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Comparing jsr166/src/test/tck/ConcurrentHashMap8Test.java (file contents):
Revision 1.1 by dl, Thu Mar 21 19:06:54 2013 UTC vs.
Revision 1.23 by jsr166, Fri Feb 27 19:47:57 2015 UTC

#	Line 2 | Line 2
2		* Written by Doug Lea with assistance from members of JCP JSR-166
3		* Expert Group and released to the public domain, as explained at
4		* http://creativecommons.org/publicdomain/zero/1.0/
5	–	* Other contributors include Andrew Wright, Jeffrey Hayes,
6	–	* Pat Fisher, Mike Judd.
5		*/
6
7	<	import junit.framework.*;
8	<	import java.util.*;
7	>	import static java.util.Spliterator.CONCURRENT;
8	>	import static java.util.Spliterator.DISTINCT;
9	>	import static java.util.Spliterator.NONNULL;
10	>
11	>	import java.util.AbstractMap;
12	>	import java.util.Arrays;
13	>	import java.util.Collection;
14	>	import java.util.Collections;
15	>	import java.util.Iterator;
16	>	import java.util.Map;
17	>	import java.util.NoSuchElementException;
18	>	import java.util.Set;
19	>	import java.util.Spliterator;
20		import java.util.concurrent.ConcurrentHashMap;
21	+	import java.util.concurrent.atomic.LongAdder;
22	+	import java.util.function.BiFunction;
23	+
24	+	import junit.framework.Test;
25	+	import junit.framework.TestSuite;
26
27		public class ConcurrentHashMap8Test extends JSR166TestCase {
28		public static void main(String[] args) {
#	Line 35 | Line 49 | public class ConcurrentHashMap8Test exte
49		}
50
51		/**
52	+	* getOrDefault returns value if present, else default
53	+	*/
54	+	public void testGetOrDefault() {
55	+	ConcurrentHashMap map = map5();
56	+	assertEquals(map.getOrDefault(one, "Z"), "A");
57	+	assertEquals(map.getOrDefault(six, "Z"), "Z");
58	+	}
59	+
60	+	/**
61		* computeIfAbsent adds when the given key is not present
62		*/
63		public void testComputeIfAbsent() {
#	Line 44 | Line 67 | public class ConcurrentHashMap8Test exte
67		}
68
69		/**
70	<	* computeIfAbsent does not replace  if the key is already present
70	>	* computeIfAbsent does not replace if the key is already present
71		*/
72		public void testComputeIfAbsent2() {
73		ConcurrentHashMap map = map5();
#	Line 59 | Line 82 | public class ConcurrentHashMap8Test exte
82		map.computeIfAbsent(six, (x) -> null);
83		assertFalse(map.containsKey(six));
84		}
85	<
85	>
86		/**
87	<	* computeIfPresent does not replace  if the key is already present
87	>	* computeIfPresent does not replace if the key is already present
88		*/
89		public void testComputeIfPresent() {
90		ConcurrentHashMap map = map5();
#	Line 78 | Line 101 | public class ConcurrentHashMap8Test exte
101		}
102
103		/**
104	<	* compute does not replace  if the function returns null
104	>	* compute does not replace if the function returns null
105		*/
106		public void testCompute() {
107		ConcurrentHashMap map = map5();
#	Line 136 | Line 159 | public class ConcurrentHashMap8Test exte
159		assertFalse(map.containsKey(one));
160		}
161
162	+	static Set<Integer> populatedSet(int n) {
163	+	Set<Integer> a = ConcurrentHashMap.<Integer>newKeySet();
164	+	assertTrue(a.isEmpty());
165	+	for (int i = 0; i < n; i++)
166	+	a.add(i);
167	+	assertEquals(n == 0, a.isEmpty());
168	+	assertEquals(n, a.size());
169	+	return a;
170	+	}
171	+
172	+	static Set populatedSet(Integer[] elements) {
173	+	Set<Integer> a = ConcurrentHashMap.<Integer>newKeySet();
174	+	assertTrue(a.isEmpty());
175	+	for (int i = 0; i < elements.length; i++)
176	+	a.add(elements[i]);
177	+	assertFalse(a.isEmpty());
178	+	assertEquals(elements.length, a.size());
179	+	return a;
180	+	}
181	+
182	+	/**
183	+	* replaceAll replaces all matching values.
184	+	*/
185	+	public void testReplaceAll() {
186	+	ConcurrentHashMap<Integer, String> map = map5();
187	+	map.replaceAll((x, y) -> { return x > 3 ? "Z" : y; });
188	+	assertEquals("A", map.get(one));
189	+	assertEquals("B", map.get(two));
190	+	assertEquals("C", map.get(three));
191	+	assertEquals("Z", map.get(four));
192	+	assertEquals("Z", map.get(five));
193	+	}
194	+
195	+	/**
196	+	* Default-constructed set is empty
197	+	*/
198	+	public void testNewKeySet() {
199	+	Set a = ConcurrentHashMap.newKeySet();
200	+	assertTrue(a.isEmpty());
201	+	}
202	+
203	+	/**
204	+	* keySet.add adds the key with the established value to the map;
205	+	* remove removes it.
