{-# LANGUAGE TypeApplications #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE FunctionalDependencies #-}
{-# LANGUAGE PatternSynonyms #-}
{-# OPTIONS_GHC -Wno-missing-pattern-synonym-signatures #-}
{-# OPTIONS_GHC -Wno-incomplete-patterns #-}
{-# OPTIONS_GHC -Wno-orphans #-}
module Generics.MRSOP.Examples.RoseTree where
import Data.Function (on)
import Generics.MRSOP.Base
import Generics.MRSOP.Opaque
data R a = a :>: [R a]
| Leaf a
deriving Show
value1, value2, value3 :: R Int
value1 = 1 :>: [2 :>: [], 3 :>: []]
value2 = 1 :>: [2 :>: [] , Leaf 12]
value3 = 3 :>: [Leaf 23 , value1 , value2]
type ListCode = '[ '[] , '[ 'I ('S 'Z) , 'I 'Z] ]
type RTCode = '[ '[ 'K 'KInt , 'I 'Z] , '[ 'K 'KInt] ]
type CodesRose = '[ListCode , RTCode]
type FamRose = '[ [R Int] , R Int]
instance Family Singl FamRose CodesRose where
sfrom' (SS SZ) (El (a :>: as)) = Rep $ Here (NA_K (SInt a) :* NA_I (El as) :* NP0)
sfrom' (SS SZ) (El (Leaf a)) = Rep $ There (Here (NA_K (SInt a) :* NP0))
sfrom' SZ (El []) = Rep $ Here NP0
sfrom' SZ (El (x:xs)) = Rep $ There (Here (NA_I (El x) :* NA_I (El xs) :* NP0))
sfrom' _ _ = error "unreachable"
sto' SZ (Rep (Here NP0))
= El []
sto' SZ (Rep (There (Here (NA_I (El x) :* NA_I (El xs) :* NP0))))
= El (x : xs)
sto' (SS SZ) (Rep (Here (NA_K (SInt a) :* NA_I (El as) :* NP0)))
= El (a :>: as)
sto' (SS SZ) (Rep (There (Here (NA_K (SInt a) :* NP0))))
= El (Leaf a)
sto' _ _ = error "unreachable"
instance HasDatatypeInfo Singl FamRose CodesRose where
datatypeInfo _ SZ
= ADT "module" (Name "[]" :@: (Name "R" :@: Name "Int"))
$ (Constructor "[]")
:* (Infix ":" RightAssociative 5)
:* NP0
datatypeInfo _ (SS SZ)
= ADT "module" (Name "R" :@: Name "Int")
$ (Infix ":>:" NotAssociative 0)
:* (Constructor "Leaf")
:* NP0
datatypeInfo _ _
= error "unreachable"
instance Eq (R Int) where
(==) = geq eqSingl `on` (into @FamRose)
testEq :: Bool
testEq = value1 == value1
&& value2 /= value1
pattern RInt_ = SS SZ
normalize :: R Int -> R Int
normalize = unEl . go (SS SZ) . into
where
go :: forall iy. (IsNat iy) => SNat iy -> El FamRose iy -> El FamRose iy
go RInt_ (El (Leaf a)) = El (a :>: [])
go _ x = compos go x
sumTree :: R Int -> Int
sumTree = crush k sum . (into @FamRose)
where k :: Singl x -> Int
k (SInt n) = n
testSum :: Bool
testSum = sumTree value3 == sumTree (normalize value3)