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Comparing jsr166/src/test/tck/CopyOnWriteArrayListTest.java (file contents):
Revision 1.8 by jsr166, Mon Nov 2 20:28:31 2009 UTC vs.
Revision 1.31 by jsr166, Wed Dec 31 19:05:42 2014 UTC

#	Line 1 | Line 1
1		/*
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/licenses/publicdomain
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.*;
12	<	import java.io.*;
9	>	import java.util.ArrayList;
10	>	import java.util.Arrays;
11	>	import java.util.Collection;
12	>	import java.util.Collections;
13	>	import java.util.Iterator;
14	>	import java.util.LinkedList;
15	>	import java.util.List;
16	>	import java.util.ListIterator;
17	>	import java.util.NoSuchElementException;
18	>	import java.util.Vector;
19	>	import java.util.concurrent.CopyOnWriteArrayList;
20
21	<	public class CopyOnWriteArrayListTest extends JSR166TestCase{
21	>	import junit.framework.Test;
22	>	import junit.framework.TestSuite;
23	>
24	>	public class CopyOnWriteArrayListTest extends JSR166TestCase {
25
26		public static void main(String[] args) {
27	<	junit.textui.TestRunner.run (suite());
27	>	junit.textui.TestRunner.run(suite());
28		}
29
30		public static Test suite() {
31	<	return new TestSuite(CopyOnWriteArrayListTest.class);
31	>	return new TestSuite(CopyOnWriteArrayListTest.class);
32		}
33
34	<	static CopyOnWriteArrayList populatedArray(int n){
35	<	CopyOnWriteArrayList a = new CopyOnWriteArrayList();
34	>	static CopyOnWriteArrayList<Integer> populatedArray(int n) {
35	>	CopyOnWriteArrayList<Integer> a = new CopyOnWriteArrayList<Integer>();
36		assertTrue(a.isEmpty());
37	<	for (int i = 0; i < n; ++i)
38	<	a.add(new Integer(i));
37	>	for (int i = 0; i < n; i++)
38	>	a.add(i);
39		assertFalse(a.isEmpty());
40		assertEquals(n, a.size());
41		return a;
42		}
43
44	+	static CopyOnWriteArrayList<Integer> populatedArray(Integer[] elements) {
45	+	CopyOnWriteArrayList<Integer> a = new CopyOnWriteArrayList<Integer>();
46	+	assertTrue(a.isEmpty());
47	+	for (int i = 0; i < elements.length; i++)
48	+	a.add(elements[i]);
49	+	assertFalse(a.isEmpty());
50	+	assertEquals(elements.length, a.size());
51	+	return a;
52	+	}
53
54		/**
55		* a new list is empty
56		*/
57		public void testConstructor() {
58	<	CopyOnWriteArrayList a = new CopyOnWriteArrayList();
58	>	CopyOnWriteArrayList a = new CopyOnWriteArrayList();
59		assertTrue(a.isEmpty());
60		}
61
#	Line 47 | Line 66 | public class CopyOnWriteArrayListTest ex
66		Integer[] ints = new Integer[SIZE];
67		for (int i = 0; i < SIZE-1; ++i)
68		ints[i] = new Integer(i);
69	<	CopyOnWriteArrayList a = new CopyOnWriteArrayList(ints);
69	>	CopyOnWriteArrayList a = new CopyOnWriteArrayList(ints);
70		for (int i = 0; i < SIZE; ++i)
71		assertEquals(ints[i], a.get(i));
72		}
#	Line 59 | Line 78 | public class CopyOnWriteArrayListTest ex
78		Integer[] ints = new Integer[SIZE];
79		for (int i = 0; i < SIZE-1; ++i)
80		ints[i] = new Integer(i);
81	<	CopyOnWriteArrayList a = new CopyOnWriteArrayList(Arrays.asList(ints));
81	>	CopyOnWriteArrayList a = new CopyOnWriteArrayList(Arrays.asList(ints));
82		for (int i = 0; i < SIZE; ++i)
83		assertEquals(ints[i], a.get(i));
84		}
85
67	–
86		/**
87	<	*   addAll  adds each element from the given collection
87	>	* addAll adds each element from the given collection
88		*/
89		public void testAddAll() {
90	<	CopyOnWriteArrayList full = populatedArray(3);
91	<	Vector v = new Vector();
92	<	v.add(three);
93	<	v.add(four);
94	<	v.add(five);
95	<	full.addAll(v);
96	<	assertEquals(6, full.size());
90	>	CopyOnWriteArrayList full = populatedArray(3);
91	>	Vector v = new Vector();
92	>	v.add(three);
93	>	v.add(four);
94	>	v.add(five);
95	>	full.addAll(v);
96	>	assertEquals(6, full.size());
97		}
98
99		/**
100	<	*   addAllAbsent adds each element from the given collection that did not
101	<	*  already exist in the List
100	>	* addAllAbsent adds each element from the given collection that did not
101	>	* already exist in the List
102		*/
103		public void testAddAllAbsent() {
104	<	CopyOnWriteArrayList full = populatedArray(3);
105	<	Vector v = new Vector();
106	<	v.add(three);
107	<	v.add(four);
108	<	v.add(one); // will not add this element
109	<	full.addAllAbsent(v);
110	<	assertEquals(5, full.size());
