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root/jsr166/jsr166/src/test/tck/JSR166TestCase.java

Comparing jsr166/src/test/tck/JSR166TestCase.java (file contents):
Revision 1.2 by dl, Sat Sep 20 00:31:57 2003 UTC vs.
Revision 1.224 by jsr166, Sat May 13 21:43:50 2017 UTC

#	Line 1 | Line 1
1		/*
2	<	* Written by members of JCP JSR-166 Expert Group and released to the
3	<	* public domain. Use, modify, and redistribute this code in any way
4	<	* without acknowledgement. Other contributors include Andrew Wright,
5	<	* Jeffrey Hayes, Pat Fischer, Mike Judd.
2	>	* Written by Doug Lea and Martin Buchholz with assistance from
3	>	* members of JCP JSR-166 Expert Group and released to the public
4	>	* 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.
8		*/
9
10	<	import junit.framework.*;
11	<	import java.util.*;
12	<	import java.util.concurrent.*;
13	<	import java.io.*;
10	>	/*
11	>	* @test
12	>	* @summary JSR-166 tck tests, in a number of variations.
13	>	*          The first is the conformance testing variant,
14	>	*          while others also test implementation details.
15	>	* @build *
16	>	* @modules java.management
17	>	* @run junit/othervm/timeout=1000 JSR166TestCase
18	>	* @run junit/othervm/timeout=1000
19	>	*      --add-opens java.base/java.util.concurrent=ALL-UNNAMED
20	>	*      --add-opens java.base/java.lang=ALL-UNNAMED
21	>	*      -Djsr166.testImplementationDetails=true
22	>	*      JSR166TestCase
23	>	* @run junit/othervm/timeout=1000
24	>	*      --add-opens java.base/java.util.concurrent=ALL-UNNAMED
25	>	*      --add-opens java.base/java.lang=ALL-UNNAMED
26	>	*      -Djsr166.testImplementationDetails=true
27	>	*      -Djava.util.concurrent.ForkJoinPool.common.parallelism=0
28	>	*      JSR166TestCase
29	>	* @run junit/othervm/timeout=1000
30	>	*      --add-opens java.base/java.util.concurrent=ALL-UNNAMED
31	>	*      --add-opens java.base/java.lang=ALL-UNNAMED
32	>	*      -Djsr166.testImplementationDetails=true
33	>	*      -Djava.util.concurrent.ForkJoinPool.common.parallelism=1
34	>	*      -Djava.util.secureRandomSeed=true
35	>	*      JSR166TestCase
36	>	* @run junit/othervm/timeout=1000/policy=tck.policy
37	>	*      --add-opens java.base/java.util.concurrent=ALL-UNNAMED
38	>	*      --add-opens java.base/java.lang=ALL-UNNAMED
39	>	*      -Djsr166.testImplementationDetails=true
40	>	*      JSR166TestCase
41	>	*/
42
43	+	import static java.util.concurrent.TimeUnit.MILLISECONDS;
44	+	import static java.util.concurrent.TimeUnit.MINUTES;
45	+	import static java.util.concurrent.TimeUnit.NANOSECONDS;
46	+
47	+	import java.io.ByteArrayInputStream;
48	+	import java.io.ByteArrayOutputStream;
49	+	import java.io.ObjectInputStream;
50	+	import java.io.ObjectOutputStream;
51	+	import java.lang.management.ManagementFactory;
52	+	import java.lang.management.ThreadInfo;
53	+	import java.lang.management.ThreadMXBean;
54	+	import java.lang.reflect.Constructor;
55	+	import java.lang.reflect.Method;
56	+	import java.lang.reflect.Modifier;
57	+	import java.security.CodeSource;
58	+	import java.security.Permission;
59	+	import java.security.PermissionCollection;
60	+	import java.security.Permissions;
61	+	import java.security.Policy;
62	+	import java.security.ProtectionDomain;
63	+	import java.security.SecurityPermission;
64	+	import java.util.ArrayList;
65	+	import java.util.Arrays;
66	+	import java.util.Collection;
67	+	import java.util.Collections;
68	+	import java.util.Date;
69	+	import java.util.Enumeration;
70	+	import java.util.Iterator;
71	+	import java.util.List;
72	+	import java.util.NoSuchElementException;
73	+	import java.util.PropertyPermission;
74	+	import java.util.concurrent.BlockingQueue;
75	+	import java.util.concurrent.Callable;
76	+	import java.util.concurrent.CountDownLatch;
77	+	import java.util.concurrent.CyclicBarrier;
78	+	import java.util.concurrent.ExecutionException;
79	+	import java.util.concurrent.Executors;
80	+	import java.util.concurrent.ExecutorService;
81	+	import java.util.concurrent.ForkJoinPool;
82	+	import java.util.concurrent.Future;
83	+	import java.util.concurrent.RecursiveAction;
84	+	import java.util.concurrent.RecursiveTask;
85	+	import java.util.concurrent.RejectedExecutionHandler;
86	+	import java.util.concurrent.Semaphore;
87	+	import java.util.concurrent.SynchronousQueue;
88	+	import java.util.concurrent.ThreadFactory;
89	+	import java.util.concurrent.ThreadLocalRandom;
90	+	import java.util.concurrent.ThreadPoolExecutor;
91	+	import java.util.concurrent.TimeoutException;
92	+	import java.util.concurrent.atomic.AtomicBoolean;
93	+	import java.util.concurrent.atomic.AtomicReference;
94	+	import java.util.regex.Pattern;
95	+
96	+	import junit.framework.AssertionFailedError;
97	+	import junit.framework.Test;
98	+	import junit.framework.TestCase;
99	+	import junit.framework.TestResult;
100	+	import junit.framework.TestSuite;
101
102		/**
103	<	* Base class for JSR166 Junit TCK tests.  Defines some constants and
104	<	* utility methods, as well as a simple framework for helping to make
105	<	* sure that assertions failing in generated threads cause the
106	<	* associated test that generated them to itself fail (which JUnit doe
107	<	* not otherwise arrange).  The rules for creating such tests are:
103	>	* Base class for JSR166 Junit TCK tests.  Defines some constants,
104	>	* utility methods and classes, as well as a simple framework for
105	>	* helping to make sure that assertions failing in generated threads
106	>	* cause the associated test that generated them to itself fail (which
107	>	* JUnit does not otherwise arrange).  The rules for creating such
108	>	* tests are:
109		*
110		* <ol>
111		*
112	<	* <li> All assertions in code running in generated threads must use
113	<	* the forms {@link threadFail} , {@link threadAssertTrue} {@link
114	<	* threadAssertEquals}, or {@link threadAssertNull}, (not
115	<	* <tt>fail</tt>, <tt>assertTrue</tt>, etc.) It is OK (but not
112	>	* <li>All assertions in code running in generated threads must use
113	>	* the forms {@link #threadFail}, {@link #threadAssertTrue}, {@link
114	>	* #threadAssertEquals}, or {@link #threadAssertNull}, (not
115	>	* {@code fail}, {@code assertTrue}, etc.) It is OK (but not
116		* particularly recommended) for other code to use these forms too.
117		* Only the most typically used JUnit assertion methods are defined
118	<	* this way, but enough to live with.</li>
118	>	* this way, but enough to live with.
119		*
120	<	* <li> If you override {@link setUp} or {@link tearDown}, make sure
121	<	* to invoke <tt>super.setUp</tt> and <tt>super.tearDown</tt> within
120	>	* <li>If you override {@link #setUp} or {@link #tearDown}, make sure
121	>	* to invoke {@code super.setUp} and {@code super.tearDown} within
122		* them. These methods are used to clear and check for thread
123	<	* assertion failures.</li>
123	>	* assertion failures.
124		*
125	<	* <li>All delays and timeouts must use one of the constants {@link
126	<	* SHORT_DELAY_MS}, {@link SMALL_DELAY_MS}, {@link MEDIUM_DELAY_MS},
127	<	* {@link LONG_DELAY_MS}. The idea here is that a SHORT is always
128	<	* discriminatable from zero time, and always allows enough time for
129	<	* the small amounts of computation (creating a thread, calling a few
125	>	* <li>All delays and timeouts must use one of the constants {@code
126	>	* SHORT_DELAY_MS}, {@code SMALL_DELAY_MS}, {@code MEDIUM_DELAY_MS},
127	>	* {@code LONG_DELAY_MS}. The idea here is that a SHORT is always
128	>	* discriminable from zero time, and always allows enough time for the
129	>	* small amounts of computation (creating a thread, calling a few
130		* methods, etc) needed to reach a timeout point. Similarly, a SMALL
131		* is always discriminable as larger than SHORT and smaller than
132		* MEDIUM.  And so on. These constants are set to conservative values,
133		* but even so, if there is ever any doubt, they can all be increased
134	<	* in one spot to rerun tests on slower platforms</li>
134	>	* in one spot to rerun tests on slower platforms.
135		*
136	<	* <li> All threads generated must be joined inside each test case
137	<	* method (or <tt>fail</tt> to do so) before returning from the
138	<	* method. The {@link joinPool} method can be used to do this when
139	<	* using Executors.</li>
136	>	* <li>All threads generated must be joined inside each test case
137	>	* method (or {@code fail} to do so) before returning from the
138	>	* method. The {@code joinPool} method can be used to do this when
139	>	* using Executors.
140		*
141		* </ol>
142	+	*
143	+	* <p><b>Other notes</b>
144	+	* <ul>
145	+	*
146	+	* <li>Usually, there is one testcase method per JSR166 method
147	+	* covering "normal" operation, and then as many exception-testing
148	+	* methods as there are exceptions the method can throw. Sometimes
149	+	* there are multiple tests per JSR166 method when the different
150	+	* "normal" behaviors differ significantly. And sometimes testcases
151	+	* cover multiple methods when they cannot be tested in isolation.
152	+	*
153	+	* <li>The documentation style for testcases is to provide as javadoc
154	+	* a simple sentence or two describing the property that the testcase
155	+	* method purports to test. The javadocs do not say anything about how
156	+	* the property is tested. To find out, read the code.
157	+	*
158	+	* <li>These tests are "conformance tests", and do not attempt to
159	+	* test throughput, latency, scalability or other performance factors
160	+	* (see the separate "jtreg" tests for a set intended to check these
161	+	* for the most central aspects of functionality.) So, most tests use
162	+	* the smallest sensible numbers of threads, collection sizes, etc
163	+	* needed to check basic conformance.
164	+	*
165	+	* <li>The test classes currently do not declare inclusion in
166	+	* any particular package to simplify things for people integrating
167	+	* them in TCK test suites.
168	+	*
169	+	* <li>As a convenience, the {@code main} of this class (JSR166TestCase)
170	+	* runs all JSR166 unit tests.
171	+	*
172	+	* </ul>
173		*/
174		public class JSR166TestCase extends TestCase {
175	+	private static final boolean useSecurityManager =
176	+	Boolean.getBoolean("jsr166.useSecurityManager");
177	+
178	+	protected static final boolean expensiveTests =
179	+	Boolean.getBoolean("jsr166.expensiveTests");
180	+
181	+	/**
182	+	* If true, also run tests that are not part of the official tck
183	+	* because they test unspecified implementation details.
