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I wanted to scramble a String, to make it unreadable and so came up with this method:

public String scrambleWord(String start_word){

     char[] wordarray = start_word.toCharArray();

        char[] dummywordarray = start_word.toCharArray();

        Random random = new Random();

        int r = random.nextInt(wordarray.length-1);
        int i = 0;

        int j = r+1;

        while(i <= r){

            dummywordarray[wordarray.length -i-1] = wordarray[i];

            i++;
        }


        while (j <= wordarray.length -1){

            dummywordarray[j-r-1] = wordarray[j];

            j++;

        }

        String newword = String.valueOf(dummywa);



        return newword;

SO I first converted the string to a char array, and in my method I had to duplicate the char array "dummywordarray". Passing once through this algorithm every lette rof the word will have changed position. But it wont be scrambled very well, in the sense that you could put it back together at a glance. SO I passed a given String of less than 9 characters through the method 7 times, and the words are fairly well scrambled, i.e. unreadable. But I tried it with a 30 character string and it took 500 passes before I could guarantee it was nicely scrambled. 500! I'm sure there is a better algorithm, I'd like some advice on either a)improving this method or b)a better way.

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What do you mean by 'Nicely Scrambled' –  Richard J. Ross III Nov 22 '10 at 16:44
    
Do you just want a one way shuffle of the letters, and it will be unrecoverable later? Or do you actually want a cipher to create a reversible shuffle? –  birryree Nov 22 '10 at 16:46
    
Nicely scrambled is pretty subjective. I'm sorry I cant give you a proper definition. If the original word is troublemaker, then makerelbuort, tromakbleuer are not "nicely scarmbled. You can put them back together after five seconds. –  user485498 Nov 22 '10 at 16:48
    
It is not necessary to reverse it. I just want a nice shuffle that is efficient. –  user485498 Nov 22 '10 at 16:49
    
@JJG: The nature of randomness is that sometimes "troublemaker" will be randomly scrambled as "troublemaker". The ability of the human mind to solve anagrams or jumbles at different stages of "shuffledness" is a much bigger problem that has little to do with programming IMO. –  Mark Peters Nov 22 '10 at 16:51

1 Answer 1

up vote 16 down vote accepted

How about

ArrayList<Character> chars = new ArrayList<Character>(word.length());
for ( char c : word.toCharArray() ) {
   chars.add(c);
}
Collections.shuffle(chars);
char[] shuffled = new char[chars.size()];
for ( int i = 0; i < shuffled.length; i++ ) {
   shuffled[i] = chars.get(i);
}
String shuffledWord = new String(shuffled);

In other words, you could take advantage of the existing java.util.Collections.shuffle(List) method. Unfortunately you have to jump through a couple of hoops to use it, since you can't use primitives in Generics.

Edit:

The basic way that shuffle works (see the Javadoc for the full explanation), is like this:

for position = last_index to first_index
   let swap_pos = random number between first_index and position, inclusive
   swap(swap_pos, position)

Edit 2:

This approach is significantly less verbose with Guava's Chars utilities:

List<Character> chars = Chars.asList(word.toCharArray());
Collections.shuffle(chars);
String shuffledWord = new String(Chars.toArray(chars));
share|improve this answer
    
Nice and simple. You could use Arrays.asList(word.toCharArray()) to shorten it further. –  Adamski Nov 22 '10 at 16:47
    
@Adamski: I think that would result in a List<char[]> since Character[] is not the same as char[]. –  Mark Peters Nov 22 '10 at 16:48
    
Thanks, I'll look into that. I haven' much experience with Generics, but I'll give it a shot. But do you know the algorithm in the suffle(list) method? I'm just wondering how they do it. –  user485498 Nov 22 '10 at 16:51
    
Can you use char[] shuffled = chars.ToArray(char[] shuffled) to remove the second for construct? –  Thomas Langston Nov 22 '10 at 16:52
2  
Note that this is a Knuth shuffle or Fisher–Yates shuffle. en.wikipedia.org/wiki/Shuffling#Randomization –  Thomas Langston Nov 22 '10 at 17:11

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