--- jsr166/src/test/tck/ConcurrentHashMap8Test.java 2013/03/21 19:06:54 1.1 +++ jsr166/src/test/tck/ConcurrentHashMap8Test.java 2016/08/24 22:22:39 1.31 @@ -2,17 +2,30 @@ * Written by Doug Lea with assistance from members of JCP JSR-166 * Expert Group and released to the public domain, as explained at * http://creativecommons.org/publicdomain/zero/1.0/ - * Other contributors include Andrew Wright, Jeffrey Hayes, - * Pat Fisher, Mike Judd. */ -import junit.framework.*; -import java.util.*; +import static java.util.Spliterator.CONCURRENT; +import static java.util.Spliterator.DISTINCT; +import static java.util.Spliterator.NONNULL; + +import java.util.AbstractMap; +import java.util.Arrays; +import java.util.Collection; +import java.util.Iterator; +import java.util.Map; +import java.util.NoSuchElementException; +import java.util.Set; +import java.util.Spliterator; import java.util.concurrent.ConcurrentHashMap; +import java.util.concurrent.atomic.LongAdder; +import java.util.function.BiFunction; + +import junit.framework.Test; +import junit.framework.TestSuite; public class ConcurrentHashMap8Test extends JSR166TestCase { public static void main(String[] args) { - junit.textui.TestRunner.run(suite()); + main(suite(), args); } public static Test suite() { return new TestSuite(ConcurrentHashMap8Test.class); @@ -35,6 +48,15 @@ public class ConcurrentHashMap8Test exte } /** + * getOrDefault returns value if present, else default + */ + public void testGetOrDefault() { + ConcurrentHashMap map = map5(); + assertEquals(map.getOrDefault(one, "Z"), "A"); + assertEquals(map.getOrDefault(six, "Z"), "Z"); + } + + /** * computeIfAbsent adds when the given key is not present */ public void testComputeIfAbsent() { @@ -44,7 +66,7 @@ public class ConcurrentHashMap8Test exte } /** - * computeIfAbsent does not replace if the key is already present + * computeIfAbsent does not replace if the key is already present */ public void testComputeIfAbsent2() { ConcurrentHashMap map = map5(); @@ -59,9 +81,9 @@ public class ConcurrentHashMap8Test exte map.computeIfAbsent(six, (x) -> null); assertFalse(map.containsKey(six)); } - + /** - * computeIfPresent does not replace if the key is already present + * computeIfPresent does not replace if the key is already present */ public void testComputeIfPresent() { ConcurrentHashMap map = map5(); @@ -78,7 +100,7 @@ public class ConcurrentHashMap8Test exte } /** - * compute does not replace if the function returns null + * compute does not replace if the function returns null */ public void testCompute() { ConcurrentHashMap map = map5(); @@ -136,6 +158,933 @@ public class ConcurrentHashMap8Test exte assertFalse(map.containsKey(one)); } + static Set populatedSet(int n) { + Set a = ConcurrentHashMap.newKeySet(); + assertTrue(a.isEmpty()); + for (int i = 0; i < n; i++) + assertTrue(a.add(i)); + assertEquals(n == 0, a.isEmpty()); + assertEquals(n, a.size()); + return a; + } + + static Set populatedSet(Integer[] elements) { + Set a = ConcurrentHashMap.newKeySet(); + assertTrue(a.isEmpty()); + for (int i = 0; i < elements.length; i++) + assertTrue(a.add(elements[i])); + assertFalse(a.isEmpty()); + assertEquals(elements.length, a.size()); + return a; + } + + /** + * replaceAll replaces all matching values. + */ + public void testReplaceAll() { + ConcurrentHashMap map = map5(); + map.replaceAll((x, y) -> { return x > 3 ? "Z" : y; }); + assertEquals("A", map.get(one)); + assertEquals("B", map.get(two)); + assertEquals("C", map.get(three)); + assertEquals("Z", map.get(four)); + assertEquals("Z", map.get(five)); + } + + /** + * Default-constructed set is empty + */ + public void testNewKeySet() { + Set a = ConcurrentHashMap.newKeySet(); + assertTrue(a.isEmpty()); + } + + /** + * keySet.add adds