184	+	*/
185	+	protected static final boolean testImplementationDetails =
186	+	Boolean.getBoolean("jsr166.testImplementationDetails");
187	+
188	+	/**
189	+	* If true, report on stdout all "slow" tests, that is, ones that
190	+	* take more than profileThreshold milliseconds to execute.
191	+	*/
192	+	private static final boolean profileTests =
193	+	Boolean.getBoolean("jsr166.profileTests");
194	+
195	+	/**
196	+	* The number of milliseconds that tests are permitted for
197	+	* execution without being reported, when profileTests is set.
198	+	*/
199	+	private static final long profileThreshold =
200	+	Long.getLong("jsr166.profileThreshold", 100);
201	+
202	+	/**
203	+	* The number of repetitions per test (for tickling rare bugs).
204	+	*/
205	+	private static final int runsPerTest =
206	+	Integer.getInteger("jsr166.runsPerTest", 1);
207	+
208	+	/**
209	+	* The number of repetitions of the test suite (for finding leaks?).
210	+	*/
211	+	private static final int suiteRuns =
212	+	Integer.getInteger("jsr166.suiteRuns", 1);
213	+
214	+	/**
215	+	* Returns the value of the system property, or NaN if not defined.
216	+	*/
217	+	private static float systemPropertyValue(String name) {
218	+	String floatString = System.getProperty(name);
219	+	if (floatString == null)
220	+	return Float.NaN;
221	+	try {
222	+	return Float.parseFloat(floatString);
223	+	} catch (NumberFormatException ex) {
224	+	throw new IllegalArgumentException(
225	+	String.format("Bad float value in system property %s=%s",
226	+	name, floatString));
227	+	}
228	+	}
229	+
230	+	/**
231	+	* The scaling factor to apply to standard delays used in tests.
232	+	* May be initialized from any of:
233	+	* - the "jsr166.delay.factor" system property
234	+	* - the "test.timeout.factor" system property (as used by jtreg)
235	+	*   See: http://openjdk.java.net/jtreg/tag-spec.html
236	+	* - hard-coded fuzz factor when using a known slowpoke VM
237	+	*/
238	+	private static final float delayFactor = delayFactor();
239	+
240	+	private static float delayFactor() {
241	+	float x;
242	+	if (!Float.isNaN(x = systemPropertyValue("jsr166.delay.factor")))
243	+	return x;
244	+	if (!Float.isNaN(x = systemPropertyValue("test.timeout.factor")))
245	+	return x;
246	+	String prop = System.getProperty("java.vm.version");
247	+	if (prop != null && prop.matches(".*debug.*"))
248	+	return 4.0f; // How much slower is fastdebug than product?!
249	+	return 1.0f;
250	+	}
251	+
252	+	public JSR166TestCase() { super(); }
253	+	public JSR166TestCase(String name) { super(name); }
254	+
255	+	/**
256	+	* A filter for tests to run, matching strings of the form
257	+	* methodName(className), e.g. "testInvokeAll5(ForkJoinPoolTest)"
258	+	* Usefully combined with jsr166.runsPerTest.
259	+	*/
260	+	private static final Pattern methodFilter = methodFilter();
261	+
262	+	private static Pattern methodFilter() {
263	+	String regex = System.getProperty("jsr166.methodFilter");
264	+	return (regex == null) ? null : Pattern.compile(regex);
265	+	}
266	+
267	+	// Instrumentation to debug very rare, but very annoying hung test runs.
268	+	static volatile TestCase currentTestCase;
269	+	// static volatile int currentRun = 0;
270	+	static {
271	+	Runnable checkForWedgedTest = new Runnable() { public void run() {
272	+	// Avoid spurious reports with enormous runsPerTest.
273	+	// A single test case run should never take more than 1 second.
274	+	// But let's cap it at the high end too ...
275	+	final int timeoutMinutes =
276	+	Math.min(15, Math.max(runsPerTest / 60, 1));
277	+	for (TestCase lastTestCase = currentTestCase;;) {
278	+	try { MINUTES.sleep(timeoutMinutes); }
279	+	catch (InterruptedException unexpected) { break; }
280	+	if (lastTestCase == currentTestCase) {
281	+	System.err.printf(
282	+	"Looks like we're stuck running test: %s%n",
283	+	lastTestCase);
284	+	//                     System.err.printf(
285	+	//                         "Looks like we're stuck running test: %s (%d/%d)%n",
286	+	//                         lastTestCase, currentRun, runsPerTest);
287	+	//                     System.err.println("availableProcessors=" +
288	+	//                         Runtime.getRuntime().availableProcessors());
289	+	//                     System.err.printf("cpu model = %s%n", cpuModel());
290	+	dumpTestThreads();
291	+	// one stack dump is probably enough; more would be spam
292	+	break;
293	+	}
294	+	lastTestCase = currentTestCase;
295	+	}}};
296	+	Thread thread = new Thread(checkForWedgedTest, "checkForWedgedTest");
297	+	thread.setDaemon(true);
298	+	thread.start();
299	+	}
300	+
301	+	//     public static String cpuModel() {
302	+	//         try {
303	+	//             java.util.regex.Matcher matcher
304	+	//               = Pattern.compile("model name\\s*: (.*)")
305	+	//                 .matcher(new String(
306	+	//                     java.nio.file.Files.readAllBytes(
307	+	//                         java.nio.file.Paths.get("/proc/cpuinfo")), "UTF-8"));
308	+	//             matcher.find();
309	+	//             return matcher.group(1);
310	+	//         } catch (Exception ex) { return null; }
311	+	//     }
312	+
313	+	public void runBare() throws Throwable {
314	+	currentTestCase = this;
315	+	if (methodFilter == null
316	+	|| methodFilter.matcher(toString()).find())
317	+	super.runBare();
318	+	}
319	+
320	+	protected void runTest() throws Throwable {
321	+	for (int i = 0; i < runsPerTest; i++) {
322	+	// currentRun = i;
323	+	if (profileTests)
324	+	runTestProfiled();
325	+	else
326	+	super.runTest();
327	+	}
328	+	}
329	+
330	+	protected void runTestProfiled() throws Throwable {
331	+	for (int i = 0; i < 2; i++) {
332	+	long startTime = System.nanoTime();
333	+	super.runTest();
334	+	long elapsedMillis = millisElapsedSince(startTime);
335	+	if (elapsedMillis < profileThreshold)
336	+	break;
337	+	// Never report first run of any test; treat it as a
338	+	// warmup run, notably to trigger all needed classloading,
339	+	if (i > 0)
340	+	System.out.printf("%n%s: %d%n", toString(), elapsedMillis);
341	+	}
342	+	}
343	+
344	+	/**
345	+	* Runs all JSR166 unit tests using junit.textui.TestRunner.
346	+	*/
347	+	public static void main(String[] args) {
348	+	main(suite(), args);
349	+	}
350	+
351	+	static class PithyResultPrinter extends junit.textui.ResultPrinter {
352	+	PithyResultPrinter(java.io.PrintStream writer) { super(writer); }
353	+	long runTime;
354	+	public void startTest(Test test) {}
355	+	protected void printHeader(long runTime) {
356	+	this.runTime = runTime; // defer printing for later
357	+	}
358	+	protected void printFooter(TestResult result) {
359	+	if (result.wasSuccessful()) {
360	+	getWriter().println("OK (" + result.runCount() + " tests)"
361	+	+ "  Time: " + elapsedTimeAsString(runTime));
362	+	} else {
363	+	getWriter().println("Time: " + elapsedTimeAsString(runTime));
364	+	super.printFooter(result);
365	+	}
366	+	}
367	+	}
368	+
369	+	/**
370	+	* Returns a TestRunner that doesn't bother with unnecessary
371	+	* fluff, like printing a "." for each test case.
372	+	*/
373	+	static junit.textui.TestRunner newPithyTestRunner() {
374	+	junit.textui.TestRunner runner = new junit.textui.TestRunner();
375	+	runner.setPrinter(new PithyResultPrinter(System.out));
376	+	return runner;
377	+	}
378	+
379	+	/**
380	+	* Runs all unit tests in the given test suite.
381	+	* Actual behavior influenced by jsr166.* system properties.
382	+	*/
383	+	static void main(Test suite, String[] args) {
384	+	if (useSecurityManager) {
385	+	System.err.println("Setting a permissive security manager");
386	+	Policy.setPolicy(permissivePolicy());
387	+	System.setSecurityManager(new SecurityManager());
388	+	}
389	+	for (int i = 0; i < suiteRuns; i++) {
390	+	TestResult result = newPithyTestRunner().doRun(suite);
391	+	if (!result.wasSuccessful())
392	+	System.exit(1);
393	+	System.gc();
394	+	System.runFinalization();
395	+	}
396	+	}
397	+
398	+	public static TestSuite newTestSuite(Object... suiteOrClasses) {
399	+	TestSuite suite = new TestSuite();
400	+	for (Object suiteOrClass : suiteOrClasses) {
401	+	if (suiteOrClass instanceof TestSuite)
402	+	suite.addTest((TestSuite) suiteOrClass);
403	+	else if (suiteOrClass instanceof Class)
404	+	suite.addTest(new TestSuite((Class<?>) suiteOrClass));
405	+	else
406	+	throw new ClassCastException("not a test suite or class");
407	+	}
408	+	return suite;
409	+	}
410	+
411	+	public static void addNamedTestClasses(TestSuite suite,
412	+	String... testClassNames) {
413	+	for (String testClassName : testClassNames) {
414	+	try {
415	+	Class<?> testClass = Class.forName(testClassName);
416	+	Method m = testClass.getDeclaredMethod("suite",
417	+	new Class<?>[0]);
418	+	suite.addTest(newTestSuite((Test)m.invoke(null)));
419	+	} catch (Exception e) {
420	+	throw new Error("Missing test class", e);
421	+	}
422	+	}
423	+	}
424	+
425	+	public static final double JAVA_CLASS_VERSION;
426	+	public static final String JAVA_SPECIFICATION_VERSION;
427	+	static {
428	+	try {
429	+	JAVA_CLASS_VERSION = java.security.AccessController.doPrivileged(
430	+	new java.security.PrivilegedAction<Double>() {
431	+	public Double run() {
432	+	return Double.valueOf(System.getProperty("java.class.version"));}});
433	+	JAVA_SPECIFICATION_VERSION = java.security.AccessController.doPrivileged(
434	+	new java.security.PrivilegedAction<String>() {
435	+	public String run() {
436	+	return System.getProperty("java.specification.version");}});
437	+	} catch (Throwable t) {
438	+	throw new Error(t);
439	+	}
440	+	}
441	+
442	+	public static boolean atLeastJava6() { return JAVA_CLASS_VERSION >= 50.0; }
443	+	public static boolean atLeastJava7() { return JAVA_CLASS_VERSION >= 51.0; }
444	+	public static boolean atLeastJava8() { return JAVA_CLASS_VERSION >= 52.0; }
445	+	public static boolean atLeastJava9() {
446	+	return JAVA_CLASS_VERSION >= 53.0
447	+	// As of 2015-09, java9 still uses 52.0 class file version
448	+	|| JAVA_SPECIFICATION_VERSION.matches("^(1\\.)?(9|[0-9][0-9])$");
449	+	}
450	+	public static boolean atLeastJava10() {
451	+	return JAVA_CLASS_VERSION >= 54.0
452	+	|| JAVA_SPECIFICATION_VERSION.matches("^(1\\.)?[0-9][0-9]$");
453	+	}
454	+
455	+	/**
456	+	* Collects all JSR166 unit tests as one suite.
