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Comparing jsr166/src/test/tck/ConcurrentHashMapTest.java (file contents):
Revision 1.3 by dl, Sun Sep 14 20:42:40 2003 UTC vs.
Revision 1.41 by jsr166, Thu Jan 15 18:34:19 2015 UTC

#	Line 1 | Line 1
1		/*
2	<	* Written by members of JCP JSR-166 Expert Group and released to the
3	<	* public domain. Use, modify, and redistribute this code in any way
4	<	* without acknowledgement. Other contributors include Andrew Wright,
5	<	* Jeffrey Hayes, Pat Fischer, Mike Judd.
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.
7		*/
8
9	<	import junit.framework.*;
10	<	import java.util.*;
11	<	import java.util.concurrent.*;
9	>	import java.util.ArrayList;
10	>	import java.util.Arrays;
11	>	import java.util.Collection;
12	>	import java.util.Collections;
13		import java.util.Enumeration;
14	<	import java.io.*;
14	>	import java.util.Iterator;
15	>	import java.util.Map;
16	>	import java.util.Random;
17	>	import java.util.Set;
18	>	import java.util.concurrent.ConcurrentHashMap;
19
20	<	public class ConcurrentHashMapTest extends JSR166TestCase{
20	>	import junit.framework.Test;
21	>	import junit.framework.TestSuite;
22	>
23	>	public class ConcurrentHashMapTest extends JSR166TestCase {
24		public static void main(String[] args) {
25	<	junit.textui.TestRunner.run (suite());
25	>	junit.textui.TestRunner.run(suite());
26		}
27		public static Test suite() {
28	<	return new TestSuite(ConcurrentHashMapTest.class);
28	>	return new TestSuite(ConcurrentHashMapTest.class);
29		}
30
31	<	private static ConcurrentHashMap map5() {
32	<	ConcurrentHashMap map = new ConcurrentHashMap(5);
31	>	/**
32	>	* Returns a new map from Integers 1-5 to Strings "A"-"E".
33	>	*/
34	>	private static ConcurrentHashMap<Integer, String> map5() {
35	>	ConcurrentHashMap map = new ConcurrentHashMap<Integer, String>(5);
36		assertTrue(map.isEmpty());
37	<	map.put(one, "A");
38	<	map.put(two, "B");
39	<	map.put(three, "C");
40	<	map.put(four, "D");
41	<	map.put(five, "E");
37	>	map.put(one, "A");
38	>	map.put(two, "B");
39	>	map.put(three, "C");
40	>	map.put(four, "D");
41	>	map.put(five, "E");
42		assertFalse(map.isEmpty());
43		assertEquals(5, map.size());
44	<	return map;
44	>	return map;
45	>	}
46	>
47	>	/** Re-implement Integer.compare for old java versions */
48	>	static int compare(int x, int y) { return x < y ? -1 : x > y ? 1 : 0; }
49	>
50	>	// classes for testing Comparable fallbacks
51	>	static class BI implements Comparable<BI> {
52	>	private final int value;
53	>	BI(int value) { this.value = value; }
54	>	public int compareTo(BI other) {
55	>	return compare(value, other.value);
56	>	}
57	>	public boolean equals(Object x) {
58	>	return (x instanceof BI) && ((BI)x).value == value;
59	>	}
60	>	public int hashCode() { return 42; }
61	>	}
62	>	static class CI extends BI { CI(int value) { super(value); } }
63	>	static class DI extends BI { DI(int value) { super(value); } }
64	>
65	>	static class BS implements Comparable<BS> {
66	>	private final String value;
67	>	BS(String value) { this.value = value; }
68	>	public int compareTo(BS other) {
69	>	return value.compareTo(other.value);
70	>	}
71	>	public boolean equals(Object x) {
72	>	return (x instanceof BS) && value.equals(((BS)x).value);
73	>	}
74	>	public int hashCode() { return 42; }
75	>	}
76	>
77	>	static class LexicographicList<E extends Comparable<E>> extends ArrayList<E>
78	>	implements Comparable<LexicographicList<E>> {
79	>	LexicographicList(Collection<E> c) { super(c); }
80	>	LexicographicList(E e) { super(Collections.singleton(e)); }
81	>	public int compareTo(LexicographicList<E> other) {
82	>	int common = Math.min(size(), other.size());
83	>	int r = 0;
84	>	for (int i = 0; i < common; i++) {
85	>	if ((r = get(i).compareTo(other.get(i))) != 0)
86	>	break;
87	>	}
88	>	if (r == 0)
89	>	r = compare(size(), other.size());
90	>	return r;
91	>	}
92	>	private static final long serialVersionUID = 0;
93	>	}
94	>
95	>	static class CollidingObject {
96	>	final String value;
97	>	CollidingObject(final String value) { this.value = value; }
98	>	public int hashCode() { return this.value.hashCode() & 1; }
99	>	public boolean equals(final Object obj) {
100	>	return (obj instanceof CollidingObject) && ((CollidingObject)obj).value.equals(value);
101	>	}
102	>	}
103	>
104	>	static class ComparableCollidingObject extends CollidingObject implements Comparable<ComparableCollidingObject> {
105	>	ComparableCollidingObject(final String value) { super(value); }
106	>	public int compareTo(final ComparableCollidingObject o) {
107	>	return value.compareTo(o.value);
108	>	}
109		}
110
111		/**
112	<	*   clear  removes all key-element pairs from the map
112	>	* Inserted elements that are subclasses of the same Comparable
113	>	* class are found.
