{-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeSynonymInstances #-} #if __GLASGOW_HASKELL__ >= 800 -- Impredicative polymorphism checks got stronger in GHC 8, breaking -- the use of 'unsafeCoerce' below. {-# LANGUAGE ImpredicativeTypes #-} #endif -- | -- Module : Test.HUnit.DejaFu -- Copyright : (c) 2017 Michael Walker -- License : MIT -- Maintainer : Michael Walker -- Stability : stable -- Portability : CPP, FlexibleInstances, ImpredicativeTypes, RankNTypes, ScopedTypeVariables, TypeSynonymInstances -- -- This module allows using Deja Fu predicates with HUnit to test the -- behaviour of concurrent systems. module Test.HUnit.DejaFu ( -- * Unit testing -- | This is supported by the 'Assertable' and 'Testable' -- instances for 'ConcST' and 'ConcIO'. These instances try all -- executions, reporting as failures the cases which throw an -- 'HUnitFailure' exception. -- -- @instance Testable (ConcST t ())@ -- @instance Assertable (ConcST t ())@ -- @instance Testable (ConcIO ())@ -- @instance Assertable (ConcIO ())@ -- -- These instances use 'defaultWay' and 'defaultMemType'. -- * Property testing testAuto , testDejafu , testDejafus , testAutoWay , testDejafuWay , testDejafusWay -- ** @IO@ , testAutoIO , testDejafuIO , testDejafusIO , testAutoWayIO , testDejafuWayIO , testDejafusWayIO -- * Re-exports , Way(..) , Bounds(..) , MemType(..) ) where import Control.Monad.Catch (try) import Control.Monad.ST (runST) import Data.List (intercalate, intersperse) import System.Random (RandomGen) import Test.DejaFu import qualified Test.DejaFu.Conc as Conc import qualified Test.DejaFu.SCT as SCT import Test.HUnit (Assertable(..), Test(..), Testable(..), assertString) import Test.HUnit.Lang (HUnitFailure(..)) -- Can't put the necessary forall in the @Assertable Conc.ConcST t@ -- instance :( import Unsafe.Coerce (unsafeCoerce) runSCTst :: RandomGen g => Way g -> MemType -> (forall t. Conc.ConcST t a) -> [(Either Failure a, Conc.Trace)] runSCTst way memtype conc = runST (SCT.runSCT way memtype conc) runSCTio :: RandomGen g => Way g -> MemType -> Conc.ConcIO a -> IO [(Either Failure a, Conc.Trace)] runSCTio = SCT.runSCT -------------------------------------------------------------------------------- -- Unit testing -- | @since 0.3.0.0 instance Testable (Conc.ConcST t ()) where test conc = TestCase (assert conc) -- | @since 0.3.0.0 instance Testable (Conc.ConcIO ()) where test conc = TestCase (assert conc) -- | @since 0.3.0.0 instance Assertable (Conc.ConcST t ()) where assert conc = do let traces = runSCTst' conc' assertString . showErr $ assertableP traces where conc' :: Conc.ConcST t (Either HUnitFailure ()) conc' = try conc runSCTst' :: Conc.ConcST t (Either HUnitFailure ()) -> [(Either Failure (Either HUnitFailure ()), Conc.Trace)] runSCTst' = unsafeCoerce $ runSCTst defaultWay defaultMemType -- | @since 0.3.0.0 instance Assertable (Conc.ConcIO ()) where assert conc = do traces <- runSCTio defaultWay defaultMemType (try conc) assertString . showErr $ assertableP traces assertableP :: Predicate (Either HUnitFailure ()) assertableP = alwaysTrue $ \r -> case r of Right (Left HUnitFailure {}) -> False _ -> True -------------------------------------------------------------------------------- -- Property testing -- | Automatically test a computation. In particular, look for -- deadlocks, uncaught exceptions, and multiple return values. -- -- This uses the 'Conc' monad for testing, which is an instance of -- 'MonadConc'. If you need to test something which also uses -- 'MonadIO', use 'testAutoIO'. -- -- @since 0.2.0.0 testAuto :: (Eq a, Show a) => (forall t. Conc.ConcST t a) -- ^ The computation to test -> Test testAuto = testAutoWay defaultWay defaultMemType -- | Variant of 'testAuto' which tests a computation under a given -- execution way and memory model. -- -- @since 0.4.0.0 testAutoWay :: (Eq a, Show a, RandomGen g) => Way g -- ^ How to execute the concurrent program. -> MemType -- ^ The memory model to use for non-synchronised @CRef@ operations. -> (forall t. Conc.ConcST t a) -- ^ The computation to test -> Test testAutoWay way memtype conc = testDejafusWay way memtype conc autocheckCases -- | Variant of 'testAuto' for computations which do 'IO'. -- -- @since 0.2.0.0 testAutoIO :: (Eq a, Show a) => Conc.ConcIO a -> Test testAutoIO = testAutoWayIO defaultWay defaultMemType -- | Variant of 'testAutoWay' for computations which do 'IO'. -- -- @since 0.4.0.0 testAutoWayIO :: (Eq a, Show a, RandomGen g) => Way g -> MemType -> Conc.ConcIO a -> Test testAutoWayIO way memtype concio = testDejafusWayIO way memtype concio autocheckCases -- | Predicates for the various autocheck functions. autocheckCases :: Eq a => [(String, Predicate a)] autocheckCases = [("Never Deadlocks", representative