Singletons/PatternMatching.hs:(0,0)-(0,0): Splicing declarations singletons [d| pr = Pair (Succ Zero) ([Zero]) complex = Pair (Pair (Just Zero) Zero) False tuple = (False, Just Zero, True) aList = [Zero, Succ Zero, Succ (Succ Zero)] data Pair a b = Pair a b deriving Show |] ======> data Pair a b = Pair a b deriving Show pr = (Pair (Succ Zero)) [Zero] complex = (Pair ((Pair (Just Zero)) Zero)) False tuple = (False, Just Zero, True) aList = [Zero, Succ Zero, Succ (Succ Zero)] type PairSym2 (t :: a0123456789876543210) (t :: b0123456789876543210) = Pair t t instance SuppressUnusedWarnings PairSym1 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) PairSym1KindInference) GHC.Tuple.()) data PairSym1 (l :: a0123456789876543210) (l :: TyFun b0123456789876543210 (Pair a0123456789876543210 b0123456789876543210)) = forall arg. SameKind (Apply (PairSym1 l) arg) (PairSym2 l arg) => PairSym1KindInference type instance Apply (PairSym1 l) l = Pair l l instance SuppressUnusedWarnings PairSym0 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) PairSym0KindInference) GHC.Tuple.()) data PairSym0 (l :: TyFun a0123456789876543210 (TyFun b0123456789876543210 (Pair a0123456789876543210 b0123456789876543210) -> GHC.Types.Type)) = forall arg. SameKind (Apply PairSym0 arg) (PairSym1 arg) => PairSym0KindInference type instance Apply PairSym0 l = PairSym1 l type AListSym0 = AList type TupleSym0 = Tuple type ComplexSym0 = Complex type PrSym0 = Pr type family AList where AList = Apply (Apply (:@#@$) ZeroSym0) (Apply (Apply (:@#@$) (Apply SuccSym0 ZeroSym0)) (Apply (Apply (:@#@$) (Apply SuccSym0 (Apply SuccSym0 ZeroSym0))) '[])) type family Tuple where Tuple = Apply (Apply (Apply Tuple3Sym0 FalseSym0) (Apply JustSym0 ZeroSym0)) TrueSym0 type family Complex where Complex = Apply (Apply PairSym0 (Apply (Apply PairSym0 (Apply JustSym0 ZeroSym0)) ZeroSym0)) FalseSym0 type family Pr where Pr = Apply (Apply PairSym0 (Apply SuccSym0 ZeroSym0)) (Apply (Apply (:@#@$) ZeroSym0) '[]) type family ShowsPrec_0123456789876543210 (a :: GHC.Types.Nat) (a :: Pair a b) (a :: Symbol) :: Symbol where ShowsPrec_0123456789876543210 p_0123456789876543210 (Pair arg_0123456789876543210 arg_0123456789876543210) a_0123456789876543210 = Apply (Apply (Apply ShowParenSym0 (Apply (Apply (>@#@$) p_0123456789876543210) (FromInteger 10))) (Apply (Apply (.@#@$) (Apply ShowStringSym0 "Pair ")) (Apply (Apply (.@#@$) (Apply (Apply ShowsPrecSym0 (FromInteger 11)) arg_0123456789876543210)) (Apply (Apply (.@#@$) ShowSpaceSym0) (Apply (Apply ShowsPrecSym0 (FromInteger 11)) arg_0123456789876543210))))) a_0123456789876543210 type ShowsPrec_0123456789876543210Sym3 (t :: GHC.Types.Nat) (t :: Pair a0123456789876543210 b0123456789876543210) (t :: Symbol) = ShowsPrec_0123456789876543210 t t t instance SuppressUnusedWarnings ShowsPrec_0123456789876543210Sym2 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) ShowsPrec_0123456789876543210Sym2KindInference) GHC.Tuple.()) data ShowsPrec_0123456789876543210Sym2 (l :: GHC.Types.Nat) (l :: Pair a0123456789876543210 b0123456789876543210) (l :: TyFun Symbol Symbol) = forall arg. SameKind (Apply (ShowsPrec_0123456789876543210Sym2 l l) arg) (ShowsPrec_0123456789876543210Sym3 l l arg) => ShowsPrec_0123456789876543210Sym2KindInference type instance Apply (ShowsPrec_0123456789876543210Sym2 l l) l = ShowsPrec_0123456789876543210 l l l instance SuppressUnusedWarnings ShowsPrec_0123456789876543210Sym1 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) ShowsPrec_0123456789876543210Sym1KindInference) GHC.Tuple.