114		*/
115	<	public void testClear(){
116	<	ConcurrentHashMap map = map5();
117	<	map.clear();
118	<	assertEquals(map.size(), 0);
115	>	public void testComparableFamily() {
116	>	int size = 500;         // makes measured test run time -> 60ms
117	>	ConcurrentHashMap<BI, Boolean> m =
118	>	new ConcurrentHashMap<BI, Boolean>();
119	>	for (int i = 0; i < size; i++) {
120	>	assertTrue(m.put(new CI(i), true) == null);
121	>	}
122	>	for (int i = 0; i < size; i++) {
123	>	assertTrue(m.containsKey(new CI(i)));
124	>	assertTrue(m.containsKey(new DI(i)));
125	>	}
126		}
127
128		/**
129	<	*   contains gives the appropriate value
129	>	* Elements of classes with erased generic type parameters based
130	>	* on Comparable can be inserted and found.
131		*/
132	<	public void testContains(){
133	<	ConcurrentHashMap map = map5();
134	<	assertTrue(map.contains("A"));
135	<	assertFalse(map.contains("Z"));
132	>	public void testGenericComparable() {
133	>	int size = 120;         // makes measured test run time -> 60ms
134	>	ConcurrentHashMap<Object, Boolean> m =
135	>	new ConcurrentHashMap<Object, Boolean>();
136	>	for (int i = 0; i < size; i++) {
137	>	BI bi = new BI(i);
138	>	BS bs = new BS(String.valueOf(i));
139	>	LexicographicList<BI> bis = new LexicographicList<BI>(bi);
140	>	LexicographicList<BS> bss = new LexicographicList<BS>(bs);
141	>	assertTrue(m.putIfAbsent(bis, true) == null);
142	>	assertTrue(m.containsKey(bis));
143	>	if (m.putIfAbsent(bss, true) == null)
144	>	assertTrue(m.containsKey(bss));
145	>	assertTrue(m.containsKey(bis));
146	>	}
147	>	for (int i = 0; i < size; i++) {
148	>	assertTrue(m.containsKey(Collections.singletonList(new BI(i))));
149	>	}
150		}
151	<
151	>
152		/**
153	<	*   containsKey gives the appropriate value
153	>	* Elements of non-comparable classes equal to those of classes
154	>	* with erased generic type parameters based on Comparable can be
155	>	* inserted and found.
156	>	*/
157	>	public void testGenericComparable2() {
158	>	int size = 500;         // makes measured test run time -> 60ms
159	>	ConcurrentHashMap<Object, Boolean> m =
160	>	new ConcurrentHashMap<Object, Boolean>();
161	>	for (int i = 0; i < size; i++) {
162	>	m.put(Collections.singletonList(new BI(i)), true);
163	>	}
164	>
165	>	for (int i = 0; i < size; i++) {
166	>	LexicographicList<BI> bis = new LexicographicList<BI>(new BI(i));
167	>	assertTrue(m.containsKey(bis));
168	>	}
169	>	}
170	>
171	>	/**
172	>	* Mixtures of instances of comparable and non-comparable classes
173	>	* can be inserted and found.