104	>	CopyOnWriteArrayList full = populatedArray(3);
105	>	Vector v = new Vector();
106	>	v.add(three);
107	>	v.add(four);
108	>	v.add(one); // will not add this element
109	>	full.addAllAbsent(v);
110	>	assertEquals(5, full.size());
111		}
112
113		/**
114	<	*   addIfAbsent will not add the element if it already exists in the list
114	>	* addIfAbsent will not add the element if it already exists in the list
115		*/
116		public void testAddIfAbsent() {
117	<	CopyOnWriteArrayList full = populatedArray(SIZE);
118	<	full.addIfAbsent(one);
119	<	assertEquals(SIZE, full.size());
117	>	CopyOnWriteArrayList full = populatedArray(SIZE);
118	>	full.addIfAbsent(one);
119	>	assertEquals(SIZE, full.size());
120		}
121
122		/**
123	<	*   addIfAbsent adds the element when it does not exist in the list
123	>	* addIfAbsent adds the element when it does not exist in the list
124		*/
125		public void testAddIfAbsent2() {
126	<	CopyOnWriteArrayList full = populatedArray(SIZE);
126	>	CopyOnWriteArrayList full = populatedArray(SIZE);
127		full.addIfAbsent(three);
128		assertTrue(full.contains(three));
129		}
130
131		/**
132	<	*   clear removes all elements from the list
132	>	* clear removes all elements from the list
133		*/
134		public void testClear() {
135	<	CopyOnWriteArrayList full = populatedArray(SIZE);
136	<	full.clear();
137	<	assertEquals(0, full.size());
135	>	CopyOnWriteArrayList full = populatedArray(SIZE);
136	>	full.clear();
137	>	assertEquals(0, full.size());
138		}
139
122	–
140		/**
141	<	*  Cloned list is equal
141	>	* Cloned list is equal
142		*/
143		public void testClone() {
144	<	CopyOnWriteArrayList l1 = populatedArray(SIZE);
145	<	CopyOnWriteArrayList l2 = (CopyOnWriteArrayList)(l1.clone());
144	>	CopyOnWriteArrayList l1 = populatedArray(SIZE);
145	>	CopyOnWriteArrayList l2 = (CopyOnWriteArrayList)(l1.clone());
146		assertEquals(l1, l2);
147	<	l1.clear();
147	>	l1.clear();
148		assertFalse(l1.equals(l2));
149		}
150
151		/**
152	<	*   contains is true for added elements
152	>	* contains is true for added elements
153		*/
154		public void testContains() {
155	<	CopyOnWriteArrayList full = populatedArray(3);
156	<	assertTrue(full.contains(one));
157	<	assertFalse(full.contains(five));
155	>	CopyOnWriteArrayList full = populatedArray(3);
156	>	assertTrue(full.contains(one));
157	>	assertFalse(full.contains(five));
158		}
159
160		/**
161		* adding at an index places it in the indicated index
162		*/
163		public void testAddIndex() {
164	<	CopyOnWriteArrayList full = populatedArray(3);
164	>	CopyOnWriteArrayList full = populatedArray(3);
165		full.add(0, m1);
166		assertEquals(4, full.size());
167		assertEquals(m1, full.get(0));
#	Line 160 | Line 177 | public class CopyOnWriteArrayListTest ex
177		* lists with same elements are equal and have same hashCode
178		*/
179		public void testEquals() {
180	<	CopyOnWriteArrayList a = populatedArray(3);
181	<	CopyOnWriteArrayList b = populatedArray(3);
180	>	CopyOnWriteArrayList a = populatedArray(3);
181	>	CopyOnWriteArrayList b = populatedArray(3);
182		assertTrue(a.equals(b));
183		assertTrue(b.equals(a));
184		assertEquals(a.hashCode(), b.hashCode());
#	Line 174 | Line 191 | public class CopyOnWriteArrayListTest ex
191		assertEquals(a.hashCode(), b.hashCode());
192		}
193
177	–
194		/**
195	<	*   containsAll returns true for collection with subset of elements
195	>	* containsAll returns true for collection with subset of elements
196		*/
197		public void testContainsAll() {
198	<	CopyOnWriteArrayList full = populatedArray(3);
199	<	Vector v = new Vector();
200	<	v.add(one);
201	<	v.add(two);
202	<	assertTrue(full.containsAll(v));
203	<	v.add(six);
204	<	assertFalse(full.containsAll(v));
198	>	CopyOnWriteArrayList full = populatedArray(3);
199	>	Vector v = new Vector();
200	>	v.add(one);
201	>	v.add(two);
202	>	assertTrue(full.containsAll(v));
203	>	v.add(six);
204	>	assertFalse(full.containsAll(v));
205		}
206
207		/**
208	<	*   get returns the  value at the given index
208	>	* get returns the value at the given index
209		*/
210		public void testGet() {
211	<	CopyOnWriteArrayList full = populatedArray(3);
212	<	assertEquals(0, ((Integer)full.get(0)).intValue());
211	>	CopyOnWriteArrayList full = populatedArray(3);
