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root/jsr166/jsr166/src/test/tck/AbstractQueuedSynchronizerTest.java

Comparing jsr166/src/test/tck/AbstractQueuedSynchronizerTest.java (file contents):
Revision 1.14 by dl, Sat Jan 10 01:41:59 2004 UTC vs.
Revision 1.20 by dl, Fri Feb 24 00:03:16 2006 UTC

#	Line 30 | Line 30 | public class AbstractQueuedSynchronizerT
30		* ReentrantReadWriteLock, and Semaphore
31		*/
32		static class Mutex extends AbstractQueuedSynchronizer {
33	<	public boolean isLocked() { return getState() == 1; }
33	>	public boolean isHeldExclusively() { return getState() == 1; }
34
35	<	public boolean tryAcquireExclusive(int acquires) {
35	>	public boolean tryAcquire(int acquires) {
36		assertTrue(acquires == 1);
37		return compareAndSetState(0, 1);
38		}
39
40	<	public boolean tryReleaseExclusive(int releases) {
40	>	public boolean tryRelease(int releases) {
41	>	if (getState() == 0) throw new IllegalMonitorStateException();
42		setState(0);
43		return true;
44		}
45
46	<	public void checkConditionAccess(Thread thread) {
46	<	if (getState() == 0) throw new IllegalMonitorStateException();
47	<	}
48	<
49	<	public ConditionObject newCondition() { return new ConditionObject(); }
50	<
51	<	public void lock() {
52	<	acquireExclusiveUninterruptibly(1);
53	<	}
46	>	public AbstractQueuedSynchronizer.ConditionObject newCondition() { return new AbstractQueuedSynchronizer.ConditionObject(); }
47
48		}
49
#	Line 72 | Line 65 | public class AbstractQueuedSynchronizerT
65		}
66
67		/**
68	<	* A runnable calling acquireExclusiveInterruptibly
68	>	* A runnable calling acquireInterruptibly
69		*/
70	<	class InterruptibleLockRunnable implements Runnable {
71	<	final Mutex lock;
72	<	InterruptibleLockRunnable(Mutex l) { lock = l; }
70	>	class InterruptibleSyncRunnable implements Runnable {
71	>	final Mutex sync;
72	>	InterruptibleSyncRunnable(Mutex l) { sync = l; }
73		public void run() {
74		try {
75	<	lock.acquireExclusiveInterruptibly(1);
75	>	sync.acquireInterruptibly(1);
76		} catch(InterruptedException success){}
77		}
78		}
79
80
81		/**
82	<	* A runnable calling acquireExclusiveInterruptibly that expects to be
82	>	* A runnable calling acquireInterruptibly that expects to be
83		* interrupted
84		*/
85	<	class InterruptedLockRunnable implements Runnable {
86	<	final Mutex lock;
87	<	InterruptedLockRunnable(Mutex l) { lock = l; }
85	>	class InterruptedSyncRunnable implements Runnable {
86	>	final Mutex sync;
87	>	InterruptedSyncRunnable(Mutex l) { sync = l; }
88		public void run() {
89		try {
90	<	lock.acquireExclusiveInterruptibly(1);
90	>	sync.acquireInterruptibly(1);
91		threadShouldThrow();
92		} catch(InterruptedException success){}
93		}
94		}
95	+
96	+	/**
97	+	* isHeldExclusively is false upon construction
98	+	*/
99	+	public void testIsHeldExclusively() {
100	+	Mutex rl = new Mutex();
101	+	assertFalse(rl.isHeldExclusively());
102	+	}
103
104		/**
105	<	* acquireExclusiveUninterruptiblying an releaseExclusiveed lock succeeds
105	>	* acquiring released sync succeeds
106		*/
107	<	public void testAcquireExclusiveUninterruptibly() {
107	>	public void testAcquire() {
108		Mutex rl = new Mutex();
109	<	rl.acquireExclusiveUninterruptibly(1);
110	<	assertTrue(rl.isLocked());
111	<	rl.releaseExclusive(1);
109	>	rl.acquire(1);
110	>	assertTrue(rl.isHeldExclusively());
111	>	rl.release(1);
112	>	assertFalse(rl.isHeldExclusively());
113		}
114
115		/**
116	<	* tryAcquireExclusive on an releaseExclusiveed lock succeeds
116	>	* tryAcquire on an released sync succeeds
117		*/
118	<	public void testTryAcquireExclusive() {
118	>	public void testTryAcquire() {
119		Mutex rl = new Mutex();
120	<	assertTrue(rl.tryAcquireExclusive(1));
121	<	assertTrue(rl.isLocked());
122	<	rl.releaseExclusive(1);
120	>	assertTrue(rl.tryAcquire(1));
121	>	assertTrue(rl.isHeldExclusively());
122	>	rl.release(1);
123		}
124
125		/**
126		* hasQueuedThreads reports whether there are waiting threads
127		*/
128		public void testhasQueuedThreads() {
129	<	final Mutex lock = new Mutex();
130	<	Thread t1 = new Thread(new InterruptedLockRunnable(lock));
131	<	Thread t2 = new Thread(new InterruptibleLockRunnable(lock));
129	>	final Mutex sync = new Mutex();
130	>	Thread t1 = new Thread(new InterruptedSyncRunnable(sync));
131	>	Thread t2 = new Thread(new InterruptibleSyncRunnable(sync));
132		try {
133	<	assertFalse(lock.hasQueuedThreads());
134	<	lock.acquireExclusiveUninterruptibly(1);
133	>	assertFalse(sync.hasQueuedThreads());
134	>	sync.acquire(1);
135		t1.start();
136		Thread.sleep(SHORT_DELAY_MS);
137	<	assertTrue(lock.hasQueuedThreads());
137	>	assertTrue(sync.hasQueuedThreads());
138		t2.start();
139		Thread.sleep(SHORT_DELAY_MS);
140	<	assertTrue(lock.hasQueuedThreads());
140	>	assertTrue(sync.hasQueuedThreads());
141		t1.interrupt();
142		Thread.sleep(SHORT_DELAY_MS);
143	<	assertTrue(lock.hasQueuedThreads());
144	<	lock.releaseExclusive(1);
143	>	assertTrue(sync.hasQueuedThreads());
144	>	sync.release(1);
145		Thread.sleep(SHORT_DELAY_MS);
146	<	assertFalse(lock.hasQueuedThreads());
146	>	assertFalse(sync.hasQueuedThreads());
147		t1.join();
148		t2.join();
149		} catch(Exception e){
#	Line 153 | Line 155 | public class AbstractQueuedSynchronizerT
155		* isQueued(null) throws NPE
156		*/
157		public void testIsQueuedNPE() {
158	<	final Mutex lock = new Mutex();
158	>	final Mutex sync = new Mutex();
159		try {
160	<	lock.isQueued(null);
160	>	sync.isQueued(null);
161		shouldThrow();
162		} catch (NullPointerException success) {
163		}
#	Line 165 | Line 167 | public class AbstractQueuedSynchronizerT
167		* isQueued reports whether a thread is queued.