174		*/
175	<	public void testContainsKey(){
175	>	public void testMixedComparable() {
176	>	int size = 1200;        // makes measured test run time -> 35ms
177	>	ConcurrentHashMap<Object, Object> map =
178	>	new ConcurrentHashMap<Object, Object>();
179	>	Random rng = new Random();
180	>	for (int i = 0; i < size; i++) {
181	>	Object x;
182	>	switch (rng.nextInt(4)) {
183	>	case 0:
184	>	x = new Object();
185	>	break;
186	>	case 1:
187	>	x = new CollidingObject(Integer.toString(i));
188	>	break;
189	>	default:
190	>	x = new ComparableCollidingObject(Integer.toString(i));
191	>	}
192	>	assertNull(map.put(x, x));
193	>	}
194	>	int count = 0;
195	>	for (Object k : map.keySet()) {
196	>	assertEquals(map.get(k), k);
197	>	++count;
198	>	}
199	>	assertEquals(count, size);
200	>	assertEquals(map.size(), size);
201	>	for (Object k : map.keySet()) {
202	>	assertEquals(map.put(k, k), k);
203	>	}
204	>	}
205	>
206	>	/**
207	>	* clear removes all pairs
208	>	*/
209	>	public void testClear() {
210		ConcurrentHashMap map = map5();
211	<	assertTrue(map.containsKey(one));
212	<	assertFalse(map.containsKey(new Integer(100)));
211	>	map.clear();
212	>	assertEquals(0, map.size());
213	>	}
214	>
215	>	/**
216	>	* Maps with same contents are equal
217	>	*/
218	>	public void testEquals() {
219	>	ConcurrentHashMap map1 = map5();
220	>	ConcurrentHashMap map2 = map5();
221	>	assertEquals(map1, map2);
222	>	assertEquals(map2, map1);
223	>	map1.clear();
224	>	assertFalse(map1.equals(map2));
225	>	assertFalse(map2.equals(map1));
226	>	}
227	>
228	>	/**
229	>	* hashCode() equals sum of each key.hashCode ^ value.hashCode
230	>	*/
231	>	public void testHashCode() {
232	>	ConcurrentHashMap<Integer,String> map = map5();
233	>	int sum = 0;
234	>	for (Map.Entry<Integer,String> e : map.entrySet())
235	>	sum += e.getKey().hashCode() ^ e.getValue().hashCode();
236	>	assertEquals(sum, map.hashCode());
237		}
238
239		/**
240	<	*  Identical to normal contains
240	>	* contains returns true for contained value
241		*/
242	<	public void testContainsValue(){
242	>	public void testContains() {
243		ConcurrentHashMap map = map5();
244	<	assertTrue(map.contains("A"));
244	>	assertTrue(map.contains("A"));
245		assertFalse(map.contains("Z"));
246		}
247
248		/**
249	<	*  tes to verify enumeration returns an enumeration containing the correct elements
249	>	* containsKey returns true for contained key
250		*/
251	<	public void testEnumeration(){
251	>	public void testContainsKey() {
252		ConcurrentHashMap map = map5();
253	<	Enumeration e = map.elements();
254	<	int count = 0;
78	<	while(e.hasMoreElements()){
79	<	count++;
80	<	e.nextElement();
81	<	}
82	<	assertEquals(5, count);
253	>	assertTrue(map.containsKey(one));
254	>	assertFalse(map.containsKey(zero));
255		}
256
257		/**
258	<	*   get returns the correct element at the given index
258	>	* containsValue returns true for held values
259		*/
260	<	public void testGet(){
260	>	public void testContainsValue() {
261		ConcurrentHashMap map = map5();
262	<	assertEquals("A", (String)map.get(one));
262	>	assertTrue(map.containsValue("A"));
263	>	assertFalse(map.containsValue("Z"));
264		}
265
266		/**
267	<	*   get on a nonexistant key returns null
267	>	* enumeration returns an enumeration containing the correct
268	>	* elements
269		*/
270	<	public void testGet2(){
270	>	public void testEnumeration() {
271	>	ConcurrentHashMap map = map5();
272	>	Enumeration e = map.elements();
273	>	int count = 0;
274	>	while (e.hasMoreElements()) {
275	>	count++;
276	>	e.nextElement();
277	>	}
278	>	assertEquals(5, count);
279	>	}
280	>
281	>	/**
282	>	* get returns the correct element at the given key,
283	>	* or null if not present
284	>	*/
285	>	public void testGet() {
286	>	ConcurrentHashMap map = map5();
287	>	assertEquals("A", (String)map.get(one));
288		ConcurrentHashMap empty = new ConcurrentHashMap();
289	<	assertNull(empty.get("anything"));
289	>	assertNull(map.get("anything"));
290		}
291
292		/**
293	<	*  Simple test to verify isEmpty returns the correct value
