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

Comparing jsr166/src/test/tck/StampedLockTest.java (file contents):
Revision 1.3 by jsr166, Sat Feb 9 19:33:08 2013 UTC vs.
Revision 1.27 by jsr166, Wed Aug 10 17:05:13 2016 UTC

#	Line 3 | Line 3
3		* with assistance from members of JCP JSR-166 Expert Group and
4		* released to the public domain, as explained at
5		* http://creativecommons.org/publicdomain/zero/1.0/
6	–	* Other contributors include Andrew Wright, Jeffrey Hayes,
7	–	* Pat Fisher, Mike Judd.
6		*/
7
8	<	import junit.framework.*;
9	<	import java.util.concurrent.atomic.AtomicBoolean;
10	<	import java.util.concurrent.locks.Condition;
8	>	import static java.util.concurrent.TimeUnit.DAYS;
9	>	import static java.util.concurrent.TimeUnit.MILLISECONDS;
10	>	import static java.util.concurrent.TimeUnit.SECONDS;
11	>
12	>	import java.util.ArrayList;
13	>	import java.util.List;
14	>	import java.util.concurrent.CountDownLatch;
15	>	import java.util.concurrent.Future;
16	>	import java.util.concurrent.TimeUnit;
17		import java.util.concurrent.locks.Lock;
14	–	import java.util.concurrent.locks.ReadWriteLock;
18		import java.util.concurrent.locks.StampedLock;
19	<	import java.util.concurrent.CountDownLatch;
20	<	import static java.util.concurrent.TimeUnit.MILLISECONDS;
21	<	import java.util.*;
19	>	import java.util.function.BiConsumer;
20	>	import java.util.function.Consumer;
21	>	import java.util.function.Function;
22	>
23	>	import junit.framework.Test;
24	>	import junit.framework.TestSuite;
25
26		public class StampedLockTest extends JSR166TestCase {
27		public static void main(String[] args) {
28	<	junit.textui.TestRunner.run(suite());
28	>	main(suite(), args);
29		}
30		public static Test suite() {
31		return new TestSuite(StampedLockTest.class);
32		}
33
34	<	// XXXX Just a skeleton implementation for now.
35	<	public void testTODO() {
36	<	fail("Please add some real tests!");
37	<	}
38	<
39	<	public void testConstructor() { new StampedLock(); }
40	<
41	<	//     /**
42	<	//      * A runnable calling lockInterruptibly
43	<	//      */
44	<	//     class InterruptibleLockRunnable extends CheckedRunnable {
45	<	//         final ReentrantReadWriteLock lock;
46	<	//         InterruptibleLockRunnable(ReentrantReadWriteLock l) { lock = l; }
47	<	//         public void realRun() throws InterruptedException {
48	<	//             lock.writeLock().lockInterruptibly();
49	<	//         }
50	<	//     }
51	<
52	<	//     /**
53	<	//      * A runnable calling lockInterruptibly that expects to be
54	<	//      * interrupted
55	<	//      */
56	<	//     class InterruptedLockRunnable extends CheckedInterruptedRunnable {
57	<	//         final ReentrantReadWriteLock lock;
58	<	//         InterruptedLockRunnable(ReentrantReadWriteLock l) { lock = l; }
59	<	//         public void realRun() throws InterruptedException {
60	<	//             lock.writeLock().lockInterruptibly();
61	<	//         }
62	<	//     }
63	<
64	<	//     /**
65	<	//      * Subclass to expose protected methods
66	<	//      */
67	<	//     static class PublicReentrantReadWriteLock extends ReentrantReadWriteLock {
68	<	//         PublicReentrantReadWriteLock() { super(); }
69	<	//         PublicReentrantReadWriteLock(boolean fair) { super(fair); }
70	<	//         public Thread getOwner() {
71	<	//             return super.getOwner();
72	<	//         }
73	<	//         public Collection<Thread> getQueuedThreads() {
74	<	//             return super.getQueuedThreads();
75	<	//         }
76	<	//         public Collection<Thread> getWaitingThreads(Condition c) {
77	<	//             return super.getWaitingThreads(c);
78	<	//         }
79	<	//     }
80	<
81	<	//     /**
82	<	//      * Releases write lock, checking that it had a hold count of 1.
83	<	//      */
84	<	//     void releaseWriteLock(PublicReentrantReadWriteLock lock) {
85	<	//         ReentrantReadWriteLock.WriteLock writeLock = lock.writeLock();
86	<	//         assertWriteLockedByMoi(lock);
87	<	//         assertEquals(1, lock.getWriteHoldCount());
88	<	//         writeLock.unlock();
89	<	//         assertNotWriteLocked(lock);
90	<	//     }
91	<
92	<	//     /**
93	<	//      * Spin-waits until lock.hasQueuedThread(t) becomes true.
94	<	//      */
95	<	//     void waitForQueuedThread(PublicReentrantReadWriteLock lock, Thread t) {
96	<	//         long startTime = System.nanoTime();
97	<	//         while (!lock.hasQueuedThread(t)) {
98	<	//             if (millisElapsedSince(startTime) > LONG_DELAY_MS)
99	<	//                 throw new AssertionFailedError("timed out");
100	<	//             Thread.yield();
101	<	//         }
102	<	//         assertTrue(t.isAlive());
103	<	//         assertTrue(lock.getOwner() != t);
104	<	//     }
105	<
106	<	//     /**
107	<	//      * Checks that lock is not write-locked.
108	<	//      */
109	<	//     void assertNotWriteLocked(PublicReentrantReadWriteLock lock) {
110	<	//         assertFalse(lock.isWriteLocked());
111	<	//         assertFalse(lock.isWriteLockedByCurrentThread());
112	<	//         assertFalse(lock.writeLock().isHeldByCurrentThread());
113	<	//         assertEquals(0, lock.getWriteHoldCount());
114	<	//         assertEquals(0, lock.writeLock().getHoldCount());
115	<	//         assertNull(lock.getOwner());
116	<	//     }
117	<
118	<	//     /**
119	<	//      * Checks that lock is write-locked by the given thread.
120	<	//      */
121	<	//     void assertWriteLockedBy(PublicReentrantReadWriteLock lock, Thread t) {
122	<	//         assertTrue(lock.isWriteLocked());
123	<	//         assertSame(t, lock.getOwner());
124	<	//         assertEquals(t == Thread.currentThread(),
125	<	//                      lock.isWriteLockedByCurrentThread());
126	<	//         assertEquals(t == Thread.currentThread(),
127	<	//                      lock.writeLock().isHeldByCurrentThread());
128	<	//         assertEquals(t == Thread.currentThread(),
129	<	//                      lock.getWriteHoldCount() > 0);
130	<	//         assertEquals(t == Thread.currentThread(),
131	<	//                      lock.writeLock().getHoldCount() > 0);
132	<	//         assertEquals(0, lock.getReadLockCount());
133	<	//     }
134	<
135	<	//     /**
136	<	//      * Checks that lock is write-locked by the current thread.
137	<	//      */
138	<	//     void assertWriteLockedByMoi(PublicReentrantReadWriteLock lock) {
139	<	//         assertWriteLockedBy(lock, Thread.currentThread());
140	<	//     }
141	<
142	<	//     /**
143	<	//      * Checks that condition c has no waiters.
144	<	//      */
145	<	//     void assertHasNoWaiters(PublicReentrantReadWriteLock lock, Condition c) {
146	<	//         assertHasWaiters(lock, c, new Thread[] {});
147	<	//     }
148	<
149	<	//     /**
150	<	//      * Checks that condition c has exactly the given waiter threads.
151	<	//      */
152	<	//     void assertHasWaiters(PublicReentrantReadWriteLock lock, Condition c,
153	<	//                           Thread... threads) {
154	<	//         lock.writeLock().lock();
155	<	//         assertEquals(threads.length > 0, lock.hasWaiters(c));
156	<	//         assertEquals(threads.length, lock.getWaitQueueLength(c));
157	<	//         assertEquals(threads.length == 0, lock.getWaitingThreads(c).isEmpty());
158	<	//         assertEquals(threads.length, lock.getWaitingThreads(c).size());
159	<	//         assertEquals(new HashSet<Thread>(lock.getWaitingThreads(c)),
160	<	//                      new HashSet<Thread>(Arrays.asList(threads)));
161	<	//         lock.writeLock().unlock();
162	<	//     }
163	<
164	<	//     enum AwaitMethod { await, awaitTimed, awaitNanos, awaitUntil };
165	<
166	<	//     /**
167	<	//      * Awaits condition using the specified AwaitMethod.
168	<	//      */
169	<	//     void await(Condition c, AwaitMethod awaitMethod)
170	<	//             throws InterruptedException {
171	<	//         switch (awaitMethod) {
172	<	//         case await:
173	<	//             c.await();
174	<	//             break;
175	<	//         case awaitTimed:
176	<	//             assertTrue(c.await(2 * LONG_DELAY_MS, MILLISECONDS));
177	<	//             break;
178	<	//         case awaitNanos:
179	<	//             long nanosRemaining = c.awaitNanos(MILLISECONDS.toNanos(2 * LONG_DELAY_MS));
180	<	//             assertTrue(nanosRemaining > 0);
181	<	//             break;
182	<	//         case awaitUntil:
183	<	//             java.util.Date d = new java.util.Date();
184	<	//             assertTrue(c.awaitUntil(new java.util.Date(d.getTime() + 2 * LONG_DELAY_MS)));
185	<	//             break;
186	<	//         }
187	<	//     }
188	<
189	<	//     /**
190	<	//      * Constructor sets given fairness, and is in unlocked state
191	<	//      */
192	<	//     public void testConstructor() {
193	<	//         PublicReentrantReadWriteLock lock;
194	<
195	<	//         lock = new PublicReentrantReadWriteLock();
196	<	//         assertFalse(lock.isFair());
197	<	//         assertNotWriteLocked(lock);
198	<	//         assertEquals(0, lock.getReadLockCount());
199	<
200	<	//         lock = new PublicReentrantReadWriteLock(true);
201	<	//         assertTrue(lock.isFair());
202	<	//         assertNotWriteLocked(lock);
203	<	//         assertEquals(0, lock.getReadLockCount());
204	<
205	<	//         lock = new PublicReentrantReadWriteLock(false);
206	<	//         assertFalse(lock.isFair());
207	<	//         assertNotWriteLocked(lock);
208	<	//         assertEquals(0, lock.getReadLockCount());
209	<	//     }
210	<
211	<	//     /**
212	<	//      * write-locking and read-locking an unlocked lock succeed
213	<	//      */
214	<	//     public void testLock()      { testLock(false); }
215	<	//     public void testLock_fair() { testLock(true); }
216	<	//     public void testLock(boolean fair) {
217	<	//         PublicReentrantReadWriteLock lock =
218	<	//             new PublicReentrantReadWriteLock(fair);
219	<	//         assertNotWriteLocked(lock);
220	<	//         lock.writeLock().lock();
221	<	//         assertWriteLockedByMoi(lock);
222	<	//         lock.writeLock().unlock();
223	<	//         assertNotWriteLocked(lock);
224	<	//         assertEquals(0, lock.getReadLockCount());
225	<	//         lock.readLock().lock();
226	<	//         assertNotWriteLocked(lock);
227	<	//         assertEquals(1, lock.getReadLockCount());
228	<	//         lock.readLock().unlock();
229	<	//         assertNotWriteLocked(lock);
230	<	//         assertEquals(0, lock.getReadLockCount());
231	<	//     }
232	<
233	<	//     /**
234	<	//      * getWriteHoldCount returns number of recursive holds
235	<	//      */
236	<	//     public void testGetWriteHoldCount()      { testGetWriteHoldCount(false); }
237	<	//     public void testGetWriteHoldCount_fair() { testGetWriteHoldCount(true); }
238	<	//     public void testGetWriteHoldCount(boolean fair) {
239	<	//         ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
240	<	//         for (int i = 1; i <= SIZE; i++) {
241	<	//             lock.writeLock().lock();
242	<	//             assertEquals(i,lock.getWriteHoldCount());
243	<	//         }
244	<	//         for (int i = SIZE; i > 0; i--) {
245	<	//             lock.writeLock().unlock();
246	<	//             assertEquals(i-1,lock.getWriteHoldCount());
247	<	//         }
248	<	//     }
249	<
250	<	//     /**
251	<	//      * writelock.getHoldCount returns number of recursive holds
252	<	//      */
253	<	//     public void testGetHoldCount()      { testGetHoldCount(false); }
254	<	//     public void testGetHoldCount_fair() { testGetHoldCount(true); }
255	<	//     public void testGetHoldCount(boolean fair) {
256	<	//         ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
257	<	//         for (int i = 1; i <= SIZE; i++) {
258	<	//             lock.writeLock().lock();
259	<	//             assertEquals(i,lock.writeLock().getHoldCount());
260	<	//         }
261	<	//         for (int i = SIZE; i > 0; i--) {
262	<	//             lock.writeLock().unlock();
263	<	//             assertEquals(i-1,lock.writeLock().getHoldCount());
264	<	//         }
265	<	//     }
266	<
267	<	//     /**
268	<	//      * getReadHoldCount returns number of recursive holds
269	<	//      */
270	<	//     public void testGetReadHoldCount()      { testGetReadHoldCount(false); }
271	<	//     public void testGetReadHoldCount_fair() { testGetReadHoldCount(true); }
272	<	//     public void testGetReadHoldCount(boolean fair) {
273	<	//         ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
274	<	//         for (int i = 1; i <= SIZE; i++) {
275	<	//             lock.readLock().lock();
276	<	//             assertEquals(i,lock.getReadHoldCount());
277	<	//         }
278	<	//         for (int i = SIZE; i > 0; i--) {
279	<	//             lock.readLock().unlock();
280	<	//             assertEquals(i-1,lock.getReadHoldCount());
281	<	//         }
282	<	//     }
283	<
284	<	//     /**
285	<	//      * write-unlocking an unlocked lock throws IllegalMonitorStateException
286	<	//      */
287	<	//     public void testWriteUnlock_IMSE()      { testWriteUnlock_IMSE(false); }
288	<	//     public void testWriteUnlock_IMSE_fair() { testWriteUnlock_IMSE(true); }
289	<	//     public void testWriteUnlock_IMSE(boolean fair) {
290	<	//         ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
291	<	//         try {
292	<	//             lock.writeLock().unlock();
293	<	//             shouldThrow();
294	<	//         } catch (IllegalMonitorStateException success) {}
295	<	//     }
296	<
297	<	//     /**
298	<	//      * read-unlocking an unlocked lock throws IllegalMonitorStateException
299	<	//      */
300	<	//     public void testReadUnlock_IMSE()      { testReadUnlock_IMSE(false); }
301	<	//     public void testReadUnlock_IMSE_fair() { testReadUnlock_IMSE(true); }
302	<	//     public void testReadUnlock_IMSE(boolean fair) {
303	<	//         ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
304	<	//         try {
305	<	//             lock.readLock().unlock();
306	<	//             shouldThrow();
307	<	//         } catch (IllegalMonitorStateException success) {}
308	<	//     }
309	<
310	<	//     /**
311	<	//      * write-lockInterruptibly is interruptible
312	<	//      */
313	<	//     public void testWriteLockInterruptibly_Interruptible()      { testWriteLockInterruptibly_Interruptible(false); }
314	<	//     public void testWriteLockInterruptibly_Interruptible_fair() { testWriteLockInterruptibly_Interruptible(true); }
315	<	//     public void testWriteLockInterruptibly_Interruptible(boolean fair) {
316	<	//         final PublicReentrantReadWriteLock lock =
317	<	//             new PublicReentrantReadWriteLock(fair);
318	<	//         lock.writeLock().lock();
319	<	//         Thread t = newStartedThread(new CheckedInterruptedRunnable() {
320	<	//             public void realRun() throws InterruptedException {
321	<	//                 lock.writeLock().lockInterruptibly();
322	<	//             }});
323	<
324	<	//         waitForQueuedThread(lock, t);
325	<	//         t.interrupt();
326	<	//         awaitTermination(t);
327	<	//         releaseWriteLock(lock);
328	<	//     }
329	<
330	<	//     /**
331	<	//      * timed write-tryLock is interruptible
332	<	//      */
333	<	//     public void testWriteTryLock_Interruptible()      { testWriteTryLock_Interruptible(false); }
