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Comparing jsr166/src/test/tck/ArrayBlockingQueueTest.java (file contents):
Revision 1.73 by jsr166, Mon Oct 17 01:52:04 2016 UTC vs.
Revision 1.87 by jsr166, Sun May 14 00:56:43 2017 UTC

#	Line 11 | Line 11 | import static java.util.concurrent.TimeU
11		import java.util.ArrayList;
12		import java.util.Arrays;
13		import java.util.Collection;
14	+	import java.util.Collections;
15		import java.util.Iterator;
16		import java.util.NoSuchElementException;
17		import java.util.Queue;
#	Line 19 | Line 20 | import java.util.concurrent.BlockingQueu
20		import java.util.concurrent.CountDownLatch;
21		import java.util.concurrent.Executors;
22		import java.util.concurrent.ExecutorService;
23	+	import java.util.concurrent.ThreadLocalRandom;
24
25		import junit.framework.Test;
26
27		public class ArrayBlockingQueueTest extends JSR166TestCase {
28
27	–	public static class Fair extends BlockingQueueTest {
28	–	protected BlockingQueue emptyCollection() {
29	–	return new ArrayBlockingQueue(SIZE, true);
30	–	}
31	–	}
32	–
33	–	public static class NonFair extends BlockingQueueTest {
34	–	protected BlockingQueue emptyCollection() {
35	–	return new ArrayBlockingQueue(SIZE, false);
36	–	}
37	–	}
38	–
29		public static void main(String[] args) {
30		main(suite(), args);
31		}
#	Line 43 | Line 33 | public class ArrayBlockingQueueTest exte
33		public static Test suite() {
34		class Implementation implements CollectionImplementation {
35		public Class<?> klazz() { return ArrayBlockingQueue.class; }
36	<	public Collection emptyCollection() { return new ArrayBlockingQueue(SIZE, false); }
36	>	public Collection emptyCollection() {
37	>	boolean fair = ThreadLocalRandom.current().nextBoolean();
38	>	return populatedQueue(0, SIZE, 2 * SIZE, fair);
39	>	}
40		public Object makeElement(int i) { return i; }
41		public boolean isConcurrent() { return true; }
42		public boolean permitsNulls() { return false; }
43		}
44	<	return newTestSuite(ArrayBlockingQueueTest.class,
45	<	new Fair().testSuite(),
46	<	new NonFair().testSuite(),
47	<	CollectionTest.testSuite(new Implementation()));
44	>
45	>	return newTestSuite(
46	>	ArrayBlockingQueueTest.class,
47	>	new Fair().testSuite(),
48	>	new NonFair().testSuite(),
49	>	CollectionTest.testSuite(new Implementation()));
50	>	}
51	>
52	>	public static class Fair extends BlockingQueueTest {
53	>	protected BlockingQueue emptyCollection() {
54	>	return populatedQueue(0, SIZE, 2 * SIZE, true);
55	>	}
56	>	}
57	>
58	>	public static class NonFair extends BlockingQueueTest {
59	>	protected BlockingQueue emptyCollection() {
60	>	return populatedQueue(0, SIZE, 2 * SIZE, false);
61	>	}
62		}
63
64		/**
65		* Returns a new queue of given size containing consecutive
66		* Integers 0 ... n - 1.
67		*/
68	<	private ArrayBlockingQueue<Integer> populatedQueue(int n) {
69	<	ArrayBlockingQueue<Integer> q = new ArrayBlockingQueue<Integer>(n);
68	>	static ArrayBlockingQueue<Integer> populatedQueue(int n) {
69	>	return populatedQueue(n, n, n, false);
70	>	}
71	>
72	>	/**
73	>	* Returns a new queue of given size containing consecutive
74	>	* Integers 0 ... n - 1, with given capacity range and fairness.