457	+	*/
458	+	public static Test suite() {
459	+	// Java7+ test classes
460	+	TestSuite suite = newTestSuite(
461	+	ForkJoinPoolTest.suite(),
462	+	ForkJoinTaskTest.suite(),
463	+	RecursiveActionTest.suite(),
464	+	RecursiveTaskTest.suite(),
465	+	LinkedTransferQueueTest.suite(),
466	+	PhaserTest.suite(),
467	+	ThreadLocalRandomTest.suite(),
468	+	AbstractExecutorServiceTest.suite(),
469	+	AbstractQueueTest.suite(),
470	+	AbstractQueuedSynchronizerTest.suite(),
471	+	AbstractQueuedLongSynchronizerTest.suite(),
472	+	ArrayBlockingQueueTest.suite(),
473	+	ArrayDequeTest.suite(),
474	+	ArrayListTest.suite(),
475	+	AtomicBooleanTest.suite(),
476	+	AtomicIntegerArrayTest.suite(),
477	+	AtomicIntegerFieldUpdaterTest.suite(),
478	+	AtomicIntegerTest.suite(),
479	+	AtomicLongArrayTest.suite(),
480	+	AtomicLongFieldUpdaterTest.suite(),
481	+	AtomicLongTest.suite(),
482	+	AtomicMarkableReferenceTest.suite(),
483	+	AtomicReferenceArrayTest.suite(),
484	+	AtomicReferenceFieldUpdaterTest.suite(),
485	+	AtomicReferenceTest.suite(),
486	+	AtomicStampedReferenceTest.suite(),
487	+	ConcurrentHashMapTest.suite(),
488	+	ConcurrentLinkedDequeTest.suite(),
489	+	ConcurrentLinkedQueueTest.suite(),
490	+	ConcurrentSkipListMapTest.suite(),
491	+	ConcurrentSkipListSubMapTest.suite(),
492	+	ConcurrentSkipListSetTest.suite(),
493	+	ConcurrentSkipListSubSetTest.suite(),
494	+	CopyOnWriteArrayListTest.suite(),
495	+	CopyOnWriteArraySetTest.suite(),
496	+	CountDownLatchTest.suite(),
497	+	CountedCompleterTest.suite(),
498	+	CyclicBarrierTest.suite(),
499	+	DelayQueueTest.suite(),
500	+	EntryTest.suite(),
501	+	ExchangerTest.suite(),
502	+	ExecutorsTest.suite(),
503	+	ExecutorCompletionServiceTest.suite(),
504	+	FutureTaskTest.suite(),
505	+	LinkedBlockingDequeTest.suite(),
506	+	LinkedBlockingQueueTest.suite(),
507	+	LinkedListTest.suite(),
508	+	LockSupportTest.suite(),
509	+	PriorityBlockingQueueTest.suite(),
510	+	PriorityQueueTest.suite(),
511	+	ReentrantLockTest.suite(),
512	+	ReentrantReadWriteLockTest.suite(),
513	+	ScheduledExecutorTest.suite(),
514	+	ScheduledExecutorSubclassTest.suite(),
515	+	SemaphoreTest.suite(),
516	+	SynchronousQueueTest.suite(),
517	+	SystemTest.suite(),
518	+	ThreadLocalTest.suite(),
519	+	ThreadPoolExecutorTest.suite(),
520	+	ThreadPoolExecutorSubclassTest.suite(),
521	+	ThreadTest.suite(),
522	+	TimeUnitTest.suite(),
523	+	TreeMapTest.suite(),
524	+	TreeSetTest.suite(),
525	+	TreeSubMapTest.suite(),
526	+	TreeSubSetTest.suite(),
527	+	VectorTest.suite());
528	+
529	+	// Java8+ test classes
530	+	if (atLeastJava8()) {
531	+	String[] java8TestClassNames = {
532	+	"ArrayDeque8Test",
533	+	"Atomic8Test",
534	+	"CompletableFutureTest",
535	+	"ConcurrentHashMap8Test",
536	+	"CountedCompleter8Test",
537	+	"DoubleAccumulatorTest",
538	+	"DoubleAdderTest",
539	+	"ForkJoinPool8Test",
540	+	"ForkJoinTask8Test",
541	+	"LinkedBlockingDeque8Test",
542	+	"LinkedBlockingQueue8Test",
543	+	"LongAccumulatorTest",
544	+	"LongAdderTest",
545	+	"SplittableRandomTest",
546	+	"StampedLockTest",
547	+	"SubmissionPublisherTest",
548	+	"ThreadLocalRandom8Test",
549	+	"TimeUnit8Test",
550	+	};
551	+	addNamedTestClasses(suite, java8TestClassNames);
552	+	}
553	+
554	+	// Java9+ test classes
555	+	if (atLeastJava9()) {
556	+	String[] java9TestClassNames = {
557	+	"AtomicBoolean9Test",
558	+	"AtomicInteger9Test",
559	+	"AtomicIntegerArray9Test",
560	+	"AtomicLong9Test",
561	+	"AtomicLongArray9Test",
562	+	"AtomicReference9Test",
563	+	"AtomicReferenceArray9Test",
564	+	"ExecutorCompletionService9Test",
565	+	"ForkJoinPool9Test",
566	+	};
567	+	addNamedTestClasses(suite, java9TestClassNames);
568	+	}
569	+
570	+	return suite;
571	+	}
572	+
573	+	/** Returns list of junit-style test method names in given class. */
574	+	public static ArrayList<String> testMethodNames(Class<?> testClass) {
575	+	Method[] methods = testClass.getDeclaredMethods();
576	+	ArrayList<String> names = new ArrayList<>(methods.length);
577	+	for (Method method : methods) {
578	+	if (method.getName().startsWith("test")
579	+	&& Modifier.isPublic(method.getModifiers())
580	+	// method.getParameterCount() requires jdk8+
581	+	&& method.getParameterTypes().length == 0) {
582	+	names.add(method.getName());
583	+	}
584	+	}
585	+	return names;
586	+	}
587	+
588	+	/**
589	+	* Returns junit-style testSuite for the given test class, but
590	+	* parameterized by passing extra data to each test.
591	+	*/
592	+	public static <ExtraData> Test parameterizedTestSuite
593	+	(Class<? extends JSR166TestCase> testClass,
594	+	Class<ExtraData> dataClass,
595	+	ExtraData data) {
596	+	try {
597	+	TestSuite suite = new TestSuite();
598	+	Constructor c =
599	+	testClass.getDeclaredConstructor(dataClass, String.class);
600	+	for (String methodName : testMethodNames(testClass))
601	+	suite.addTest((Test) c.newInstance(data, methodName));
602	+	return suite;
603	+	} catch (Exception e) {
604	+	throw new Error(e);
605	+	}
606	+	}
607	+
608	+	/**
609	+	* Returns junit-style testSuite for the jdk8 extension of the
610	+	* given test class, but parameterized by passing extra data to
611	+	* each test.  Uses reflection to allow compilation in jdk7.
612	+	*/
613	+	public static <ExtraData> Test jdk8ParameterizedTestSuite
614	+	(Class<? extends JSR166TestCase> testClass,
615	+	Class<ExtraData> dataClass,
616	+	ExtraData data) {
617	+	if (atLeastJava8()) {
618	+	String name = testClass.getName();
619	+	String name8 = name.replaceAll("Test$", "8Test");
620	+	if (name.equals(name8)) throw new Error(name);
621	+	try {
622	+	return (Test)
623	+	Class.forName(name8)
624	+	.getMethod("testSuite", new Class[] { dataClass })
625	+	.invoke(null, data);
626	+	} catch (Exception e) {
627	+	throw new Error(e);
628	+	}
629	+	} else {
630	+	return new TestSuite();
631	+	}
632	+	}
633	+
634	+	// Delays for timing-dependent tests, in milliseconds.
635
636		public static long SHORT_DELAY_MS;
637		public static long SMALL_DELAY_MS;
638		public static long MEDIUM_DELAY_MS;
639		public static long LONG_DELAY_MS;
640
61	–
641		/**
642	<	* Return the shortest timed delay. This could
643	<	* be reimplmented to use for example a Property.
644	<	*/
642	>	* Returns the shortest timed delay. This can be scaled up for
643	>	* slow machines using the jsr166.delay.factor system property,
644	>	* or via jtreg's -timeoutFactor: flag.
645	>	* http://openjdk.java.net/jtreg/command-help.html
646	>	*/
647		protected long getShortDelay() {
648	<	return 50;
648	>	return (long) (50 * delayFactor);
649		}
650
70	–
651		/**
652	<	* Set delays as multiples fo SHORT_DELAY.
652	>	* Sets delays as multiples of SHORT_DELAY.
653		*/
654	<	protected  void setDelays() {
654	>	protected void setDelays() {
655		SHORT_DELAY_MS = getShortDelay();
656	<	SMALL_DELAY_MS = SHORT_DELAY_MS * 5;
656	>	SMALL_DELAY_MS  = SHORT_DELAY_MS * 5;
657		MEDIUM_DELAY_MS = SHORT_DELAY_MS * 10;
658	<	LONG_DELAY_MS = SHORT_DELAY_MS * 50;
658	>	LONG_DELAY_MS   = SHORT_DELAY_MS * 200;
659	>	}
660	>
661	>	private static final long TIMEOUT_DELAY_MS
662	>	= (long) (12.0 * Math.cbrt(delayFactor));
663	>
664	>	/**
665	>	* Returns a timeout in milliseconds to be used in tests that verify
666	>	* that operations block or time out.  We want this to be longer
667	>	* than the OS scheduling quantum, but not too long, so don't scale
668	>	* linearly with delayFactor; we use "crazy" cube root instead.
669	>	*/
670	>	static long timeoutMillis() {
671	>	return TIMEOUT_DELAY_MS;
672	>	}
673	>
674	>	/**
675	>	* Returns a new Date instance representing a time at least
676	>	* delayMillis milliseconds in the future.
677	>	*/
678	>	Date delayedDate(long delayMillis) {
679	>	// Add 1 because currentTimeMillis is known to round into the past.
680	>	return new Date(System.currentTimeMillis() + delayMillis + 1);
681		}
682
683		/**
684	<	* Flag set true if any threadAssert methods fail
684	>	* The first exception encountered if any threadAssertXXX method fails.
685		*/
686	<	protected volatile boolean threadFailed;
686	>	private final AtomicReference<Throwable> threadFailure
687	>	= new AtomicReference<>(null);
688
689		/**
690	<	* Initialize test to indicat that no thread assertions have failed
690	>	* Records an exception so that it can be rethrown later in the test
691	>	* harness thread, triggering a test case failure.  Only the first
692	>	* failure is recorded; subsequent calls to this method from within
693	>	* the same test have no effect.