334	<	//     public void testWriteTryLock_Interruptible_fair() { testWriteTryLock_Interruptible(true); }
335	<	//     public void testWriteTryLock_Interruptible(boolean fair) {
336	<	//         final PublicReentrantReadWriteLock lock =
337	<	//             new PublicReentrantReadWriteLock(fair);
338	<	//         lock.writeLock().lock();
339	<	//         Thread t = newStartedThread(new CheckedInterruptedRunnable() {
340	<	//             public void realRun() throws InterruptedException {
341	<	//                 lock.writeLock().tryLock(2 * LONG_DELAY_MS, MILLISECONDS);
342	<	//             }});
343	<
344	<	//         waitForQueuedThread(lock, t);
345	<	//         t.interrupt();
346	<	//         awaitTermination(t);
347	<	//         releaseWriteLock(lock);
348	<	//     }
349	<
350	<	//     /**
351	<	//      * read-lockInterruptibly is interruptible
352	<	//      */
353	<	//     public void testReadLockInterruptibly_Interruptible()      { testReadLockInterruptibly_Interruptible(false); }
354	<	//     public void testReadLockInterruptibly_Interruptible_fair() { testReadLockInterruptibly_Interruptible(true); }
355	<	//     public void testReadLockInterruptibly_Interruptible(boolean fair) {
356	<	//         final PublicReentrantReadWriteLock lock =
357	<	//             new PublicReentrantReadWriteLock(fair);
358	<	//         lock.writeLock().lock();
359	<	//         Thread t = newStartedThread(new CheckedInterruptedRunnable() {
360	<	//             public void realRun() throws InterruptedException {
361	<	//                 lock.readLock().lockInterruptibly();
362	<	//             }});
363	<
364	<	//         waitForQueuedThread(lock, t);
365	<	//         t.interrupt();
366	<	//         awaitTermination(t);
367	<	//         releaseWriteLock(lock);
368	<	//     }
369	<
370	<	//     /**
371	<	//      * timed read-tryLock is interruptible
372	<	//      */
373	<	//     public void testReadTryLock_Interruptible()      { testReadTryLock_Interruptible(false); }
374	<	//     public void testReadTryLock_Interruptible_fair() { testReadTryLock_Interruptible(true); }
375	<	//     public void testReadTryLock_Interruptible(boolean fair) {
376	<	//         final PublicReentrantReadWriteLock lock =
377	<	//             new PublicReentrantReadWriteLock(fair);
378	<	//         lock.writeLock().lock();
379	<	//         Thread t = newStartedThread(new CheckedInterruptedRunnable() {
380	<	//             public void realRun() throws InterruptedException {
381	<	//                 lock.readLock().tryLock(2 * LONG_DELAY_MS, MILLISECONDS);
382	<	//             }});
383	<
384	<	//         waitForQueuedThread(lock, t);
385	<	//         t.interrupt();
386	<	//         awaitTermination(t);
387	<	//         releaseWriteLock(lock);
388	<	//     }
389	<
390	<	//     /**
391	<	//      * write-tryLock on an unlocked lock succeeds
392	<	//      */
393	<	//     public void testWriteTryLock()      { testWriteTryLock(false); }
394	<	//     public void testWriteTryLock_fair() { testWriteTryLock(true); }
395	<	//     public void testWriteTryLock(boolean fair) {
396	<	//         final PublicReentrantReadWriteLock lock =
397	<	//             new PublicReentrantReadWriteLock(fair);
398	<	//         assertTrue(lock.writeLock().tryLock());
399	<	//         assertWriteLockedByMoi(lock);
400	<	//         assertTrue(lock.writeLock().tryLock());
401	<	//         assertWriteLockedByMoi(lock);
402	<	//         lock.writeLock().unlock();
403	<	//         releaseWriteLock(lock);
404	<	//     }
405	<
406	<	//     /**
407	<	//      * write-tryLock fails if locked
408	<	//      */
409	<	//     public void testWriteTryLockWhenLocked()      { testWriteTryLockWhenLocked(false); }
410	<	//     public void testWriteTryLockWhenLocked_fair() { testWriteTryLockWhenLocked(true); }
411	<	//     public void testWriteTryLockWhenLocked(boolean fair) {
412	<	//         final PublicReentrantReadWriteLock lock =
413	<	//             new PublicReentrantReadWriteLock(fair);
414	<	//         lock.writeLock().lock();
415	<	//         Thread t = newStartedThread(new CheckedRunnable() {
416	<	//             public void realRun() {
417	<	//                 assertFalse(lock.writeLock().tryLock());
418	<	//             }});
419	<
420	<	//         awaitTermination(t);
421	<	//         releaseWriteLock(lock);
422	<	//     }
423	<
424	<	//     /**
425	<	//      * read-tryLock fails if locked
426	<	//      */
427	<	//     public void testReadTryLockWhenLocked()      { testReadTryLockWhenLocked(false); }
428	<	//     public void testReadTryLockWhenLocked_fair() { testReadTryLockWhenLocked(true); }
429	<	//     public void testReadTryLockWhenLocked(boolean fair) {
430	<	//         final PublicReentrantReadWriteLock lock =
431	<	//             new PublicReentrantReadWriteLock(fair);
432	<	//         lock.writeLock().lock();
433	<	//         Thread t = newStartedThread(new CheckedRunnable() {
434	<	//             public void realRun() {
435	<	//                 assertFalse(lock.readLock().tryLock());
436	<	//             }});
437	<
438	<	//         awaitTermination(t);
439	<	//         releaseWriteLock(lock);
440	<	//     }
441	<
442	<	//     /**
443	<	//      * Multiple threads can hold a read lock when not write-locked
444	<	//      */
445	<	//     public void testMultipleReadLocks()      { testMultipleReadLocks(false); }
446	<	//     public void testMultipleReadLocks_fair() { testMultipleReadLocks(true); }
447	<	//     public void testMultipleReadLocks(boolean fair) {
448	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
449	<	//         lock.readLock().lock();
450	<	//         Thread t = newStartedThread(new CheckedRunnable() {
451	<	//             public void realRun() throws InterruptedException {
452	<	//                 assertTrue(lock.readLock().tryLock());
453	<	//                 lock.readLock().unlock();
454	<	//                 assertTrue(lock.readLock().tryLock(LONG_DELAY_MS, MILLISECONDS));
455	<	//                 lock.readLock().unlock();
456	<	//                 lock.readLock().lock();
457	<	//                 lock.readLock().unlock();
458	<	//             }});
459	<
460	<	//         awaitTermination(t);
461	<	//         lock.readLock().unlock();
462	<	//     }
463	<
464	<	//     /**
465	<	//      * A writelock succeeds only after a reading thread unlocks
466	<	//      */
467	<	//     public void testWriteAfterReadLock()      { testWriteAfterReadLock(false); }
468	<	//     public void testWriteAfterReadLock_fair() { testWriteAfterReadLock(true); }
469	<	//     public void testWriteAfterReadLock(boolean fair) {
470	<	//         final PublicReentrantReadWriteLock lock =
471	<	//             new PublicReentrantReadWriteLock(fair);
472	<	//         lock.readLock().lock();
473	<	//         Thread t = newStartedThread(new CheckedRunnable() {
474	<	//             public void realRun() {
475	<	//                 assertEquals(1, lock.getReadLockCount());
476	<	//                 lock.writeLock().lock();
471	<	//                 assertEquals(0, lock.getReadLockCount());
472	<	//                 lock.writeLock().unlock();
473	<	//             }});
474	<	//         waitForQueuedThread(lock, t);
475	<	//         assertNotWriteLocked(lock);
476	<	//         assertEquals(1, lock.getReadLockCount());
477	<	//         lock.readLock().unlock();
478	<	//         assertEquals(0, lock.getReadLockCount());
479	<	//         awaitTermination(t);
480	<	//         assertNotWriteLocked(lock);
481	<	//     }
482	<
483	<	//     /**
484	<	//      * A writelock succeeds only after reading threads unlock
485	<	//      */
486	<	//     public void testWriteAfterMultipleReadLocks()      { testWriteAfterMultipleReadLocks(false); }
487	<	//     public void testWriteAfterMultipleReadLocks_fair() { testWriteAfterMultipleReadLocks(true); }
488	<	//     public void testWriteAfterMultipleReadLocks(boolean fair) {
489	<	//         final PublicReentrantReadWriteLock lock =
490	<	//             new PublicReentrantReadWriteLock(fair);
491	<	//         lock.readLock().lock();
492	<	//         lock.readLock().lock();
493	<	//         Thread t1 = newStartedThread(new CheckedRunnable() {
494	<	//             public void realRun() {
495	<	//                 lock.readLock().lock();
496	<	//                 assertEquals(3, lock.getReadLockCount());
497	<	//                 lock.readLock().unlock();
498	<	//             }});
499	<	//         awaitTermination(t1);
500	<
501	<	//         Thread t2 = newStartedThread(new CheckedRunnable() {
502	<	//             public void realRun() {
503	<	//                 assertEquals(2, lock.getReadLockCount());
504	<	//                 lock.writeLock().lock();
505	<	//                 assertEquals(0, lock.getReadLockCount());
506	<	//                 lock.writeLock().unlock();
507	<	//             }});
508	<	//         waitForQueuedThread(lock, t2);
509	<	//         assertNotWriteLocked(lock);
510	<	//         assertEquals(2, lock.getReadLockCount());
511	<	//         lock.readLock().unlock();
512	<	//         lock.readLock().unlock();
513	<	//         assertEquals(0, lock.getReadLockCount());
514	<	//         awaitTermination(t2);
515	<	//         assertNotWriteLocked(lock);
516	<	//     }
517	<
518	<	//     /**
519	<	//      * A thread that tries to acquire a fair read lock (non-reentrantly)
520	<	//      * will block if there is a waiting writer thread
521	<	//      */
522	<	//     public void testReaderWriterReaderFairFifo() {
523	<	//         final PublicReentrantReadWriteLock lock =
524	<	//             new PublicReentrantReadWriteLock(true);
525	<	//         final AtomicBoolean t1GotLock = new AtomicBoolean(false);
526	<
527	<	//         lock.readLock().lock();
528	<	//         Thread t1 = newStartedThread(new CheckedRunnable() {
529	<	//             public void realRun() {
530	<	//                 assertEquals(1, lock.getReadLockCount());
531	<	//                 lock.writeLock().lock();
532	<	//                 assertEquals(0, lock.getReadLockCount());
533	<	//                 t1GotLock.set(true);
534	<	//                 lock.writeLock().unlock();
535	<	//             }});
536	<	//         waitForQueuedThread(lock, t1);
537	<
538	<	//         Thread t2 = newStartedThread(new CheckedRunnable() {
539	<	//             public void realRun() {
540	<	//                 assertEquals(1, lock.getReadLockCount());
541	<	//                 lock.readLock().lock();
542	<	//                 assertEquals(1, lock.getReadLockCount());
543	<	//                 assertTrue(t1GotLock.get());
544	<	//                 lock.readLock().unlock();
545	<	//             }});
546	<	//         waitForQueuedThread(lock, t2);
547	<	//         assertTrue(t1.isAlive());
548	<	//         assertNotWriteLocked(lock);
549	<	//         assertEquals(1, lock.getReadLockCount());
550	<	//         lock.readLock().unlock();
551	<	//         awaitTermination(t1);
552	<	//         awaitTermination(t2);
553	<	//         assertNotWriteLocked(lock);
554	<	//     }
555	<
556	<	//     /**
557	<	//      * Readlocks succeed only after a writing thread unlocks
558	<	//      */
559	<	//     public void testReadAfterWriteLock()      { testReadAfterWriteLock(false); }
560	<	//     public void testReadAfterWriteLock_fair() { testReadAfterWriteLock(true); }
561	<	//     public void testReadAfterWriteLock(boolean fair) {
562	<	//         final PublicReentrantReadWriteLock lock =
563	<	//             new PublicReentrantReadWriteLock(fair);
564	<	//         lock.writeLock().lock();
565	<	//         Thread t1 = newStartedThread(new CheckedRunnable() {
566	<	//             public void realRun() {
567	<	//                 lock.readLock().lock();
568	<	//                 lock.readLock().unlock();
569	<	//             }});
570	<	//         Thread t2 = newStartedThread(new CheckedRunnable() {
571	<	//             public void realRun() {
572	<	//                 lock.readLock().lock();
573	<	//                 lock.readLock().unlock();
574	<	//             }});
575	<
576	<	//         waitForQueuedThread(lock, t1);
577	<	//         waitForQueuedThread(lock, t2);
578	<	//         releaseWriteLock(lock);
579	<	//         awaitTermination(t1);
580	<	//         awaitTermination(t2);
581	<	//     }
582	<
583	<	//     /**
584	<	//      * Read trylock succeeds if write locked by current thread
585	<	//      */
586	<	//     public void testReadHoldingWriteLock()      { testReadHoldingWriteLock(false); }
587	<	//     public void testReadHoldingWriteLock_fair() { testReadHoldingWriteLock(true); }
588	<	//     public void testReadHoldingWriteLock(boolean fair) {
589	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
590	<	//         lock.writeLock().lock();
591	<	//         assertTrue(lock.readLock().tryLock());
592	<	//         lock.readLock().unlock();
593	<	//         lock.writeLock().unlock();
594	<	//     }
595	<
596	<	//     /**
597	<	//      * Read trylock succeeds (barging) even in the presence of waiting
598	<	//      * readers and/or writers
599	<	//      */
600	<	//     public void testReadTryLockBarging()      { testReadTryLockBarging(false); }
601	<	//     public void testReadTryLockBarging_fair() { testReadTryLockBarging(true); }
602	<	//     public void testReadTryLockBarging(boolean fair) {
603	<	//         final PublicReentrantReadWriteLock lock =
604	<	//             new PublicReentrantReadWriteLock(fair);
605	<	//         lock.readLock().lock();
606	<
607	<	//         Thread t1 = newStartedThread(new CheckedRunnable() {
608	<	//             public void realRun() {
609	<	//                 lock.writeLock().lock();
610	<	//                 lock.writeLock().unlock();
611	<	//             }});
612	<
613	<	//         waitForQueuedThread(lock, t1);
614	<
615	<	//         Thread t2 = newStartedThread(new CheckedRunnable() {
616	<	//             public void realRun() {
617	<	//                 lock.readLock().lock();
618	<	//                 lock.readLock().unlock();
619	<	//             }});
620	<
621	<	//         if (fair)
622	<	//             waitForQueuedThread(lock, t2);
623	<
624	<	//         Thread t3 = newStartedThread(new CheckedRunnable() {
625	<	//             public void realRun() {
626	<	//                 lock.readLock().tryLock();
627	<	//                 lock.readLock().unlock();
628	<	//             }});
629	<
630	<	//         assertTrue(lock.getReadLockCount() > 0);
631	<	//         awaitTermination(t3);
632	<	//         assertTrue(t1.isAlive());
633	<	//         if (fair) assertTrue(t2.isAlive());
634	<	//         lock.readLock().unlock();
635	<	//         awaitTermination(t1);
636	<	//         awaitTermination(t2);
637	<	//     }
638	<
639	<	//     /**
640	<	//      * Read lock succeeds if write locked by current thread even if
641	<	//      * other threads are waiting for readlock
642	<	//      */
643	<	//     public void testReadHoldingWriteLock2()      { testReadHoldingWriteLock2(false); }
644	<	//     public void testReadHoldingWriteLock2_fair() { testReadHoldingWriteLock2(true); }
645	<	//     public void testReadHoldingWriteLock2(boolean fair) {
646	<	//         final PublicReentrantReadWriteLock lock =
647	<	//             new PublicReentrantReadWriteLock(fair);
