| /* |
| * Copyright (c) 2005, 2011, Oracle and/or its affiliates. All rights reserved. |
| * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
| * |
| * This code is free software; you can redistribute it and/or modify it |
| * under the terms of the GNU General Public License version 2 only, as |
| * published by the Free Software Foundation. |
| * |
| * This code is distributed in the hope that it will be useful, but WITHOUT |
| * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
| * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
| * version 2 for more details (a copy is included in the LICENSE file that |
| * accompanied this code). |
| * |
| * You should have received a copy of the GNU General Public License version |
| * 2 along with this work; if not, write to the Free Software Foundation, |
| * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
| * |
| * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
| * or visit www.oracle.com if you need additional information or have any |
| * questions. |
| */ |
| |
| /* |
| * @test |
| * @bug 6207984 6272521 6192552 6269713 6197726 6260652 5073546 4137464 |
| * 4155650 4216399 4294891 6282555 6318622 6355327 6383475 6420753 |
| * 6431845 4802633 6570566 6570575 6570631 6570924 6691185 6691215 |
| * 4802647 7123424 8024709 |
| * @summary Run many tests on many Collection and Map implementations |
| * @author Martin Buchholz |
| * @run main MOAT |
| */ |
| |
| /* Mother Of All (Collection) Tests |
| * |
| * Testing of collection classes is often spotty, because many tests |
| * need to be performed on many implementations, but the onus on |
| * writing the tests falls on the engineer introducing the new |
| * implementation. |
| * |
| * The idea of this mega-test is that: |
| * |
| * An engineer adding a new collection implementation could simply add |
| * their new implementation to a list of implementations in this |
| * test's main method. Any general purpose Collection<Integer> or |
| * Map<Integer,Integer> class is appropriate. |
| * |
| * An engineer fixing a regression could add their regression test here and |
| * simultaneously test all other implementations. |
| */ |
| |
| import java.io.*; |
| import java.util.*; |
| import java.util.concurrent.*; |
| import static java.util.Collections.*; |
| |
| public class MOAT { |
| public static void realMain(String[] args) { |
| |
| testCollection(new NewAbstractCollection<Integer>()); |
| testCollection(new NewAbstractSet<Integer>()); |
| testCollection(new LinkedHashSet<Integer>()); |
| testCollection(new HashSet<Integer>()); |
| testCollection(new Vector<Integer>()); |
| testCollection(new Vector<Integer>().subList(0,0)); |
| testCollection(new ArrayDeque<Integer>()); |
| testCollection(new ArrayList<Integer>()); |
| testCollection(new ArrayList<Integer>().subList(0,0)); |
| testCollection(new LinkedList<Integer>()); |
| testCollection(new LinkedList<Integer>().subList(0,0)); |
| testCollection(new TreeSet<Integer>()); |
| testCollection(Collections.checkedList(new ArrayList<Integer>(), Integer.class)); |
| testCollection(Collections.synchronizedList(new ArrayList<Integer>())); |
| testCollection(Collections.checkedSet(new HashSet<Integer>(), Integer.class)); |
| testCollection(Collections.checkedSortedSet(new TreeSet<Integer>(), Integer.class)); |
| testCollection(Collections.checkedNavigableSet(new TreeSet<Integer>(), Integer.class)); |
| testCollection(Collections.synchronizedSet(new HashSet<Integer>())); |
| testCollection(Collections.synchronizedSortedSet(new TreeSet<Integer>())); |
| testCollection(Collections.synchronizedNavigableSet(new TreeSet<Integer>())); |
| |
