{-# LANGUAGE GADTs, TypeFamilies #-} module Test.Hspec.LeanCheck ( prop , forAll ) where import Control.Exception import Data.Bifunctor (first) import Data.List (intercalate) import Data.Maybe (listToMaybe) import Data.Typeable import GHC.Show as Show (showsPrec) import Test.Hspec import Test.Hspec.Core.Spec as Hspec import qualified Test.HUnit.Lang as HUnit import Test.LeanCheck.Core data Property where Property :: IOTestable prop => prop -> Property -- | Perform an enumerative test of a property using LeanCheck. -- -- 'prop' will typically be a function of one or more 'Listable' arguments, returning either 'Bool' or 'IO ()' (in the latter case, typically via 'shouldBe' and friends). For example: -- -- > describe "+" $ do -- > prop "associativity" $ -- > \ a b c -> a + (b + c) `shouldBe` (a + b :: Int) + c prop :: (HasCallStack, IOTestable prop) => String -> prop -> Spec prop s = it s . Property data ForAll a where ForAll :: IOTestable prop => [[a]] -> (a -> prop) -> ForAll a -- | Test a property given by an explicit list of tiers rather than a 'Listable' instance. This can be used to e.g. filter input values for which the property does not hold. -- -- > describe "mean" $ do -- > prop "≥ the minimum" . forAll (not . null `filterT` tiers) $ -- > \ list -> (mean list :: Int) `shouldSatisfy` (>= min list) forAll :: IOTestable prop => [[a]] -> (a -> prop) -> ForAll a forAll = ForAll instance Example Property where type Arg Property = () evaluateExample (Property prop) (Params _ bound) _ _ = do result <- try (iocounterExample bound prop) case result of Left e | Just (LeanCheckException messages e') <- fromException e -> throw (addMessages messages e') | otherwise -> throw e Right (Just messages) -> pure $ Failure Nothing (Reason (concat messages)) Right Nothing -> pure Success where addMessages messages (HUnit.HUnitFailure loc r) = HUnit.HUnitFailure loc $ case r of HUnit.Reason s -> HUnit.Reason (intercalate "\n" messages ++ "\n" ++ s) HUnit.ExpectedButGot Nothing expected actual -> HUnit.ExpectedButGot (Just (concat messages)) expected actual HUnit.ExpectedButGot (Just preface) expected actual -> HUnit.ExpectedButGot (Just (intercalate "\n" messages ++ preface)) expected actual class IOTestable t where -- 'resultiers', lifted into 'IO'. ioResultTiers :: t -> [[IO ([String], Bool)]] instance IOTestable (IO ()) where ioResultTiers action = [[ (action >> pure ([], True)) `catch` (throw . LeanCheckException []) ]] instance (IOTestable b, Show a, Listable a) => IOTestable (a -> b) where ioResultTiers p = concatMapT (resultiersFor p) tiers instance IOTestable Bool where ioResultTiers p = [[ pure ([], p) ]] instance Show a => IOTestable (ForAll a) where ioResultTiers (ForAll tiers property) = concatMapT (resultiersFor property) tiers resultiersFor :: (IOTestable b, Show a) => (a -> b) -> a -> [[IO ([String], Bool)]] resultiersFor p x = fmap (eval x) <$> ioResultTiers (p x) eval :: Show a => a -> IO ([String], Bool) -> IO ([String], Bool) eval x action = first (prepend x) <$> action `catch` \ (LeanCheckException messages failure) -> throw (LeanCheckException (prepend x messages) failure) where prepend x = (showsPrec 11 x "":) -- | 'counterExamples', lifted into 'IO'. iocounterExamples :: IOTestable a => Int -> a -> IO [[String]] iocounterExamples n = fmap (fmap fst . filter (not . snd)) . sequenceA . take n . concat . ioResultTiers -- | 'counterExample', lifted into 'IO'. iocounterExample :: IOTestable a => Int -> a -> IO (Maybe [String]) iocounterExample n = fmap listToMaybe . iocounterExamples n data LeanCheckException = LeanCheckException [String] HUnit.HUnitFailure deriving (Show, Typeable) instance Exception LeanCheckException