75	>	*/
76	>	static ArrayBlockingQueue<Integer> populatedQueue(
77	>	int size, int minCapacity, int maxCapacity, boolean fair) {
78	>	ThreadLocalRandom rnd = ThreadLocalRandom.current();
79	>	int capacity = rnd.nextInt(minCapacity, maxCapacity + 1);
80	>	ArrayBlockingQueue<Integer> q = new ArrayBlockingQueue<>(capacity);
81		assertTrue(q.isEmpty());
82	<	for (int i = 0; i < n; i++)
83	<	assertTrue(q.offer(new Integer(i)));
84	<	assertFalse(q.isEmpty());
85	<	assertEquals(0, q.remainingCapacity());
86	<	assertEquals(n, q.size());
87	<	assertEquals((Integer) 0, q.peek());
82	>	// shuffle circular array elements so they wrap
83	>	{
84	>	int n = rnd.nextInt(capacity);
85	>	for (int i = 0; i < n; i++) q.add(42);
86	>	for (int i = 0; i < n; i++) q.remove();
87	>	}
88	>	for (int i = 0; i < size; i++)
89	>	assertTrue(q.offer((Integer) i));
90	>	assertEquals(size == 0, q.isEmpty());
91	>	assertEquals(capacity - size, q.remainingCapacity());
92	>	assertEquals(size, q.size());
93	>	if (size > 0)
94	>	assertEquals((Integer) 0, q.peek());
95		return q;
96		}
97
#	Line 80 | Line 105 | public class ArrayBlockingQueueTest exte
105		/**
106		* Constructor throws IAE if capacity argument nonpositive
107		*/
108	<	public void testConstructor2() {
109	<	try {
110	<	new ArrayBlockingQueue(0);
111	<	shouldThrow();
112	<	} catch (IllegalArgumentException success) {}
108	>	public void testConstructor_nonPositiveCapacity() {
109	>	for (int i : new int[] { 0, -1, Integer.MIN_VALUE }) {
110	>	try {
111	>	new ArrayBlockingQueue(i);
112	>	shouldThrow();
113	>	} catch (IllegalArgumentException success) {}
114	>	for (boolean fair : new boolean[] { true, false }) {
115	>	try {
116	>	new ArrayBlockingQueue(i, fair);
117	>	shouldThrow();
118	>	} catch (IllegalArgumentException success) {}
119	>	}
120	>	}
121		}
122
123		/**
124		* Initializing from null Collection throws NPE
125		*/
126	<	public void testConstructor3() {
126	>	public void testConstructor_nullCollection() {
127		try {
128		new ArrayBlockingQueue(1, true, null);
129		shouldThrow();
#	Line 125 | Line 158 | public class ArrayBlockingQueueTest exte
158		/**
159		* Initializing from too large collection throws IAE
160		*/
161	<	public void testConstructor6() {
162	<	Integer[] ints = new Integer[SIZE];
163	<	for (int i = 0; i < SIZE; ++i)
164	<	ints[i] = i;
132	<	Collection<Integer> elements = Arrays.asList(ints);
161	>	public void testConstructor_collectionTooLarge() {
162	>	// just barely fits - succeeds
163	>	new ArrayBlockingQueue(SIZE, false,
164	>	Collections.nCopies(SIZE, ""));
165		try {
166	<	new ArrayBlockingQueue(SIZE - 1, false, elements);
166	>	new ArrayBlockingQueue(SIZE - 1, false,
167	>	Collections.nCopies(SIZE, ""));
168		shouldThrow();
169		} catch (IllegalArgumentException success) {}
170		}
#	Line 153 | Line 186 | public class ArrayBlockingQueueTest exte
186		* Queue transitions from empty to full when elements added
187		*/
188		public void testEmptyFull() {
189	<	ArrayBlockingQueue q = new ArrayBlockingQueue(2);
