Java Code Examples for java.util.concurrent.Phaser#forceTermination()
The following examples show how to use
java.util.concurrent.Phaser#forceTermination() .
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Example 1
| Source File: PhaserTest.java From openjdk-jdk9 with GNU General Public License v2.0 | 6 votes |
|
/**
* awaitAdvance returns when the phaser is externally terminated
*/
public void testAwaitAdvance6() {
final Phaser phaser = new Phaser(3);
final CountDownLatch pleaseForceTermination = new CountDownLatch(2);
final List<Thread> threads = new ArrayList<>();
for (int i = 0; i < 2; i++) {
Runnable r = new CheckedRunnable() {
public void realRun() {
assertEquals(0, phaser.arrive());
pleaseForceTermination.countDown();
assertTrue(phaser.awaitAdvance(0) < 0);
assertTrue(phaser.isTerminated());
assertTrue(phaser.getPhase() < 0);
assertEquals(0, phaser.getPhase() + Integer.MIN_VALUE);
assertEquals(3, phaser.getRegisteredParties());
}};
threads.add(newStartedThread(r));
}
await(pleaseForceTermination);
phaser.forceTermination();
assertTrue(phaser.isTerminated());
assertEquals(0, phaser.getPhase() + Integer.MIN_VALUE);
for (Thread thread : threads)
awaitTermination(thread);
assertEquals(3, phaser.getRegisteredParties());
}
Example 2
| Source File: TieredArriveLoops.java From openjdk-jdk9 with GNU General Public License v2.0 | 6 votes |
|
void test(String[] args) throws Throwable {
final Phaser parent = new Phaser();
final Phaser child1 = new Phaser(parent);
final Phaser child2 = new Phaser(parent);
Thread t1 = new Thread(runner(child1));
Thread t2 = new Thread(runner(child2));
t1.start();
t2.start();
for (int prevPhase = 0, phase; ; prevPhase = phase) {
phase = child2.getPhase();
check(phase >= prevPhase);
if (System.nanoTime() - quittingTimeNanos > 0) {
System.err.printf("phase=%d%n", phase);
child1.forceTermination();
break;
}
}
t1.join();
t2.join();
}
Example 3
| Source File: PhaserTest.java From j2objc with Apache License 2.0 | 6 votes |
|
/**
* awaitAdvance returns when the phaser is externally terminated
*/
public void testAwaitAdvance6() {
final Phaser phaser = new Phaser(3);
final CountDownLatch pleaseForceTermination = new CountDownLatch(2);
final List<Thread> threads = new ArrayList<Thread>();
for (int i = 0; i < 2; i++) {
Runnable r = new CheckedRunnable() {
public void realRun() {
assertEquals(0, phaser.arrive());
pleaseForceTermination.countDown();
assertTrue(phaser.awaitAdvance(0) < 0);
assertTrue(phaser.isTerminated());
assertTrue(phaser.getPhase() < 0);
assertEquals(0, phaser.getPhase() + Integer.MIN_VALUE);
assertEquals(3, phaser.getRegisteredParties());
}};
threads.add(newStartedThread(r));
}
await(pleaseForceTermination);
phaser.forceTermination();
assertTrue(phaser.isTerminated());
assertEquals(0, phaser.getPhase() + Integer.MIN_VALUE);
for (Thread thread : threads)
awaitTermination(thread);
assertEquals(3, phaser.getRegisteredParties());
}
Example 4
| Source File: PhaserTest.java From openjdk-jdk9 with GNU General Public License v2.0 | 5 votes |
|
/**
* arrive() returns a negative number if the Phaser is terminated
*/
public void testArrive3() {
Phaser phaser = new Phaser(1);
phaser.forceTermination();
assertTerminated(phaser, 0, 1);
assertEquals(0, phaser.getPhase() + Integer.MIN_VALUE);
assertTrue(phaser.arrive() < 0);
assertTrue(phaser.register() < 0);
assertTrue(phaser.arriveAndDeregister() < 0);
assertTrue(phaser.awaitAdvance(1) < 0);
assertTrue(phaser.getPhase() < 0);
}
Example 5
| Source File: PhaserTest.java From j2objc with Apache License 2.0 | 5 votes |
|
/**
* arrive() returns a negative number if the Phaser is terminated
*/
public void testArrive3() {
Phaser phaser = new Phaser(1);
phaser.forceTermination();
assertTerminated(phaser, 0, 1);
assertEquals(0, phaser.getPhase() + Integer.MIN_VALUE);
assertTrue(phaser.arrive() < 0);
assertTrue(phaser.register() < 0);
assertTrue(phaser.arriveAndDeregister() < 0);
assertTrue(phaser.awaitAdvance(1) < 0);
assertTrue(phaser.getPhase() < 0);
}
Example 6
| Source File: ManagedExecutorTest.java From microprofile-context-propagation with Apache License 2.0 | 4 votes |
|
/**
* Verify that the ManagedExecutor implementation starts 2 async tasks/actions, and no more,
* when maxAsync is configured to 2.
