{-# LANGUAGE TypeOperators , DataKinds , PolyKinds , TypeFamilies , GADTs , UndecidableInstances , RankNTypes , ScopedTypeVariables #-} {-# OPTIONS_GHC -Wall #-} {-# OPTIONS_GHC -Werror #-} {-# OPTIONS_GHC -O1 -fspec-constr #-} {- ghc-stage2: panic! (the 'impossible' happened) (GHC version 7.11.20150723 for x86_64-unknown-linux): Template variable unbound in rewrite rule -} module List (sFoldr1) where data Proxy t data family Sing (a :: k) data TyFun (a :: *) (b :: *) type family Apply (f :: TyFun k1 k2 -> *) (x :: k1) :: k2 data instance Sing (f :: TyFun k1 k2 -> *) = SLambda { applySing :: forall t. Sing t -> Sing (Apply f t) } type SingFunction1 f = forall t. Sing t -> Sing (Apply f t) type SingFunction2 f = forall t. Sing t -> SingFunction1 (Apply f t) singFun2 :: Proxy f -> SingFunction2 f -> Sing f singFun2 _ f = SLambda (\x -> SLambda (f x)) data (:$$) (j :: a) (i :: TyFun [a] [a]) type instance Apply ((:$$) j) i = (:) j i data (:$) (l :: TyFun a (TyFun [a] [a] -> *)) type instance Apply (:$) l = (:$$) l data instance Sing (z :: [a]) = z ~ '[] => SNil | forall (m :: a) (n :: [a]). z ~ (:) m n => SCons (Sing m) (Sing n) data ErrorSym0 (t1 :: TyFun k1 k2) type Let1627448493XsSym4 t_afee t_afef t_afeg t_afeh = Let1627448493Xs t_afee t_afef t_afeg t_afeh type Let1627448493Xs f_afe9 x_afea wild_1627448474_afeb wild_1627448476_afec = Apply (Apply (:$) wild_1627448474_afeb) wild_1627448476_afec type Foldr1Sym2 (t_afdY :: TyFun a_afdP (TyFun a_afdP a_afdP -> *) -> *) (t_afdZ :: [a_afdP]) = Foldr1 t_afdY t_afdZ data Foldr1Sym1 (l_afe3 :: TyFun a_afdP (TyFun a_afdP a_afdP -> *) -> *) (l_afe2 :: TyFun [a_afdP] a_afdP) type instance Apply (Foldr1Sym1 l_afe3) l_afe2 = Foldr1Sym2 l_afe3 l_afe2 data Foldr1Sym0 (l_afe0 :: TyFun (TyFun a_afdP (TyFun a_afdP a_afdP -> *) -> *) (TyFun [a_afdP] a_afdP -> *)) type instance Apply Foldr1Sym0 l = Foldr1Sym1 l type family Foldr1 (a_afe5 :: TyFun a_afdP (TyFun a_afdP a_afdP -> *) -> *) (a_afe6 :: [a_afdP]) :: a_afdP where Foldr1 z_afe7 '[x_afe8] = x_afe8 Foldr1 f_afe9 ((:) x_afea ((:) wild_1627448474_afeb wild_1627448476_afec)) = Apply (Apply f_afe9 x_afea) (Apply (Apply Foldr1Sym0 f_afe9) (Let1627448493XsSym4 f_afe9 x_afea wild_1627448474_afeb wild_1627448476_afec)) Foldr1 z_afew '[] = Apply ErrorSym0 "Data.Singletons.List.foldr1: empty list" sFoldr1 :: forall (x :: TyFun a_afdP (TyFun a_afdP a_afdP -> *) -> *) (y :: [a_afdP]). Sing x -> Sing y -> Sing (Apply (Apply Foldr1Sym0 x) y) sFoldr1 _ (SCons _sX SNil) = undefined sFoldr1 sF (SCons sX (SCons sWild_1627448474 sWild_1627448476)) = let lambda_afeC :: forall f_afe9 x_afea wild_1627448474_afeb wild_1627448476_afec. Sing f_afe9 -> Sing x_afea -> Sing wild_1627448474_afeb -> Sing wild_1627448476_afec -> Sing (Apply (Apply Foldr1Sym0 f_afe9) (Apply (Apply (:$) x_afea) (Apply (Apply (:$) wild_1627448474_afeb) wild_1627448476_afec))) lambda_afeC f_afeD x_afeE wild_1627448474_afeF wild_1627448476_afeG = let sXs :: Sing (Let1627448493XsSym4 f_afe9 x_afea wild_1627448474_afeb wild_1627448476_afec) sXs = applySing (applySing (singFun2 (undefined :: Proxy (:$)) SCons) wild_1627448474_afeF) wild_1627448476_afeG in applySing (applySing f_afeD x_afeE) (applySing (applySing (singFun2 (undefined :: Proxy Foldr1Sym0) sFoldr1) f_afeD) sXs) in lambda_afeC sF sX sWild_1627448474 sWild_1627448476 sFoldr1 _ SNil = undefined