I am new in Haskell and I have problems with finding the type of
f x y = f y x
GHCI gives me: a->a->b
But I don't understand why. Can someone explain it to me?
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I am new in Haskell and I have problems with finding the type of
f x y = f y x
GHCI gives me: a->a->b
But I don't understand why. Can someone explain it to me?
If it's OK to use both x
(on the left) and y
(on the right) for the first argument of f
, they must be the same type. So that's where the a -> a
comes from.
Your function will infinitely recurse without returning anything, so you can correctly claim that it has an arbitrary return type because there's no situation where that will be falsified by it returning a value of another type, as it never returns. This is where the arbitrary b
comes from.
f
is not determined independent of the argument types because of yieldless infinite recursion. In f x y = f x y
, f :: a -> b -> c
because no type coercions can be inferred. In f x y = f y x
, f :: a -> a -> b
because the argument type a
is logically coerced, and the return type b
is not.
– user6428287
Feb 16 '17 at 18:29
f x y = x + f x y
for example never terminates, but is of the constrained type Num a => a -> b -> a
. Using (+) :: Int -> Int -> Int
, f :: Int -> a -> Int
, with a specific return type Int
.
– user6428287
Feb 16 '17 at 18:44
f x y = f y x
can make sense only ifx
andy
have the same type. This explainsa -> a
. – Stéphane Laurent Feb 15 '17 at 21:10a -> a -> b
in your OP and now you sayt1 -> t1 -> t
. I don't follow you. Anywaya
denotes an arbitrary type, liket1
. This is the same. And you say "GHCI says something else". I'm lost. – Stéphane Laurent Feb 15 '17 at 21:19:t f
in your OP. We have to guess what you mean... – Stéphane Laurent Feb 15 '17 at 21:20b
?a
is the type ofx
,a
is the type ofy
, andb
is the type off x y
. – Stéphane Laurent Feb 15 '17 at 21:26