206	+	*/
207	+	public void testKeySetAddRemove() {
208	+	ConcurrentHashMap map = map5();
209	+	Set set1 = map.keySet();
210	+	Set set2 = map.keySet(true);
211	+	set2.add(six);
212	+	assertTrue(((ConcurrentHashMap.KeySetView)set2).getMap() == map);
213	+	assertTrue(((ConcurrentHashMap.KeySetView)set1).getMap() == map);
214	+	assertEquals(set2.size(), map.size());
215	+	assertEquals(set1.size(), map.size());
216	+	assertTrue((Boolean)map.get(six));
217	+	assertTrue(set1.contains(six));
218	+	assertTrue(set2.contains(six));
219	+	set2.remove(six);
220	+	assertNull(map.get(six));
221	+	assertFalse(set1.contains(six));
222	+	assertFalse(set2.contains(six));
223	+	}
224	+
225	+	/**
226	+	* keySet.addAll adds each element from the given collection
227	+	*/
228	+	public void testAddAll() {
229	+	Set full = populatedSet(3);
230	+	assertTrue(full.addAll(Arrays.asList(three, four, five)));
231	+	assertEquals(6, full.size());
232	+	assertFalse(full.addAll(Arrays.asList(three, four, five)));
233	+	assertEquals(6, full.size());
234	+	}
235	+
236	+	/**
237	+	* keySet.addAll adds each element from the given collection that did not
238	+	* already exist in the set
239	+	*/
240	+	public void testAddAll2() {
241	+	Set full = populatedSet(3);
242	+	// "one" is duplicate and will not be added
243	+	assertTrue(full.addAll(Arrays.asList(three, four, one)));
244	+	assertEquals(5, full.size());
245	+	assertFalse(full.addAll(Arrays.asList(three, four, one)));
246	+	assertEquals(5, full.size());
247	+	}
248	+
249	+	/**
250	+	* keySet.add will not add the element if it already exists in the set
251	+	*/
252	+	public void testAdd2() {
253	+	Set full = populatedSet(3);
254	+	full.add(one);
255	+	assertEquals(3, full.size());
256	+	}
257	+
258	+	/**
259	+	* keySet.add adds the element when it does not exist in the set
260	+	*/
261	+	public void testAdd3() {
262	+	Set full = populatedSet(3);
263	+	full.add(three);
264	+	assertTrue(full.contains(three));
265	+	}
266	+
267	+	/**
268	+	* keySet.add throws UnsupportedOperationException if no default
269	+	* mapped value
270	+	*/
271	+	public void testAdd4() {
272	+	Set full = map5().keySet();
273	+	try {
274	+	full.add(three);
275	+	shouldThrow();
276	+	} catch (UnsupportedOperationException e){}
277	+	}
278	+
279	+	/**
280	+	* keySet.add throws NullPointerException if the specified key is
281	+	* null
282	+	*/
283	+	public void testAdd5() {
284	+	Set full = populatedSet(3);
285	+	try {
286	+	full.add(null);
287	+	shouldThrow();
288	+	} catch (NullPointerException e){}
289	+	}
290	+
291	+	/**
292	+	* KeySetView.getMappedValue returns the map's mapped value
293	+	*/
294	+	public void testGetMappedValue() {
295	+	ConcurrentHashMap map = map5();
296	+	assertNull(map.keySet().getMappedValue());
297	+	try {
298	+	map.keySet(null);
299	+	shouldThrow();
300	+	} catch (NullPointerException e) {}
301	+	ConcurrentHashMap.KeySetView set = map.keySet(one);
302	+	set.add(one);
303	+	set.add(six);
304	+	set.add(seven);
305	+	assertTrue(set.getMappedValue() == one);
306	+	assertTrue(map.get(one) != one);
307	+	assertTrue(map.get(six) == one);
308	+	assertTrue(map.get(seven) == one);
309	+	}
310	+
311	+	void checkSpliteratorCharacteristics(Spliterator<?> sp,
312	+	int requiredCharacteristics) {
313	+	assertEquals(requiredCharacteristics,
314	+	requiredCharacteristics & sp.characteristics());
315	+	}
316	+
317	+	/**
318	+	* KeySetView.spliterator returns spliterator over the elements in this set
319	+	*/
320	+	public void testKeySetSpliterator() {
321	+	LongAdder adder = new LongAdder();
322	+	ConcurrentHashMap map = map5();
323	+	Set set = map.keySet();
324	+	Spliterator<Integer> sp = set.spliterator();
325	+	checkSpliteratorCharacteristics(sp, CONCURRENT | DISTINCT | NONNULL);
326	+	assertEquals(sp.estimateSize(), map.size());
327	+	Spliterator<Integer> sp2 = sp.trySplit();
328	+	sp.forEachRemaining((Integer x) -> adder.add(x.longValue()));
329	+	long v = adder.sumThenReset();
330	+	sp2.forEachRemaining((Integer x) -> adder.add(x.longValue()));
331	+	long v2 = adder.sum();
332	+	assertEquals(v + v2, 15);
333	+	}
334	+
335	+	/**
336	+	* keyset.clear removes all elements from the set
337	+	*/
338	+	public void testClear() {
339	+	Set full = populatedSet(3);
340	+	full.clear();
341	+	assertEquals(0, full.size());
342	+	}
343	+
344	+	/**
345	+	* keyset.contains returns true for added elements
346	+	*/
347	+	public void testContains() {
348	+	Set full = populatedSet(3);
349	+	assertTrue(full.contains(one));
