# Type composition

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(Difference between revisions)

(added standard Monoid instance for Applicative applied to Monoid) |
m (TypeComposition moved to Type composition) |

## Revision as of 18:30, 12 March 2007

## 1 Introduction

I'd like to get some forms of type composition into a standard library. Below is my first shot at it. I'm using these definitions in a new version of Phooey.

Comments & suggestions, please. Conal 23:16, 8 March 2007 (UTC)

## 2 Code, first draft

{-# OPTIONS -fglasgow-exts #-} ---- Various type constructor compositions and instances for them. module Control.Compose ((:.:)(..), (:.::)(..), (::.:)(..), App(..)) where import Control.Applicative import Control.Arrow hiding (pure) import Data.Monoid -- | Composition of type constructors: unary & unary. newtype (g :.: f) a = T_T { runT_T :: g (f a) } instance (Functor g, Functor f) => Functor (g :.: f) where fmap f (T_T m) = T_T (fmap (fmap f) m) instance (Applicative g, Applicative f) => Applicative (g :.: f) where pure = T_T . pure . pure T_T getf <*> T_T getx = T_T (liftA2 (<*>) getf getx) -- standard Monoid instance for Applicative applied to Monoid instance (Applicative (f :.: g), Monoid a) => Monoid ((f :.: g) a) where { mempty = pure mempty; mappend = (*>) } -- | Composition of type constructors: unary & binary. newtype (f :.:: (~>)) a b = T_TT { runT_TT :: f (a ~> b) } instance (Applicative f, Arrow (~>)) => Arrow (f :.:: (~>)) where arr = T_TT . pure . arr T_TT g >>> T_TT h = T_TT (liftA2 (>>>) g h) first (T_TT g) = T_TT (liftA first g) -- For instance, /\ a b. f (a -> m b) =~ f :.:: Kleisli m -- | Composition of type constructors: unary & binary. -- Wolfgang Jeltsch pointed out a problem with these definitions: 'splitA' -- and 'mergeA' are not inverses. The definition of 'first', e.g., -- violates the \"extension\" law and causes repeated execution. Look for -- a reformulation or a clarification of required properties of the -- applicative functor @f@. newtype ((~>) ::.: f) a b = TT_T {runTT_T :: f a ~> f b} instance (Arrow (~>), Applicative f) => Arrow ((~>) ::.: f) where arr = TT_T . arr . liftA TT_T g >>> TT_T h = TT_T (g >>> h) first (TT_T a) = TT_T (arr splitA >>> first a >>> arr mergeA) instance (ArrowLoop (~>), Applicative f) => ArrowLoop ((~>) ::.: f) where -- loop :: UI (b,d) (c,d) -> UI b c loop (TT_T k) = TT_T (loop (arr mergeA >>> k >>> arr splitA)) mergeA :: Applicative m => (m a, m c) -> m (a,c) mergeA ~(ma,mc) = liftA2 (,) ma mc splitA :: Applicative m => m (a,b) -> (m a, m b) splitA m = (liftA fst m, liftA snd m) -- | Type application newtype App f a = App { runApp :: f a } -- Example: App IO () instance (Applicative f, Monoid m) => Monoid (App f m) where mempty = App (pure mempty) App a `mappend` App b = App (a *> b) {- -- We can also drop the App constructor, but then we overlap with many -- other instances, like [a]. instance (Applicative f, Monoid a) => Monoid (f a) where mempty = pure mempty mappend = (*>) -}