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deepseq-1.6.0.0: tests/Main.hs

-- Code reused from http://hackage.haskell.org/package/deepseq-generics
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE DeriveGeneric #-}
{-# LANGUAGE TupleSections #-}

module Main (main) where

import Control.Concurrent.MVar
-- IUT
import Control.DeepSeq
import Control.Exception
import Control.Monad
import Data.Bits
import Data.IORef
import Data.Typeable
import Data.Word
import GHC.Generics
import System.Exit (exitFailure)
import System.IO.Unsafe (unsafePerformIO)

----------------------------------------------------------------------------
-- simple hacky abstraction for testing forced evaluation via `rnf`-like functions

seqStateLock :: MVar ()
seqStateLock = unsafePerformIO $ newMVar ()
{-# NOINLINE seqStateLock #-}

withSeqState :: Word64 -> IO () -> IO ()
withSeqState expectedState act = withMVar seqStateLock $ \() -> do
  0 <- resetSeqState
  () <- act
  st <- resetSeqState
  unless (st == expectedState) $ do
    putStrLn $
      "withSeqState: actual seq-state ("
        ++ show st
        ++ ") doesn't match expected value ("
        ++ show expectedState
        ++ ")"
    exitFailure

seqState :: IORef Word64
seqState = unsafePerformIO $ newIORef 0
{-# NOINLINE seqState #-}

resetSeqState :: IO Word64
resetSeqState = atomicModifyIORef' seqState (0,)

-- | Set flag and raise exception is flag already set
setSeqState :: Int -> IO ()
setSeqState i
  | 0 <= i && i < 64 = atomicModifyIORef' seqState go
  | otherwise = error "seqSeqState: flag index must be in [0..63]"
 where
  go x
    | testBit x i = error ("setSeqState: flag #" ++ show i ++ " already set")
    | otherwise = (setBit x i, ())

-- weird type whose NFData instance calls 'setSeqState' when rnf-ed
data SeqSet = SeqSet !Int | SeqIgnore
  deriving (Show)

instance NFData SeqSet where
  rnf (SeqSet i) = unsafePerformIO $ setSeqState i
  rnf (SeqIgnore) = ()
  {-# NOINLINE rnf #-}

-- | Exception to be thrown for testing 'seq'/'rnf'
data RnfEx = RnfEx deriving (Eq, Show, Typeable)

instance Exception RnfEx

instance NFData RnfEx where rnf e = throw e

assertRnfEx :: () -> IO ()
assertRnfEx v = handleJust isWanted (const $ return ()) $ do
  () <- evaluate v
  putStrLn "failed to trigger expected RnfEx exception"
  exitFailure
 where
  isWanted = guard . (== RnfEx)

----------------------------------------------------------------------------

testCase :: String -> IO a -> IO a
testCase testName io = do
  putStrLn testName
  io

case_1, case_2, case_3 :: IO ()
case_4_1, case_4_2, case_4_3, case_4_4 :: IO ()
case_4_1b, case_4_2b, case_4_3b, case_4_4b :: IO ()

newtype Case1 = Case1 Int
  deriving (Generic)

instance NFData Case1

case_1 = testCase "Case1" $ do
  assertRnfEx $ rnf $ (Case1 (throw RnfEx))

----

data Case2 = Case2 Int
  deriving (Generic)

instance NFData Case2

case_2 = testCase "Case2" $ do
  assertRnfEx $ rnf $ (Case2 (throw RnfEx))

----

data Case3 = Case3 RnfEx
  deriving (Generic)

instance NFData Case3

case_3 = testCase "Case3" $ do
  assertRnfEx $ rnf $ Case3 RnfEx

----

data Case4 a
  = Case4a
  | Case4b a a
  | Case4c a (Case4 a)
  deriving
    ( Generic
    , Generic1
    )

instance NFData a => NFData (Case4 a)

instance NFData1 Case4

case_4_1 = testCase "Case4.1" $ withSeqState 0x0 $ do
  evaluate $ rnf $ (Case4a :: Case4 SeqSet)

case_4_2 = testCase "Case4.2" $ withSeqState 0x3 $ do
  evaluate $ rnf $ (Case4b (SeqSet 0) (SeqSet 1) :: Case4 SeqSet)

case_4_3 = testCase "Case4.3" $ withSeqState (bit 55) $ do
  evaluate $ rnf $ (Case4b SeqIgnore (SeqSet 55) :: Case4 SeqSet)

case_4_4 = testCase "Case4.4" $ withSeqState 0xffffffffffffffff $ do
  evaluate $ rnf $ (genCase 63)
 where
  genCase n
    | n > 1 = Case4c (SeqSet n) (genCase (n - 1))
    | otherwise = Case4b (SeqSet 0) (SeqSet 1)

case_4_1b = testCase "Case4.1b" $ withSeqState 0x0 $ do
  evaluate $ rnf1 $ (Case4a :: Case4 SeqSet)

case_4_2b = testCase "Case4.2b" $ withSeqState 0x3 $ do
  evaluate $ rnf1 $ (Case4b (SeqSet 0) (SeqSet 1) :: Case4 SeqSet)

case_4_3b = testCase "Case4.3b" $ withSeqState (bit 55) $ do
  evaluate $ rnf1 $ (Case4b SeqIgnore (SeqSet 55) :: Case4 SeqSet)

case_4_4b = testCase "Case4.4b" $ withSeqState 0xffffffffffffffff $ do
  evaluate $ rnf1 $ (genCase 63)
 where
  genCase n
    | n > 1 = Case4c (SeqSet n) (genCase (n - 1))
    | otherwise = Case4b (SeqSet 0) (SeqSet 1)

----------------------------------------------------------------------------

main :: IO ()
main =
  sequence_
    [ case_1
    , case_2
    , case_3
    , case_4_1
    , case_4_2
    , case_4_3
    , case_4_4
    , case_4_1b
    , case_4_2b
    , case_4_3b
    , case_4_4b
    ]