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I want to build a list containing every possible permutation of capitalization of a word. so it would be

List<string> permutate(string word)
    List<string> ret = new List<string>();
    return ret;

So say I put in "happy" I should get an array back of

{happy, Happy, hAppy, HAppy, haPpy, HaPpy ... haPPY, HaPPY, hAPPY, HAPPY}

I know of plenty of functions that will capitalize the first letter but how do I do any arbitrary letter in the word?

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I just have to wonder what this is for. If it's for any kind of comparison purpose, it's probably the wrong way to approach the problem. –  Instance Hunter May 25 '09 at 4:45
That may be for a dictionary attack. –  sharptooth May 25 '09 at 4:46
Actually it is, I forgot my password to a file, I know the word but not the capitalization. My plan is to calc every possable one and feed it in to a dictionary cracker. –  Scott Chamberlain May 25 '09 at 5:14

6 Answers 6

up vote 5 down vote accepted

You can modify individual characters if you convert your string to an array of char. Something like this should do the trick...

public static List<string> Permute( string s )
  List<string> listPermutations = new List<string>();

  char[] array = s.ToLower().ToCharArray();
  int iterations = (1 << array.Length) - 1;

  for( int i = 0; i <= iterations; i++ )
    for( int j = 0; j < array.Length; j++ )
    array[j] = (i & (1<<j)) != 0 
                  ? char.ToUpper( array[j] ) 
                  : char.ToLower( array[j] );
    listPermutations.Add( new string( array ) );
  return listPermutations;
share|improve this answer
I added a listPermutatuions.Add before the loops so it would store a fully lowercase version, other than that yours works perfectly. –  Scott Chamberlain May 25 '09 at 5:13
Thanks Scott, I've amended the above code sample. –  LBushkin May 25 '09 at 5:43
This won't return all of them though. For example, "haPpY". In fact, there should be 2^n of them total, whereas the code above only produces n(n+1)/2 + 1 of them. –  newacct May 25 '09 at 5:52
And this is why you should always test your code ... and why open source works so well. Thanks newacct. I actually took the time to test the implementation this time... and it does indeed produce all 2^n permutations. –  LBushkin May 25 '09 at 6:29

Keep in mind that while the accepted answer is the most straightforward way of capitalizing an arbitrary letter, if you are going to change the capitalization repeatedly on the same set of letters (e.g., 32 times in "happy" and growing exponentially for longer words), it will be more efficient to turn the string into a char[], set the appropriate letter(s), and construct the string from the array.

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Which makes me wonder... what if you created a two-dimensional array, with index 0 being the word in lowercase and index 1 being the word in uppercase (as char arrays). Then you could iterate from 0 to 2^(word_length-1) and use the bits of the integer to tell you which array to grab each letter from. I really have no idea if this is a good idea or not. It just came to me when I read this. –  Instance Hunter May 25 '09 at 4:54
Conceptually I did just that (the bit-testing part), but I modified a single array in place. Better still is to use a Gray code so that the entire array can be generated with 2^(word_length)-1 "case flips." –  DocMax May 25 '09 at 5:01
+1 for suggesting a gray code –  Tony Lee May 27 '09 at 13:17
What would be the benefit of using a GrayCode? Is flipping only one bit per iteration more efficient? How would you go about using a gray code? Using the regular binary encodings of integers is easy because you can just use bitwise operations to check which bits are set in the int, but how would you be able to get the GrayCode bitstring for each int –  ordinary Nov 8 '13 at 4:17

To "permute" your string (technically, this isn't permutation since you're not changing the order of anything, but I don't want to be seen as an an*l-retentive :-), I would use a recursive approach, which basically "permutes" the string minus the first character and attaches those to the upper and lower variations of that character.