the key with the established value to the map; + * remove removes it. + */ + public void testKeySetAddRemove() { + ConcurrentHashMap map = map5(); + Set set1 = map.keySet(); + Set set2 = map.keySet(true); + set2.add(six); + assertTrue(((ConcurrentHashMap.KeySetView)set2).getMap() == map); + assertTrue(((ConcurrentHashMap.KeySetView)set1).getMap() == map); + assertEquals(set2.size(), map.size()); + assertEquals(set1.size(), map.size()); + assertTrue((Boolean)map.get(six)); + assertTrue(set1.contains(six)); + assertTrue(set2.contains(six)); + set2.remove(six); + assertNull(map.get(six)); + assertFalse(set1.contains(six)); + assertFalse(set2.contains(six)); + } + + /** + * keySet.addAll adds each element from the given collection + */ + public void testAddAll() { + Set full = populatedSet(3); + assertTrue(full.addAll(Arrays.asList(three, four, five))); + assertEquals(6, full.size()); + assertFalse(full.addAll(Arrays.asList(three, four, five))); + assertEquals(6, full.size()); + } + + /** + * keySet.addAll adds each element from the given collection that did not + * already exist in the set + */ + public void testAddAll2() { + Set full = populatedSet(3); + // "one" is duplicate and will not be added + assertTrue(full.addAll(Arrays.asList(three, four, one))); + assertEquals(5, full.size()); + assertFalse(full.addAll(Arrays.asList(three, four, one))); + assertEquals(5, full.size()); + } + + /** + * keySet.add will not add the element if it already exists in the set + */ + public void testAdd2() { + Set full = populatedSet(3); + assertFalse(full.add(one)); + assertEquals(3, full.size()); + } + + /** + * keySet.add adds the element when it does not exist in the set + */ + public void testAdd3() { + Set full = populatedSet(3); + assertTrue(full.add(three)); + assertTrue(full.contains(three)); + assertFalse(full.add(three)); + assertTrue(full.contains(three)); + } + + /** + * keySet.add throws UnsupportedOperationException if no default + * mapped value + */ + public void testAdd4() { + Set full = map5().keySet(); + try { + full.add(three); + shouldThrow(); + } catch (UnsupportedOperationException success) {} + } + + /** + * keySet.add throws NullPointerException if the specified key is + * null + */ + public void testAdd5() { + Set full = populatedSet(3); + try { + full.add(null); + shouldThrow(); + } catch (NullPointerException success) {} + } + + /** + * KeySetView.getMappedValue returns the map's mapped value + */ + public void testGetMappedValue() { + ConcurrentHashMap map = map5(); + assertNull(map.keySet().getMappedValue()); + try { + map.keySet(null); + shouldThrow(); + } catch (NullPointerException success) {} + ConcurrentHashMap.KeySetView set = map.keySet(one); + assertFalse(set.add(one)); + assertTrue(set.add(six)); + assertTrue(set.add(seven)); + assertTrue(set.getMappedValue() == one); + assertTrue(map.get(one) != one); + assertTrue(map.get(six) == one); + assertTrue(map.get(seven) == one); + } + + void checkSpliteratorCharacteristics(Spliterator sp, + int requiredCharacteristics) { + assertEquals(requiredCharacteristics, + requiredCharacteristics & sp.characteristics()); + } + + /** + * KeySetView.spliterator returns spliterator over the elements in this set + */ + public void testKeySetSpliterator() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap map = map5(); + Set set = map.keySet(); + Spliterator sp = set.spliterator(); + checkSpliteratorCharacteristics(sp, CONCURRENT | DISTINCT | NONNULL); + assertEquals(sp.estimateSize(), map.size()); + Spliterator sp2 = sp.trySplit(); + sp.forEachRemaining((Integer x) -> adder.add(x.longValue())); + long v = adder.sumThenReset(); + sp2.forEachRemaining((Integer x) -> adder.add(x.longValue())); + long v2 = adder.sum(); + assertEquals(v + v2, 