212	>	assertEquals(0, full.get(0));
213		}
214
215		/**
216	<	*   indexOf gives the index for the given object
216	>	* indexOf gives the index for the given object
217		*/
218		public void testIndexOf() {
219	<	CopyOnWriteArrayList full = populatedArray(3);
220	<	assertEquals(1, full.indexOf(one));
221	<	assertEquals(-1, full.indexOf("puppies"));
219	>	CopyOnWriteArrayList full = populatedArray(3);
220	>	assertEquals(1, full.indexOf(one));
221	>	assertEquals(-1, full.indexOf("puppies"));
222		}
223
224		/**
225	<	*   indexOf gives the index based on the given index
226	<	*  at which to start searching
225	>	* indexOf gives the index based on the given index
226	>	* at which to start searching
227		*/
228		public void testIndexOf2() {
229	<	CopyOnWriteArrayList full = populatedArray(3);
230	<	assertEquals(1, full.indexOf(one, 0));
231	<	assertEquals(-1, full.indexOf(one, 2));
229	>	CopyOnWriteArrayList full = populatedArray(3);
230	>	assertEquals(1, full.indexOf(one, 0));
231	>	assertEquals(-1, full.indexOf(one, 2));
232		}
233
234		/**
235	<	*   isEmpty returns true when empty, else false
235	>	* isEmpty returns true when empty, else false
236		*/
237		public void testIsEmpty() {
238	<	CopyOnWriteArrayList empty = new CopyOnWriteArrayList();
239	<	CopyOnWriteArrayList full = populatedArray(SIZE);
240	<	assertTrue(empty.isEmpty());
241	<	assertFalse(full.isEmpty());
238	>	CopyOnWriteArrayList empty = new CopyOnWriteArrayList();
239	>	CopyOnWriteArrayList full = populatedArray(SIZE);
240	>	assertTrue(empty.isEmpty());
241	>	assertFalse(full.isEmpty());
242		}
243
244		/**
245	<	*   iterator() returns an iterator containing the elements of the list
245	>	* iterator() returns an iterator containing the elements of the
246	>	* list in insertion order
247		*/
248		public void testIterator() {
249	<	CopyOnWriteArrayList full = populatedArray(SIZE);
250	<	Iterator i = full.iterator();
251	<	int j;
252	<	for(j = 0; i.hasNext(); j++)
253	<	assertEquals(j, ((Integer)i.next()).intValue());
254	<	assertEquals(SIZE, j);
249	>	Collection empty = new CopyOnWriteArrayList();
250	>	assertFalse(empty.iterator().hasNext());
251	>	try {
252	>	empty.iterator().next();
253	>	shouldThrow();
254	>	} catch (NoSuchElementException success) {}
255	>
256	>	Integer[] elements = new Integer[SIZE];
257	>	for (int i = 0; i < SIZE; i++)
258	>	elements[i] = i;
259	>	Collections.shuffle(Arrays.asList(elements));
260	>	Collection<Integer> full = populatedArray(elements);
261	>
262	>	Iterator it = full.iterator();
263	>	for (int j = 0; j < SIZE; j++) {
264	>	assertTrue(it.hasNext());
265	>	assertEquals(elements[j], it.next());
266	>	}
267	>	assertFalse(it.hasNext());
268	>	try {
269	>	it.next();
270	>	shouldThrow();
271	>	} catch (NoSuchElementException success) {}
272		}
273
274		/**
275		* iterator.remove throws UnsupportedOperationException
276		*/
277	<	public void testIteratorRemove () {
278	<	CopyOnWriteArrayList full = populatedArray(SIZE);
277	>	public void testIteratorRemove() {
278	>	CopyOnWriteArrayList full = populatedArray(SIZE);
279		Iterator it = full.iterator();
280		it.next();
281		try {
282		it.remove();
283		shouldThrow();
284	<	}
251	<	catch (UnsupportedOperationException success) {}
284	>	} catch (UnsupportedOperationException success) {}
285		}
286
287		/**
288		* toString contains toString of elements
289		*/
290		public void testToString() {
291	<	CopyOnWriteArrayList full = populatedArray(3);
291	>	assertEquals("[]", new CopyOnWriteArrayList().toString());
292	>	CopyOnWriteArrayList full = populatedArray(3);
293		String s = full.toString();
294	<	for (int i = 0; i < 3; ++i) {
295	<	assertTrue(s.indexOf(String.valueOf(i)) >= 0);
296	<	}
294	>	for (int i = 0; i < 3; ++i)
295	>	assertTrue(s.contains(String.valueOf(i)));
296	>	assertEquals(new ArrayList(full).toString(),
297	>	full.toString());
298		}
299
300		/**
301	<	*   lastIndexOf returns the index for the given object
301	>	* lastIndexOf returns the index for the given object
302		*/
303		public void testLastIndexOf1() {
304	<	CopyOnWriteArrayList full = populatedArray(3);
305	<	full.add(one);
306	<	full.add(three);
307	<	assertEquals(3, full.lastIndexOf(one));
308	<	assertEquals(-1, full.lastIndexOf(six));
