21 |
|
import java.util.Spliterator; |
22 |
|
import java.util.concurrent.BlockingDeque; |
23 |
|
import java.util.concurrent.BlockingQueue; |
24 |
+ |
import java.util.concurrent.ConcurrentLinkedQueue; |
25 |
|
import java.util.concurrent.CountDownLatch; |
26 |
|
import java.util.concurrent.Executors; |
27 |
|
import java.util.concurrent.ExecutorService; |
305 |
|
switch (rnd.nextInt(4)) { |
306 |
|
case 0: survivors.addAll(c); break; |
307 |
|
case 1: survivors.addAll(Arrays.asList(c.toArray())); break; |
308 |
< |
case 2: c.forEach(e -> survivors.add(e)); break; |
308 |
> |
case 2: c.forEach(survivors::add); break; |
309 |
|
case 3: for (Object e : c) survivors.add(e); break; |
310 |
|
} |
311 |
|
assertTrue(orig.containsAll(accepts)); |
353 |
|
ArrayList iteratedForEachRemaining = new ArrayList(); |
354 |
|
ArrayList tryAdvanced = new ArrayList(); |
355 |
|
ArrayList spliterated = new ArrayList(); |
356 |
+ |
ArrayList splitonced = new ArrayList(); |
357 |
|
ArrayList forEached = new ArrayList(); |
358 |
+ |
ArrayList streamForEached = new ArrayList(); |
359 |
+ |
ConcurrentLinkedQueue parallelStreamForEached = new ConcurrentLinkedQueue(); |
360 |
|
ArrayList removeIfed = new ArrayList(); |
361 |
|
for (Object x : c) iterated.add(x); |
362 |
< |
c.iterator().forEachRemaining(e -> iteratedForEachRemaining.add(e)); |
362 |
> |
c.iterator().forEachRemaining(iteratedForEachRemaining::add); |
363 |
|
for (Spliterator s = c.spliterator(); |
364 |
< |
s.tryAdvance(e -> tryAdvanced.add(e)); ) {} |
365 |
< |
c.spliterator().forEachRemaining(e -> spliterated.add(e)); |
366 |
< |
c.forEach(e -> forEached.add(e)); |
364 |
> |
s.tryAdvance(tryAdvanced::add); ) {} |
365 |
> |
c.spliterator().forEachRemaining(spliterated::add); |
366 |
> |
{ // trySplit returns "strict prefix" |
367 |
> |
Spliterator s1 = c.spliterator(), s2 = s1.trySplit(); |
368 |
> |
if (s2 != null) s2.forEachRemaining(splitonced::add); |
369 |
> |
s1.forEachRemaining(splitonced::add); |
370 |
> |
} |
371 |
> |
c.forEach(forEached::add); |
372 |
> |
c.stream().forEach(streamForEached::add); |
373 |
> |
c.parallelStream().forEach(parallelStreamForEached::add); |
374 |
|
c.removeIf(e -> { removeIfed.add(e); return false; }); |
375 |
|
boolean ordered = |
376 |
|
c.spliterator().hasCharacteristics(Spliterator.ORDERED); |
377 |
|
if (c instanceof List || c instanceof Deque) |
378 |
|
assertTrue(ordered); |
379 |
+ |
HashSet cset = new HashSet(c); |
380 |
+ |
assertEquals(cset, new HashSet(parallelStreamForEached)); |
381 |
|
if (ordered) { |
382 |
|
assertEquals(iterated, iteratedForEachRemaining); |
383 |
|
assertEquals(iterated, tryAdvanced); |
384 |
|
assertEquals(iterated, spliterated); |
385 |
+ |
assertEquals(iterated, splitonced); |
386 |
|
assertEquals(iterated, forEached); |
387 |
+ |
assertEquals(iterated, streamForEached); |
388 |
|
assertEquals(iterated, removeIfed); |
389 |
|
} else { |
375 |
– |
HashSet cset = new HashSet(c); |
390 |
|
assertEquals(cset, new HashSet(iterated)); |
391 |
|
assertEquals(cset, new HashSet(iteratedForEachRemaining)); |
392 |
|
assertEquals(cset, new HashSet(tryAdvanced)); |
393 |
|
assertEquals(cset, new HashSet(spliterated)); |
394 |
+ |
assertEquals(cset, new HashSet(splitonced)); |
395 |
|
assertEquals(cset, new HashSet(forEached)); |
396 |
+ |
assertEquals(cset, new HashSet(streamForEached)); |
397 |
|
assertEquals(cset, new HashSet(removeIfed)); |
398 |
|
} |
399 |
|
if (c instanceof Deque) { |
561 |
|
final AtomicBoolean done = new AtomicBoolean(false); |
562 |
|
final Object one = impl.makeElement(1); |
563 |
|
final Object two = impl.makeElement(2); |
