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{-# LANGUAGE
GADTs,
TypeOperators,
ScopedTypeVariables,
RankNTypes,
NoMonoLocalBinds
#-}
{-# OPTIONS_GHC -O2 -w #-}
{-
Copyright (C) 2002-2003 David Roundy
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; see the file COPYING. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
-}
module T4524 where
import Data.Maybe ( mapMaybe )
import Control.Monad ( MonadPlus, mplus, msum, mzero )
import Unsafe.Coerce (unsafeCoerce)
newtype FileName = FN FilePath deriving ( Eq, Ord )
data FL a x z where
(:>:) :: a x y -> FL a y z -> FL a x z
NilFL :: FL a x x
data RL a x z where
(:<:) :: a y z -> RL a x y -> RL a x z
NilRL :: RL a x x
data (a1 :> a2) x y = forall z. (a1 x z) :> (a2 z y)
infixr 1 :>
data (a1 :< a2) x y = forall z. (a1 z y) :< (a2 x z)
infix 1 :<
infixr 5 :>:, :<:
data EqCheck a b where
IsEq :: EqCheck a a
NotEq :: EqCheck a b
class MyEq p => Invert p where
invert :: p x y -> p y x
identity :: p x x
class MyEq p where
unsafeCompare :: p a b -> p c d -> Bool
unsafeCompare a b = IsEq == (a =/\= unsafeCoerceP b)
(=\/=) :: p a b -> p a c -> EqCheck b c
a =\/= b | unsafeCompare a b = unsafeCoerceP IsEq
| otherwise = NotEq
(=/\=) :: p a c -> p b c -> EqCheck a b
a =/\= b | IsEq == (a =\/= unsafeCoerceP b) = unsafeCoerceP IsEq
| otherwise = NotEq
infix 4 =\/=, =/\=
class Commute p where
commute :: (p :> p) x y -> Maybe ((p :> p) x y)
instance (MyEq p, Commute p) => MyEq (FL p) where
instance (MyEq p, Commute p) => MyEq (RL p) where
instance Commute p => Commute (RL p) where
instance (Commute p, Invert p) => Invert (RL p) where
instance (Invert p, Commute p) => Invert (FL p) where
instance Eq (EqCheck a b) where
instance MyEq FilePatchType where
instance Invert Patch where
instance MyEq Patch where
unsafeCompare = eqPatches
eqPatches :: Patch x y -> Patch w z -> Bool
eqPatches (PP p1) (PP p2) = undefined
eqPatches (Merger _ _ p1a p1b) (Merger _ _ p2a p2b)
= eqPatches p1a p2a &&
eqPatches p1b p2b
eqPatches (Regrem _ _ p1a p1b) (Regrem _ _ p2a p2b)
= eqPatches p1a p2a &&
eqPatches p1b p2b
eqPatches _ _ = False
data Prim x y where
FP :: !FileName -> !(FilePatchType x y) -> Prim x y
data FilePatchType x y = FilePatchType
deriving (Eq,Ord)
data Patch x y where
PP :: Prim x y -> Patch x y
Merger :: FL Patch x y
-> RL Patch x b
-> Patch c b
-> Patch c d
-> Patch x y
Regrem :: FL Patch x y
-> RL Patch x b
-> Patch c b
-> Patch c a
-> Patch y x
data Sealed a where
Sealed :: a x -> Sealed a
data FlippedSeal a y where
FlippedSeal :: !(a x y) -> FlippedSeal a y
mapFlipped :: (forall x. a x y -> b x z) -> FlippedSeal a y -> FlippedSeal b z
mapFlipped f (FlippedSeal x) = FlippedSeal (f x)
headPermutationsRL :: Commute p => RL p x y -> [RL p x y]
headPermutationsRL NilRL = []
headPermutationsRL (p:<:ps) =
(p:<:ps) : mapMaybe (swapfirstRL.(p:<:)) (headPermutationsRL ps)
where swapfirstRL (p1:<:p2:<:xs) = do p1':>p2' <- commute (p2:>p1)
Just $ p2':<:p1':<:xs
swapfirstRL _ = Nothing
is_filepatch :: Prim x y -> Maybe FileName
is_filepatch (FP f _) = Just f
is_filepatch _ = Nothing
toFwdCommute :: (Commute p, Commute q, Monad m)
=> ((p :< q) x y -> m ((q :< p) x y))
-> (q :> p) x y -> m ((p :> q) x y)
toFwdCommute c (x :> y) = do x' :< y' <- c (y :< x)
return (y' :> x')
unsafeUnseal :: Sealed a -> a x
unsafeUnseal (Sealed a) = unsafeCoerceP1 a
unsafeUnsealFlipped :: FlippedSeal a y -> a x y
unsafeUnsealFlipped (FlippedSeal a) = unsafeCoerceP a
unsafeCoerceP :: a x y -> a b c
unsafeCoerceP = unsafeCoerce
unsafeCoercePStart :: a x1 y -> a x2 y
unsafeCoercePStart = unsafeCoerce
unsafeCoercePEnd :: a x y1 -> a x y2
unsafeCoercePEnd = unsafeCoerce
unsafeCoerceP1 :: a x -> a y
unsafeCoerceP1 = unsafeCoerce
data Perhaps a = Unknown | Failed | Succeeded a
instance Monad Perhaps where
(Succeeded x) >>= k = k x
Failed >>= _ = Failed
Unknown >>= _ = Unknown
Failed >> _ = Failed
(Succeeded _) >> k = k
Unknown >> k = k
return = Succeeded
fail _ = Unknown
instance MonadPlus Perhaps where
mzero = Unknown
Unknown `mplus` ys = ys
Failed `mplus` _ = Failed
(Succeeded x) `mplus` _ = Succeeded x
toMaybe :: Perhaps a -> Maybe a
toMaybe (Succeeded x) = Just x
toMaybe _ = Nothing
cleverCommute :: CommuteFunction -> CommuteFunction
cleverCommute c (p1:<p2) =
case c (p1 :< p2) of
Succeeded x -> Succeeded x
Failed -> Failed
speedyCommute :: CommuteFunction
speedyCommute (p1 :< p2) -- Deal with common case quickly!