15); + } + + /** + * keyset.clear removes all elements from the set + */ + public void testClear() { + Set full = populatedSet(3); + full.clear(); + assertEquals(0, full.size()); + } + + /** + * keyset.contains returns true for added elements + */ + public void testContains() { + Set full = populatedSet(3); + assertTrue(full.contains(one)); + assertFalse(full.contains(five)); + } + + /** + * KeySets with equal elements are equal + */ + public void testEquals() { + Set a = populatedSet(3); + Set b = populatedSet(3); + assertTrue(a.equals(b)); + assertTrue(b.equals(a)); + assertEquals(a.hashCode(), b.hashCode()); + a.add(m1); + assertFalse(a.equals(b)); + assertFalse(b.equals(a)); + b.add(m1); + assertTrue(a.equals(b)); + assertTrue(b.equals(a)); + assertEquals(a.hashCode(), b.hashCode()); + } + + /** + * KeySet.containsAll returns true for collections with subset of elements + */ + public void testContainsAll() { + Collection full = populatedSet(3); + assertTrue(full.containsAll(Arrays.asList())); + assertTrue(full.containsAll(Arrays.asList(one))); + assertTrue(full.containsAll(Arrays.asList(one, two))); + assertFalse(full.containsAll(Arrays.asList(one, two, six))); + assertFalse(full.containsAll(Arrays.asList(six))); + } + + /** + * KeySet.isEmpty is true when empty, else false + */ + public void testIsEmpty() { + assertTrue(populatedSet(0).isEmpty()); + assertFalse(populatedSet(3).isEmpty()); + } + + /** + * KeySet.iterator() returns an iterator containing the elements of the + * set + */ + public void testIterator() { + Collection empty = ConcurrentHashMap.newKeySet(); + int size = 20; + assertFalse(empty.iterator().hasNext()); + try { + empty.iterator().next(); + shouldThrow(); + } catch (NoSuchElementException success) {} + + Integer[] elements = new Integer[size]; + for (int i = 0; i < size; i++) + elements[i] = i; + shuffle(elements); + Collection full = populatedSet(elements); + + Iterator it = full.iterator(); + for (int j = 0; j < size; j++) { + assertTrue(it.hasNext()); + it.next(); + } + assertIteratorExhausted(it); + } + + /** + * iterator of empty collections has no elements + */ + public void testEmptyIterator() { + assertIteratorExhausted(ConcurrentHashMap.newKeySet().iterator()); + assertIteratorExhausted(new ConcurrentHashMap().entrySet().iterator()); + assertIteratorExhausted(new ConcurrentHashMap().values().iterator()); + assertIteratorExhausted(new ConcurrentHashMap().keySet().iterator()); + } + + /** + * KeySet.iterator.remove removes current element + */ + public void testIteratorRemove() { + Set q = populatedSet(3); + Iterator it = q.iterator(); + Object removed = it.next(); + it.remove(); + + it = q.iterator(); + assertFalse(it.next().equals(removed)); + assertFalse(it.next().equals(removed)); + assertFalse(it.hasNext()); + } + + /** + * KeySet.toString holds toString of elements + */ + public void testToString() { + assertEquals("[]", ConcurrentHashMap.newKeySet().toString()); + Set full = populatedSet(3); + String s = full.toString(); + for (int i = 0; i < 3; ++i) + assertTrue(s.contains(String.valueOf(i))); + } + + /** + * KeySet.removeAll removes all elements from the given collection + */ + public void testRemoveAll() { + Set full = populatedSet(3); + assertTrue(full.removeAll(Arrays.asList(one, two))); + assertEquals(1, full.size()); + assertFalse(full.removeAll(Arrays.asList(one, two))); + assertEquals(1, full.size()); + } + + /** + * KeySet.remove removes an element + */ + public void testRemove() { + Set full = populatedSet(3); + full.remove(one); + assertFalse(full.contains(one)); + assertEquals(2, full.size()); + } + + /** + * keySet.size returns the number of elements + */ + public void testSize() { + Set empty = ConcurrentHashMap.newKeySet(); + Set