648	<	//         lock.writeLock().lock();
649	<	//         lock.readLock().lock();
650	<	//         lock.readLock().unlock();
651	<
652	<	//         Thread t1 = newStartedThread(new CheckedRunnable() {
653	<	//             public void realRun() {
654	<	//                 lock.readLock().lock();
655	<	//                 lock.readLock().unlock();
656	<	//             }});
657	<	//         Thread t2 = newStartedThread(new CheckedRunnable() {
658	<	//             public void realRun() {
659	<	//                 lock.readLock().lock();
660	<	//                 lock.readLock().unlock();
661	<	//             }});
662	<
663	<	//         waitForQueuedThread(lock, t1);
664	<	//         waitForQueuedThread(lock, t2);
665	<	//         assertWriteLockedByMoi(lock);
666	<	//         lock.readLock().lock();
667	<	//         lock.readLock().unlock();
668	<	//         releaseWriteLock(lock);
669	<	//         awaitTermination(t1);
670	<	//         awaitTermination(t2);
671	<	//     }
672	<
673	<	//     /**
674	<	//      * Read lock succeeds if write locked by current thread even if
675	<	//      * other threads are waiting for writelock
676	<	//      */
677	<	//     public void testReadHoldingWriteLock3()      { testReadHoldingWriteLock3(false); }
678	<	//     public void testReadHoldingWriteLock3_fair() { testReadHoldingWriteLock3(true); }
679	<	//     public void testReadHoldingWriteLock3(boolean fair) {
680	<	//         final PublicReentrantReadWriteLock lock =
681	<	//             new PublicReentrantReadWriteLock(fair);
682	<	//         lock.writeLock().lock();
683	<	//         lock.readLock().lock();
684	<	//         lock.readLock().unlock();
685	<
686	<	//         Thread t1 = newStartedThread(new CheckedRunnable() {
687	<	//             public void realRun() {
688	<	//                 lock.writeLock().lock();
689	<	//                 lock.writeLock().unlock();
690	<	//             }});
691	<	//         Thread t2 = newStartedThread(new CheckedRunnable() {
692	<	//             public void realRun() {
693	<	//                 lock.writeLock().lock();
694	<	//                 lock.writeLock().unlock();
695	<	//             }});
696	<
697	<	//         waitForQueuedThread(lock, t1);
698	<	//         waitForQueuedThread(lock, t2);
699	<	//         assertWriteLockedByMoi(lock);
700	<	//         lock.readLock().lock();
701	<	//         lock.readLock().unlock();
702	<	//         assertWriteLockedByMoi(lock);
703	<	//         lock.writeLock().unlock();
704	<	//         awaitTermination(t1);
705	<	//         awaitTermination(t2);
706	<	//     }
707	<
708	<	//     /**
709	<	//      * Write lock succeeds if write locked by current thread even if
710	<	//      * other threads are waiting for writelock
711	<	//      */
712	<	//     public void testWriteHoldingWriteLock4()      { testWriteHoldingWriteLock4(false); }
713	<	//     public void testWriteHoldingWriteLock4_fair() { testWriteHoldingWriteLock4(true); }
714	<	//     public void testWriteHoldingWriteLock4(boolean fair) {
715	<	//         final PublicReentrantReadWriteLock lock =
716	<	//             new PublicReentrantReadWriteLock(fair);
717	<	//         lock.writeLock().lock();
718	<	//         lock.writeLock().lock();
719	<	//         lock.writeLock().unlock();
720	<
721	<	//         Thread t1 = newStartedThread(new CheckedRunnable() {
722	<	//             public void realRun() {
723	<	//                 lock.writeLock().lock();
724	<	//                 lock.writeLock().unlock();
725	<	//             }});
726	<	//         Thread t2 = newStartedThread(new CheckedRunnable() {
727	<	//             public void realRun() {
728	<	//                 lock.writeLock().lock();
729	<	//                 lock.writeLock().unlock();
730	<	//             }});
731	<
732	<	//         waitForQueuedThread(lock, t1);
733	<	//         waitForQueuedThread(lock, t2);
734	<	//         assertWriteLockedByMoi(lock);
735	<	//         assertEquals(1, lock.getWriteHoldCount());
736	<	//         lock.writeLock().lock();
737	<	//         assertWriteLockedByMoi(lock);
738	<	//         assertEquals(2, lock.getWriteHoldCount());
739	<	//         lock.writeLock().unlock();
740	<	//         assertWriteLockedByMoi(lock);
741	<	//         assertEquals(1, lock.getWriteHoldCount());
742	<	//         lock.writeLock().unlock();
743	<	//         awaitTermination(t1);
744	<	//         awaitTermination(t2);
745	<	//     }
746	<
747	<	//     /**
748	<	//      * Read tryLock succeeds if readlocked but not writelocked
749	<	//      */
750	<	//     public void testTryLockWhenReadLocked()      { testTryLockWhenReadLocked(false); }
751	<	//     public void testTryLockWhenReadLocked_fair() { testTryLockWhenReadLocked(true); }
752	<	//     public void testTryLockWhenReadLocked(boolean fair) {
753	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
754	<	//         lock.readLock().lock();
755	<	//         Thread t = newStartedThread(new CheckedRunnable() {
756	<	//             public void realRun() {
757	<	//                 assertTrue(lock.readLock().tryLock());
758	<	//                 lock.readLock().unlock();
759	<	//             }});
760	<
761	<	//         awaitTermination(t);
762	<	//         lock.readLock().unlock();
763	<	//     }
764	<
765	<	//     /**
766	<	//      * write tryLock fails when readlocked
767	<	//      */
768	<	//     public void testWriteTryLockWhenReadLocked()      { testWriteTryLockWhenReadLocked(false); }
769	<	//     public void testWriteTryLockWhenReadLocked_fair() { testWriteTryLockWhenReadLocked(true); }
770	<	//     public void testWriteTryLockWhenReadLocked(boolean fair) {
771	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
772	<	//         lock.readLock().lock();
773	<	//         Thread t = newStartedThread(new CheckedRunnable() {
774	<	//             public void realRun() {
775	<	//                 assertFalse(lock.writeLock().tryLock());
776	<	//             }});
777	<
778	<	//         awaitTermination(t);
779	<	//         lock.readLock().unlock();
780	<	//     }
781	<
782	<	//     /**
783	<	//      * write timed tryLock times out if locked
784	<	//      */
785	<	//     public void testWriteTryLock_Timeout()      { testWriteTryLock_Timeout(false); }
786	<	//     public void testWriteTryLock_Timeout_fair() { testWriteTryLock_Timeout(true); }
787	<	//     public void testWriteTryLock_Timeout(boolean fair) {
788	<	//         final PublicReentrantReadWriteLock lock =
789	<	//             new PublicReentrantReadWriteLock(fair);
790	<	//         lock.writeLock().lock();
791	<	//         Thread t = newStartedThread(new CheckedRunnable() {
792	<	//             public void realRun() throws InterruptedException {
793	<	//                 long startTime = System.nanoTime();
794	<	//                 long timeoutMillis = 10;
795	<	//                 assertFalse(lock.writeLock().tryLock(timeoutMillis, MILLISECONDS));
796	<	//                 assertTrue(millisElapsedSince(startTime) >= timeoutMillis);
797	<	//             }});
798	<
799	<	//         awaitTermination(t);
800	<	//         releaseWriteLock(lock);
801	<	//     }
802	<
803	<	//     /**
804	<	//      * read timed tryLock times out if write-locked
805	<	//      */
806	<	//     public void testReadTryLock_Timeout()      { testReadTryLock_Timeout(false); }
807	<	//     public void testReadTryLock_Timeout_fair() { testReadTryLock_Timeout(true); }
808	<	//     public void testReadTryLock_Timeout(boolean fair) {
809	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
810	<	//         lock.writeLock().lock();
811	<	//         Thread t = newStartedThread(new CheckedRunnable() {
812	<	//             public void realRun() throws InterruptedException {
813	<	//                 long startTime = System.nanoTime();
814	<	//                 long timeoutMillis = 10;
815	<	//                 assertFalse(lock.readLock().tryLock(timeoutMillis, MILLISECONDS));
816	<	//                 assertTrue(millisElapsedSince(startTime) >= timeoutMillis);
817	<	//             }});
818	<
819	<	//         awaitTermination(t);
820	<	//         assertTrue(lock.writeLock().isHeldByCurrentThread());
821	<	//         lock.writeLock().unlock();
822	<	//     }
823	<
824	<	//     /**
825	<	//      * write lockInterruptibly succeeds if unlocked, else is interruptible
826	<	//      */
827	<	//     public void testWriteLockInterruptibly()      { testWriteLockInterruptibly(false); }
828	<	//     public void testWriteLockInterruptibly_fair() { testWriteLockInterruptibly(true); }
829	<	//     public void testWriteLockInterruptibly(boolean fair) {
830	<	//         final PublicReentrantReadWriteLock lock =
831	<	//             new PublicReentrantReadWriteLock(fair);
832	<	//         try {
833	<	//             lock.writeLock().lockInterruptibly();
834	<	//         } catch (InterruptedException ie) {
835	<	//             threadUnexpectedException(ie);
836	<	//         }
837	<	//         Thread t = newStartedThread(new CheckedInterruptedRunnable() {
838	<	//             public void realRun() throws InterruptedException {
839	<	//                 lock.writeLock().lockInterruptibly();
840	<	//             }});
841	<
842	<	//         waitForQueuedThread(lock, t);
843	<	//         t.interrupt();
844	<	//         assertTrue(lock.writeLock().isHeldByCurrentThread());
845	<	//         awaitTermination(t);
846	<	//         releaseWriteLock(lock);
847	<	//     }
848	<
849	<	//     /**
850	<	//      * read lockInterruptibly succeeds if lock free else is interruptible
851	<	//      */
852	<	//     public void testReadLockInterruptibly()      { testReadLockInterruptibly(false); }
853	<	//     public void testReadLockInterruptibly_fair() { testReadLockInterruptibly(true); }
854	<	//     public void testReadLockInterruptibly(boolean fair) {
855	<	//         final PublicReentrantReadWriteLock lock =
856	<	//             new PublicReentrantReadWriteLock(fair);
857	<	//         try {
858	<	//             lock.readLock().lockInterruptibly();
859	<	//             lock.readLock().unlock();
860	<	//             lock.writeLock().lockInterruptibly();
861	<	//         } catch (InterruptedException ie) {
862	<	//             threadUnexpectedException(ie);
863	<	//         }
864	<	//         Thread t = newStartedThread(new CheckedInterruptedRunnable() {
865	<	//             public void realRun() throws InterruptedException {
866	<	//                 lock.readLock().lockInterruptibly();
867	<	//             }});
868	<
869	<	//         waitForQueuedThread(lock, t);
870	<	//         t.interrupt();
871	<	//         awaitTermination(t);
872	<	//         releaseWriteLock(lock);
873	<	//     }
874	<
875	<	//     /**
876	<	//      * Calling await without holding lock throws IllegalMonitorStateException
877	<	//      */
878	<	//     public void testAwait_IMSE()      { testAwait_IMSE(false); }
879	<	//     public void testAwait_IMSE_fair() { testAwait_IMSE(true); }
880	<	//     public void testAwait_IMSE(boolean fair) {
881	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
882	<	//         final Condition c = lock.writeLock().newCondition();
883	<	//         for (AwaitMethod awaitMethod : AwaitMethod.values()) {
884	<	//             long startTime = System.nanoTime();
885	<	//             try {
886	<	//                 await(c, awaitMethod);
887	<	//                 shouldThrow();
888	<	//             } catch (IllegalMonitorStateException success) {
889	<	//             } catch (InterruptedException e) { threadUnexpectedException(e); }
890	<	//             assertTrue(millisElapsedSince(startTime) < LONG_DELAY_MS);
891	<	//         }
892	<	//     }
893	<
894	<	//     /**
895	<	//      * Calling signal without holding lock throws IllegalMonitorStateException
896	<	//      */
897	<	//     public void testSignal_IMSE()      { testSignal_IMSE(false); }
898	<	//     public void testSignal_IMSE_fair() { testSignal_IMSE(true); }
899	<	//     public void testSignal_IMSE(boolean fair) {
900	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
901	<	//         final Condition c = lock.writeLock().newCondition();
902	<	//         try {
903	<	//             c.signal();
904	<	//             shouldThrow();
905	<	//         } catch (IllegalMonitorStateException success) {}
906	<	//     }
907	<
908	<	//     /**
909	<	//      * Calling signalAll without holding lock throws IllegalMonitorStateException
910	<	//      */
911	<	//     public void testSignalAll_IMSE()      { testSignalAll_IMSE(false); }
912	<	//     public void testSignalAll_IMSE_fair() { testSignalAll_IMSE(true); }
913	<	//     public void testSignalAll_IMSE(boolean fair) {
914	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
915	<	//         final Condition c = lock.writeLock().newCondition();
916	<	//         try {
917	<	//             c.signalAll();
918	<	//             shouldThrow();
919	<	//         } catch (IllegalMonitorStateException success) {}
920	<	//     }
921	<
922	<	//     /**
923	<	//      * awaitNanos without a signal times out
924	<	//      */
925	<	//     public void testAwaitNanos_Timeout()      { testAwaitNanos_Timeout(false); }
926	<	//     public void testAwaitNanos_Timeout_fair() { testAwaitNanos_Timeout(true); }
927	<	//     public void testAwaitNanos_Timeout(boolean fair) {
928	<	//         try {
929	<	//             final ReentrantReadWriteLock lock =
930	<	//                 new ReentrantReadWriteLock(fair);
931	<	//             final Condition c = lock.writeLock().newCondition();
932	<	//             lock.writeLock().lock();
933	<	//             long startTime = System.nanoTime();
934	<	//             long timeoutMillis = 10;
935	<	//             long timeoutNanos = MILLISECONDS.toNanos(timeoutMillis);
936	<	//             long nanosRemaining = c.awaitNanos(timeoutNanos);
937	<	//             assertTrue(nanosRemaining <= 0);
938	<	//             assertTrue(millisElapsedSince(startTime) >= timeoutMillis);
939	<	//             lock.writeLock().unlock();
940	<	//         } catch (InterruptedException e) {
941	<	//             threadUnexpectedException(e);
942	<	//         }
943	<	//     }
944	<
945	<	//     /**
946	<	//      * timed await without a signal times out
947	<	//      */
948	<	//     public void testAwait_Timeout()      { testAwait_Timeout(false); }
949	<	//     public void testAwait_Timeout_fair() { testAwait_Timeout(true); }
950	<	//     public void testAwait_Timeout(boolean fair) {
951	<	//         try {
952	<	//             final ReentrantReadWriteLock lock =
953	<	//                 new ReentrantReadWriteLock(fair);
954	<	//             final Condition c = lock.writeLock().newCondition();
955	<	//             lock.writeLock().lock();
956	<	//             long startTime = System.nanoTime();
957	<	//             long timeoutMillis = 10;
958	<	//             assertFalse(c.await(timeoutMillis, MILLISECONDS));
959	<	//             assertTrue(millisElapsedSince(startTime) >= timeoutMillis);
960	<	//             lock.writeLock().unlock();
961	<	//         } catch (InterruptedException e) {
962	<	//             threadUnexpectedException(e);
963	<	//         }
964	<	//     }
965	<
966	<	//     /**
967	<	//      * awaitUntil without a signal times out
968	<	//      */
