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{-# LANGUAGE Rank2Types #-}
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-- | Useful functions for writing SCT test cases for @Conc@
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-- computations.
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module Control.Monad.Conc.SCT.Tests
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( -- * Test cases
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Result(..)
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, runTest
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, runTestIO
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, runTest'
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, runTestIO'
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-- * Predicates
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, Predicate
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, deadlocksNever
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, deadlocksAlways
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, deadlocksSometimes
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, alwaysSame
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, alwaysTrue
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, alwaysTrue2
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, somewhereTrue
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, somewhereTrue2
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-- * Utilities
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, pAnd
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, pNot
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) where
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import Control.Applicative ((<$>))
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import Control.DeepSeq (NFData(..))
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import Control.Monad.Conc.Fixed
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import Control.Monad.Conc.SCT.PreBound
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import Data.Maybe (isJust, isNothing)
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import qualified Control.Monad.Conc.Fixed.IO as CIO
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-- * Test cases
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-- | The results of a test, including information on the number of
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-- cases checked, and number of total cases. Be careful if using the
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-- total number of cases, as that value may be very big, and (due to
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-- laziness) will actually force a lot more computation!.
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data Result = Result
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{ _pass :: Bool
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-- ^ Whether the test passed or not.
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, _casesChecked :: Int
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-- ^ The number of cases checked.
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, _casesTotal :: Int
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-- ^ The total number of cases.
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} deriving (Show, Read, Eq)
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instance NFData Result where
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rnf r = rnf (_pass r, _casesChecked r, _casesTotal r)
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-- | Run a test using the pre-emption bounding scheduler, with a bound
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-- of 2.
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runTest :: Predicate a -> (forall t. Conc t a) -> Result
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runTest = runTest' 2
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-- | Variant of 'runTest' using 'IO'. See usual caveats about 'IO'.
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runTestIO :: Predicate a -> (forall t. CIO.Conc t a) -> IO Result
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runTestIO = runTestIO' 2
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-- | Run a test using the pre-emption bounding scheduler.
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runTest' :: Int -> Predicate a -> (forall t. Conc t a) -> Result
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runTest' pb predicate conc = predicate . map fst $ sctPreBound pb conc
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-- | Variant of 'runTest'' using 'IO'. See usual caveats about 'IO'.
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runTestIO' :: Int -> Predicate a -> (forall t. CIO.Conc t a) -> IO Result
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runTestIO' pb predicate conc = predicate . map fst <$> sctPreBoundIO pb conc
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-- * Predicates
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-- | A @Predicate@ is a function which collapses a list of results
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-- into a 'Result'.
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type Predicate a = [Maybe a] -> Result
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-- | Check that a computation never deadlocks.
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deadlocksNever :: Predicate a
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deadlocksNever = alwaysTrue isJust
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-- | Check that a computation always deadlocks.
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deadlocksAlways :: Predicate a
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deadlocksAlways = alwaysTrue isNothing
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-- | Check that a computation deadlocks at least once.
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deadlocksSometimes :: Predicate a
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deadlocksSometimes = somewhereTrue isNothing
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-- | Check that the result of a computation is always the same. In
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-- particular this means either: (a) it always deadlocks, or (b) the
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-- result is always 'Just' @x@, for some fixed @x@.
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alwaysSame :: Eq a => Predicate a
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alwaysSame = alwaysTrue2 (==)
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-- | Check that the result of a unary boolean predicate is always
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-- true. An empty list of results counts as 'True'.
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alwaysTrue :: (Maybe a -> Bool) -> Predicate a
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alwaysTrue p = pNot $ somewhereTrue (not . p)
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-- | Check that the result of a binary boolean predicate is always
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-- true between adjacent pairs of results. An empty list of results
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-- counts as 'True'.
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alwaysTrue2 :: (Maybe a -> Maybe a -> Bool) -> Predicate a
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alwaysTrue2 p = pNot $ somewhereTrue2 (\a b -> not $ p a b)
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-- | Check that the result of a unary boolean predicate is true at
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-- least once. An empty list of results counts as 'False'.
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somewhereTrue :: (Maybe a -> Bool) -> Predicate a
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somewhereTrue p xs = go xs Result { _pass = False, _casesChecked = 0, _casesTotal = length xs } where
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go [] res = res
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go (y:ys) res
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| p y = incCC res { _pass = True }
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| otherwise = go ys $ incCC res
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-- | Check that the result of a binary boolean predicate is true
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-- between at least one adjacent pair of results. An empty list of
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-- results counts as 'False'.
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somewhereTrue2 :: (Maybe a -> Maybe a -> Bool) -> Predicate a
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somewhereTrue2 _ [_] = Result { _pass = False, _casesChecked = 1, _casesTotal = 1 }
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somewhereTrue2 p xs = go xs Result { _pass = False, _casesChecked = 0, _casesTotal = length xs } where
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go [] = id
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go [y1,y2] = check y1 y2 []
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go (y1:y2:ys) = check y1 y2 (y2 : ys)
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check y1 y2 ys res
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| p y1 y2 = incCC res { _pass = True }
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| otherwise = go ys $ incCC res
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-- * Utils
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-- | Compose two predicates sequentially.
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pAnd :: Predicate a -> Predicate a -> Predicate a
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pAnd p q xs = if _pass r1 then r2 else r1 where
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r1 = p xs
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r2 = q xs
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-- | Invert the result of a predicate.
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pNot :: Predicate a -> Predicate a
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pNot p xs = r { _pass = not $ _pass r } where
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r = p xs
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-- | Increment the cases checked
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incCC :: Result -> Result
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incCC r = r { _casesChecked = _casesChecked r + 1 }
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