()) data ShowsPrec_0123456789876543210Sym1 (l :: GHC.Types.Nat) (l :: TyFun (Pair a0123456789876543210 b0123456789876543210) (TyFun Symbol Symbol -> GHC.Types.Type)) = forall arg. SameKind (Apply (ShowsPrec_0123456789876543210Sym1 l) arg) (ShowsPrec_0123456789876543210Sym2 l arg) => ShowsPrec_0123456789876543210Sym1KindInference type instance Apply (ShowsPrec_0123456789876543210Sym1 l) l = ShowsPrec_0123456789876543210Sym2 l l instance SuppressUnusedWarnings ShowsPrec_0123456789876543210Sym0 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) ShowsPrec_0123456789876543210Sym0KindInference) GHC.Tuple.()) data ShowsPrec_0123456789876543210Sym0 (l :: TyFun GHC.Types.Nat (TyFun (Pair a0123456789876543210 b0123456789876543210) (TyFun Symbol Symbol -> GHC.Types.Type) -> GHC.Types.Type)) = forall arg. SameKind (Apply ShowsPrec_0123456789876543210Sym0 arg) (ShowsPrec_0123456789876543210Sym1 arg) => ShowsPrec_0123456789876543210Sym0KindInference type instance Apply ShowsPrec_0123456789876543210Sym0 l = ShowsPrec_0123456789876543210Sym1 l instance PShow (Pair a b) where type ShowsPrec a a a = Apply (Apply (Apply ShowsPrec_0123456789876543210Sym0 a) a) a sAList :: Sing AListSym0 sTuple :: Sing TupleSym0 sComplex :: Sing ComplexSym0 sPr :: Sing PrSym0 sAList = (applySing ((applySing ((singFun2 @(:@#@$)) SCons)) SZero)) ((applySing ((applySing ((singFun2 @(:@#@$)) SCons)) ((applySing ((singFun1 @SuccSym0) SSucc)) SZero))) ((applySing ((applySing ((singFun2 @(:@#@$)) SCons)) ((applySing ((singFun1 @SuccSym0) SSucc)) ((applySing ((singFun1 @SuccSym0) SSucc)) SZero)))) SNil)) sTuple = (applySing ((applySing ((applySing ((singFun3 @Tuple3Sym0) STuple3)) SFalse)) ((applySing ((singFun1 @JustSym0) SJust)) SZero))) STrue sComplex = (applySing ((applySing ((singFun2 @PairSym0) SPair)) ((applySing ((applySing ((singFun2 @PairSym0) SPair)) ((applySing ((singFun1 @JustSym0) SJust)) SZero))) SZero))) SFalse sPr = (applySing ((applySing ((singFun2 @PairSym0) SPair)) ((applySing ((singFun1 @SuccSym0) SSucc)) SZero))) ((applySing ((applySing ((singFun2 @(:@#@$)) SCons)) SZero)) SNil) data instance Sing (z :: Pair a b) where SPair :: forall (n :: a) (n :: b). (Sing (n :: a)) -> (Sing (n :: b)) -> Sing (Pair n n) type SPair = (Sing :: Pair a b -> GHC.Types.Type) instance (SingKind a, SingKind b) => SingKind (Pair a b) where type Demote (Pair a b) = Pair (Demote a) (Demote b) fromSing (SPair b b) = (Pair (fromSing b)) (fromSing b) toSing (Pair (b :: Demote a) (b :: Demote b)) = case (GHC.Tuple.(,) (toSing b :: SomeSing a)) (toSing b :: SomeSing b) of { GHC.Tuple.(,) (SomeSing c) (SomeSing c) -> SomeSing ((SPair c) c) } instance (SShow a, SShow b) => SShow (Pair a b) where sShowsPrec :: forall (t1 :: GHC.Types.Nat) (t2 :: Pair a b) (t3 :: Symbol). Sing t1 -> Sing t2 -> Sing t3 -> Sing (Apply (Apply (Apply (ShowsPrecSym0 :: TyFun GHC.Types.Nat (TyFun (Pair a b) (TyFun Symbol Symbol -> GHC.Types.Type) -> GHC.Types.Type) -> GHC.Types.Type) t1) t2) t3) sShowsPrec (sP_0123456789876543210 :: Sing p_0123456789876543210) (SPair (sArg_0123456789876543210 :: Sing arg_0123456789876543210) (sArg_0123456789876543210 :: Sing arg_0123456789876543210)) (sA_0123456789876543210 :: Sing a_0123456789876543210) = (applySing ((applySing ((applySing ((singFun3 @ShowParenSym0) sShowParen)) ((applySing ((applySing ((singFun2 @(>@#@$)) (%>))) sP_0123456789876543210)) (sFromInteger (sing :: Sing 10))))) ((applySing ((applySing ((singFun3 @(.