969	<	//     public void testAwaitUntil_Timeout()      { testAwaitUntil_Timeout(false); }
970	<	//     public void testAwaitUntil_Timeout_fair() { testAwaitUntil_Timeout(true); }
971	<	//     public void testAwaitUntil_Timeout(boolean fair) {
972	<	//         try {
973	<	//             final ReentrantReadWriteLock lock =
974	<	//                 new ReentrantReadWriteLock(fair);
975	<	//             final Condition c = lock.writeLock().newCondition();
976	<	//             lock.writeLock().lock();
977	<	//             long startTime = System.nanoTime();
978	<	//             long timeoutMillis = 10;
979	<	//             java.util.Date d = new java.util.Date();
980	<	//             assertFalse(c.awaitUntil(new java.util.Date(d.getTime() + timeoutMillis)));
981	<	//             assertTrue(millisElapsedSince(startTime) >= timeoutMillis);
982	<	//             lock.writeLock().unlock();
983	<	//         } catch (InterruptedException e) {
984	<	//             threadUnexpectedException(e);
985	<	//         }
986	<	//     }
987	<
988	<	//     /**
989	<	//      * await returns when signalled
990	<	//      */
991	<	//     public void testAwait()      { testAwait(false); }
992	<	//     public void testAwait_fair() { testAwait(true); }
993	<	//     public void testAwait(boolean fair) {
994	<	//         final PublicReentrantReadWriteLock lock =
995	<	//             new PublicReentrantReadWriteLock(fair);
996	<	//         final Condition c = lock.writeLock().newCondition();
997	<	//         final CountDownLatch locked = new CountDownLatch(1);
998	<	//         Thread t = newStartedThread(new CheckedRunnable() {
999	<	//             public void realRun() throws InterruptedException {
1000	<	//                 lock.writeLock().lock();
1001	<	//                 locked.countDown();
1002	<	//                 c.await();
1003	<	//                 lock.writeLock().unlock();
1004	<	//             }});
1005	<
1006	<	//         await(locked);
1007	<	//         lock.writeLock().lock();
1008	<	//         assertHasWaiters(lock, c, t);
1009	<	//         c.signal();
1010	<	//         assertHasNoWaiters(lock, c);
1011	<	//         assertTrue(t.isAlive());
1012	<	//         lock.writeLock().unlock();
1013	<	//         awaitTermination(t);
1014	<	//     }
1015	<
1016	<	//     /**
1017	<	//      * awaitUninterruptibly is uninterruptible
1018	<	//      */
1019	<	//     public void testAwaitUninterruptibly()      { testAwaitUninterruptibly(false); }
1020	<	//     public void testAwaitUninterruptibly_fair() { testAwaitUninterruptibly(true); }
1021	<	//     public void testAwaitUninterruptibly(boolean fair) {
1022	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1023	<	//         final Condition c = lock.writeLock().newCondition();
1024	<	//         final CountDownLatch pleaseInterrupt = new CountDownLatch(2);
1025	<
1026	<	//         Thread t1 = newStartedThread(new CheckedRunnable() {
1027	<	//             public void realRun() {
1028	<	//                 // Interrupt before awaitUninterruptibly
1029	<	//                 lock.writeLock().lock();
1030	<	//                 pleaseInterrupt.countDown();
1031	<	//                 Thread.currentThread().interrupt();
1032	<	//                 c.awaitUninterruptibly();
1033	<	//                 assertTrue(Thread.interrupted());
1034	<	//                 lock.writeLock().unlock();
1035	<	//             }});
1036	<
1037	<	//         Thread t2 = newStartedThread(new CheckedRunnable() {
1038	<	//             public void realRun() {
1039	<	//                 // Interrupt during awaitUninterruptibly
1040	<	//                 lock.writeLock().lock();
1041	<	//                 pleaseInterrupt.countDown();
1042	<	//                 c.awaitUninterruptibly();
1043	<	//                 assertTrue(Thread.interrupted());
1044	<	//                 lock.writeLock().unlock();
1045	<	//             }});
1046	<
1047	<	//         await(pleaseInterrupt);
1048	<	//         lock.writeLock().lock();
1049	<	//         lock.writeLock().unlock();
1050	<	//         t2.interrupt();
1051	<
1052	<	//         assertThreadStaysAlive(t1);
1053	<	//         assertTrue(t2.isAlive());
1054	<
1055	<	//         lock.writeLock().lock();
1056	<	//         c.signalAll();
1057	<	//         lock.writeLock().unlock();
1058	<
1059	<	//         awaitTermination(t1);
1060	<	//         awaitTermination(t2);
1061	<	//     }
1062	<
1063	<	//     /**
1064	<	//      * await/awaitNanos/awaitUntil is interruptible
1065	<	//      */
1066	<	//     public void testInterruptible_await()           { testInterruptible(false, AwaitMethod.await); }
1067	<	//     public void testInterruptible_await_fair()      { testInterruptible(true,  AwaitMethod.await); }
1068	<	//     public void testInterruptible_awaitTimed()      { testInterruptible(false, AwaitMethod.awaitTimed); }
1069	<	//     public void testInterruptible_awaitTimed_fair() { testInterruptible(true,  AwaitMethod.awaitTimed); }
1070	<	//     public void testInterruptible_awaitNanos()      { testInterruptible(false, AwaitMethod.awaitNanos); }
1071	<	//     public void testInterruptible_awaitNanos_fair() { testInterruptible(true,  AwaitMethod.awaitNanos); }
1072	<	//     public void testInterruptible_awaitUntil()      { testInterruptible(false, AwaitMethod.awaitUntil); }
1073	<	//     public void testInterruptible_awaitUntil_fair() { testInterruptible(true,  AwaitMethod.awaitUntil); }
1074	<	//     public void testInterruptible(boolean fair, final AwaitMethod awaitMethod) {
1075	<	//         final PublicReentrantReadWriteLock lock =
1076	<	//             new PublicReentrantReadWriteLock(fair);
1077	<	//         final Condition c = lock.writeLock().newCondition();
1078	<	//         final CountDownLatch locked = new CountDownLatch(1);
1079	<	//         Thread t = newStartedThread(new CheckedInterruptedRunnable() {
1080	<	//             public void realRun() throws InterruptedException {
1081	<	//                 lock.writeLock().lock();
1082	<	//                 assertWriteLockedByMoi(lock);
1083	<	//                 assertHasNoWaiters(lock, c);
1084	<	//                 locked.countDown();
1085	<	//                 try {
1086	<	//                     await(c, awaitMethod);
1087	<	//                 } finally {
1088	<	//                     assertWriteLockedByMoi(lock);
1089	<	//                     assertHasNoWaiters(lock, c);
1090	<	//                     lock.writeLock().unlock();
1091	<	//                     assertFalse(Thread.interrupted());
1092	<	//                 }
1093	<	//             }});
1094	<
1095	<	//         await(locked);
1096	<	//         assertHasWaiters(lock, c, t);
1097	<	//         t.interrupt();
1098	<	//         awaitTermination(t);
1099	<	//         assertNotWriteLocked(lock);
1100	<	//     }
1101	<
1102	<	//     /**
1103	<	//      * signalAll wakes up all threads
1104	<	//      */
1105	<	//     public void testSignalAll_await()           { testSignalAll(false, AwaitMethod.await); }
1106	<	//     public void testSignalAll_await_fair()      { testSignalAll(true,  AwaitMethod.await); }
1107	<	//     public void testSignalAll_awaitTimed()      { testSignalAll(false, AwaitMethod.awaitTimed); }
1108	<	//     public void testSignalAll_awaitTimed_fair() { testSignalAll(true,  AwaitMethod.awaitTimed); }
1109	<	//     public void testSignalAll_awaitNanos()      { testSignalAll(false, AwaitMethod.awaitNanos); }
1110	<	//     public void testSignalAll_awaitNanos_fair() { testSignalAll(true,  AwaitMethod.awaitNanos); }
1111	<	//     public void testSignalAll_awaitUntil()      { testSignalAll(false, AwaitMethod.awaitUntil); }
1112	<	//     public void testSignalAll_awaitUntil_fair() { testSignalAll(true,  AwaitMethod.awaitUntil); }
1113	<	//     public void testSignalAll(boolean fair, final AwaitMethod awaitMethod) {
1114	<	//         final PublicReentrantReadWriteLock lock =
1115	<	//             new PublicReentrantReadWriteLock(fair);
1116	<	//         final Condition c = lock.writeLock().newCondition();
1117	<	//         final CountDownLatch locked = new CountDownLatch(2);
1118	<	//         final Lock writeLock = lock.writeLock();
1119	<	//         class Awaiter extends CheckedRunnable {
1120	<	//             public void realRun() throws InterruptedException {
1121	<	//                 writeLock.lock();
1122	<	//                 locked.countDown();
1123	<	//                 await(c, awaitMethod);
1124	<	//                 writeLock.unlock();
1125	<	//             }
1126	<	//         }
1127	<
1128	<	//         Thread t1 = newStartedThread(new Awaiter());
1129	<	//         Thread t2 = newStartedThread(new Awaiter());
1130	<
1131	<	//         await(locked);
1132	<	//         writeLock.lock();
1133	<	//         assertHasWaiters(lock, c, t1, t2);
1134	<	//         c.signalAll();
1135	<	//         assertHasNoWaiters(lock, c);
1136	<	//         writeLock.unlock();
1137	<	//         awaitTermination(t1);
1138	<	//         awaitTermination(t2);
1139	<	//     }
1140	<
1141	<	//     /**
1142	<	//      * signal wakes up waiting threads in FIFO order
1143	<	//      */
1144	<	//     public void testSignalWakesFifo()      { testSignalWakesFifo(false); }
1145	<	//     public void testSignalWakesFifo_fair() { testSignalWakesFifo(true); }
1146	<	//     public void testSignalWakesFifo(boolean fair) {
1147	<	//         final PublicReentrantReadWriteLock lock =
1148	<	//             new PublicReentrantReadWriteLock(fair);
1149	<	//         final Condition c = lock.writeLock().newCondition();
1150	<	//         final CountDownLatch locked1 = new CountDownLatch(1);
1151	<	//         final CountDownLatch locked2 = new CountDownLatch(1);
1152	<	//         final Lock writeLock = lock.writeLock();
1153	<	//         Thread t1 = newStartedThread(new CheckedRunnable() {
1154	<	//             public void realRun() throws InterruptedException {
1155	<	//                 writeLock.lock();
1156	<	//                 locked1.countDown();
1157	<	//                 c.await();
1158	<	//                 writeLock.unlock();
1159	<	//             }});
1160	<
1161	<	//         await(locked1);
1162	<
1163	<	//         Thread t2 = newStartedThread(new CheckedRunnable() {
1164	<	//             public void realRun() throws InterruptedException {
1165	<	//                 writeLock.lock();
1166	<	//                 locked2.countDown();
1167	<	//                 c.await();
1168	<	//                 writeLock.unlock();
1169	<	//             }});
1170	<
1171	<	//         await(locked2);
1172	<
1173	<	//         writeLock.lock();
1174	<	//         assertHasWaiters(lock, c, t1, t2);
1175	<	//         assertFalse(lock.hasQueuedThreads());
1176	<	//         c.signal();
1177	<	//         assertHasWaiters(lock, c, t2);
1178	<	//         assertTrue(lock.hasQueuedThread(t1));
1179	<	//         assertFalse(lock.hasQueuedThread(t2));
1180	<	//         c.signal();
1181	<	//         assertHasNoWaiters(lock, c);
1182	<	//         assertTrue(lock.hasQueuedThread(t1));
1183	<	//         assertTrue(lock.hasQueuedThread(t2));
1184	<	//         writeLock.unlock();
1185	<	//         awaitTermination(t1);
1186	<	//         awaitTermination(t2);
1187	<	//     }
1188	<
1189	<	//     /**
1190	<	//      * await after multiple reentrant locking preserves lock count
1191	<	//      */
1192	<	//     public void testAwaitLockCount()      { testAwaitLockCount(false); }
1193	<	//     public void testAwaitLockCount_fair() { testAwaitLockCount(true); }
1194	<	//     public void testAwaitLockCount(boolean fair) {
1195	<	//         final PublicReentrantReadWriteLock lock =
1196	<	//             new PublicReentrantReadWriteLock(fair);
1197	<	//         final Condition c = lock.writeLock().newCondition();
1198	<	//         final CountDownLatch locked = new CountDownLatch(2);
1199	<	//         Thread t1 = newStartedThread(new CheckedRunnable() {
1200	<	//             public void realRun() throws InterruptedException {
1201	<	//                 lock.writeLock().lock();
1202	<	//                 assertWriteLockedByMoi(lock);
1203	<	//                 assertEquals(1, lock.writeLock().getHoldCount());
1204	<	//                 locked.countDown();
1205	<	//                 c.await();
1206	<	//                 assertWriteLockedByMoi(lock);
1207	<	//                 assertEquals(1, lock.writeLock().getHoldCount());
1208	<	//                 lock.writeLock().unlock();
1209	<	//             }});
1210	<
1211	<	//         Thread t2 = newStartedThread(new CheckedRunnable() {
1212	<	//             public void realRun() throws InterruptedException {
1213	<	//                 lock.writeLock().lock();
1214	<	//                 lock.writeLock().lock();
1215	<	//                 assertWriteLockedByMoi(lock);
1216	<	//                 assertEquals(2, lock.writeLock().getHoldCount());
1217	<	//                 locked.countDown();
1218	<	//                 c.await();
1219	<	//                 assertWriteLockedByMoi(lock);
1220	<	//                 assertEquals(2, lock.writeLock().getHoldCount());
1221	<	//                 lock.writeLock().unlock();
1222	<	//                 lock.writeLock().unlock();
1223	<	//             }});
1224	<
1225	<	//         await(locked);
1226	<	//         lock.writeLock().lock();
1227	<	//         assertHasWaiters(lock, c, t1, t2);
1228	<	//         c.signalAll();
1229	<	//         assertHasNoWaiters(lock, c);
1230	<	//         lock.writeLock().unlock();
1231	<	//         awaitTermination(t1);
1232	<	//         awaitTermination(t2);
1233	<	//     }
1234	<
1235	<	//     /**
1236	<	//      * A serialized lock deserializes as unlocked
1237	<	//      */
1238	<	//     public void testSerialization()      { testSerialization(false); }
1239	<	//     public void testSerialization_fair() { testSerialization(true); }
1240	<	//     public void testSerialization(boolean fair) {
1241	<	//         ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1242	<	//         lock.writeLock().lock();
1243	<	//         lock.readLock().lock();
1244	<
1245	<	//         ReentrantReadWriteLock clone = serialClone(lock);
1246	<	//         assertEquals(lock.isFair(), clone.isFair());
1247	<	//         assertTrue(lock.isWriteLocked());
1248	<	//         assertFalse(clone.isWriteLocked());
1249	<	//         assertEquals(1, lock.getReadLockCount());
1250	<	//         assertEquals(0, clone.getReadLockCount());
1251	<	//         clone.writeLock().lock();
1252	<	//         clone.readLock().lock();
1253	<	//         assertTrue(clone.isWriteLocked());
1254	<	//         assertEquals(1, clone.getReadLockCount());
1255	<	//         clone.readLock().unlock();
1256	<	//         clone.writeLock().unlock();
1257	<	//         assertFalse(clone.isWriteLocked());
1258	<	//         assertEquals(1, lock.getReadLockCount());
1259	<	//         assertEquals(0, clone.getReadLockCount());
1260	<	//     }
1261	<
1262	<	//     /**
1263	<	//      * hasQueuedThreads reports whether there are waiting threads
1264	<	//      */
1265	<	//     public void testHasQueuedThreads()      { testHasQueuedThreads(false); }
1266	<	//     public void testHasQueuedThreads_fair() { testHasQueuedThreads(true); }
1267	<	//     public void testHasQueuedThreads(boolean fair) {
1268	<	//         final PublicReentrantReadWriteLock lock =