full = populatedSet(3); + assertEquals(3, full.size()); + assertEquals(0, empty.size()); + } + + /** + * KeySet.toArray() returns an Object array containing all elements from + * the set + */ + public void testToArray() { + Object[] a = ConcurrentHashMap.newKeySet().toArray(); + assertTrue(Arrays.equals(new Object[0], a)); + assertSame(Object[].class, a.getClass()); + int size = 20; + Integer[] elements = new Integer[size]; + for (int i = 0; i < size; i++) + elements[i] = i; + shuffle(elements); + Collection full = populatedSet(elements); + + assertTrue(Arrays.asList(elements).containsAll(Arrays.asList(full.toArray()))); + assertTrue(full.containsAll(Arrays.asList(full.toArray()))); + assertSame(Object[].class, full.toArray().getClass()); + } + + /** + * toArray(Integer array) returns an Integer array containing all + * elements from the set + */ + public void testToArray2() { + Collection empty = ConcurrentHashMap.newKeySet(); + Integer[] a; + int size = 20; + + a = new Integer[0]; + assertSame(a, empty.toArray(a)); + + a = new Integer[size / 2]; + Arrays.fill(a, 42); + assertSame(a, empty.toArray(a)); + assertNull(a[0]); + for (int i = 1; i < a.length; i++) + assertEquals(42, (int) a[i]); + + Integer[] elements = new Integer[size]; + for (int i = 0; i < size; i++) + elements[i] = i; + shuffle(elements); + Collection full = populatedSet(elements); + + Arrays.fill(a, 42); + assertTrue(Arrays.asList(elements).containsAll(Arrays.asList(full.toArray(a)))); + for (int i = 0; i < a.length; i++) + assertEquals(42, (int) a[i]); + assertSame(Integer[].class, full.toArray(a).getClass()); + + a = new Integer[size]; + Arrays.fill(a, 42); + assertSame(a, full.toArray(a)); + assertTrue(Arrays.asList(elements).containsAll(Arrays.asList(full.toArray(a)))); + } + + /** + * A deserialized serialized set is equal + */ + public void testSerialization() throws Exception { + int size = 20; + Set x = populatedSet(size); + Set y = serialClone(x); + assertNotSame(x, y); + assertEquals(x.size(), y.size()); + assertEquals(x, y); + assertEquals(y, x); + } + + static final int SIZE = 10000; + static ConcurrentHashMap longMap; + + static ConcurrentHashMap longMap() { + if (longMap == null) { + longMap = new ConcurrentHashMap(SIZE); + for (int i = 0; i < SIZE; ++i) + longMap.put(Long.valueOf(i), Long.valueOf(2 *i)); + } + return longMap; + } + + // explicit function class to avoid type inference problems + static class AddKeys implements BiFunction, Map.Entry, Map.Entry> { + public Map.Entry apply(Map.Entry x, Map.Entry y) { + return new AbstractMap.SimpleEntry + (Long.valueOf(x.getKey().longValue() + y.getKey().longValue()), + Long.valueOf(1L)); + } + } + + /** + * forEachKeySequentially traverses all keys + */ + public void testForEachKeySequentially() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachKey(Long.MAX_VALUE, (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), SIZE * (SIZE - 1) / 2); + } + + /** + * forEachValueSequentially traverses all values + */ + public void testForEachValueSequentially() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachValue(Long.MAX_VALUE, (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), SIZE * (SIZE - 1)); + } + + /** + * forEachSequentially traverses all mappings + */ + public void testForEachSequentially() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEach(Long.MAX_VALUE, (Long x, Long y) -> adder.add(x.longValue() + y.longValue())); + assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2); + } + + /** + * forEachEntrySequentially traverses all entries + */ + public void testForEachEntrySequentially() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachEntry(Long.MAX_VALUE, (Map.Entry