| p1_modifies /= Nothing && p2_modifies /= Nothing &&
p1_modifies /= p2_modifies = undefined
| otherwise = Unknown
where p1_modifies = isFilepatchMerger p1
p2_modifies = isFilepatchMerger p2
everythingElseCommute :: MaybeCommute -> CommuteFunction
everythingElseCommute _ x = undefined
unsafeMerger :: String -> Patch x y -> Patch x z -> Patch a b
unsafeMerger x p1 p2 = unsafeCoercePStart $ unsafeUnseal $ merger x p1 p2
mergerCommute :: (Patch :< Patch) x y -> Perhaps ((Patch :< Patch) x y)
mergerCommute (Merger _ _ p1 p2 :< pA)
| unsafeCompare pA p1 = Succeeded (unsafeMerger "0.0" p2 p1 :< unsafeCoercePStart p2)
| unsafeCompare pA (invert (unsafeMerger "0.0" p2 p1)) = Failed
mergerCommute (Merger _ _
(Merger _ _ c b)
(Merger _ _ c' a) :<
Merger _ _ b' c'')
| unsafeCompare b' b && unsafeCompare c c' && unsafeCompare c c'' = undefined
mergerCommute _ = Unknown
instance Commute Patch where
commute x = toMaybe $ msum
[toFwdCommute speedyCommute x,
toFwdCommute (cleverCommute mergerCommute) x,
toFwdCommute (everythingElseCommute undefined) x
]
isFilepatchMerger :: Patch x y -> Maybe FileName
isFilepatchMerger (PP p) = is_filepatch p
isFilepatchMerger (Regrem und unw p1 p2)
= isFilepatchMerger (Merger und unw p1 p2)
type CommuteFunction = forall x y. (Patch :< Patch) x y -> Perhaps ((Patch :< Patch) x y)
type MaybeCommute = forall x y. (Patch :< Patch) x y -> Maybe ((Patch :< Patch) x y)
{- unwind, trueUnwind, reconcleUnwindings, and merger are most likely
where the problem lies. Everything above is just brought in to bring
in enough context so that those four will compile. -}
unwind :: Patch x y -> Sealed (RL Patch x) -- Recreates a patch history in reverse.
unwind (Merger _ unwindings _ _) = Sealed unwindings
unwind p = Sealed (p :<: NilRL)
trueUnwind :: Patch x y -> Sealed (RL Patch x) -- Recreates a patch history in reverse.
trueUnwind p@(Merger _ _ p1 p2) =
case (unwind p1, unwind p2) of
(Sealed (_:<:p1s),Sealed (_:<:p2s)) ->
Sealed (p :<: unsafeCoerceP p1 :<: unsafeUnsealFlipped (reconcileUnwindings p1s (unsafeCoercePEnd p2s)))
reconcileUnwindings :: RL Patch x z -> RL Patch y z -> FlippedSeal (RL Patch) z
reconcileUnwindings p1s NilRL = FlippedSeal p1s
reconcileUnwindings (p1:<:_) (p2:<:_) =
case [undefined | p1s'@(_:<:_) <- headPermutationsRL (p1:<:undefined)] of
((_:<:p1s', _:<:p2s'):_) ->
mapFlipped (undefined :<:) $ reconcileUnwindings p1s' (unsafeCoercePEnd p2s')
merger :: String -> Patch x y -> Patch x z -> Sealed (Patch y)
merger "0.0" p1 p2 = Sealed $ Merger undoit unwindings p1 p2
where fake_p = Merger identity NilRL p1 p2
unwindings = unsafeUnseal (trueUnwind fake_p)
p = undefined
undoit = undefined
|