this answer
Thanks for the fast response. It doesn't seem that the above solved the issue. I think the problem is something with my logic. The link wasn't that helpful because there was not an actual implementation but just the frame work. I'm not looking for an exact Knuth-Plass Implementation but while doing research I found that the Knuth-Plass algorithm was the closest to what I was trying to achieve. –  Zach Mar 6 '11 at 23:11
There is definitely an implementation there. The download link is at the bottom. –  Markus Jarderot Mar 7 '11 at 1:54
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