293	>	* isEmpty is true of empty map and false for non-empty
294		*/
295	<	public void testIsEmpty(){
295	>	public void testIsEmpty() {
296		ConcurrentHashMap empty = new ConcurrentHashMap();
297		ConcurrentHashMap map = map5();
298	<	assertTrue(empty.isEmpty());
298	>	assertTrue(empty.isEmpty());
299		assertFalse(map.isEmpty());
300		}
301
302		/**
303	<	*   keys returns an enumeration containing all the keys from the map
303	>	* keys returns an enumeration containing all the keys from the map
304		*/
305	<	public void testKeys(){
305	>	public void testKeys() {
306		ConcurrentHashMap map = map5();
307	<	Enumeration e = map.keys();
308	<	int count = 0;
309	<	while(e.hasMoreElements()){
310	<	count++;
311	<	e.nextElement();
312	<	}
313	<	assertEquals(5, count);
307	>	Enumeration e = map.keys();
308	>	int count = 0;
309	>	while (e.hasMoreElements()) {
310	>	count++;
311	>	e.nextElement();
312	>	}
313	>	assertEquals(5, count);
314		}
315
316		/**
317	<	*   keySet returns a Set containing all the keys
317	>	* keySet returns a Set containing all the keys
318		*/
319	<	public void testKeySet(){
319	>	public void testKeySet() {
320		ConcurrentHashMap map = map5();
321	<	Set s = map.keySet();
322	<	assertEquals(5, s.size());
323	<	assertTrue(s.contains(one));
324	<	assertTrue(s.contains(two));
325	<	assertTrue(s.contains(three));
326	<	assertTrue(s.contains(four));
327	<	assertTrue(s.contains(five));
321	>	Set s = map.keySet();
322	>	assertEquals(5, s.size());
323	>	assertTrue(s.contains(one));
324	>	assertTrue(s.contains(two));
325	>	assertTrue(s.contains(three));
326	>	assertTrue(s.contains(four));
327	>	assertTrue(s.contains(five));
328		}
329
330	<	public void testValues(){
330	>	/**
331	>	* keySet.toArray returns contains all keys
332	>	*/
333	>	public void testKeySetToArray() {
334	>	ConcurrentHashMap map = map5();
335	>	Set s = map.keySet();
336	>	Object[] ar = s.toArray();
337	>	assertTrue(s.containsAll(Arrays.asList(ar)));
338	>	assertEquals(5, ar.length);
339	>	ar[0] = m10;
340	>	assertFalse(s.containsAll(Arrays.asList(ar)));
341	>	}
342	>
343	>	/**
344	>	* Values.toArray contains all values
345	>	*/
346	>	public void testValuesToArray() {
347	>	ConcurrentHashMap map = map5();
348	>	Collection v = map.values();
349	>	Object[] ar = v.toArray();
350	>	ArrayList s = new ArrayList(Arrays.asList(ar));
351	>	assertEquals(5, ar.length);
352	>	assertTrue(s.contains("A"));
353	>	assertTrue(s.contains("B"));
354	>	assertTrue(s.contains("C"));
355	>	assertTrue(s.contains("D"));
356	>	assertTrue(s.contains("E"));
357	>	}
358	>
359	>	/**
360	>	* entrySet.toArray contains all entries
361	>	*/
362	>	public void testEntrySetToArray() {
363	>	ConcurrentHashMap map = map5();
364	>	Set s = map.entrySet();
365	>	Object[] ar = s.toArray();
366	>	assertEquals(5, ar.length);
367	>	for (int i = 0; i < 5; ++i) {
368	>	assertTrue(map.containsKey(((Map.Entry)(ar[i])).getKey()));
369	>	assertTrue(map.containsValue(((Map.Entry)(ar[i])).getValue()));
370	>	}
371	>	}
372	>
373	>	/**
374	>	* values collection contains all values
375	>	*/
376	>	public void testValues() {
377		ConcurrentHashMap map = map5();
378	<	Collection s = map.values();
379	<	assertEquals(5, s.size());
380	<	assertTrue(s.contains("A"));
381	<	assertTrue(s.contains("B"));
382	<	assertTrue(s.contains("C"));
383	<	assertTrue(s.contains("D"));
384	<	assertTrue(s.contains("E"));
378	>	Collection s = map.values();
379	>	assertEquals(5, s.size());
380	>	assertTrue(s.contains("A"));
381	>	assertTrue(s.contains("B"));
382	>	assertTrue(s.contains("C"));
383	>	assertTrue(s.contains("D"));
384	>	assertTrue(s.contains("E"));
385		}
386
387	<	public void testEntrySet(){
387	>	/**
388	>	* entrySet contains all pairs
389	>	*/
390	>	public void testEntrySet() {
391		ConcurrentHashMap map = map5();
392	<	Set s = map.entrySet();
393	<	assertEquals(5, s.size());
392	>	Set s = map.entrySet();
393	>	assertEquals(5, s.size());
394		Iterator it = s.iterator();
395		while (it.hasNext()) {
396		Map.Entry e = (Map.Entry) it.next();