189	>	BlockingQueue q = populatedQueue(0, 2, 2, false);
190		assertTrue(q.isEmpty());
191		assertEquals(2, q.remainingCapacity());
192		q.add(one);
193		assertFalse(q.isEmpty());
194	<	q.add(two);
194	>	assertTrue(q.offer(two));
195		assertFalse(q.isEmpty());
196		assertEquals(0, q.remainingCapacity());
197		assertFalse(q.offer(three));
#	Line 168 | Line 201 | public class ArrayBlockingQueueTest exte
201		* remainingCapacity decreases on add, increases on remove
202		*/
203		public void testRemainingCapacity() {
204	<	BlockingQueue q = populatedQueue(SIZE);
205	<	for (int i = 0; i < SIZE; ++i) {
206	<	assertEquals(i, q.remainingCapacity());
207	<	assertEquals(SIZE, q.size() + q.remainingCapacity());
204	>	int size = ThreadLocalRandom.current().nextInt(1, SIZE);
205	>	BlockingQueue q = populatedQueue(size, size, 2 * size, false);
206	>	int spare = q.remainingCapacity();
207	>	int capacity = spare + size;
208	>	for (int i = 0; i < size; i++) {
209	>	assertEquals(spare + i, q.remainingCapacity());
210	>	assertEquals(capacity, q.size() + q.remainingCapacity());
211		assertEquals(i, q.remove());
212		}
213	<	for (int i = 0; i < SIZE; ++i) {
214	<	assertEquals(SIZE - i, q.remainingCapacity());
215	<	assertEquals(SIZE, q.size() + q.remainingCapacity());
213	>	for (int i = 0; i < size; i++) {
214	>	assertEquals(capacity - i, q.remainingCapacity());
215	>	assertEquals(capacity, q.size() + q.remainingCapacity());
216		assertTrue(q.add(i));
217		}
218		}
#	Line 195 | Line 231 | public class ArrayBlockingQueueTest exte
231		*/
232		public void testAdd() {
233		ArrayBlockingQueue q = new ArrayBlockingQueue(SIZE);
234	<	for (int i = 0; i < SIZE; ++i) {
199	<	assertTrue(q.add(new Integer(i)));
200	<	}
234	>	for (int i = 0; i < SIZE; i++) assertTrue(q.add((Integer) i));
235		assertEquals(0, q.remainingCapacity());
236		try {
237	<	q.add(new Integer(SIZE));
237	>	q.add((Integer) SIZE);
238		shouldThrow();
239		} catch (IllegalStateException success) {}
240		}
#	Line 234 | Line 268 | public class ArrayBlockingQueueTest exte
268		/**
269		* addAll throws ISE if not enough room
270		*/
271	<	public void testAddAll4() {
272	<	ArrayBlockingQueue q = new ArrayBlockingQueue(1);
273	<	Integer[] ints = new Integer[SIZE];
274	<	for (int i = 0; i < SIZE; ++i)
275	<	ints[i] = new Integer(i);
271	>	public void testAddAll_insufficientSpace() {
272	>	int size = ThreadLocalRandom.current().nextInt(1, SIZE);
273	>	ArrayBlockingQueue q = populatedQueue(0, size, size, false);
274	>	// Just fits:
275	>	q.addAll(populatedQueue(size, size, 2 * size, false));
276	>	assertEquals(0, q.remainingCapacity());
277	>	assertEquals(size, q.size());
278	>	assertEquals(0, q.peek());
279		try {
280	<	q.addAll(Arrays.asList(ints));
280	>	q = populatedQueue(0, size, size, false);
281	>	q.addAll(Collections.nCopies(size + 1, 42));
282		shouldThrow();
283		} catch (IllegalStateException success) {}
284		}
#	Line 302 | Line 340 | public class ArrayBlockingQueueTest exte
340		}});
341
342		await(pleaseInterrupt);