694		*/
695	<	public void setUp() {
695	>	public void threadRecordFailure(Throwable t) {
696	>	System.err.println(t);
697	>	dumpTestThreads();
698	>	threadFailure.compareAndSet(null, t);
699	>	}
700	>
701	>	public void setUp() {
702		setDelays();
703	<	threadFailed = false;
703	>	}
704	>
705	>	void tearDownFail(String format, Object... args) {
706	>	String msg = toString() + ": " + String.format(format, args);
707	>	System.err.println(msg);
708	>	dumpTestThreads();
709	>	throw new AssertionFailedError(msg);
710	>	}
711	>
712	>	/**
713	>	* Extra checks that get done for all test cases.
714	>	*
715	>	* Triggers test case failure if any thread assertions have failed,
716	>	* by rethrowing, in the test harness thread, any exception recorded
717	>	* earlier by threadRecordFailure.
718	>	*
719	>	* Triggers test case failure if interrupt status is set in the main thread.
720	>	*/
721	>	public void tearDown() throws Exception {
722	>	Throwable t = threadFailure.getAndSet(null);
723	>	if (t != null) {
724	>	if (t instanceof Error)
725	>	throw (Error) t;
726	>	else if (t instanceof RuntimeException)
727	>	throw (RuntimeException) t;
728	>	else if (t instanceof Exception)
729	>	throw (Exception) t;
730	>	else {
731	>	AssertionFailedError afe =
732	>	new AssertionFailedError(t.toString());
733	>	afe.initCause(t);
734	>	throw afe;
735	>	}
736	>	}
737	>
738	>	if (Thread.interrupted())
739	>	tearDownFail("interrupt status set in main thread");
740	>
741	>	checkForkJoinPoolThreadLeaks();
742		}
743
744		/**
745	<	* Trigger test case failure if any thread assertions have failed
745	>	* Finds missing PoolCleaners
746		*/
747	<	public void tearDown() {
748	<	assertFalse(threadFailed);
747	>	void checkForkJoinPoolThreadLeaks() throws InterruptedException {
748	>	Thread[] survivors = new Thread[7];
749	>	int count = Thread.enumerate(survivors);
750	>	for (int i = 0; i < count; i++) {
751	>	Thread thread = survivors[i];
752	>	String name = thread.getName();
753	>	if (name.startsWith("ForkJoinPool-")) {
754	>	// give thread some time to terminate
755	>	thread.join(LONG_DELAY_MS);
756	>	if (thread.isAlive())
757	>	tearDownFail("Found leaked ForkJoinPool thread thread=%s",
758	>	thread);
759	>	}
760	>	}
761	>
762	>	if (!ForkJoinPool.commonPool()
763	>	.awaitQuiescence(LONG_DELAY_MS, MILLISECONDS))
764	>	tearDownFail("ForkJoin common pool thread stuck");
765		}
766
767	+	/**
768	+	* Just like fail(reason), but additionally recording (using
769	+	* threadRecordFailure) any AssertionFailedError thrown, so that
770	+	* the current testcase will fail.
771	+	*/
772		public void threadFail(String reason) {
773	<	threadFailed = true;
774	<	fail(reason);
773	>	try {
774	>	fail(reason);
775	>	} catch (AssertionFailedError t) {
776	>	threadRecordFailure(t);
777	>	throw t;
778	>	}
779		}
780
781	+	/**
782	+	* Just like assertTrue(b), but additionally recording (using
783	+	* threadRecordFailure) any AssertionFailedError thrown, so that
784	+	* the current testcase will fail.
785	+	*/
786		public void threadAssertTrue(boolean b) {
787	<	if (!b) {
108	<	threadFailed = true;
787	>	try {
788		assertTrue(b);
789	+	} catch (AssertionFailedError t) {
790	+	threadRecordFailure(t);
791	+	throw t;
792		}
793		}
794	+
795	+	/**
796	+	* Just like assertFalse(b), but additionally recording (using
797	+	* threadRecordFailure) any AssertionFailedError thrown, so that
798	+	* the current testcase will fail.
799	+	*/
800		public void threadAssertFalse(boolean b) {
801	<	if (b) {
114	<	threadFailed = true;
801	>	try {
802		assertFalse(b);
803	+	} catch (AssertionFailedError t) {
804	+	threadRecordFailure(t);
805	+	throw t;
806		}
807		}
808	+
809	+	/**
810	+	* Just like assertNull(x), but additionally recording (using
811	+	* threadRecordFailure) any AssertionFailedError thrown, so that
812	+	* the current testcase will fail.
813	+	*/
814		public void threadAssertNull(Object x) {
815	<	if (x != null) {
120	<	threadFailed = true;
815	>	try {
816		assertNull(x);
817	+	} catch (AssertionFailedError t) {
818	+	threadRecordFailure(t);
819	+	throw t;
820		}
821		}
822	+
823	+	/**
824	+	* Just like assertEquals(x, y), but additionally recording (using
825	+	* threadRecordFailure) any AssertionFailedError thrown, so that
826	+	* the current testcase will fail.
827	+	*/
828		public void threadAssertEquals(long x, long y) {
829	<	if (x != y) {
126	<	threadFailed = true;
829	>	try {
830		assertEquals(x, y);
831	+	} catch (AssertionFailedError t) {
832	+	threadRecordFailure(t);
833	+	throw t;
834		}
835		}
836	+
837	+	/**
838	+	* Just like assertEquals(x, y), but additionally recording (using
839	+	* threadRecordFailure) any AssertionFailedError thrown, so that
840	+	* the current testcase will fail.
841	+	*/
842		public void threadAssertEquals(Object x, Object y) {
843	<	if (x != y && (x == null || !x.equals(y))) {
132	<	threadFailed = true;
843	>	try {
844		assertEquals(x, y);
845	+	} catch (AssertionFailedError fail) {
846	+	threadRecordFailure(fail);
847	+	throw fail;
848	+	} catch (Throwable fail) {
849	+	threadUnexpectedException(fail);
850		}
851		}
852
853		/**
854	<	* Wait out termination of a thread pool or fail doing so
854	>	* Just like assertSame(x, y), but additionally recording (using
855	>	* threadRecordFailure) any AssertionFailedError thrown, so that
856	>	* the current testcase will fail.
857		*/
858	<	public void joinPool(ExecutorService exec) {
858	>	public void threadAssertSame(Object x, Object y) {
859		try {
860	<	exec.shutdown();
861	<	assertTrue(exec.awaitTermination(LONG_DELAY_MS, TimeUnit.MILLISECONDS));
862	<	} catch(InterruptedException ie) {
863	<	fail("unexpected exception");
860	>	assertSame(x, y);
861	>	} catch (AssertionFailedError fail) {
862	>	threadRecordFailure(fail);
863	>	throw fail;
864	>	}
865	>	}
866	>
867	>	/**
868	>	* Calls threadFail with message "should throw exception".
869	>	*/
870	>	public void threadShouldThrow() {
871	>	threadFail("should throw exception");
872	>	}
873	>
874	>	/**
875	>	* Calls threadFail with message "should throw" + exceptionName.
876	>	*/
877	>	public void threadShouldThrow(String exceptionName) {
878	>	threadFail("should throw " + exceptionName);
879	>	}
880	>
881	>	/**
882	>	* Records the given exception using {@link #threadRecordFailure},
883	>	* then rethrows the exception, wrapping it in an
884	>	* AssertionFailedError if necessary.
885	>	*/
886	>	public void threadUnexpectedException(Throwable t) {
887	>	threadRecordFailure(t);
888	>	t.printStackTrace();
889	>	if (t instanceof RuntimeException)
890	>	throw (RuntimeException) t;
891	>	else if (t instanceof Error)
892	>	throw (Error) t;
893	>	else {
894	>	AssertionFailedError afe =
895	>	new AssertionFailedError("unexpected exception: " + t);
896	>	afe.initCause(t);
897	>	throw afe;
898		}
899		}
900
901	+	/**
902	+	* Delays, via Thread.sleep, for the given millisecond delay, but
903	+	* if the sleep is shorter than specified, may re-sleep or yield
904	+	* until time elapses.  Ensures that the given time, as measured
905	+	* by System.nanoTime(), has elapsed.
906	+	*/
907	+	static void delay(long millis) throws InterruptedException {
908	+	long nanos = millis * (1000 * 1000);
909	+	final long wakeupTime = System.nanoTime() + nanos;
910	+	do {
911	+	if (millis > 0L)
912	+	Thread.sleep(millis);
913	+	else // too short to sleep
914	+	Thread.yield();
915	+	nanos = wakeupTime - System.nanoTime();
916	+	millis = nanos / (1000 * 1000);
917	+	} while (nanos >= 0L);
918	+	}
919
920	+	/**
921	+	* Allows use of try-with-resources with per-test thread pools.
922	+	*/
923	+	class PoolCleaner implements AutoCloseable {
924	+	private final ExecutorService pool;
925	+	public PoolCleaner(ExecutorService pool) { this.pool = pool; }
926	+	public void close() { joinPool(pool); }
927	+	}
928	+
929	+	/**
930	+	* An extension of PoolCleaner that has an action to release the pool.
931	+	*/
932	+	class PoolCleanerWithReleaser extends PoolCleaner {
933	+	private final Runnable releaser;
934	+	public PoolCleanerWithReleaser(ExecutorService pool, Runnable releaser) {
935	+	super(pool);
936	+	this.releaser = releaser;
937	+	}
938	+	public void close() {
939	+	try {
940	+	releaser.run();
941	+	} finally {
942	+	super.close();
943	+	}
944	+	}
945	+	}
946	+
947	+	PoolCleaner cleaner(ExecutorService pool) {
948	+	return new PoolCleaner(pool);
949	+	}
950	+
951	+	PoolCleaner cleaner(ExecutorService pool, Runnable releaser) {
952	+	return new PoolCleanerWithReleaser(pool, releaser);
953	+	}
954	+
955	+	PoolCleaner cleaner(ExecutorService pool, CountDownLatch latch) {
956	+	return new PoolCleanerWithReleaser(pool, releaser(latch));
957	+	}
958	+
959	+	Runnable releaser(final CountDownLatch latch) {
960	+	return new Runnable() { public void run() {
961	+	do { latch.countDown(); }
962	+	while (latch.getCount() > 0);
963	+	}};
964	+	}
965	+
966	+	PoolCleaner cleaner(ExecutorService pool, AtomicBoolean flag) {
967	+	return new PoolCleanerWithReleaser(pool, releaser(flag));
968	+	}
969	+
970	+	Runnable releaser(final AtomicBoolean flag) {
971	+	return new Runnable() { public void run() { flag.set(true); }};
972	+	}
973	+
974	+	/**
975	+	* Waits out termination of a thread pool or fails doing so.
