polysemy-check-0.5.0.0: src/Polysemy/Check/Arbitrary.hs
{-# OPTIONS_GHC -Wno-orphans #-}
module Polysemy.Check.Arbitrary where
import Control.Applicative (liftA2)
import Data.Kind (Type)
import GHC.Exts (type (~~))
import Generics.Kind hiding (SubstRep)
import Generics.Kind.Unexported
import Polysemy
import Polysemy.Internal
import Test.QuickCheck
------------------------------------------------------------------------------
-- | Data family for the instantiation of existential variables. If you want to
-- check properties for an effect @e@ that contains an existential type, the
-- synthesized 'Arbitrary' instance will instantiate all of @e@'s existential
-- types at @'ExistentialFor' e@.
--
-- @'ExistentialFor' e@ must have instances for every dictionary required by
-- @e@, and will likely require an 'Arbitrary' instance.
data family ExistentialFor (e :: Effect)
------------------------------------------------------------------------------
-- | Given @'GArbitraryK' e ('RepK' e) r a@, this typeclass computes
-- generators for every well-typed constructor of @e (Sem r) a@. It is capable
-- of building generators for GADTs.
class GArbitraryK (e :: Effect) (f :: LoT Effect -> Type) (r :: EffectRow) (a :: Type) where
garbitraryk :: [Gen (f (LoT2 (Sem r) a))]
instance GArbitraryK e U1 r a where
garbitraryk = pure $ pure U1
instance (GArbitraryK e f r a, GArbitraryK e g r a) => GArbitraryK e (f :*: g) r a where
garbitraryk = liftA2 (liftA2 (:*:)) (garbitraryk @e) (garbitraryk @e)
instance Arbitrary (Interpret f (LoT2 (Sem r) a)) => GArbitraryK e (Field f) r a where
garbitraryk = pure $ fmap Field arbitrary
instance
( GArbitraryK e (SubstRep f (ExistentialFor e)) r a
, SubstRep' f (ExistentialFor e) (LoT2 (Sem r) a)
) => GArbitraryK e (Exists Type f) r a where
garbitraryk = fmap (Exists . unsubstRep @_ @_ @_ @(ExistentialFor e)) <$>
garbitraryk @e @(SubstRep f (ExistentialFor e)) @r @a
instance (GArbitraryK e f r a, GArbitraryK e g r a) => GArbitraryK e (f :+: g) r a where
garbitraryk = fmap (fmap L1) (garbitraryk @e @f)
<> fmap (fmap R1) (garbitraryk @e @g)
instance (Interpret c (LoT2 (Sem r) a), GArbitraryK e f r a) => GArbitraryK e (c :=>: f) r a where
garbitraryk = fmap (fmap SuchThat) (garbitraryk @e @f)
instance {-# OVERLAPPING #-} GArbitraryK e (c1 :=>: (c2 :=>: f)) r a
=> GArbitraryK e ((c1 ':&: c2) :=>: f) r a where
garbitraryk =
fmap
((\(SuchThat (SuchThat x)) -> SuchThat x)
:: (c1 :=>: (c2 :=>: f)) x -> ((c1 ':&: c2) :=>: f) x)
<$> garbitraryk @e
instance {-# OVERLAPPING #-} GArbitraryK e f r a => GArbitraryK e ('Kon ((~~) a) ':@: Var1 :=>: f) r a where
garbitraryk = fmap SuchThat <$> garbitraryk @e @f
instance {-# OVERLAPPING #-} GArbitraryK e f r a => GArbitraryK e ('Kon (~~) ':@: Var1 ':@: 'Kon a :=>: f) r a where
garbitraryk = fmap SuchThat <$> garbitraryk @e @f
instance {-# INCOHERENT #-} GArbitraryK e ('Kon ((~~) b) ':@: Var1 :=>: f) r a where
garbitraryk = []
instance {-# INCOHERENT #-} GArbitraryK e ('Kon (~~) ':@: Var1 ':@: 'Kon b :=>: f) r a where
garbitraryk = []
instance (GArbitraryK e f r a) => GArbitraryK e (M1 _1 _2 f) r a where
garbitraryk = fmap M1 <$> garbitraryk @e
------------------------------------------------------------------------------
instance (Arbitrary a, ArbitraryEff r r, ArbitraryEffOfType a r r)
=> Arbitrary (Sem r a) where
arbitrary =
let terminal = [pure <$> arbitrary]
in sized $ \n ->
case n <= 1 of
True -> oneof terminal
False -> oneof $
[ do
SomeEffOfType e <- arbitraryActionFromRowOfType @r @r @a
pure $ send e
, do
SomeEff e <- arbitraryActionFromRow @r @r
k <- liftArbitrary $ scale (`div` 2) arbitrary
pure $ send e >>= k
] <> terminal
------------------------------------------------------------------------------
-- | @genEff \@e \@r \@a@ gets a generator capable of producing every
-- well-typed GADT constructor of @e (Sem r) a@.
genEff :: forall e r a. (GenericK e, GArbitraryK e (RepK e) r a) => Gen (e (Sem r) a)
genEff = fmap toK $ oneof $ garbitraryk @e @(RepK e) @r
------------------------------------------------------------------------------
-- | Generate any action for effect @e@.
arbitraryAction
:: forall e r
. ArbitraryAction (TypesOf e) e r
=> Gen (SomeAction e r)
-- ^
arbitraryAction = oneof $ genSomeAction @(TypesOf e) @e @r
------------------------------------------------------------------------------
-- | Generate any action for effect @e@ that produces type @a@.