e) -> adder.add(e.getKey().longValue() + e.getValue().longValue())); + assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2); + } + + /** + * forEachKeyInParallel traverses all keys + */ + public void testForEachKeyInParallel() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachKey(1L, (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), SIZE * (SIZE - 1) / 2); + } + + /** + * forEachValueInParallel traverses all values + */ + public void testForEachValueInParallel() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachValue(1L, (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), SIZE * (SIZE - 1)); + } + + /** + * forEachInParallel traverses all mappings + */ + public void testForEachInParallel() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEach(1L, (Long x, Long y) -> adder.add(x.longValue() + y.longValue())); + assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2); + } + + /** + * forEachEntryInParallel traverses all entries + */ + public void testForEachEntryInParallel() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachEntry(1L, (Map.Entry e) -> adder.add(e.getKey().longValue() + e.getValue().longValue())); + assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2); + } + + /** + * Mapped forEachKeySequentially traverses the given + * transformations of all keys + */ + public void testMappedForEachKeySequentially() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachKey(Long.MAX_VALUE, (Long x) -> Long.valueOf(4 * x.longValue()), + (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), 4 * SIZE * (SIZE - 1) / 2); + } + + /** + * Mapped forEachValueSequentially traverses the given + * transformations of all values + */ + public void testMappedForEachValueSequentially() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachValue(Long.MAX_VALUE, (Long x) -> Long.valueOf(4 * x.longValue()), + (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), 4 * SIZE * (SIZE - 1)); + } + + /** + * Mapped forEachSequentially traverses the given + * transformations of all mappings + */ + public void testMappedForEachSequentially() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEach(Long.MAX_VALUE, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()), + (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2); + } + + /** + * Mapped forEachEntrySequentially traverses the given + * transformations of all entries + */ + public void testMappedForEachEntrySequentially() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachEntry(Long.MAX_VALUE, (Map.Entry e) -> Long.valueOf(e.getKey().longValue() + e.getValue().longValue()), + (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2); + } + + /** + * Mapped forEachKeyInParallel traverses the given + * transformations of all keys + */ + public void testMappedForEachKeyInParallel() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachKey(1L, (Long x) -> Long.valueOf(4 * x.longValue()), + (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), 4 * SIZE * (SIZE - 1) / 2); + } + + /** + * Mapped forEachValueInParallel traverses the given + * transformations of all values + */ + public void testMappedForEachValueInParallel() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachValue(1L, (Long x) -> Long.valueOf(4 * x.longValue()), + (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), 4 * SIZE * (SIZE - 1)); + } + + /** + * Mapped forEachInParallel traverses the given + * transformations of all mappings + */ + public void testMappedForEachInParallel() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEach(1L, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()), + (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2); + } + + /** + * Mapped forEachEntryInParallel traverses the given + * transformations of all entries + */ + public void