976	+	*/
977	+	void joinPool(ExecutorService pool) {
978	+	try {
979	+	pool.shutdown();
980	+	if (!pool.awaitTermination(2 * LONG_DELAY_MS, MILLISECONDS)) {
981	+	try {
982	+	threadFail("ExecutorService " + pool +
983	+	" did not terminate in a timely manner");
984	+	} finally {
985	+	// last resort, for the benefit of subsequent tests
986	+	pool.shutdownNow();
987	+	pool.awaitTermination(MEDIUM_DELAY_MS, MILLISECONDS);
988	+	}
989	+	}
990	+	} catch (SecurityException ok) {
991	+	// Allowed in case test doesn't have privs
992	+	} catch (InterruptedException fail) {
993	+	threadFail("Unexpected InterruptedException");
994	+	}
995	+	}
996	+
997	+	/**
998	+	* Like Runnable, but with the freedom to throw anything.
999	+	* junit folks had the same idea:
1000	+	* http://junit.org/junit5/docs/snapshot/api/org/junit/gen5/api/Executable.html
1001	+	*/
1002	+	interface Action { public void run() throws Throwable; }
1003	+
1004	+	/**
1005	+	* Runs all the given actions in parallel, failing if any fail.
1006	+	* Useful for running multiple variants of tests that are
1007	+	* necessarily individually slow because they must block.
1008	+	*/
1009	+	void testInParallel(Action ... actions) {
1010	+	ExecutorService pool = Executors.newCachedThreadPool();
1011	+	try (PoolCleaner cleaner = cleaner(pool)) {
1012	+	ArrayList<Future<?>> futures = new ArrayList<>(actions.length);
1013	+	for (final Action action : actions)
1014	+	futures.add(pool.submit(new CheckedRunnable() {
1015	+	public void realRun() throws Throwable { action.run();}}));
1016	+	for (Future<?> future : futures)
1017	+	try {
1018	+	assertNull(future.get(LONG_DELAY_MS, MILLISECONDS));
1019	+	} catch (ExecutionException ex) {
1020	+	threadUnexpectedException(ex.getCause());
1021	+	} catch (Exception ex) {
1022	+	threadUnexpectedException(ex);
1023	+	}
1024	+	}
1025	+	}
1026	+
1027	+	/**
1028	+	* A debugging tool to print stack traces of most threads, as jstack does.
1029	+	* Uninteresting threads are filtered out.
1030	+	*/
1031	+	static void dumpTestThreads() {
1032	+	SecurityManager sm = System.getSecurityManager();
1033	+	if (sm != null) {
1034	+	try {
1035	+	System.setSecurityManager(null);
1036	+	} catch (SecurityException giveUp) {
1037	+	return;
1038	+	}
1039	+	}
1040	+
1041	+	ThreadMXBean threadMXBean = ManagementFactory.getThreadMXBean();
1042	+	System.err.println("------ stacktrace dump start ------");
1043	+	for (ThreadInfo info : threadMXBean.dumpAllThreads(true, true)) {
1044	+	final String name = info.getThreadName();
1045	+	String lockName;
1046	+	if ("Signal Dispatcher".equals(name))
1047	+	continue;
1048	+	if ("Reference Handler".equals(name)
1049	+	&& (lockName = info.getLockName()) != null
1050	+	&& lockName.startsWith("java.lang.ref.Reference$Lock"))
1051	+	continue;
1052	+	if ("Finalizer".equals(name)
1053	+	&& (lockName = info.getLockName()) != null
1054	+	&& lockName.startsWith("java.lang.ref.ReferenceQueue$Lock"))
1055	+	continue;
1056	+	if ("checkForWedgedTest".equals(name))
1057	+	continue;
1058	+	System.err.print(info);
1059	+	}
1060	+	System.err.println("------ stacktrace dump end ------");
1061	+
1062	+	if (sm != null) System.setSecurityManager(sm);
1063	+	}
1064	+
1065	+	/**
1066	+	* Checks that thread eventually enters the expected blocked thread state.
1067	+	*/
1068	+	void assertThreadBlocks(Thread thread, Thread.State expected) {
1069	+	// always sleep at least 1 ms, avoiding transitional states
1070	+	// with high probability
1071	+	for (long retries = LONG_DELAY_MS; retries-->0; ) {
1072	+	try { delay(1); }
1073	+	catch (InterruptedException fail) {
1074	+	fail("Unexpected InterruptedException");
1075	+	}
1076	+	Thread.State s = thread.getState();
1077	+	if (s == expected)
1078	+	return;
1079	+	else if (s == Thread.State.TERMINATED)
1080	+	fail("Unexpected thread termination");
1081	+	}
1082	+	fail("timed out waiting for thread to enter thread state " + expected);
1083	+	}
1084	+
1085	+	/**
1086	+	* Checks that thread does not terminate within the default
1087	+	* millisecond delay of {@code timeoutMillis()}.
1088	+	*/
1089	+	void assertThreadStaysAlive(Thread thread) {
1090	+	assertThreadStaysAlive(thread, timeoutMillis());
1091	+	}
1092	+
1093	+	/**
1094	+	* Checks that thread does not terminate within the given millisecond delay.
1095	+	*/
1096	+	void assertThreadStaysAlive(Thread thread, long millis) {
1097	+	try {
1098	+	// No need to optimize the failing case via Thread.join.
1099	+	delay(millis);
1100	+	assertTrue(thread.isAlive());
1101	+	} catch (InterruptedException fail) {
1102	+	threadFail("Unexpected InterruptedException");
1103	+	}
1104	+	}
1105	+
1106	+	/**
1107	+	* Checks that the threads do not terminate within the default
1108	+	* millisecond delay of {@code timeoutMillis()}.
1109	+	*/
1110	+	void assertThreadsStayAlive(Thread... threads) {
1111	+	assertThreadsStayAlive(timeoutMillis(), threads);
1112	+	}
1113	+
1114	+	/**
1115	+	* Checks that the threads do not terminate within the given millisecond delay.
1116	+	*/
1117	+	void assertThreadsStayAlive(long millis, Thread... threads) {
1118	+	try {
1119	+	// No need to optimize the failing case via Thread.join.
1120	+	delay(millis);
1121	+	for (Thread thread : threads)
1122	+	assertTrue(thread.isAlive());
1123	+	} catch (InterruptedException fail) {
1124	+	threadFail("Unexpected InterruptedException");
1125	+	}
1126	+	}
1127	+
1128	+	/**
1129	+	* Checks that future.get times out, with the default timeout of
1130	+	* {@code timeoutMillis()}.
1131	+	*/
1132	+	void assertFutureTimesOut(Future future) {
1133	+	assertFutureTimesOut(future, timeoutMillis());
1134	+	}
1135	+
1136	+	/**
1137	+	* Checks that future.get times out, with the given millisecond timeout.
1138	+	*/
1139	+	void assertFutureTimesOut(Future future, long timeoutMillis) {
1140	+	long startTime = System.nanoTime();
1141	+	try {
1142	+	future.get(timeoutMillis, MILLISECONDS);
1143	+	shouldThrow();
1144	+	} catch (TimeoutException success) {
1145	+	} catch (Exception fail) {
1146	+	threadUnexpectedException(fail);
1147	+	} finally { future.cancel(true); }
1148	+	assertTrue(millisElapsedSince(startTime) >= timeoutMillis);
1149	+	}
1150	+
1151	+	/**
1152	+	* Fails with message "should throw exception".
1153	+	*/
1154	+	public void shouldThrow() {
1155	+	fail("Should throw exception");
1156	+	}
1157	+
1158	+	/**
1159	+	* Fails with message "should throw " + exceptionName.
1160	+	*/
1161	+	public void shouldThrow(String exceptionName) {
1162	+	fail("Should throw " + exceptionName);
1163	+	}
1164	+
1165	+	/**
1166	+	* The maximum number of consecutive spurious wakeups we should
1167	+	* tolerate (from APIs like LockSupport.park) before failing a test.
1168	+	*/
1169	+	static final int MAX_SPURIOUS_WAKEUPS = 10;
1170
1171		/**
1172		* The number of elements to place in collections, arrays, etc.
#	Line 155 | Line 1175 | public class JSR166TestCase extends Test
1175
1176		// Some convenient Integer constants
1177
1178	<	public static final Integer zero = new Integer(0);
1179	<	public static final Integer one = new Integer(1);
1180	<	public static final Integer two = new Integer(2);
1181	<	public static final Integer three  = new Integer(3);
1178	>	public static final Integer zero  = new Integer(0);
1179	>	public static final Integer one   = new Integer(1);
1180	>	public static final Integer two   = new Integer(2);
1181	>	public static final Integer three = new Integer(3);
1182		public static final Integer four  = new Integer(4);
1183		public static final Integer five  = new Integer(5);
1184	<	public static final Integer six = new Integer(6);
1184	>	public static final Integer six   = new Integer(6);
1185		public static final Integer seven = new Integer(7);
1186		public static final Integer eight = new Integer(8);
1187	<	public static final Integer nine = new Integer(9);
1187	>	public static final Integer nine  = new Integer(9);
1188		public static final Integer m1  = new Integer(-1);
1189		public static final Integer m2  = new Integer(-2);
1190		public static final Integer m3  = new Integer(-3);
1191	<	public static final Integer m4 = new Integer(-4);
1192	<	public static final Integer m5 = new Integer(-5);
1191	>	public static final Integer m4  = new Integer(-4);
1192	>	public static final Integer m5  = new Integer(-5);
1193	>	public static final Integer m6  = new Integer(-6);
1194		public static final Integer m10 = new Integer(-10);
1195
1196	+	/**
1197	+	* Runs Runnable r with a security policy that permits precisely
1198	+	* the specified permissions.  If there is no current security
1199	+	* manager, the runnable is run twice, both with and without a
1200	+	* security manager.  We require that any security manager permit
1201	+	* getPolicy/setPolicy.
1202	+	*/
1203	+	public void runWithPermissions(Runnable r, Permission... permissions) {
1204	+	SecurityManager sm = System.getSecurityManager();
1205	+	if (sm == null) {
1206	+	r.run();
1207	+	}
1208	+	runWithSecurityManagerWithPermissions(r, permissions);
1209	+	}
1210
1211	<	// Some convenient Runnable classes
1211	>	/**
1212	>	* Runs Runnable r with a security policy that permits precisely
1213	>	* the specified permissions.  If there is no current security
1214	>	* manager, a temporary one is set for the duration of the
1215	>	* Runnable.  We require that any security manager permit
1216	>	* getPolicy/setPolicy.
1217	>	*/
1218	>	public void runWithSecurityManagerWithPermissions(Runnable r,
1219	>	Permission... permissions) {
1220	>	SecurityManager sm = System.getSecurityManager();
1221	>	if (sm == null) {
1222	>	Policy savedPolicy = Policy.getPolicy();
1223	>	try {
1224	>	Policy.setPolicy(permissivePolicy());
1225	>	System.setSecurityManager(new SecurityManager());
1226	>	runWithSecurityManagerWithPermissions(r, permissions);
1227	>	} finally {
1228	>	System.setSecurityManager(null);
1229	>	Policy.setPolicy(savedPolicy);
1230	>	}
1231	>	} else {
1232	>	Policy savedPolicy = Policy.getPolicy();
1233	>	AdjustablePolicy policy = new AdjustablePolicy(permissions);
1234	>	Policy.setPolicy(policy);
1235
1236	<	public static class NoOpRunnable implements Runnable {
1237	<	public void run() {}
1236	>	try {
1237	>	r.run();
1238	>	} finally {
1239	>	policy.addPermission(new SecurityPermission("setPolicy"));
1240	>	Policy.setPolicy(savedPolicy);
1241	>	}
1242	>	}
1243		}
1244
1245	<	public static class NoOpCallable implements Callable {
1246	<	public Object call() { return Boolean.TRUE; }
1245	>	/**
1246	>	* Runs a runnable without any permissions.
