87

While reading http://uncyclopedia.wikia.com/wiki/Haskell (and ignoring all the "offensive" stuff), I stumbled upon the following piece of obfuscated code:

fix$(<$>)<$>(:)<*>((<$>((:[{- thor's mother -}])<$>))(=<<)<$>(*)<$>(*2))$1

When I run that piece of code in ghci (after importing Data.Function and Control.Applicative), ghci prints the list of all powers of 2.

How does this piece of code work?

  • 2
    I wonder if the answer would be something hubristically offensive... if true, ironic considering your efforts to avoid vulgarity. – Meredith Sep 30 '12 at 8:56
  • 31
    What have you tried? The obvious things to try are (a) remove the comment, (b) reformat/reindent the code, (c) work out which instances of Functor/Applicative/Monad are being used (probably all list, but don't assume... nothing would prevent a sufficiently demented programmer from using five different instances of Monad in a single line of code), (d) simplify as much as you can. Then see what you're left with. – dave4420 Sep 30 '12 at 9:13
  • 9
    Haskell is my favourite programming language, by far, but nevertheless uncyclopedia.wikia.com/wiki/Haskell made me laugh so much! – AndrewC Oct 1 '12 at 2:37
  • 4
    Question linked by What Compsci textbooks don't tell you: Real world code sucks. – Greg Bacon Dec 22 '12 at 21:38
  • 3
    It really annoys me when somebody finds the most gratuitously cryptic code fragment they can find in language XYZ, and then asserts as fact that it is "virtually impossible to write readable code in language XYZ". But that's just me... – MathematicalOrchid Jul 31 '15 at 12:43
211

To begin with, we have the lovely definition

x = 1 : map (2*) x

which by itself is a bit mind-bending if you've never seen it before. Anyway it's a fairly standard trick of laziness and recursion. Now, we'll get rid of the explicit recursion using fix, and point-free-ify.

x = fix (\vs -> 1 : map (2*) vs)
x = fix ((1:) . map (2*))

The next thing we're going to do is expand the : section and make the map needlessly complex.

x = fix ((:) 1 . (map . (*) . (*2)) 1)

Well, now we have two copies of that constant 1. That will never do, so we'll use the reader applicative to de-duplicate that. Also, function composition is a bit rubbish, so let's replace that with (<$>) wherever we can.

x = fix (liftA2 (.) (:) (map . (*) . (*2)) 1)
x = fix (((.) <$> (:) <*> (map . (*) . (*2))) 1)
x = fix (((<$>) <$> (:) <*> (map <$> (*) <$> (*2))) 1)

Next up: that call to map is much too readable. But there's nothing to fear: we can use the monad laws to expand it a bit. In particular, fmap f x = x >>= return . f, so

map f x = x >>= return . f
map f x = ((:[]) <$> f) =<< x

We can point-free-ify, replace (.) with (<$>), and then add some spurious sections:

map = (=<<) . ((:[]) <$>)
map = (=<<) <$> ((:[]) <$>)
map = (<$> ((:[]) <$>)) (=<<)

Substituting this equation in our previous step:

x = fix (((<$>) <$> (:) <*> ((<$> ((:[]) <$>)) (=<<) <$> (*) <$> (*2))) 1)

Finally, you break your spacebar and produce the wonderful final equation

x=fix(((<$>)<$>(:)<*>((<$>((:[])<$>))(=<<)<$>(*)<$>(*2)))1)
  • 1
    You left out {- thor's mother -}! – Simon Shine Apr 9 '18 at 13:37
14

Was writing a long answer with a full run-through of my IRC logs of the experiments leading up to the final code (this was in early 2008), but I accidentally all the text :) Not that much of a loss though - for the most part Daniel's analysis is spot on.

Here's what I started with:

Jan 25 23:47:23 <olsner>        @pl let q = 2 : map (2*) q in q
Jan 25 23:47:23 <lambdabot>     fix ((2 :) . map (2 *))

The differences mostly come down to the order in which the refactorings happened.

  • Instead of x = 1 : map (2*) x I started with 2 : map ..., and I kept that initial 2 right up until the very last version, where I squeezed in a (*2) and changed the $2 at the end into $1. The "make the map needlessly complex" step didn't happen (that early).
  • I used liftM2 instead of liftA2
  • The obfuscated map function was put in before replacing liftM2 with Applicative combinators. That's also when all the spaces disappeared.
  • Even my "final" version had lots of . for function composition left over. Replacing all of those with <$> apparently happened some time in the months between that and uncyclopedia.

BTW, here's an updated version that no longer mentions the number 2:

fix$(<$>)<$>(:)<*>((<$>((:[{- Jörð -}])<$>))(=<<)<$>(*)<$>(>>=)(+)($))$1
  • 8
    Is the omission of the word "deleted" in the first paragraph intentional? If so my hat off to you sir. – Jake Brownson Feb 21 '14 at 23:54
  • 2
    @JakeBrownson It's a common internet idiom, though I'm also not sure if it was on purpose. – Lambda Fairy Jul 10 '14 at 8:07

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.