@#@$)) (%.))) ((applySing ((singFun2 @ShowStringSym0) sShowString)) (sing :: Sing "Pair ")))) ((applySing ((applySing ((singFun3 @(.@#@$)) (%.))) ((applySing ((applySing ((singFun3 @ShowsPrecSym0) sShowsPrec)) (sFromInteger (sing :: Sing 11)))) sArg_0123456789876543210))) ((applySing ((applySing ((singFun3 @(.@#@$)) (%.))) ((singFun1 @ShowSpaceSym0) sShowSpace))) ((applySing ((applySing ((singFun3 @ShowsPrecSym0) sShowsPrec)) (sFromInteger (sing :: Sing 11)))) sArg_0123456789876543210)))))) sA_0123456789876543210 instance (Data.Singletons.ShowSing.ShowSing a, Data.Singletons.ShowSing.ShowSing b) => Data.Singletons.ShowSing.ShowSing (Pair a b) where Data.Singletons.ShowSing.showsSingPrec p_0123456789876543210 (SPair arg_0123456789876543210 arg_0123456789876543210) = (showParen (((>) p_0123456789876543210) 10)) (((.) (showString "SPair ")) (((.) ((Data.Singletons.ShowSing.showsSingPrec 11) arg_0123456789876543210)) (((.) GHC.Show.showSpace) ((Data.Singletons.ShowSing.showsSingPrec 11) arg_0123456789876543210)))) instance (Data.Singletons.ShowSing.ShowSing a, Data.Singletons.ShowSing.ShowSing b) => Show (Sing (z :: Pair a b)) where showsPrec = Data.Singletons.ShowSing.showsSingPrec instance (SingI n, SingI n) => SingI (Pair (n :: a) (n :: b)) where sing = (SPair sing) sing Singletons/PatternMatching.hs:(0,0)-(0,0): Splicing declarations singletons [d| Pair sz lz = pr Pair (Pair jz zz) fls = complex (tf, tjz, tt) = tuple [_, lsz, (Succ blimy)] = aList lsz :: Nat fls :: Bool foo1 :: (a, b) -> a foo1 (x, y) = (\ _ -> x) y foo2 :: (# a, b #) -> a foo2 t@(# x, y #) = case t of { (# a, b #) -> (\ _ -> a) b } silly :: a -> () silly x = case x of { _ -> () } |] ======> Pair sz lz = pr Pair (Pair jz zz) fls = complex (tf, tjz, tt) = tuple [_, lsz, Succ blimy] = aList lsz :: Nat fls :: Bool foo1 :: (a, b) -> a foo1 (x, y) = (\ _ -> x) y foo2 :: (# a, b #) -> a foo2 t@(# x, y #) = case t of { (# a, b #) -> (\ _ -> a) b } silly :: a -> () silly x = case x of { _ -> GHC.Tuple.() } type family Case_0123456789876543210 x t where Case_0123456789876543210 x _ = Tuple0Sym0 type Let0123456789876543210TSym2 t t = Let0123456789876543210T t t instance SuppressUnusedWarnings Let0123456789876543210TSym1 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Let0123456789876543210TSym1KindInference) GHC.Tuple.()) data Let0123456789876543210TSym1 l l = forall arg. SameKind (Apply (Let0123456789876543210TSym1 l) arg) (Let0123456789876543210TSym2 l arg) => Let0123456789876543210TSym1KindInference type instance Apply (Let0123456789876543210TSym1 l) l = Let0123456789876543210T l l instance SuppressUnusedWarnings Let0123456789876543210TSym0 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Let0123456789876543210TSym0KindInference) GHC.Tuple.