{-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE GADTs #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE TypeSynonymInstances #-} -- | -- Module : Test.Tasty.DejaFu -- Copyright : (c) 2015--2017 Michael Walker -- License : MIT -- Maintainer : Michael Walker -- Stability : stable -- Portability : FlexibleContexts, FlexibleInstances, GADTs, LambdaCase, TypeSynonymInstances -- -- This module allows using Deja Fu predicates with Tasty to test the -- behaviour of concurrent systems. module Test.Tasty.DejaFu ( -- * Unit testing -- | This is supported by an 'IsTest' instance for 'ConcIO'. This -- instance tries all executions, reporting as failures the cases -- which return a 'Just' string. -- -- @instance IsTest (ConcIO (Maybe String))@ -- @instance IsOption Bounds@ -- @instance IsOption MemType@ -- * Unit testing testAuto , testDejafu , testDejafus , testAutoWay , testDejafuWay , testDejafusWay , testDejafuDiscard -- ** Re-exports , Predicate , ProPredicate(..) , Way , defaultWay , systematically , randomly , uniformly , swarmy , Bounds(..) , defaultBounds , MemType(..) , defaultMemType , Discard(..) , defaultDiscarder -- * Refinement property testing , testProperty , testPropertyFor -- ** Re-exports , R.Sig(..) , R.RefinementProperty , R.Testable(..) , R.Listable(..) , R.expectFailure , R.refines, (R.=>=) , R.strictlyRefines, (R.->-) , R.equivalentTo, (R.===) ) where import Data.Char (toUpper) import qualified Data.Foldable as F import Data.List (intercalate, intersperse) import Data.Proxy (Proxy(..)) import Data.Tagged (Tagged(..)) import Data.Typeable (Typeable) import System.Random (mkStdGen) import Test.DejaFu hiding (Testable(..)) import qualified Test.DejaFu.Conc as Conc import qualified Test.DejaFu.Refinement as R import qualified Test.DejaFu.SCT as SCT import qualified Test.DejaFu.Types as D import Test.Tasty (TestName, TestTree, testGroup) import Test.Tasty.Options (IsOption(..), OptionDescription(..), lookupOption) import Test.Tasty.Providers (IsTest(..), singleTest, testFailed, testPassed) -------------------------------------------------------------------------------- -- Tasty-style unit testing -- | @since 0.3.0.0 instance IsTest (Conc.ConcIO (Maybe String)) where testOptions = Tagged concOptions run options conc callback = do let memtype = lookupOption options let way = lookupOption options let traces = SCT.runSCTDiscard (pdiscard assertableP) way memtype conc run options (ConcTest traces (peval assertableP)) callback concOptions :: [OptionDescription] concOptions = [ Option (Proxy :: Proxy MemType) , Option (Proxy :: Proxy Way) ] assertableP :: Predicate (Maybe String) assertableP = alwaysTrue $ \case Right (Just _) -> False _ -> True -- | @since 0.3.0.0 instance IsOption MemType where defaultValue = defaultMemType parseValue = shortName . map toUpper where shortName "SC" = Just SequentialConsistency shortName "TSO" = Just TotalStoreOrder shortName "PSO" = Just PartialStoreOrder shortName _ = Nothing optionName = Tagged "memory-model" optionHelp = Tagged "The memory model to use. This should be one of \"sc\", \"tso\", or \"pso\"." -- | @since 0.5.0.0 instance IsOption Way where defaultValue = defaultWay parseValue = shortName . map toUpper where shortName "SYSTEMATICALLY" = Just (systematically defaultBounds) shortName "RANDOMLY" = Just (randomly (mkStdGen 42) 100) shortName _ = Nothing optionName = Tagged "way" optionHelp = Tagged "The execution method to use. This should be one of \"systematically\" or \"randomly\"." -------------------------------------------------------------------------------- -- DejaFu-style unit testing -- | Automatically test a computation. In particular, look for -- deadlocks, uncaught exceptions, and multiple return values. -- -- @since 1.0.0.0 testAuto :: (Eq a, Show a) => Conc.ConcIO a -- ^ The computation to test. -> TestTree testAuto = testAutoWay defaultWay defaultMemType -- | Variant of 'testAuto' which tests a computation under a given -- execution way and memory model. -- -- @since 1.0.0.0 testAutoWay :: (Eq a, Show a) => Way -- ^ How to execute the concurrent program. -> MemType -- ^ The memory model to use for non-synchronised @CRef@ operations. -> Conc.ConcIO a -- ^ The computation to test. -> TestTree testAutoWay way memtype = testDejafusWay way memtype autocheckCases -- | Predicates for the various autocheck functions. autocheckCases :: Eq a => [(TestName, Predicate a)] autocheckCases = [("Never Deadlocks", representative deadlocksNever) , ("No Exceptions", representative exceptionsNever) , ("Consistent Result", alwaysSame) ] -- | Check that a predicate holds. -- -- @since 1.0.0.0 testDejafu :: Show b => TestName -- ^ The name of the test. -> ProPredicate a b -- ^ The predicate to check. -> Conc.ConcIO a -- ^ The computation to test. -> TestTree testDejafu = testDejafuWay defaultWay defaultMemType -- | Variant of 'testDejafu' which takes a way to execute the program -- and a memory model. -- -- @since 1.0.0.0 testDejafuWay :: Show b => Way -- ^ How to execute the concurrent program. -> MemType -- ^ The memory model to use for non-synchronised @CRef@ operations. -> TestName -- ^ The name of the test. -> ProPredicate a b -- ^ The predicate to check. -> Conc.ConcIO a -- ^ The computation to test. -> TestTree testDejafuWay = testDejafuDiscard (const Nothing) -- | Variant of 'testDejafuWay' which can selectively discard results. -- -- @since 1.0.0.0 testDejafuDiscard :: Show b => (Either Failure a -> Maybe Discard) -- ^ Selectively discard results. -> Way -- ^ How to execute the concurrent program. -> MemType -- ^ The memory model to use for non-synchronised @CRef@ operations. -> String -- ^ The name of the test. -> ProPredicate a b -- ^ The predicate to check. -> Conc.ConcIO a -- ^ The computation to test. -> TestTree testDejafuDiscard discard way memtype name test = testconc discard way memtype [(name, test)] -- | 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 1.0.0.0 testDejafus :: Show b => [(TestName, ProPredicate a b)] -- ^ The list of predicates (with names) to check. -> Conc.ConcIO a -- ^ The computation to test. -> TestTree testDejafus = testDejafusWay defaultWay defaultMemType -- | Variant of 'testDejafus' which takes a way to execute the program -- and a memory model. -- -- @since 1.0.0.0 testDejafusWay :: Show b => Way -- ^ How to execute the concurrent program. -> MemType -- ^ The memory model to use for non-synchronised @CRef@ operations. -> [(TestName, ProPredicate a b)] -- ^ The list of predicates (with names) to check. -> Conc.ConcIO a -- ^ The computation to test. -> TestTree testDejafusWay = testconc (const Nothing) ------------------------------------------------------------------------------- -- Refinement property testing -- | Check a refinement property with a variety of seed values and -- variable assignments. -- -- @since 0.6.0.0 testProperty :: (R.Testable p, R.Listable (R.X p), Eq (R.X p), Show (R.X p), Show (R.O p)) => TestName -- ^ The name of the test. -> p -- ^ The property to check. -> TestTree testProperty = testPropertyFor 10 100 -- | Like 'testProperty', but takes a number of cases to check. -- -- The maximum number of cases tried by @testPropertyFor n m@ will be -- @n * m@. -- -- @since 0.7.1.0 testPropertyFor :: (R.Testable p, R.Listable (R.X p), Eq (R.X p), Show (R.X p), Show (R.O p)) => Int -- ^ The number of seed values to try. -> Int -- ^ The number of variable assignments per seed value to try. -> TestName -- ^ The name of the test. -> p -- ^ The property to check. -> TestTree testPropertyFor = testprop -------------------------------------------------------------------------------- -- Tasty integration data ConcTest where ConcTest :: Show b => IO [(Either Failure a, Conc.Trace)] -> ([(Either Failure a, Conc.Trace)] -> Result b) -> ConcTest deriving Typeable data PropTest where PropTest :: (R.Testable p, R.Listable (R.X p), Eq (R.X p), Show (R.X p), Show (R.O p)) => Int -> Int -> p -> PropTest deriving Typeable instance IsTest ConcTest where testOptions = pure [] run _ (ConcTest iotraces p) _ = do traces <- iotraces let err = showErr $ p traces pure (if null err then testPassed "" else testFailed err) instance IsTest PropTest where testOptions = pure [] run _ (PropTest sn vn p) _ = do ce <- R.checkFor sn vn p pure $ case ce of Just c -> testFailed . init $ unlines [ "*** Failure: " ++ (if null (R.failingArgs c) then "" else unwords (R.failingArgs c) ++ " ") ++ "(seed " ++ show (R.failingSeed c) ++ ")" , " left: " ++ show (F.toList $ R.leftResults c) , " right: " ++ show (F.toList $ R.rightResults c) ] Nothing -> testPassed "" -- | Produce a Tasty 'Test' from a Deja Fu unit test. testconc :: Show b => (Either Failure a -> Maybe Discard) -> Way -> MemType -> [(TestName, ProPredicate a b)] -> Conc.ConcIO a -> TestTree testconc discard way memtype tests concio = case map toTest tests of [t] -> t ts -> testGroup "Deja Fu Tests" ts where toTest (name, p) = let discarder = D.strengthenDiscard discard (pdiscard p) traces = SCT.runSCTDiscard discarder way memtype concio in singleTest name $ ConcTest traces (peval p) -- | Produce a Tasty 'TestTree' from a Deja Fu refinement property test. testprop :: (R.Testable p, R.Listable (R.X p), Eq (R.X p), Show (R.X p), Show (R.O p)) => Int -> Int -> TestName -> p -> TestTree testprop sn vn name = singleTest name . PropTest sn vn -- | 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:\n" ++ msg ++ unlines failures ++ rest where msg = if null (_failureMsg res) then "" else _failureMsg res ++ "\n" failures = intersperse "" . map (\(r, t) -> indent $ either Conc.showFail show r ++ " " ++ Conc.showTrace t) . take 5 $ _failures res 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