1247	>	*/
1248	>	public void runWithoutPermissions(Runnable r) {
1249	>	runWithPermissions(r);
1250		}
1251
1252	<	public class ShortRunnable implements Runnable {
1253	<	public void run() {
1254	<	try {
1255	<	Thread.sleep(SHORT_DELAY_MS);
1252	>	/**
1253	>	* A security policy where new permissions can be dynamically added
1254	>	* or all cleared.
1255	>	*/
1256	>	public static class AdjustablePolicy extends java.security.Policy {
1257	>	Permissions perms = new Permissions();
1258	>	AdjustablePolicy(Permission... permissions) {
1259	>	for (Permission permission : permissions)
1260	>	perms.add(permission);
1261	>	}
1262	>	void addPermission(Permission perm) { perms.add(perm); }
1263	>	void clearPermissions() { perms = new Permissions(); }
1264	>	public PermissionCollection getPermissions(CodeSource cs) {
1265	>	return perms;
1266	>	}
1267	>	public PermissionCollection getPermissions(ProtectionDomain pd) {
1268	>	return perms;
1269	>	}
1270	>	public boolean implies(ProtectionDomain pd, Permission p) {
1271	>	return perms.implies(p);
1272	>	}
1273	>	public void refresh() {}
1274	>	public String toString() {
1275	>	List<Permission> ps = new ArrayList<>();
1276	>	for (Enumeration<Permission> e = perms.elements(); e.hasMoreElements();)
1277	>	ps.add(e.nextElement());
1278	>	return "AdjustablePolicy with permissions " + ps;
1279	>	}
1280	>	}
1281	>
1282	>	/**
1283	>	* Returns a policy containing all the permissions we ever need.
1284	>	*/
1285	>	public static Policy permissivePolicy() {
1286	>	return new AdjustablePolicy
1287	>	// Permissions j.u.c. needs directly
1288	>	(new RuntimePermission("modifyThread"),
1289	>	new RuntimePermission("getClassLoader"),
1290	>	new RuntimePermission("setContextClassLoader"),
1291	>	// Permissions needed to change permissions!
1292	>	new SecurityPermission("getPolicy"),
1293	>	new SecurityPermission("setPolicy"),
1294	>	new RuntimePermission("setSecurityManager"),
1295	>	// Permissions needed by the junit test harness
1296	>	new RuntimePermission("accessDeclaredMembers"),
1297	>	new PropertyPermission("*", "read"),
1298	>	new java.io.FilePermission("<<ALL FILES>>", "read"));
1299	>	}
1300	>
1301	>	/**
1302	>	* Sleeps until the given time has elapsed.
1303	>	* Throws AssertionFailedError if interrupted.
1304	>	*/
1305	>	static void sleep(long millis) {
1306	>	try {
1307	>	delay(millis);
1308	>	} catch (InterruptedException fail) {
1309	>	AssertionFailedError afe =
1310	>	new AssertionFailedError("Unexpected InterruptedException");
1311	>	afe.initCause(fail);
1312	>	throw afe;
1313	>	}
1314	>	}
1315	>
1316	>	/**
1317	>	* Spin-waits up to the specified number of milliseconds for the given
1318	>	* thread to enter a wait state: BLOCKED, WAITING, or TIMED_WAITING.
1319	>	*/
1320	>	void waitForThreadToEnterWaitState(Thread thread, long timeoutMillis) {
1321	>	long startTime = 0L;
1322	>	for (;;) {
1323	>	Thread.State s = thread.getState();
1324	>	if (s == Thread.State.BLOCKED ||
1325	>	s == Thread.State.WAITING ||
1326	>	s == Thread.State.TIMED_WAITING)
1327	>	return;
1328	>	else if (s == Thread.State.TERMINATED)
1329	>	fail("Unexpected thread termination");
1330	>	else if (startTime == 0L)
1331	>	startTime = System.nanoTime();
1332	>	else if (millisElapsedSince(startTime) > timeoutMillis) {
1333	>	threadAssertTrue(thread.isAlive());
1334	>	fail("timed out waiting for thread to enter wait state");
1335	>	}
1336	>	Thread.yield();
1337	>	}
1338	>	}
1339	>
1340	>	/**
1341	>	* Spin-waits up to the specified number of milliseconds for the given
1342	>	* thread to enter a wait state: BLOCKED, WAITING, or TIMED_WAITING,
1343	>	* and additionally satisfy the given condition.
1344	>	*/
1345	>	void waitForThreadToEnterWaitState(
1346	>	Thread thread, long timeoutMillis, Callable<Boolean> waitingForGodot) {
1347	>	long startTime = 0L;
1348	>	for (;;) {
1349	>	Thread.State s = thread.getState();
1350	>	if (s == Thread.State.BLOCKED ||
1351	>	s == Thread.State.WAITING ||
1352	>	s == Thread.State.TIMED_WAITING) {
1353	>	try {
1354	>	if (waitingForGodot.call())
1355	>	return;
1356	>	} catch (Throwable fail) { threadUnexpectedException(fail); }
1357		}
1358	<	catch(Exception e) {
1359	<	threadFail("unexpectedException");
1358	>	else if (s == Thread.State.TERMINATED)
1359	>	fail("Unexpected thread termination");
1360	>	else if (startTime == 0L)
1361	>	startTime = System.nanoTime();
1362	>	else if (millisElapsedSince(startTime) > timeoutMillis) {
1363	>	threadAssertTrue(thread.isAlive());
1364	>	fail("timed out waiting for thread to enter wait state");
1365		}
1366	+	Thread.yield();
1367		}
1368		}
1369
1370	<	public class ShortInterruptedRunnable implements Runnable {
1371	<	public void run() {
1370	>	/**
1371	>	* Spin-waits up to LONG_DELAY_MS milliseconds for the given thread to
1372	>	* enter a wait state: BLOCKED, WAITING, or TIMED_WAITING.
1373	>	*/
1374	>	void waitForThreadToEnterWaitState(Thread thread) {
1375	>	waitForThreadToEnterWaitState(thread, LONG_DELAY_MS);
1376	>	}
1377	>
1378	>	/**
1379	>	* Spin-waits up to LONG_DELAY_MS milliseconds for the given thread to
1380	>	* enter a wait state: BLOCKED, WAITING, or TIMED_WAITING,
1381	>	* and additionally satisfy the given condition.
1382	>	*/
1383	>	void waitForThreadToEnterWaitState(
1384	>	Thread thread, Callable<Boolean> waitingForGodot) {
1385	>	waitForThreadToEnterWaitState(thread, LONG_DELAY_MS, waitingForGodot);
1386	>	}
1387	>
1388	>	/**
1389	>	* Returns the number of milliseconds since time given by
1390	>	* startNanoTime, which must have been previously returned from a
1391	>	* call to {@link System#nanoTime()}.
1392	>	*/
1393	>	static long millisElapsedSince(long startNanoTime) {
1394	>	return NANOSECONDS.toMillis(System.nanoTime() - startNanoTime);
1395	>	}
1396	>
1397	>	//     void assertTerminatesPromptly(long timeoutMillis, Runnable r) {
1398	>	//         long startTime = System.nanoTime();
1399	>	//         try {
1400	>	//             r.run();
1401	>	//         } catch (Throwable fail) { threadUnexpectedException(fail); }
1402	>	//         if (millisElapsedSince(startTime) > timeoutMillis/2)
1403	>	//             throw new AssertionFailedError("did not return promptly");
1404	>	//     }
1405	>
1406	>	//     void assertTerminatesPromptly(Runnable r) {
1407	>	//         assertTerminatesPromptly(LONG_DELAY_MS/2, r);
1408	>	//     }
1409	>
1410	>	/**
1411	>	* Checks that timed f.get() returns the expected value, and does not
1412	>	* wait for the timeout to elapse before returning.
1413	>	*/
1414	>	<T> void checkTimedGet(Future<T> f, T expectedValue, long timeoutMillis) {
1415	>	long startTime = System.nanoTime();
1416	>	try {
1417	>	assertEquals(expectedValue, f.get(timeoutMillis, MILLISECONDS));
1418	>	} catch (Throwable fail) { threadUnexpectedException(fail); }
1419	>	if (millisElapsedSince(startTime) > timeoutMillis/2)
1420	>	throw new AssertionFailedError("timed get did not return promptly");
1421	>	}
1422	>
1423	>	<T> void checkTimedGet(Future<T> f, T expectedValue) {
1424	>	checkTimedGet(f, expectedValue, LONG_DELAY_MS);
1425	>	}
1426	>
1427	>	/**
1428	>	* Returns a new started daemon Thread running the given runnable.
1429	>	*/
1430	>	Thread newStartedThread(Runnable runnable) {
1431	>	Thread t = new Thread(runnable);
1432	>	t.setDaemon(true);
1433	>	t.start();
1434	>	return t;
1435	>	}
1436	>
1437	>	/**
1438	>	* Waits for the specified time (in milliseconds) for the thread
1439	>	* to terminate (using {@link Thread#join(long)}), else interrupts
1440	>	* the thread (in the hope that it may terminate later) and fails.
1441	>	*/
1442	>	void awaitTermination(Thread t, long timeoutMillis) {
1443	>	try {
1444	>	t.join(timeoutMillis);
1445	>	} catch (InterruptedException fail) {
1446	>	threadUnexpectedException(fail);
1447	>	} finally {
1448	>	if (t.getState() != Thread.State.TERMINATED) {
1449	>	t.interrupt();
1450	>	threadFail("timed out waiting for thread to terminate");
1451	>	}
1452	>	}
1453	>	}
1454	>
1455	>	/**
1456	>	* Waits for LONG_DELAY_MS milliseconds for the thread to
1457	>	* terminate (using {@link Thread#join(long)}), else interrupts
1458	>	* the thread (in the hope that it may terminate later) and fails.