()) data Let0123456789876543210TSym0 l = forall arg. SameKind (Apply Let0123456789876543210TSym0 arg) (Let0123456789876543210TSym1 arg) => Let0123456789876543210TSym0KindInference type instance Apply Let0123456789876543210TSym0 l = Let0123456789876543210TSym1 l type family Let0123456789876543210T x y where Let0123456789876543210T x y = Apply (Apply Tuple2Sym0 x) y type family Case_0123456789876543210 x y a b arg_0123456789876543210 t where Case_0123456789876543210 x y a b arg_0123456789876543210 _ = a type family Lambda_0123456789876543210 x y a b t where Lambda_0123456789876543210 x y a b arg_0123456789876543210 = Case_0123456789876543210 x y a b arg_0123456789876543210 arg_0123456789876543210 type Lambda_0123456789876543210Sym5 t t t t t = Lambda_0123456789876543210 t t t t t instance SuppressUnusedWarnings Lambda_0123456789876543210Sym4 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Lambda_0123456789876543210Sym4KindInference) GHC.Tuple.()) data Lambda_0123456789876543210Sym4 l l l l l = forall arg. SameKind (Apply (Lambda_0123456789876543210Sym4 l l l l) arg) (Lambda_0123456789876543210Sym5 l l l l arg) => Lambda_0123456789876543210Sym4KindInference type instance Apply (Lambda_0123456789876543210Sym4 l l l l) l = Lambda_0123456789876543210 l l l l l instance SuppressUnusedWarnings Lambda_0123456789876543210Sym3 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Lambda_0123456789876543210Sym3KindInference) GHC.Tuple.()) data Lambda_0123456789876543210Sym3 l l l l = forall arg. SameKind (Apply (Lambda_0123456789876543210Sym3 l l l) arg) (Lambda_0123456789876543210Sym4 l l l arg) => Lambda_0123456789876543210Sym3KindInference type instance Apply (Lambda_0123456789876543210Sym3 l l l) l = Lambda_0123456789876543210Sym4 l l l l instance SuppressUnusedWarnings Lambda_0123456789876543210Sym2 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Lambda_0123456789876543210Sym2KindInference) GHC.Tuple.()) data Lambda_0123456789876543210Sym2 l l l = forall arg. SameKind (Apply (Lambda_0123456789876543210Sym2 l l) arg) (Lambda_0123456789876543210Sym3 l l arg) => Lambda_0123456789876543210Sym2KindInference type instance Apply (Lambda_0123456789876543210Sym2 l l) l = Lambda_0123456789876543210Sym3 l l l instance SuppressUnusedWarnings Lambda_0123456789876543210Sym1 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Lambda_0123456789876543210Sym1KindInference) GHC.Tuple.()) data Lambda_0123456789876543210Sym1 l l = forall arg. SameKind (Apply (Lambda_0123456789876543210Sym1 l) arg) (Lambda_0123456789876543210Sym2 l arg) => Lambda_0123456789876543210Sym1KindInference type instance Apply (Lambda_0123456789876543210Sym1 l) l = Lambda_0123456789876543210Sym2 l l instance SuppressUnusedWarnings Lambda_0123456789876543210Sym0 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Lambda_0123456789876543210Sym0KindInference) GHC.Tuple.()) data Lambda_0123456789876543210Sym0 l = forall arg. SameKind (Apply Lambda_0123456789876543210Sym0 arg) (Lambda_0123456789876543210Sym1 arg) => Lambda_0123456789876543210Sym0KindInference type instance Apply Lambda_0123456789876543210Sym0 l = Lambda_0123456789876543210Sym1 l type family Case_0123456789876543210 x y t where Case_0123456789876543210 x y '(a, b) = Apply (Apply (Apply (Apply (Apply Lambda_0123456789876543210Sym0 x) y) a) b) b type family Case_0123456789876543210 x y arg_0123456789876543210 t where Case_0123456789876543210 x y arg_0123456789876543210 _ = x type family Lambda_0123456789876543210 x y t where Lambda_0123456789876543210 x y arg_0123456789876543210 = Case_0123456789876543210 x y arg_0123456789876543210 arg_0123456789876543210 type Lambda_0123456789876543210Sym3 t t t = Lambda_0123456789876543210 t t t instance SuppressUnusedWarnings Lambda_0123456789876543210Sym2 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Lambda_0123456789876543210Sym2KindInference) GHC.Tuple.