| testCollection(new CopyOnWriteArrayList<Integer>()); |
| testCollection(new CopyOnWriteArrayList<Integer>().subList(0,0)); |
| testCollection(new CopyOnWriteArraySet<Integer>()); |
| testCollection(new PriorityQueue<Integer>()); |
| testCollection(new PriorityBlockingQueue<Integer>()); |
| testCollection(new ArrayBlockingQueue<Integer>(20)); |
| testCollection(new LinkedBlockingQueue<Integer>(20)); |
| testCollection(new LinkedBlockingDeque<Integer>(20)); |
| testCollection(new ConcurrentLinkedDeque<Integer>()); |
| testCollection(new ConcurrentLinkedQueue<Integer>()); |
| testCollection(new LinkedTransferQueue<Integer>()); |
| testCollection(new ConcurrentSkipListSet<Integer>()); |
| testCollection(Arrays.asList(new Integer(42))); |
| testCollection(Arrays.asList(1,2,3)); |
| testCollection(nCopies(25,1)); |
| testImmutableList(nCopies(25,1)); |
| testImmutableList(unmodifiableList(Arrays.asList(1,2,3))); |
| |
| testMap(new HashMap<Integer,Integer>()); |
| testMap(new LinkedHashMap<Integer,Integer>()); |
| testMap(new WeakHashMap<Integer,Integer>()); |
| testMap(new IdentityHashMap<Integer,Integer>()); |
| testMap(new TreeMap<Integer,Integer>()); |
| testMap(new Hashtable<Integer,Integer>()); |
| testMap(new ConcurrentHashMap<Integer,Integer>(10, 0.5f)); |
| testMap(new ConcurrentSkipListMap<Integer,Integer>()); |
| testMap(Collections.checkedMap(new HashMap<Integer,Integer>(), Integer.class, Integer.class)); |
| testMap(Collections.checkedSortedMap(new TreeMap<Integer,Integer>(), Integer.class, Integer.class)); |
| testMap(Collections.checkedNavigableMap(new TreeMap<Integer,Integer>(), Integer.class, Integer.class)); |
| testMap(Collections.synchronizedMap(new HashMap<Integer,Integer>())); |
| testMap(Collections.synchronizedSortedMap(new TreeMap<Integer,Integer>())); |
| testMap(Collections.synchronizedNavigableMap(new TreeMap<Integer,Integer>())); |
| |
| // Empty collections |
| final List<Integer> emptyArray = Arrays.asList(new Integer[]{}); |
| testCollection(emptyArray); |
| testEmptyList(emptyArray); |
| THROWS(IndexOutOfBoundsException.class, |
| new Fun(){void f(){ emptyArray.set(0,1); }}); |
| THROWS(UnsupportedOperationException.class, |
| new Fun(){void f(){ emptyArray.add(0,1); }}); |
| |
| List<Integer> noOne = nCopies(0,1); |
| testCollection(noOne); |
| testEmptyList(noOne); |
| testImmutableList(noOne); |
| |
| Set<Integer> emptySet = emptySet(); |
| testCollection(emptySet); |
| testEmptySet(emptySet); |
| testEmptySet(EMPTY_SET); |
| testEmptySet(Collections.emptySet()); |
| testEmptySet(Collections.emptySortedSet()); |
| testEmptySet(Collections.emptyNavigableSet()); |
| testImmutableSet(emptySet); |
| |
| List<Integer> emptyList = emptyList(); |
| testCollection(emptyList); |
| testEmptyList(emptyList); |
| testEmptyList(EMPTY_LIST); |
| testEmptyList(Collections.emptyList()); |
| testImmutableList(emptyList); |
| |
| Map<Integer,Integer> emptyMap = emptyMap(); |
| testMap(emptyMap); |
| testEmptyMap(emptyMap); |
| testEmptyMap(EMPTY_MAP); |
| testEmptyMap(Collections.emptyMap()); |
| testEmptyMap(Collections.emptySortedMap()); |
| testEmptyMap(Collections.emptyNavigableMap()); |
| testImmutableMap(emptyMap); |
| testImmutableMap(Collections.emptyMap()); |
| testImmutableMap(Collections.emptySortedMap()); |
| testImmutableMap(Collections.emptyNavigableMap()); |
| |
| // Singleton collections |
| Set<Integer> singletonSet = singleton(1); |
| equal(singletonSet.size(), 1); |
| testCollection(singletonSet); |
| testImmutableSet(singletonSet); |
| |
| List<Integer> singletonList = singletonList(1); |
| equal(singletonList.size(), 1); |
| testCollection(singletonList); |