343	<	assertThreadStaysAlive(t);
343	>	assertThreadBlocks(t, Thread.State.WAITING);
344		t.interrupt();
345		awaitTermination(t);
346		assertEquals(SIZE, q.size());
#	Line 337 | Line 375 | public class ArrayBlockingQueueTest exte
375		assertEquals(0, q.take());
376
377		await(pleaseInterrupt);
378	<	assertThreadStaysAlive(t);
378	>	assertThreadBlocks(t, Thread.State.WAITING);
379		t.interrupt();
380		awaitTermination(t);
381		assertEquals(0, q.remainingCapacity());
#	Line 361 | Line 399 | public class ArrayBlockingQueueTest exte
399		q.offer(new Object(), 2 * LONG_DELAY_MS, MILLISECONDS);
400		shouldThrow();
401		} catch (InterruptedException success) {}
402	+	assertFalse(Thread.interrupted());
403		}});
404
405		await(pleaseInterrupt);
406	<	assertThreadStaysAlive(t);
406	>	assertThreadBlocks(t, Thread.State.TIMED_WAITING);
407		t.interrupt();
408		awaitTermination(t);
409		}
#	Line 387 | Line 426 | public class ArrayBlockingQueueTest exte
426		final CountDownLatch pleaseInterrupt = new CountDownLatch(1);
427		Thread t = newStartedThread(new CheckedRunnable() {
428		public void realRun() throws InterruptedException {
429	<	for (int i = 0; i < SIZE; ++i) {
391	<	assertEquals(i, q.take());
392	<	}
429	>	for (int i = 0; i < SIZE; i++) assertEquals(i, q.take());
430
431		Thread.currentThread().interrupt();
432		try {
#	Line 407 | Line 444 | public class ArrayBlockingQueueTest exte
444		}});
445
446		await(pleaseInterrupt);
447	<	assertThreadStaysAlive(t);
447	>	assertThreadBlocks(t, Thread.State.WAITING);
448		t.interrupt();
449		awaitTermination(t);
450		}
#	Line 457 | Line 494 | public class ArrayBlockingQueueTest exte
494		*/
495		public void testInterruptedTimedPoll() throws InterruptedException {
496		final BlockingQueue<Integer> q = populatedQueue(SIZE);
497	<	final CountDownLatch aboutToWait = new CountDownLatch(1);
497	>	final CountDownLatch pleaseInterrupt = new CountDownLatch(1);
498		Thread t = newStartedThread(new CheckedRunnable() {
499		public void realRun() throws InterruptedException {
500		long startTime = System.nanoTime();
501		for (int i = 0; i < SIZE; ++i) {
502		assertEquals(i, (int) q.poll(LONG_DELAY_MS, MILLISECONDS));
503		}
504	<	aboutToWait.countDown();
504	>
505	>	pleaseInterrupt.countDown();
506		try {
507		q.poll(LONG_DELAY_MS, MILLISECONDS);
508		shouldThrow();
509	<	} catch (InterruptedException success) {
510	<	assertTrue(millisElapsedSince(startTime) < LONG_DELAY_MS);
511	<	}
509	>	} catch (InterruptedException success) {}
510	>	assertFalse(Thread.interrupted());
511	>
512	>	assertTrue(millisElapsedSince(startTime) < LONG_DELAY_MS);
513		}});
514
515	<	await(aboutToWait);
516	<	waitForThreadToEnterWaitState(t);
515	>	await(pleaseInterrupt);
516	>	assertThreadBlocks(t, Thread.State.TIMED_WAITING);
517		t.interrupt();
518		awaitTermination(t);
519		checkEmpty(q);
#	Line 527 | Line 566 | public class ArrayBlockingQueueTest exte
566		* contains(x) reports true when elements added but not yet removed
567		*/
