Copyright | (C) 2008-2013 Edward Kmett |
---|---|
License | BSD-style (see the file LICENSE) |
Maintainer | Edward Kmett <ekmett@gmail.com> |
Stability | provisional |
Portability | non-portable (rank-2 polymorphism) |
Safe Haskell | Trustworthy |
Language | Haskell98 |
- newtype Codensity m a = Codensity {
- runCodensity :: forall b. (a -> m b) -> m b
- lowerCodensity :: Monad m => Codensity m a -> m a
- codensityToAdjunction :: Adjunction f g => Codensity g a -> g (f a)
- adjunctionToCodensity :: Adjunction f g => g (f a) -> Codensity g a
- codensityToRan :: Codensity g a -> Ran g g a
- ranToCodensity :: Ran g g a -> Codensity g a
- codensityToComposedRep :: Representable u => Codensity u a -> u (Rep u, a)
- composedRepToCodensity :: Representable u => u (Rep u, a) -> Codensity u a
- improve :: Functor f => (forall m. MonadFree f m => m a) -> Free f a
Documentation
is the Monad generated by taking the right Kan extension
of any Codensity
fFunctor
f
along itself (Ran f f
).
This can often be more "efficient" to construct than f
itself using
repeated applications of (>>=)
.
See "Asymptotic Improvement of Computations over Free Monads" by Janis Voightländer for more information about this type.
Codensity | |
|
MonadTrans Codensity | |
MonadReader r m => MonadState r (Codensity m) | |
MonadReader r m => MonadReader r (Codensity m) | |
(Functor f, MonadFree f m) => MonadFree f (Codensity m) | |
Alternative v => Alternative (Codensity v) | |
Monad (Codensity f) | |
Functor (Codensity k) | |
MonadPlus v => MonadPlus (Codensity v) | |
Applicative (Codensity f) | |
MonadIO m => MonadIO (Codensity m) | |
Plus v => Plus (Codensity v) | |
Alt v => Alt (Codensity v) | |
Apply (Codensity f) | |
Typeable ((* -> *) -> * -> *) Codensity |
lowerCodensity :: Monad m => Codensity m a -> m a Source
This serves as the *left*-inverse (retraction) of lift
.
lowerCodensity
.lift
≡id
In general this is not a full 2-sided inverse, merely a retraction, as
is often considerably "larger" than Codensity
mm
.
e.g.
could support a full complement of Codensity
((->) s)) a ~ forall r. (a -> s -> r) -> s -> r
actions, while MonadState
s(->) s
is limited to
actions.MonadReader
s
codensityToAdjunction :: Adjunction f g => Codensity g a -> g (f a) Source
The Codensity
monad of a right adjoint is isomorphic to the
monad obtained from the Adjunction
.
codensityToAdjunction
.adjunctionToCodensity
≡id
adjunctionToCodensity
.codensityToAdjunction
≡id
adjunctionToCodensity :: Adjunction f g => g (f a) -> Codensity g a Source
codensityToRan :: Codensity g a -> Ran g g a Source
The Codensity
Monad
of a Functor
g
is the right Kan extension (Ran
)
of g
along itself.
codensityToRan
.ranToCodensity
≡id
ranToCodensity
.codensityToRan
≡id
ranToCodensity :: Ran g g a -> Codensity g a Source
codensityToComposedRep :: Representable u => Codensity u a -> u (Rep u, a) Source
The Codensity
monad of a representable Functor
is isomorphic to the
monad obtained from the Adjunction
for which that Functor
is the right
adjoint.
codensityToComposedRep
.composedRepToCodensity
≡id
composedRepToCodensity
.codensityToComposedRep
≡id
codensityToComposedRep =ranToComposedRep
.codensityToRan
composedRepToCodensity :: Representable u => u (Rep u, a) -> Codensity u a Source
improve :: Functor f => (forall m. MonadFree f m => m a) -> Free f a Source
Right associate all binds in a computation that generates a free monad
This can improve the asymptotic efficiency of the result, while preserving semantics.
See "Asymptotic Improvement of Computations over Free Monads" by Janis Voightländer for more information about this combinator.