| testImmutableList(singletonList); |
| testImmutableList(singletonList.subList(0,1)); |
| testImmutableList(singletonList.subList(0,1).subList(0,1)); |
| testEmptyList(singletonList.subList(0,0)); |
| testEmptyList(singletonList.subList(0,0).subList(0,0)); |
| |
| Map<Integer,Integer> singletonMap = singletonMap(1,2); |
| equal(singletonMap.size(), 1); |
| testMap(singletonMap); |
| testImmutableMap(singletonMap); |
| } |
| |
| private static void checkContainsSelf(Collection<Integer> c) { |
| check(c.containsAll(c)); |
| check(c.containsAll(Arrays.asList(c.toArray()))); |
| check(c.containsAll(Arrays.asList(c.toArray(new Integer[0])))); |
| } |
| |
| private static void checkContainsEmpty(Collection<Integer> c) { |
| check(c.containsAll(new ArrayList<Integer>())); |
| } |
| |
| private static <T> void testEmptyCollection(Collection<T> c) { |
| check(c.isEmpty()); |
| equal(c.size(), 0); |
| equal(c.toString(),"[]"); |
| equal(c.toArray().length, 0); |
| equal(c.toArray(new Object[0]).length, 0); |
| check(c.toArray(new Object[]{42})[0] == null); |
| |
| Object[] a = new Object[1]; a[0] = Boolean.TRUE; |
| equal(c.toArray(a), a); |
| equal(a[0], null); |
| testEmptyIterator(c.iterator()); |
| } |
| |
| static <T> void testEmptyIterator(final Iterator<T> it) { |
| if (rnd.nextBoolean()) |
| check(! it.hasNext()); |
| |
| THROWS(NoSuchElementException.class, |
| new Fun(){void f(){ it.next(); }}); |
| |
| try { it.remove(); } |
| catch (IllegalStateException ignored) { pass(); } |
| catch (UnsupportedOperationException ignored) { pass(); } |
| catch (Throwable t) { unexpected(t); } |
| |
| if (rnd.nextBoolean()) |
| check(! it.hasNext()); |
| } |
| |
| private static void testEmptyList(List<?> c) { |
| testEmptyCollection(c); |
| equal(c.hashCode(), 1); |
| equal2(c, Collections.<Integer>emptyList()); |
| } |
| |
| private static <T> void testEmptySet(Set<T> c) { |
| testEmptyCollection(c); |
| equal(c.hashCode(), 0); |
| equal2(c, Collections.<Integer>emptySet()); |
| if (c instanceof NavigableSet<?>) |
| testEmptyIterator(((NavigableSet<T>)c).descendingIterator()); |
| } |
| |
| private static void testImmutableCollection(final Collection<Integer> c) { |
| THROWS(UnsupportedOperationException.class, |
| new Fun(){void f(){ c.add(99); }}, |
| new Fun(){void f(){ c.addAll(singleton(99)); }}); |
| if (! c.isEmpty()) { |
| final Integer first = c.iterator().next(); |
| THROWS(UnsupportedOperationException.class, |
| new Fun(){void f(){ c.clear(); }}, |
| new Fun(){void f(){ c.remove(first); }}, |
| new Fun(){void f(){ c.removeAll(singleton(first)); }}, |
| new Fun(){void f(){ c.retainAll(emptyList()); }} |
| ); |
| } |
| } |
| |
| private static void testImmutableSet(final Set<Integer> c) { |
| testImmutableCollection(c); |
| } |
| |
| private static void testImmutableList(final List<Integer> c) { |
| testList(c); |
| testImmutableCollection(c); |
| THROWS(UnsupportedOperationException.class, |
| new Fun(){void f(){ c.set(0,42); }}, |
| new Fun(){void f(){ c.add(0,42); }}, |
| new Fun(){void f(){ c.addAll(0,singleton(86)); }}); |
| if (! c.isEmpty()) |
| THROWS(UnsupportedOperationException.class, |
| new Fun(){void f(){ |
| Iterator<Integer> it = c.iterator(); |
| it.next(); it.remove();}}, |
| new Fun(){void f(){ |
| ListIterator<Integer> it = c.listIterator(); |
| it.next(); it.remove();}}); |
| } |
| |
| private static void clear(Collection<Integer> c) { |
| try { c.clear(); } |
| catch (Throwable t) { unexpected(t); } |
| testEmptyCollection(c); |
| } |
| |
| private static <K,V> void testEmptyMap(final Map<K,V> m) { |
| check(m.isEmpty()); |
| equal(m.size(), 0); |
| equal(m.toString(),"{}"); |
| testEmptySet(m.keySet()); |