564 |
+ |
final Object[] emptyArray = |
565 |
+ |
(Object[]) java.lang.reflect.Array.newInstance(one.getClass(), 0); |
566 |
|
final List<Future<?>> futures; |
567 |
|
final Phaser threadsStarted = new Phaser(1); // register this thread |
568 |
+ |
final Consumer checkSanity = x -> assertTrue(x == one || x == two); |
569 |
|
final Runnable[] frobbers = { |
570 |
< |
() -> c.forEach(x -> assertTrue(x == one || x == two)), |
571 |
< |
() -> c.stream().forEach(x -> assertTrue(x == one || x == two)), |
570 |
> |
() -> c.forEach(checkSanity), |
571 |
> |
() -> c.stream().forEach(checkSanity), |
572 |
> |
() -> c.parallelStream().forEach(checkSanity), |
573 |
|
() -> c.spliterator().trySplit(), |
574 |
|
() -> { |
575 |
|
Spliterator s = c.spliterator(); |
576 |
< |
s.tryAdvance(x -> assertTrue(x == one || x == two)); |
576 |
> |
s.tryAdvance(checkSanity); |
577 |
|
s.trySplit(); |
578 |
|
}, |
579 |
|
() -> { |
580 |
|
Spliterator s = c.spliterator(); |
581 |
< |
do {} while (s.tryAdvance(x -> assertTrue(x == one || x == two))); |
562 |
< |
}, |
563 |
< |
() -> { |
564 |
< |
for (Object x : c) assertTrue(x == one || x == two); |
581 |
> |
do {} while (s.tryAdvance(checkSanity)); |
582 |
|
}, |
583 |
+ |
() -> { for (Object x : c) checkSanity.accept(x); }, |
584 |
+ |
() -> { for (Object x : c.toArray()) checkSanity.accept(x); }, |
585 |
+ |
() -> { for (Object x : c.toArray(emptyArray)) checkSanity.accept(x); }, |
586 |
|
() -> { |
587 |
|
assertTrue(c.add(one)); |
588 |
|
assertTrue(c.contains(one)); |
609 |
|
try (PoolCleaner cleaner = cleaner(pool, done)) { |
610 |
|
threadsStarted.bulkRegister(tasks.size()); |
611 |
|
futures = tasks.stream() |
612 |
< |
.map(task -> pool.submit(task)) |
612 |
> |
.map(pool::submit) |
613 |
|
.collect(Collectors.toList()); |
614 |
|
threadsStarted.arriveAndDeregister(); |
615 |
|
Thread.sleep(testDurationMillis); |
618 |
|
assertNull(future.get(0L, MILLISECONDS)); |
619 |
|
} |
620 |
|
|
621 |
+ |
/** |
622 |
+ |
* Spliterators are either IMMUTABLE or truly late-binding or, if |
623 |
+ |
* concurrent, use the same "late-binding style" of returning |
624 |
+ |
* elements added between creation and first use. |
625 |
+ |
*/ |
626 |
+ |
public void testLateBindingStyle() { |
627 |
+ |
if (!testImplementationDetails) return; |
628 |
+ |
if (impl.klazz() == ArrayList.class) return; // for jdk8 |
629 |
+ |
// Immutable (snapshot) spliterators are exempt |
630 |
+ |
if (impl.emptyCollection().spliterator() |
631 |
+ |
.hasCharacteristics(Spliterator.IMMUTABLE)) |
632 |
+ |
return; |
633 |
+ |
final Object one = impl.makeElement(1); |
634 |
+ |
{ |
635 |
+ |
final Collection c = impl.emptyCollection(); |
636 |
+ |
final Spliterator split = c.spliterator(); |
637 |
+ |
c.add(one); |
638 |
+ |
assertTrue(split.tryAdvance(e -> { assertSame(e, one); })); |
639 |
+ |
assertFalse(split.tryAdvance(e -> { throw new AssertionError(); })); |
640 |
+ |
assertTrue(c.contains(one)); |
641 |
+ |
} |
642 |
+ |
{ |
643 |
+ |
final AtomicLong count = new AtomicLong(0); |
644 |
+ |
final Collection c = impl.emptyCollection(); |
645 |
+ |
final Spliterator split = c.spliterator(); |
646 |
+ |
c.add(one); |
647 |
+ |
split.forEachRemaining( |
648 |
+ |
e -> { assertSame(e, one); count.getAndIncrement(); }); |
649 |
+ |
assertEquals(1L, count.get()); |
650 |
+ |
assertFalse(split.tryAdvance(e -> { throw new AssertionError(); })); |
651 |
+ |
assertTrue(c.contains(one)); |
652 |
+ |
} |
653 |
+ |
} |
654 |
+ |
|
655 |
|
// public void testCollection8DebugFail() { |
656 |
|
// fail(impl.klazz().getSimpleName()); |
657 |
|
// } |