350	+	assertFalse(full.contains(five));
351	+	}
352	+
353	+	/**
354	+	* KeySets with equal elements are equal
355	+	*/
356	+	public void testEquals() {
357	+	Set a = populatedSet(3);
358	+	Set b = populatedSet(3);
359	+	assertTrue(a.equals(b));
360	+	assertTrue(b.equals(a));
361	+	assertEquals(a.hashCode(), b.hashCode());
362	+	a.add(m1);
363	+	assertFalse(a.equals(b));
364	+	assertFalse(b.equals(a));
365	+	b.add(m1);
366	+	assertTrue(a.equals(b));
367	+	assertTrue(b.equals(a));
368	+	assertEquals(a.hashCode(), b.hashCode());
369	+	}
370	+
371	+	/**
372	+	* KeySet.containsAll returns true for collections with subset of elements
373	+	*/
374	+	public void testContainsAll() {
375	+	Collection full = populatedSet(3);
376	+	assertTrue(full.containsAll(Arrays.asList()));
377	+	assertTrue(full.containsAll(Arrays.asList(one)));
378	+	assertTrue(full.containsAll(Arrays.asList(one, two)));
379	+	assertFalse(full.containsAll(Arrays.asList(one, two, six)));
380	+	assertFalse(full.containsAll(Arrays.asList(six)));
381	+	}
382	+
383	+	/**
384	+	* KeySet.isEmpty is true when empty, else false
385	+	*/
386	+	public void testIsEmpty() {
387	+	assertTrue(populatedSet(0).isEmpty());
388	+	assertFalse(populatedSet(3).isEmpty());
389	+	}
390	+
391	+	/**
392	+	* KeySet.iterator() returns an iterator containing the elements of the
393	+	* set
394	+	*/
395	+	public void testIterator() {
396	+	Collection empty = ConcurrentHashMap.newKeySet();
397	+	int size = 20;
398	+	assertFalse(empty.iterator().hasNext());
399	+	try {
400	+	empty.iterator().next();
401	+	shouldThrow();
402	+	} catch (NoSuchElementException success) {}
403	+
404	+	Integer[] elements = new Integer[size];
405	+	for (int i = 0; i < size; i++)
406	+	elements[i] = i;
407	+	Collections.shuffle(Arrays.asList(elements));
408	+	Collection<Integer> full = populatedSet(elements);
409	+
410	+	Iterator it = full.iterator();
411	+	for (int j = 0; j < size; j++) {
412	+	assertTrue(it.hasNext());
413	+	it.next();
414	+	}
415	+	assertIteratorExhausted(it);
416	+	}
417	+
418	+	/**
419	+	* iterator of empty collections has no elements
420	+	*/
421	+	public void testEmptyIterator() {
422	+	assertIteratorExhausted(ConcurrentHashMap.newKeySet().iterator());
423	+	assertIteratorExhausted(new ConcurrentHashMap().entrySet().iterator());
424	+	assertIteratorExhausted(new ConcurrentHashMap().values().iterator());
425	+	assertIteratorExhausted(new ConcurrentHashMap().keySet().iterator());
426	+	}
427	+
428	+	/**
429	+	* KeySet.iterator.remove removes current element
430	+	*/
431	+	public void testIteratorRemove() {
432	+	Set q = populatedSet(3);
433	+	Iterator it = q.iterator();
434	+	Object removed = it.next();
435	+	it.remove();
436	+
437	+	it = q.iterator();
438	+	assertFalse(it.next().equals(removed));
439	+	assertFalse(it.next().equals(removed));
440	+	assertFalse(it.hasNext());
441	+	}
442	+
443	+	/**
444	+	* KeySet.toString holds toString of elements
445	+	*/
446	+	public void testToString() {
447	+	assertEquals("[]", ConcurrentHashMap.newKeySet().toString());
448	+	Set full = populatedSet(3);
449	+	String s = full.toString();
450	+	for (int i = 0; i < 3; ++i)
451	+	assertTrue(s.contains(String.valueOf(i)));
452	+	}
453	+
454	+	/**
455	+	* KeySet.removeAll removes all elements from the given collection
456	+	*/
457	+	public void testRemoveAll() {
458	+	Set full = populatedSet(3);
459	+	assertTrue(full.removeAll(Arrays.asList(one, two)));
460	+	assertEquals(1, full.size());
461	+	assertFalse(full.removeAll(Arrays.asList(one, two)));
462	+	assertEquals(1, full.size());
463	+	}
464	+
465	+	/**
466	+	* KeySet.remove removes an element
467	+	*/
468	+	public void testRemove() {
469	+	Set full = populatedSet(3);
470	+	full.remove(one);
471	+	assertFalse(full.contains(one));
472	+	assertEquals(2, full.size());
473	+	}
474	+
475	+	/**
476	+	* keySet.size returns the number of elements
477	+	*/
478	+	public void testSize() {
479	+	Set empty = ConcurrentHashMap.newKeySet();
480	+	Set full = populatedSet(3);
481	+	assertEquals(3, full.size());
482	+	assertEquals(0, empty.size());
483	+	}
484	+
485	+	/**
486	+	* KeySet.toArray() returns an Object array containing all elements from
487	+	* the set
488	+	*/
489	+	public void testToArray() {
490	+	Object[] a = ConcurrentHashMap.newKeySet().toArray();
491	+	assertTrue(Arrays.equals(new Object[0], a));
492	+	assertSame(Object[].class, a.getClass());
493	+	int size = 20;
494	+	Integer[] elements = new Integer[size];
495	+	for (int i = 0; i < size; i++)
