{-# LANGUAGE CPP #-}
#ifndef NO_SAFE_HASKELL
{-# LANGUAGE Safe #-}
#endif
module Test.QuickCheck.Test where
import Test.QuickCheck.Gen
import Test.QuickCheck.Property hiding ( Result( reason, theException, labels ) )
import qualified Test.QuickCheck.Property as P
import Test.QuickCheck.Text
import Test.QuickCheck.State hiding (labels)
import qualified Test.QuickCheck.State as S
import Test.QuickCheck.Exception
import Test.QuickCheck.Random
import System.Random(split)
#if defined(MIN_VERSION_containers)
#if MIN_VERSION_containers(0,5,0)
import qualified Data.Map.Strict as Map
#else
import qualified Data.Map as Map
#endif
#else
import qualified Data.Map as Map
#endif
import qualified Data.Set as Set
import Data.Char
( isSpace
)
import Data.List
( sort
, sortBy
, group
, intersperse
)
import Data.Maybe(fromMaybe)
import Data.Ord(comparing)
import Text.Printf(printf)
data Args
= Args
{ replay :: Maybe (QCGen,Int)
, maxSuccess :: Int
, maxDiscardRatio :: Int
, maxSize :: Int
, chatty :: Bool
, maxShrinks :: Int
}
deriving ( Show, Read )
data Result
= Success
{ numTests :: Int
, labels :: [(String,Double)]
, output :: String
}
| GaveUp
{ numTests :: Int
, labels :: [(String,Double)]
, output :: String
}
| Failure
{ numTests :: Int
, numShrinks :: Int
, numShrinkTries :: Int
, numShrinkFinal :: Int
, usedSeed :: QCGen
, usedSize :: Int
, reason :: String
, theException :: Maybe AnException
, labels :: [(String,Double)]
, output :: String
, failingTestCase :: [String]
}
| NoExpectedFailure
{ numTests :: Int
, labels :: [(String,Double)]
, output :: String
}
| InsufficientCoverage
{ numTests :: Int
, labels :: [(String,Double)]
, output :: String
}
deriving ( Show )
isSuccess :: Result -> Bool
isSuccess Success{} = True
isSuccess _ = False
stdArgs :: Args
stdArgs = Args
{ replay = Nothing
, maxSuccess = 100
, maxDiscardRatio = 10
, maxSize = 100
, chatty = True
, maxShrinks = maxBound
}
quickCheck :: Testable prop => prop -> IO ()
quickCheck p = quickCheckWith stdArgs p
quickCheckWith :: Testable prop => Args -> prop -> IO ()
quickCheckWith args p = quickCheckWithResult args p >> return ()
quickCheckResult :: Testable prop => prop -> IO Result
quickCheckResult p = quickCheckWithResult stdArgs p
quickCheckWithResult :: Testable prop => Args -> prop -> IO Result
quickCheckWithResult a p = (if chatty a then withStdioTerminal else withNullTerminal) $ \tm -> do
rnd <- case replay a of
Nothing -> newQCGen
Just (rnd,_) -> return rnd
test MkState{ terminal = tm
, maxSuccessTests = maxSuccess a
, maxDiscardedRatio = maxDiscardRatio a
, computeSize = case replay a of
Nothing -> computeSize'
Just (_,s) -> computeSize' `at0` s
, numTotMaxShrinks = maxShrinks a
, numSuccessTests = 0
, numDiscardedTests = 0
, numRecentlyDiscardedTests = 0
, S.labels = Map.empty
, collected = []
, expectedFailure = False
, randomSeed = rnd
, numSuccessShrinks = 0
, numTryShrinks = 0
, numTotTryShrinks = 0
} (unGen (unProperty (property p)))
where computeSize' n d
| n `roundTo` maxSize a + maxSize a <= maxSuccess a ||
n >= maxSuccess a ||
maxSuccess a `mod` maxSize a == 0 = (n `mod` maxSize a + d `div` 10) `min` maxSize a
| otherwise =
((n `mod` maxSize a) * maxSize a `div` (maxSuccess a `mod` maxSize a) + d `div` 10) `min` maxSize a
n `roundTo` m = (n `div` m) * m
at0 f s 0 0 = s
at0 f s n d = f n d
verboseCheck :: Testable prop => prop -> IO ()
verboseCheck p = quickCheck (verbose p)
verboseCheckWith :: Testable prop => Args -> prop -> IO ()
verboseCheckWith args p = quickCheckWith args (verbose p)
verboseCheckResult :: Testable prop => prop -> IO Result
verboseCheckResult p = quickCheckResult (verbose p)
verboseCheckWithResult :: Testable prop => Args -> prop -> IO Result
verboseCheckWithResult a p = quickCheckWithResult a (verbose p)
test :: State -> (QCGen -> Int -> Prop) -> IO Result
test st f
| numSuccessTests st >= maxSuccessTests st =
doneTesting st f
| numDiscardedTests st >= maxDiscardedRatio st * maxSuccessTests st =
giveUp st f
| otherwise =
runATest st f
doneTesting :: State -> (QCGen -> Int -> Prop) -> IO Result
doneTesting st _f
| not (expectedFailure st) = do
putPart (terminal st)
( bold ("*** Failed!")