168		*/
169		public void testIsQueued() {
170	<	final Mutex lock = new Mutex();
171	<	Thread t1 = new Thread(new InterruptedLockRunnable(lock));
172	<	Thread t2 = new Thread(new InterruptibleLockRunnable(lock));
173	<	try {
174	<	assertFalse(lock.isQueued(t1));
175	<	assertFalse(lock.isQueued(t2));
176	<	lock.acquireExclusiveUninterruptibly(1);
170	>	final Mutex sync = new Mutex();
171	>	Thread t1 = new Thread(new InterruptedSyncRunnable(sync));
172	>	Thread t2 = new Thread(new InterruptibleSyncRunnable(sync));
173	>	try {
174	>	assertFalse(sync.isQueued(t1));
175	>	assertFalse(sync.isQueued(t2));
176	>	sync.acquire(1);
177		t1.start();
178		Thread.sleep(SHORT_DELAY_MS);
179	<	assertTrue(lock.isQueued(t1));
179	>	assertTrue(sync.isQueued(t1));
180		t2.start();
181		Thread.sleep(SHORT_DELAY_MS);
182	<	assertTrue(lock.isQueued(t1));
183	<	assertTrue(lock.isQueued(t2));
182	>	assertTrue(sync.isQueued(t1));
183	>	assertTrue(sync.isQueued(t2));
184		t1.interrupt();
185		Thread.sleep(SHORT_DELAY_MS);
186	<	assertFalse(lock.isQueued(t1));
187	<	assertTrue(lock.isQueued(t2));
188	<	lock.releaseExclusive(1);
186	>	assertFalse(sync.isQueued(t1));
187	>	assertTrue(sync.isQueued(t2));
188	>	sync.release(1);
189		Thread.sleep(SHORT_DELAY_MS);
190	<	assertFalse(lock.isQueued(t1));
191	<	assertFalse(lock.isQueued(t2));
190	>	assertFalse(sync.isQueued(t1));
191	>	Thread.sleep(SHORT_DELAY_MS);
192	>	assertFalse(sync.isQueued(t2));
193		t1.join();
194		t2.join();
195		} catch(Exception e){
#	Line 195 | Line 198 | public class AbstractQueuedSynchronizerT
198		}
199
200		/**
201	<	* getFirstQueuedThread returns first waiting thread or null is none
201	>	* getFirstQueuedThread returns first waiting thread or null if none
202		*/
203		public void testGetFirstQueuedThread() {
204	<	final Mutex lock = new Mutex();
205	<	Thread t1 = new Thread(new InterruptedLockRunnable(lock));
206	<	Thread t2 = new Thread(new InterruptibleLockRunnable(lock));
204	>	final Mutex sync = new Mutex();
205	>	Thread t1 = new Thread(new InterruptedSyncRunnable(sync));
206	>	Thread t2 = new Thread(new InterruptibleSyncRunnable(sync));
207		try {
208	<	assertNull(lock.getFirstQueuedThread());
209	<	lock.acquireExclusiveUninterruptibly(1);
208	>	assertNull(sync.getFirstQueuedThread());
209	>	sync.acquire(1);
210		t1.start();
211		Thread.sleep(SHORT_DELAY_MS);
212	<	assertEquals(t1, lock.getFirstQueuedThread());
212	>	assertEquals(t1, sync.getFirstQueuedThread());
213		t2.start();
214		Thread.sleep(SHORT_DELAY_MS);
215	<	assertEquals(t1, lock.getFirstQueuedThread());
215	>	assertEquals(t1, sync.getFirstQueuedThread());
216		t1.interrupt();
217		Thread.sleep(SHORT_DELAY_MS);
215	–	assertEquals(t2, lock.getFirstQueuedThread());
216	–	lock.releaseExclusive(1);
218		Thread.sleep(SHORT_DELAY_MS);
219	<	assertNull(lock.getFirstQueuedThread());
219	>	assertEquals(t2, sync.getFirstQueuedThread());
220	>	sync.release(1);
221	>	Thread.sleep(SHORT_DELAY_MS);
222	>	assertNull(sync.getFirstQueuedThread());
223		t1.join();
224		t2.join();
225		} catch(Exception e){
#	Line 228 | Line 232 | public class AbstractQueuedSynchronizerT
232		* hasContended reports false if no thread has ever blocked, else true
233		*/
234		public void testHasContended() {
235	<	final Mutex lock = new Mutex();
236	<	Thread t1 = new Thread(new InterruptedLockRunnable(lock));
237	<	Thread t2 = new Thread(new InterruptibleLockRunnable(lock));
235	>	final Mutex sync = new Mutex();
236	>	Thread t1 = new Thread(new InterruptedSyncRunnable(sync));
237	>	Thread t2 = new Thread(new InterruptibleSyncRunnable(sync));
238	>	try {
239	>	assertFalse(sync.hasContended());
240	>	sync.acquire(1);
241	>	t1.start();
242	>	Thread.sleep(SHORT_DELAY_MS);
243	>	assertTrue(sync.hasContended());
244	>	t2.start();
245	>	Thread.sleep(SHORT_DELAY_MS);
246	>	assertTrue(sync.hasContended());
247	>	t1.interrupt();
248	>	Thread.sleep(SHORT_DELAY_MS);
249	>	assertTrue(sync.hasContended());