496	+	elements[i] = i;
497	+	Collections.shuffle(Arrays.asList(elements));
498	+	Collection<Integer> full = populatedSet(elements);
499	+
500	+	assertTrue(Arrays.asList(elements).containsAll(Arrays.asList(full.toArray())));
501	+	assertTrue(full.containsAll(Arrays.asList(full.toArray())));
502	+	assertSame(Object[].class, full.toArray().getClass());
503	+	}
504	+
505	+	/**
506	+	* toArray(Integer array) returns an Integer array containing all
507	+	* elements from the set
508	+	*/
509	+	public void testToArray2() {
510	+	Collection empty = ConcurrentHashMap.newKeySet();
511	+	Integer[] a;
512	+	int size = 20;
513	+
514	+	a = new Integer[0];
515	+	assertSame(a, empty.toArray(a));
516	+
517	+	a = new Integer[size/2];
518	+	Arrays.fill(a, 42);
519	+	assertSame(a, empty.toArray(a));
520	+	assertNull(a[0]);
521	+	for (int i = 1; i < a.length; i++)
522	+	assertEquals(42, (int) a[i]);
523	+
524	+	Integer[] elements = new Integer[size];
525	+	for (int i = 0; i < size; i++)
526	+	elements[i] = i;
527	+	Collections.shuffle(Arrays.asList(elements));
528	+	Collection<Integer> full = populatedSet(elements);
529	+
530	+	Arrays.fill(a, 42);
531	+	assertTrue(Arrays.asList(elements).containsAll(Arrays.asList(full.toArray(a))));
532	+	for (int i = 0; i < a.length; i++)
533	+	assertEquals(42, (int) a[i]);
534	+	assertSame(Integer[].class, full.toArray(a).getClass());
535	+
536	+	a = new Integer[size];
537	+	Arrays.fill(a, 42);
538	+	assertSame(a, full.toArray(a));
539	+	assertTrue(Arrays.asList(elements).containsAll(Arrays.asList(full.toArray(a))));
540	+	}
541	+
542	+	/**
543	+	* A deserialized serialized set is equal
544	+	*/
545	+	public void testSerialization() throws Exception {
546	+	int size = 20;
547	+	Set x = populatedSet(size);
548	+	Set y = serialClone(x);
549
550	+	assertNotSame(x, y);
551	+	assertEquals(x.size(), y.size());
552	+	assertEquals(x, y);
553	+	assertEquals(y, x);
554	+	}
555	+
556	+	static final int SIZE = 10000;
557	+	static ConcurrentHashMap<Long, Long> longMap;
558	+
559	+	static ConcurrentHashMap<Long, Long> longMap() {
560	+	if (longMap == null) {
561	+	longMap = new ConcurrentHashMap<Long, Long>(SIZE);
562	+	for (int i = 0; i < SIZE; ++i)
563	+	longMap.put(Long.valueOf(i), Long.valueOf(2 *i));
564	+	}
565	+	return longMap;
566	+	}
567	+
568	+	// explicit function class to avoid type inference problems
569	+	static class AddKeys implements BiFunction<Map.Entry<Long,Long>, Map.Entry<Long,Long>, Map.Entry<Long,Long>> {
570	+	public Map.Entry<Long,Long> apply(Map.Entry<Long,Long> x, Map.Entry<Long,Long> y) {
571	+	return new AbstractMap.SimpleEntry<Long,Long>
572	+	(Long.valueOf(x.getKey().longValue() + y.getKey().longValue()),
573	+	Long.valueOf(1L));
574	+	}
575	+	}
576	+
577	+	/**
578	+	* forEachKeySequentially traverses all keys
579	+	*/
580	+	public void testForEachKeySequentially() {
581	+	LongAdder adder = new LongAdder();
582	+	ConcurrentHashMap<Long, Long> m = longMap();
583	+	m.forEachKey(Long.MAX_VALUE, (Long x) -> adder.add(x.longValue()));
584	+	assertEquals(adder.sum(), SIZE * (SIZE - 1) / 2);
585	+	}
586	+
587	+	/**
588	+	* forEachValueSequentially traverses all values
589	+	*/
590	+	public void testForEachValueSequentially() {
591	+	LongAdder adder = new LongAdder();
592	+	ConcurrentHashMap<Long, Long> m = longMap();
593	+	m.forEachValue(Long.MAX_VALUE, (Long x) -> adder.add(x.longValue()));
594	+	assertEquals(adder.sum(), SIZE * (SIZE - 1));
595	+	}
596	+
597	+	/**
598	+	* forEachSequentially traverses all mappings
599	+	*/
600	+	public void testForEachSequentially() {
601	+	LongAdder adder = new LongAdder();
602	+	ConcurrentHashMap<Long, Long> m = longMap();
603	+	m.forEach(Long.MAX_VALUE, (Long x, Long y) -> adder.add(x.longValue() + y.longValue()));
604	+	assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2);
605	+	}
606	+
607	+	/**
608	+	* forEachEntrySequentially traverses all entries
609	+	*/
610	+	public void testForEachEntrySequentially() {
611	+	LongAdder adder = new LongAdder();
612	+	ConcurrentHashMap<Long, Long> m = longMap();
613	+	m.forEachEntry(Long.MAX_VALUE, (Map.Entry<Long,Long> e) -> adder.add(e.getKey().longValue() + e.getValue().longValue()));
614	+	assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2);
615	+	}
616	+
617	+	/**
618	+	* forEachKeyInParallel traverses all keys
619	+	*/
620	+	public void testForEachKeyInParallel() {
621	+	LongAdder adder = new LongAdder();
622	+	ConcurrentHashMap<Long, Long> m = longMap();