*
* @throws ExecutionException indicates test failure
* @throws InterruptedException indicates test failure
* @throws TimeoutException indicates test failure
*/
@Test
public void maxAsync2() throws ExecutionException, InterruptedException, TimeoutException {
ManagedExecutor executor = ManagedExecutor.builder()
.maxAsync(2)
.propagated()
.cleared(ThreadContext.ALL_REMAINING)
.build();
Phaser barrier = new Phaser(2);
try {
// Use up both maxAsync slots on blocking operations and wait for them to start
Future<Integer> future1 = executor.submit(() -> barrier.awaitAdvance(barrier.arriveAndAwaitAdvance()));
CompletableFuture<Integer> future2 = executor.supplyAsync(() -> barrier.awaitAdvance(barrier.arriveAndAwaitAdvance()));
barrier.awaitAdvanceInterruptibly(0, MAX_WAIT_NS, TimeUnit.NANOSECONDS);
// This data structure holds the results of tasks which shouldn't be able to run yet
LinkedBlockingQueue<String> results = new LinkedBlockingQueue<String>();
// Submit additional tasks/actions for async execution.
// These should queue, but otherwise be unable to start yet due to maxAsync=2.
CompletableFuture<Void> future3 = executor.runAsync(() -> results.offer("Result3"));
CompletableFuture<Boolean> future4 = executor.supplyAsync(() -> results.offer("Result4"));
Future<Boolean> future5 = executor.submit(() -> results.offer("Result5"));
CompletableFuture<Boolean> future6 = executor.completedFuture("6")
.thenApplyAsync(s -> results.offer("Result" + s));
// Detect whether any of the above tasks/actions run within the next 5 seconds
Assert.assertNull(results.poll(5, TimeUnit.SECONDS),
"Should not be able start more than 2 async tasks when maxAsync is 2.");
// unblock and allow tasks to finish
barrier.arrive();
barrier.arrive(); // there are 2 parties in each phase
Assert.assertNotNull(results.poll(MAX_WAIT_NS, TimeUnit.SECONDS), "None of the queued tasks ran.");
Assert.assertNotNull(results.poll(MAX_WAIT_NS, TimeUnit.SECONDS), "Only 1 of the queued tasks ran.");
Assert.assertNotNull(results.poll(MAX_WAIT_NS, TimeUnit.SECONDS), "Only 2 of the queued tasks ran.");
Assert.assertNotNull(results.poll(MAX_WAIT_NS, TimeUnit.SECONDS), "Only 3 of the queued tasks ran.");
Assert.assertEquals(future1.get(), Integer.valueOf(2), "Unexpected result of first task.");
Assert.assertEquals(future2.get(), Integer.valueOf(2), "Unexpected result of second task.");
Assert.assertNull(future3.join(), "Unexpected result of third task.");
Assert.assertEquals(future4.join(), Boolean.TRUE, "Unexpected result of fourth task.");
Assert.assertEquals(future5.get(), Boolean.TRUE, "Unexpected result of fifth task.");
Assert.assertEquals(future6.get(), Boolean.TRUE, "Unexpected result of sixth task.");
}
finally {
barrier.forceTermination();
executor.shutdownNow();
}
}
Example 7
| Source File: MPConfigTest.java From microprofile-context-propagation with Apache License 2.0 | 4 votes |
|
/**
* Verify that the maxAsync and maxQueued attributes of a ManagedExecutor are defaulted
* according to the defaults specified by the application in MicroProfile Config.
*
* @throws ExecutionException indicates test failure
* @throws InterruptedException indicates test failure
* @throws TimeoutException indicates test failure
*/
@Test(dependsOnMethods = "beanInjected")
public void defaultMaxAsyncAndMaxQueuedForManagedExecutorViaMPConfig()
throws ExecutionException, InterruptedException, TimeoutException {
// Expected config is maxAsync=1, maxQueued=4; propagated=Buffer; cleared=Remaining
ManagedExecutor executor = ManagedExecutor.builder().propagated(Buffer.CONTEXT_NAME).build();
Phaser barrier = new Phaser(1);
try {
// Set non-default values
Buffer.set(new StringBuffer("defaultMaxAsyncAndMaxQueuedForManagedExecutorViaMPConfig-test-buffer"));
Label.set("defaultMaxAsyncAndMaxQueuedForManagedExecutorViaMPConfig-test-label");
// First, use up the single maxAsync slot with a blocking task and wait for it to start
executor.submit(() -> barrier.awaitAdvanceInterruptibly(barrier.arrive() + 1));
barrier.awaitAdvanceInterruptibly(0, MAX_WAIT_NS, TimeUnit.NANOSECONDS);
// Use up queue positions
CompletableFuture<String> cf1 = executor.supplyAsync(() -> Buffer.get().toString());
CompletableFuture<String> cf2 = executor.supplyAsync(() -> Label.get());
CompletableFuture<String> cf3 = executor.supplyAsync(() -> "III");
CompletableFuture<String> cf4 = executor.supplyAsync(() -> "IV");
// Fifth attempt to queue a task must be rejected
try {
CompletableFuture<String> cf5 = executor.supplyAsync(() -> "V");
// CompletableFuture interface does not provide detail on precisely how to report rejection,
// so tolerate both possibilities: exception raised or stage returned with exceptional completion.