304	>	CopyOnWriteArrayList full = populatedArray(3);
305	>	full.add(one);
306	>	full.add(three);
307	>	assertEquals(3, full.lastIndexOf(one));
308	>	assertEquals(-1, full.lastIndexOf(six));
309		}
310
311		/**
312	<	*   lastIndexOf returns the index from the given starting point
312	>	* lastIndexOf returns the index from the given starting point
313		*/
314	<	public void testlastIndexOf2() {
315	<	CopyOnWriteArrayList full = populatedArray(3);
316	<	full.add(one);
317	<	full.add(three);
318	<	assertEquals(3, full.lastIndexOf(one, 4));
319	<	assertEquals(-1, full.lastIndexOf(three, 3));
314	>	public void testLastIndexOf2() {
315	>	CopyOnWriteArrayList full = populatedArray(3);
316	>	full.add(one);
317	>	full.add(three);
318	>	assertEquals(3, full.lastIndexOf(one, 4));
319	>	assertEquals(-1, full.lastIndexOf(three, 3));
320		}
321
322		/**
323	<	*  listIterator traverses all elements
323	>	* listIterator traverses all elements
324		*/
325		public void testListIterator1() {
326	<	CopyOnWriteArrayList full = populatedArray(SIZE);
327	<	ListIterator i = full.listIterator();
328	<	int j;
329	<	for(j = 0; i.hasNext(); j++)
330	<	assertEquals(j, ((Integer)i.next()).intValue());
331	<	assertEquals(SIZE, j);
326	>	CopyOnWriteArrayList full = populatedArray(SIZE);
327	>	ListIterator i = full.listIterator();
328	>	int j;
329	>	for (j = 0; i.hasNext(); j++)
330	>	assertEquals(j, i.next());
331	>	assertEquals(SIZE, j);
332		}
333
334		/**
335	<	*  listIterator only returns those elements after the given index
335	>	* listIterator only returns those elements after the given index
336		*/
337		public void testListIterator2() {
338	<	CopyOnWriteArrayList full = populatedArray(3);
339	<	ListIterator i = full.listIterator(1);
340	<	int j;
341	<	for(j = 0; i.hasNext(); j++)
342	<	assertEquals(j+1, ((Integer)i.next()).intValue());
343	<	assertEquals(2, j);
338	>	CopyOnWriteArrayList full = populatedArray(3);
339	>	ListIterator i = full.listIterator(1);
340	>	int j;
341	>	for (j = 0; i.hasNext(); j++)
342	>	assertEquals(j+1, i.next());
343	>	assertEquals(2, j);
344	>	}
345	>
346	>	/**
347	>	* remove(int) removes and returns the object at the given index
348	>	*/
349	>	public void testRemove_int() {
350	>	int SIZE = 3;
351	>	for (int i = 0; i < SIZE; i++) {
352	>	CopyOnWriteArrayList full = populatedArray(SIZE);
353	>	assertEquals(i, full.remove(i));
354	>	assertEquals(SIZE - 1, full.size());
355	>	assertFalse(full.contains(new Integer(i)));
356	>	}
357		}
358
359		/**
360	<	*   remove  removes and returns the object at the given index
360	>	* remove(Object) removes the object if found and returns true
361		*/
362	<	public void testRemove() {
363	<	CopyOnWriteArrayList full = populatedArray(3);
364	<	assertEquals(two, full.remove(2));
365	<	assertEquals(2, full.size());
362	>	public void testRemove_Object() {
363	>	int SIZE = 3;
364	>	for (int i = 0; i < SIZE; i++) {
365	>	CopyOnWriteArrayList full = populatedArray(SIZE);
366	>	assertFalse(full.remove(new Integer(-42)));
367	>	assertTrue(full.remove(new Integer(i)));
368	>	assertEquals(SIZE - 1, full.size());
369	>	assertFalse(full.contains(new Integer(i)));
370	>	}
371	>	CopyOnWriteArrayList x = new CopyOnWriteArrayList(Arrays.asList(4, 5, 6));
372	>	assertTrue(x.remove(new Integer(6)));
373	>	assertEquals(x, Arrays.asList(4, 5));
374	>	assertTrue(x.remove(new Integer(4)));
375	>	assertEquals(x, Arrays.asList(5));
376	>	assertTrue(x.remove(new Integer(5)));
377	>	assertEquals(x, Arrays.asList());
378	>	assertFalse(x.remove(new Integer(5)));
379		}
380
381		/**
382	<	*   removeAll  removes all elements from the given collection
382	>	* removeAll removes all elements from the given collection
383		*/
384		public void testRemoveAll() {
385	<	CopyOnWriteArrayList full = populatedArray(3);
386	<	Vector v = new Vector();
387	<	v.add(one);
388	<	v.add(two);
389	<	full.removeAll(v);
390	<	assertEquals(1, full.size());
385	>	CopyOnWriteArrayList full = populatedArray(3);
386	>	Vector v = new Vector();
387	>	v.add(one);
388	>	v.add(two);
389	>	full.removeAll(v);
390	>	assertEquals(1, full.size());
391		}
392
393		/**
394	<	*   set  changes the element at the given index
394	>	* set changes the element at the given index
395		*/
396		public void testSet() {