250	>	sync.release(1);
251	>	Thread.sleep(SHORT_DELAY_MS);
252	>	assertTrue(sync.hasContended());
253	>	t1.join();
254	>	t2.join();
255	>	} catch(Exception e){
256	>	unexpectedException();
257	>	}
258	>	}
259	>
260	>	/**
261	>	* getQueuedThreads includes waiting threads
262	>	*/
263	>	public void testGetQueuedThreads() {
264	>	final Mutex sync = new Mutex();
265	>	Thread t1 = new Thread(new InterruptedSyncRunnable(sync));
266	>	Thread t2 = new Thread(new InterruptibleSyncRunnable(sync));
267	>	try {
268	>	assertTrue(sync.getQueuedThreads().isEmpty());
269	>	sync.acquire(1);
270	>	assertTrue(sync.getQueuedThreads().isEmpty());
271	>	t1.start();
272	>	Thread.sleep(SHORT_DELAY_MS);
273	>	assertTrue(sync.getQueuedThreads().contains(t1));
274	>	t2.start();
275	>	Thread.sleep(SHORT_DELAY_MS);
276	>	assertTrue(sync.getQueuedThreads().contains(t1));
277	>	assertTrue(sync.getQueuedThreads().contains(t2));
278	>	t1.interrupt();
279	>	Thread.sleep(SHORT_DELAY_MS);
280	>	assertFalse(sync.getQueuedThreads().contains(t1));
281	>	assertTrue(sync.getQueuedThreads().contains(t2));
282	>	sync.release(1);
283	>	Thread.sleep(SHORT_DELAY_MS);
284	>	assertTrue(sync.getQueuedThreads().isEmpty());
285	>	t1.join();
286	>	t2.join();
287	>	} catch(Exception e){
288	>	unexpectedException();
289	>	}
290	>	}
291	>
292	>	/**
293	>	* getExclusiveQueuedThreads includes waiting threads
294	>	*/
295	>	public void testGetExclusiveQueuedThreads() {
296	>	final Mutex sync = new Mutex();
297	>	Thread t1 = new Thread(new InterruptedSyncRunnable(sync));
298	>	Thread t2 = new Thread(new InterruptibleSyncRunnable(sync));
299		try {
300	<	assertFalse(lock.hasContended());
301	<	lock.acquireExclusiveUninterruptibly(1);
300	>	assertTrue(sync.getExclusiveQueuedThreads().isEmpty());
301	>	sync.acquire(1);
302	>	assertTrue(sync.getExclusiveQueuedThreads().isEmpty());
303		t1.start();
304		Thread.sleep(SHORT_DELAY_MS);
305	<	assertTrue(lock.hasContended());
305	>	assertTrue(sync.getExclusiveQueuedThreads().contains(t1));
306		t2.start();
307		Thread.sleep(SHORT_DELAY_MS);
308	<	assertTrue(lock.hasContended());
308	>	assertTrue(sync.getExclusiveQueuedThreads().contains(t1));
309	>	assertTrue(sync.getExclusiveQueuedThreads().contains(t2));
310		t1.interrupt();
311		Thread.sleep(SHORT_DELAY_MS);
312	<	assertTrue(lock.hasContended());
313	<	lock.releaseExclusive(1);
312	>	assertFalse(sync.getExclusiveQueuedThreads().contains(t1));
313	>	assertTrue(sync.getExclusiveQueuedThreads().contains(t2));
314	>	sync.release(1);
315		Thread.sleep(SHORT_DELAY_MS);
316	<	assertTrue(lock.hasContended());
316	>	assertTrue(sync.getExclusiveQueuedThreads().isEmpty());
317		t1.join();
318		t2.join();
319		} catch(Exception e){
#	Line 254 | Line 322 | public class AbstractQueuedSynchronizerT
322		}
323
324		/**
325	<	* acquireExclusiveNanos is interruptible.
325	>	* getSharedQueuedThreads does not include exclusively waiting threads
326	>	*/
327	>	public void testGetSharedQueuedThreads() {
328	>	final Mutex sync = new Mutex();
329	>	Thread t1 = new Thread(new InterruptedSyncRunnable(sync));
330	>	Thread t2 = new Thread(new InterruptibleSyncRunnable(sync));
331	>	try {
332	>	assertTrue(sync.getSharedQueuedThreads().isEmpty());
333	>	sync.acquire(1);
334	>	assertTrue(sync.getSharedQueuedThreads().isEmpty());
335	>	t1.start();
336	>	Thread.sleep(SHORT_DELAY_MS);
337	>	assertTrue(sync.getSharedQueuedThreads().isEmpty());
338	>	t2.start();
339	>	Thread.sleep(SHORT_DELAY_MS);
340	>	assertTrue(sync.getSharedQueuedThreads().isEmpty());
341	>	t1.interrupt();
342	>	Thread.sleep(SHORT_DELAY_MS);
343	>	assertTrue(sync.getSharedQueuedThreads().isEmpty());
344	>	sync.release(1);
345	>	Thread.sleep(SHORT_DELAY_MS);
346	>	assertTrue(sync.getSharedQueuedThreads().isEmpty());
347	>	t1.join();
348	>	t2.join();
349	>	} catch(Exception e){
350	>	unexpectedException();
351	>	}
352	>	}
353	>
354	>	/**
355	>	* tryAcquireNanos is interruptible.