| testEmptySet(m.entrySet()); |
| testEmptyCollection(m.values()); |
| |
| try { check(! m.containsValue(null)); } |
| catch (NullPointerException ignored) { /* OK */ } |
| try { check(! m.containsKey(null)); } |
| catch (NullPointerException ignored) { /* OK */ } |
| check(! m.containsValue(1)); |
| check(! m.containsKey(1)); |
| } |
| |
| private static void testImmutableMap(final Map<Integer,Integer> m) { |
| THROWS(UnsupportedOperationException.class, |
| new Fun(){void f(){ m.put(1,1); }}, |
| new Fun(){void f(){ m.putAll(singletonMap(1,1)); }}); |
| if (! m.isEmpty()) { |
| final Integer first = m.keySet().iterator().next(); |
| THROWS(UnsupportedOperationException.class, |
| new Fun(){void f(){ m.remove(first); }}, |
| new Fun(){void f(){ m.clear(); }}); |
| final Map.Entry<Integer,Integer> me |
| = m.entrySet().iterator().next(); |
| Integer key = me.getKey(); |
| Integer val = me.getValue(); |
| THROWS(UnsupportedOperationException.class, |
| new Fun(){void f(){ me.setValue(3); }}); |
| equal(key, me.getKey()); |
| equal(val, me.getValue()); |
| } |
| testImmutableSet(m.keySet()); |
| testImmutableCollection(m.values()); |
| //testImmutableSet(m.entrySet()); |
| } |
| |
| private static void clear(Map<?,?> m) { |
| try { m.clear(); } |
| catch (Throwable t) { unexpected(t); } |
| testEmptyMap(m); |
| } |
| |
| private static void oneElement(Collection<Integer> c) { |
| clear(c); |
| try { |
| check(c.add(-42)); |
| equal(c.toString(), "[-42]"); |
| if (c instanceof Set) check(! c.add(-42)); |
| } catch (Throwable t) { unexpected(t); } |
| check(! c.isEmpty()); check(c.size() == 1); |
| } |
| |
| private static boolean supportsAdd(Collection<Integer> c) { |
| try { check(c.add(778347983)); } |
| catch (UnsupportedOperationException t) { return false; } |
| catch (Throwable t) { unexpected(t); } |
| |
| try { |
| check(c.contains(778347983)); |
| check(c.remove(778347983)); |
| } catch (Throwable t) { unexpected(t); } |
| return true; |
| } |
| |
| private static boolean supportsRemove(Collection<Integer> c) { |
| try { check(! c.remove(19134032)); } |
| catch (UnsupportedOperationException t) { return false; } |
| catch (Throwable t) { unexpected(t); } |
| return true; |
| } |
| |
| private static void checkFunctionalInvariants(Collection<Integer> c) { |
| try { |
| checkContainsSelf(c); |
| checkContainsEmpty(c); |
| check(c.size() != 0 ^ c.isEmpty()); |
| |
| { |
| int size = 0; |
| for (Integer i : c) size++; |
| check(c.size() == size); |
| } |
| |
| check(c.toArray().length == c.size()); |
| check(c.toArray().getClass() == Object[].class |
| || |
| // !!!! |
| // 6260652: (coll) Arrays.asList(x).toArray().getClass() |
| // should be Object[].class |
| (c.getClass().getName().equals("java.util.Arrays$ArrayList")) |
| ); |
| for (int size : new int[]{0,1,c.size(), c.size()+1}) { |
| Integer[] a = c.toArray(new Integer[size]); |
| check((size > c.size()) || a.length == c.size()); |
| int i = 0; for (Integer j : c) check(a[i++] == j); |
| check((size <= c.size()) || (a[c.size()] == null)); |
| check(a.getClass() == Integer[].class); |
| } |
| |
| check(c.equals(c)); |
| if (c instanceof Serializable) { |
| //System.out.printf("Serializing %s%n", c.getClass().getName()); |
| try { |
| Object clone = serialClone(c); |
| equal(c instanceof Serializable, |
| clone instanceof Serializable); |
| equal(c instanceof RandomAccess, |
| clone instanceof RandomAccess); |
| if ((c instanceof List) || (c instanceof Set)) |
| equal(c, clone); |
| else |
| equal(new HashSet<Integer>(c), |
| new HashSet<Integer>(serialClone(c))); |
| } catch (Error xxx) { |
| if (! (xxx.getCause() instanceof NotSerializableException)) |