deadlocksNever) , ("No Exceptions", representative exceptionsNever) , ("Consistent Result", alwaysSame) ] -- | Check that a predicate holds. -- -- @since 0.2.0.0 testDejafu :: Show a => (forall t. Conc.ConcST t a) -- ^ The computation to test -> String -- ^ The name of the test. -> Predicate a -- ^ The predicate to check -> Test testDejafu = testDejafuWay defaultWay defaultMemType -- | Variant of 'testDejafu' which takes a way to execute the program -- and a memory model. -- -- @since 0.4.0.0 testDejafuWay :: (Show a, RandomGen g) => Way g -- ^ How to execute the concurrent program. -> MemType -- ^ The memory model to use for non-synchronised @CRef@ operations. -> (forall t. Conc.ConcST t a) -- ^ The computation to test -> String -- ^ The name of the test. -> Predicate a -- ^ The predicate to check -> Test testDejafuWay way memtype conc name p = testDejafusWay way memtype conc [(name, p)] -- | Variant of 'testDejafu' which takes a collection of predicates to -- test. This will share work between the predicates, rather than -- running the concurrent computation many times for each predicate. -- -- @since 0.2.0.0 testDejafus :: Show a => (forall t. Conc.ConcST t a) -- ^ The computation to test -> [(String, Predicate a)] -- ^ The list of predicates (with names) to check -> Test testDejafus = testDejafusWay defaultWay defaultMemType -- | Variant of 'testDejafus' which takes a way to execute the program -- and a memory model. -- -- @since 0.4.0.0 testDejafusWay :: (Show a, RandomGen g) => Way g -- ^ How to execute the concurrent program. -> MemType -- ^ The memory model to use for non-synchronised @CRef@ operations. -> (forall t. Conc.ConcST t a) -- ^ The computation to test -> [(String, Predicate a)] -- ^ The list of predicates (with names) to check -> Test testDejafusWay = testst -- | Variant of 'testDejafu' for computations which do 'IO'. -- -- @since 0.2.0.0 testDejafuIO :: Show a => Conc.ConcIO a -> String -> Predicate a -> Test testDejafuIO = testDejafuWayIO defaultWay defaultMemType -- | Variant of 'testDejafuWay' for computations which do 'IO'. -- -- @since 0.4.0.0 testDejafuWayIO :: (Show a, RandomGen g) => Way g -> MemType -> Conc.ConcIO a -> String -> Predicate a -> Test testDejafuWayIO way memtype concio name p = testDejafusWayIO way memtype concio [(name, p)] -- | Variant of 'testDejafus' for computations which do 'IO'. -- -- @since 0.2.0.0 testDejafusIO :: Show a => Conc.ConcIO a -> [(String, Predicate a)] -> Test testDejafusIO = testDejafusWayIO defaultWay defaultMemType -- | Variant of 'dejafusWay' for computations which do 'IO'. -- -- @since 0.4.0.0 testDejafusWayIO :: (Show a, RandomGen g) => Way g -> MemType -> Conc.ConcIO a -> [(String, Predicate a)] -> Test testDejafusWayIO = testio -------------------------------------------------------------------------------- -- HUnit integration -- | Produce a HUnit 'Test' from a Deja Fu test. testst :: (Show a, RandomGen g) => Way g -> MemType -> (forall t. Conc.ConcST t a) -> [(String, Predicate a)] -> Test testst way memtype conc tests = case map toTest tests of [t] -> t ts -> TestList ts where toTest (name, p) = TestLabel name . TestCase $ assertString . showErr $ p traces traces = runSCTst way memtype conc -- | Produce a HUnit 'Test' from an IO-using Deja Fu test. testio :: (Show a, RandomGen g) => Way g -> MemType -> Conc.ConcIO a -> [(String, Predicate a)] -> Test testio way memtype concio tests = case map toTest tests of [t] -> t ts -> TestList ts where toTest (name, p) = TestLabel name . TestCase $ do -- Sharing of traces probably not possible (without something -- really unsafe) here, as 'test' doesn't allow side-effects -- (eg, constructing an 'MVar' to share the traces after one -- test computed them). traces <- runSCTio way memtype concio assertString . showErr $ p traces -------------------------------------------------------------------------------- -- Utilities -- | Convert a test result into an error message on failure (empty -- string on success). showErr :: Show a => Result a -> String showErr res | _pass res = "" | otherwise = "Failed after " ++ show (_casesChecked res) ++ " cases:\n" ++ msg ++ unlines failures ++ rest where msg = if null (_failureMsg res) then "" else _failureMsg res ++ "\n" failures = intersperse "" . map (indent . showres) . take 5 $ _failures res showres (r, t) = either Conc.showFail show r ++ " " ++ Conc.showTrace t rest = if moreThan (_failures res) 5 then "\n\t..." else "" -- | Check if a list has more than some number of elements. moreThan :: [a] -> Int -> Bool moreThan [] n = n < 0 moreThan _ 0 = True moreThan (_:xs) n = moreThan xs (n-1) -- | Indent every line of a string. indent :: String -> String indent = intercalate "\n" . map ('\t':) . lines