356		*/
357		public void testInterruptedException2() {
358	<	final Mutex lock = new Mutex();
359	<	lock.acquireExclusiveUninterruptibly(1);
358	>	final Mutex sync = new Mutex();
359	>	sync.acquire(1);
360		Thread t = new Thread(new Runnable() {
361		public void run() {
362		try {
363	<	lock.acquireExclusiveNanos(1, MEDIUM_DELAY_MS * 1000 * 1000);
363	>	sync.tryAcquireNanos(1, MEDIUM_DELAY_MS * 1000 * 1000);
364		threadShouldThrow();
365		} catch(InterruptedException success){}
366		}
#	Line 277 | Line 375 | public class AbstractQueuedSynchronizerT
375
376
377		/**
378	<	* TryAcquireExclusive on a locked lock fails
378	>	* TryAcquire on exclusively held sync fails
379		*/
380	<	public void testTryAcquireExclusiveWhenLocked() {
381	<	final Mutex lock = new Mutex();
382	<	lock.acquireExclusiveUninterruptibly(1);
380	>	public void testTryAcquireWhenSynced() {
381	>	final Mutex sync = new Mutex();
382	>	sync.acquire(1);
383		Thread t = new Thread(new Runnable() {
384		public void run() {
385	<	threadAssertFalse(lock.tryAcquireExclusive(1));
385	>	threadAssertFalse(sync.tryAcquire(1));
386		}
387		});
388		try {
389		t.start();
390		t.join();
391	<	lock.releaseExclusive(1);
391	>	sync.release(1);
392		} catch(Exception e){
393		unexpectedException();
394		}
395		}
396
397		/**
398	<	* acquireExclusiveNanos on a locked lock times out
398	>	* tryAcquireNanos on an exclusively held sync times out
399		*/
400	<	public void testAcquireExclusiveNanos_Timeout() {
401	<	final Mutex lock = new Mutex();
402	<	lock.acquireExclusiveUninterruptibly(1);
400	>	public void testAcquireNanos_Timeout() {
401	>	final Mutex sync = new Mutex();
402	>	sync.acquire(1);
403		Thread t = new Thread(new Runnable() {
404		public void run() {
405		try {
406	<	threadAssertFalse(lock.acquireExclusiveNanos(1, 1000 * 1000));
406	>	threadAssertFalse(sync.tryAcquireNanos(1, 1000 * 1000));
407		} catch (Exception ex) {
408		threadUnexpectedException();
409		}
#	Line 314 | Line 412 | public class AbstractQueuedSynchronizerT
412		try {
413		t.start();
414		t.join();
415	<	lock.releaseExclusive(1);
415	>	sync.release(1);
416		} catch(Exception e){
417		unexpectedException();
418		}
#	Line 325 | Line 423 | public class AbstractQueuedSynchronizerT
423		* getState is true when acquired and false when not
424		*/
425		public void testGetState() {
426	<	final Mutex lock = new Mutex();
427	<	lock.acquireExclusiveUninterruptibly(1);
428	<	assertTrue(lock.isLocked());
429	<	lock.releaseExclusive(1);
430	<	assertFalse(lock.isLocked());
426	>	final Mutex sync = new Mutex();
427	>	sync.acquire(1);
428	>	assertTrue(sync.isHeldExclusively());
429	>	sync.release(1);
430	>	assertFalse(sync.isHeldExclusively());
431		Thread t = new Thread(new Runnable() {
432		public void run() {
433	<	lock.acquireExclusiveUninterruptibly(1);
433	>	sync.acquire(1);
434		try {
435		Thread.sleep(SMALL_DELAY_MS);
436		}
437		catch(Exception e) {
438		threadUnexpectedException();
439		}
440	<	lock.releaseExclusive(1);
440	>	sync.release(1);
441		}
442		});
443		try {
444		t.start();
445		Thread.sleep(SHORT_DELAY_MS);
446	<	assertTrue(lock.isLocked());
446	>	assertTrue(sync.isHeldExclusively());
447		t.join();
448	<	assertFalse(lock.isLocked());
448	>	assertFalse(sync.isHeldExclusively());
449		} catch(Exception e){
450		unexpectedException();
451		}
#	Line 355 | Line 453 | public class AbstractQueuedSynchronizerT
453
454
455		/**
456	<	* acquireExclusiveInterruptibly is interruptible.
456	>	* acquireInterruptibly is interruptible.
457		*/
458		public void testAcquireInterruptibly1() {
459	<	final Mutex lock = new Mutex();
460	<	lock.acquireExclusiveUninterruptibly(1);
461	<	Thread t = new Thread(new InterruptedLockRunnable(lock));
459	>	final Mutex sync = new Mutex();
460	>	sync.acquire(1);
461	>	Thread t = new Thread(new InterruptedSyncRunnable(sync));
462		try {
463		t.start();
464	+	Thread.sleep(SHORT_DELAY_MS);
465		t.interrupt();
466	<	lock.releaseExclusive(1);
466	>	sync.release(1);
467		t.join();
468		} catch(Exception e){
469		unexpectedException();
#	Line 372 | Line 471 | public class AbstractQueuedSynchronizerT
471		}
472
473		/**
474	<	* acquireExclusiveInterruptibly succeeds when released, else is interruptible
474	>	* acquireInterruptibly succeeds when released, else is interruptible
475		*/
476		public void testAcquireInterruptibly2() {
477	<	final Mutex lock = new Mutex();
477	>	final Mutex sync = new Mutex();
478		try {
479	<	lock.acquireExclusiveInterruptibly(1);
479	>	sync.acquireInterruptibly(1);
480		} catch(Exception e) {
481		unexpectedException();
482		}
483	<	Thread t = new Thread(new InterruptedLockRunnable(lock));
483	>	Thread t = new Thread(new InterruptedSyncRunnable(sync));
484		try {
485		t.start();
486		t.interrupt();
487	<	assertTrue(lock.isLocked());
487	>	assertTrue(sync.isHeldExclusively());
488		t.join();
489		} catch(Exception e){
490		unexpectedException();
#	Line 393 | Line 492 | public class AbstractQueuedSynchronizerT
492		}
493
494		/**
495	<	* owns is true for a condition created by lock else false
