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I've just started learning haskell(literally, tonight!) and I'm having a little trouble understanding the logic of list comprehensions, more specifically the <- operator. A little example on Learn You Some Haskell Finds all tuples that have a length less than 10:

ghci> let triangles = [ (a,b,c) | c <- [1..10], b <- [1..10], a <- [1..10] ]

my initial understanding was that these would all increment together, but after seeing the output I really dont understanding the incrementing method for these lists. Another example that seems to get me is:

ghci> let rightTriangles = [ (a,b,c) | c <- [1..10], b <- [1..c], a <- [1..b], a^2 + b^2 == c^2]

I would really appreciate a little explanation on these, thanks for your patience with my lack of haskell intelligence.

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3 Answers 3

up vote 19 down vote accepted

Read [ as "list of", | as "for", <- as "in", , as "and".

The enumerations are done in nested fashion. [ (a,b,c) | c <- [1..10], b <- [1..c], a <- [1..b], a^2 + b^2 == c^2] is really

for c from 1 to 10 step 1:
   for b from 1 to c step 1:
      for a from 1 to b step 1:
          if (a^2 + b^2 == c^2):
             emit (a,b,c)

In Haskell though, the above is achieved by the following translation

[1..10] >>= (\c->               -- (a function of 'c', producing ...
  [1..c]  >>= (\b->               -- (a function of 'b', producing ...
    [1..b]  >>= (\a->               -- (a function of 'a', producing ...
      if a^2+b^2==c^2 then [(a,b,c)] else []
      -- or: [(a,b,c) | a^2+b^2==c^2]
      )))

so you really can see the nested structure here. (>>=) is nothing mysterious too. Read >>= as "fed into" or "pushed through", although its official name is "bind". It is defined (for lists) as

(xs >>= f) = concatMap f xs = concat (map f xs)

f here is called (by map) upon each element of xs, in order. It must produce lists so that they could be combined with concat. Since empty lists [] are eliminated on concat (e.g. concat [[1], [], [3]] == [1,3]) all the elements that do not pass the test are eliminated from the final output.


For the full translation see section 3.11, List Comprehensions, of the Haskell 98 Report. In general a list comprehension may contain a pattern, not just a variable name. The comprehension

[e | pat <- ls, ...]  

is translated as

ls >>= (\x -> case x of pat -> [e | ...] ;
                        _   -> [] )

where pat is some pattern, and x is a fresh variable. When there's a pattern mismatch, an empty list is produced (instead of a run-time error), and that element x of ls is skipped over. This is useful for additional pattern-based filtering, like e.g. [x | Just x <- ls, even x] where all the Nothings in ls are quietly ignored.

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5  
Detailed and very clear, really helped me understand the material. Thanks so much! –  Syntactic Fructose May 29 '13 at 5:45

[ (a,b,c) | c <- [1..10], b <- [1..10], a <- [1..10] ] means, for all combinations of (a,b,c) where a is in [1..10], b is in [1..10], c is in [1..10]

If you want the (1,1,1) (2,2,2) kinds, you should use zip: zip [1..10] [1..10] or for 3 lists, zip3 [1..10] [1..10] [1..10]

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1  
Or you could enable Parallel List Comprehensions and write [(a,b,c) | c<-[1..10] | b<-[1..10] | a<-[1..10] ]! –  yatima2975 May 29 '13 at 8:37

I think of list comprehension syntax as Haskell's attempt to get Set-builder notation in the language. We use '[' rather than '{' and '<-' rather than '∈'. List comprehension syntax can even be generalized to arbitrary monads.

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