623	+	m.forEachKey(1L, (Long x) -> adder.add(x.longValue()));
624	+	assertEquals(adder.sum(), SIZE * (SIZE - 1) / 2);
625	+	}
626	+
627	+	/**
628	+	* forEachValueInParallel traverses all values
629	+	*/
630	+	public void testForEachValueInParallel() {
631	+	LongAdder adder = new LongAdder();
632	+	ConcurrentHashMap<Long, Long> m = longMap();
633	+	m.forEachValue(1L, (Long x) -> adder.add(x.longValue()));
634	+	assertEquals(adder.sum(), SIZE * (SIZE - 1));
635	+	}
636	+
637	+	/**
638	+	* forEachInParallel traverses all mappings
639	+	*/
640	+	public void testForEachInParallel() {
641	+	LongAdder adder = new LongAdder();
642	+	ConcurrentHashMap<Long, Long> m = longMap();
643	+	m.forEach(1L, (Long x, Long y) -> adder.add(x.longValue() + y.longValue()));
644	+	assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2);
645	+	}
646	+
647	+	/**
648	+	* forEachEntryInParallel traverses all entries
649	+	*/
650	+	public void testForEachEntryInParallel() {
651	+	LongAdder adder = new LongAdder();
652	+	ConcurrentHashMap<Long, Long> m = longMap();
653	+	m.forEachEntry(1L, (Map.Entry<Long,Long> e) -> adder.add(e.getKey().longValue() + e.getValue().longValue()));
654	+	assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2);
655	+	}
656	+
657	+	/**
658	+	* Mapped forEachKeySequentially traverses the given
659	+	* transformations of all keys
660	+	*/
661	+	public void testMappedForEachKeySequentially() {
662	+	LongAdder adder = new LongAdder();
663	+	ConcurrentHashMap<Long, Long> m = longMap();
664	+	m.forEachKey(Long.MAX_VALUE, (Long x) -> Long.valueOf(4 * x.longValue()),
665	+	(Long x) -> adder.add(x.longValue()));
666	+	assertEquals(adder.sum(), 4 * SIZE * (SIZE - 1) / 2);
667	+	}
668	+
669	+	/**
670	+	* Mapped forEachValueSequentially traverses the given
671	+	* transformations of all values
672	+	*/
673	+	public void testMappedForEachValueSequentially() {
674	+	LongAdder adder = new LongAdder();
675	+	ConcurrentHashMap<Long, Long> m = longMap();
676	+	m.forEachValue(Long.MAX_VALUE, (Long x) -> Long.valueOf(4 * x.longValue()),
677	+	(Long x) -> adder.add(x.longValue()));
678	+	assertEquals(adder.sum(), 4 * SIZE * (SIZE - 1));
679	+	}
680	+
681	+	/**
682	+	* Mapped forEachSequentially traverses the given
683	+	* transformations of all mappings
684	+	*/
685	+	public void testMappedForEachSequentially() {
686	+	LongAdder adder = new LongAdder();
687	+	ConcurrentHashMap<Long, Long> m = longMap();
688	+	m.forEach(Long.MAX_VALUE, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()),
689	+	(Long x) -> adder.add(x.longValue()));
690	+	assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2);
691	+	}
692	+
693	+	/**
694	+	* Mapped forEachEntrySequentially traverses the given
695	+	* transformations of all entries
696	+	*/
697	+	public void testMappedForEachEntrySequentially() {
698	+	LongAdder adder = new LongAdder();
699	+	ConcurrentHashMap<Long, Long> m = longMap();
700	+	m.forEachEntry(Long.MAX_VALUE, (Map.Entry<Long,Long> e) -> Long.valueOf(e.getKey().longValue() + e.getValue().longValue()),
701	+	(Long x) -> adder.add(x.longValue()));
702	+	assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2);
703	+	}
704	+
705	+	/**
706	+	* Mapped forEachKeyInParallel traverses the given
707	+	* transformations of all keys
708	+	*/
709	+	public void testMappedForEachKeyInParallel() {
710	+	LongAdder adder = new LongAdder();
711	+	ConcurrentHashMap<Long, Long> m = longMap();
712	+	m.forEachKey(1L, (Long x) -> Long.valueOf(4 * x.longValue()),
713	+	(Long x) -> adder.add(x.longValue()));
714	+	assertEquals(adder.sum(), 4 * SIZE * (SIZE - 1) / 2);
715	+	}
716	+
717	+	/**
718	+	* Mapped forEachValueInParallel traverses the given
719	+	* transformations of all values
720	+	*/
721	+	public void testMappedForEachValueInParallel() {
722	+	LongAdder adder = new LongAdder();
723	+	ConcurrentHashMap<Long, Long> m = longMap();
724	+	m.forEachValue(1L, (Long x) -> Long.valueOf(4 * x.longValue()),
725	+	(Long x) -> adder.add(x.longValue()));
726	+	assertEquals(adder.sum(), 4 * SIZE * (SIZE - 1));
727	+	}
728	+
729	+	/**
730	+	* Mapped forEachInParallel traverses the given
731	+	* transformations of all mappings
732	+	*/
733	+	public void testMappedForEachInParallel() {
734	+	LongAdder adder = new LongAdder();
735	+	ConcurrentHashMap<Long, Long> m = longMap();
736	+	m.forEach(1L, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()),
737	+	(Long x) -> adder.add(x.longValue()));
738	+	assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2);