testMappedForEachEntryInParallel() { + LongAdder adder = new LongAdder(); + ConcurrentHashMap m = longMap(); + m.forEachEntry(1L, (Map.Entry e) -> Long.valueOf(e.getKey().longValue() + e.getValue().longValue()), + (Long x) -> adder.add(x.longValue())); + assertEquals(adder.sum(), 3 * SIZE * (SIZE - 1) / 2); + } + + /** + * reduceKeysSequentially accumulates across all keys, + */ + public void testReduceKeysSequentially() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.reduceKeys(Long.MAX_VALUE, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue())); + assertEquals((long)r, (long)SIZE * (SIZE - 1) / 2); + } + + /** + * reduceValuesSequentially accumulates across all values + */ + public void testReduceValuesSequentially() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.reduceKeys(Long.MAX_VALUE, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue())); + assertEquals((long)r, (long)SIZE * (SIZE - 1) / 2); + } + + /** + * reduceEntriesSequentially accumulates across all entries + */ + public void testReduceEntriesSequentially() { + ConcurrentHashMap m = longMap(); + Map.Entry r; + r = m.reduceEntries(Long.MAX_VALUE, new AddKeys()); + assertEquals(r.getKey().longValue(), (long)SIZE * (SIZE - 1) / 2); + } + + /** + * reduceKeysInParallel accumulates across all keys + */ + public void testReduceKeysInParallel() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.reduceKeys(1L, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue())); + assertEquals((long)r, (long)SIZE * (SIZE - 1) / 2); + } + + /** + * reduceValuesInParallel accumulates across all values + */ + public void testReduceValuesInParallel() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.reduceValues(1L, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue())); + assertEquals((long)r, (long)SIZE * (SIZE - 1)); + } + + /** + * reduceEntriesInParallel accumulate across all entries + */ + public void testReduceEntriesInParallel() { + ConcurrentHashMap m = longMap(); + Map.Entry r; + r = m.reduceEntries(1L, new AddKeys()); + assertEquals(r.getKey().longValue(), (long)SIZE * (SIZE - 1) / 2); + } + + /** + * Mapped reduceKeysSequentially accumulates mapped keys + */ + public void testMapReduceKeysSequentially() { + ConcurrentHashMap m = longMap(); + Long r = m.reduceKeys(Long.MAX_VALUE, (Long x) -> Long.valueOf(4 * x.longValue()), + (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue())); + assertEquals((long)r, (long)4 * SIZE * (SIZE - 1) / 2); + } + + /** + * Mapped reduceValuesSequentially accumulates mapped values + */ + public void testMapReduceValuesSequentially() { + ConcurrentHashMap m = longMap(); + Long r = m.reduceValues(Long.MAX_VALUE, (Long x) -> Long.valueOf(4 * x.longValue()), + (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue())); + assertEquals((long)r, (long)4 * SIZE * (SIZE - 1)); + } + + /** + * reduceSequentially accumulates across all transformed mappings + */ + public void testMappedReduceSequentially() { + ConcurrentHashMap m = longMap(); + Long r = m.reduce(Long.MAX_VALUE, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()), + (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue())); + + assertEquals((long)r, (long)3 * SIZE * (SIZE - 1) / 2); + } + + /** + * Mapped reduceKeysInParallel, accumulates mapped keys + */ + public void testMapReduceKeysInParallel() { + ConcurrentHashMap m = longMap(); + Long r = m.reduceKeys(1L, (Long x) -> Long.valueOf(4 * x.longValue()), + (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue())); + assertEquals((long)r, (long)4 * SIZE * (SIZE - 1) / 2); + } + + /** + * Mapped reduceValuesInParallel accumulates mapped values + */ + public void testMapReduceValuesInParallel() { + ConcurrentHashMap m = longMap(); + Long r = m.reduceValues(1L, (Long