14

genericLength is implemented, as of base 4.12, as:

genericLength           :: (Num i) => [a] -> i
{-# NOINLINE [1] genericLength #-}
genericLength []        =  0
genericLength (_:l)     =  1 + genericLength l

{-# RULES
  "genericLengthInt"     genericLength = (strictGenericLength :: [a] -> Int);
  "genericLengthInteger" genericLength = (strictGenericLength :: [a] -> Integer);
 #-}

strictGenericLength     :: (Num i) => [b] -> i
strictGenericLength l   =  gl l 0
                        where
                           gl [] a     = a
                           gl (_:xs) a = let a' = a + 1 in a' `seq` gl xs a'

which is basically a foldr, except that for Int and Integer it performs a foldl' instead.

Why does it not use foldl' in all cases? Doesn't foldr build up large thunks for long lists?

  • 1
    It does not per se builds a large thunk of long lists, that depends on the Num implementation. For example one could implement (+) in such a way that it sometimes only has to look to the first element, and due too lazyness, it could thus terminate the before evaluating the entire list. – Willem Van Onsem May 15 '19 at 21:18
14

genericLength is implemented with things like Peano numbers in mind:

data Peano = Zero | Succ Peano

Numbers using this representation can be non-strict, so an operation like genericLength [1..] > 5 returns True instead of failing to terminate.

For most other reasonable implementations of Num, the foldr in genericLength does indeed cause the problems you mention.

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.