568		public void testContains() {
569	<	ArrayBlockingQueue q = populatedQueue(SIZE);
570	<	for (int i = 0; i < SIZE; ++i) {
569	>	int size = ThreadLocalRandom.current().nextInt(1, SIZE);
570	>	ArrayBlockingQueue q = populatedQueue(size, size, 2 * size, false);
571	>	assertFalse(q.contains(null));
572	>	for (int i = 0; i < size; ++i) {
573		assertTrue(q.contains(new Integer(i)));
574		assertEquals(i, q.poll());
575		assertFalse(q.contains(new Integer(i)));
#	Line 539 | Line 580 | public class ArrayBlockingQueueTest exte
580		* clear removes all elements
581		*/
582		public void testClear() {
583	<	ArrayBlockingQueue q = populatedQueue(SIZE);
583	>	int size = ThreadLocalRandom.current().nextInt(1, 5);
584	>	ArrayBlockingQueue q = populatedQueue(size, size, 2 * size, false);
585	>	int capacity = size + q.remainingCapacity();
586		q.clear();
587		assertTrue(q.isEmpty());
588		assertEquals(0, q.size());
589	<	assertEquals(SIZE, q.remainingCapacity());
589	>	assertEquals(capacity, q.remainingCapacity());
590		q.add(one);
591		assertFalse(q.isEmpty());
592		assertTrue(q.contains(one));
#	Line 600 | Line 643 | public class ArrayBlockingQueueTest exte
643		}
644		}
645
646	<	void checkToArray(ArrayBlockingQueue q) {
646	>	void checkToArray(ArrayBlockingQueue<Integer> q) {
647		int size = q.size();
648	<	Object[] o = q.toArray();
649	<	assertEquals(size, o.length);
648	>	Object[] a1 = q.toArray();
649	>	assertEquals(size, a1.length);
650	>	Integer[] a2 = q.toArray(new Integer[0]);
651	>	assertEquals(size, a2.length);
652	>	Integer[] a3 = q.toArray(new Integer[Math.max(0, size - 1)]);
653	>	assertEquals(size, a3.length);
654	>	Integer[] a4 = new Integer[size];
655	>	assertSame(a4, q.toArray(a4));
656	>	Integer[] a5 = new Integer[size + 1];
657	>	Arrays.fill(a5, 42);
658	>	assertSame(a5, q.toArray(a5));
659	>	Integer[] a6 = new Integer[size + 2];
660	>	Arrays.fill(a6, 42);
661	>	assertSame(a6, q.toArray(a6));
662	>	Object[][] as = { a1, a2, a3, a4, a5, a6 };
663	>	for (Object[] a : as) {
664	>	if (a.length > size) assertNull(a[size]);
665	>	if (a.length > size + 1) assertEquals(42, a[size + 1]);
666	>	}
667		Iterator it = q.iterator();
668	+	Integer s = q.peek();
669		for (int i = 0; i < size; i++) {
670		Integer x = (Integer) it.next();
671	<	assertEquals((Integer)o[0] + i, (int) x);
672	<	assertSame(o[i], x);
671	>	assertEquals(s + i, (int) x);
672	>	for (Object[] a : as)
673	>	assertSame(a1[i], x);
674		}
675		}
676
677		/**
678	<	* toArray() contains all elements in FIFO order
678	>	* toArray() and toArray(a) contain all elements in FIFO order
679		*/
680		public void testToArray() {
681	<	ArrayBlockingQueue q = new ArrayBlockingQueue(SIZE);
682	<	for (int i = 0; i < SIZE; i++) {
681	>	final ThreadLocalRandom rnd = ThreadLocalRandom.current();
682	>	final int size = rnd.nextInt(6);
683	>	final int capacity = Math.max(1, size + rnd.nextInt(size + 1));
684	>	ArrayBlockingQueue<Integer> q = new ArrayBlockingQueue<>(capacity);
685	>	for (int i = 0; i < size; i++) {