397	<	assertTrue(
397	>	assertTrue(
398		(e.getKey().equals(one) && e.getValue().equals("A")) ||
399		(e.getKey().equals(two) && e.getValue().equals("B")) ||
400		(e.getKey().equals(three) && e.getValue().equals("C")) ||
#	Line 164 | Line 404 | public class ConcurrentHashMapTest exten
404		}
405
406		/**
407	<	*   putAll  adds all key-value pairs from the given map
407	>	* putAll adds all key-value pairs from the given map
408		*/
409	<	public void testPutAll(){
409	>	public void testPutAll() {
410		ConcurrentHashMap empty = new ConcurrentHashMap();
411		ConcurrentHashMap map = map5();
412	<	empty.putAll(map);
413	<	assertEquals(5, empty.size());
414	<	assertTrue(empty.containsKey(one));
415	<	assertTrue(empty.containsKey(two));
416	<	assertTrue(empty.containsKey(three));
417	<	assertTrue(empty.containsKey(four));
418	<	assertTrue(empty.containsKey(five));
412	>	empty.putAll(map);
413	>	assertEquals(5, empty.size());
414	>	assertTrue(empty.containsKey(one));
415	>	assertTrue(empty.containsKey(two));
416	>	assertTrue(empty.containsKey(three));
417	>	assertTrue(empty.containsKey(four));
418	>	assertTrue(empty.containsKey(five));
419		}
420
421		/**
422	<	*   putIfAbsent works when the given key is not present
422	>	* putIfAbsent works when the given key is not present
423		*/
424	<	public void testPutIfAbsent(){
424	>	public void testPutIfAbsent() {
425		ConcurrentHashMap map = map5();
426	<	map.putIfAbsent(new Integer(6), "Z");
427	<	assertTrue(map.containsKey(new Integer(6)));
426	>	map.putIfAbsent(six, "Z");
427	>	assertTrue(map.containsKey(six));
428		}
429
430		/**
431	<	*   putIfAbsent does not add the pair if the key is already present
431	>	* putIfAbsent does not add the pair if the key is already present
432		*/
433	<	public void testPutIfAbsent2(){
433	>	public void testPutIfAbsent2() {
434		ConcurrentHashMap map = map5();
435		assertEquals("A", map.putIfAbsent(one, "Z"));
436		}
437
438		/**
439	<	*   remove removes the correct key-value pair from the map
439	>	* replace fails when the given key is not present
440		*/
441	<	public void testRemove(){
441	>	public void testReplace() {
442		ConcurrentHashMap map = map5();
443	<	map.remove(five);
444	<	assertEquals(4, map.size());
205	<	assertFalse(map.containsKey(five));
443	>	assertNull(map.replace(six, "Z"));
444	>	assertFalse(map.containsKey(six));
445		}
446
447	<	public void testRemove2(){
447	>	/**
448	>	* replace succeeds if the key is already present
449	>	*/
450	>	public void testReplace2() {
451		ConcurrentHashMap map = map5();
452	<	map.remove(five, "E");
453	<	assertEquals(4, map.size());
454	<	assertFalse(map.containsKey(five));
213	<	map.remove(four, "A");
214	<	assertEquals(4, map.size());
215	<	assertTrue(map.containsKey(four));
452	>	assertNotNull(map.replace(one, "Z"));
453	>	assertEquals("Z", map.get(one));
454	>	}
455
456	+	/**
457	+	* replace value fails when the given key not mapped to expected value
458	+	*/
459	+	public void testReplaceValue() {
460	+	ConcurrentHashMap map = map5();
461	+	assertEquals("A", map.get(one));
462	+	assertFalse(map.replace(one, "Z", "Z"));
463	+	assertEquals("A", map.get(one));
464	+	}
465	+
466	+	/**
467	+	* replace value succeeds when the given key mapped to expected value
468	+	*/
469	+	public void testReplaceValue2() {
470	+	ConcurrentHashMap map = map5();
471	+	assertEquals("A", map.get(one));
472	+	assertTrue(map.replace(one, "A", "Z"));
473	+	assertEquals("Z", map.get(one));
474		}
475
476		/**
477	<	*   size returns the correct values
477	>	* remove removes the correct key-value pair from the map
478		*/
479	<	public void testSize(){
479	>	public void testRemove() {
480	>	ConcurrentHashMap map = map5();
481	>	map.remove(five);
482	>	assertEquals(4, map.size());
483	>	assertFalse(map.containsKey(five));
484	>	}
485	>
486	>	/**
487	>	* remove(key,value) removes only if pair present
488	>	*/
489	>	public void testRemove2() {
490	>	ConcurrentHashMap map = map5();
491	>	map.remove(five, "E");
492	>	assertEquals(4, map.size());