arbitraryActionOfType
:: forall e a r
. (GenericK e, GArbitraryK e (RepK e) r a)
=> Gen (e (Sem r) a)
-- ^
arbitraryActionOfType = genEff @e @r @a
------------------------------------------------------------------------------
-- | Generate any action from any effect in @effs@.
arbitraryActionFromRow
:: forall (effs :: EffectRow) r
. ArbitraryEff effs r
=> Gen (SomeEff r)
-- ^
arbitraryActionFromRow = oneof $ genSomeEff @effs @r
------------------------------------------------------------------------------
-- | Generate any action from any effect in @effs@ that produces type @a@.
arbitraryActionFromRowOfType
:: forall (effs :: EffectRow) r a
. ArbitraryEffOfType a effs r
=> Gen (SomeEffOfType r a)
-- ^
arbitraryActionFromRowOfType = oneof $ genSomeEffOfType @a @effs @r
------------------------------------------------------------------------------
-- | Helper function for implementing 'GTypesOf'
type family GTypesOf (f :: LoT Effect -> Type) :: [Type] where
GTypesOf (M1 _1 _2 f) = GTypesOf f
GTypesOf (f :+: g) = Append (GTypesOf f) (GTypesOf g)
GTypesOf (('Kon (~~) ':@: Var1 ':@: 'Kon a) :=>: f) = '[a]
GTypesOf (('Kon ((~~) a) ':@: Var1) :=>: f) = '[a]
-- Otherwise, we don't have any constraints on @a@, so we can instantiate it
-- how we please. Just assume ().
GTypesOf _1 = '[()]
------------------------------------------------------------------------------
-- | @'TypesOf' e@ is a list of every type that can be bound via @e@'s actions.
--
-- For example, given:
--
-- @
-- data MyEffect m a where
-- Foo :: MyEffect m Int
-- Blah :: Bool -> MyEffect m String
-- @
--
-- the result of @'TypesOf' MyEffect@ is @'[Int, String]@.
type TypesOf (e :: Effect) = GTypesOf (RepK e)
------------------------------------------------------------------------------
-- | @'SomeAction' e r@ is some action for effect @e@ in effect row @r@.
data SomeAction e (r :: EffectRow) where
SomeAction
:: (Member e r, Eq a, Show a, CoArbitrary a, Show (e (Sem r) a))
=> e (Sem r) a
-- ^
-> SomeAction e r
-- ^
instance Show (SomeAction e r) where
show (SomeAction ema) = show ema
------------------------------------------------------------------------------
-- | @'SomeEff' r@ is some action for some effect in the effect row @r@.
data SomeEff (r :: EffectRow) where
SomeEff
:: (Member e r, Eq a, Show a, CoArbitrary a, Show (e (Sem r) a))
=> e (Sem r) a
-- ^
-> SomeEff r
-- ^
instance Show (SomeEff r) where
show (SomeEff sse) = show sse
------------------------------------------------------------------------------
-- | @'SomeEff' r@ is some action for some effect in the effect row @r@.
data SomeEffOfType (r :: EffectRow) a where
SomeEffOfType
:: (Member e r, Eq a, Show a, CoArbitrary a, Show (e (Sem r) a))
=> e (Sem r) a
-- ^
-> SomeEffOfType r a
-- ^
instance Show (SomeEffOfType r a) where
show (SomeEffOfType sse) = show sse
------------------------------------------------------------------------------
-- | @'ArbitraryEff' es r@ lets you randomly generate an action in any of
-- the effects @es@.
class ArbitraryEff (es :: EffectRow) (r :: EffectRow) where
genSomeEff :: [Gen (SomeEff r)]
instance ArbitraryEff '[] r where
genSomeEff = []
instance
(ArbitraryEff es r, ArbitraryAction (TypesOf e) e r)
=> ArbitraryEff (e ': es) r
where
genSomeEff = fmap (fmap (\(SomeAction e) -> SomeEff e)) (genSomeAction @(TypesOf e) @e @r)
<> genSomeEff @es @r
------------------------------------------------------------------------------
-- | @'ArbitraryEffOfType' a es r@ lets you randomly generate an action in any of
-- the effects @es@ that produces type @a@.
class ArbitraryEffOfType (a :: Type) (es :: EffectRow) (r :: EffectRow) where
genSomeEffOfType :: [Gen (SomeEffOfType r a)]
instance ArbitraryEffOfType a '[] r where
genSomeEffOfType = []
instance
( Eq a
, Show a
, Show (e (Sem r) a)
, ArbitraryEffOfType a es r
, GenericK e
, GArbitraryK e (RepK e) r a
, CoArbitrary a
, Member e r
)
=> ArbitraryEffOfType a (e ': es) r
where
genSomeEffOfType
= (fmap (SomeEffOfType @e @r . toK) <$> garbitraryk @e @(RepK e) @r)
<> genSomeEffOfType @a @es @r
------------------------------------------------------------------------------
-- | @'ArbitraryAction' as e r@ lets you randomly generate an action
-- producing any type in @as@ from the effect @e@.
class ArbitraryAction (as :: [Type]) (e :: Effect) (r :: EffectRow) where
genSomeAction :: [Gen (SomeAction e r)]
instance ArbitraryAction '[] e r where
genSomeAction = []
instance
( ArbitraryAction as e r
, Eq a
, Show a
, Member e r
, Show (e (Sem r) a)
, GenericK e
, CoArbitrary a
, GArbitraryK e (RepK e) r a
)
=> ArbitraryAction (a : as) e r
where
genSomeAction = (fmap SomeAction $ genEff @e @r @a) : genSomeAction @as @e @r