495	>	* owns is true for a condition created by sync else false
496		*/
497		public void testOwns() {
498	<	final Mutex lock = new Mutex();
499	<	final AbstractQueuedSynchronizer.ConditionObject c = lock.newCondition();
500	<	final Mutex lock2 = new Mutex();
501	<	assertTrue(lock.owns(c));
502	<	assertFalse(lock2.owns(c));
498	>	final Mutex sync = new Mutex();
499	>	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
500	>	final Mutex sync2 = new Mutex();
501	>	assertTrue(sync.owns(c));
502	>	assertFalse(sync2.owns(c));
503		}
504
505		/**
506	<	* Calling await without holding lock throws IllegalMonitorStateException
506	>	* Calling await without holding sync throws IllegalMonitorStateException
507		*/
508		public void testAwait_IllegalMonitor() {
509	<	final Mutex lock = new Mutex();
510	<	final Condition c = lock.newCondition();
509	>	final Mutex sync = new Mutex();
510	>	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
511		try {
512		c.await();
513		shouldThrow();
#	Line 421 | Line 520 | public class AbstractQueuedSynchronizerT
520		}
521
522		/**
523	<	* Calling signal without holding lock throws IllegalMonitorStateException
523	>	* Calling signal without holding sync throws IllegalMonitorStateException
524		*/
525		public void testSignal_IllegalMonitor() {
526	<	final Mutex lock = new Mutex();
527	<	final Condition c = lock.newCondition();
526	>	final Mutex sync = new Mutex();
527	>	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
528		try {
529		c.signal();
530		shouldThrow();
#	Line 441 | Line 540 | public class AbstractQueuedSynchronizerT
540		* awaitNanos without a signal times out
541		*/
542		public void testAwaitNanos_Timeout() {
543	<	final Mutex lock = new Mutex();
544	<	final Condition c = lock.newCondition();
543	>	final Mutex sync = new Mutex();
544	>	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
545		try {
546	<	lock.acquireExclusiveUninterruptibly(1);
546	>	sync.acquire(1);
547		long t = c.awaitNanos(100);
548		assertTrue(t <= 0);
549	<	lock.releaseExclusive(1);
549	>	sync.release(1);
550		}
551		catch (Exception ex) {
552		unexpectedException();
#	Line 455 | Line 554 | public class AbstractQueuedSynchronizerT
554		}
555
556		/**
557	<	*  timed await without a signal times out
557	>	*  Timed await without a signal times out
558		*/
559		public void testAwait_Timeout() {
560	<	final Mutex lock = new Mutex();
561	<	final Condition c = lock.newCondition();
560	>	final Mutex sync = new Mutex();
561	>	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
562		try {
563	<	lock.acquireExclusiveUninterruptibly(1);
563	>	sync.acquire(1);
564		assertFalse(c.await(SHORT_DELAY_MS, TimeUnit.MILLISECONDS));
565	<	lock.releaseExclusive(1);
565	>	sync.release(1);
566		}
567		catch (Exception ex) {
568		unexpectedException();
#	Line 474 | Line 573 | public class AbstractQueuedSynchronizerT
573		* awaitUntil without a signal times out
574		*/
575		public void testAwaitUntil_Timeout() {
576	<	final Mutex lock = new Mutex();
577	<	final Condition c = lock.newCondition();
576	>	final Mutex sync = new Mutex();
577	>	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
578		try {
579	<	lock.acquireExclusiveUninterruptibly(1);
579	>	sync.acquire(1);
580		java.util.Date d = new java.util.Date();
581		assertFalse(c.awaitUntil(new java.util.Date(d.getTime() + 10)));
582	<	lock.releaseExclusive(1);
582	>	sync.release(1);
583		}
584		catch (Exception ex) {
585		unexpectedException();
#	Line 491 | Line 590 | public class AbstractQueuedSynchronizerT
590		* await returns when signalled
591		*/
592		public void testAwait() {
593	<	final Mutex lock = new Mutex();
594	<	final Condition c = lock.newCondition();
593	>	final Mutex sync = new Mutex();
594	>	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
595		Thread t = new Thread(new Runnable() {
596		public void run() {
597		try {
598	<	lock.acquireExclusiveUninterruptibly(1);
598	>	sync.acquire(1);
599	>	c.await();
600	>	sync.release(1);
601	>	}
602	>	catch(InterruptedException e) {
603	>	threadUnexpectedException();
604	>	}
605	>	}
606	>	});
607	>
608	>	try {
609	>	t.start();
610	>	Thread.sleep(SHORT_DELAY_MS);
611	>	sync.acquire(1);
612	>	c.signal();
613	>	sync.release(1);
614	>	t.join(SHORT_DELAY_MS);
615	>	assertFalse(t.isAlive());
616	>	}
617	>	catch (Exception ex) {
618	>	unexpectedException();
619	>	}
620	>	}
621	>
622	>
623	>
624	>	/**
625	>	* hasWaiters throws NPE if null
626	>	*/
627	>	public void testHasWaitersNPE() {
628	>	final Mutex sync = new Mutex();
629	>	try {
630	>	sync.hasWaiters(null);
631	>	shouldThrow();
632	>	} catch (NullPointerException success) {
633	>	} catch (Exception ex) {
634	>	unexpectedException();
635	>	}
636	>	}
637	>
638	>	/**
639	>	* getWaitQueueLength throws NPE if null
640	>	*/
641	>	public void testGetWaitQueueLengthNPE() {
642	>	final Mutex sync = new Mutex();
643	>	try {
644	>	sync.getWaitQueueLength(null);
645	>	shouldThrow();
646	>	} catch (NullPointerException success) {
647	>	} catch (Exception ex) {
