/* * 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. */ package jsr166; import junit.framework.*; import java.util.*; import java.util.concurrent.ConcurrentHashMap; public class ConcurrentHashMapTest extends JSR166TestCase { /** * Returns a new map from Integers 1-5 to Strings "A"-"E". */ private static ConcurrentHashMap map5() { ConcurrentHashMap map = new ConcurrentHashMap(5); assertTrue(map.isEmpty()); map.put(one, "A"); map.put(two, "B"); map.put(three, "C"); map.put(four, "D"); map.put(five, "E"); assertFalse(map.isEmpty()); assertEquals(5, map.size()); return map; } // classes for testing Comparable fallbacks static class BI implements Comparable { private final int value; BI(int value) { this.value = value; } public int compareTo(BI other) { return Integer.compare(value, other.value); } public boolean equals(Object x) { return (x instanceof BI) && ((BI)x).value == value; } public int hashCode() { return 42; } } static class CI extends BI { CI(int value) { super(value); } } static class DI extends BI { DI(int value) { super(value); } } static class BS implements Comparable { private final String value; BS(String value) { this.value = value; } public int compareTo(BS other) { return value.compareTo(other.value); } public boolean equals(Object x) { return (x instanceof BS) && value.equals(((BS)x).value); } public int hashCode() { return 42; } } static class LexicographicList> extends ArrayList implements Comparable> { static long total; static long n; LexicographicList(Collection c) { super(c); } LexicographicList(E e) { super(Collections.singleton(e)); } public int compareTo(LexicographicList other) { long start = System.currentTimeMillis(); int common = Math.min(size(), other.size()); int r = 0; for (int i = 0; i < common; i++) { if ((r = get(i).compareTo(other.get(i))) != 0) break; } if (r == 0) r = Integer.compare(size(), other.size()); total += System.currentTimeMillis() - start; n++; return r; } private static final long serialVersionUID = 0; } /** * Inserted elements that are subclasses of the same Comparable * class are found. */ public void testComparableFamily() { ConcurrentHashMap m = new ConcurrentHashMap(); for (int i = 0; i < 1000; i++) { assertTrue(m.put(new CI(i), true) == null); } for (int i = 0; i < 1000; i++) { assertTrue(m.containsKey(new CI(i))); assertTrue(m.containsKey(new DI(i))); } } /** * Elements of classes with erased generic type parameters based * on Comparable can be inserted and found. */ public void testGenericComparable() { ConcurrentHashMap m = new ConcurrentHashMap(); for (int i = 0; i < 1000; i++) { BI bi = new BI(i); BS bs = new BS(String.valueOf(i)); LexicographicList bis = new LexicographicList(bi); LexicographicList bss = new LexicographicList(bs); assertTrue(m.putIfAbsent(bis, true) == null); assertTrue(m.containsKey(bis)); if (m.putIfAbsent(bss, true) == null) assertTrue(m.containsKey(bss)); assertTrue(m.containsKey(bis)); } for (int i = 0; i < 1000; i++) { assertTrue(m.containsKey(new ArrayList(Collections.singleton(new BI(i))))); } } /** * Elements of non-comparable classes equal to those of classes * with erased generic type parameters based on Comparable can be * inserted and found. */ public void testGenericComparable2() { ConcurrentHashMap m = new ConcurrentHashMap(); for (int i = 0; i < 1000; i++) { m.put(new ArrayList(Collections.singleton(new BI(i))), true); } for (int i = 0; i < 1000; i++) { LexicographicList bis = new LexicographicList(new BI(i)); assertTrue(m.containsKey(bis)); } } /** * clear removes all pairs */ public void testClear() { ConcurrentHashMap map = map5(); map.clear(); assertEquals(0, map.size()); } /** * Maps with same contents are equal */ public void testEquals() { ConcurrentHashMap map1 = map5(); ConcurrentHashMap map2 = map5(); assertEquals(map1, map2); assertEquals(map2, map1); map1.clear(); assertFalse(map1.equals(map2)); assertFalse(map2.equals(map1)); } /** * contains returns true for contained value */ public void testContains() { ConcurrentHashMap map = map5(); assertTrue(map.contains("A")); assertFalse(map.contains("Z")); } /** * containsKey returns true for contained key */ public void testContainsKey() { ConcurrentHashMap map = map5(); assertTrue(map.containsKey(one)); assertFalse(map.containsKey(zero)); } /** * containsValue returns true for held values */ public void testContainsValue() { ConcurrentHashMap map = map5(); assertTrue(map.containsValue("A")); assertFalse(map.containsValue("Z")); } /** * enumeration returns an enumeration containing the correct * elements */ public void testEnumeration() { ConcurrentHashMap map = map5(); Enumeration e = map.elements(); int count = 0; while (e.hasMoreElements()) { count++; e.nextElement(); } assertEquals(5, count); } /** * get returns the correct element at the given key, * or null if not present */ public void testGet() { ConcurrentHashMap map = map5(); assertEquals("A", (String)map.get(one)); ConcurrentHashMap empty = new ConcurrentHashMap(); assertNull(map.get("anything")); } /** * isEmpty is true of empty