1459	>	*/
1460	>	void awaitTermination(Thread t) {
1461	>	awaitTermination(t, LONG_DELAY_MS);
1462	>	}
1463	>
1464	>	// Some convenient Runnable classes
1465	>
1466	>	public abstract class CheckedRunnable implements Runnable {
1467	>	protected abstract void realRun() throws Throwable;
1468	>
1469	>	public final void run() {
1470		try {
1471	<	Thread.sleep(SHORT_DELAY_MS);
1472	<	threadFail("should throw IE");
1471	>	realRun();
1472	>	} catch (Throwable fail) {
1473	>	threadUnexpectedException(fail);
1474		}
1475	<	catch(InterruptedException success) {
1475	>	}
1476	>	}
1477	>
1478	>	public abstract class RunnableShouldThrow implements Runnable {
1479	>	protected abstract void realRun() throws Throwable;
1480	>
1481	>	final Class<?> exceptionClass;
1482	>
1483	>	<T extends Throwable> RunnableShouldThrow(Class<T> exceptionClass) {
1484	>	this.exceptionClass = exceptionClass;
1485	>	}
1486	>
1487	>	public final void run() {
1488	>	try {
1489	>	realRun();
1490	>	threadShouldThrow(exceptionClass.getSimpleName());
1491	>	} catch (Throwable t) {
1492	>	if (! exceptionClass.isInstance(t))
1493	>	threadUnexpectedException(t);
1494		}
1495		}
1496		}
1497
1498	<	public class SmallRunnable implements Runnable {
1499	<	public void run() {
1498	>	public abstract class ThreadShouldThrow extends Thread {
1499	>	protected abstract void realRun() throws Throwable;
1500	>
1501	>	final Class<?> exceptionClass;
1502	>
1503	>	<T extends Throwable> ThreadShouldThrow(Class<T> exceptionClass) {
1504	>	this.exceptionClass = exceptionClass;
1505	>	}
1506	>
1507	>	public final void run() {
1508		try {
1509	<	Thread.sleep(SMALL_DELAY_MS);
1509	>	realRun();
1510	>	threadShouldThrow(exceptionClass.getSimpleName());
1511	>	} catch (Throwable t) {
1512	>	if (! exceptionClass.isInstance(t))
1513	>	threadUnexpectedException(t);
1514		}
1515	<	catch(Exception e) {
1516	<	threadFail("unexpectedException");
1515	>	}
1516	>	}
1517	>
1518	>	public abstract class CheckedInterruptedRunnable implements Runnable {
1519	>	protected abstract void realRun() throws Throwable;
1520	>
1521	>	public final void run() {
1522	>	try {
1523	>	realRun();
1524	>	threadShouldThrow("InterruptedException");
1525	>	} catch (InterruptedException success) {
1526	>	threadAssertFalse(Thread.interrupted());
1527	>	} catch (Throwable fail) {
1528	>	threadUnexpectedException(fail);
1529		}
1530		}
1531		}
1532
1533	<	public class SmallCallable implements Callable {
1534	<	public Object call() {
1533	>	public abstract class CheckedCallable<T> implements Callable<T> {
1534	>	protected abstract T realCall() throws Throwable;
1535	>
1536	>	public final T call() {
1537		try {
1538	<	Thread.sleep(SMALL_DELAY_MS);
1538	>	return realCall();
1539	>	} catch (Throwable fail) {
1540	>	threadUnexpectedException(fail);
1541	>	return null;
1542		}
1543	<	catch(Exception e) {
1544	<	threadFail("unexpectedException");
1543	>	}
1544	>	}
1545	>
1546	>	public abstract class CheckedInterruptedCallable<T>
1547	>	implements Callable<T> {
1548	>	protected abstract T realCall() throws Throwable;
1549	>
1550	>	public final T call() {
1551	>	try {
1552	>	T result = realCall();
1553	>	threadShouldThrow("InterruptedException");
1554	>	return result;
1555	>	} catch (InterruptedException success) {
1556	>	threadAssertFalse(Thread.interrupted());
1557	>	} catch (Throwable fail) {
1558	>	threadUnexpectedException(fail);
1559		}
1560	+	return null;
1561	+	}
1562	+	}
1563	+
1564	+	public static class NoOpRunnable implements Runnable {
1565	+	public void run() {}
1566	+	}
1567	+
1568	+	public static class NoOpCallable implements Callable {
1569	+	public Object call() { return Boolean.TRUE; }
1570	+	}
1571	+
1572	+	public static final String TEST_STRING = "a test string";
1573	+
1574	+	public static class StringTask implements Callable<String> {
1575	+	final String value;
1576	+	public StringTask() { this(TEST_STRING); }
1577	+	public StringTask(String value) { this.value = value; }
1578	+	public String call() { return value; }
1579	+	}
1580	+
1581	+	public Callable<String> latchAwaitingStringTask(final CountDownLatch latch) {
1582	+	return new CheckedCallable<String>() {
1583	+	protected String realCall() {
1584	+	try {
1585	+	latch.await();
1586	+	} catch (InterruptedException quittingTime) {}
1587	+	return TEST_STRING;
1588	+	}};
1589	+	}
1590	+
1591	+	public Runnable countDowner(final CountDownLatch latch) {
1592	+	return new CheckedRunnable() {
1593	+	public void realRun() throws InterruptedException {
1594	+	latch.countDown();
1595	+	}};
1596	+	}
1597	+
1598	+	class LatchAwaiter extends CheckedRunnable {
1599	+	static final int NEW = 0;
1600	+	static final int RUNNING = 1;
1601	+	static final int DONE = 2;
1602	+	final CountDownLatch latch;
1603	+	int state = NEW;
1604	+	LatchAwaiter(CountDownLatch latch) { this.latch = latch; }
1605	+	public void realRun() throws InterruptedException {
1606	+	state = 1;
1607	+	await(latch);
1608	+	state = 2;
1609	+	}
1610	+	}
1611	+
1612	+	public LatchAwaiter awaiter(CountDownLatch latch) {
1613	+	return new LatchAwaiter(latch);
1614	+	}
1615	+
1616	+	public void await(CountDownLatch latch, long timeoutMillis) {
1617	+	try {
1618	+	if (!latch.await(timeoutMillis, MILLISECONDS))
1619	+	fail("timed out waiting for CountDownLatch for "
1620	+	+ (timeoutMillis/1000) + " sec");
1621	+	} catch (Throwable fail) {
1622	+	threadUnexpectedException(fail);
1623	+	}
1624	+	}
1625	+
1626	+	public void await(CountDownLatch latch) {
1627	+	await(latch, LONG_DELAY_MS);
1628	+	}
1629	+
1630	+	public void await(Semaphore semaphore) {
1631	+	try {
1632	+	if (!semaphore.tryAcquire(LONG_DELAY_MS, MILLISECONDS))
1633	+	fail("timed out waiting for Semaphore for "
1634	+	+ (LONG_DELAY_MS/1000) + " sec");
1635	+	} catch (Throwable fail) {
1636	+	threadUnexpectedException(fail);
1637	+	}
1638	+	}
1639	+
1640	+	//     /**
1641	+	//      * Spin-waits up to LONG_DELAY_MS until flag becomes true.
1642	+	//      */
1643	+	//     public void await(AtomicBoolean flag) {
1644	+	//         await(flag, LONG_DELAY_MS);
1645	+	//     }
1646	+
1647	+	//     /**
1648	+	//      * Spin-waits up to the specified timeout until flag becomes true.
1649	+	//      */
1650	+	//     public void await(AtomicBoolean flag, long timeoutMillis) {
1651	+	//         long startTime = System.nanoTime();
1652	+	//         while (!flag.get()) {
1653	+	//             if (millisElapsedSince(startTime) > timeoutMillis)
1654	+	//                 throw new AssertionFailedError("timed out");
1655	+	//             Thread.yield();
1656	+	//         }
1657	+	//     }
1658	+
1659	+	public static class NPETask implements Callable<String> {
1660	+	public String call() { throw new NullPointerException(); }
1661	+	}
1662	+
1663	+	public static class CallableOne implements Callable<Integer> {
1664	+	public Integer call() { return one; }
1665	+	}
1666	+
1667	+	public class ShortRunnable extends CheckedRunnable {
1668	+	protected void realRun() throws Throwable {
1669	+	delay(SHORT_DELAY_MS);
1670	+	}
1671	+	}
1672	+
1673	+	public class ShortInterruptedRunnable extends CheckedInterruptedRunnable {
1674	+	protected void realRun() throws InterruptedException {
1675	+	delay(SHORT_DELAY_MS);
1676	+	}
1677	+	}
1678	+
1679	+	public class SmallRunnable extends CheckedRunnable {
1680	+	protected void realRun() throws Throwable {
1681	+	delay(SMALL_DELAY_MS);
1682	+	}
1683	+	}
1684	+
1685	+	public class SmallPossiblyInterruptedRunnable extends CheckedRunnable {
1686	+	protected void realRun() {
1687	+	try {
1688	+	delay(SMALL_DELAY_MS);
1689	+	} catch (InterruptedException ok) {}
1690	+	}
1691	+	}
1692	+
1693	+	public class SmallCallable extends CheckedCallable {
1694	+	protected Object realCall() throws InterruptedException {
1695	+	delay(SMALL_DELAY_MS);
1696		return Boolean.TRUE;
1697		}
1698		}
1699
1700	<	public class SmallInterruptedRunnable implements Runnable {
1700	>	public class MediumRunnable extends CheckedRunnable {
1701	>	protected void realRun() throws Throwable {
1702	>	delay(MEDIUM_DELAY_MS);
1703	>	}
1704	>	}
1705	>
1706	>	public class MediumInterruptedRunnable extends CheckedInterruptedRunnable {
1707	>	protected void realRun() throws InterruptedException {
1708	>	delay(MEDIUM_DELAY_MS);
1709	>	}
1710	>	}
1711	>
1712	>	public Runnable possiblyInterruptedRunnable(final long timeoutMillis) {
1713	>	return new CheckedRunnable() {
1714	>	protected void realRun() {
1715	>	try {
1716	>	delay(timeoutMillis);
1717	>	} catch (InterruptedException ok) {}
1718	>	}};
1719	>	}
1720	>
1721	>	public class MediumPossiblyInterruptedRunnable extends CheckedRunnable {
1722	>	protected void realRun() {
1723	>	try {
1724	>	delay(MEDIUM_DELAY_MS);
1725	>	} catch (InterruptedException ok) {}
1726	>	}
1727	>	}
1728	>
1729	>	public class LongPossiblyInterruptedRunnable extends CheckedRunnable {
1730	>	protected void realRun() {
1731	>	try {
1732	>	delay(LONG_DELAY_MS);
1733	>	} catch (InterruptedException ok) {}
1734	>	}
1735	>	}
1736	>
1737	>	/**
1738	>	* For use as ThreadFactory in constructors
1739	>	*/
1740	>	public static class SimpleThreadFactory implements ThreadFactory {
1741	>	public Thread newThread(Runnable r) {
1742	>	return new Thread(r);
1743	>	}
1744	>	}
1745	>
1746	>	public interface TrackedRunnable extends Runnable {
1747	>	boolean isDone();
1748	>	}
1749	>
1750	>	public static TrackedRunnable trackedRunnable(final long timeoutMillis) {
1751	>	return new TrackedRunnable() {
1752	>	private volatile boolean done = false;
1753	>	public boolean isDone() { return done; }
