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Arising out of this question, I'm looking for an elegant (ruby) way to compute the word signature suggested in this answer.

The idea suggested is to sort the letters in the word, and also run length encode repeated letters. So, for example "mississippi" first becomes "iiiimppssss", and then could be further shortened by encoding as "4impp4s".

I'm relatively new to ruby and though I could hack something together, I'm sure this is a one liner for somebody with more experience of ruby. I'd be interested to see people's approaches and improve my ruby knowledge.

edit: to clarify, performance of computing the signature doesn't much matter for my application. I'm looking to compute the signature so I can store it with each word in a large database of words (450K words), then query for words which have the same signature (i.e. all anagrams of a given word, that are actual english words). Hence the focus on space. The 'elegant' part is just to satisfy my curiosity.

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3 Answers

up vote 5 down vote accepted

I'm not much of a Ruby person either, but as I noted on the other comment this seems to work for the algorithm described.

s = "mississippi"
s.split('').sort.join.gsub(/(.)\1{2,}/) { |s| s.length.to_s + s[0,1] }

Of course, you'll want to make sure the word is lowercase, doesn't contain numbers, etc.

As requested, I'll try to explain the code. Please forgive me if I don't get all of the Ruby or reg ex terminology correct, but here goes.

I think the split/sort/join part is pretty straightforward. The interesting part for me starts at the call to gsub. This will replace a substring that matches the regular expression with the return value from the block that follows it. The reg ex finds any character and creates a backreference. That's the "(.)" part. Then, we continue the matching process using the backreference "\1" that evaluates to whatever character was found by the first part of the match. We want that character to be found a minimum of two more times for a total minimum number of occurrences of three. This is done using the quantifier "{2,}".

If a match is found, the matching substring is then passed to the next block of code as an argument thanks to the "|s|" part. Finally, we use the string equivalent of the matching substring's length and append to it whatever character makes up that substring (they should all be the same) and return the concatenated value. The returned value replaces the original matching substring. The whole process continues until nothing is left to match since it's a global substitution on the original string.

I apologize if that's confusing. As is often the case, it's easier for me to visualize the solution than to explain it clearly.

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+1 This was the exact solution I came up with off the top of my head, after thinking about it for a little longer I don't see a much simpler way. –  Robert Gamble Dec 30 '08 at 23:46
I edited the answer to fit on the page without the scroll bar and changed the // to '' which works better with the syntax highlighting (it things // starts a comment). –  Robert Gamble Dec 30 '08 at 23:52
seems to work perfectly...can you edit to explain how it works? –  frankodwyer Dec 31 '08 at 0:09
The split/sort/join converts the string into an array of characters, sorts them, and converts the sorted result back to a string. The gsub replaces any run of 3 or more of the same character with the length of the run and the first character in the run (which will all be the same in that run). –  Robert Gamble Dec 31 '08 at 0:16
thanks, that's perfect. –  frankodwyer Jan 1 '09 at 15:18
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The fastest way to create a sorted list of the letters is this:


It is quite a bit faster than split('') and join(). For comparison it is also best to pack the array back together into a String, so you dont have to compare arrays.

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Can you support this claim with measurements? How much faster on a list of 10,000 words, for example (/usr/dict/words?) –  Norman Ramsey Dec 30 '08 at 23:42
This is interesting, but very cryptic. –  Zach Langley Dec 30 '08 at 23:47
ok a quick comparison: 5.5 seconds vs. 8.5 seconds with Ruby 1.8.7, so unpack and pack is a bit faster. I think with JRuby the difference is bigger, but I dont really remember. Ive done this tuning for my anagram finder: martin.ankerl.com/2008/08/09/two-word-anagram-finder-algorithm –  martinus Dec 30 '08 at 23:52
the 5.5 seconds are on a dict with 320,000 words –  martinus Dec 30 '08 at 23:53
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I don't see an elegant solution. You could use the split message to get the characters into an array, but then once you've sorted the list I don't see a nice linear-time concatenate primitive to get back to a string. I'm surprised.

Incidentally, run-length encoding is almost certainly a waste of time. I'd have to see some very impressive measurements before I'd think it worth considering. If you avoid run-length encoding, you can anagrammatize any string, not just a string of letters. And if you know you have only letters and are trying to save space, you can pack them 5 bits to a letter.

---Irma Vep

EDIT: the other poster found join which I missed. Nice.

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You can use, for example, str.scan(/./) or str.split('') to form an array of characters, sort the array, and then join it back together with String#join, though joining it back into a string is unnecessary. –  Zach Langley Dec 30 '08 at 23:41
+1 for pointing out that RLE is likely to not save much space –  Sparr Dec 31 '08 at 3:23
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