x) -> Long.valueOf(4 * x.longValue()), + (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue())); + assertEquals((long)r, (long)4 * SIZE * (SIZE - 1)); + } + + /** + * reduceInParallel accumulate across all transformed mappings + */ + public void testMappedReduceInParallel() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.reduce(1L, (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue()), + (Long x, Long y) -> Long.valueOf(x.longValue() + y.longValue())); + assertEquals((long)r, (long)3 * SIZE * (SIZE - 1) / 2); + } + + /** + * reduceKeysToLongSequentially accumulates mapped keys + */ + public void testReduceKeysToLongSequentially() { + ConcurrentHashMap m = longMap(); + long lr = m.reduceKeysToLong(Long.MAX_VALUE, (Long x) -> x.longValue(), 0L, Long::sum); + assertEquals(lr, (long)SIZE * (SIZE - 1) / 2); + } + + /** + * reduceKeysToIntSequentially accumulates mapped keys + */ + public void testReduceKeysToIntSequentially() { + ConcurrentHashMap m = longMap(); + int ir = m.reduceKeysToInt(Long.MAX_VALUE, (Long x) -> x.intValue(), 0, Integer::sum); + assertEquals(ir, SIZE * (SIZE - 1) / 2); + } + + /** + * reduceKeysToDoubleSequentially accumulates mapped keys + */ + public void testReduceKeysToDoubleSequentially() { + ConcurrentHashMap m = longMap(); + double dr = m.reduceKeysToDouble(Long.MAX_VALUE, (Long x) -> x.doubleValue(), 0.0, Double::sum); + assertEquals(dr, (double)SIZE * (SIZE - 1) / 2); + } + + /** + * reduceValuesToLongSequentially accumulates mapped values + */ + public void testReduceValuesToLongSequentially() { + ConcurrentHashMap m = longMap(); + long lr = m.reduceValuesToLong(Long.MAX_VALUE, (Long x) -> x.longValue(), 0L, Long::sum); + assertEquals(lr, (long)SIZE * (SIZE - 1)); + } + + /** + * reduceValuesToIntSequentially accumulates mapped values + */ + public void testReduceValuesToIntSequentially() { + ConcurrentHashMap m = longMap(); + int ir = m.reduceValuesToInt(Long.MAX_VALUE, (Long x) -> x.intValue(), 0, Integer::sum); + assertEquals(ir, SIZE * (SIZE - 1)); + } + + /** + * reduceValuesToDoubleSequentially accumulates mapped values + */ + public void testReduceValuesToDoubleSequentially() { + ConcurrentHashMap m = longMap(); + double dr = m.reduceValuesToDouble(Long.MAX_VALUE, (Long x) -> x.doubleValue(), 0.0, Double::sum); + assertEquals(dr, (double)SIZE * (SIZE - 1)); + } + + /** + * reduceKeysToLongInParallel accumulates mapped keys + */ + public void testReduceKeysToLongInParallel() { + ConcurrentHashMap m = longMap(); + long lr = m.reduceKeysToLong(1L, (Long x) -> x.longValue(), 0L, Long::sum); + assertEquals(lr, (long)SIZE * (SIZE - 1) / 2); + } + + /** + * reduceKeysToIntInParallel accumulates mapped keys + */ + public void testReduceKeysToIntInParallel() { + ConcurrentHashMap m = longMap(); + int ir = m.reduceKeysToInt(1L, (Long x) -> x.intValue(), 0, Integer::sum); + assertEquals(ir, SIZE * (SIZE - 1) / 2); + } + + /** + * reduceKeysToDoubleInParallel accumulates mapped values + */ + public void testReduceKeysToDoubleInParallel() { + ConcurrentHashMap m = longMap(); + double dr = m.reduceKeysToDouble(1L, (Long x) -> x.doubleValue(), 0.0, Double::sum); + assertEquals(dr, (double)SIZE * (SIZE - 1) / 2); + } + + /** + * reduceValuesToLongInParallel accumulates mapped values + */ + public void testReduceValuesToLongInParallel() { + ConcurrentHashMap m = longMap(); + long lr = m.reduceValuesToLong(1L, (Long x) -> x.longValue(), 0L, Long::sum); + assertEquals(lr, (long)SIZE * (SIZE - 1)); + } + + /** + * reduceValuesToIntInParallel accumulates mapped values + */ + public void testReduceValuesToIntInParallel() { + ConcurrentHashMap m = longMap(); + int ir = m.reduceValuesToInt(1L, (Long x) -> x.intValue(), 0, Integer::sum); + assertEquals(ir, SIZE * (SIZE - 