()) data Lambda_0123456789876543210Sym2 l l l = forall arg. SameKind (Apply (Lambda_0123456789876543210Sym2 l l) arg) (Lambda_0123456789876543210Sym3 l l arg) => Lambda_0123456789876543210Sym2KindInference type instance Apply (Lambda_0123456789876543210Sym2 l l) l = Lambda_0123456789876543210 l l l instance SuppressUnusedWarnings Lambda_0123456789876543210Sym1 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Lambda_0123456789876543210Sym1KindInference) GHC.Tuple.()) data Lambda_0123456789876543210Sym1 l l = forall arg. SameKind (Apply (Lambda_0123456789876543210Sym1 l) arg) (Lambda_0123456789876543210Sym2 l arg) => Lambda_0123456789876543210Sym1KindInference type instance Apply (Lambda_0123456789876543210Sym1 l) l = Lambda_0123456789876543210Sym2 l l instance SuppressUnusedWarnings Lambda_0123456789876543210Sym0 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Lambda_0123456789876543210Sym0KindInference) GHC.Tuple.()) data Lambda_0123456789876543210Sym0 l = forall arg. SameKind (Apply Lambda_0123456789876543210Sym0 arg) (Lambda_0123456789876543210Sym1 arg) => Lambda_0123456789876543210Sym0KindInference type instance Apply Lambda_0123456789876543210Sym0 l = Lambda_0123456789876543210Sym1 l type family Case_0123456789876543210 t where Case_0123456789876543210 '[_, y_0123456789876543210, Succ _] = y_0123456789876543210 type family Case_0123456789876543210 t where Case_0123456789876543210 '[_, _, Succ y_0123456789876543210] = y_0123456789876543210 type family Case_0123456789876543210 t where Case_0123456789876543210 '(y_0123456789876543210, _, _) = y_0123456789876543210 type family Case_0123456789876543210 t where Case_0123456789876543210 '(_, y_0123456789876543210, _) = y_0123456789876543210 type family Case_0123456789876543210 t where Case_0123456789876543210 '(_, _, y_0123456789876543210) = y_0123456789876543210 type family Case_0123456789876543210 t where Case_0123456789876543210 (Pair (Pair y_0123456789876543210 _) _) = y_0123456789876543210 type family Case_0123456789876543210 t where Case_0123456789876543210 (Pair (Pair _ y_0123456789876543210) _) = y_0123456789876543210 type family Case_0123456789876543210 t where Case_0123456789876543210 (Pair (Pair _ _) y_0123456789876543210) = y_0123456789876543210 type family Case_0123456789876543210 t where Case_0123456789876543210 (Pair y_0123456789876543210 _) = y_0123456789876543210 type family Case_0123456789876543210 t where Case_0123456789876543210 (Pair _ y_0123456789876543210) = y_0123456789876543210 type SillySym1 (t :: a0123456789876543210) = Silly t instance SuppressUnusedWarnings SillySym0 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) SillySym0KindInference) GHC.Tuple.