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zinking

10:19 AM

Prelude> let b = fmap (\f -> f 9)
Prelude> :t b
b :: (Num a, Functor f) => f (a -> b) -> f b

Bartek Banachewicz

@zinking hi :)

zinking

Prelude Control.Applicative> :t b id
b id :: Num a => (a -> b) -> b

Hi Bartek

I can't understand why apply id changed the signature into this

id is neither applied as the first argument nor the second one

Bartek Banachewicz

@zinking hm, interesting

function instance of Applicative might be the answer here

Consider it written as such:

f (a -> b) -> f b
f (a -> b) -> ((a -> b) -> b)

and substituting first f

hmm

might be clearer if written in prefix form

@zinking I'd ask that on SO :)

Okey, I think I got it.

(a -> b) -> b is an instance of Functor b, as ((->) (a->b) b)

so, taking b away, we get that ((->) (a->b)) is instance of Functor in general

thus, ((a->b) -> (a->b)) -> ((a->b) -> b)

reduces to ((a->b) -> b) when applied with first argument

I hope I made that clearer @zinking :S

And obviously id fits ((a->b) -> (a->b)), because if you substitute u for (a->b), you get u -> u

2 hours later…

zinking

12:43 PM

@BartekBanachewicz , sounds pretty tough to understand.

cannot grasp this immediately.

Bartek Banachewicz

@zinking well, where did this come from?

the short answer to your question is that f b is the same as (a -> b) -> b

zinking

I was reading the chapter 'aplicative functor???' and I came up with this example

generally I had problem understanding the fmap arg type substitutions

Bartek Banachewicz

functions as functors are a bit weird admittedly

zinking

(a -> b) -> b is an instance of Functor b, as ((->) (a->b) b) // so how is this related with the function? I defined let b = fmap (\f -> f 9)

b :: (Num a, Functor f) => f (a -> b) -> f b // my function is really about mapping 1 functor to another.

and regarding ask this question on SO, I don't even know how to name this scenario properly

Bartek Banachewicz

@zinking functions are Functors

@zinking yes, but since you used id, you narrowed it to function functors.

zinking

12:50 PM

functions are functors ??? so no difference between f a -> f b and a->b ?

Bartek Banachewicz

@zinking there is a difference. All functions are functors, but not all functors are functions.

you keep thinking this f magically disappeared; it didn't. It's a coincidence the signatures look as if it did

2 hours ago, by Bartek Banachewicz

f (a -> b) -> f b
f (a -> b) -> ((a -> b) -> b)

zinking

I some what catch your point now.

seems the most difficult part for me is why you can substitute f with ( a->b ) ->

Bartek Banachewicz

@zinking because function a -> b is a shorthand for ((->) a b)

it's an infix type constructor

zinking

1:05 PM

so where is the functor f, you didn't even mention f

f ( a-> b ) -> f b // let me try to interpret: a function takes a functor ( which is a function a -> b ) and returns a functor b

Bartek Banachewicz

@zinking no.

this function
    takes a functor returning
        a function taking "a" and returning "b"
    and returns
        a functor returning "b"

IOW takes Functor (a->b) and returns Functor b

zinking

then I still don't understand how the substitution works. like why not ( b->(a->b) )-> f b

is that because fmap is left associative ?

Bartek Banachewicz

1:22 PM

@zinking what substitution?

 ((a->b) -> (a->b)) -> ((a->b) -> b)
 f (a->b)           -> f b

this is how f is narrowed ^

zinking

:19928016

f (a -> b) -> f b
f (a -> b) -> ((a -> b) -> b)
and substituting first f

you are substituting the second functor

Bartek Banachewicz

@zinking Yeah sorry I meant "second" there

anyway the message above substitutes both

f = ((a->b) ->)

zinking

so if it is in the case of : f (a->b) -> f( c->d ), apply the substitute you mentioned

we get 2 scenarios ?

like ( a->b )->(a->b) -> ( (a->b) -> (c->d) )

and probably start from right ?

Bartek Banachewicz

well you could do that

but as you can see it's not very intuitive

if you just want to learn about Functors, look at more reasonable instances, like Maybe or []

zinking

I see , probably missing some basics here.

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