686		checkToArray(q);
687		q.add(i);
688		}
689		// Provoke wraparound
690	<	for (int i = 0; i < SIZE; i++) {
691	<	checkToArray(q);
627	<	assertEquals(i, q.poll());
690	>	int added = size * 2;
691	>	for (int i = 0; i < added; i++) {
692		checkToArray(q);
693	<	q.add(SIZE + i);
693	>	assertEquals((Integer) i, q.poll());
694	>	q.add(size + i);
695		}
631	–	for (int i = 0; i < SIZE; i++) {
632	–	checkToArray(q);
633	–	assertEquals(SIZE + i, q.poll());
634	–	}
635	–	}
636	–
637	–	void checkToArray2(ArrayBlockingQueue q) {
638	–	int size = q.size();
639	–	Integer[] a1 = (size == 0) ? null : new Integer[size - 1];
640	–	Integer[] a2 = new Integer[size];
641	–	Integer[] a3 = new Integer[size + 2];
642	–	if (size > 0) Arrays.fill(a1, 42);
643	–	Arrays.fill(a2, 42);
644	–	Arrays.fill(a3, 42);
645	–	Integer[] b1 = (size == 0) ? null : (Integer[]) q.toArray(a1);
646	–	Integer[] b2 = (Integer[]) q.toArray(a2);
647	–	Integer[] b3 = (Integer[]) q.toArray(a3);
648	–	assertSame(a2, b2);
649	–	assertSame(a3, b3);
650	–	Iterator it = q.iterator();
696		for (int i = 0; i < size; i++) {
697	<	Integer x = (Integer) it.next();
698	<	assertSame(b1[i], x);
654	<	assertEquals(b1[0] + i, (int) x);
655	<	assertSame(b2[i], x);
656	<	assertSame(b3[i], x);
657	<	}
658	<	assertNull(a3[size]);
659	<	assertEquals(42, (int) a3[size + 1]);
660	<	if (size > 0) {
661	<	assertNotSame(a1, b1);
662	<	assertEquals(size, b1.length);
663	<	for (int i = 0; i < a1.length; i++) {
664	<	assertEquals(42, (int) a1[i]);
665	<	}
666	<	}
667	<	}
668	<
669	<	/**
670	<	* toArray(a) contains all elements in FIFO order
671	<	*/
672	<	public void testToArray2() {
673	<	ArrayBlockingQueue q = new ArrayBlockingQueue(SIZE);
674	<	for (int i = 0; i < SIZE; i++) {
675	<	checkToArray2(q);
676	<	q.add(i);
677	<	}
678	<	// Provoke wraparound
679	<	for (int i = 0; i < SIZE; i++) {
680	<	checkToArray2(q);
681	<	assertEquals(i, q.poll());
682	<	checkToArray2(q);
683	<	q.add(SIZE + i);
684	<	}
685	<	for (int i = 0; i < SIZE; i++) {
686	<	checkToArray2(q);
687	<	assertEquals(SIZE + i, q.poll());
697	>	checkToArray(q);
698	>	assertEquals((Integer) (added + i), q.poll());
699		}
700		}
701
702		/**
703		* toArray(incompatible array type) throws ArrayStoreException
704		*/
705	<	public void testToArray1_BadArg() {
705	>	public void testToArray_incompatibleArrayType() {
706		ArrayBlockingQueue q = populatedQueue(SIZE);
707		try {
708		q.toArray(new String[10]);
709		shouldThrow();
710		} catch (ArrayStoreException success) {}
711	+	try {
712	+	q.toArray(new String[0]);
713	+	shouldThrow();
714	+	} catch (ArrayStoreException success) {}
715		}
716
717		/**
#	Line 925 | Line 940 | public class ArrayBlockingQueueTest exte
940		*/
941		public void testNeverContainsNull() {
942		Collection<?>[] qs = {
943	<	new ArrayBlockingQueue<Object>(10),
944	<	populatedQueue(2),
943	>	populatedQueue(0, 1, 10, false),
944	>	populatedQueue(2, 2, 10, true),
945		};
946
947		for (Collection<?> q : qs) {

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