648	>	unexpectedException();
649	>	}
650	>	}
651	>
652	>
653	>	/**
654	>	* getWaitingThreads throws NPE if null
655	>	*/
656	>	public void testGetWaitingThreadsNPE() {
657	>	final Mutex sync = new Mutex();
658	>	try {
659	>	sync.getWaitingThreads(null);
660	>	shouldThrow();
661	>	} catch (NullPointerException success) {
662	>	} catch (Exception ex) {
663	>	unexpectedException();
664	>	}
665	>	}
666	>
667	>
668	>	/**
669	>	* hasWaiters throws IAE if not owned
670	>	*/
671	>	public void testHasWaitersIAE() {
672	>	final Mutex sync = new Mutex();
673	>	final AbstractQueuedSynchronizer.ConditionObject c = (sync.newCondition());
674	>	final Mutex sync2 = new Mutex();
675	>	try {
676	>	sync2.hasWaiters(c);
677	>	shouldThrow();
678	>	} catch (IllegalArgumentException success) {
679	>	} catch (Exception ex) {
680	>	unexpectedException();
681	>	}
682	>	}
683	>
684	>	/**
685	>	* hasWaiters throws IMSE if not synced
686	>	*/
687	>	public void testHasWaitersIMSE() {
688	>	final Mutex sync = new Mutex();
689	>	final AbstractQueuedSynchronizer.ConditionObject c = (sync.newCondition());
690	>	try {
691	>	sync.hasWaiters(c);
692	>	shouldThrow();
693	>	} catch (IllegalMonitorStateException success) {
694	>	} catch (Exception ex) {
695	>	unexpectedException();
696	>	}
697	>	}
698	>
699	>
700	>	/**
701	>	* getWaitQueueLength throws IAE if not owned
702	>	*/
703	>	public void testGetWaitQueueLengthIAE() {
704	>	final Mutex sync = new Mutex();
705	>	final AbstractQueuedSynchronizer.ConditionObject c = (sync.newCondition());
706	>	final Mutex sync2 = new Mutex();
707	>	try {
708	>	sync2.getWaitQueueLength(c);
709	>	shouldThrow();
710	>	} catch (IllegalArgumentException success) {
711	>	} catch (Exception ex) {
712	>	unexpectedException();
713	>	}
714	>	}
715	>
716	>	/**
717	>	* getWaitQueueLength throws IMSE if not synced
718	>	*/
719	>	public void testGetWaitQueueLengthIMSE() {
720	>	final Mutex sync = new Mutex();
721	>	final AbstractQueuedSynchronizer.ConditionObject c = (sync.newCondition());
722	>	try {
723	>	sync.getWaitQueueLength(c);
724	>	shouldThrow();
725	>	} catch (IllegalMonitorStateException success) {
726	>	} catch (Exception ex) {
727	>	unexpectedException();
728	>	}
729	>	}
730	>
731	>
732	>	/**
733	>	* getWaitingThreads throws IAE if not owned
734	>	*/
735	>	public void testGetWaitingThreadsIAE() {
736	>	final Mutex sync = new Mutex();
737	>	final AbstractQueuedSynchronizer.ConditionObject c = (sync.newCondition());
738	>	final Mutex sync2 = new Mutex();
739	>	try {
740	>	sync2.getWaitingThreads(c);
741	>	shouldThrow();
742	>	} catch (IllegalArgumentException success) {
743	>	} catch (Exception ex) {
744	>	unexpectedException();
745	>	}
746	>	}
747	>
748	>	/**
749	>	* getWaitingThreads throws IMSE if not synced
750	>	*/
751	>	public void testGetWaitingThreadsIMSE() {
752	>	final Mutex sync = new Mutex();
753	>	final AbstractQueuedSynchronizer.ConditionObject c = (sync.newCondition());
754	>	try {
755	>	sync.getWaitingThreads(c);
756	>	shouldThrow();
757	>	} catch (IllegalMonitorStateException success) {
758	>	} catch (Exception ex) {
759	>	unexpectedException();
760	>	}
761	>	}
762	>
763	>
764	>
765	>	/**
766	>	* hasWaiters returns true when a thread is waiting, else false
767	>	*/
768	>	public void testHasWaiters() {
769	>	final Mutex sync = new Mutex();
770	>	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
771	>	Thread t = new Thread(new Runnable() {
772	>	public void run() {
773	>	try {
774	>	sync.acquire(1);
775	>	threadAssertFalse(sync.hasWaiters(c));
776	>	threadAssertEquals(0, sync.getWaitQueueLength(c));
777	>	c.await();
778	>	sync.release(1);
779	>	}
780	>	catch(InterruptedException e) {
781	>	threadUnexpectedException();
782	>	}
783	>	}
784	>	});
785	>
786	>	try {
787	>	t.start();
788	>	Thread.sleep(SHORT_DELAY_MS);
789	>	sync.acquire(1);
790	>	assertTrue(sync.hasWaiters(c));
791	>	assertEquals(1, sync.getWaitQueueLength(c));
792	>	c.signal();
793	>	sync.release(1);
794	>	Thread.sleep(SHORT_DELAY_MS);
795	>	sync.acquire(1);
796	>	assertFalse(sync.hasWaiters(c));
797	>	assertEquals(0, sync.getWaitQueueLength(c));
798	>	sync.release(1);
799	>	t.join(SHORT_DELAY_MS);
800	>	assertFalse(t.isAlive());
801	>	}
802	>	catch (Exception ex) {
803	>	unexpectedException();
804	>	}
805	>	}
806	>
807	>	/**
808	>	* getWaitQueueLength returns number of waiting threads
809	>	*/
810	>	public void testGetWaitQueueLength() {
811	>	final Mutex sync = new Mutex();
812	>	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
813	>	Thread t1 = new Thread(new Runnable() {
814	>	public void run() {
815	>	try {
816	>	sync.acquire(1);
817	>	threadAssertFalse(sync.hasWaiters(c));
818	>	threadAssertEquals(0, sync.getWaitQueueLength(c));
819	>	c.await();
820	>	sync.release(1);
821	>	}
822	>	catch(InterruptedException e) {
823	>	threadUnexpectedException();
824	>	}
825	>	}
826	>	});
827	>
828	>	Thread t2 = new Thread(new Runnable() {
829	>	public void run() {
830	>	try {
831	>	sync.acquire(1);
832	>	threadAssertTrue(sync.hasWaiters(c));