493	>	assertFalse(map.containsKey(five));
494	>	map.remove(four, "A");
495	>	assertEquals(4, map.size());
496	>	assertTrue(map.containsKey(four));
497	>	}
498	>
499	>	/**
500	>	* size returns the correct values
501	>	*/
502	>	public void testSize() {
503		ConcurrentHashMap map = map5();
504		ConcurrentHashMap empty = new ConcurrentHashMap();
505	<	assertEquals(0, empty.size());
506	<	assertEquals(5, map.size());
505	>	assertEquals(0, empty.size());
506	>	assertEquals(5, map.size());
507		}
508
509	<	public void testToString(){
509	>	/**
510	>	* toString contains toString of elements
511	>	*/
512	>	public void testToString() {
513		ConcurrentHashMap map = map5();
514		String s = map.toString();
515		for (int i = 1; i <= 5; ++i) {
516	<	assertTrue(s.indexOf(String.valueOf(i)) >= 0);
516	>	assertTrue(s.contains(String.valueOf(i)));
517		}
518	<	}
518	>	}
519
520		// Exception tests
238	–
239	–	public void testConstructor1(){
240	–	try{
241	–	new ConcurrentHashMap(-1,0,1);
242	–	fail("ConcurrentHashMap(int, float, int) should throw Illegal Argument Exception");
243	–	}catch(IllegalArgumentException e){}
244	–	}
245	–
246	–	public void testConstructor2(){
247	–	try{
248	–	new ConcurrentHashMap(1,0,-1);
249	–	fail("ConcurrentHashMap(int, float, int) should throw Illegal Argument Exception");
250	–	}catch(IllegalArgumentException e){}
251	–	}
521
522	<	public void testConstructor3(){
523	<	try{
522	>	/**
523	>	* Cannot create with only negative capacity
524	>	*/
525	>	public void testConstructor1() {
526	>	try {
527		new ConcurrentHashMap(-1);
528	<	fail("ConcurrentHashMap(int) should throw Illegal Argument Exception");
529	<	}catch(IllegalArgumentException e){}
528	>	shouldThrow();
529	>	} catch (IllegalArgumentException success) {}
530	>	}
531	>
532	>	/**
533	>	* Constructor (initialCapacity, loadFactor) throws
534	>	* IllegalArgumentException if either argument is negative
535	>	*/
536	>	public void testConstructor2() {
537	>	try {
538	>	new ConcurrentHashMap(-1, .75f);
539	>	shouldThrow();
540	>	} catch (IllegalArgumentException e) {}
541	>
542	>	try {
543	>	new ConcurrentHashMap(16, -1);
544	>	shouldThrow();
545	>	} catch (IllegalArgumentException e) {}
546	>	}
547	>
548	>	/**
549	>	* Constructor (initialCapacity, loadFactor, concurrencyLevel)
550	>	* throws IllegalArgumentException if any argument is negative
551	>	*/
552	>	public void testConstructor3() {
553	>	try {
554	>	new ConcurrentHashMap(-1, .75f, 1);
555	>	shouldThrow();
556	>	} catch (IllegalArgumentException e) {}
557	>
558	>	try {
559	>	new ConcurrentHashMap(16, -1, 1);
560	>	shouldThrow();
561	>	} catch (IllegalArgumentException e) {}
562	>
563	>	try {
564	>	new ConcurrentHashMap(16, .75f, -1);
565	>	shouldThrow();
566	>	} catch (IllegalArgumentException e) {}
567	>	}
568	>
569	>	/**
570	>	* ConcurrentHashMap(map) throws NullPointerException if the given
571	>	* map is null
572	>	*/
573	>	public void testConstructor4() {
574	>	try {
575	>	new ConcurrentHashMap(null);
576	>	shouldThrow();
577	>	} catch (NullPointerException e) {}
578		}
579
580	<	public void testGet_NullPointerException(){
581	<	try{
580	>	/**
581	>	* ConcurrentHashMap(map) creates a new map with the same mappings
582	>	* as the given map
583	>	*/
584	>	public void testConstructor5() {
585	>	ConcurrentHashMap map1 = map5();
586	>	ConcurrentHashMap map2 = new ConcurrentHashMap(map5());
587	>	assertTrue(map2.equals(map1));
588	>	map2.put(one, "F");
589	>	assertFalse(map2.equals(map1));
590	>	}
591	>
592	>	/**
593	>	* get(null) throws NPE
594	>	*/
595	>	public void testGet_NullPointerException() {
596	>	try {
597		ConcurrentHashMap c = new ConcurrentHashMap(5);
598		c.get(null);
599	<	fail("ConcurrentHashMap - Object get(Object) should throw Null Pointer exception");
600	<	}catch(NullPointerException e){}
599	>	shouldThrow();
600	>	} catch (NullPointerException success) {}
601		}
602
603	<	public void testContainsKey_NullPointerException(){
604	<	try{
603	>	/**
604	>	* containsKey(null) throws NPE
605	>	*/
606	>	public void testContainsKey_NullPointerException() {