397	<	CopyOnWriteArrayList full = populatedArray(3);
398	<	assertEquals(two, full.set(2, four));
399	<	assertEquals(4, ((Integer)full.get(2)).intValue());
397	>	CopyOnWriteArrayList full = populatedArray(3);
398	>	assertEquals(2, full.set(2, four));
399	>	assertEquals(4, full.get(2));
400		}
401
402		/**
403	<	*   size returns the number of elements
403	>	* size returns the number of elements
404		*/
405		public void testSize() {
406	<	CopyOnWriteArrayList empty = new CopyOnWriteArrayList();
407	<	CopyOnWriteArrayList full = populatedArray(SIZE);
408	<	assertEquals(SIZE, full.size());
409	<	assertEquals(0, empty.size());
406	>	CopyOnWriteArrayList empty = new CopyOnWriteArrayList();
407	>	CopyOnWriteArrayList full = populatedArray(SIZE);
408	>	assertEquals(SIZE, full.size());
409	>	assertEquals(0, empty.size());
410		}
411
412		/**
413	<	*   toArray returns an Object array containing all elements from the list
413	>	* toArray() returns an Object array containing all elements from
414	>	* the list in insertion order
415		*/
416		public void testToArray() {
417	<	CopyOnWriteArrayList full = populatedArray(3);
418	<	Object[] o = full.toArray();
419	<	assertEquals(3, o.length);
420	<	assertEquals(0, ((Integer)o[0]).intValue());
421	<	assertEquals(1, ((Integer)o[1]).intValue());
422	<	assertEquals(2, ((Integer)o[2]).intValue());
417	>	Object[] a = new CopyOnWriteArrayList().toArray();
418	>	assertTrue(Arrays.equals(new Object[0], a));
419	>	assertSame(Object[].class, a.getClass());
420	>
421	>	Integer[] elements = new Integer[SIZE];
422	>	for (int i = 0; i < SIZE; i++)
423	>	elements[i] = i;
424	>	Collections.shuffle(Arrays.asList(elements));
425	>	Collection<Integer> full = populatedArray(elements);
426	>
427	>	assertTrue(Arrays.equals(elements, full.toArray()));
428	>	assertSame(Object[].class, full.toArray().getClass());
429		}
430
431		/**
432	<	*   toArray returns an Integer array containing all elements from
433	<	*   the list
432	>	* toArray(Integer array) returns an Integer array containing all
433	>	* elements from the list in insertion order
434		*/
435		public void testToArray2() {
436	<	CopyOnWriteArrayList full = populatedArray(3);
437	<	Integer[] i = new Integer[3];
370	<	i = (Integer[])full.toArray(i);
371	<	assertEquals(3, i.length);
372	<	assertEquals(0, i[0].intValue());
373	<	assertEquals(1, i[1].intValue());
374	<	assertEquals(2, i[2].intValue());
375	<	}
436	>	Collection empty = new CopyOnWriteArrayList();
437	>	Integer[] a;
438
439	+	a = new Integer[0];
440	+	assertSame(a, empty.toArray(a));
441	+
442	+	a = new Integer[SIZE/2];
443	+	Arrays.fill(a, 42);
444	+	assertSame(a, empty.toArray(a));
445	+	assertNull(a[0]);
446	+	for (int i = 1; i < a.length; i++)
447	+	assertEquals(42, (int) a[i]);
448	+
449	+	Integer[] elements = new Integer[SIZE];
450	+	for (int i = 0; i < SIZE; i++)
451	+	elements[i] = i;
452	+	Collections.shuffle(Arrays.asList(elements));
453	+	Collection<Integer> full = populatedArray(elements);
454	+
455	+	Arrays.fill(a, 42);
456	+	assertTrue(Arrays.equals(elements, full.toArray(a)));
457	+	for (int i = 0; i < a.length; i++)
458	+	assertEquals(42, (int) a[i]);
459	+	assertSame(Integer[].class, full.toArray(a).getClass());
460	+
461	+	a = new Integer[SIZE];
462	+	Arrays.fill(a, 42);
463	+	assertSame(a, full.toArray(a));
464	+	assertTrue(Arrays.equals(elements, a));
465	+
466	+	a = new Integer[2*SIZE];
467	+	Arrays.fill(a, 42);
468	+	assertSame(a, full.toArray(a));
469	+	assertTrue(Arrays.equals(elements, Arrays.copyOf(a, SIZE)));
470	+	assertNull(a[SIZE]);
471	+	for (int i = SIZE + 1; i < a.length; i++)
472	+	assertEquals(42, (int) a[i]);
473	+	}
474
475		/**
476		* sublists contains elements at indexes offset from their base
477		*/
478		public void testSubList() {
479	<	CopyOnWriteArrayList a = populatedArray(10);
479	>	CopyOnWriteArrayList a = populatedArray(10);
480		assertTrue(a.subList(1,1).isEmpty());
481	<	for(int j = 0; j < 9; ++j) {
482	<	for(int i = j ; i < 10; ++i) {
483	<	List b = a.subList(j,i);
484	<	for(int k = j; k < i; ++k) {
485	<	assertEquals(new Integer(k), b.get(k-j));
486	<	}
487	<	}
488	<	}
481	>	for (int j = 0; j < 9; ++j) {
482	>	for (int i = j ; i < 10; ++i) {
483	>	List b = a.subList(j,i);
484	>	for (int k = j; k < i; ++k) {