++ " Passed "
++ show (numSuccessTests st)
++ " tests (expected failure)"
)
finished NoExpectedFailure
| not (null (insufficientlyCovered st)) = do
putPart (terminal st)
( bold ("*** Insufficient coverage after ")
++ show (numSuccessTests st)
++ " tests"
)
finished InsufficientCoverage
| otherwise = do
putPart (terminal st)
( "+++ OK, passed "
++ show (numSuccessTests st)
++ " tests"
)
finished Success
where
finished k = do
success st
theOutput <- terminalOutput (terminal st)
return (k (numSuccessTests st) (summary st) theOutput)
giveUp :: State -> (QCGen -> Int -> Prop) -> IO Result
giveUp st _f =
do
putPart (terminal st)
( bold ("*** Gave up!")
++ " Passed only "
++ show (numSuccessTests st)
++ " tests"
)
success st
theOutput <- terminalOutput (terminal st)
return GaveUp{ numTests = numSuccessTests st
, labels = summary st
, output = theOutput
}
runATest :: State -> (QCGen -> Int -> Prop) -> IO Result
runATest st f =
do
putTemp (terminal st)
( "("
++ number (numSuccessTests st) "test"
++ concat [ "; " ++ show (numDiscardedTests st) ++ " discarded"
| numDiscardedTests st > 0
]
++ ")"
)
let size = computeSize st (numSuccessTests st) (numRecentlyDiscardedTests st)
MkRose res ts <- protectRose (reduceRose (unProp (f rnd1 size)))
res <- callbackPostTest st res
let continue break st' | abort res = break st'
| otherwise = test st'
cons x xs
| Set.null x = xs
| otherwise = x:xs
case res of
MkResult{ok = Just True, stamp = stamp, expect = expect, maybeNumTests = mnt} ->
do continue doneTesting
st{ numSuccessTests = numSuccessTests st + 1
, numRecentlyDiscardedTests = 0
, maxSuccessTests = fromMaybe (maxSuccessTests st) mnt
, randomSeed = rnd2
, S.labels = Map.unionWith max (S.labels st) (P.labels res)
, collected = stamp `cons` collected st
, expectedFailure = expect
} f
MkResult{ok = Nothing, expect = expect, maybeNumTests = mnt} ->
do continue giveUp
st{ numDiscardedTests = numDiscardedTests st + 1
, numRecentlyDiscardedTests = numRecentlyDiscardedTests st + 1
, maxSuccessTests = fromMaybe (maxSuccessTests st) mnt
, randomSeed = rnd2
, S.labels = Map.unionWith max (S.labels st) (P.labels res)
, expectedFailure = expect
} f
MkResult{ok = Just False} ->
do (numShrinks, totFailed, lastFailed, res) <- foundFailure st res ts
theOutput <- terminalOutput (terminal st)
if not (expect res) then
return Success{ labels = summary st,
numTests = numSuccessTests st+1,
output = theOutput }
else do
testCase <- mapM showCounterexample (P.testCase res)
return Failure{ usedSeed = randomSeed st
, usedSize = size
, numTests = numSuccessTests st+1
, numShrinks = numShrinks
, numShrinkTries = totFailed
, numShrinkFinal = lastFailed
, output = theOutput
, reason = P.reason res
, theException = P.theException res
, labels = summary st
, failingTestCase = testCase
}
where
(rnd1,rnd2) = split (randomSeed st)
failureSummary :: State -> P.Result -> String
failureSummary st res = fst (failureSummaryAndReason st res)
failureReason :: State -> P.Result -> [String]
failureReason st res = snd (failureSummaryAndReason st res)
failureSummaryAndReason :: State -> P.Result -> (String, [String])
failureSummaryAndReason st res = (summary, full)
where
summary =
header ++
short 26 (oneLine reason ++ " ") ++
count True ++ "..."