1269	<	//             new PublicReentrantReadWriteLock(fair);
1270	<	//         Thread t1 = new Thread(new InterruptedLockRunnable(lock));
1271	<	//         Thread t2 = new Thread(new InterruptibleLockRunnable(lock));
1272	<	//         assertFalse(lock.hasQueuedThreads());
1273	<	//         lock.writeLock().lock();
1274	<	//         assertFalse(lock.hasQueuedThreads());
1275	<	//         t1.start();
1276	<	//         waitForQueuedThread(lock, t1);
1277	<	//         assertTrue(lock.hasQueuedThreads());
1278	<	//         t2.start();
1279	<	//         waitForQueuedThread(lock, t2);
1280	<	//         assertTrue(lock.hasQueuedThreads());
1281	<	//         t1.interrupt();
1282	<	//         awaitTermination(t1);
1283	<	//         assertTrue(lock.hasQueuedThreads());
1284	<	//         lock.writeLock().unlock();
1285	<	//         awaitTermination(t2);
1286	<	//         assertFalse(lock.hasQueuedThreads());
1287	<	//     }
1288	<
1289	<	//     /**
1290	<	//      * hasQueuedThread(null) throws NPE
1291	<	//      */
1292	<	//     public void testHasQueuedThreadNPE()      { testHasQueuedThreadNPE(false); }
1293	<	//     public void testHasQueuedThreadNPE_fair() { testHasQueuedThreadNPE(true); }
1294	<	//     public void testHasQueuedThreadNPE(boolean fair) {
1295	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1296	<	//         try {
1297	<	//             lock.hasQueuedThread(null);
1298	<	//             shouldThrow();
1299	<	//         } catch (NullPointerException success) {}
1300	<	//     }
1301	<
1302	<	//     /**
1303	<	//      * hasQueuedThread reports whether a thread is queued
1304	<	//      */
1305	<	//     public void testHasQueuedThread()      { testHasQueuedThread(false); }
1306	<	//     public void testHasQueuedThread_fair() { testHasQueuedThread(true); }
1307	<	//     public void testHasQueuedThread(boolean fair) {
1308	<	//         final PublicReentrantReadWriteLock lock =
1309	<	//             new PublicReentrantReadWriteLock(fair);
1310	<	//         Thread t1 = new Thread(new InterruptedLockRunnable(lock));
1311	<	//         Thread t2 = new Thread(new InterruptibleLockRunnable(lock));
1312	<	//         assertFalse(lock.hasQueuedThread(t1));
1313	<	//         assertFalse(lock.hasQueuedThread(t2));
1314	<	//         lock.writeLock().lock();
1315	<	//         t1.start();
1316	<	//         waitForQueuedThread(lock, t1);
1317	<	//         assertTrue(lock.hasQueuedThread(t1));
1318	<	//         assertFalse(lock.hasQueuedThread(t2));
1319	<	//         t2.start();
1320	<	//         waitForQueuedThread(lock, t2);
1321	<	//         assertTrue(lock.hasQueuedThread(t1));
1322	<	//         assertTrue(lock.hasQueuedThread(t2));
1323	<	//         t1.interrupt();
1324	<	//         awaitTermination(t1);
1325	<	//         assertFalse(lock.hasQueuedThread(t1));
1326	<	//         assertTrue(lock.hasQueuedThread(t2));
1327	<	//         lock.writeLock().unlock();
1328	<	//         awaitTermination(t2);
1329	<	//         assertFalse(lock.hasQueuedThread(t1));
1330	<	//         assertFalse(lock.hasQueuedThread(t2));
1331	<	//     }
1332	<
1333	<	//     /**
1334	<	//      * getQueueLength reports number of waiting threads
1335	<	//      */
1336	<	//     public void testGetQueueLength()      { testGetQueueLength(false); }
1337	<	//     public void testGetQueueLength_fair() { testGetQueueLength(true); }
1338	<	//     public void testGetQueueLength(boolean fair) {
1339	<	//         final PublicReentrantReadWriteLock lock =
1340	<	//             new PublicReentrantReadWriteLock(fair);
1341	<	//         Thread t1 = new Thread(new InterruptedLockRunnable(lock));
1342	<	//         Thread t2 = new Thread(new InterruptibleLockRunnable(lock));
1343	<	//         assertEquals(0, lock.getQueueLength());
1344	<	//         lock.writeLock().lock();
1345	<	//         t1.start();
1346	<	//         waitForQueuedThread(lock, t1);
1347	<	//         assertEquals(1, lock.getQueueLength());
1348	<	//         t2.start();
1349	<	//         waitForQueuedThread(lock, t2);
1350	<	//         assertEquals(2, lock.getQueueLength());
1351	<	//         t1.interrupt();
1352	<	//         awaitTermination(t1);
1353	<	//         assertEquals(1, lock.getQueueLength());
1354	<	//         lock.writeLock().unlock();
1355	<	//         awaitTermination(t2);
1356	<	//         assertEquals(0, lock.getQueueLength());
1357	<	//     }
1358	<
1359	<	//     /**
1360	<	//      * getQueuedThreads includes waiting threads
1361	<	//      */
1362	<	//     public void testGetQueuedThreads()      { testGetQueuedThreads(false); }
1363	<	//     public void testGetQueuedThreads_fair() { testGetQueuedThreads(true); }
1364	<	//     public void testGetQueuedThreads(boolean fair) {
1365	<	//         final PublicReentrantReadWriteLock lock =
1366	<	//             new PublicReentrantReadWriteLock(fair);
1367	<	//         Thread t1 = new Thread(new InterruptedLockRunnable(lock));
1368	<	//         Thread t2 = new Thread(new InterruptibleLockRunnable(lock));
1369	<	//         assertTrue(lock.getQueuedThreads().isEmpty());
1370	<	//         lock.writeLock().lock();
1371	<	//         assertTrue(lock.getQueuedThreads().isEmpty());
1372	<	//         t1.start();
1373	<	//         waitForQueuedThread(lock, t1);
1374	<	//         assertEquals(1, lock.getQueuedThreads().size());
1375	<	//         assertTrue(lock.getQueuedThreads().contains(t1));
1376	<	//         t2.start();
1377	<	//         waitForQueuedThread(lock, t2);
1378	<	//         assertEquals(2, lock.getQueuedThreads().size());
1379	<	//         assertTrue(lock.getQueuedThreads().contains(t1));
1380	<	//         assertTrue(lock.getQueuedThreads().contains(t2));
1381	<	//         t1.interrupt();
1382	<	//         awaitTermination(t1);
1383	<	//         assertFalse(lock.getQueuedThreads().contains(t1));
1384	<	//         assertTrue(lock.getQueuedThreads().contains(t2));
1385	<	//         assertEquals(1, lock.getQueuedThreads().size());
1386	<	//         lock.writeLock().unlock();
1387	<	//         awaitTermination(t2);
1388	<	//         assertTrue(lock.getQueuedThreads().isEmpty());
1389	<	//     }
1390	<
1391	<	//     /**
1392	<	//      * hasWaiters throws NPE if null
1393	<	//      */
1394	<	//     public void testHasWaitersNPE()      { testHasWaitersNPE(false); }
1395	<	//     public void testHasWaitersNPE_fair() { testHasWaitersNPE(true); }
1396	<	//     public void testHasWaitersNPE(boolean fair) {
1397	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1398	<	//         try {
1399	<	//             lock.hasWaiters(null);
1400	<	//             shouldThrow();
1401	<	//         } catch (NullPointerException success) {}
1402	<	//     }
1403	<
1404	<	//     /**
1405	<	//      * getWaitQueueLength throws NPE if null
1406	<	//      */
1407	<	//     public void testGetWaitQueueLengthNPE()      { testGetWaitQueueLengthNPE(false); }
1408	<	//     public void testGetWaitQueueLengthNPE_fair() { testGetWaitQueueLengthNPE(true); }
1409	<	//     public void testGetWaitQueueLengthNPE(boolean fair) {
1410	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1411	<	//         try {
1412	<	//             lock.getWaitQueueLength(null);
1413	<	//             shouldThrow();
1414	<	//         } catch (NullPointerException success) {}
1415	<	//     }
1416	<
1417	<	//     /**
1418	<	//      * getWaitingThreads throws NPE if null
1419	<	//      */
1420	<	//     public void testGetWaitingThreadsNPE()      { testGetWaitingThreadsNPE(false); }
1421	<	//     public void testGetWaitingThreadsNPE_fair() { testGetWaitingThreadsNPE(true); }
1422	<	//     public void testGetWaitingThreadsNPE(boolean fair) {
1423	<	//         final PublicReentrantReadWriteLock lock = new PublicReentrantReadWriteLock(fair);
1424	<	//         try {
1425	<	//             lock.getWaitingThreads(null);
1426	<	//             shouldThrow();
1427	<	//         } catch (NullPointerException success) {}
1428	<	//     }
1429	<
1430	<	//     /**
1431	<	//      * hasWaiters throws IllegalArgumentException if not owned
1432	<	//      */
1433	<	//     public void testHasWaitersIAE()      { testHasWaitersIAE(false); }
1434	<	//     public void testHasWaitersIAE_fair() { testHasWaitersIAE(true); }
1435	<	//     public void testHasWaitersIAE(boolean fair) {
1436	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1437	<	//         final Condition c = lock.writeLock().newCondition();
1438	<	//         final ReentrantReadWriteLock lock2 = new ReentrantReadWriteLock(fair);
1439	<	//         try {
1440	<	//             lock2.hasWaiters(c);
1441	<	//             shouldThrow();
1442	<	//         } catch (IllegalArgumentException success) {}
1443	<	//     }
1444	<
1445	<	//     /**
1446	<	//      * hasWaiters throws IllegalMonitorStateException if not locked
1447	<	//      */
1448	<	//     public void testHasWaitersIMSE()      { testHasWaitersIMSE(false); }
1449	<	//     public void testHasWaitersIMSE_fair() { testHasWaitersIMSE(true); }
1450	<	//     public void testHasWaitersIMSE(boolean fair) {
1451	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1452	<	//         final Condition c = lock.writeLock().newCondition();
1453	<	//         try {
1454	<	//             lock.hasWaiters(c);
1455	<	//             shouldThrow();
1456	<	//         } catch (IllegalMonitorStateException success) {}
1457	<	//     }
1458	<
1459	<	//     /**
1460	<	//      * getWaitQueueLength throws IllegalArgumentException if not owned
1461	<	//      */
1462	<	//     public void testGetWaitQueueLengthIAE()      { testGetWaitQueueLengthIAE(false); }
1463	<	//     public void testGetWaitQueueLengthIAE_fair() { testGetWaitQueueLengthIAE(true); }
1464	<	//     public void testGetWaitQueueLengthIAE(boolean fair) {
1465	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1466	<	//         final Condition c = lock.writeLock().newCondition();
1467	<	//         final ReentrantReadWriteLock lock2 = new ReentrantReadWriteLock(fair);
1468	<	//         try {
1469	<	//             lock2.getWaitQueueLength(c);
1470	<	//             shouldThrow();
1471	<	//         } catch (IllegalArgumentException success) {}
1472	<	//     }
1473	<
1474	<	//     /**
1475	<	//      * getWaitQueueLength throws IllegalMonitorStateException if not locked
1476	<	//      */
1477	<	//     public void testGetWaitQueueLengthIMSE()      { testGetWaitQueueLengthIMSE(false); }
1478	<	//     public void testGetWaitQueueLengthIMSE_fair() { testGetWaitQueueLengthIMSE(true); }
1479	<	//     public void testGetWaitQueueLengthIMSE(boolean fair) {
1480	<	//         final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1481	<	//         final Condition c = lock.writeLock().newCondition();
1482	<	//         try {
1483	<	//             lock.getWaitQueueLength(c);
1484	<	//             shouldThrow();
1485	<	//         } catch (IllegalMonitorStateException success) {}
1486	<	//     }
1487	<
1488	<	//     /**
1489	<	//      * getWaitingThreads throws IllegalArgumentException if not owned
1490	<	//      */
1491	<	//     public void testGetWaitingThreadsIAE()      { testGetWaitingThreadsIAE(false); }
1492	<	//     public void testGetWaitingThreadsIAE_fair() { testGetWaitingThreadsIAE(true); }
1493	<	//     public void testGetWaitingThreadsIAE(boolean fair) {
1494	<	//         final PublicReentrantReadWriteLock lock =
1495	<	//             new PublicReentrantReadWriteLock(fair);
1496	<	//         final Condition c = lock.writeLock().newCondition();
1497	<	//         final PublicReentrantReadWriteLock lock2 =
1498	<	//             new PublicReentrantReadWriteLock(fair);
1499	<	//         try {
1500	<	//             lock2.getWaitingThreads(c);
1501	<	//             shouldThrow();
1502	<	//         } catch (IllegalArgumentException success) {}
1503	<	//     }
1504	<
1505	<	//     /**
1506	<	//      * getWaitingThreads throws IllegalMonitorStateException if not locked
1507	<	//      */
1508	<	//     public void testGetWaitingThreadsIMSE()      { testGetWaitingThreadsIMSE(false); }
1509	<	//     public void testGetWaitingThreadsIMSE_fair() { testGetWaitingThreadsIMSE(true); }
1510	<	//     public void testGetWaitingThreadsIMSE(boolean fair) {
1511	<	//         final PublicReentrantReadWriteLock lock =
1512	<	//             new PublicReentrantReadWriteLock(fair);
1513	<	//         final Condition c = lock.writeLock().newCondition();
1514	<	//         try {
1515	<	//             lock.getWaitingThreads(c);
1516	<	//             shouldThrow();
1517	<	//         } catch (IllegalMonitorStateException success) {}
1518	<	//     }
1519	<
1520	<	//     /**
1521	<	//      * hasWaiters returns true when a thread is waiting, else false
1522	<	//      */
1523	<	//     public void testHasWaiters()      { testHasWaiters(false); }
1524	<	//     public void testHasWaiters_fair() { testHasWaiters(true); }
1525	<	//     public void testHasWaiters(boolean fair) {
1526	<	//         final PublicReentrantReadWriteLock lock =
1527	<	//             new PublicReentrantReadWriteLock(fair);
1528	<	//         final Condition c = lock.writeLock().newCondition();
1529	<	//         final CountDownLatch locked = new CountDownLatch(1);
1530	<	//         Thread t = newStartedThread(new CheckedRunnable() {
1531	<	//             public void realRun() throws InterruptedException {
1532	<	//                 lock.writeLock().lock();
1533	<	//                 assertHasNoWaiters(lock, c);
1534	<	//                 assertFalse(lock.hasWaiters(c));
1535	<	//                 locked.countDown();
1536	<	//                 c.await();
1537	<	//                 assertHasNoWaiters(lock, c);
1538	<	//                 assertFalse(lock.hasWaiters(c));
1539	<	//                 lock.writeLock().unlock();
1540	<	//             }});
1541	<
1542	<	//         await(locked);
1543	<	//         lock.writeLock().lock();
1544	<	//         assertHasWaiters(lock, c, t);
1545	<	//         assertTrue(lock.hasWaiters(c));
1546	<	//         c.signal();
1547	<	//         assertHasNoWaiters(lock, c);
1548	<	//         assertFalse(lock.hasWaiters(c));
1549	<	//         lock.writeLock().unlock();
1550	<	//         awaitTermination(t);
1551	<	//         assertHasNoWaiters(lock, c);
1552	<	//     }
1553	<
1554	<	//     /**
1555	<	//      * getWaitQueueLength returns number of waiting threads
1556	<	//      */
1557	<	//     public void testGetWaitQueueLength()      { testGetWaitQueueLength(false); }
1558	<	//     public void testGetWaitQueueLength_fair() { testGetWaitQueueLength(true); }
1559	<	//     public void testGetWaitQueueLength(boolean fair) {
1560	<	//         final PublicReentrantReadWriteLock lock =
1561	<	//             new PublicReentrantReadWriteLock(fair);
1562	<	//         final Condition c = lock.writeLock().newCondition();
1563	<	//         final CountDownLatch locked = new CountDownLatch(1);
1564	<	//         Thread t = newStartedThread(new CheckedRunnable() {
1565	<	//             public void realRun() throws InterruptedException {
1566	<	//                 lock.writeLock().lock();
1567	<	//                 assertEquals(0, lock.getWaitQueueLength(c));
1568	<	//                 locked.countDown();
1569	<	//                 c.await();
1570	<	//                 lock.writeLock().unlock();
1571	<	//             }});
1572	<
