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pattern Q1 x1_0 x2_1 x3_2 <- ((x1_0, x2_1), [x3_2], _, _)
pattern x1_0 `Q2` x2_1 = GHC.Tuple.Solo (x1_0, x2_1)
pattern Q3 {qx3, qy3, qz3} <- ((qx3, qy3), [qz3]) where
Q3 qx3 qy3 qz3 = ((qx3, qy3), [qz3])
T8761.hs:(16,1)-(39,13): Splicing declarations
do [qx1, qy1, qz1] <- mapM
(\ i -> newName $ "x" ++ show i) [1, 2, 3]
let nm1 = mkName "Q1"
prefixPat
= patSynD
nm1 (prefixPatSyn [qx1, qy1, qz1]) unidir
(tupP [tupP [varP qx1, varP qy1], listP [varP qz1], wildP, wildP])
[qx2, qy2] <- mapM (\ i -> newName $ "x" ++ show i) [1, 2]
let nm2 = mkName "Q2"
infixPat
= patSynD
nm2 (infixPatSyn qx2 qy2) implBidir
(tupP [tupP [varP qx2, varP qy2]])
let nm3 = mkName "Q3"
[qx3, qy3, qz3] = map mkName ["qx3", "qy3", "qz3"]
patP = tupP [tupP [varP qx3, varP qy3], listP [varP qz3]]
patE = tupE [tupE [varE qx3, varE qy3], listE [varE qz3]]
cls = clause [varP qx3, varP qy3, varP qz3] (normalB patE) []
recordPat
= patSynD nm3 (recordPatSyn [qx3, qy3, qz3]) (explBidir [cls]) patP
pats <- sequence [prefixPat, infixPat, recordPat]
mapM_ (runIO . hPutStrLn stderr . pprint) pats
return pats
======>
pattern Q1 x1 x2 x3 <- ((x1, x2), [x3], _, _)
pattern x1 `Q2` x2 = Solo(x1, x2)
pattern Q3{qx3, qy3, qz3} <- ((qx3, qy3), [qz3]) where
Q3 qx3 qy3 qz3 = ((qx3, qy3), [qz3])
T8761.hs:(42,1)-(46,29): Splicing declarations
[d| pattern P1 x y z <- ((x, y), [z], _, _)
pattern P2 x y z = ((x, y), [z])
pattern P3 x y z <- ((x, y), [z]) where
P3 x y z = ((x, y), [z]) |]
======>
pattern P1 x y z <- ((x, y), [z], _, _)
pattern P2 x y z = ((x, y), [z])
pattern P3 x y z <- ((x, y), [z]) where
P3 x y z = ((x, y), [z])
T8761.hs:(49,1)-(53,21): Splicing declarations
[d| pattern x :*: y <- ((x, _), [y])
pattern x :+: y = (x, y)
pattern x :~: y <- (x, y) where
x :~: y = (x, y) |]
======>
pattern x :*: y <- ((x, _), [y])
pattern x :+: y = (x, y)
pattern x :~: y <- (x, y) where
(:~:) x y = (x, y)
T8761.hs:(56,1)-(62,23): Splicing declarations
[d| pattern R1{x1, y1} <- ((x1, _), [y1])
getX1 = x1 ((1, 2), [3])
getY1 = y1 ((1, 2), [3])
pattern R2{x2, y2} = (x2, [y2])
pattern R3{x3, y3} <- (x3, [y3]) where
R3 x y = (x, [y]) |]
======>
pattern R1{x1, y1} <- ((x1, _), [y1])
getX1 = x1 ((1, 2), [3])
getY1 = y1 ((1, 2), [3])
pattern R2{x2, y2} = (x2, [y2])
pattern R3{x3, y3} <- (x3, [y3]) where
R3 x y = (x, [y])
T8761.hs:(71,1)-(105,39): Splicing declarations
[d| pattern P :: Bool
pattern P <- True
pattern Pe :: () => forall a. a -> Ex
pattern Pe x <- MkEx x
pattern Pu :: forall a. a -> a
pattern Pu x <- x
pattern Pue :: forall a. () => forall b. a -> b -> (a, Ex)
pattern Pue x y <- (x, MkEx y)
pattern Pur :: forall a. (Num a, Eq a) => a -> [a]
pattern Pur x <- [x, 1]
pattern Purp ::
forall a b. (Num a, Eq a) => Show b => a -> b -> ([a], UnivProv b)
pattern Purp x y <- ([x, 1], MkUnivProv y)
