purescript-threading/test/Test/Threading.Data.Mutex.purs

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module Test.Threading.Data.Mutex where
import Prelude
import Control.Monad.Error.Class (liftEither, liftMaybe)
import Control.Parallel (parOneOf)
import Data.Either (Either(..))
import Data.Maybe (isNothing)
import Data.Time.Duration (Milliseconds(..))
import Data.Traversable (for_)
import Effect.Aff as Aff
import Effect.Class (liftEffect)
import Effect.Exception (error)
import Effect.Ref as Ref
import Test.Spec (Spec, describe, it, pending')
import Test.Spec.Assertions (expectError, shouldEqual)
import Threading.Data.Mutex as Mutex
spec :: Spec Unit
spec =
describe "Threading.Data.Mutex" do
describe "mutex" do
it "creates" $ liftEffect $ void $ Mutex.mutex 0
describe "read" do
it "reads the value" do
m <- liftEffect $ Mutex.mutex 0
g <- Mutex.lock m
v <- liftEffect $ Mutex.read g
v `shouldEqual` 0
it "throws if released" do
m <- liftEffect $ Mutex.mutex 0
g <- Mutex.lock m
liftEffect $ Mutex.release g
expectError $ liftEffect $ Mutex.read g
describe "write" do
it "writes the value" do
m <- liftEffect $ Mutex.mutex 0
g <- Mutex.lock m
liftEffect $ Mutex.write g 1
v <- liftEffect $ Mutex.read g
v `shouldEqual` 1
it "throws if released" do
m <- liftEffect $ Mutex.mutex 0
g <- Mutex.lock m
liftEffect $ Mutex.release g
expectError $ liftEffect $ Mutex.write g 1
describe "get" do
it "yields immediately when unlocked" do
m <- liftEffect $ Mutex.mutex 0
val <- Mutex.get m
val `shouldEqual` 0
it "blocks until unlocked" do
m <- liftEffect $ Mutex.mutex 0
g <- Mutex.lock m
getFiber <- Aff.forkAff $ Mutex.get m
liftEffect $ Mutex.write g 1
liftEffect $ Mutex.release g
read <- Aff.joinFiber getFiber
read `shouldEqual` 1
describe "put" do
it "yields immediately when unlocked" do
m <- liftEffect $ Mutex.mutex 0
Mutex.put m 1
val <- Mutex.get m
val `shouldEqual` 1
it "blocks until unlocked" do
m <- liftEffect $ Mutex.mutex 0
g <- Mutex.lock m
getFiber <- Aff.forkAff $ Mutex.put m 2
liftEffect $ Mutex.write g 1
liftEffect $ Mutex.release g
Aff.joinFiber getFiber
val <- Mutex.get m
val `shouldEqual` 2
describe "modify" do
it "yields immediately when unlocked" do
m <- liftEffect $ Mutex.mutex 0
val <- Mutex.modify m (_ + 1)
val `shouldEqual` 1
it "blocks until unlocked" do
m <- liftEffect $ Mutex.mutex 0
g <- Mutex.lock m
getFiber <- Aff.forkAff $ Mutex.modify m (_ * 10)
liftEffect $ Mutex.write g 1
liftEffect $ Mutex.release g
val <- Aff.joinFiber getFiber
val `shouldEqual` 10
describe "lock" do
it "yields immediately when unlocked" do
m <- liftEffect $ Mutex.mutex 0
void $ Mutex.lock m
it "blocks when locked" do
m <- liftEffect $ Mutex.mutex 0
g <- Mutex.lock m
finished <- liftEffect $ Ref.new false
fiber <- Aff.forkAff do
void $ Mutex.lock m
void $ liftEffect $ Ref.write true finished
Aff.delay $ Milliseconds 5.0
f1 <- liftEffect $ Ref.read finished
f1 `shouldEqual` false
liftEffect $ Mutex.release g
Aff.joinFiber fiber
f2 <- liftEffect $ Ref.read finished
f2 `shouldEqual` true
it "locks are acquired in the order they were requested" do
m <- liftEffect $ Mutex.mutex 0
g <- Mutex.lock m
a <- Aff.forkAff $ Mutex.modify_ m (_ + 1) -- 1
b <- Aff.forkAff $ Mutex.modify_ m (_ * 10) -- 10
c <- Aff.forkAff $ Mutex.modify_ m (_ + 10) -- 20
d <- Aff.forkAff $ Mutex.modify_ m (_ * 10) -- 200
liftEffect $ Mutex.release g
for_ [ a, b, c, d ] Aff.joinFiber
n <- Mutex.get m
n `shouldEqual` 200
pending' "should be (eventually) unlocked if a fiber exits without releasing the lock" do
m <- liftEffect $ Mutex.mutex 0
-- Fiber acquires a lock then immediately resolves without releasing.
--
-- When the GC reclaims the guard object, the Mutex should notice and behave
-- as if it was explicitly released.
void $ Aff.forkAff $ void $ Mutex.lock m
liftEither =<< parOneOf
[ Aff.delay (Milliseconds 20000.0) $> Left (error "timed out waiting for GC to reclaim lock")
, Mutex.lock m $> Right unit
]
describe "tryLock" do
it "returns Just when unlocked" do
m <- liftEffect $ Mutex.mutex 0
void $ liftMaybe (error $ "Mutex.tryLock returned Nothing on new mutex") =<< liftEffect (Mutex.tryLock m)
it "returns Nothing when locked" do
m <- liftEffect $ Mutex.mutex 0
_ <- liftMaybe (error $ "Mutex.tryLock returned Nothing on new mutex") =<< liftEffect (Mutex.tryLock m)
g <- liftEffect (Mutex.tryLock m)
isNothing g `shouldEqual` true
it "returns Just after release" do
m <- liftEffect $ Mutex.mutex 0
g <- liftMaybe (error $ "Mutex.tryLock returned Nothing on new mutex") =<< liftEffect (Mutex.tryLock m)
liftEffect $ Mutex.release g
void $ liftMaybe (error $ "Mutex.tryLock returned Nothing after lock released") =<< liftEffect (Mutex.tryLock m)
describe "locked" do
it "is false when unlocked" do
m <- liftEffect $ Mutex.mutex 0
l <- liftEffect $ Mutex.locked m
l `shouldEqual` false
it "is true when locked" do
m <- liftEffect $ Mutex.mutex 0
_ <- liftMaybe (error $ "Mutex.tryLock returned Nothing on new mutex") =<< liftEffect (Mutex.tryLock m)
l <- liftEffect $ Mutex.locked m
l `shouldEqual` true
it "is false after lock released" do
m <- liftEffect $ Mutex.mutex 0
g <- liftMaybe (error $ "Mutex.tryLock returned Nothing on new mutex") =<< liftEffect (Mutex.tryLock m)
liftEffect $ Mutex.release g
l' <- liftEffect $ Mutex.locked m
l' `shouldEqual` false