485	>	assertEquals(new Integer(k), b.get(k-j));
486	>	}
487	>	}
488	>	}
489
490	<	List s = a.subList(2, 5);
491	<	assertEquals(s.size(), 3);
490	>	List s = a.subList(2, 5);
491	>	assertEquals(3, s.size());
492		s.set(2, m1);
493		assertEquals(a.get(4), m1);
494	<	s.clear();
495	<	assertEquals(a.size(), 7);
494	>	s.clear();
495	>	assertEquals(7, a.size());
496		}
497
498		// Exception tests
499
500		/**
501	<	*   toArray throws an ArrayStoreException when the given array
502	<	*  can not store the objects inside the list
501	>	* toArray throws an ArrayStoreException when the given array
502	>	* can not store the objects inside the list
503		*/
504		public void testToArray_ArrayStoreException() {
505	+	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
506	+	c.add("zfasdfsdf");
507	+	c.add("asdadasd");
508		try {
409	–	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
410	–	c.add("zfasdfsdf");
411	–	c.add("asdadasd");
509		c.toArray(new Long[5]);
510	<	shouldThrow();
511	<	} catch(ArrayStoreException e){}
510	>	shouldThrow();
511	>	} catch (ArrayStoreException success) {}
512		}
513
514		/**
515	<	*   get throws an IndexOutOfBoundsException on a negative index
515	>	* get throws an IndexOutOfBoundsException on a negative index
516		*/
517		public void testGet1_IndexOutOfBoundsException() {
518	<	try {
519	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
520	<	c.get(-1);
521	<	shouldThrow();
522	<	} catch(IndexOutOfBoundsException e){}
518	>	CopyOnWriteArrayList c = populatedArray(5);
519	>	List[] lists = { c, c.subList(1, c.size() - 1) };
520	>	for (List list : lists) {
521	>	try {
522	>	list.get(-1);
523	>	shouldThrow();
524	>	} catch (IndexOutOfBoundsException success) {}
525	>	}
526		}
527
528		/**
529	<	*   get throws an IndexOutOfBoundsException on a too high index
529	>	* get throws an IndexOutOfBoundsException on a too high index
530		*/
531		public void testGet2_IndexOutOfBoundsException() {
532	<	try {
533	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
534	<	c.add("asdasd");
535	<	c.add("asdad");
536	<	c.get(100);
537	<	shouldThrow();
538	<	} catch(IndexOutOfBoundsException e){}
532	>	CopyOnWriteArrayList c = populatedArray(5);
533	>	List[] lists = { c, c.subList(1, c.size() - 1) };
534	>	for (List list : lists) {
535	>	try {
536	>	list.get(list.size());
537	>	shouldThrow();
538	>	} catch (IndexOutOfBoundsException success) {}
539	>	}
540		}
541
542		/**
543	<	*   set throws an IndexOutOfBoundsException on a negative index
543	>	* set throws an IndexOutOfBoundsException on a negative index
544		*/
545		public void testSet1_IndexOutOfBoundsException() {
546	<	try {
547	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
548	<	c.set(-1,"qwerty");
549	<	shouldThrow();
550	<	} catch(IndexOutOfBoundsException e){}
546	>	CopyOnWriteArrayList c = populatedArray(5);
547	>	List[] lists = { c, c.subList(1, c.size() - 1) };
548	>	for (List list : lists) {
549	>	try {
550	>	list.set(-1, "qwerty");
551	>	shouldThrow();
552	>	} catch (IndexOutOfBoundsException success) {}
553	>	}
554		}
555
556		/**
557	<	*   set throws an IndexOutOfBoundsException on a too high index
557	>	* set throws an IndexOutOfBoundsException on a too high index
558		*/
559		public void testSet2() {
560	<	try {
561	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
562	<	c.add("asdasd");
563	<	c.add("asdad");
564	<	c.set(100, "qwerty");
565	<	shouldThrow();
566	<	} catch(IndexOutOfBoundsException e){}
560	>	CopyOnWriteArrayList c = populatedArray(5);
561	>	List[] lists = { c, c.subList(1, c.size() - 1) };
562	>	for (List list : lists) {
563	>	try {
564	>	list.set(list.size(), "qwerty");
565	>	shouldThrow();
566	>	} catch (IndexOutOfBoundsException success) {}
567	>	}
568		}
569
570		/**
571	<	*   add throws an IndexOutOfBoundsException on a negative index
571	>	* add throws an IndexOutOfBoundsException on a negative index
572		*/
573		public void testAdd1_IndexOutOfBoundsException() {
574	<	try {
575	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
576	<	c.add(-1,"qwerty");
577	<	shouldThrow();
578	<	} catch(IndexOutOfBoundsException e){}
574	>	CopyOnWriteArrayList c = populatedArray(5);
575	>	List[] lists = { c, c.subList(1, c.size() - 1) };
576	>	for (List list : lists) {
