dejafu/dejafu-tests/Examples/Philosophers.hs
2016-03-23 03:36:07 +00:00

48 lines
1.7 KiB
Haskell
Executable File

-- An implementation of the Dining Philosophers. This is interesting
-- as it show-cases testing a non-terminating program.
module Examples.Philosophers (tests) where
import Control.Monad (replicateM, forever)
import Control.Monad.Conc.Class
import Control.Concurrent.Classy.MVar (lock, unlock)
import Data.Functor (void)
import Test.DejaFu
import Test.Framework (Test)
import Test.Framework.Providers.HUnit (hUnitTestToTests)
import Test.HUnit (test)
import Test.HUnit.DejaFu
tests :: [Test]
tests = hUnitTestToTests $ test
[ testDejafu' defaultMemType bound (philosophers 3) "deadlocks" deadlocksSometimes
, testDejafu' defaultMemType bound (philosophers 3) "loops" abortsSometimes
]
-- | Shorter execution length bound
bound :: Bounds
bound = defaultBounds { lengthBound = Just 30 }
--------------------------------------------------------------------------------
-- | Run the Dining Philosophers. Result is irrelevant, we just care
-- about deadlocks.
philosophers :: MonadConc m => Int -> m ()
philosophers n = do
forks <- replicateM n newEmptyMVar
let phils = map (\(i,p) -> p i forks) $ zip [0..] $ replicate n philosopher
cvars <- mapM spawn phils
mapM_ takeMVar cvars
where
philosopher ident forks = forever $ do
let leftId = ident
let rightId = (ident + 1) `mod` length forks
lock $ forks !! leftId
lock $ forks !! rightId
-- In the traditional approach, we'd wait for a random time
-- here, but we want the only source of (important)
-- nondeterminism to come from the scheduler, which it does, as
-- pre-emption is effectively a delay.
unlock $ forks !! leftId
unlock $ forks !! rightId