{-# LANGUAGE CPP #-}
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE TypeFamilies #-}
#if __GLASGOW_HASKELL__ >= 702
{-# LANGUAGE DeriveGeneric #-}
#endif
module Data.Validation
(
Validation(..)
, validate
, validationNel
, fromEither
, liftError
, validation
, toEither
, orElse
, valueOr
, ensure
, codiagonal
, validationed
, bindValidation
, _Failure
, _Success
, Validate(..)
, revalidate
) where
import Control.Applicative(Applicative((<*>), pure), (<$>))
import Control.DeepSeq (NFData (rnf))
import Control.Lens (over, under)
import Control.Lens.Getter((^.))
import Control.Lens.Iso(Swapped(..), Iso, iso, from)
import Control.Lens.Prism(Prism, prism)
import Control.Lens.Review(( # ))
import Data.Bifoldable(Bifoldable(bifoldr))
import Data.Bifunctor(Bifunctor(bimap))
import Data.Bitraversable(Bitraversable(bitraverse))
import Data.Bool (Bool)
import Data.Data(Data)
import Data.Either(Either(Left, Right), either)
import Data.Eq(Eq)
import Data.Foldable(Foldable(foldr))
import Data.Function((.), ($), id)
import Data.Functor(Functor(fmap))
import Data.Functor.Alt(Alt((<!>)))
import Data.Functor.Apply(Apply((<.>)))
import Data.List.NonEmpty (NonEmpty)
import Data.Monoid(Monoid(mappend, mempty))
import Data.Ord(Ord)
import Data.Semigroup(Semigroup((<>)))
import Data.Traversable(Traversable(traverse))
import Data.Typeable(Typeable)
#if __GLASGOW_HASKELL__ >= 702
import GHC.Generics (Generic)
#endif
import Prelude(Show)
data Validation err a =
Failure err
| Success a
deriving (
Eq, Ord, Show, Data, Typeable
#if __GLASGOW_HASKELL__ >= 702
, Generic
#endif
)
instance Functor (Validation err) where
fmap _ (Failure e) =
Failure e
fmap f (Success a) =
Success (f a)
{-# INLINE fmap #-}
instance Semigroup err => Apply (Validation err) where
Failure e1 <.> b = Failure $ case b of
Failure e2 -> e1 <> e2
Success _ -> e1
Success _ <.> Failure e2 =
Failure e2
Success f <.> Success a =
Success (f a)
{-# INLINE (<.>) #-}
instance Semigroup err => Applicative (Validation err) where
pure =
Success
(<*>) =
(<.>)
instance Alt (Validation err) where
Failure _ <!> x =
x
Success a <!> _ =
Success a
{-# INLINE (<!>) #-}
instance Foldable (Validation err) where
foldr f x (Success a) =
f a x
foldr _ x (Failure _) =
x
{-# INLINE foldr #-}
instance Traversable (Validation err) where
traverse f (Success a) =
Success <$> f a
traverse _ (Failure e) =
pure (Failure e)
{-# INLINE traverse #-}
instance Bifunctor Validation where
bimap f _ (Failure e) =
Failure (f e)
bimap _ g (Success a) =
Success (g a)
{-# INLINE bimap #-}
instance Bifoldable Validation where
bifoldr _ g x (Success a) =
g a x
bifoldr f _ x (Failure e) =
f e x
{-# INLINE bifoldr #-}
instance Bitraversable Validation where
bitraverse _ g (Success a) =
Success <$> g a
bitraverse f _ (Failure e) =
Failure <$> f e
{-# INLINE bitraverse #-}
appValidation ::
(err -> err -> err)
-> Validation err a
-> Validation err a
-> Validation err a
appValidation m (Failure e1) (Failure e2) =
Failure (e1 `m` e2)
appValidation _ (Failure _) (Success a2) =
Success a2
appValidation _ (Success a1) (Failure _) =
Success a1
appValidation _ (Success a1) (Success _) =
Success a1
{-# INLINE appValidation #-}
instance Semigroup e => Semigroup (Validation e a) where
(<>) =
appValidation (<>)
{-# INLINE (<>) #-}
instance Monoid e => Monoid (Validation e a) where
mappend =
appValidation mappend
{-# INLINE mappend #-}
mempty =
Failure mempty
{-# INLINE mempty #-}
instance Swapped Validation where
swapped =
iso
(\v -> case v of
Failure e -> Success e
Success a -> Failure a)
(\v -> case v of
Failure a -> Success a
Success e -> Failure e)
{-# INLINE swapped #-}
instance (NFData e, NFData a) => NFData (Validation e a) where
rnf v =
case v of
Failure e -> rnf e
Success a -> rnf a
validate :: Validate v => e -> (a -> Bool) -> a -> v e a
validate e p a =
if p a then _Success # a else _Failure # e
validationNel :: Either e a -> Validation (NonEmpty e) a
validationNel = liftError pure
fromEither :: Either e a -> Validation e a
fromEither = liftError id
liftError :: (b -> e) -> Either b a -> Validation e a
liftError f = either (Failure . f) Success
validation :: (e -> c) -> (a -> c) -> Validation e a -> c
validation ec ac v = case v of
Failure e -> ec e
Success a -> ac a
toEither :: Validation e a -> Either e a
toEither = validation Left Right
orElse :: Validate v => v e a -> a -> a
orElse v a = case v ^. _Validation of
Failure _ -> a
Success x -> x
valueOr :: Validate v => (e -> a) -> v e a -> a
valueOr ea v = case v ^. _Validation of
Failure e -> ea e
Success a -> a
codiagonal :: Validation a a -> a
codiagonal = valueOr id
ensure :: Validate v => e -> (a -> Bool) -> v e a -> v e a
ensure e p =
over _Validation $ \v -> case v of
Failure x -> Failure x
Success a -> validate e p a
validationed :: Validate v => (v e a -> v e' a') -> Validation e a -> Validation e' a'
validationed f = under _Validation f
bindValidation :: Validation e a -> (a -> Validation e b) -> Validation e b
bindValidation v f = case v of
Failure e -> Failure e
Success a -> f a
class Validate f where
_Validation ::
Iso (f e a) (f g b) (Validation e a) (Validation g b)
_Either ::
Iso (f e a) (f g b) (Either e a) (Either g b)
_Either =
iso
(\x -> case x ^. _Validation of
Failure e -> Left e
Success a -> Right a)
(\x -> _Validation # case x of
Left e -> Failure e
Right a -> Success a)
{-# INLINE _Either #-}
instance Validate Validation where
_Validation =
id
{-# INLINE _Validation #-}
_Either =
iso
(\x -> case x of
Failure e -> Left e
Success a -> Right a)
(\x -> case x of
Left e -> Failure e
Right a -> Success a)
{-# INLINE _Either #-}
instance Validate Either where
_Validation =
iso
fromEither
toEither
{-# INLINE _Validation #-}
_Either =
id
{-# INLINE _Either #-}
_Failure ::
Validate f =>
Prism (f e1 a) (f e2 a) e1 e2
_Failure =
prism
(\x -> _Either # Left x)
(\x -> case x ^. _Either of
Left e -> Right e
Right a -> Left (_Either # Right a))
{-# INLINE _Failure #-}
_Success ::
Validate f =>
Prism (f e a) (f e b) a b
_Success =
prism
(\x -> _Either # Right x)
(\x -> case x ^. _Either of
Left e -> Left (_Either # Left e)
Right a -> Right a)
{-# INLINE _Success #-}
revalidate :: (Validate f, Validate g) => Iso (f e1 s) (f e2 t) (g e1 s) (g e2 t)
revalidate = _Validation . from _Validation