| throw xxx; |
| } |
| } |
| } |
| catch (Throwable t) { unexpected(t); } |
| } |
| |
| //---------------------------------------------------------------- |
| // If add(null) succeeds, contains(null) & remove(null) should succeed |
| //---------------------------------------------------------------- |
| private static void testNullElement(Collection<Integer> c) { |
| |
| try { |
| check(c.add(null)); |
| if (c.size() == 1) |
| equal(c.toString(), "[null]"); |
| try { |
| checkFunctionalInvariants(c); |
| check(c.contains(null)); |
| check(c.remove(null)); |
| } |
| catch (Throwable t) { unexpected(t); } |
| } |
| catch (NullPointerException e) { /* OK */ } |
| catch (Throwable t) { unexpected(t); } |
| } |
| |
| |
| //---------------------------------------------------------------- |
| // If add("x") succeeds, contains("x") & remove("x") should succeed |
| //---------------------------------------------------------------- |
| @SuppressWarnings("unchecked") |
| private static void testStringElement(Collection<Integer> c) { |
| Collection x = (Collection)c; // Make type-unsafe |
| try { |
| check(x.add("x")); |
| try { |
| check(x.contains("x")); |
| check(x.remove("x")); |
| } catch (Throwable t) { unexpected(t); } |
| } |
| catch (ClassCastException e) { /* OK */ } |
| catch (Throwable t) { unexpected(t); } |
| } |
| |
| private static void testConcurrentCollection(Collection<Integer> c) { |
| try { |
| c.add(1); |
| Iterator<Integer> it = c.iterator(); |
| check(it.hasNext()); |
| clear(c); |
| check(it.next() instanceof Integer); // No CME |
| check(c.isEmpty()); |
| } |
| catch (Throwable t) { unexpected(t); } |
| } |
| |
| private static void testQueue(Queue<Integer> q) { |
| q.clear(); |
| for (int i = 0; i < 5; i++) { |
| testQueueAddRemove(q, null); |
| testQueueAddRemove(q, 537); |
| q.add(i); |
| } |
| equal(q.size(), 5); |
| checkFunctionalInvariants(q); |
| q.poll(); |
| equal(q.size(), 4); |
| checkFunctionalInvariants(q); |
| if ((q instanceof LinkedBlockingQueue) || |
| (q instanceof LinkedBlockingDeque) || |
| (q instanceof ConcurrentLinkedDeque) || |
| (q instanceof ConcurrentLinkedQueue)) { |
| testQueueIteratorRemove(q); |
| } |
| } |
| |
| private static void testQueueAddRemove(final Queue<Integer> q, |
| final Integer e) { |
| final List<Integer> originalContents = new ArrayList<Integer>(q); |
| final boolean isEmpty = q.isEmpty(); |
| final boolean isList = (q instanceof List); |
| final List asList = isList ? (List) q : null; |
| check(!q.contains(e)); |
| try { |
| q.add(e); |
| } catch (NullPointerException npe) { |
| check(e == null); |
| return; // Null elements not supported |
| } |
| check(q.contains(e)); |
| check(q.remove(e)); |
| check(!q.contains(e)); |
| equal(new ArrayList<Integer>(q), originalContents); |
| |
| if (q instanceof Deque<?>) { |
| final Deque<Integer> deq = (Deque<Integer>) q; |
| final List<Integer> singleton = Collections.singletonList(e); |
| |
| // insert, query, remove element at head |
| if (isEmpty) { |
| THROWS(NoSuchElementException.class, |
| new Fun(){void f(){ deq.getFirst(); }}, |
| new Fun(){void f(){ deq.element(); }}, |
| new Fun(){void f(){ deq.iterator().next(); }}); |
| check(deq.peekFirst() == null); |
| check(deq.peek() == null); |
| } else { |
| check(deq.getFirst() != e); |
| check(deq.element() != e); |
| check(deq.iterator().next() != e); |
| check(deq.peekFirst() != e); |
| check(deq.peek() != e); |
| } |
| check(!deq.contains(e)); |
| check(!deq.removeFirstOccurrence(e)); |
| check(!deq.removeLastOccurrence(e)); |
| if (isList) { |
| check(asList.indexOf(e) == -1); |
| check(asList.lastIndexOf(e) == -1); |
