Copyright | (C) 2012-15 Edward Kmett |
---|---|
License | BSD-style (see the file LICENSE) |
Maintainer | Edward Kmett <ekmett@gmail.com> |
Stability | provisional |
Portability | non-portable |
Safe Haskell | Safe |
Language | Haskell98 |
- type Review t b = forall p f. (Choice p, Bifunctor p, Settable f) => Optic' p f t b
- type AReview t b = Optic' Tagged Identity t b
- unto :: (Profunctor p, Bifunctor p, Functor f) => (b -> t) -> Optic p f s t a b
- un :: (Profunctor p, Bifunctor p, Functor f) => Getting a s a -> Optic' p f a s
- re :: Contravariant f => AReview t b -> LensLike' f b t
- review :: MonadReader b m => AReview t b -> m t
- reviews :: MonadReader b m => AReview t b -> (t -> r) -> m r
- reuse :: MonadState b m => AReview t b -> m t
- reuses :: MonadState b m => AReview t b -> (t -> r) -> m r
- (#) :: AReview t b -> b -> t
- class Bifunctor p where
- bimap :: (a -> b) -> (c -> d) -> p a c -> p b d
- retagged :: (Profunctor p, Bifunctor p) => p a b -> p s b
- class (Profunctor p, Bifunctor p) => Reviewable p
Reviewing
re :: Contravariant f => AReview t b -> LensLike' f b t Source
Turn a Prism
or Iso
around to build a Getter
.
If you have an Iso
, from
is a more powerful version of this function
that will return an Iso
instead of a mere Getter
.
>>>
5 ^.re _Left
Left 5
>>>
6 ^.re (_Left.unto succ)
Left 7
review
≡view
.
re
reviews
≡views
.
re
reuse
≡use
.
re
reuses
≡uses
.
re
re
::Prism
s t a b ->Getter
b tre
::Iso
s t a b ->Getter
b t
review :: MonadReader b m => AReview t b -> m t Source
This can be used to turn an Iso
or Prism
around and view
a value (or the current environment) through it the other way.
review
≡view
.
re
review
.unto
≡id
>>>
review _Left "mustard"
Left "mustard"
>>>
review (unto succ) 5
6
Usually review
is used in the (->)
Monad
with a Prism
or Iso
, in which case it may be useful to think of
it as having one of these more restricted type signatures:
review
::Iso'
s a -> a -> sreview
::Prism'
s a -> a -> s
However, when working with a Monad
transformer stack, it is sometimes useful to be able to review
the current environment, in which case
it may be beneficial to think of it as having one of these slightly more liberal type signatures:
review
::MonadReader
a m =>Iso'
s a -> m sreview
::MonadReader
a m =>Prism'
s a -> m s
reviews :: MonadReader b m => AReview t b -> (t -> r) -> m r Source
This can be used to turn an Iso
or Prism
around and view
a value (or the current environment) through it the other way,
applying a function.
reviews
≡views
.
re
reviews
(unto
f) g ≡ g.
f
>>>
reviews _Left isRight "mustard"
False
>>>
reviews (unto succ) (*2) 3
8
Usually this function is used in the (->)
Monad
with a Prism
or Iso
, in which case it may be useful to think of
it as having one of these more restricted type signatures:
reviews
::Iso'
s a -> (s -> r) -> a -> rreviews
::Prism'
s a -> (s -> r) -> a -> r
However, when working with a Monad
transformer stack, it is sometimes useful to be able to review
the current environment, in which case
it may be beneficial to think of it as having one of these slightly more liberal type signatures:
reviews
::MonadReader
a m =>Iso'
s a -> (s -> r) -> m rreviews
::MonadReader
a m =>Prism'
s a -> (s -> r) -> m r
reuse :: MonadState b m => AReview t b -> m t Source
This can be used to turn an Iso
or Prism
around and use
a value (or the current environment) through it the other way.
reuse
≡use
.
re
reuse
.
unto
≡gets
>>>
evalState (reuse _Left) 5
Left 5
>>>
evalState (reuse (unto succ)) 5
6
reuse
::MonadState
a m =>Prism'
s a -> m sreuse
::MonadState
a m =>Iso'
s a -> m s
reuses :: MonadState b m => AReview t b -> (t -> r) -> m r Source
This can be used to turn an Iso
or Prism
around and use
the current state through it the other way,
applying a function.
reuses
≡uses
.
re
reuses
(unto
f) g ≡gets
(g.
f)
>>>
evalState (reuses _Left isLeft) (5 :: Int)
True
reuses
::MonadState
a m =>Prism'
s a -> (s -> r) -> m rreuses
::MonadState
a m =>Iso'
s a -> (s -> r) -> m r
(#) :: AReview t b -> b -> t infixr 8 Source
An infix alias for review
.
unto
f # x ≡ f x l # x ≡ x^.
re
l
This is commonly used when using a Prism
as a smart constructor.
>>>
_Left # 4
Left 4
But it can be used for any Prism
>>>
base 16 # 123
"7b"
(#) ::Iso'
s a -> a -> s (#) ::Prism'
s a -> a -> s (#) ::Review
s a -> a -> s (#) ::Equality'
s a -> a -> s
class Bifunctor p where
Formally, the class Bifunctor
represents a bifunctor
from Hask
-> Hask
.
Intuitively it is a bifunctor where both the first and second arguments are covariant.
You can define a Bifunctor
by either defining bimap
or by
defining both first
and second
.
If you supply bimap
, you should ensure that:
bimap
id
id
≡id
If you supply first
and second
, ensure:
first
id
≡id
second
id
≡id
If you supply both, you should also ensure:
bimap
f g ≡first
f.
second
g
These ensure by parametricity:
bimap
(f.
g) (h.
i) ≡bimap
f h.
bimap
g ifirst
(f.
g) ≡first
f.
first
gsecond
(f.
g) ≡second
f.
second
g
Since: 4.8.0.0
bimap :: (a -> b) -> (c -> d) -> p a c -> p b d
Bifunctor Either | |
Bifunctor (,) | |
Bifunctor Const | |
Bifunctor Arg | |
Bifunctor ((,,) x1) | |
Functor g => Bifunctor (Joker g) | |
Functor f => Bifunctor (CofreeF f) | |
Functor f => Bifunctor (FreeF f) | |
Bifunctor (Tagged *) | |
Functor f => Bifunctor (AlongsideRight f) | |
Functor f => Bifunctor (AlongsideLeft f) | |
Bifunctor ((,,,) x1 x2) | |
Bifunctor ((,,,,) x1 x2 x3) | |
Bifunctor ((,,,,,) x1 x2 x3 x4) | |
Bifunctor ((,,,,,,) x1 x2 x3 x4 x5) | |
retagged :: (Profunctor p, Bifunctor p) => p a b -> p s b Source
This is a profunctor used internally to implement Review
It plays a role similar to that of Accessor
or Const
do for Control.Lens.Getter
class (Profunctor p, Bifunctor p) => Reviewable p Source
This class is provided mostly for backwards compatibility with lens 3.8, but it can also shorten type signatures.
(Profunctor p, Bifunctor p) => Reviewable p Source | |