833	>	threadAssertEquals(1, sync.getWaitQueueLength(c));
834	>	c.await();
835	>	sync.release(1);
836	>	}
837	>	catch(InterruptedException e) {
838	>	threadUnexpectedException();
839	>	}
840	>	}
841	>	});
842	>
843	>	try {
844	>	t1.start();
845	>	Thread.sleep(SHORT_DELAY_MS);
846	>	t2.start();
847	>	Thread.sleep(SHORT_DELAY_MS);
848	>	sync.acquire(1);
849	>	assertTrue(sync.hasWaiters(c));
850	>	assertEquals(2, sync.getWaitQueueLength(c));
851	>	c.signalAll();
852	>	sync.release(1);
853	>	Thread.sleep(SHORT_DELAY_MS);
854	>	sync.acquire(1);
855	>	assertFalse(sync.hasWaiters(c));
856	>	assertEquals(0, sync.getWaitQueueLength(c));
857	>	sync.release(1);
858	>	t1.join(SHORT_DELAY_MS);
859	>	t2.join(SHORT_DELAY_MS);
860	>	assertFalse(t1.isAlive());
861	>	assertFalse(t2.isAlive());
862	>	}
863	>	catch (Exception ex) {
864	>	unexpectedException();
865	>	}
866	>	}
867	>
868	>	/**
869	>	* getWaitingThreads returns only and all waiting threads
870	>	*/
871	>	public void testGetWaitingThreads() {
872	>	final Mutex sync = new Mutex();
873	>	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
874	>	Thread t1 = new Thread(new Runnable() {
875	>	public void run() {
876	>	try {
877	>	sync.acquire(1);
878	>	threadAssertTrue(sync.getWaitingThreads(c).isEmpty());
879		c.await();
880	<	lock.releaseExclusive(1);
880	>	sync.release(1);
881		}
882		catch(InterruptedException e) {
883		threadUnexpectedException();
#	Line 506 | Line 885 | public class AbstractQueuedSynchronizerT
885		}
886		});
887
888	+	Thread t2 = new Thread(new Runnable() {
889	+	public void run() {
890	+	try {
891	+	sync.acquire(1);
892	+	threadAssertFalse(sync.getWaitingThreads(c).isEmpty());
893	+	c.await();
894	+	sync.release(1);
895	+	}
896	+	catch(InterruptedException e) {
897	+	threadUnexpectedException();
898	+	}
899	+	}
900	+	});
901	+
902	+	try {
903	+	sync.acquire(1);
904	+	assertTrue(sync.getWaitingThreads(c).isEmpty());
905	+	sync.release(1);
906	+	t1.start();
907	+	Thread.sleep(SHORT_DELAY_MS);
908	+	t2.start();
909	+	Thread.sleep(SHORT_DELAY_MS);
910	+	sync.acquire(1);
911	+	assertTrue(sync.hasWaiters(c));
912	+	assertTrue(sync.getWaitingThreads(c).contains(t1));
913	+	assertTrue(sync.getWaitingThreads(c).contains(t2));
914	+	c.signalAll();
915	+	sync.release(1);
916	+	Thread.sleep(SHORT_DELAY_MS);
917	+	sync.acquire(1);
918	+	assertFalse(sync.hasWaiters(c));
919	+	assertTrue(sync.getWaitingThreads(c).isEmpty());
920	+	sync.release(1);
921	+	t1.join(SHORT_DELAY_MS);
922	+	t2.join(SHORT_DELAY_MS);
923	+	assertFalse(t1.isAlive());
924	+	assertFalse(t2.isAlive());
925	+	}
926	+	catch (Exception ex) {
927	+	unexpectedException();
928	+	}
929	+	}
930	+
931	+
932	+
933	+	/**
934	+	* awaitUninterruptibly doesn't abort on interrupt
935	+	*/
936	+	public void testAwaitUninterruptibly() {
937	+	final Mutex sync = new Mutex();
938	+	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
939	+	Thread t = new Thread(new Runnable() {
940	+	public void run() {
941	+	sync.acquire(1);
942	+	c.awaitUninterruptibly();
943	+	sync.release(1);
944	+	}
945	+	});
946	+
947		try {
948		t.start();
949		Thread.sleep(SHORT_DELAY_MS);
950	<	lock.acquireExclusiveUninterruptibly(1);
950	>	t.interrupt();
951	>	sync.acquire(1);
952		c.signal();
953	<	lock.releaseExclusive(1);
953	>	sync.release(1);
954		t.join(SHORT_DELAY_MS);
955		assertFalse(t.isAlive());
956		}
#	Line 521 | Line 960 | public class AbstractQueuedSynchronizerT
960		}
961
962		/**
963	+	* await is interruptible
964	+	*/
965	+	public void testAwait_Interrupt() {
966	+	final Mutex sync = new Mutex();
967	+	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
968	+	Thread t = new Thread(new Runnable() {
969	+	public void run() {
970	+	try {
971	+	sync.acquire(1);
972	+	c.await();
973	+	sync.release(1);
974	+	threadShouldThrow();
975	+	}
976	+	catch(InterruptedException success) {
977	+	}
978	+	}
979	+	});
980	+
981	+	try {
982	+	t.start();
983	+	Thread.sleep(SHORT_DELAY_MS);
984	+	t.interrupt();
985	+	t.join(SHORT_DELAY_MS);
986	+	assertFalse(t.isAlive());
987	+	}
988	+	catch (Exception ex) {
989	+	unexpectedException();
990	+	}
991	+	}
992	+
993	+	/**
994	+	* awaitNanos is interruptible
995	+	*/
996	+	public void testAwaitNanos_Interrupt() {
997	+	final Mutex sync = new Mutex();
998	+	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
999	+	Thread t = new Thread(new Runnable() {
1000	+	public void run() {
1001	+	try {
1002	+	sync.acquire(1);
1003	+	c.awaitNanos(1000 * 1000 * 1000); // 1 sec
1004	+	sync.release(1);
1005	+	threadShouldThrow();
1006	+	}
1007	+	catch(InterruptedException success) {
1008	+	}
1009	+	}
1010	+	});
1011	+
1012	+	try {
1013	+	t.start();
1014	+	Thread.sleep(SHORT_DELAY_MS);
1015	+	t.interrupt();
1016	+	t.join(SHORT_DELAY_MS);
1017	+	assertFalse(t.isAlive());
1018	+	}
1019	+	catch (Exception ex) {
1020	+	unexpectedException();
1021	+	}
1022	+	}
1023	+
1024	+	/**
1025	+	* awaitUntil is interruptible
1026	+	*/
1027	+	public void testAwaitUntil_Interrupt() {
1028	+	final Mutex sync = new Mutex();