pattern Pure ::
forall a. (Num a, Eq a) => forall b. a -> b -> ([a], Ex)
pattern Pure x y <- ([x, 1], MkEx y)
pattern Purep ::
forall a. (Num a, Eq a) =>
forall b. Show b => a -> b -> ([a], ExProv)
pattern Purep x y <- ([x, 1], MkExProv y)
pattern Pep :: () => forall a. Show a => a -> ExProv
pattern Pep x <- MkExProv x
pattern Pup :: forall a. () => Show a => a -> UnivProv a
pattern Pup x <- MkUnivProv x
pattern Puep ::
forall a. () => forall b. (Show b) => a -> b -> (ExProv, a)
pattern Puep x y <- (MkExProv y, x) |]
======>
pattern P :: Bool
pattern P <- True
pattern Pe :: () => forall a. a -> Ex
pattern Pe x <- MkEx x
pattern Pu :: forall a. a -> a
pattern Pu x <- x
pattern Pue :: forall a. () => forall b. a -> b -> (a, Ex)
pattern Pue x y <- (x, MkEx y)
pattern Pur :: forall a. (Num a, Eq a) => a -> [a]
pattern Pur x <- [x, 1]
pattern Purp ::
forall a b. (Num a, Eq a) => Show b => a -> b -> ([a], UnivProv b)
pattern Purp x y <- ([x, 1], MkUnivProv y)
pattern Pure ::
forall a. (Num a, Eq a) => forall b. a -> b -> ([a], Ex)
pattern Pure x y <- ([x, 1], MkEx y)
pattern Purep ::
forall a. (Num a, Eq a) =>
forall b. Show b => a -> b -> ([a], ExProv)
pattern Purep x y <- ([x, 1], MkExProv y)
pattern Pep :: () => forall a. Show a => a -> ExProv
pattern Pep x <- MkExProv x
pattern Pup :: forall a. () => Show a => a -> UnivProv a
pattern Pup x <- MkUnivProv x
pattern Puep ::
forall a. () => forall b. Show b => a -> b -> (ExProv, a)
pattern Puep x y <- (MkExProv y, x)
pattern T8761.P :: GHC.Types.Bool
pattern T8761.Pe :: () => forall (a_0 :: *) . a_0 -> T8761.Ex
pattern T8761.Pu :: forall (a_0 :: *) . a_0 -> a_0
pattern T8761.Pue :: forall (a_0 :: *) . () => forall (b_1 :: *) .
a_0 -> b_1 -> (a_0, T8761.Ex)
pattern T8761.Pur :: forall (a_0 :: *) . (GHC.Num.Num a_0,
GHC.Classes.Eq a_0) =>
a_0 -> [a_0]
pattern T8761.Purp :: forall (a_0 :: *) (b_1 :: *) . (GHC.Num.Num a_0,
GHC.Classes.Eq a_0) =>
GHC.Show.Show b_1 => a_0 -> b_1 -> ([a_0], T8761.UnivProv b_1)
pattern T8761.Pure :: forall (a_0 :: *) . (GHC.Num.Num a_0,
GHC.Classes.Eq a_0) =>
forall (b_1 :: *) . a_0 -> b_1 -> ([a_0], T8761.Ex)
pattern T8761.Purep :: forall (a_0 :: *) . (GHC.Num.Num a_0,
GHC.Classes.Eq a_0) =>
forall (b_1 :: *) . GHC.Show.Show b_1 =>
a_0 -> b_1 -> ([a_0], T8761.ExProv)
pattern T8761.Pep :: () => forall (a_0 :: *) . GHC.Show.Show a_0 =>
a_0 -> T8761.ExProv
pattern T8761.Pup :: forall (a_0 :: *) . () => GHC.Show.Show a_0 =>
a_0 -> T8761.UnivProv a_0
pattern T8761.Puep :: forall (a_0 :: *) . () => forall (b_1 :: *) . GHC.Show.Show b_1 =>
a_0 -> b_1 -> (T8761.ExProv, a_0)
T8761.hs:(108,1)-(117,25): Splicing declarations
do infos <- mapM
reify
['P, 'Pe, 'Pu, 'Pue, 'Pur, 'Purp, 'Pure, 'Purep, 'Pep, 'Pup, 'Puep]
mapM_ (runIO . hPutStrLn stderr . pprint) infos
[d| theAnswerIs = 42 |]
======>
theAnswerIs = 42
|
