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I want to compose functions in the following way:

compose :: (a->b->c) -> (d->a) -> (d->b) -> d -> c
compose f g h x = f (g x) (h x)

So that we can use it in the following way:

compose (==) (myReverse . myReverse) id [1..100]

I think it could be simplified with something like 'fmap', so that it needn't define 'compose' at all. But I failed to figure out how to do that.

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What you have provided is the simplest and most readable solution. There may be other so called "dense" code solution for this, but I prefer the simple and readable code :) –  Ankur Aug 24 '11 at 12:12

1 Answer 1

up vote 10 down vote accepted

If you import Control.Applicative, then

compose f g h = f <$> g <*> h

So, you can write (==) <$> (myReverse . myReverse) <*> id $ [1..100]

<*> specialized to functions is equivalent to the S-combinator:

s f g x = f x (g x)

You can probably use Control.Arrow too:

compose f g h = g &&& h >>> uncurry f
test = uncurry (==) <<< (myReverse <<< myReverse) &&& id $ [1..100]

Update

I've asked lambdabot at #haskell the same question and he answered simply liftM2. :D

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+1, nice answer. As a semi-noob I tried to get to both solutions myself, got very close but didn't make it (I missed the <<< for composing with uncurry). –  Michael Kohl Aug 24 '11 at 9:48
    
Actually <<< is equivalent to .. It's the &&& which does the job (splits the argument) here. –  Rotsor Aug 24 '11 at 9:50
1  
I know that <<< is composition, but I got stuck with uncurry (==) ((reverse . reverse) &&& id) $ [1..100], which in hindsight is rather stupid. –  Michael Kohl Aug 24 '11 at 10:24
3  
Incidentally, the Applicative instance on functions is the Reader monad, sans the newtype wrapper, so you can also think of f <$> g <*> h here as being do { x <- g; y <- h; return (f x y) } in a reader monad where the reader's "environment" is the shared argument to g and h. –  C. A. McCann Aug 24 '11 at 13:14
    
Indeed. Is do{g<-g; h<-h;... considered a bad naming style btw? I use it all the time, but rarely find it used by others for some reason. –  Rotsor Aug 24 '11 at 13:32

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