607	>	try {
608		ConcurrentHashMap c = new ConcurrentHashMap(5);
609		c.containsKey(null);
610	<	fail("ConcurrenthashMap - boolean containsKey(Object) should throw Null Pointer exception");
611	<	}catch(NullPointerException e){}
610	>	shouldThrow();
611	>	} catch (NullPointerException success) {}
612		}
613
614	<	public void testContainsValue_NullPointerException(){
615	<	try{
614	>	/**
615	>	* containsValue(null) throws NPE
616	>	*/
617	>	public void testContainsValue_NullPointerException() {
618	>	try {
619		ConcurrentHashMap c = new ConcurrentHashMap(5);
620		c.containsValue(null);
621	<	fail("ConcurrentHashMap - boolean containsValue(Object) should throw Null Pointer exception");
622	<	}catch(NullPointerException e){}
621	>	shouldThrow();
622	>	} catch (NullPointerException success) {}
623		}
624
625	<	public void testContains_NullPointerException(){
626	<	try{
625	>	/**
626	>	* contains(null) throws NPE
627	>	*/
628	>	public void testContains_NullPointerException() {
629	>	try {
630		ConcurrentHashMap c = new ConcurrentHashMap(5);
631		c.contains(null);
632	<	fail("ConcurrentHashMap - boolean contains(Object) should throw Null Pointer exception");
633	<	}catch(NullPointerException e){}
632	>	shouldThrow();
633	>	} catch (NullPointerException success) {}
634		}
635
636	<	public void testPut1_NullPointerException(){
637	<	try{
636	>	/**
637	>	* put(null,x) throws NPE
638	>	*/
639	>	public void testPut1_NullPointerException() {
640	>	try {
641		ConcurrentHashMap c = new ConcurrentHashMap(5);
642		c.put(null, "whatever");
643	<	fail("ConcurrentHashMap - Object put(Object, Object) should throw Null Pointer exception");
644	<	}catch(NullPointerException e){}
643	>	shouldThrow();
644	>	} catch (NullPointerException success) {}
645		}
646
647	<	public void testPut2_NullPointerException(){
648	<	try{
647	>	/**
648	>	* put(x, null) throws NPE
649	>	*/
650	>	public void testPut2_NullPointerException() {
651	>	try {
652		ConcurrentHashMap c = new ConcurrentHashMap(5);
653		c.put("whatever", null);
654	<	fail("ConcurrentHashMap - Object put(Object, Object) should throw Null Pointer exception");
655	<	}catch(NullPointerException e){}
654	>	shouldThrow();
655	>	} catch (NullPointerException success) {}
656		}
657
658	<	public void testPutIfAbsent1_NullPointerException(){
659	<	try{
658	>	/**
659	>	* putIfAbsent(null, x) throws NPE
660	>	*/
661	>	public void testPutIfAbsent1_NullPointerException() {
662	>	try {
663		ConcurrentHashMap c = new ConcurrentHashMap(5);
664		c.putIfAbsent(null, "whatever");
665	<	fail("ConcurrentHashMap - Object putIfAbsent(Object, Object) should throw Null Pointer exception");
666	<	}catch(NullPointerException e){}
665	>	shouldThrow();
666	>	} catch (NullPointerException success) {}
667		}
668
669	<	public void testPutIfAbsent2_NullPointerException(){
670	<	try{
669	>	/**
670	>	* replace(null, x) throws NPE
671	>	*/
672	>	public void testReplace_NullPointerException() {
673	>	try {
674	>	ConcurrentHashMap c = new ConcurrentHashMap(5);
675	>	c.replace(null, "whatever");
676	>	shouldThrow();
677	>	} catch (NullPointerException success) {}
678	>	}
679	>
680	>	/**
681	>	* replace(null, x, y) throws NPE
682	>	*/
683	>	public void testReplaceValue_NullPointerException() {
684	>	try {
685	>	ConcurrentHashMap c = new ConcurrentHashMap(5);
686	>	c.replace(null, one, "whatever");
687	>	shouldThrow();
688	>	} catch (NullPointerException success) {}
689	>	}
690	>
691	>	/**
692	>	* putIfAbsent(x, null) throws NPE
693	>	*/
694	>	public void testPutIfAbsent2_NullPointerException() {
695	>	try {
696		ConcurrentHashMap c = new ConcurrentHashMap(5);
697		c.putIfAbsent("whatever", null);
698	<	fail("COncurrentHashMap - Object putIfAbsent(Object, Object) should throw Null Pointer exception");
699	<	}catch(NullPointerException e){}
698	>	shouldThrow();
699	>	} catch (NullPointerException success) {}
700	>	}
701	>
702	>	/**
703	>	* replace(x, null) throws NPE
704	>	*/
705	>	public void testReplace2_NullPointerException() {
706	>	try {