map and false for non-empty */ public void testIsEmpty() { ConcurrentHashMap empty = new ConcurrentHashMap(); ConcurrentHashMap map = map5(); assertTrue(empty.isEmpty()); assertFalse(map.isEmpty()); } /** * keys returns an enumeration containing all the keys from the map */ public void testKeys() { ConcurrentHashMap map = map5(); Enumeration e = map.keys(); int count = 0; while (e.hasMoreElements()) { count++; e.nextElement(); } assertEquals(5, count); } /** * keySet returns a Set containing all the keys */ public void testKeySet() { ConcurrentHashMap map = map5(); Set s = map.keySet(); assertEquals(5, s.size()); assertTrue(s.contains(one)); assertTrue(s.contains(two)); assertTrue(s.contains(three)); assertTrue(s.contains(four)); assertTrue(s.contains(five)); } /** * keySet.toArray returns contains all keys */ public void testKeySetToArray() { ConcurrentHashMap map = map5(); Set s = map.keySet(); Object[] ar = s.toArray(); assertTrue(s.containsAll(Arrays.asList(ar))); assertEquals(5, ar.length); ar[0] = m10; assertFalse(s.containsAll(Arrays.asList(ar))); } /** * Values.toArray contains all values */ public void testValuesToArray() { ConcurrentHashMap map = map5(); Collection v = map.values(); Object[] ar = v.toArray(); ArrayList s = new ArrayList(Arrays.asList(ar)); assertEquals(5, ar.length); assertTrue(s.contains("A")); assertTrue(s.contains("B")); assertTrue(s.contains("C")); assertTrue(s.contains("D")); assertTrue(s.contains("E")); } /** * entrySet.toArray contains all entries */ public void testEntrySetToArray() { ConcurrentHashMap map = map5(); Set s = map.entrySet(); Object[] ar = s.toArray(); assertEquals(5, ar.length); for (int i = 0; i < 5; ++i) { assertTrue(map.containsKey(((Map.Entry)(ar[i])).getKey())); assertTrue(map.containsValue(((Map.Entry)(ar[i])).getValue())); } } /** * values collection contains all values */ public void testValues() { ConcurrentHashMap map = map5(); Collection s = map.values(); assertEquals(5, s.size()); assertTrue(s.contains("A")); assertTrue(s.contains("B")); assertTrue(s.contains("C")); assertTrue(s.contains("D")); assertTrue(s.contains("E")); } /** * entrySet contains all pairs */ public void testEntrySet() { ConcurrentHashMap map = map5(); Set s = map.entrySet(); assertEquals(5, s.size()); Iterator it = s.iterator(); while (it.hasNext()) { Map.Entry e = (Map.Entry) it.next(); assertTrue( (e.getKey().equals(one) && e.getValue().equals("A")) || (e.getKey().equals(two) && e.getValue().equals("B")) || (e.getKey().equals(three) && e.getValue().equals("C")) || (e.getKey().equals(four) && e.getValue().equals("D")) || (e.getKey().equals(five) && e.getValue().equals("E"))); } } /** * putAll adds all key-value pairs from the given map */ public void testPutAll() { ConcurrentHashMap empty = new ConcurrentHashMap(); ConcurrentHashMap map = map5(); empty.putAll(map); assertEquals(5, empty.size()); assertTrue(empty.containsKey(one)); assertTrue(empty.containsKey(two)); assertTrue(empty.containsKey(three)); assertTrue(empty.containsKey(four)); assertTrue(empty.containsKey(five)); } /** * putIfAbsent works when the given key is not present */ public void testPutIfAbsent() { ConcurrentHashMap map = map5(); map.putIfAbsent(six, "Z"); assertTrue(map.containsKey(six)); } /** * putIfAbsent does not add the pair if the key is already present */ public void testPutIfAbsent2() { ConcurrentHashMap map = map5(); assertEquals("A", map.putIfAbsent(one, "Z")); } /** * replace fails when the given key is not present */ public void testReplace() { ConcurrentHashMap map = map5(); assertNull(map.replace(six, "Z")); assertFalse(map.containsKey(six)); } /** * replace succeeds if the key is already present */ public void testReplace2() { ConcurrentHashMap map = map5(); assertNotNull(map.replace(one, "Z")); assertEquals("Z", map.get(one)); } /** * replace value fails when the given key not mapped to expected value */ public void testReplaceValue() { ConcurrentHashMap map = map5(); assertEquals("A", map.get(one)); assertFalse(map.replace(one, "Z", "Z")); assertEquals("A", map.get(one)); } /** * replace value succeeds when the given key mapped to expected value */ public void testReplaceValue2() { ConcurrentHashMap map = map5(); assertEquals("A", map.get(one)); assertTrue(map.replace(one, "A", "Z")); assertEquals("Z", map.get(one)); } /** * remove removes the correct key-value pair from the map */ public void testRemove() { ConcurrentHashMap map = map5(); map.remove(five); assertEquals(4, map.size()); assertFalse(map.containsKey(five)); } /** * remove(key,value) removes only if pair present */ public void testRemove2() { ConcurrentHashMap map = map5(); map.remove(five, "E"); assertEquals(4, map.size()); assertFalse(map.containsKey(five)); map.remove(four, "A"); assertEquals(4, map.size()); assertTrue(map.containsKey(four)); } /** * size returns the correct values */ public void testSize() { ConcurrentHashMap map = map5(); ConcurrentHashMap empty = new ConcurrentHashMap(); assertEquals(0, empty.size()); assertEquals(5, map.size()); } /** * toString