This fuses:
[(x, y) | x <- [0 .. 10], y <- [0 .. 10]]
But this does not:
liftA2 (,) [0 .. 10] [0 .. 10]
Because the latter inlines to:
let xs = [0..10]; ys = [0..10] in xs >>= \x -> ys >>= \y -> (x, y)
And GHC is afraid to push the ys binding into the \x -> ... lambda because that might duplicate the work of evaluating [0…10]. Even though in the end fusing everything would be beneficial.
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Stream fusion does work:
data Stream a = forall s. Stream !(s -> Step s a) !s data Step s a = Yield a !s | Skip !s | Done data Tup a b = Tup !a !b cartesianProduct :: Stream a -> Stream b -> Stream (a, b) cartesianProduct (Stream step1 s01) (Stream step2 s02) = Stream step' s' where s' = Tup s01 s02 step' (Tup s1 s2) = case step1 s1 of Yield x s1' -> case step2 s2 of Yield y s2' -> Yield (x, y) (Tup s1 s2') Skip s2' -> Skip (Tup s1 s2') Done -> Skip (Tup s1' s02) Skip s1' -> Skip (Tup s1' s2) Done -> Done eft :: Int -> Int -> Stream Int eft x y = Stream step x where step s | s > y = Done | otherwise = Yield s (s + 1) fooS :: Stream (Int, Int) fooS = cartesianProduct (eft 0 10) (eft 0 10) toList :: Stream a -> [a] toList (Stream step s0) = go s0 where go !s = case step s of Yield x s' -> x : go s' Skip s' -> go s' Done -> [] foo :: [(Int,Int)] foo = toList fooS