1573	<	//         await(locked);
1574	<	//         lock.writeLock().lock();
1575	<	//         assertHasWaiters(lock, c, t);
1576	<	//         assertEquals(1, lock.getWaitQueueLength(c));
1577	<	//         c.signal();
1578	<	//         assertHasNoWaiters(lock, c);
1579	<	//         assertEquals(0, lock.getWaitQueueLength(c));
1580	<	//         lock.writeLock().unlock();
1581	<	//         awaitTermination(t);
1582	<	//     }
1583	<
1584	<	//     /**
1585	<	//      * getWaitingThreads returns only and all waiting threads
1586	<	//      */
1587	<	//     public void testGetWaitingThreads()      { testGetWaitingThreads(false); }
1588	<	//     public void testGetWaitingThreads_fair() { testGetWaitingThreads(true); }
1589	<	//     public void testGetWaitingThreads(boolean fair) {
1590	<	//         final PublicReentrantReadWriteLock lock =
1591	<	//             new PublicReentrantReadWriteLock(fair);
1592	<	//         final Condition c = lock.writeLock().newCondition();
1593	<	//         final CountDownLatch locked1 = new CountDownLatch(1);
1594	<	//         final CountDownLatch locked2 = new CountDownLatch(1);
1595	<	//         Thread t1 = new Thread(new CheckedRunnable() {
1596	<	//             public void realRun() throws InterruptedException {
1597	<	//                 lock.writeLock().lock();
1598	<	//                 assertTrue(lock.getWaitingThreads(c).isEmpty());
1599	<	//                 locked1.countDown();
1600	<	//                 c.await();
1601	<	//                 lock.writeLock().unlock();
1602	<	//             }});
1603	<
1604	<	//         Thread t2 = new Thread(new CheckedRunnable() {
1605	<	//             public void realRun() throws InterruptedException {
1606	<	//                 lock.writeLock().lock();
1607	<	//                 assertFalse(lock.getWaitingThreads(c).isEmpty());
1608	<	//                 locked2.countDown();
1609	<	//                 c.await();
1610	<	//                 lock.writeLock().unlock();
1611	<	//             }});
1612	<
1613	<	//         lock.writeLock().lock();
1614	<	//         assertTrue(lock.getWaitingThreads(c).isEmpty());
1615	<	//         lock.writeLock().unlock();
1616	<
1617	<	//         t1.start();
1618	<	//         await(locked1);
1619	<	//         t2.start();
1620	<	//         await(locked2);
1621	<
1622	<	//         lock.writeLock().lock();
1623	<	//         assertTrue(lock.hasWaiters(c));
1624	<	//         assertTrue(lock.getWaitingThreads(c).contains(t1));
1625	<	//         assertTrue(lock.getWaitingThreads(c).contains(t2));
1626	<	//         assertEquals(2, lock.getWaitingThreads(c).size());
1627	<	//         c.signalAll();
1628	<	//         assertHasNoWaiters(lock, c);
1629	<	//         lock.writeLock().unlock();
1630	<
1631	<	//         awaitTermination(t1);
1632	<	//         awaitTermination(t2);
1633	<
1634	<	//         assertHasNoWaiters(lock, c);
1635	<	//     }
1636	<
1637	<	//     /**
1638	<	//      * toString indicates current lock state
1639	<	//      */
1640	<	//     public void testToString()      { testToString(false); }
1641	<	//     public void testToString_fair() { testToString(true); }
1642	<	//     public void testToString(boolean fair) {
1643	<	//         ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1644	<	//         assertTrue(lock.toString().contains("Write locks = 0"));
1645	<	//         assertTrue(lock.toString().contains("Read locks = 0"));
1646	<	//         lock.writeLock().lock();
1647	<	//         assertTrue(lock.toString().contains("Write locks = 1"));
1648	<	//         assertTrue(lock.toString().contains("Read locks = 0"));
1649	<	//         lock.writeLock().unlock();
1650	<	//         lock.readLock().lock();
1651	<	//         lock.readLock().lock();
1652	<	//         assertTrue(lock.toString().contains("Write locks = 0"));
1653	<	//         assertTrue(lock.toString().contains("Read locks = 2"));
1654	<	//     }
1655	<
1656	<	//     /**
1657	<	//      * readLock.toString indicates current lock state
1658	<	//      */
1659	<	//     public void testReadLockToString()      { testReadLockToString(false); }
1660	<	//     public void testReadLockToString_fair() { testReadLockToString(true); }
1661	<	//     public void testReadLockToString(boolean fair) {
1662	<	//         ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1663	<	//         assertTrue(lock.readLock().toString().contains("Read locks = 0"));
1664	<	//         lock.readLock().lock();
1665	<	//         lock.readLock().lock();
1666	<	//         assertTrue(lock.readLock().toString().contains("Read locks = 2"));
1667	<	//     }
1668	<
1669	<	//     /**
1670	<	//      * writeLock.toString indicates current lock state
1671	<	//      */
1672	<	//     public void testWriteLockToString()      { testWriteLockToString(false); }
1673	<	//     public void testWriteLockToString_fair() { testWriteLockToString(true); }
1674	<	//     public void testWriteLockToString(boolean fair) {
1675	<	//         ReentrantReadWriteLock lock = new ReentrantReadWriteLock(fair);
1676	<	//         assertTrue(lock.writeLock().toString().contains("Unlocked"));
1677	<	//         lock.writeLock().lock();
1678	<	//         assertTrue(lock.writeLock().toString().contains("Locked"));
1679	<	//         lock.writeLock().unlock();
1680	<	//         assertTrue(lock.writeLock().toString().contains("Unlocked"));
1681	<	//     }
34	>	/**
35	>	* Releases write lock, checking isWriteLocked before and after
36	>	*/
37	>	void releaseWriteLock(StampedLock lock, long stamp) {
38	>	assertTrue(lock.isWriteLocked());
39	>	assertValid(lock, stamp);
40	>	lock.unlockWrite(stamp);
41	>	assertFalse(lock.isWriteLocked());
42	>	assertFalse(lock.validate(stamp));
43	>	}
44	>
45	>	/**
46	>	* Releases read lock, checking isReadLocked before and after
47	>	*/
48	>	void releaseReadLock(StampedLock lock, long stamp) {
49	>	assertTrue(lock.isReadLocked());
50	>	assertValid(lock, stamp);
51	>	lock.unlockRead(stamp);
52	>	assertFalse(lock.isReadLocked());
53	>	assertTrue(lock.validate(stamp));
54	>	}
55	>
56	>	long assertNonZero(long v) {
57	>	assertTrue(v != 0L);
58	>	return v;
59	>	}
60	>
61	>	long assertValid(StampedLock lock, long stamp) {
62	>	assertTrue(stamp != 0L);
63	>	assertTrue(lock.validate(stamp));
64	>	return stamp;
65	>	}
66	>
67	>	void assertUnlocked(StampedLock lock) {
68	>	assertFalse(lock.isReadLocked());
69	>	assertFalse(lock.isWriteLocked());
70	>	assertEquals(0, lock.getReadLockCount());
71	>	assertValid(lock, lock.tryOptimisticRead());
72	>	}
73	>
74	>	List<Action> lockLockers(Lock lock) {
75	>	List<Action> lockers = new ArrayList<>();
76	>	lockers.add(() -> lock.lock());
77	>	lockers.add(() -> lock.lockInterruptibly());
78	>	lockers.add(() -> lock.tryLock());
79	>	lockers.add(() -> lock.tryLock(Long.MIN_VALUE, DAYS));
80	>	lockers.add(() -> lock.tryLock(0L, DAYS));
81	>	lockers.add(() -> lock.tryLock(Long.MAX_VALUE, DAYS));
82	>	return lockers;
83	>	}
84	>
85	>	List<Function<StampedLock, Long>> readLockers() {
86	>	List<Function<StampedLock, Long>> readLockers = new ArrayList<>();
87	>	readLockers.add((sl) -> sl.readLock());
88	>	readLockers.add((sl) -> sl.tryReadLock());
89	>	readLockers.add((sl) -> readLockInterruptiblyUninterrupted(sl));
90	>	readLockers.add((sl) -> tryReadLockUninterrupted(sl, Long.MIN_VALUE, DAYS));
91	>	readLockers.add((sl) -> tryReadLockUninterrupted(sl, 0L, DAYS));
92	>	readLockers.add((sl) -> sl.tryConvertToReadLock(sl.tryOptimisticRead()));
93	>	return readLockers;
94	>	}
95	>
96	>	List<BiConsumer<StampedLock, Long>> readUnlockers() {
97	>	List<BiConsumer<StampedLock, Long>> readUnlockers = new ArrayList<>();
98	>	readUnlockers.add((sl, stamp) -> sl.unlockRead(stamp));
99	>	readUnlockers.add((sl, stamp) -> assertTrue(sl.tryUnlockRead()));
100	>	readUnlockers.add((sl, stamp) -> sl.asReadLock().unlock());
101	>	readUnlockers.add((sl, stamp) -> sl.unlock(stamp));
102	>	readUnlockers.add((sl, stamp) -> assertValid(sl, sl.tryConvertToOptimisticRead(stamp)));
103	>	return readUnlockers;
104	>	}
105	>
106	>	List<Function<StampedLock, Long>> writeLockers() {
107	>	List<Function<StampedLock, Long>> writeLockers = new ArrayList<>();
108	>	writeLockers.add((sl) -> sl.writeLock());
109	>	writeLockers.add((sl) -> sl.tryWriteLock());
110	>	writeLockers.add((sl) -> writeLockInterruptiblyUninterrupted(sl));
111	>	writeLockers.add((sl) -> tryWriteLockUninterrupted(sl, Long.MIN_VALUE, DAYS));
112	>	writeLockers.add((sl) -> tryWriteLockUninterrupted(sl, 0L, DAYS));
113	>	writeLockers.add((sl) -> sl.tryConvertToWriteLock(sl.tryOptimisticRead()));
114	>	return writeLockers;
115	>	}
116	>
117	>	List<BiConsumer<StampedLock, Long>> writeUnlockers() {
118	>	List<BiConsumer<StampedLock, Long>> writeUnlockers = new ArrayList<>();
119	>	writeUnlockers.add((sl, stamp) -> sl.unlockWrite(stamp));
120	>	writeUnlockers.add((sl, stamp) -> assertTrue(sl.tryUnlockWrite()));
121	>	writeUnlockers.add((sl, stamp) -> sl.asWriteLock().unlock());
122	>	writeUnlockers.add((sl, stamp) -> sl.unlock(stamp));
123	>	writeUnlockers.add((sl, stamp) -> assertValid(sl, sl.tryConvertToOptimisticRead(stamp)));
124	>	return writeUnlockers;
125	>	}
126	>
127	>	/**
128	>	* Constructed StampedLock is in unlocked state
129	>	*/
130	>	public void testConstructor() {
131	>	assertUnlocked(new StampedLock());
132	>	}
133	>
134	>	/**
135	>	* write-locking, then unlocking, an unlocked lock succeed
136	>	*/
137	>	public void testWriteLock_lockUnlock() {
138	>	StampedLock lock = new StampedLock();
139	>
140	>	for (Function<StampedLock, Long> writeLocker : writeLockers())
141	>	for (BiConsumer<StampedLock, Long> writeUnlocker : writeUnlockers()) {
142	>	assertFalse(lock.isWriteLocked());
143	>	assertFalse(lock.isReadLocked());
144	>	assertEquals(0, lock.getReadLockCount());
145	>
146	>	long s = writeLocker.apply(lock);
147	>	assertValid(lock, s);
148	>	assertTrue(lock.isWriteLocked());
149	>	assertFalse(lock.isReadLocked());
150	>	assertEquals(0, lock.getReadLockCount());
151	>	writeUnlocker.accept(lock, s);
152	>	assertUnlocked(lock);
153	>	}
154	>	}
155	>
156	>	/**
157	>	* read-locking, then unlocking, an unlocked lock succeed
158	>	*/
159	>	public void testReadLock_lockUnlock() {
160	>	StampedLock lock = new StampedLock();
161	>
162	>	for (Function<StampedLock, Long> readLocker : readLockers())
163	>	for (BiConsumer<StampedLock, Long> readUnlocker : readUnlockers()) {
164	>	long s = 42;
165	>	for (int i = 0; i < 2; i++) {
166	>	s = assertValid(lock, readLocker.apply(lock));
167	>	assertFalse(lock.isWriteLocked());
168	>	assertTrue(lock.isReadLocked());
169	>	assertEquals(i + 1, lock.getReadLockCount());
170	>	}
171	>	for (int i = 0; i < 2; i++) {
172	>	assertFalse(lock.isWriteLocked());
173	>	assertTrue(lock.isReadLocked());
174	>	assertEquals(2 - i, lock.getReadLockCount());
175	>	readUnlocker.accept(lock, s);
176	>	}
177	>	assertUnlocked(lock);
178	>	}
179	>	}
180	>
181	>	/**
182	>	* tryUnlockWrite fails if not write locked
183	>	*/
184	>	public void testTryUnlockWrite_failure() {
185	>	StampedLock lock = new StampedLock();
186	>	assertFalse(lock.tryUnlockWrite());
187	>
188	>	for (Function<StampedLock, Long> readLocker : readLockers())
189	>	for (BiConsumer<StampedLock, Long> readUnlocker : readUnlockers()) {
190	>	long s = assertValid(lock, readLocker.apply(lock));
191	>	assertFalse(lock.tryUnlockWrite());
192	>	assertTrue(lock.isReadLocked());
193	>	readUnlocker.accept(lock, s);
194	>	assertUnlocked(lock);
195	>	}
196	>	}
197	>
198	>	/**
199	>	* tryUnlockRead fails if not read locked
200	>	*/
201	>	public void testTryUnlockRead_failure() {
202	>	StampedLock lock = new StampedLock();
203	>	assertFalse(lock.tryUnlockRead());
204	>
205	>	for (Function<StampedLock, Long> writeLocker : writeLockers())
206	>	for (BiConsumer<StampedLock, Long> writeUnlocker : writeUnlockers()) {
207	>	long s = writeLocker.apply(lock);
208	>	assertFalse(lock.tryUnlockRead());
209	>	assertTrue(lock.isWriteLocked());
210	>	writeUnlocker.accept(lock, s);
211	>	assertUnlocked(lock);
212	>	}
213	>	}
214	>
215	>	/**
216	>	* validate(0L) fails
217	>	*/
218	>	public void testValidate0() {
219	>	StampedLock lock = new StampedLock();
220	>	assertFalse(lock.validate(0L));
221	>	}
222	>
223	>	/**
224	>	* A stamp obtained from a successful lock operation validates while the lock is held
225	>	*/
226	>	public void testValidate() throws InterruptedException {
227	>	StampedLock lock = new StampedLock();
228	>
229	>	for (Function<StampedLock, Long> readLocker : readLockers())
230	>	for (BiConsumer<StampedLock, Long> readUnlocker : readUnlockers()) {
231	>	long s = assertNonZero(readLocker.apply(lock));
232	>	assertTrue(lock.validate(s));
233	>	readUnlocker.accept(lock, s);
234	>	}
235	>
236	>	for (Function<StampedLock, Long> writeLocker : writeLockers())
237	>	for (BiConsumer<StampedLock, Long> writeUnlocker : writeUnlockers()) {
238	>	long s = assertNonZero(writeLocker.apply(lock));
239	>	assertTrue(lock.validate(s));
240	>	writeUnlocker.accept(lock, s);
241	>	}
242	>	}
243	>
244	>	/**
245	>	* A stamp obtained from an unsuccessful lock operation does not validate
246	>	*/
247	>	public void testValidate2() throws InterruptedException {
248	>	StampedLock lock = new StampedLock();
249	>	long s = assertNonZero(lock.writeLock());
250	>	assertTrue(lock.validate(s));
251	>	assertFalse(lock.validate(lock.tryWriteLock()));
252	>	assertFalse(lock.validate(lock.tryWriteLock(0L, SECONDS)));
253	>	assertFalse(lock.validate(lock.tryReadLock()));
254	>	assertFalse(lock.validate(lock.tryReadLock(0L, SECONDS)));
255	>	assertFalse(lock.validate(lock.tryOptimisticRead()));
256	>	lock.unlockWrite(s);
257	>	}
258	>
259	>	void assertThrowInterruptedExceptionWhenPreInterrupted(Action[] actions) {
260	>	for (Action action : actions) {
261	>	Thread.currentThread().interrupt();
262	>	try {
263	>	action.run();
264	>	shouldThrow();
265	>	}
266	>	catch (InterruptedException success) {}
267	>	catch (Throwable fail) { threadUnexpectedException(fail); }
268	>	assertFalse(Thread.interrupted());
269	>	}
270	>	}
271	>
272	>	/**
273	>	* interruptible operations throw InterruptedException when pre-interrupted
274	>	*/
275	>	public void testInterruptibleOperationsThrowInterruptedExceptionWhenPreInterrupted() {
276	>	final CountDownLatch running = new CountDownLatch(1);
277	>	final StampedLock lock = new StampedLock();
278	>
279	>	Action[] interruptibleLockActions = {
280	>	() -> lock.writeLockInterruptibly(),
281	>	() -> lock.tryWriteLock(Long.MIN_VALUE, DAYS),
282	>	() -> lock.tryWriteLock(Long.MAX_VALUE, DAYS),
283	>	() -> lock.readLockInterruptibly(),
284	>	() -> lock.tryReadLock(Long.MIN_VALUE, DAYS),
285	>	() -> lock.tryReadLock(Long.MAX_VALUE, DAYS),
286	>	() -> lock.asWriteLock().lockInterruptibly(),
287	>	() -> lock.asWriteLock().tryLock(0L, DAYS),
288	>	() -> lock.asWriteLock().tryLock(Long.MAX_VALUE, DAYS),
289	>	() -> lock.asReadLock().lockInterruptibly(),
290	>	() -> lock.asReadLock().tryLock(0L, DAYS),
291	>	() -> lock.asReadLock().tryLock(Long.MAX_VALUE, DAYS),
292	>	};
293	>	shuffle(interruptibleLockActions);
294	>
295	>	assertThrowInterruptedExceptionWhenPreInterrupted(interruptibleLockActions);
296	>	{
297	>	long s = lock.writeLock();
298	>	assertThrowInterruptedExceptionWhenPreInterrupted(interruptibleLockActions);