739	+	}
740	+
741	+	/**
742	+	* Mapped forEachEntryInParallel traverses the given
743	+	* transformations of all entries
744	+	*/
745	+	public void testMappedForEachEntryInParallel() {
746	+	LongAdder adder = new LongAdder();
747	+	ConcurrentHashMap<Long, Long> m = longMap();
748	+	m.forEachEntry(1L, (Map.Entry<Long,Long> e) -> Long.valueOf(e.getKey().longValue() + e.getValue().longValue()),
749	+	(Long x) -> adder.add(x.longValue()));
750	+	assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2);
751	+	}
752	+
753	+	/**
754	+	* reduceKeysSequentially accumulates across all keys,
755	+	*/
756	+	public void testReduceKeysSequentially() {
757	+	ConcurrentHashMap<Long, Long> m = longMap();
758	+	Long r;
759	+	r = m.reduceKeys(Long.MAX_VALUE, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()));
760	+	assertEquals((long)r, (long)SIZE * (SIZE - 1) / 2);
761	+	}
762	+
763	+	/**
764	+	* reduceValuesSequentially accumulates across all values
765	+	*/
766	+	public void testReduceValuesSequentially() {
767	+	ConcurrentHashMap<Long, Long> m = longMap();
768	+	Long r;
769	+	r = m.reduceKeys(Long.MAX_VALUE, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()));
770	+	assertEquals((long)r, (long)SIZE * (SIZE - 1) / 2);
771	+	}
772	+
773	+	/**
774	+	* reduceEntriesSequentially accumulates across all entries
775	+	*/
776	+	public void testReduceEntriesSequentially() {
777	+	ConcurrentHashMap<Long, Long> m = longMap();
778	+	Map.Entry<Long,Long> r;
779	+	r = m.reduceEntries(Long.MAX_VALUE, new AddKeys());
780	+	assertEquals(r.getKey().longValue(), (long)SIZE * (SIZE - 1) / 2);
781	+	}
782	+
783	+	/**
784	+	* reduceKeysInParallel accumulates across all keys
785	+	*/
786	+	public void testReduceKeysInParallel() {
787	+	ConcurrentHashMap<Long, Long> m = longMap();
788	+	Long r;
789	+	r = m.reduceKeys(1L, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()));
790	+	assertEquals((long)r, (long)SIZE * (SIZE - 1) / 2);
791	+	}
792	+
793	+	/**
794	+	* reduceValuesInParallel accumulates across all values
795	+	*/
796	+	public void testReduceValuesInParallel() {
797	+	ConcurrentHashMap<Long, Long> m = longMap();
798	+	Long r;
799	+	r = m.reduceValues(1L, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()));
800	+	assertEquals((long)r, (long)SIZE * (SIZE - 1));
801	+	}
802	+
803	+	/**
804	+	* reduceEntriesInParallel accumulate across all entries
805	+	*/
806	+	public void testReduceEntriesInParallel() {
807	+	ConcurrentHashMap<Long, Long> m = longMap();
808	+	Map.Entry<Long,Long> r;
809	+	r = m.reduceEntries(1L, new AddKeys());
810	+	assertEquals(r.getKey().longValue(), (long)SIZE * (SIZE - 1) / 2);
811	+	}
812	+
813	+	/**
814	+	* Mapped reduceKeysSequentially accumulates mapped keys
815	+	*/
816	+	public void testMapReduceKeysSequentially() {
817	+	ConcurrentHashMap<Long, Long> m = longMap();
818	+	Long r = m.reduceKeys(Long.MAX_VALUE, (Long x) -> Long.valueOf(4 * x.longValue()),
819	+	(Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()));
820	+	assertEquals((long)r, (long)4 * SIZE * (SIZE - 1) / 2);
821	+	}
822	+
823	+	/**
824	+	* Mapped reduceValuesSequentially accumulates mapped values
825	+	*/
826	+	public void testMapReduceValuesSequentially() {
827	+	ConcurrentHashMap<Long, Long> m = longMap();
828	+	Long r = m.reduceValues(Long.MAX_VALUE, (Long x) -> Long.valueOf(4 * x.longValue()),
829	+	(Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()));
830	+	assertEquals((long)r, (long)4 * SIZE * (SIZE - 1));
831	+	}
832	+
833	+	/**
834	+	* reduceSequentially accumulates across all transformed mappings
835	+	*/
836	+	public void testMappedReduceSequentially() {
837	+	ConcurrentHashMap<Long, Long> m = longMap();
838	+	Long r = m.reduce(Long.MAX_VALUE, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()),
839	+	(Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()));
840	+
841	+	assertEquals((long)r, (long)3 * SIZE * (SIZE - 1) / 2);
842	+	}
843	+
844	+	/**
845	+	* Mapped reduceKeysInParallel, accumulates mapped keys
846	+	*/
847	+	public void testMapReduceKeysInParallel() {
848	+	ConcurrentHashMap<Long, Long> m = longMap();
849	+	Long r = m.reduceKeys(1L, (Long x) -> Long.valueOf(4 * x.longValue()),
850	+	(Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()));
851	+	assertEquals((long)r, (long)4 * SIZE * (SIZE - 1) / 2);
852	+	}
853	+
854	+	/**
855	+	* Mapped reduceValuesInParallel accumulates mapped values
856	+	*/
857	+	public void testMapReduceValuesInParallel() {