full =
(header ++
(if isOneLine reason then reason ++ " " else "") ++
count False ++ ":"):
if isOneLine reason then [] else lines reason
reason = P.reason res
header =
if expect res then
bold "*** Failed! "
else "+++ OK, failed as expected. "
count full =
"(after " ++ number (numSuccessTests st+1) "test" ++
concat [
" and " ++
show (numSuccessShrinks st) ++
concat [ "." ++ show (numTryShrinks st) | showNumTryShrinks ] ++
" shrink" ++
(if numSuccessShrinks st == 1 && not showNumTryShrinks then "" else "s")
| numSuccessShrinks st > 0 || showNumTryShrinks ] ++
")"
where
showNumTryShrinks = full && numTryShrinks st > 0
summary :: State -> [(String, Double)]
summary st = reverse
. sortBy (comparing snd)
. map (\ss -> (head ss, fromIntegral (length ss) * 100 / fromIntegral (numSuccessTests st)))
. group
. sort
$ [ concat (intersperse ", " s')
| s <- collected st
, let s' = [ t | t <- Set.toList s, Map.lookup t (S.labels st) == Just 0 ]
, not (null s')
]
success :: State -> IO ()
success st =
case allLabels ++ covers of
[] -> do putLine (terminal st) "."
[pt] -> do putLine (terminal st)
( " ("
++ dropWhile isSpace pt
++ ")."
)
cases -> do putLine (terminal st) ":"
mapM_ (putLine $ terminal st) cases
where
allLabels :: [String]
allLabels = map (formatLabel (numSuccessTests st) True) (summary st)
covers :: [String]
covers = [ ("only " ++ formatLabel (numSuccessTests st) False (l, p) ++ ", not " ++ show reqP ++ "%")
| (l, reqP, p) <- insufficientlyCovered st ]
formatLabel :: Int -> Bool -> (String, Double) -> String
formatLabel n pad (x, p) = showP pad p ++ " " ++ x
where
showP :: Bool -> Double -> String
showP pad p =
(if pad && p < 10 then " " else "") ++
printf "%.*f" places p ++ "%"
places :: Integer
places =
ceiling (logBase 10 (fromIntegral n) - 2 :: Double) `max` 0
labelCount :: String -> State -> Int
labelCount l st =
length [ l' | l' <- concat (map Set.toList (collected st)), l == l' ]
percentage :: Integral a => State -> a -> Double
percentage st n =
fromIntegral n * 100 / fromIntegral (numSuccessTests st)
insufficientlyCovered :: State -> [(String, Int, Double)]
insufficientlyCovered st =
[ (l, reqP, p)
| (l, reqP) <- Map.toList (S.labels st),
let p = percentage st (labelCount l st),
p < fromIntegral reqP ]
foundFailure :: State -> P.Result -> [Rose P.Result] -> IO (Int, Int, Int, P.Result)
foundFailure st res ts =
do localMin st{ numTryShrinks = 0 } res res ts
localMin :: State -> P.Result -> P.Result -> [Rose P.Result] -> IO (Int, Int, Int, P.Result)
localMin st res _ ts
| numSuccessShrinks st + numTotTryShrinks st >= numTotMaxShrinks st =
localMinFound st res
localMin st res _ ts = do
r <- tryEvaluateIO $
putTemp (terminal st) (failureSummary st res)
case r of
Left err ->
localMinFound st (exception "Exception while printing status message" err) { callbacks = callbacks res }
Right () -> do
r <- tryEvaluate ts
case r of
Left err ->
localMinFound st
(exception "Exception while generating shrink-list" err) { callbacks = callbacks res }
Right ts' -> localMin' st res ts'
localMin' :: State -> P.Result -> [Rose P.Result] -> IO (Int, Int, Int, P.Result)
localMin' st res [] = localMinFound st res
localMin' st res (t:ts) =
do
MkRose res' ts' <- protectRose (reduceRose t)
res' <- callbackPostTest st res'
if ok res' == Just False
then localMin st{ numSuccessShrinks = numSuccessShrinks st + 1,
numTryShrinks = 0 } res' res ts'
else localMin st{ numTryShrinks = numTryShrinks st + 1,
numTotTryShrinks = numTotTryShrinks st + 1 } res res ts
localMinFound :: State -> P.Result -> IO (Int, Int, Int, P.Result)
localMinFound st res =
do sequence_ [ putLine (terminal st) msg | msg <- failureReason st res ]
callbackPostFinalFailure st res
return (numSuccessShrinks st, numTotTryShrinks st - numTryShrinks st, numTryShrinks st, res)
callbackPostTest :: State -> P.Result -> IO P.Result
callbackPostTest st res = protect (exception "Exception running callback") $ do
sequence_ [ f st res | PostTest _ f <- callbacks res ]
return res
callbackPostFinalFailure :: State -> P.Result -> IO ()
callbackPostFinalFailure st res = do
x <- tryEvaluateIO $ sequence_ [ f st res | PostFinalFailure _ f <- callbacks res ]
case x of
Left err -> do
putLine (terminal st) "*** Exception running callback: "
tryEvaluateIO $ putLine (terminal st) (show err)
return ()
Right () -> return ()