{-# LANGUAGE MultiParamTypeClasses, FunctionalDependencies, FlexibleInstances, UndecidableInstances, RankNTypes, FlexibleContexts, LambdaCase, ScopedTypeVariables, Safe #-} {- This module is part of Chatty. Copyleft (c) 2014 Marvin Cohrs All wrongs reversed. Sharing is an act of love, not crime. Please share Chatty with everyone you like. Chatty is free software: you can redistribute it and/or modify it under the terms of the GNU Affero General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. Chatty is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for more details. You should have received a copy of the GNU Affero General Public License along with Chatty. If not, see . -} module Data.Chatty.Hetero where infixr 9 :-: -- | The Cons type for a heterogenous list data Cons a b = (:-:) a b -- | The empty list data Nil = Nil -- | Typeclass for appending one heterogenous list to another one class Append a b ab | a b -> ab where tappend :: a -> b -> ab instance Append Nil b b where tappend Nil b = b instance Append b c bc => Append (Cons a b) c (Cons a bc) where tappend (a :-: b) c = a :-: tappend b c -- | Typeclass for wrapping a heterogenous list into a Maybe on demand class IntoMaybe a ar | a -> ar where tjust :: a -> ar tnothing :: a -> ar instance IntoMaybe Nil Nil where tjust Nil = Nil tnothing a = Nil instance IntoMaybe (Cons a as) (Cons (Maybe (Cons a as)) Nil) where tjust a = Just a :-: Nil tnothing a = Nothing :-: Nil -- | Typeclass for everything that may be converted to a tuple class Tuplify l t | l -> t where tuplify :: l -> t instance Tuplify Nil () where tuplify Nil = () instance Tuplify a ar => Tuplify (Cons a Nil) ar where tuplify (a :-: Nil) = tuplify a instance (Tuplify a ar, Tuplify b br) => Tuplify (Cons a (Cons b Nil)) (ar,br) where tuplify (a :-: b :-: Nil) = (tuplify a, tuplify b) instance (Tuplify a ar, Tuplify b br, Tuplify c cr) => Tuplify (Cons a (Cons b (Cons c Nil))) (ar,br,cr) where tuplify (a :-: b :-: c :-: Nil) = (tuplify a, tuplify b, tuplify c) instance (Tuplify a ar, Tuplify b br, Tuplify c cr, Tuplify d dr) => Tuplify (Cons a (Cons b (Cons c (Cons d Nil)))) (ar,br,cr,dr) where tuplify (a :-: b :-: c :-: d :-: Nil) = (tuplify a, tuplify b,tuplify c,tuplify d) instance (Tuplify a ar, Tuplify b br, Tuplify c cr, Tuplify d dr, Tuplify e er) => Tuplify (Cons a (Cons b (Cons c (Cons d (Cons e Nil))))) (ar,br,cr,dr,er) where tuplify (a :-: b :-: c :-: d :-: e :-: Nil) = (tuplify a,tuplify b,tuplify c,tuplify d,tuplify e) instance (Tuplify a ar, Tuplify b br, Tuplify c cr, Tuplify d dr, Tuplify e er, Tuplify f fr) => Tuplify (Cons a (Cons b (Cons c (Cons d (Cons e (Cons f Nil)))))) (ar,br,cr,dr,er,fr) where tuplify (a :-: b :-: c :-: d :-: e :-: f :-: Nil) = (tuplify a,tuplify b,tuplify c,tuplify d,tuplify e,tuplify f) instance Tuplify Int Int where tuplify = id instance Tuplify Char Char where tuplify = id instance Tuplify a ar => Tuplify [a] [ar] where tuplify = map tuplify instance Tuplify a ar => Tuplify (Maybe a) (Maybe ar) where tuplify = fmap tuplify data Titled a = Titled String a instance Tuplify a ar => Tuplify (Titled a) ar where tuplify (Titled _ a) = tuplify a