module Main (main) where import Test.DejaFu import System.Exit (exitFailure, exitSuccess) import qualified Tests.Cases as C import qualified Tests.Logger as L andM :: (Functor m, Monad m) => [m Bool] -> m Bool andM = fmap and . sequence runTests :: IO Bool runTests = andM [dejafu C.simple2Deadlock ("Simple 2-Deadlock", deadlocksSometimes) ,dejafu (C.philosophers 2) ("2 Philosophers", deadlocksSometimes) ,dejafu (C.philosophers 3) ("3 Philosophers", deadlocksSometimes) ,dejafu (C.philosophers 4) ("4 Philosophers", deadlocksSometimes) ,dejafu C.thresholdValue ("Threshold Value", notAlwaysSame) ,dejafu C.forgottenUnlock ("Forgotten Unlock", deadlocksAlways) ,dejafu C.simple2Race ("Simple 2-Race", notAlwaysSame) ,dejafu C.raceyStack ("Racey Stack", notAlwaysSame) ,dejafu C.threadKill ("killThread", deadlocksSometimes) ,dejafu C.threadKillMask ("killThread+mask 1", deadlocksNever) ,dejafu C.threadKillUmask ("killThread+mask 2", deadlocksSometimes) ,dejafu C.stmAtomic ("STM Atomicity", alwaysSame) ,dejafu C.stmRetry ("STM Retry", alwaysSame) ,dejafu C.stmOrElse ("STM orElse", alwaysSame) ,dejafu C.stmExc ("STM Exceptions", alwaysSame) ,dejafu C.excNest ("Nested Excs", alwaysSame) ,dejafus L.badLogger [("Logger (Valid)", L.validResult) ,("Logger (Good)", L.isGood) ,("Logger (Bad", L.isBad)]] main :: IO () main = do success <- runTests if success then exitSuccess else exitFailure