858	+	ConcurrentHashMap<Long, Long> m = longMap();
859	+	Long r = m.reduceValues(1L, (Long x) -> Long.valueOf(4 * x.longValue()),
860	+	(Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()));
861	+	assertEquals((long)r, (long)4 * SIZE * (SIZE - 1));
862	+	}
863	+
864	+	/**
865	+	* reduceInParallel accumulate across all transformed mappings
866	+	*/
867	+	public void testMappedReduceInParallel() {
868	+	ConcurrentHashMap<Long, Long> m = longMap();
869	+	Long r;
870	+	r = m.reduce(1L, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()),
871	+	(Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()));
872	+	assertEquals((long)r, (long)3 * SIZE * (SIZE - 1) / 2);
873	+	}
874	+
875	+	/**
876	+	* reduceKeysToLongSequentially accumulates mapped keys
877	+	*/
878	+	public void testReduceKeysToLongSequentially() {
879	+	ConcurrentHashMap<Long, Long> m = longMap();
880	+	long lr = m.reduceKeysToLong(Long.MAX_VALUE, (Long x) -> x.longValue(), 0L, Long::sum);
881	+	assertEquals(lr, (long)SIZE * (SIZE - 1) / 2);
882	+	}
883	+
884	+	/**
885	+	* reduceKeysToIntSequentially accumulates mapped keys
886	+	*/
887	+	public void testReduceKeysToIntSequentially() {
888	+	ConcurrentHashMap<Long, Long> m = longMap();
889	+	int ir = m.reduceKeysToInt(Long.MAX_VALUE, (Long x) -> x.intValue(), 0, Integer::sum);
890	+	assertEquals(ir, SIZE * (SIZE - 1) / 2);
891	+	}
892	+
893	+	/**
894	+	* reduceKeysToDoubleSequentially accumulates mapped keys
895	+	*/
896	+	public void testReduceKeysToDoubleSequentially() {
897	+	ConcurrentHashMap<Long, Long> m = longMap();
898	+	double dr = m.reduceKeysToDouble(Long.MAX_VALUE, (Long x) -> x.doubleValue(), 0.0, Double::sum);
899	+	assertEquals(dr, (double)SIZE * (SIZE - 1) / 2);
900	+	}
901	+
902	+	/**
903	+	* reduceValuesToLongSequentially accumulates mapped values
904	+	*/
905	+	public void testReduceValuesToLongSequentially() {
906	+	ConcurrentHashMap<Long, Long> m = longMap();
907	+	long lr = m.reduceValuesToLong(Long.MAX_VALUE, (Long x) -> x.longValue(), 0L, Long::sum);
908	+	assertEquals(lr, (long)SIZE * (SIZE - 1));
909	+	}
910	+
911	+	/**
912	+	* reduceValuesToIntSequentially accumulates mapped values
913	+	*/
914	+	public void testReduceValuesToIntSequentially() {
915	+	ConcurrentHashMap<Long, Long> m = longMap();
916	+	int ir = m.reduceValuesToInt(Long.MAX_VALUE, (Long x) -> x.intValue(), 0, Integer::sum);
917	+	assertEquals(ir, SIZE * (SIZE - 1));
918	+	}
919	+
920	+	/**
921	+	* reduceValuesToDoubleSequentially accumulates mapped values
922	+	*/
923	+	public void testReduceValuesToDoubleSequentially() {
924	+	ConcurrentHashMap<Long, Long> m = longMap();
925	+	double dr = m.reduceValuesToDouble(Long.MAX_VALUE, (Long x) -> x.doubleValue(), 0.0, Double::sum);
926	+	assertEquals(dr, (double)SIZE * (SIZE - 1));
927	+	}
928	+
929	+	/**
930	+	* reduceKeysToLongInParallel accumulates mapped keys
931	+	*/
932	+	public void testReduceKeysToLongInParallel() {
933	+	ConcurrentHashMap<Long, Long> m = longMap();
934	+	long lr = m.reduceKeysToLong(1L, (Long x) -> x.longValue(), 0L, Long::sum);
935	+	assertEquals(lr, (long)SIZE * (SIZE - 1) / 2);
936	+	}
937	+
938	+	/**
939	+	* reduceKeysToIntInParallel accumulates mapped keys
940	+	*/
941	+	public void testReduceKeysToIntInParallel() {
942	+	ConcurrentHashMap<Long, Long> m = longMap();
943	+	int ir = m.reduceKeysToInt(1L, (Long x) -> x.intValue(), 0, Integer::sum);
944	+	assertEquals(ir, SIZE * (SIZE - 1) / 2);
945	+	}
946	+
947	+	/**
948	+	* reduceKeysToDoubleInParallel accumulates mapped values
949	+	*/
950	+	public void testReduceKeysToDoubleInParallel() {
951	+	ConcurrentHashMap<Long, Long> m = longMap();
952	+	double dr = m.reduceKeysToDouble(1L, (Long x) -> x.doubleValue(), 0.0, Double::sum);
953	+	assertEquals(dr, (double)SIZE * (SIZE - 1) / 2);
954	+	}
955	+
956	+	/**
957	+	* reduceValuesToLongInParallel accumulates mapped values
958	+	*/
959	+	public void testReduceValuesToLongInParallel() {
960	+	ConcurrentHashMap<Long, Long> m = longMap();
961	+	long lr = m.reduceValuesToLong(1L, (Long x) -> x.longValue(), 0L, Long::sum);
962	+	assertEquals(lr, (long)SIZE * (SIZE - 1));
963	+	}
964	+
965	+	/**
966	+	* reduceValuesToIntInParallel accumulates mapped values
967	+	*/
968	+	public void testReduceValuesToIntInParallel() {
969	+	ConcurrentHashMap<Long, Long> m = longMap();
970	+	int ir = m.reduceValuesToInt(1L, (Long x) -> x.intValue(), 0, Integer::sum);
971	+	assertEquals(ir, SIZE * (SIZE - 1));
972	+	}
973	+
974	+	/**
