Safe Haskell | None |
---|---|
Language | Haskell2010 |
Synopsis
- data Sealed a where
- seal :: a wX -> Sealed a
- data Sealed2 a where
- seal2 :: a wX wY -> Sealed2 a
- data FlippedSeal a wY where
- FlippedSeal :: !(a wX wY) -> FlippedSeal a wY
- flipSeal :: a wX wY -> FlippedSeal a wY
- unsafeUnseal :: Sealed a -> a wX
- unsafeUnsealFlipped :: FlippedSeal a wY -> a wX wY
- unsafeUnseal2 :: Sealed2 a -> a wX wY
- unseal :: (forall wX. a wX -> b) -> Sealed a -> b
- unsealM :: Monad m => m (Sealed a) -> (forall wX. a wX -> m b) -> m b
- liftSM :: Monad m => (forall wX. a wX -> b) -> m (Sealed a) -> m b
- mapSeal :: (forall wX. a wX -> b wX) -> Sealed a -> Sealed b
- mapFlipped :: (forall wX. a wX wY -> b wX wZ) -> FlippedSeal a wY -> FlippedSeal b wZ
- unseal2 :: (forall wX wY. a wX wY -> b) -> Sealed2 a -> b
- mapSeal2 :: (forall wX wY. a wX wY -> b wX wY) -> Sealed2 a -> Sealed2 b
- unsealFlipped :: (forall wX wY. a wX wY -> b) -> FlippedSeal a wZ -> b
- data FreeLeft p
- data FreeRight p
- unFreeLeft :: FreeLeft p -> Sealed (p wX)
- unFreeRight :: FreeRight p -> FlippedSeal p wX
- class Gap w where
Documentation
A Sealed
type is a way of hide an existentially quantified type parameter,
in this case wX, inside the type. Note that the only thing we can currently
recover about the existentially quantified type wX is that it exists.
The same as Sealed
but for two parameters (wX and wY).
data FlippedSeal a wY where Source #
FlippedSeal :: !(a wX wY) -> FlippedSeal a wY |
flipSeal :: a wX wY -> FlippedSeal a wY Source #
unsafeUnseal :: Sealed a -> a wX Source #
unsafeUnsealFlipped :: FlippedSeal a wY -> a wX wY Source #
unsafeUnseal2 :: Sealed2 a -> a wX wY Source #
mapFlipped :: (forall wX. a wX wY -> b wX wZ) -> FlippedSeal a wY -> FlippedSeal b wZ Source #
unsealFlipped :: (forall wX wY. a wX wY -> b) -> FlippedSeal a wZ -> b Source #
FreeLeft
p is forall x . exists y . p x y
In other words the caller is free to specify the left witness,
and then the right witness is an existential.
Note that the order of the type constructors is important for ensuring
that y
is dependent on the x
that is supplied.
This is why Stepped
is needed, rather than writing the more obvious
Sealed
(Poly
p) which would notionally have the same quantification
of the type witnesses.
FreeRight
p is forall y . exists x . p x y
In other words the caller is free to specify the right witness,
and then the left witness is an existential.
Note that the order of the type constructors is important for ensuring
that x
is dependent on the y
that is supplied.
unFreeRight :: FreeRight p -> FlippedSeal p wX Source #
Unwrap a FreeRight
value
emptyGap :: (forall wX. p wX wX) -> w p Source #
An empty Gap
, e.g. NilFL
or NilRL
freeGap :: (forall wX wY. p wX wY) -> w p Source #
A Gap
constructed from a completely polymorphic value, for example the constructors
for primitive patches
joinGap :: (forall wX wY wZ. p wX wY -> q wY wZ -> r wX wZ) -> w p -> w q -> w r Source #
Compose two Gap
values together in series, e.g. 'joinGap (+>+)' or 'joinGap (:>:)'