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import java.util.concurrent.locks.AbstractQueuedLongSynchronizer; |
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import java.util.concurrent.locks.AbstractQueuedLongSynchronizer.ConditionObject; |
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import junit.framework.AssertionFailedError; |
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import junit.framework.Test; |
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import junit.framework.TestSuite; |
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@SuppressWarnings("WaitNotInLoop") // we implement spurious-wakeup freedom |
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public class AbstractQueuedLongSynchronizerTest extends JSR166TestCase { |
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public static void main(String[] args) { |
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main(suite(), args); |
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/** |
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* A simple mutex class, adapted from the class javadoc. Exclusive |
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* acquire tests exercise this as a sample user extension. |
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* |
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* Unlike the javadoc sample, we don't track owner thread via |
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* AbstractOwnableSynchronizer methods. |
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*/ |
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static class Mutex extends AbstractQueuedLongSynchronizer { |
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/** An eccentric value > 32 bits for locked synchronizer state. */ |
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static final long UNLOCKED = 0; |
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public boolean isHeldExclusively() { |
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/** Owner thread is untracked, so this is really just isLocked(). */ |
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@Override public boolean isHeldExclusively() { |
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long state = getState(); |
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assertTrue(state == UNLOCKED || state == LOCKED); |
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return state == LOCKED; |
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} |
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public boolean tryAcquire(long acquires) { |
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@Override protected boolean tryAcquire(long acquires) { |
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assertEquals(LOCKED, acquires); |
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return compareAndSetState(UNLOCKED, LOCKED); |
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} |
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public boolean tryRelease(long releases) { |
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@Override protected boolean tryRelease(long releases) { |
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if (getState() != LOCKED) throw new IllegalMonitorStateException(); |
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setState(UNLOCKED); |
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return true; |
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release(LOCKED); |
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} |
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|
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/** Faux-Implements Lock.newCondition(). */ |
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public ConditionObject newCondition() { |
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return new ConditionObject(); |
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} |
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} |
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/** |
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* A simple latch class, to test shared mode. |
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* A minimal latch class, to test shared mode. |
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*/ |
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static class BooleanLatch extends AbstractQueuedLongSynchronizer { |
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public boolean isSignalled() { return getState() != 0; } |
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long startTime = System.nanoTime(); |
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while (!sync.isQueued(t)) { |
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if (millisElapsedSince(startTime) > LONG_DELAY_MS) |
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throw new AssertionFailedError("timed out"); |
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throw new AssertionError("timed out"); |
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Thread.yield(); |
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} |
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assertTrue(t.isAlive()); |
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assertTrue(c.await(timeoutMillis, MILLISECONDS)); |
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break; |
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case awaitNanos: |
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long nanosTimeout = MILLISECONDS.toNanos(timeoutMillis); |
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long nanosRemaining = c.awaitNanos(nanosTimeout); |
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long timeoutNanos = MILLISECONDS.toNanos(timeoutMillis); |
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long nanosRemaining = c.awaitNanos(timeoutNanos); |
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assertTrue(nanosRemaining > 0); |
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break; |
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case awaitUntil: |
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break; |
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case awaitNanos: |
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startTime = System.nanoTime(); |
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long nanosTimeout = MILLISECONDS.toNanos(timeoutMillis); |
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long nanosRemaining = c.awaitNanos(nanosTimeout); |
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long timeoutNanos = MILLISECONDS.toNanos(timeoutMillis); |
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long nanosRemaining = c.awaitNanos(timeoutNanos); |
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assertTrue(nanosRemaining <= 0); |
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assertTrue(nanosRemaining > -MILLISECONDS.toNanos(LONG_DELAY_MS)); |
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assertTrue(millisElapsedSince(startTime) >= timeoutMillis); |
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waitForQueuedThread(l, t); |
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assertFalse(l.isSignalled()); |
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assertThreadStaysAlive(t); |
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assertThreadBlocks(t, Thread.State.TIMED_WAITING); |
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assertTrue(l.releaseShared(0)); |
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assertTrue(l.isSignalled()); |
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awaitTermination(t); |
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sync.release(); |
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} |
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/** |
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* Tests scenario for |
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* JDK-8191937: Lost interrupt in AbstractQueuedSynchronizer when tryAcquire methods throw |
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* ant -Djsr166.tckTestClass=AbstractQueuedLongSynchronizerTest -Djsr166.methodFilter=testInterruptedFailingAcquire -Djsr166.runsPerTest=10000 tck |
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*/ |
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public void testInterruptedFailingAcquire() throws Throwable { |