975	+	* reduceValuesToDoubleInParallel accumulates mapped values
976	+	*/
977	+	public void testReduceValuesToDoubleInParallel() {
978	+	ConcurrentHashMap<Long, Long> m = longMap();
979	+	double dr = m.reduceValuesToDouble(1L, (Long x) -> x.doubleValue(), 0.0, Double::sum);
980	+	assertEquals(dr, (double)SIZE * (SIZE - 1));
981	+	}
982	+
983	+	/**
984	+	* searchKeysSequentially returns a non-null result of search
985	+	* function, or null if none
986	+	*/
987	+	public void testSearchKeysSequentially() {
988	+	ConcurrentHashMap<Long, Long> m = longMap();
989	+	Long r;
990	+	r = m.searchKeys(Long.MAX_VALUE, (Long x) -> x.longValue() == (long)(SIZE/2) ? x : null);
991	+	assertEquals((long)r, (long)(SIZE/2));
992	+	r = m.searchKeys(Long.MAX_VALUE, (Long x) -> x.longValue() < 0L ? x : null);
993	+	assertNull(r);
994	+	}
995	+
996	+	/**
997	+	* searchValuesSequentially returns a non-null result of search
998	+	* function, or null if none
999	+	*/
1000	+	public void testSearchValuesSequentially() {
1001	+	ConcurrentHashMap<Long, Long> m = longMap();
1002	+	Long r;
1003	+	r = m.searchValues(Long.MAX_VALUE,
1004	+	(Long x) -> (x.longValue() == (long)(SIZE/2)) ? x : null);
1005	+	assertEquals((long)r, (long)(SIZE/2));
1006	+	r = m.searchValues(Long.MAX_VALUE,
1007	+	(Long x) -> (x.longValue() < 0L) ? x : null);
1008	+	assertNull(r);
1009	+	}
1010	+
1011	+	/**
1012	+	* searchSequentially returns a non-null result of search
1013	+	* function, or null if none
1014	+	*/
1015	+	public void testSearchSequentially() {
1016	+	ConcurrentHashMap<Long, Long> m = longMap();
1017	+	Long r;
1018	+	r = m.search(Long.MAX_VALUE, (Long x, Long y) -> x.longValue() == (long)(SIZE/2) ? x : null);
1019	+	assertEquals((long)r, (long)(SIZE/2));
1020	+	r = m.search(Long.MAX_VALUE, (Long x, Long y) -> x.longValue() < 0L ? x : null);
1021	+	assertNull(r);
1022	+	}
1023	+
1024	+	/**
1025	+	* searchEntriesSequentially returns a non-null result of search
1026	+	* function, or null if none
1027	+	*/
1028	+	public void testSearchEntriesSequentially() {
1029	+	ConcurrentHashMap<Long, Long> m = longMap();
1030	+	Long r;
1031	+	r = m.searchEntries(Long.MAX_VALUE, (Map.Entry<Long,Long> e) -> e.getKey().longValue() == (long)(SIZE/2) ? e.getKey() : null);
1032	+	assertEquals((long)r, (long)(SIZE/2));
1033	+	r = m.searchEntries(Long.MAX_VALUE, (Map.Entry<Long,Long> e) -> e.getKey().longValue() < 0L ? e.getKey() : null);
1034	+	assertNull(r);
1035	+	}
1036	+
1037	+	/**
1038	+	* searchKeysInParallel returns a non-null result of search
1039	+	* function, or null if none
1040	+	*/
1041	+	public void testSearchKeysInParallel() {
1042	+	ConcurrentHashMap<Long, Long> m = longMap();
1043	+	Long r;
1044	+	r = m.searchKeys(1L, (Long x) -> x.longValue() == (long)(SIZE/2) ? x : null);
1045	+	assertEquals((long)r, (long)(SIZE/2));
1046	+	r = m.searchKeys(1L, (Long x) -> x.longValue() < 0L ? x : null);
1047	+	assertNull(r);
1048	+	}
1049	+
1050	+	/**
1051	+	* searchValuesInParallel returns a non-null result of search
1052	+	* function, or null if none
1053	+	*/
1054	+	public void testSearchValuesInParallel() {
1055	+	ConcurrentHashMap<Long, Long> m = longMap();
1056	+	Long r;
1057	+	r = m.searchValues(1L, (Long x) -> x.longValue() == (long)(SIZE/2) ? x : null);
1058	+	assertEquals((long)r, (long)(SIZE/2));
1059	+	r = m.searchValues(1L, (Long x) -> x.longValue() < 0L ? x : null);
1060	+	assertNull(r);
1061	+	}
1062	+
1063	+	/**
1064	+	* searchInParallel returns a non-null result of search function,
1065	+	* or null if none
1066	+	*/
1067	+	public void testSearchInParallel() {
1068	+	ConcurrentHashMap<Long, Long> m = longMap();
1069	+	Long r;
1070	+	r = m.search(1L, (Long x, Long y) -> x.longValue() == (long)(SIZE/2) ? x : null);
1071	+	assertEquals((long)r, (long)(SIZE/2));
1072	+	r = m.search(1L, (Long x, Long y) -> x.longValue() < 0L ? x : null);
1073	+	assertNull(r);
1074	+	}
1075	+
1076	+	/**
1077	+	* searchEntriesInParallel returns a non-null result of search
1078	+	* function, or null if none
1079	+	*/
1080	+	public void testSearchEntriesInParallel() {
1081	+	ConcurrentHashMap<Long, Long> m = longMap();
1082	+	Long r;
1083	+	r = m.searchEntries(1L, (Map.Entry<Long,Long> e) -> e.getKey().longValue() == (long)(SIZE/2) ? e.getKey() : null);
1084	+	assertEquals((long)r, (long)(SIZE/2));
1085	+	r = m.searchEntries(1L, (Map.Entry<Long,Long> e) -> e.getKey().longValue() < 0L ? e.getKey() : null);
1086	+	assertNull(r);
1087	+	}
1088
1089		}

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