contains toString of elements */ public void testToString() { ConcurrentHashMap map = map5(); String s = map.toString(); for (int i = 1; i <= 5; ++i) { assertTrue(s.contains(String.valueOf(i))); } } // Exception tests /** * Cannot create with negative capacity */ public void testConstructor1() { try { new ConcurrentHashMap(-1,0,1); shouldThrow(); } catch (IllegalArgumentException success) {} } /** * Cannot create with negative concurrency level */ public void testConstructor2() { try { new ConcurrentHashMap(1,0,-1); shouldThrow(); } catch (IllegalArgumentException success) {} } /** * Cannot create with only negative capacity */ public void testConstructor3() { try { new ConcurrentHashMap(-1); shouldThrow(); } catch (IllegalArgumentException success) {} } /** * get(null) throws NPE */ public void testGet_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.get(null); shouldThrow(); } catch (NullPointerException success) {} } /** * containsKey(null) throws NPE */ public void testContainsKey_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.containsKey(null); shouldThrow(); } catch (NullPointerException success) {} } /** * containsValue(null) throws NPE */ public void testContainsValue_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.containsValue(null); shouldThrow(); } catch (NullPointerException success) {} } /** * contains(null) throws NPE */ public void testContains_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.contains(null); shouldThrow(); } catch (NullPointerException success) {} } /** * put(null,x) throws NPE */ public void testPut1_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.put(null, "whatever"); shouldThrow(); } catch (NullPointerException success) {} } /** * put(x, null) throws NPE */ public void testPut2_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.put("whatever", null); shouldThrow(); } catch (NullPointerException success) {} } /** * putIfAbsent(null, x) throws NPE */ public void testPutIfAbsent1_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.putIfAbsent(null, "whatever"); shouldThrow(); } catch (NullPointerException success) {} } /** * replace(null, x) throws NPE */ public void testReplace_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.replace(null, "whatever"); shouldThrow(); } catch (NullPointerException success) {} } /** * replace(null, x, y) throws NPE */ public void testReplaceValue_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.replace(null, one, "whatever"); shouldThrow(); } catch (NullPointerException success) {} } /** * putIfAbsent(x, null) throws NPE */ public void testPutIfAbsent2_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.putIfAbsent("whatever", null); shouldThrow(); } catch (NullPointerException success) {} } /** * replace(x, null) throws NPE */ public void testReplace2_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.replace("whatever", null); shouldThrow(); } catch (NullPointerException success) {} } /** * replace(x, null, y) throws NPE */ public void testReplaceValue2_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.replace("whatever", null, "A"); shouldThrow(); } catch (NullPointerException success) {} } /** * replace(x, y, null) throws NPE */ public void testReplaceValue3_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.replace("whatever", one, null); shouldThrow(); } catch (NullPointerException success) {} } /** * remove(null) throws NPE */ public void testRemove1_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.put("sadsdf", "asdads"); c.remove(null); shouldThrow(); } catch (NullPointerException success) {} } /** * remove(null, x) throws NPE */ public void testRemove2_NullPointerException() { try { ConcurrentHashMap c = new ConcurrentHashMap(5); c.put("sadsdf", "asdads"); c.remove(null, "whatever"); shouldThrow(); } catch (NullPointerException success) {} } /** * remove(x, null) returns false */ public void testRemove3() { ConcurrentHashMap c = new ConcurrentHashMap(5); c.put("sadsdf", "asdads"); assertFalse(c.remove("sadsdf", null)); } /** * A deserialized map equals original */ public void testSerialization() throws Exception { Map x = map5(); Map y = serialClone(x); assertNotSame(x, y); assertEquals(x.size(), y.size()); assertEquals(x, y); assertEquals(y, x); } /** * SetValue of an EntrySet entry sets value in the map. */ public void testSetValueWriteThrough() { // Adapted from a bug report by Eric Zoerner ConcurrentHashMap map = new ConcurrentHashMap(2, 5.0f, 1); assertTrue(map.isEmpty()); for (int i = 0; i < 20; i++) map.put(new Integer(i), new Integer(i)); assertFalse(map.isEmpty()); Map.Entry entry1 = (Map.Entry)map.entrySet().iterator().next(); // Unless it happens to be first (in which case remainder of // test is skipped), remove a possibly-colliding key from map // which, under some implementations, may cause entry1 to be // cloned in map if (!entry1.getKey().equals(new Integer(16))) { map.remove(new Integer(16)); entry1.setValue("XYZ"); assertTrue(map.containsValue("XYZ")); // fails if write-through broken } } }