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class PleaseThrow extends RuntimeException {} |
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final PleaseThrow ex = new PleaseThrow(); |
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|
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// A synchronizer only offering a choice of failure modes |
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class Sync extends AbstractQueuedLongSynchronizer { |
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volatile boolean pleaseThrow; |
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@Override protected boolean tryAcquire(long ignored) { |
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if (pleaseThrow) throw ex; |
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return false; |
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} |
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@Override protected long tryAcquireShared(long ignored) { |
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if (pleaseThrow) throw ex; |
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return -1; |
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} |
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@Override protected boolean tryRelease(long ignored) { |
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return true; |
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} |
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@Override protected boolean tryReleaseShared(long ignored) { |
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return true; |
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} |
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} |
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|
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final Sync s = new Sync(); |
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final boolean acquireInterruptibly = randomBoolean(); |
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final Action[] uninterruptibleAcquireActions = { |
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() -> s.acquire(1), |
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() -> s.acquireShared(1), |
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}; |
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final long nanosTimeout = MILLISECONDS.toNanos(2 * LONG_DELAY_MS); |
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final Action[] interruptibleAcquireActions = { |
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() -> s.acquireInterruptibly(1), |
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() -> s.acquireSharedInterruptibly(1), |
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() -> s.tryAcquireNanos(1, nanosTimeout), |
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() -> s.tryAcquireSharedNanos(1, nanosTimeout), |
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}; |
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final Action[] releaseActions = { |
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() -> s.release(1), |
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() -> s.releaseShared(1), |
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}; |
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final Action acquireAction = acquireInterruptibly |
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? chooseRandomly(interruptibleAcquireActions) |
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: chooseRandomly(uninterruptibleAcquireActions); |
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final Action releaseAction |
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= chooseRandomly(releaseActions); |
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|
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// From os_posix.cpp: |
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// |
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// NOTE that since there is no "lock" around the interrupt and |
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// is_interrupted operations, there is the possibility that the |
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// interrupted flag (in osThread) will be "false" but that the |
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// low-level events will be in the signaled state. This is |
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// intentional. The effect of this is that Object.wait() and |
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// LockSupport.park() will appear to have a spurious wakeup, which |
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// is allowed and not harmful, and the possibility is so rare that |
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// it is not worth the added complexity to add yet another lock. |
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final Thread thread = newStartedThread(new CheckedRunnable() { |
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public void realRun() throws Throwable { |
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try { |
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acquireAction.run(); |
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shouldThrow(); |
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} catch (InterruptedException possible) { |
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assertTrue(acquireInterruptibly); |
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assertFalse(Thread.interrupted()); |
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} catch (PleaseThrow possible) { |
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awaitInterrupted(); |
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} |
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}}); |
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for (long startTime = 0L;; ) { |
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waitForThreadToEnterWaitState(thread); |
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if (s.getFirstQueuedThread() == thread |
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&& s.hasQueuedPredecessors() |
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&& s.hasQueuedThreads() |
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&& s.getQueueLength() == 1) |
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break; |
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if (startTime == 0L) |
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startTime = System.nanoTime(); |
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else if (millisElapsedSince(startTime) > LONG_DELAY_MS) |
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fail("timed out waiting for AQS state: " |
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+ "thread state=" + thread.getState() |
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+ ", queued threads=" + s.getQueuedThreads()); |
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Thread.yield(); |
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} |
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|
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s.pleaseThrow = true; |
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// release and interrupt, in random order |
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if (randomBoolean()) { |
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thread.interrupt(); |
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releaseAction.run(); |
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} else { |
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releaseAction.run(); |
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thread.interrupt(); |
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} |
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awaitTermination(thread); |
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assertNull(s.getFirstQueuedThread()); |
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assertFalse(s.hasQueuedPredecessors()); |
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assertFalse(s.hasQueuedThreads()); |
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assertEquals(0, s.getQueueLength()); |
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assertTrue(s.getQueuedThreads().isEmpty()); |
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} |
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|
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} |