1029	+	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
1030	+	Thread t = new Thread(new Runnable() {
1031	+	public void run() {
1032	+	try {
1033	+	sync.acquire(1);
1034	+	java.util.Date d = new java.util.Date();
1035	+	c.awaitUntil(new java.util.Date(d.getTime() + 10000));
1036	+	sync.release(1);
1037	+	threadShouldThrow();
1038	+	}
1039	+	catch(InterruptedException success) {
1040	+	}
1041	+	}
1042	+	});
1043	+
1044	+	try {
1045	+	t.start();
1046	+	Thread.sleep(SHORT_DELAY_MS);
1047	+	t.interrupt();
1048	+	t.join(SHORT_DELAY_MS);
1049	+	assertFalse(t.isAlive());
1050	+	}
1051	+	catch (Exception ex) {
1052	+	unexpectedException();
1053	+	}
1054	+	}
1055	+
1056	+	/**
1057	+	* signalAll wakes up all threads
1058	+	*/
1059	+	public void testSignalAll() {
1060	+	final Mutex sync = new Mutex();
1061	+	final AbstractQueuedSynchronizer.ConditionObject c = sync.newCondition();
1062	+	Thread t1 = new Thread(new Runnable() {
1063	+	public void run() {
1064	+	try {
1065	+	sync.acquire(1);
1066	+	c.await();
1067	+	sync.release(1);
1068	+	}
1069	+	catch(InterruptedException e) {
1070	+	threadUnexpectedException();
1071	+	}
1072	+	}
1073	+	});
1074	+
1075	+	Thread t2 = new Thread(new Runnable() {
1076	+	public void run() {
1077	+	try {
1078	+	sync.acquire(1);
1079	+	c.await();
1080	+	sync.release(1);
1081	+	}
1082	+	catch(InterruptedException e) {
1083	+	threadUnexpectedException();
1084	+	}
1085	+	}
1086	+	});
1087	+
1088	+	try {
1089	+	t1.start();
1090	+	t2.start();
1091	+	Thread.sleep(SHORT_DELAY_MS);
1092	+	sync.acquire(1);
1093	+	c.signalAll();
1094	+	sync.release(1);
1095	+	t1.join(SHORT_DELAY_MS);
1096	+	t2.join(SHORT_DELAY_MS);
1097	+	assertFalse(t1.isAlive());
1098	+	assertFalse(t2.isAlive());
1099	+	}
1100	+	catch (Exception ex) {
1101	+	unexpectedException();
1102	+	}
1103	+	}
1104	+
1105	+
1106	+	/**
1107		* toString indicates current state
1108		*/
1109		public void testToString() {
1110	<	Mutex lock = new Mutex();
1111	<	String us = lock.toString();
1110	>	Mutex sync = new Mutex();
1111	>	String us = sync.toString();
1112		assertTrue(us.indexOf("State = 0") >= 0);
1113	<	lock.acquireExclusiveUninterruptibly(1);
1114	<	String ls = lock.toString();
1113	>	sync.acquire(1);
1114	>	String ls = sync.toString();
1115		assertTrue(ls.indexOf("State = 1") >= 0);
1116		}
1117
#	Line 537 | Line 1120 | public class AbstractQueuedSynchronizerT
1120		*/
1121		public void testSerialization() {
1122		Mutex l = new Mutex();
1123	<	l.acquireExclusiveUninterruptibly(1);
1124	<	assertTrue(l.isLocked());
1123	>	l.acquire(1);
1124	>	assertTrue(l.isHeldExclusively());
1125
1126		try {
1127		ByteArrayOutputStream bout = new ByteArrayOutputStream(10000);
#	Line 549 | Line 1132 | public class AbstractQueuedSynchronizerT
1132		ByteArrayInputStream bin = new ByteArrayInputStream(bout.toByteArray());
1133		ObjectInputStream in = new ObjectInputStream(new BufferedInputStream(bin));
1134		Mutex r = (Mutex) in.readObject();
1135	<	assertTrue(r.isLocked());
1135	>	assertTrue(r.isHeldExclusively());
1136		} catch(Exception e){
1137		e.printStackTrace();
1138		unexpectedException();
#	Line 558 | Line 1141 | public class AbstractQueuedSynchronizerT
1141
1142
1143		/**
1144	<	* Latch isSignalled initially returns false, then true after release
1144	>	* tryReleaseShared setting state changes getState
1145		*/
1146	<	public void testLatchIsSignalled() {
1146	>	public void testGetStateWithReleaseShared() {
1147		final BooleanLatch l = new BooleanLatch();
1148		assertFalse(l.isSignalled());
1149		l.releaseShared(0);
#	Line 568 | Line 1151 | public class AbstractQueuedSynchronizerT
1151		}
1152
1153		/**
1154	<	* release and has no effect when already signalled
1154	>	* releaseShared has no effect when already signalled
1155		*/
1156		public void testReleaseShared() {
1157		final BooleanLatch l = new BooleanLatch();
#	Line 619 | Line 1202 | public class AbstractQueuedSynchronizerT
1202		public void run() {
1203		try {
1204		threadAssertFalse(l.isSignalled());
1205	<	threadAssertTrue(l.acquireSharedNanos(0, MEDIUM_DELAY_MS* 1000 * 1000));
1205	>	threadAssertTrue(l.tryAcquireSharedNanos(0, MEDIUM_DELAY_MS* 1000 * 1000));
1206		threadAssertTrue(l.isSignalled());
1207
1208		} catch(InterruptedException e){
#	Line 672 | Line 1255 | public class AbstractQueuedSynchronizerT
1255		public void run() {
1256		try {
1257		threadAssertFalse(l.isSignalled());
1258	<	l.acquireSharedNanos(0, SMALL_DELAY_MS* 1000 * 1000);
1258	>	l.tryAcquireSharedNanos(0, SMALL_DELAY_MS* 1000 * 1000);
1259		threadShouldThrow();
1260		} catch(InterruptedException success){}
1261		}
#	Line 697 | Line 1280 | public class AbstractQueuedSynchronizerT
1280		public void run() {
1281		try {
1282		threadAssertFalse(l.isSignalled());
1283	<	threadAssertFalse(l.acquireSharedNanos(0, SMALL_DELAY_MS* 1000 * 1000));
1283	>	threadAssertFalse(l.tryAcquireSharedNanos(0, SMALL_DELAY_MS* 1000 * 1000));
1284		} catch(InterruptedException ie){
1285		threadUnexpectedException();
1286		}

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