Assert.assertTrue(cf5.isDone() && cf5.isCompletedExceptionally(),
"Exceeded maxQueued of 4. Future for 5th queued task/action is " + cf5);
}
catch (RejectedExecutionException x) {
// test passes
}
// unblock and allow tasks to finish
barrier.arrive();
Assert.assertEquals(cf1.get(MAX_WAIT_NS, TimeUnit.NANOSECONDS), "defaultMaxAsyncAndMaxQueuedForManagedExecutorViaMPConfig-test-buffer",
"First task: Context not propagated as configured on the builder.");
Assert.assertEquals(cf2.get(MAX_WAIT_NS, TimeUnit.NANOSECONDS), "",
"Second task: Context not cleared as defaulted by MicroProfile Config property.");
Assert.assertEquals(cf3.get(MAX_WAIT_NS, TimeUnit.NANOSECONDS), "III",
"Unexpected result of third task.");
Assert.assertEquals(cf4.get(MAX_WAIT_NS, TimeUnit.NANOSECONDS), "IV",
"Unexpected result of fourth task.");
}
finally {
barrier.forceTermination();
// Restore original values
Buffer.set(null);
Label.set(null);
}
}
Example 8
| Source File: MPConfigTest.java From microprofile-context-propagation with Apache License 2.0 | 4 votes |
|
/**
* Verify that MicroProfile config defaults the maxAsync attribute and honors the explicitly specified
* maxQueued attribute, when only the propagated and maxQueued attributes are specified by the application.
*
* @throws ExecutionException indicates test failure
* @throws InterruptedException indicates test failure
* @throws TimeoutException indicates test failure
*/
@Test(dependsOnMethods = "beanInjected")
public void explicitlySpecifyMaxQueued5()
throws ExecutionException, InterruptedException, TimeoutException {
// Expected config is maxAsync=1; maxQueued=5; propagated={}; cleared=Remaining
Assert.assertNotNull(producedExecutor, "Injection failure. Cannot run test.");
Phaser barrier = new Phaser(1);
try {
// First, use up the single maxAsync slot with a blocking task and wait for it to start
producedExecutor.submit(() -> barrier.awaitAdvanceInterruptibly(barrier.arrive() + 1));
barrier.awaitAdvanceInterruptibly(0, MAX_WAIT_NS, TimeUnit.NANOSECONDS);
// Use up queue positions
CompletableFuture<String> future1 = producedExecutor.supplyAsync(() -> "Q_1");
CompletableFuture<String> future2 = producedExecutor.supplyAsync(() -> "Q_2");
CompletableFuture<String> future3 = producedExecutor.supplyAsync(() -> "Q_3");
Future<String> future4 = producedExecutor.submit(() -> "Q_4");
Future<String> future5 = producedExecutor.submit(() -> "Q_5");
// Sixth attempt to queue a task must be rejected
try {
Future<String> future6 = producedExecutor.submit(() -> "Q_6");
Assert.fail("Exceeded maxQueued of 5. Future for 6th queued task/action is " + future6);
}
catch (RejectedExecutionException x) {
// test passes
}
// unblock and allow tasks to finish
barrier.arrive();
Assert.assertEquals(future1.get(MAX_WAIT_NS, TimeUnit.NANOSECONDS), "Q_1",
"Unexpected result of first task.");
Assert.assertEquals(future2.get(MAX_WAIT_NS, TimeUnit.NANOSECONDS), "Q_2",
"Unexpected result of second task.");
Assert.assertEquals(future3.get(MAX_WAIT_NS, TimeUnit.NANOSECONDS), "Q_3",
"Unexpected result of third task.");
Assert.assertEquals(future4.get(MAX_WAIT_NS, TimeUnit.NANOSECONDS), "Q_4",
"Unexpected result of fourth task.");
Assert.assertEquals(future5.get(MAX_WAIT_NS, TimeUnit.NANOSECONDS), "Q_5",
"Unexpected result of fifth task.");
}
finally {
barrier.forceTermination();
}
}