1754	>	public void run() {
1755	>	try {
1756	>	delay(timeoutMillis);
1757	>	done = true;
1758	>	} catch (InterruptedException ok) {}
1759	>	}
1760	>	};
1761	>	}
1762	>
1763	>	public static class TrackedShortRunnable implements Runnable {
1764	>	public volatile boolean done = false;
1765		public void run() {
1766		try {
1767	<	Thread.sleep(SMALL_DELAY_MS);
1768	<	threadFail("should throw IE");
1769	<	}
237	<	catch(InterruptedException success) {
238	<	}
1767	>	delay(SHORT_DELAY_MS);
1768	>	done = true;
1769	>	} catch (InterruptedException ok) {}
1770		}
1771		}
1772
1773	+	public static class TrackedSmallRunnable implements Runnable {
1774	+	public volatile boolean done = false;
1775	+	public void run() {
1776	+	try {
1777	+	delay(SMALL_DELAY_MS);
1778	+	done = true;
1779	+	} catch (InterruptedException ok) {}
1780	+	}
1781	+	}
1782
1783	<	public class MediumRunnable implements Runnable {
1783	>	public static class TrackedMediumRunnable implements Runnable {
1784	>	public volatile boolean done = false;
1785		public void run() {
1786		try {
1787	<	Thread.sleep(MEDIUM_DELAY_MS);
1788	<	}
1789	<	catch(Exception e) {
1790	<	threadFail("unexpectedException");
1791	<	}
1787	>	delay(MEDIUM_DELAY_MS);
1788	>	done = true;
1789	>	} catch (InterruptedException ok) {}
1790	>	}
1791	>	}
1792	>
1793	>	public static class TrackedLongRunnable implements Runnable {
1794	>	public volatile boolean done = false;
1795	>	public void run() {
1796	>	try {
1797	>	delay(LONG_DELAY_MS);
1798	>	done = true;
1799	>	} catch (InterruptedException ok) {}
1800		}
1801		}
1802
1803	<	public class MediumInterruptedRunnable implements Runnable {
1803	>	public static class TrackedNoOpRunnable implements Runnable {
1804	>	public volatile boolean done = false;
1805		public void run() {
1806	+	done = true;
1807	+	}
1808	+	}
1809	+
1810	+	public static class TrackedCallable implements Callable {
1811	+	public volatile boolean done = false;
1812	+	public Object call() {
1813		try {
1814	<	Thread.sleep(MEDIUM_DELAY_MS);
1815	<	threadFail("should throw IE");
1814	>	delay(SMALL_DELAY_MS);
1815	>	done = true;
1816	>	} catch (InterruptedException ok) {}
1817	>	return Boolean.TRUE;
1818	>	}
1819	>	}
1820	>
1821	>	/**
1822	>	* Analog of CheckedRunnable for RecursiveAction
1823	>	*/
1824	>	public abstract class CheckedRecursiveAction extends RecursiveAction {
1825	>	protected abstract void realCompute() throws Throwable;
1826	>
1827	>	@Override protected final void compute() {
1828	>	try {
1829	>	realCompute();
1830	>	} catch (Throwable fail) {
1831	>	threadUnexpectedException(fail);
1832		}
1833	<	catch(InterruptedException success) {
1833	>	}
1834	>	}
1835	>
1836	>	/**
1837	>	* Analog of CheckedCallable for RecursiveTask
1838	>	*/
1839	>	public abstract class CheckedRecursiveTask<T> extends RecursiveTask<T> {
1840	>	protected abstract T realCompute() throws Throwable;
1841	>
1842	>	@Override protected final T compute() {
1843	>	try {
1844	>	return realCompute();
1845	>	} catch (Throwable fail) {
1846	>	threadUnexpectedException(fail);
1847	>	return null;
1848		}
1849		}
1850		}
1851
1852	<	public class MediumPossiblyInterruptedRunnable implements Runnable {
1853	<	public void run() {
1852	>	/**
1853	>	* For use as RejectedExecutionHandler in constructors
1854	>	*/
1855	>	public static class NoOpREHandler implements RejectedExecutionHandler {
1856	>	public void rejectedExecution(Runnable r,
1857	>	ThreadPoolExecutor executor) {}
1858	>	}
1859	>
1860	>	/**
1861	>	* A CyclicBarrier that uses timed await and fails with
1862	>	* AssertionFailedErrors instead of throwing checked exceptions.
1863	>	*/
1864	>	public static class CheckedBarrier extends CyclicBarrier {
1865	>	public CheckedBarrier(int parties) { super(parties); }
1866	>
1867	>	public int await() {
1868		try {
1869	<	Thread.sleep(MEDIUM_DELAY_MS);
1869	>	return super.await(2 * LONG_DELAY_MS, MILLISECONDS);
1870	>	} catch (TimeoutException timedOut) {
1871	>	throw new AssertionFailedError("timed out");
1872	>	} catch (Exception fail) {
1873	>	AssertionFailedError afe =
1874	>	new AssertionFailedError("Unexpected exception: " + fail);
1875	>	afe.initCause(fail);
1876	>	throw afe;
1877		}
1878	<	catch(InterruptedException success) {
1878	>	}
1879	>	}
1880	>
1881	>	void checkEmpty(BlockingQueue q) {
1882	>	try {
1883	>	assertTrue(q.isEmpty());
1884	>	assertEquals(0, q.size());
1885	>	assertNull(q.peek());
1886	>	assertNull(q.poll());
1887	>	assertNull(q.poll(0, MILLISECONDS));
1888	>	assertEquals(q.toString(), "[]");
1889	>	assertTrue(Arrays.equals(q.toArray(), new Object[0]));
1890	>	assertFalse(q.iterator().hasNext());
1891	>	try {
1892	>	q.element();
1893	>	shouldThrow();
1894	>	} catch (NoSuchElementException success) {}
1895	>	try {
1896	>	q.iterator().next();
1897	>	shouldThrow();
1898	>	} catch (NoSuchElementException success) {}
1899	>	try {
1900	>	q.remove();
1901	>	shouldThrow();
1902	>	} catch (NoSuchElementException success) {}
1903	>	} catch (InterruptedException fail) { threadUnexpectedException(fail); }
1904	>	}
1905	>
1906	>	void assertSerialEquals(Object x, Object y) {
1907	>	assertTrue(Arrays.equals(serialBytes(x), serialBytes(y)));
1908	>	}
1909	>
1910	>	void assertNotSerialEquals(Object x, Object y) {
1911	>	assertFalse(Arrays.equals(serialBytes(x), serialBytes(y)));
1912	>	}
1913	>
1914	>	byte[] serialBytes(Object o) {
1915	>	try {
1916	>	ByteArrayOutputStream bos = new ByteArrayOutputStream();
1917	>	ObjectOutputStream oos = new ObjectOutputStream(bos);
1918	>	oos.writeObject(o);
1919	>	oos.flush();
1920	>	oos.close();
1921	>	return bos.toByteArray();
1922	>	} catch (Throwable fail) {
1923	>	threadUnexpectedException(fail);
1924	>	return new byte[0];
1925	>	}
1926	>	}
1927	>
1928	>	void assertImmutable(final Object o) {
1929	>	if (o instanceof Collection) {
1930	>	assertThrows(
1931	>	UnsupportedOperationException.class,
1932	>	new Runnable() { public void run() {
1933	>	((Collection) o).add(null);}});
1934	>	}
1935	>	}
1936	>
1937	>	@SuppressWarnings("unchecked")
1938	>	<T> T serialClone(T o) {
1939	>	try {
1940	>	ObjectInputStream ois = new ObjectInputStream
1941	>	(new ByteArrayInputStream(serialBytes(o)));
1942	>	T clone = (T) ois.readObject();
1943	>	if (o == clone) assertImmutable(o);
1944	>	assertSame(o.getClass(), clone.getClass());
1945	>	return clone;
1946	>	} catch (Throwable fail) {
1947	>	threadUnexpectedException(fail);
1948	>	return null;
1949	>	}
1950	>	}
1951	>
1952	>	/**
1953	>	* A version of serialClone that leaves error handling (for
1954	>	* e.g. NotSerializableException) up to the caller.
1955	>	*/
1956	>	@SuppressWarnings("unchecked")
1957	>	<T> T serialClonePossiblyFailing(T o)
1958	>	throws ReflectiveOperationException, java.io.IOException {
1959	>	ByteArrayOutputStream bos = new ByteArrayOutputStream();
1960	>	ObjectOutputStream oos = new ObjectOutputStream(bos);
1961	>	oos.writeObject(o);
1962	>	oos.flush();
1963	>	oos.close();
1964	>	ObjectInputStream ois = new ObjectInputStream
1965	>	(new ByteArrayInputStream(bos.toByteArray()));
1966	>	T clone = (T) ois.readObject();
1967	>	if (o == clone) assertImmutable(o);
1968	>	assertSame(o.getClass(), clone.getClass());
1969	>	return clone;
1970	>	}
1971	>
1972	>	/**
1973	>	* If o implements Cloneable and has a public clone method,
1974	>	* returns a clone of o, else null.
1975	>	*/
1976	>	@SuppressWarnings("unchecked")
1977	>	<T> T cloneableClone(T o) {
1978	>	if (!(o instanceof Cloneable)) return null;
1979	>	final T clone;
1980	>	try {
1981	>	clone = (T) o.getClass().getMethod("clone").invoke(o);
1982	>	} catch (NoSuchMethodException ok) {
1983	>	return null;
1984	>	} catch (ReflectiveOperationException unexpected) {
1985	>	throw new Error(unexpected);
1986	>	}
1987	>	assertNotSame(o, clone); // not 100% guaranteed by spec
1988	>	assertSame(o.getClass(), clone.getClass());
1989	>	return clone;
1990	>	}
1991	>
1992	>	public void assertThrows(Class<? extends Throwable> expectedExceptionClass,
1993	>	Runnable... throwingActions) {
1994	>	for (Runnable throwingAction : throwingActions) {
1995	>	boolean threw = false;
1996	>	try { throwingAction.run(); }
1997	>	catch (Throwable t) {
1998	>	threw = true;
1999	>	if (!expectedExceptionClass.isInstance(t)) {
2000	>	AssertionFailedError afe =
2001	>	new AssertionFailedError
2002	>	("Expected " + expectedExceptionClass.getName() +
2003	>	", got " + t.getClass().getName());
2004	>	afe.initCause(t);
2005	>	threadUnexpectedException(afe);
2006	>	}
2007		}
2008	+	if (!threw)
2009	+	shouldThrow(expectedExceptionClass.getName());
2010		}
2011		}
2012	<
2012	>
2013	>	public void assertIteratorExhausted(Iterator<?> it) {
2014	>	try {
2015	>	it.next();
2016	>	shouldThrow();
2017	>	} catch (NoSuchElementException success) {}
2018	>	assertFalse(it.hasNext());
2019	>	}
2020	>
2021	>	public <T> Callable<T> callableThrowing(final Exception ex) {
2022	>	return new Callable<T>() { public T call() throws Exception { throw ex; }};
2023	>	}
2024	>
2025	>	public Runnable runnableThrowing(final RuntimeException ex) {
2026	>	return new Runnable() { public void run() { throw ex; }};
2027	>	}
2028	>
2029	>	/** A reusable thread pool to be shared by tests. */
2030	>	static final ExecutorService cachedThreadPool =
2031	>	new ThreadPoolExecutor(0, Integer.MAX_VALUE,
2032	>	1000L, MILLISECONDS,
2033	>	new SynchronousQueue<Runnable>());
2034	>
2035	>	static <T> void shuffle(T[] array) {
2036	>	Collections.shuffle(Arrays.asList(array), ThreadLocalRandom.current());
2037	>	}
2038		}

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