// Concurrent insertion & then iterator test. public static void testNonBlockingIdentityHashMapIterator() throws InterruptedException { final int ITEM_COUNT1 = 1000; final int THREAD_COUNT = 5; final int PER_CNT = ITEM_COUNT1 / THREAD_COUNT; final int ITEM_COUNT = PER_CNT * THREAD_COUNT; // fix roundoff for odd thread counts NonBlockingIdentityHashMap<Long, TestKey> nbhml = new NonBlockingIdentityHashMap<Long, TestKey>(); // use a barrier to open the gate for all threads at once to avoid rolling // start and no actual concurrency final CyclicBarrier barrier = new CyclicBarrier(THREAD_COUNT); final ExecutorService ex = Executors.newFixedThreadPool(THREAD_COUNT); final CompletionService<Object> co = new ExecutorCompletionService<Object>(ex); for (int i = 0; i < THREAD_COUNT; i++) { co.submit(new NBHMLFeeder(nbhml, PER_CNT, barrier, i * PER_CNT)); } for (int retCount = 0; retCount < THREAD_COUNT; retCount++) { co.take(); } ex.shutdown(); assertEquals("values().size()", ITEM_COUNT, nbhml.values().size()); assertEquals("entrySet().size()", ITEM_COUNT, nbhml.entrySet().size()); int itemCount = 0; for (TestKey K : nbhml.values()) itemCount++; assertEquals("values().iterator() count", ITEM_COUNT, itemCount); }
public final void testNonBlockingIdentityHashMapSize() { NonBlockingIdentityHashMap<Long, String> items = new NonBlockingIdentityHashMap<Long, String>(); items.put(Long.valueOf(100), "100"); items.put(Long.valueOf(101), "101"); assertEquals("keySet().size()", 2, items.keySet().size()); assertTrue("keySet().contains(100)", items.keySet().contains(Long.valueOf(100))); assertTrue("keySet().contains(101)", items.keySet().contains(Long.valueOf(101))); assertEquals("values().size()", 2, items.values().size()); assertTrue("values().contains(\"100\")", items.values().contains("100")); assertTrue("values().contains(\"101\")", items.values().contains("101")); assertEquals("entrySet().size()", 2, items.entrySet().size()); boolean found100 = false; boolean found101 = false; for (Entry<Long, String> entry : items.entrySet()) { if (entry.getKey().equals(Long.valueOf(100))) { assertEquals("entry[100].getValue()==\"100\"", "100", entry.getValue()); found100 = true; } else if (entry.getKey().equals(Long.valueOf(101))) { assertEquals("entry[101].getValue()==\"101\"", "101", entry.getValue()); found101 = true; } } assertTrue("entrySet().contains([100])", found100); assertTrue("entrySet().contains([101])", found101); }
public void testIteration() { assertTrue(_nbhm.isEmpty()); assertThat(_nbhm.put("k1", "v1"), nullValue()); assertThat(_nbhm.put("k2", "v2"), nullValue()); String str1 = ""; for (Iterator<Map.Entry<String, String>> i = _nbhm.entrySet().iterator(); i.hasNext(); ) { Map.Entry<String, String> e = i.next(); str1 += e.getKey(); } assertThat("found all entries", str1, anyOf(is("k1k2"), is("k2k1"))); String str2 = ""; for (Iterator<String> i = _nbhm.keySet().iterator(); i.hasNext(); ) { String key = i.next(); str2 += key; } assertThat("found all keys", str2, anyOf(is("k1k2"), is("k2k1"))); String str3 = ""; for (Iterator<String> i = _nbhm.values().iterator(); i.hasNext(); ) { String val = i.next(); str3 += val; } assertThat("found all vals", str3, anyOf(is("v1v2"), is("v2v1"))); assertThat( "toString works", _nbhm.toString(), anyOf(is("{k1=v1, k2=v2}"), is("{k2=v2, k1=v1}"))); }
// Check all iterators for correct size counts private void checkSizes(int expectedSize) { assertEquals("size()", _nbhm.size(), expectedSize); Collection<String> vals = _nbhm.values(); checkSizes("values()", vals.size(), vals.iterator(), expectedSize); Set<String> keys = _nbhm.keySet(); checkSizes("keySet()", keys.size(), keys.iterator(), expectedSize); Set<Entry<String, String>> ents = _nbhm.entrySet(); checkSizes("entrySet()", ents.size(), ents.iterator(), expectedSize); }
// --- public void testNonBlockingIdentityHashMapIteratorMultithreaded() throws InterruptedException, ExecutionException { TestKeyFeeder feeder = getTestKeyFeeder(); final int itemCount = feeder.size(); // validate results final NonBlockingIdentityHashMap<Long, TestKey> items = feeder.getMapMultithreaded(); assertEquals("size()", itemCount, items.size()); assertEquals("values().size()", itemCount, items.values().size()); assertEquals("entrySet().size()", itemCount, items.entrySet().size()); int iteratorCount = 0; for (TestKey m : items.values()) iteratorCount++; // sometimes a different result comes back the second time int iteratorCount2 = 0; for (Iterator<TestKey> it = items.values().iterator(); it.hasNext(); ) { iteratorCount2++; it.next(); } assertEquals("iterator counts differ", iteratorCount, iteratorCount2); assertEquals("values().iterator() count", itemCount, iteratorCount); }