()) data SillySym0 (l :: TyFun a0123456789876543210 ()) = forall arg. SameKind (Apply SillySym0 arg) (SillySym1 arg) => SillySym0KindInference type instance Apply SillySym0 l = Silly l type Foo2Sym1 (t :: (a0123456789876543210, b0123456789876543210)) = Foo2 t instance SuppressUnusedWarnings Foo2Sym0 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Foo2Sym0KindInference) GHC.Tuple.()) data Foo2Sym0 (l :: TyFun (a0123456789876543210, b0123456789876543210) a0123456789876543210) = forall arg. SameKind (Apply Foo2Sym0 arg) (Foo2Sym1 arg) => Foo2Sym0KindInference type instance Apply Foo2Sym0 l = Foo2 l type Foo1Sym1 (t :: (a0123456789876543210, b0123456789876543210)) = Foo1 t instance SuppressUnusedWarnings Foo1Sym0 where suppressUnusedWarnings = snd ((GHC.Tuple.(,) Foo1Sym0KindInference) GHC.Tuple.()) data Foo1Sym0 (l :: TyFun (a0123456789876543210, b0123456789876543210) a0123456789876543210) = forall arg. SameKind (Apply Foo1Sym0 arg) (Foo1Sym1 arg) => Foo1Sym0KindInference type instance Apply Foo1Sym0 l = Foo1 l type LszSym0 = Lsz type BlimySym0 = Blimy type TfSym0 = Tf type TjzSym0 = Tjz type TtSym0 = Tt type JzSym0 = Jz type ZzSym0 = Zz type FlsSym0 = Fls type SzSym0 = Sz type LzSym0 = Lz type X_0123456789876543210Sym0 = X_0123456789876543210 type X_0123456789876543210Sym0 = X_0123456789876543210 type X_0123456789876543210Sym0 = X_0123456789876543210 type X_0123456789876543210Sym0 = X_0123456789876543210 type family Silly (a :: a) :: () where Silly x = Case_0123456789876543210 x x type family Foo2 (a :: (a, b)) :: a where Foo2 '(x, y) = Case_0123456789876543210 x y (Let0123456789876543210TSym2 x y) type family Foo1 (a :: (a, b)) :: a where Foo1 '(x, y) = Apply (Apply (Apply Lambda_0123456789876543210Sym0 x) y) y type family Lsz :: Nat where Lsz = Case_0123456789876543210 X_0123456789876543210Sym0 type family Blimy where Blimy = Case_0123456789876543210 X_0123456789876543210Sym0 type family Tf where Tf = Case_0123456789876543210 X_0123456789876543210Sym0 type family Tjz where Tjz = Case_0123456789876543210 X_0123456789876543210Sym0 type family Tt where Tt = Case_0123456789876543210 X_0123456789876543210Sym0 type family Jz where Jz = Case_0123456789876543210 X_0123456789876543210Sym0 type family Zz where Zz = Case_0123456789876543210 X_0123456789876543210Sym0 type family Fls :: Bool where Fls = Case_0123456789876543210 X_0123456789876543210Sym0 type family Sz where Sz = Case_0123456789876543210 X_0123456789876543210Sym0 type family Lz where Lz = Case_0123456789876543210 X_0123456789876543210Sym0 type family X_0123456789876543210 where X_0123456789876543210 = PrSym0 type family X_0123456789876543210 where X_0123456789876543210 = ComplexSym0 type family X_0123456789876543210 where X_0123456789876543210 = TupleSym0 type family X_0123456789876543210 where X_0123456789876543210 = AListSym0 sSilly :: forall (t :: a). Sing t -> Sing (Apply SillySym0 t :: ()) sFoo2 :: forall (t :: (a, b)). Sing t -> Sing (Apply Foo2Sym0 t :: a) sFoo1 :: forall (t :: (a, b)). Sing t -> Sing (Apply Foo1Sym0 t :: a) sLsz :: Sing (LszSym0 :: Nat) sBlimy :: Sing BlimySym0 sTf :: Sing TfSym0 sTjz :: Sing TjzSym0 sTt :: Sing TtSym0 sJz :: Sing JzSym0 sZz :: Sing ZzSym0 sFls :: Sing (FlsSym0 :: Bool) sSz :: Sing SzSym0 sLz :: Sing LzSym0 sX_0123456789876543210 :: Sing X_0123456789876543210Sym0 sX_0123456789876543210 :: Sing X_0123456789876543210Sym0 sX_0123456789876543210 :: Sing X_0123456789876543210Sym0 sX_0123456789876543210 :: Sing