707	>	ConcurrentHashMap c = new ConcurrentHashMap(5);
708	>	c.replace("whatever", null);
709	>	shouldThrow();
710	>	} catch (NullPointerException success) {}
711	>	}
712	>
713	>	/**
714	>	* replace(x, null, y) throws NPE
715	>	*/
716	>	public void testReplaceValue2_NullPointerException() {
717	>	try {
718	>	ConcurrentHashMap c = new ConcurrentHashMap(5);
719	>	c.replace("whatever", null, "A");
720	>	shouldThrow();
721	>	} catch (NullPointerException success) {}
722		}
723
724	+	/**
725	+	* replace(x, y, null) throws NPE
726	+	*/
727	+	public void testReplaceValue3_NullPointerException() {
728	+	try {
729	+	ConcurrentHashMap c = new ConcurrentHashMap(5);
730	+	c.replace("whatever", one, null);
731	+	shouldThrow();
732	+	} catch (NullPointerException success) {}
733	+	}
734
735	<	public void testRemove1_NullPointerException(){
736	<	try{
735	>	/**
736	>	* remove(null) throws NPE
737	>	*/
738	>	public void testRemove1_NullPointerException() {
739	>	try {
740		ConcurrentHashMap c = new ConcurrentHashMap(5);
741		c.put("sadsdf", "asdads");
742		c.remove(null);
743	<	fail("ConcurrentHashMap - Object remove(Object) should throw Null pointer exceptione");
744	<	}catch(NullPointerException e){}
743	>	shouldThrow();
744	>	} catch (NullPointerException success) {}
745		}
746
747	<	public void testRemove2_NullPointerException(){
748	<	try{
747	>	/**
748	>	* remove(null, x) throws NPE
749	>	*/
750	>	public void testRemove2_NullPointerException() {
751	>	try {
752		ConcurrentHashMap c = new ConcurrentHashMap(5);
753		c.put("sadsdf", "asdads");
754		c.remove(null, "whatever");
755	<	fail("ConcurrentHashMap - Object remove(Object, Object) should throw Null pointer exceptione");
756	<	}catch(NullPointerException e){}
755	>	shouldThrow();
756	>	} catch (NullPointerException success) {}
757		}
758
759	<	public void testSerialization() {
760	<	ConcurrentHashMap q = map5();
759	>	/**
760	>	* remove(x, null) returns false
761	>	*/
762	>	public void testRemove3() {
763	>	ConcurrentHashMap c = new ConcurrentHashMap(5);
764	>	c.put("sadsdf", "asdads");
765	>	assertFalse(c.remove("sadsdf", null));
766	>	}
767
768	<	try {
769	<	ByteArrayOutputStream bout = new ByteArrayOutputStream(10000);
770	<	ObjectOutputStream out = new ObjectOutputStream(new BufferedOutputStream(bout));
771	<	out.writeObject(q);
772	<	out.close();
768	>	/**
769	>	* A deserialized map equals original
770	>	*/
771	>	public void testSerialization() throws Exception {
772	>	Map x = map5();
773	>	Map y = serialClone(x);
774
775	<	ByteArrayInputStream bin = new ByteArrayInputStream(bout.toByteArray());
776	<	ObjectInputStream in = new ObjectInputStream(new BufferedInputStream(bin));
777	<	ConcurrentHashMap r = (ConcurrentHashMap)in.readObject();
778	<	assertEquals(q.size(), r.size());
779	<	assertTrue(q.equals(r));
780	<	assertTrue(r.equals(q));
781	<	} catch(Exception e){
782	<	e.printStackTrace();
783	<	fail("unexpected exception");
775	>	assertNotSame(x, y);
776	>	assertEquals(x.size(), y.size());
777	>	assertEquals(x, y);
778	>	assertEquals(y, x);
779	>	}
780	>
781	>	/**
782	>	* SetValue of an EntrySet entry sets value in the map.
783	>	*/
784	>	public void testSetValueWriteThrough() {
785	>	// Adapted from a bug report by Eric Zoerner
786	>	ConcurrentHashMap map = new ConcurrentHashMap(2, 5.0f, 1);
787	>	assertTrue(map.isEmpty());
788	>	for (int i = 0; i < 20; i++)
789	>	map.put(new Integer(i), new Integer(i));
790	>	assertFalse(map.isEmpty());
791	>	Map.Entry entry1 = (Map.Entry)map.entrySet().iterator().next();
792	>	// Unless it happens to be first (in which case remainder of
793	>	// test is skipped), remove a possibly-colliding key from map
794	>	// which, under some implementations, may cause entry1 to be
795	>	// cloned in map
796	>	if (!entry1.getKey().equals(new Integer(16))) {
797	>	map.remove(new Integer(16));
798	>	entry1.setValue("XYZ");
799	>	assertTrue(map.containsValue("XYZ")); // fails if write-through broken
800		}
801		}
802
364	–
803		}

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