Something like (in C, my C# is not really up to par so you'll have to convert it):

#include <stdio.h>
#include <string.h>

static void permute (char *prefix, char *str) {
    char *newPrefix;

    /* End of string, print and return. */

    if (*str == '\0') {
        printf ("%s\n", prefix);

    /* Allocate space for new prefix. */

    if ((newPrefix = malloc (strlen (prefix) + 2)) == NULL) {
        printf ("ERROR: Cannot allocate memory.\n");

    /* Do lowercase/sole version and upper version if needed. */

    sprintf (newPrefix, "%s%c", prefix, *str);
    permute (newPrefix, &(str[1]));

    if (islower (*str) {
        sprintf (newPrefix, "%s%c", prefix, toupper(*str));
        permute (newPrefix, &(str[1]));

    /* Free prefix and return. */

    free (newPrefix);


int main (int argc, char *argv[]) {
    char *str, *strPtr;

    /* Check and get arguments. */

    if (argc < 2) {
        printf ("Usage: permute <string to permute>\n");
        return 1;

    if ((str = malloc (strlen (argv[1]) + 1)) == NULL) {
        printf ("ERROR: Cannot allocate memory.\n");
        return 1;
    strcpy (str, argv[1]);

    /* Convert to lowercase. */
    for (strPtr = s; *strPtr != '\0'; strPtr++)
        *strPtr = toupper (*strPtr);

    /* Start recursion with empty prefix. */

    permute ("", str);

    /* Free and exit. */

    free (str);
    return 0;

Running this as "permute Pax1" returns:

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Loosely speaking, something like below. I may have my ranges off by one, but the idea is sound.

def cap_n(in_str, pos):
  leading = in_str.substr(0, pos-1)
  trailing = in_str.substr(pos+1) # no second arg implies to end of string
  chr = in_str[pos].to_uppercase()
  return leading + chr + trailing
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Use bitwise operations. For a word of length N you need an integer type represented by N bits. If the word is longer - split it. Iterate through values from 0 to 2N-1 and examine each bit from 0 to N-1. If the bit is 1 - upcase ( Char.ToUpper() ) the letter corresponding to that bit.

This approach is better that a recursive algorithm since it is not prone to stack overflows on long words.

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1) You don't care too much that this is O(n*2^n)... although I'm curious to know: what is the best asymptotic run time for this type of problem?

2) Your input is all lowercase.

3) Your input is < 32 characters long. (# of usable bits in the permutation counter, i)

    List<string> permutate(string word)
    List<string> ret = new List<string>();

Dictionary<char,char> toUppers = new Dictionary<char,char>(26);
toUppers.Add('a', 'A');
toUppers.Add('b', 'B');
toUppers.Add('c', 'C');
toUppers.Add('d', 'D');
toUppers.Add('e', 'E');
toUppers.Add('f', 'F');
toUppers.Add('g', 'G');
toUppers.Add('h', 'H');
toUppers.Add('i', 'I');
toUppers.Add('j', 'J');
toUppers.Add('k', 'K');
toUppers.Add('l', 'L');
toUppers.Add('m', 'M');
toUppers.Add('n', 'N');
toUppers.Add('o', 'O');
toUppers.Add('p', 'P');
toUppers.Add('q', 'Q');
toUppers.Add('r', 'R');
toUppers.Add('s', 'S');
toUppers.Add('t', 'T');
toUppers.Add('u', 'U');
toUppers.Add('v', 'V');
toUppers.Add('w', 'W');
toUppers.Add('x', 'X');
toUppers.Add('y', 'Y');
toUppers.Add('z', 'Z');

char[] wordChars = word.ToCharArray();
int len = wordChars.Length;

// iterate the number of permutations
for(int i = 0; i < 2^len; i++) {
    char[] newWord = new char[len]();

    // apply "i" as a bitmask to each original char
    for(int n = 0; n < newWord.Length; n++) {
    	if((1 << n) & i != 0) {
    		newWord[n] = toUppers[wordChars[n]]; // or skip the dictionary and just call Char.ToUpper(wordChars[n])
    	} else {
    		newWord[n] = wordChars[n];
    ret.Add(new String(newWord));

    return ret;

Note: I haven't compiled or tested this code. This is also implementing the bitwise compare that sharptooth suggested above.

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