X_0123456789876543210Sym0 sSilly (sX :: Sing x) = case sX of { _ -> STuple0 } :: Sing (Case_0123456789876543210 x x :: ()) sFoo2 (STuple2 (sX :: Sing x) (sY :: Sing y)) = let sT :: Sing (Let0123456789876543210TSym2 x y) sT = (applySing ((applySing ((singFun2 @Tuple2Sym0) STuple2)) sX)) sY in case sT of { STuple2 (sA :: Sing a) (sB :: Sing b) -> (applySing ((singFun1 @(Apply (Apply (Apply (Apply Lambda_0123456789876543210Sym0 x) y) a) b)) (\ sArg_0123456789876543210 -> case sArg_0123456789876543210 of { _ :: Sing arg_0123456789876543210 -> case sArg_0123456789876543210 of { _ -> sA } :: Sing (Case_0123456789876543210 x y a b arg_0123456789876543210 arg_0123456789876543210) }))) sB } :: Sing (Case_0123456789876543210 x y (Let0123456789876543210TSym2 x y) :: a) sFoo1 (STuple2 (sX :: Sing x) (sY :: Sing y)) = (applySing ((singFun1 @(Apply (Apply Lambda_0123456789876543210Sym0 x) y)) (\ sArg_0123456789876543210 -> case sArg_0123456789876543210 of { _ :: Sing arg_0123456789876543210 -> case sArg_0123456789876543210 of { _ -> sX } :: Sing (Case_0123456789876543210 x y arg_0123456789876543210 arg_0123456789876543210) }))) sY sLsz = case sX_0123456789876543210 of { SCons _ (SCons (sY_0123456789876543210 :: Sing y_0123456789876543210) (SCons (SSucc _) SNil)) -> sY_0123456789876543210 } :: Sing (Case_0123456789876543210 X_0123456789876543210Sym0 :: Nat) sBlimy = case sX_0123456789876543210 of { SCons _ (SCons _ (SCons (SSucc (sY_0123456789876543210 :: Sing y_0123456789876543210)) SNil)) -> sY_0123456789876543210 } :: Sing (Case_0123456789876543210 X_0123456789876543210Sym0) sTf = case sX_0123456789876543210 of { STuple3 (sY_0123456789876543210 :: Sing y_0123456789876543210) _ _ -> sY_0123456789876543210 } :: Sing (Case_0123456789876543210 X_0123456789876543210Sym0) sTjz = case sX_0123456789876543210 of { STuple3 _ (sY_0123456789876543210 :: Sing y_0123456789876543210) _ -> sY_0123456789876543210 } :: Sing (Case_0123456789876543210 X_0123456789876543210Sym0) sTt = case sX_0123456789876543210 of { STuple3 _ _ (sY_0123456789876543210 :: Sing y_0123456789876543210) -> sY_0123456789876543210 } :: Sing (Case_0123456789876543210 X_0123456789876543210Sym0) sJz = case sX_0123456789876543210 of { SPair (SPair (sY_0123456789876543210 :: Sing y_0123456789876543210) _) _ -> sY_0123456789876543210 } :: Sing (Case_0123456789876543210 X_0123456789876543210Sym0) sZz = case sX_0123456789876543210 of { SPair (SPair _ (sY_0123456789876543210 :: Sing y_0123456789876543210)) _ -> sY_0123456789876543210 } :: Sing (Case_0123456789876543210 X_0123456789876543210Sym0) sFls = case sX_0123456789876543210 of { SPair (SPair _ _) (sY_0123456789876543210 :: Sing y_0123456789876543210) -> sY_0123456789876543210 } :: Sing (Case_0123456789876543210 X_0123456789876543210Sym0 :: Bool) sSz = case sX_0123456789876543210 of { SPair (sY_0123456789876543210 :: Sing y_0123456789876543210) _ -> sY_0123456789876543210 } :: Sing (Case_0123456789876543210 X_0123456789876543210Sym0) sLz = case sX_0123456789876543210 of { SPair _ (sY_0123456789876543210 :: Sing y_0123456789876543210) -> sY_0123456789876543210 } :: Sing (Case_0123456789876543210 X_0123456789876543210Sym0) sX_0123456789876543210 = sPr sX_0123456789876543210 = sComplex sX_0123456789876543210 = sTuple sX_0123456789876543210 = sAList