From: Michael Orlitzky Date: Fri, 2 Jan 2015 17:50:27 +0000 (-0500) Subject: Add the generic 'prepend' function to the Generics module. X-Git-Tag: 0.2.1~33 X-Git-Url: https://gitweb.michael.orlitzky.com/?a=commitdiff_plain;h=dc53ce490d36c937a8db674e6fd3e9495247dc8b;p=dead%2Fhtsn-import.git Add the generic 'prepend' function to the Generics module. --- diff --git a/src/Generics.hs b/src/Generics.hs index 76a8a2b..c7492e4 100644 --- a/src/Generics.hs +++ b/src/Generics.hs @@ -1,21 +1,26 @@ +{-# LANGUAGE DataKinds #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE NoMonomorphismRestriction #-} +{-# LANGUAGE PolyKinds #-} {-# LANGUAGE TypeFamilies #-} +{-# LANGUAGE TypeOperators #-} -- These can go if the tuple instances are accepted upstream. {-# LANGUAGE TemplateHaskell #-} -{-# LANGUAGE DataKinds #-} {-# OPTIONS_GHC -fno-warn-orphans #-} module Generics ( Generic(..), + prepend, to_tuple ) where -import Generics.SOP ( Code, Generic(..) ) +import Generics.SOP ( Code, Generic(..), I(..), NP(..), NS(..), SOP(..) ) import Generics.SOP.TH ( deriveGeneric ) +-- Derive instances for tuples of size <= 30. The predefined instances +-- in generics-sop only go up to 15 components. deriveGeneric ''(,,,,,,,,,,,,,,,) deriveGeneric ''(,,,,,,,,,,,,,,,,) deriveGeneric ''(,,,,,,,,,,,,,,,,,) @@ -32,9 +37,10 @@ deriveGeneric ''(,,,,,,,,,,,,,,,,,,,,,,,,,,,) deriveGeneric ''(,,,,,,,,,,,,,,,,,,,,,,,,,,,,) deriveGeneric ''(,,,,,,,,,,,,,,,,,,,,,,,,,,,,,) -- 30 + -- | Convert a simple product type into a tuple, generically. -- --- == __Examples__: +-- ==== __Examples__: -- -- >>> import qualified GHC.Generics as GHC ( Generic ) -- >>> data Foo = Bar Int Int Int Int deriving (Show, GHC.Generic) @@ -45,3 +51,77 @@ deriveGeneric ''(,,,,,,,,,,,,,,,,,,,,,,,,,,,,,) -- 30 -- to_tuple:: (Generic a, Generic c, Code a ~ Code c) => a -> c to_tuple = to . from + +-- | This type function takes a type-level list-of-lists, @xss@, and +-- prepends the type @a@ to each tpye-level list in @xss@. +-- +-- The dubious '[] clause makes sense when you realize that we're +-- appending to the inner lists, none of which exist if @xss@ is +-- empty. +-- +type family Prepended a (xss :: [k]) :: [l] +type instance Prepended a '[] = '[] +type instance Prepended a (x ': xs) = (a ': x) ': (Prepended a xs) + + +-- | Prepend a value of type @a@ to a product type that is represented +-- as a sum-of-products. The @SOP I@ part of the signature basically +-- means that it's a plain Haskell type, represented as a sum of +-- products. The @xss@ argument is a type-level list-of-lists +-- representing the \"shape\" of the type. +-- +-- We're going to prepend a value of type @a@ to our argument, no +-- matter its constructor. So the shape of the return value will +-- differ from the shape of the argument. How? Each constructor (one +-- list in the list-of-lists) will have a new value of type @a@ +-- appended to it. We represent this by appending the type @a@ +-- itself to the type-level lists contained in @xss@. All of this is +-- handled by the type family 'Prepended'. +-- +-- ==== __Examples__ +-- +-- >>> import qualified GHC.Generics as GHC +-- >>> data Foo = Foo Int Int | Bar Int Int Int deriving (Show, GHC.Generic) +-- >>> instance Generic Foo +-- >>> prepend_sop "Hello" (from $ Foo 1 2) +-- SOP (Z (I "Hello" :* (I 1 :* (I 2 :* Nil)))) +-- >>> prepend_sop "Hello" (from $ Bar 1 2 3) +-- SOP (S (Z (I "Hello" :* (I 1 :* (I 2 :* (I 3 :* Nil)))))) +-- +prepend_sop :: a -> SOP I xss -> SOP I (Prepended a xss) +prepend_sop z (SOP (Z rest)) = SOP $ Z ((I z) :* rest) +prepend_sop z (SOP (S rest)) = + let (SOP result) = prepend_sop z (SOP rest) + in SOP $ S $ result + +-- | Prepend a field to a simple type, generically. This uses the +-- magic from "Generics.SOP" to, +-- +-- 1. Convert the argumnt to a sum-of-profucts +-- 2. Use 'prepend_sop' to prepend the new value to the +-- sum-of-products representation. +-- 3. Convert the result back to /any/ isomorphic type, not +-- necessarily the original type! +-- +-- You do need to indicate the type of the return value usually if it +-- can't be inferred. +-- +-- ==== __Examples__ +-- +-- The \"BigF\" type below matches up with \"F\", except each +-- constructor for \"BigF\" has a 'String' field in front of +-- it. We can convert from \"F\" to \"BigF\" by prepending a +-- String: +-- +-- >>> import qualified GHC.Generics as GHC +-- >>> data F = F Int | B Int Int deriving (Show, GHC.Generic) +-- >>> instance Generic F +-- >>> data BigF = BigF String Int | BigB String Int Int deriving (Show, GHC.Generic) +-- >>> instance Generic BigF +-- >>> prepend "Hello" (F 1) :: Big +-- BigF "Hello" 1 +-- >>> prepend "Hello" (B 1 2) :: BigF +-- BigB "Hello" 1 2 +-- +prepend :: (Generic a, Generic c, Prepended b (Code a) ~ Code c) => b -> a -> c +prepend z = to . (prepend_sop z) . from