577	>	try {
578	>	list.add(-1, "qwerty");
579	>	shouldThrow();
580	>	} catch (IndexOutOfBoundsException success) {}
581	>	}
582		}
583
584		/**
585	<	*   add throws an IndexOutOfBoundsException on a too high index
585	>	* add throws an IndexOutOfBoundsException on a too high index
586		*/
587		public void testAdd2_IndexOutOfBoundsException() {
588	<	try {
589	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
590	<	c.add("asdasd");
591	<	c.add("asdasdasd");
592	<	c.add(100, "qwerty");
593	<	shouldThrow();
594	<	} catch(IndexOutOfBoundsException e){}
588	>	CopyOnWriteArrayList c = populatedArray(5);
589	>	List[] lists = { c, c.subList(1, c.size() - 1) };
590	>	for (List list : lists) {
591	>	try {
592	>	list.add(list.size() + 1, "qwerty");
593	>	shouldThrow();
594	>	} catch (IndexOutOfBoundsException success) {}
595	>	}
596		}
597
598		/**
599	<	*   remove throws an IndexOutOfBoundsException on a negative index
599	>	* remove throws an IndexOutOfBoundsException on a negative index
600		*/
601		public void testRemove1_IndexOutOfBounds() {
602	<	try {
603	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
604	<	c.remove(-1);
605	<	shouldThrow();
606	<	} catch(IndexOutOfBoundsException e){}
602	>	CopyOnWriteArrayList c = populatedArray(5);
603	>	List[] lists = { c, c.subList(1, c.size() - 1) };
604	>	for (List list : lists) {
605	>	try {
606	>	list.remove(-1);
607	>	shouldThrow();
608	>	} catch (IndexOutOfBoundsException success) {}
609	>	}
610		}
611
612		/**
613	<	*   remove throws an IndexOutOfBoundsException on a too high index
613	>	* remove throws an IndexOutOfBoundsException on a too high index
614		*/
615		public void testRemove2_IndexOutOfBounds() {
616	<	try {
617	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
618	<	c.add("asdasd");
619	<	c.add("adasdasd");
620	<	c.remove(100);
621	<	shouldThrow();
622	<	} catch(IndexOutOfBoundsException e){}
616	>	CopyOnWriteArrayList c = populatedArray(5);
617	>	List[] lists = { c, c.subList(1, c.size() - 1) };
618	>	for (List list : lists) {
619	>	try {
620	>	list.remove(list.size());
621	>	shouldThrow();
622	>	} catch (IndexOutOfBoundsException success) {}
623	>	}
624		}
625
626		/**
627	<	*   addAll throws an IndexOutOfBoundsException on a negative index
627	>	* addAll throws an IndexOutOfBoundsException on a negative index
628		*/
629		public void testAddAll1_IndexOutOfBoundsException() {
630	<	try {
631	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
632	<	c.addAll(-1,new LinkedList());
633	<	shouldThrow();
634	<	} catch(IndexOutOfBoundsException e){}
630	>	CopyOnWriteArrayList c = populatedArray(5);
631	>	List[] lists = { c, c.subList(1, c.size() - 1) };
632	>	for (List list : lists) {
633	>	try {
634	>	list.addAll(-1, new LinkedList());
635	>	shouldThrow();
636	>	} catch (IndexOutOfBoundsException success) {}
637	>	}
638		}
639
640		/**
641	<	*   addAll throws an IndexOutOfBoundsException on a too high index
641	>	* addAll throws an IndexOutOfBoundsException on a too high index
642		*/
643		public void testAddAll2_IndexOutOfBoundsException() {
644	<	try {
645	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
646	<	c.add("asdasd");
647	<	c.add("asdasdasd");
648	<	c.addAll(100, new LinkedList());
649	<	shouldThrow();
650	<	} catch(IndexOutOfBoundsException e){}
644	>	CopyOnWriteArrayList c = populatedArray(5);
645	>	List[] lists = { c, c.subList(1, c.size() - 1) };
646	>	for (List list : lists) {
647	>	try {
648	>	list.addAll(list.size() + 1, new LinkedList());
649	>	shouldThrow();
650	>	} catch (IndexOutOfBoundsException success) {}
651	>	}
652		}
653
654		/**
655	<	*   listIterator throws an IndexOutOfBoundsException on a negative index
655	>	* listIterator throws an IndexOutOfBoundsException on a negative index
656		*/
657		public void testListIterator1_IndexOutOfBoundsException() {
658	<	try {
659	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
660	<	c.listIterator(-1);
661	<	shouldThrow();
662	<	} catch(IndexOutOfBoundsException e){}
658	>	CopyOnWriteArrayList c = populatedArray(5);
659	>	List[] lists = { c, c.subList(1, c.size() - 1) };
660	>	for (List list : lists) {
661	>	try {
662	>	list.listIterator(-1);
663	>	shouldThrow();
664	>	} catch (IndexOutOfBoundsException success) {}