299	>	lock.unlockWrite(s);
300	>	}
301	>	{
302	>	long s = lock.readLock();
303	>	assertThrowInterruptedExceptionWhenPreInterrupted(interruptibleLockActions);
304	>	lock.unlockRead(s);
305	>	}
306	>	}
307	>
308	>	void assertThrowInterruptedExceptionWhenInterrupted(Action[] actions) {
309	>	int n = actions.length;
310	>	Future<?>[] futures = new Future<?>[n];
311	>	CountDownLatch threadsStarted = new CountDownLatch(n);
312	>	CountDownLatch done = new CountDownLatch(n);
313	>
314	>	for (int i = 0; i < n; i++) {
315	>	Action action = actions[i];
316	>	futures[i] = cachedThreadPool.submit(new CheckedRunnable() {
317	>	public void realRun() throws Throwable {
318	>	threadsStarted.countDown();
319	>	try {
320	>	action.run();
321	>	shouldThrow();
322	>	}
323	>	catch (InterruptedException success) {}
324	>	catch (Throwable fail) { threadUnexpectedException(fail); }
325	>	assertFalse(Thread.interrupted());
326	>	done.countDown();
327	>	}});
328	>	}
329	>
330	>	await(threadsStarted);
331	>	assertEquals(n, done.getCount());
332	>	for (Future<?> future : futures) // Interrupt all the tasks
333	>	future.cancel(true);
334	>	await(done);
335	>	}
336	>
337	>	/**
338	>	* interruptible operations throw InterruptedException when write locked and interrupted
339	>	*/
340	>	public void testInterruptibleOperationsThrowInterruptedExceptionWriteLockedInterrupted() {
341	>	final CountDownLatch running = new CountDownLatch(1);
342	>	final StampedLock lock = new StampedLock();
343	>	long s = lock.writeLock();
344	>
345	>	Action[] interruptibleLockBlockingActions = {
346	>	() -> lock.writeLockInterruptibly(),
347	>	() -> lock.tryWriteLock(Long.MAX_VALUE, DAYS),
348	>	() -> lock.readLockInterruptibly(),
349	>	() -> lock.tryReadLock(Long.MAX_VALUE, DAYS),
350	>	() -> lock.asWriteLock().lockInterruptibly(),
351	>	() -> lock.asWriteLock().tryLock(Long.MAX_VALUE, DAYS),
352	>	() -> lock.asReadLock().lockInterruptibly(),
353	>	() -> lock.asReadLock().tryLock(Long.MAX_VALUE, DAYS),
354	>	};
355	>	shuffle(interruptibleLockBlockingActions);
356	>
357	>	assertThrowInterruptedExceptionWhenInterrupted(interruptibleLockBlockingActions);
358	>	}
359	>
360	>	/**
361	>	* interruptible operations throw InterruptedException when read locked and interrupted
362	>	*/
363	>	public void testInterruptibleOperationsThrowInterruptedExceptionReadLockedInterrupted() {
364	>	final CountDownLatch running = new CountDownLatch(1);
365	>	final StampedLock lock = new StampedLock();
366	>	long s = lock.readLock();
367	>
368	>	Action[] interruptibleLockBlockingActions = {
369	>	() -> lock.writeLockInterruptibly(),
370	>	() -> lock.tryWriteLock(Long.MAX_VALUE, DAYS),
371	>	() -> lock.asWriteLock().lockInterruptibly(),
372	>	() -> lock.asWriteLock().tryLock(Long.MAX_VALUE, DAYS),
373	>	};
374	>	shuffle(interruptibleLockBlockingActions);
375	>
376	>	assertThrowInterruptedExceptionWhenInterrupted(interruptibleLockBlockingActions);
377	>	}
378	>
379	>	/**
380	>	* Non-interruptible operations ignore and preserve interrupt status
381	>	*/
382	>	public void testNonInterruptibleOperationsIgnoreInterrupts() {
383	>	final StampedLock lock = new StampedLock();
384	>	Thread.currentThread().interrupt();
385	>
386	>	for (BiConsumer<StampedLock, Long> readUnlocker : readUnlockers()) {
387	>	long s = assertValid(lock, lock.readLock());
388	>	readUnlocker.accept(lock, s);
389	>	s = assertValid(lock, lock.tryReadLock());
390	>	readUnlocker.accept(lock, s);
391	>	}
392	>
393	>	lock.asReadLock().lock();
394	>	lock.asReadLock().unlock();
395	>
396	>	for (BiConsumer<StampedLock, Long> writeUnlocker : writeUnlockers()) {
397	>	long s = assertValid(lock, lock.writeLock());
398	>	writeUnlocker.accept(lock, s);
399	>	s = assertValid(lock, lock.tryWriteLock());
400	>	writeUnlocker.accept(lock, s);
401	>	}
402	>
403	>	lock.asWriteLock().lock();
404	>	lock.asWriteLock().unlock();
405	>
406	>	assertTrue(Thread.interrupted());
407	>	}
408	>
409	>	/**
410	>	* tryWriteLock on an unlocked lock succeeds
411	>	*/
412	>	public void testTryWriteLock() {
413	>	final StampedLock lock = new StampedLock();
414	>	long s = lock.tryWriteLock();
415	>	assertTrue(s != 0L);
416	>	assertTrue(lock.isWriteLocked());
417	>	assertEquals(0L, lock.tryWriteLock());
418	>	releaseWriteLock(lock, s);
419	>	}
420	>
421	>	/**
422	>	* tryWriteLock fails if locked
423	>	*/
424	>	public void testTryWriteLockWhenLocked() {
425	>	final StampedLock lock = new StampedLock();
426	>	long s = lock.writeLock();
427	>	Thread t = newStartedThread(new CheckedRunnable() {
428	>	public void realRun() {
429	>	assertEquals(0L, lock.tryWriteLock());
430	>	}});
431	>
432	>	assertEquals(0L, lock.tryWriteLock());
433	>	awaitTermination(t);
434	>	releaseWriteLock(lock, s);
435	>	}
436	>
437	>	/**
438	>	* tryReadLock fails if write-locked
439	>	*/
440	>	public void testTryReadLockWhenLocked() {
441	>	final StampedLock lock = new StampedLock();
442	>	long s = lock.writeLock();
443	>	Thread t = newStartedThread(new CheckedRunnable() {
444	>	public void realRun() {
445	>	assertEquals(0L, lock.tryReadLock());
446	>	}});
447	>
448	>	assertEquals(0L, lock.tryReadLock());
449	>	awaitTermination(t);
450	>	releaseWriteLock(lock, s);
451	>	}
452	>
453	>	/**
454	>	* Multiple threads can hold a read lock when not write-locked
455	>	*/
456	>	public void testMultipleReadLocks() {
457	>	final StampedLock lock = new StampedLock();
458	>	final long s = lock.readLock();
459	>	Thread t = newStartedThread(new CheckedRunnable() {
460	>	public void realRun() throws InterruptedException {
461	>	long s2 = lock.tryReadLock();
462	>	assertValid(lock, s2);
463	>	lock.unlockRead(s2);
464	>	long s3 = lock.tryReadLock(LONG_DELAY_MS, MILLISECONDS);
465	>	assertValid(lock, s3);
466	>	lock.unlockRead(s3);
467	>	long s4 = lock.readLock();
468	>	assertValid(lock, s4);
469	>	lock.unlockRead(s4);
470	>	lock.asReadLock().lock();
471	>	lock.asReadLock().unlock();
472	>	lock.asReadLock().lockInterruptibly();
473	>	lock.asReadLock().unlock();
474	>	lock.asReadLock().tryLock(Long.MIN_VALUE, DAYS);
475	>	lock.asReadLock().unlock();
476	>	}});
477
478	+	awaitTermination(t);
479	+	lock.unlockRead(s);
480	+	}
481	+
482	+	/**
483	+	* A writelock succeeds only after a reading thread unlocks
484	+	*/
485	+	public void testWriteAfterReadLock() throws InterruptedException {
486	+	final CountDownLatch running = new CountDownLatch(1);
487	+	final StampedLock lock = new StampedLock();
488	+	long rs = lock.readLock();
489	+	Thread t = newStartedThread(new CheckedRunnable() {
490	+	public void realRun() {
491	+	running.countDown();
492	+	long s = lock.writeLock();
493	+	lock.unlockWrite(s);
494	+	}});
495	+
496	+	running.await();
497	+	waitForThreadToEnterWaitState(t, MEDIUM_DELAY_MS);
498	+	assertFalse(lock.isWriteLocked());
499	+	lock.unlockRead(rs);
500	+	awaitTermination(t);
501	+	assertFalse(lock.isWriteLocked());
502	+	}
503	+
504	+	/**
505	+	* A writelock succeeds only after reading threads unlock
506	+	*/
507	+	public void testWriteAfterMultipleReadLocks() {
508	+	final StampedLock lock = new StampedLock();
509	+	long s = lock.readLock();
510	+	Thread t1 = newStartedThread(new CheckedRunnable() {
511	+	public void realRun() {
512	+	long rs = lock.readLock();
513	+	lock.unlockRead(rs);
514	+	}});
515	+
516	+	awaitTermination(t1);
517	+
518	+	Thread t2 = newStartedThread(new CheckedRunnable() {
519	+	public void realRun() {
520	+	long ws = lock.writeLock();
521	+	lock.unlockWrite(ws);
522	+	}});
523	+
524	+	assertTrue(lock.isReadLocked());
525	+	assertFalse(lock.isWriteLocked());
526	+	lock.unlockRead(s);
527	+	awaitTermination(t2);
528	+	assertFalse(lock.isWriteLocked());
529	+	}
530	+
531	+	/**
532	+	* Readlocks succeed only after a writing thread unlocks
533	+	*/
534	+	public void testReadAfterWriteLock() {
535	+	final StampedLock lock = new StampedLock();
536	+	final CountDownLatch threadsStarted = new CountDownLatch(2);
537	+	final long s = lock.writeLock();
538	+	Thread t1 = newStartedThread(new CheckedRunnable() {
539	+	public void realRun() {
540	+	threadsStarted.countDown();
541	+	long rs = lock.readLock();
542	+	lock.unlockRead(rs);
543	+	}});
544	+	Thread t2 = newStartedThread(new CheckedRunnable() {
545	+	public void realRun() {
546	+	threadsStarted.countDown();
547	+	long rs = lock.readLock();
548	+	lock.unlockRead(rs);
549	+	}});
550	+
551	+	await(threadsStarted);
552	+	waitForThreadToEnterWaitState(t1, MEDIUM_DELAY_MS);
553	+	waitForThreadToEnterWaitState(t2, MEDIUM_DELAY_MS);
554	+	releaseWriteLock(lock, s);
555	+	awaitTermination(t1);
556	+	awaitTermination(t2);
557	+	}
558	+
559	+	/**
560	+	* tryReadLock succeeds if read locked but not write locked
561	+	*/
562	+	public void testTryLockWhenReadLocked() {
563	+	final StampedLock lock = new StampedLock();
564	+	long s = lock.readLock();
565	+	Thread t = newStartedThread(new CheckedRunnable() {
566	+	public void realRun() {
567	+	long rs = lock.tryReadLock();
568	+	assertValid(lock, rs);
569	+	lock.unlockRead(rs);
570	+	}});
571	+
572	+	awaitTermination(t);
573	+	lock.unlockRead(s);
574	+	}
575	+
576	+	/**
577	+	* tryWriteLock fails when read locked
578	+	*/
579	+	public void testTryWriteLockWhenReadLocked() {
580	+	final StampedLock lock = new StampedLock();
581	+	long s = lock.readLock();
582	+	Thread t = newStartedThread(new CheckedRunnable() {
583	+	public void realRun() {
584	+	threadAssertEquals(0L, lock.tryWriteLock());
585	+	}});
586	+
587	+	awaitTermination(t);
588	+	lock.unlockRead(s);
589	+	}
590	+
591	+	/**
592	+	* timed lock operations time out if lock not available
593	+	*/
594	+	public void testTimedLock_Timeout() throws Exception {
595	+	ArrayList<Future<?>> futures = new ArrayList<>();
596	+
597	+	// Write locked
598	+	final StampedLock lock = new StampedLock();
599	+	long stamp = lock.writeLock();
600	+	assertEquals(0L, lock.tryReadLock(0L, DAYS));
601	+	assertEquals(0L, lock.tryReadLock(Long.MIN_VALUE, DAYS));
602	+	assertFalse(lock.asReadLock().tryLock(0L, DAYS));
603	+	assertFalse(lock.asReadLock().tryLock(Long.MIN_VALUE, DAYS));
604	+	assertEquals(0L, lock.tryWriteLock(0L, DAYS));
605	+	assertEquals(0L, lock.tryWriteLock(Long.MIN_VALUE, DAYS));
606	+	assertFalse(lock.asWriteLock().tryLock(0L, DAYS));
607	+	assertFalse(lock.asWriteLock().tryLock(Long.MIN_VALUE, DAYS));
608	+
609	+	futures.add(cachedThreadPool.submit(new CheckedRunnable() {
610	+	public void realRun() throws InterruptedException {
611	+	long startTime = System.nanoTime();
612	+	assertEquals(0L, lock.tryWriteLock(timeoutMillis(), MILLISECONDS));
613	+	assertTrue(millisElapsedSince(startTime) >= timeoutMillis());
614	+	}}));
615	+
616	+	futures.add(cachedThreadPool.submit(new CheckedRunnable() {
617	+	public void realRun() throws InterruptedException {
618	+	long startTime = System.nanoTime();
619	+	assertEquals(0L, lock.tryReadLock(timeoutMillis(), MILLISECONDS));
620	+	assertTrue(millisElapsedSince(startTime) >= timeoutMillis());
621	+	}}));
622	+
623	+	// Read locked
624	+	final StampedLock lock2 = new StampedLock();
625	+	long stamp2 = lock2.readLock();
626	+	assertEquals(0L, lock2.tryWriteLock(0L, DAYS));
627	+	assertEquals(0L, lock2.tryWriteLock(Long.MIN_VALUE, DAYS));
628	+	assertFalse(lock2.asWriteLock().tryLock(0L, DAYS));
629	+	assertFalse(lock2.asWriteLock().tryLock(Long.MIN_VALUE, DAYS));
630	+
631	+	futures.add(cachedThreadPool.submit(new CheckedRunnable() {
632	+	public void realRun() throws InterruptedException {
633	+	long startTime = System.nanoTime();
634	+	assertEquals(0L, lock2.tryWriteLock(timeoutMillis(), MILLISECONDS));
635	+	assertTrue(millisElapsedSince(startTime) >= timeoutMillis());
636	+	}}));
637	+
638	+	for (Future<?> future : futures)
639	+	assertNull(future.get());
640	+
641	+	releaseWriteLock(lock, stamp);
642	+	releaseReadLock(lock2, stamp2);
643	+	}
644	+
645	+	/**
646	+	* writeLockInterruptibly succeeds if unlocked
647	+	*/
648	+	public void testWriteLockInterruptibly() throws InterruptedException {
649	+	final StampedLock lock = new StampedLock();
650	+	long s = lock.writeLockInterruptibly();
651	+	assertTrue(lock.isWriteLocked());
652	+	releaseWriteLock(lock, s);
653	+	}
654	+
655	+	/**
656	+	* readLockInterruptibly succeeds if lock free
657	+	*/
658	+	public void testReadLockInterruptibly() throws InterruptedException {
659	+	final StampedLock lock = new StampedLock();
660	+
661	+	long s = assertValid(lock, lock.readLockInterruptibly());
662	+	assertTrue(lock.isReadLocked());
663	+	lock.unlockRead(s);
664	+
665	+	lock.asReadLock().lockInterruptibly();
666	+	assertTrue(lock.isReadLocked());
667	+	lock.asReadLock().unlock();
668	+	}
669	+
670	+	/**
671	+	* A serialized lock deserializes as unlocked
672	+	*/
673	+	public void testSerialization() {
674	+	StampedLock lock = new StampedLock();
675	+	lock.writeLock();
676	+	StampedLock clone = serialClone(lock);
677	+	assertTrue(lock.isWriteLocked());
678	+	assertFalse(clone.isWriteLocked());
679	+	long s = clone.writeLock();
680	+	assertTrue(clone.isWriteLocked());
681	+	clone.unlockWrite(s);
682	+	assertFalse(clone.isWriteLocked());
683	+	}
684	+
685	+	/**
686	+	* toString indicates current lock state
687	+	*/
688	+	public void testToString() {
689	+	StampedLock lock = new StampedLock();
690	+	assertTrue(lock.toString().contains("Unlocked"));
691	+	long s = lock.writeLock();
692	+	assertTrue(lock.toString().contains("Write-locked"));
693	+	lock.unlockWrite(s);
694	+	s = lock.readLock();
695	+	assertTrue(lock.toString().contains("Read-locks"));
696	+	}
697	+
698	+	/**
699	+	* tryOptimisticRead succeeds and validates if unlocked, fails if
700	+	* exclusively locked
701	+	*/
702	+	public void testValidateOptimistic() throws InterruptedException {
703	+	StampedLock lock = new StampedLock();
704	+
705	+	assertValid(lock, lock.tryOptimisticRead());
706	+
707	+	for (Function<StampedLock, Long> writeLocker : writeLockers()) {
708	+	long s = assertValid(lock, writeLocker.apply(lock));
709	+	assertEquals(0L, lock.tryOptimisticRead());
710	+	releaseWriteLock(lock, s);
711	+	}
712	+
713	+	for (Function<StampedLock, Long> readLocker : readLockers()) {
714	+	long s = assertValid(lock, readLocker.apply(lock));
715	+	long p = assertValid(lock, lock.tryOptimisticRead());
716	+	releaseReadLock(lock, s);
717	+	assertTrue(lock.validate(p));
718	+	}
719	+
720	+	assertValid(lock, lock.tryOptimisticRead());
721	+	}
722	+
723	+	/**
724	+	* tryOptimisticRead stamp does not validate if a write lock intervenes
725	+	*/
726	+	public void testValidateOptimisticWriteLocked() {
727	+	final StampedLock lock = new StampedLock();
728	+	final long p = assertValid(lock, lock.tryOptimisticRead());
729	+	final long s = assertValid(lock, lock.writeLock());
730	+	assertFalse(lock.validate(p));
731	+	assertEquals(0L, lock.tryOptimisticRead());
732	+	assertTrue(lock.validate(s));
733	+	lock.unlockWrite(s);
734	+	}
735	+
736	+	/**
737	+	* tryOptimisticRead stamp does not validate if a write lock
738	+	* intervenes in another thread
739	+	*/
740	+	public void testValidateOptimisticWriteLocked2()
741	+	throws InterruptedException {
742	+	final CountDownLatch running = new CountDownLatch(1);
743	+	final StampedLock lock = new StampedLock();