1)); + } + + /** + * reduceValuesToDoubleInParallel accumulates mapped values + */ + public void testReduceValuesToDoubleInParallel() { + ConcurrentHashMap m = longMap(); + double dr = m.reduceValuesToDouble(1L, (Long x) -> x.doubleValue(), 0.0, Double::sum); + assertEquals(dr, (double)SIZE * (SIZE - 1)); + } + + /** + * searchKeysSequentially returns a non-null result of search + * function, or null if none + */ + public void testSearchKeysSequentially() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.searchKeys(Long.MAX_VALUE, (Long x) -> x.longValue() == (long)(SIZE/2) ? x : null); + assertEquals((long)r, (long)(SIZE/2)); + r = m.searchKeys(Long.MAX_VALUE, (Long x) -> x.longValue() < 0L ? x : null); + assertNull(r); + } + + /** + * searchValuesSequentially returns a non-null result of search + * function, or null if none + */ + public void testSearchValuesSequentially() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.searchValues(Long.MAX_VALUE, + (Long x) -> (x.longValue() == (long)(SIZE/2)) ? x : null); + assertEquals((long)r, (long)(SIZE/2)); + r = m.searchValues(Long.MAX_VALUE, + (Long x) -> (x.longValue() < 0L) ? x : null); + assertNull(r); + } + + /** + * searchSequentially returns a non-null result of search + * function, or null if none + */ + public void testSearchSequentially() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.search(Long.MAX_VALUE, (Long x, Long y) -> x.longValue() == (long)(SIZE/2) ? x : null); + assertEquals((long)r, (long)(SIZE/2)); + r = m.search(Long.MAX_VALUE, (Long x, Long y) -> x.longValue() < 0L ? x : null); + assertNull(r); + } + + /** + * searchEntriesSequentially returns a non-null result of search + * function, or null if none + */ + public void testSearchEntriesSequentially() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.searchEntries(Long.MAX_VALUE, (Map.Entry e) -> e.getKey().longValue() == (long)(SIZE/2) ? e.getKey() : null); + assertEquals((long)r, (long)(SIZE/2)); + r = m.searchEntries(Long.MAX_VALUE, (Map.Entry e) -> e.getKey().longValue() < 0L ? e.getKey() : null); + assertNull(r); + } + + /** + * searchKeysInParallel returns a non-null result of search + * function, or null if none + */ + public void testSearchKeysInParallel() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.searchKeys(1L, (Long x) -> x.longValue() == (long)(SIZE/2) ? x : null); + assertEquals((long)r, (long)(SIZE/2)); + r = m.searchKeys(1L, (Long x) -> x.longValue() < 0L ? x : null); + assertNull(r); + } + + /** + * searchValuesInParallel returns a non-null result of search + * function, or null if none + */ + public void testSearchValuesInParallel() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.searchValues(1L, (Long x) -> x.longValue() == (long)(SIZE/2) ? x : null); + assertEquals((long)r, (long)(SIZE/2)); + r = m.searchValues(1L, (Long x) -> x.longValue() < 0L ? x : null); + assertNull(r); + } + + /** + * searchInParallel returns a non-null result of search function, + * or null if none + */ + public void testSearchInParallel() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.search(1L, (Long x, Long y) -> x.longValue() == (long)(SIZE/2) ? x : null); + assertEquals((long)r, (long)(SIZE/2)); + r = m.search(1L, (Long x, Long y) -> x.longValue() < 0L ? x : null); + assertNull(r); + } + + /** + * searchEntriesInParallel returns a non-null result of search + * function, or null if none + */ + public void testSearchEntriesInParallel() { + ConcurrentHashMap m = longMap(); + Long r; + r = m.searchEntries(1L, (Map.Entry e) -> e.getKey().longValue() == (long)(SIZE/2) ? e.getKey() : null); + assertEquals((long)r, (long)(SIZE/2)); + r = m.searchEntries(1L, (Map.Entry e) -> e.getKey().longValue() < 0L ? e.getKey() : null); + assertNull(r); + } }