665	>	}
666		}
667
668		/**
669	<	*   listIterator throws an IndexOutOfBoundsException on a too high index
669	>	* listIterator throws an IndexOutOfBoundsException on a too high index
670		*/
671		public void testListIterator2_IndexOutOfBoundsException() {
672	<	try {
673	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
674	<	c.add("adasd");
675	<	c.add("asdasdas");
676	<	c.listIterator(100);
677	<	shouldThrow();
678	<	} catch(IndexOutOfBoundsException e){}
672	>	CopyOnWriteArrayList c = populatedArray(5);
673	>	List[] lists = { c, c.subList(1, c.size() - 1) };
674	>	for (List list : lists) {
675	>	try {
676	>	list.listIterator(list.size() + 1);
677	>	shouldThrow();
678	>	} catch (IndexOutOfBoundsException success) {}
679	>	}
680		}
681
682		/**
683	<	*   subList throws an IndexOutOfBoundsException on a negative index
683	>	* subList throws an IndexOutOfBoundsException on a negative index
684		*/
685		public void testSubList1_IndexOutOfBoundsException() {
686	<	try {
687	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
688	<	c.subList(-1,100);
689	<
690	<	shouldThrow();
691	<	} catch(IndexOutOfBoundsException e){}
686	>	CopyOnWriteArrayList c = populatedArray(5);
687	>	List[] lists = { c, c.subList(1, c.size() - 1) };
688	>	for (List list : lists) {
689	>	try {
690	>	list.subList(-1, list.size());
691	>	shouldThrow();
692	>	} catch (IndexOutOfBoundsException success) {}
693	>	}
694		}
695
696		/**
697	<	*   subList throws an IndexOutOfBoundsException on a too high index
697	>	* subList throws an IndexOutOfBoundsException on a too high index
698		*/
699		public void testSubList2_IndexOutOfBoundsException() {
700	<	try {
701	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
702	<	c.add("asdasd");
703	<	c.subList(1,100);
704	<	shouldThrow();
705	<	} catch(IndexOutOfBoundsException e){}
700	>	CopyOnWriteArrayList c = populatedArray(5);
701	>	List[] lists = { c, c.subList(1, c.size() - 1) };
702	>	for (List list : lists) {
703	>	try {
704	>	list.subList(0, list.size() + 1);
705	>	shouldThrow();
706	>	} catch (IndexOutOfBoundsException success) {}
707	>	}
708		}
709
710		/**
711	<	*   subList throws IndexOutOfBoundsException when the second index
712	<	*  is lower then the first
711	>	* subList throws IndexOutOfBoundsException when the second index
712	>	* is lower then the first
713		*/
714		public void testSubList3_IndexOutOfBoundsException() {
715	<	try {
716	<	CopyOnWriteArrayList c = new CopyOnWriteArrayList();
717	<	c.subList(3,1);
718	<
719	<	shouldThrow();
720	<	} catch(IndexOutOfBoundsException e){}
715	>	CopyOnWriteArrayList c = populatedArray(5);
716	>	List[] lists = { c, c.subList(1, c.size() - 1) };
717	>	for (List list : lists) {
718	>	try {
719	>	list.subList(list.size() - 1, 1);
720	>	shouldThrow();
721	>	} catch (IndexOutOfBoundsException success) {}
722	>	}
723		}
724
725		/**
726	<	* a deserialized serialiszed list is equal
726	>	* a deserialized serialized list is equal
727		*/
728	<	public void testSerialization() {
729	<	CopyOnWriteArrayList q = populatedArray(SIZE);
730	<
731	<	try {
732	<	ByteArrayOutputStream bout = new ByteArrayOutputStream(10000);
733	<	ObjectOutputStream out = new ObjectOutputStream(new BufferedOutputStream(bout));
734	<	out.writeObject(q);
735	<	out.close();
736	<
737	<	ByteArrayInputStream bin = new ByteArrayInputStream(bout.toByteArray());
738	<	ObjectInputStream in = new ObjectInputStream(new BufferedInputStream(bin));
739	<	CopyOnWriteArrayList r = (CopyOnWriteArrayList)in.readObject();
740	<	assertEquals(q.size(), r.size());
614	<	assertTrue(q.equals(r));
615	<	assertTrue(r.equals(q));
616	<	} catch(Exception e){
617	<	unexpectedException();
728	>	public void testSerialization() throws Exception {
729	>	List x = populatedArray(SIZE);
730	>	List y = serialClone(x);
731	>
732	>	assertNotSame(x, y);
733	>	assertEquals(x.size(), y.size());
734	>	assertEquals(x.toString(), y.toString());
735	>	assertTrue(Arrays.equals(x.toArray(), y.toArray()));
736	>	assertEquals(x, y);
737	>	assertEquals(y, x);
738	>	while (!x.isEmpty()) {
739	>	assertFalse(y.isEmpty());
740	>	assertEquals(x.remove(0), y.remove(0));
741		}
742	+	assertTrue(y.isEmpty());
743		}
744
745		}

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