744	+	final long p = assertValid(lock, lock.tryOptimisticRead());
745	+
746	+	Thread t = newStartedThread(new CheckedInterruptedRunnable() {
747	+	public void realRun() throws InterruptedException {
748	+	lock.writeLockInterruptibly();
749	+	running.countDown();
750	+	lock.writeLockInterruptibly();
751	+	}});
752	+
753	+	running.await();
754	+	assertFalse(lock.validate(p));
755	+	assertEquals(0L, lock.tryOptimisticRead());
756	+	t.interrupt();
757	+	awaitTermination(t);
758	+	}
759	+
760	+	/**
761	+	* tryConvertToOptimisticRead succeeds and validates if successfully locked
762	+	*/
763	+	public void testTryConvertToOptimisticRead() throws InterruptedException {
764	+	StampedLock lock = new StampedLock();
765	+	long s, p, q;
766	+	assertEquals(0L, lock.tryConvertToOptimisticRead(0L));
767	+
768	+	s = assertValid(lock, lock.tryOptimisticRead());
769	+	assertEquals(s, lock.tryConvertToOptimisticRead(s));
770	+	assertTrue(lock.validate(s));
771	+
772	+	for (Function<StampedLock, Long> writeLocker : writeLockers()) {
773	+	s = assertValid(lock, writeLocker.apply(lock));
774	+	p = assertValid(lock, lock.tryConvertToOptimisticRead(s));
775	+	assertFalse(lock.validate(s));
776	+	assertTrue(lock.validate(p));
777	+	assertUnlocked(lock);
778	+	}
779	+
780	+	for (Function<StampedLock, Long> readLocker : readLockers()) {
781	+	s = assertValid(lock, readLocker.apply(lock));
782	+	q = assertValid(lock, lock.tryOptimisticRead());
783	+	assertEquals(q, lock.tryConvertToOptimisticRead(q));
784	+	assertTrue(lock.validate(q));
785	+	assertTrue(lock.isReadLocked());
786	+	p = assertValid(lock, lock.tryConvertToOptimisticRead(s));
787	+	assertTrue(lock.validate(p));
788	+	assertTrue(lock.validate(s));
789	+	assertUnlocked(lock);
790	+	assertEquals(q, lock.tryConvertToOptimisticRead(q));
791	+	assertTrue(lock.validate(q));
792	+	}
793	+	}
794	+
795	+	/**
796	+	* tryConvertToReadLock succeeds for valid stamps
797	+	*/
798	+	public void testTryConvertToReadLock() throws InterruptedException {
799	+	StampedLock lock = new StampedLock();
800	+	long s, p;
801	+
802	+	assertEquals(0L, lock.tryConvertToReadLock(0L));
803	+
804	+	s = assertValid(lock, lock.tryOptimisticRead());
805	+	p = assertValid(lock, lock.tryConvertToReadLock(s));
806	+	assertTrue(lock.isReadLocked());
807	+	assertEquals(1, lock.getReadLockCount());
808	+	assertTrue(lock.validate(s));
809	+	lock.unlockRead(p);
810	+
811	+	s = assertValid(lock, lock.tryOptimisticRead());
812	+	lock.readLock();
813	+	p = assertValid(lock, lock.tryConvertToReadLock(s));
814	+	assertTrue(lock.isReadLocked());
815	+	assertEquals(2, lock.getReadLockCount());
816	+	lock.unlockRead(p);
817	+	lock.unlockRead(p);
818	+	assertUnlocked(lock);
819	+
820	+	for (BiConsumer<StampedLock, Long> readUnlocker : readUnlockers()) {
821	+	for (Function<StampedLock, Long> writeLocker : writeLockers()) {
822	+	s = assertValid(lock, writeLocker.apply(lock));
823	+	p = assertValid(lock, lock.tryConvertToReadLock(s));
824	+	assertFalse(lock.validate(s));
825	+	assertTrue(lock.isReadLocked());
826	+	assertEquals(1, lock.getReadLockCount());
827	+	readUnlocker.accept(lock, p);
828	+	}
829	+
830	+	for (Function<StampedLock, Long> readLocker : readLockers()) {
831	+	s = assertValid(lock, readLocker.apply(lock));
832	+	assertEquals(s, lock.tryConvertToReadLock(s));
833	+	assertTrue(lock.validate(s));
834	+	assertTrue(lock.isReadLocked());
835	+	assertEquals(1, lock.getReadLockCount());
836	+	readUnlocker.accept(lock, s);
837	+	}
838	+	}
839	+	}
840	+
841	+	/**
842	+	* tryConvertToWriteLock succeeds if lock available; fails if multiply read locked
843	+	*/
844	+	public void testTryConvertToWriteLock() throws InterruptedException {
845	+	StampedLock lock = new StampedLock();
846	+	long s, p;
847	+
848	+	assertEquals(0L, lock.tryConvertToWriteLock(0L));
849	+
850	+	assertTrue((s = lock.tryOptimisticRead()) != 0L);
851	+	assertTrue((p = lock.tryConvertToWriteLock(s)) != 0L);
852	+	assertTrue(lock.isWriteLocked());
853	+	lock.unlockWrite(p);
854	+
855	+	for (BiConsumer<StampedLock, Long> writeUnlocker : writeUnlockers()) {
856	+	for (Function<StampedLock, Long> writeLocker : writeLockers()) {
857	+	s = assertValid(lock, writeLocker.apply(lock));
858	+	assertEquals(s, lock.tryConvertToWriteLock(s));
859	+	assertTrue(lock.validate(s));
860	+	assertTrue(lock.isWriteLocked());
861	+	writeUnlocker.accept(lock, s);
862	+	}
863	+
864	+	for (Function<StampedLock, Long> readLocker : readLockers()) {
865	+	s = assertValid(lock, readLocker.apply(lock));
866	+	p = assertValid(lock, lock.tryConvertToWriteLock(s));
867	+	assertFalse(lock.validate(s));
868	+	assertTrue(lock.validate(p));
869	+	assertTrue(lock.isWriteLocked());
870	+	writeUnlocker.accept(lock, p);
871	+	}
872	+	}
873	+
874	+	// failure if multiply read locked
875	+	for (Function<StampedLock, Long> readLocker : readLockers()) {
876	+	s = assertValid(lock, readLocker.apply(lock));
877	+	p = assertValid(lock, readLocker.apply(lock));
878	+	assertEquals(0L, lock.tryConvertToWriteLock(s));
879	+	assertTrue(lock.validate(s));
880	+	assertTrue(lock.validate(p));
881	+	assertEquals(2, lock.getReadLockCount());
882	+	lock.unlock(p);
883	+	lock.unlock(s);
884	+	assertUnlocked(lock);
885	+	}
886	+	}
887	+
888	+	/**
889	+	* asWriteLock can be locked and unlocked
890	+	*/
891	+	public void testAsWriteLock() throws Throwable {
892	+	StampedLock sl = new StampedLock();
893	+	Lock lock = sl.asWriteLock();
894	+	for (Action locker : lockLockers(lock)) {
895	+	locker.run();
896	+	assertTrue(sl.isWriteLocked());
897	+	assertFalse(sl.isReadLocked());
898	+	assertFalse(lock.tryLock());
899	+	lock.unlock();
900	+	assertUnlocked(sl);
901	+	}
902	+	}
903	+
904	+	/**
905	+	* asReadLock can be locked and unlocked
906	+	*/
907	+	public void testAsReadLock() throws Throwable {
908	+	StampedLock sl = new StampedLock();
909	+	Lock lock = sl.asReadLock();
910	+	for (Action locker : lockLockers(lock)) {
911	+	locker.run();
912	+	assertTrue(sl.isReadLocked());
913	+	assertFalse(sl.isWriteLocked());
914	+	assertEquals(1, sl.getReadLockCount());
915	+	locker.run();
916	+	assertTrue(sl.isReadLocked());
917	+	assertEquals(2, sl.getReadLockCount());
918	+	lock.unlock();
919	+	lock.unlock();
920	+	assertUnlocked(sl);
921	+	}
922	+	}
923	+
924	+	/**
925	+	* asReadWriteLock.writeLock can be locked and unlocked
926	+	*/
927	+	public void testAsReadWriteLockWriteLock() throws Throwable {
928	+	StampedLock sl = new StampedLock();
929	+	Lock lock = sl.asReadWriteLock().writeLock();
930	+	for (Action locker : lockLockers(lock)) {
931	+	locker.run();
932	+	assertTrue(sl.isWriteLocked());
933	+	assertFalse(sl.isReadLocked());
934	+	assertFalse(lock.tryLock());
935	+	lock.unlock();
936	+	assertUnlocked(sl);
937	+	}
938	+	}
939	+
940	+	/**
941	+	* asReadWriteLock.readLock can be locked and unlocked
942	+	*/
943	+	public void testAsReadWriteLockReadLock() throws Throwable {
944	+	StampedLock sl = new StampedLock();
945	+	Lock lock = sl.asReadWriteLock().readLock();
946	+	for (Action locker : lockLockers(lock)) {
947	+	locker.run();
948	+	assertTrue(sl.isReadLocked());
949	+	assertFalse(sl.isWriteLocked());
950	+	assertEquals(1, sl.getReadLockCount());
951	+	locker.run();
952	+	assertTrue(sl.isReadLocked());
953	+	assertEquals(2, sl.getReadLockCount());
954	+	lock.unlock();
955	+	lock.unlock();
956	+	assertUnlocked(sl);
957	+	}
958	+	}
959	+
960	+	/**
961	+	* Lock.newCondition throws UnsupportedOperationException
962	+	*/
963	+	public void testLockViewsDoNotSupportConditions() {
964	+	StampedLock sl = new StampedLock();
965	+	assertThrows(UnsupportedOperationException.class,
966	+	() -> sl.asWriteLock().newCondition(),
967	+	() -> sl.asReadLock().newCondition(),
968	+	() -> sl.asReadWriteLock().writeLock().newCondition(),
969	+	() -> sl.asReadWriteLock().readLock().newCondition());
970	+	}
971	+
972	+	/**
973	+	* Passing optimistic read stamps to unlock operations result in
974	+	* IllegalMonitorStateException
975	+	*/
976	+	public void testCannotUnlockOptimisticReadStamps() {
977	+	Runnable[] actions = {
978	+	() -> {
979	+	StampedLock sl = new StampedLock();
980	+	long stamp = assertValid(sl, sl.tryOptimisticRead());
981	+	sl.unlockRead(stamp);
982	+	},
983	+	() -> {
984	+	StampedLock sl = new StampedLock();
985	+	long stamp = sl.tryOptimisticRead();
986	+	sl.unlock(stamp);
987	+	},
988	+
989	+	() -> {
990	+	StampedLock sl = new StampedLock();
991	+	long stamp = sl.tryOptimisticRead();
992	+	sl.writeLock();
993	+	sl.unlock(stamp);
994	+	},
995	+	() -> {
996	+	StampedLock sl = new StampedLock();
997	+	sl.readLock();
998	+	long stamp = assertValid(sl, sl.tryOptimisticRead());
999	+	sl.unlockRead(stamp);
1000	+	},
1001	+	() -> {
1002	+	StampedLock sl = new StampedLock();
1003	+	sl.readLock();
1004	+	long stamp = assertValid(sl, sl.tryOptimisticRead());
1005	+	sl.unlock(stamp);
1006	+	},
1007	+
1008	+	() -> {
1009	+	StampedLock sl = new StampedLock();
1010	+	long stamp = sl.tryConvertToOptimisticRead(sl.writeLock());
1011	+	assertValid(sl, stamp);
1012	+	sl.writeLock();
1013	+	sl.unlockWrite(stamp);
1014	+	},
1015	+	() -> {
1016	+	StampedLock sl = new StampedLock();
1017	+	long stamp = sl.tryConvertToOptimisticRead(sl.writeLock());
1018	+	sl.writeLock();
1019	+	sl.unlock(stamp);
1020	+	},
1021	+	() -> {
1022	+	StampedLock sl = new StampedLock();
1023	+	long stamp = sl.tryConvertToOptimisticRead(sl.writeLock());
1024	+	sl.readLock();
1025	+	sl.unlockRead(stamp);
1026	+	},
1027	+	() -> {
1028	+	StampedLock sl = new StampedLock();
1029	+	long stamp = sl.tryConvertToOptimisticRead(sl.writeLock());
1030	+	sl.readLock();
1031	+	sl.unlock(stamp);
1032	+	},
1033	+
1034	+	() -> {
1035	+	StampedLock sl = new StampedLock();
1036	+	long stamp = sl.tryConvertToOptimisticRead(sl.readLock());
1037	+	assertValid(sl, stamp);
1038	+	sl.writeLock();
1039	+	sl.unlockWrite(stamp);
1040	+	},
1041	+	() -> {
1042	+	StampedLock sl = new StampedLock();
1043	+	long stamp = sl.tryConvertToOptimisticRead(sl.readLock());
1044	+	sl.writeLock();
1045	+	sl.unlock(stamp);
1046	+	},
1047	+	() -> {
1048	+	StampedLock sl = new StampedLock();
1049	+	long stamp = sl.tryConvertToOptimisticRead(sl.readLock());
1050	+	sl.readLock();
1051	+	sl.unlockRead(stamp);
1052	+	},
1053	+	() -> {
1054	+	StampedLock sl = new StampedLock();
1055	+	sl.readLock();
1056	+	long stamp = sl.tryConvertToOptimisticRead(sl.readLock());
1057	+	assertValid(sl, stamp);
1058	+	sl.readLock();
1059	+	sl.unlockRead(stamp);
1060	+	},
1061	+	() -> {
1062	+	StampedLock sl = new StampedLock();
1063	+	long stamp = sl.tryConvertToOptimisticRead(sl.readLock());
1064	+	sl.readLock();
1065	+	sl.unlock(stamp);
1066	+	},
1067	+	() -> {
1068	+	StampedLock sl = new StampedLock();
1069	+	sl.readLock();
1070	+	long stamp = sl.tryConvertToOptimisticRead(sl.readLock());
1071	+	sl.readLock();
1072	+	sl.unlock(stamp);
1073	+	},
1074	+	};
1075	+
1076	+	assertThrows(IllegalMonitorStateException.class, actions);
1077	+	}
1078	+
1079	+	static long writeLockInterruptiblyUninterrupted(StampedLock sl) {
1080	+	try { return sl.writeLockInterruptibly(); }
1081	+	catch (InterruptedException ex) { throw new AssertionError(ex); }
1082	+	}
1083	+
1084	+	static long tryWriteLockUninterrupted(StampedLock sl, long time, TimeUnit unit) {
1085	+	try { return sl.tryWriteLock(time, unit); }
1086	+	catch (InterruptedException ex) { throw new AssertionError(ex); }
1087	+	}
1088	+
1089	+	static long readLockInterruptiblyUninterrupted(StampedLock sl) {
1090	+	try { return sl.readLockInterruptibly(); }
1091	+	catch (InterruptedException ex) { throw new AssertionError(ex); }
1092	+	}
1093	+
1094	+	static long tryReadLockUninterrupted(StampedLock sl, long time, TimeUnit unit) {
1095	+	try { return sl.tryReadLock(time, unit); }
1096	+	catch (InterruptedException ex) { throw new AssertionError(ex); }
1097	+	}
1098	+
1099	+	/**
1100	+	* Invalid stamps result in IllegalMonitorStateException
1101	+	*/
1102	+	public void testInvalidStampsThrowIllegalMonitorStateException() {
1103	+	final StampedLock sl = new StampedLock();
1104	+
1105	+	assertThrows(IllegalMonitorStateException.class,
1106	+	() -> sl.unlockWrite(0L),
1107	+	() -> sl.unlockRead(0L),
1108	+	() -> sl.unlock(0L));
1109	+
1110	+	final long optimisticStamp = sl.tryOptimisticRead();
1111	+	final long readStamp = sl.readLock();
1112	+	sl.unlockRead(readStamp);
1113	+	final long writeStamp = sl.writeLock();
1114	+	sl.unlockWrite(writeStamp);
1115	+	assertTrue(optimisticStamp != 0L && readStamp != 0L && writeStamp != 0L);
1116	+	final long[] noLongerValidStamps = { optimisticStamp, readStamp, writeStamp };
1117	+	final Runnable assertNoLongerValidStampsThrow = () -> {
1118	+	for (long noLongerValidStamp : noLongerValidStamps)
1119	+	assertThrows(IllegalMonitorStateException.class,
1120	+	() -> sl.unlockWrite(noLongerValidStamp),
1121	+	() -> sl.unlockRead(noLongerValidStamp),
1122	+	() -> sl.unlock(noLongerValidStamp));
1123	+	};
1124	+	assertNoLongerValidStampsThrow.run();
1125	+
1126	+	for (Function<StampedLock, Long> readLocker : readLockers())
1127	+	for (BiConsumer<StampedLock, Long> readUnlocker : readUnlockers()) {
1128	+	final long stamp = readLocker.apply(sl);
1129	+	assertValid(sl, stamp);
1130	+	assertNoLongerValidStampsThrow.run();
1131	+	assertThrows(IllegalMonitorStateException.class,
1132	+	() -> sl.unlockWrite(stamp),
1133	+	() -> sl.unlockRead(sl.tryOptimisticRead()),
1134	+	() -> sl.unlockRead(0L));
1135	+	readUnlocker.accept(sl, stamp);
1136	+	assertUnlocked(sl);
1137	+	assertNoLongerValidStampsThrow.run();
1138	+	}
1139	+
1140	+	for (Function<StampedLock, Long> writeLocker : writeLockers())
1141	+	for (BiConsumer<StampedLock, Long> writeUnlocker : writeUnlockers()) {
1142	+	final long stamp = writeLocker.apply(sl);
1143	+	assertValid(sl, stamp);
1144	+	assertNoLongerValidStampsThrow.run();
1145	+	assertThrows(IllegalMonitorStateException.class,
1146	+	() -> sl.unlockRead(stamp),
1147	+	() -> sl.unlockWrite(0L));
1148	+	writeUnlocker.accept(sl, stamp);
1149	+	assertUnlocked(sl);
1150	+	assertNoLongerValidStampsThrow.run();
1151	+	}
1152	+	}
1153	+
1154	+	/**
1155	+	* Read locks can be very deeply nested
1156	+	*/
1157	+	public void testDeeplyNestedReadLocks() {
1158	+	final StampedLock lock = new StampedLock();
1159	+	final int depth = 300;
1160	+	final long[] stamps = new long[depth];
1161	+	final List<Function<StampedLock, Long>> readLockers = readLockers();
1162	+	final List<BiConsumer<StampedLock, Long>> readUnlockers = readUnlockers();
1163	+	for (int i = 0; i < depth; i++) {
1164	+	Function<StampedLock, Long> readLocker
1165	+	= readLockers.get(i % readLockers.size());
1166	+	long stamp = readLocker.apply(lock);
1167	+	assertEquals(i + 1, lock.getReadLockCount());
1168	+	assertTrue(lock.isReadLocked());
1169	+	stamps[i] = stamp;
1170	+	}
1171	+	for (int i = 0; i < depth; i++) {
1172	+	BiConsumer<StampedLock, Long> readUnlocker
1173	+	= readUnlockers.get(i % readUnlockers.size());
1174	+	assertEquals(depth - i, lock.getReadLockCount());
1175	+	assertTrue(lock.isReadLocked());
1176	+	readUnlocker.accept(lock, stamps[depth - 1 - i]);
1177	+	}
1178	+	assertUnlocked(lock);
1179	+	}
1180		}

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