| } |
| switch (rnd.nextInt(isList ? 4 : 3)) { |
| case 0: deq.addFirst(e); break; |
| case 1: check(deq.offerFirst(e)); break; |
| case 2: deq.push(e); break; |
| case 3: asList.add(0, e); break; |
| default: throw new AssertionError(); |
| } |
| check(deq.peekFirst() == e); |
| check(deq.getFirst() == e); |
| check(deq.element() == e); |
| check(deq.peek() == e); |
| check(deq.iterator().next() == e); |
| check(deq.contains(e)); |
| if (isList) { |
| check(asList.get(0) == e); |
| check(asList.indexOf(e) == 0); |
| check(asList.lastIndexOf(e) == 0); |
| check(asList.subList(0, 1).equals(singleton)); |
| } |
| switch (rnd.nextInt(isList ? 11 : 9)) { |
| case 0: check(deq.pollFirst() == e); break; |
| case 1: check(deq.removeFirst() == e); break; |
| case 2: check(deq.remove() == e); break; |
| case 3: check(deq.pop() == e); break; |
| case 4: check(deq.removeFirstOccurrence(e)); break; |
| case 5: check(deq.removeLastOccurrence(e)); break; |
| case 6: check(deq.remove(e)); break; |
| case 7: check(deq.removeAll(singleton)); break; |
| case 8: Iterator it = deq.iterator(); it.next(); it.remove(); break; |
| case 9: asList.remove(0); break; |
| case 10: asList.subList(0, 1).clear(); break; |
| default: throw new AssertionError(); |
| } |
| if (isEmpty) { |
| THROWS(NoSuchElementException.class, |
| new Fun(){void f(){ deq.getFirst(); }}, |
| new Fun(){void f(){ deq.element(); }}, |
| new Fun(){void f(){ deq.iterator().next(); }}); |
| check(deq.peekFirst() == null); |
| check(deq.peek() == null); |
| } else { |
| check(deq.getFirst() != e); |
| check(deq.element() != e); |
| check(deq.iterator().next() != e); |
| check(deq.peekFirst() != e); |
| check(deq.peek() != e); |
| } |
| check(!deq.contains(e)); |
| check(!deq.removeFirstOccurrence(e)); |
| check(!deq.removeLastOccurrence(e)); |
| if (isList) { |
| check(isEmpty || asList.get(0) != e); |
| check(asList.indexOf(e) == -1); |
| check(asList.lastIndexOf(e) == -1); |
| } |
| equal(new ArrayList<Integer>(deq), originalContents); |
| |
| // insert, query, remove element at tail |
| if (isEmpty) { |
| check(deq.peekLast() == null); |
| THROWS(NoSuchElementException.class, |
| new Fun(){void f(){ deq.getLast(); }}); |
| } else { |
| check(deq.peekLast() != e); |
| check(deq.getLast() != e); |
| } |
| switch (rnd.nextInt(isList ? 6 : 4)) { |
| case 0: deq.addLast(e); break; |
| case 1: check(deq.offerLast(e)); break; |
| case 2: check(deq.add(e)); break; |
| case 3: deq.addAll(singleton); break; |
| case 4: asList.addAll(deq.size(), singleton); break; |
| case 5: asList.add(deq.size(), e); break; |
| default: throw new AssertionError(); |
| } |
| check(deq.peekLast() == e); |
| check(deq.getLast() == e); |
| check(deq.contains(e)); |
| if (isList) { |
| ListIterator it = asList.listIterator(asList.size()); |
| check(it.previous() == e); |
| check(asList.get(asList.size() - 1) == e); |
| check(asList.indexOf(e) == asList.size() - 1); |
| check(asList.lastIndexOf(e) == asList.size() - 1); |
| int size = asList.size(); |
| check(asList.subList(size - 1, size).equals(singleton)); |
| } |
| switch (rnd.nextInt(isList ? 8 : 6)) { |
| case 0: check(deq.pollLast() == e); break; |
| case 1: check(deq.removeLast() == e); break; |
| case 2: check(deq.removeFirstOccurrence(e)); break; |
| case 3: check(deq.removeLastOccurrence(e)); break; |
| case 4: check(deq.remove(e)); break; |
| case 5: check(deq.removeAll(singleton)); break; |
| case 6: asList.remove(asList.size() - 1); break; |
| case 7: |
| ListIterator it = asList.listIterator(asList.size()); |
| it.previous(); |
| it.remove(); |
| break; |
| default: throw new AssertionError(); |
| } |
| if (isEmpty) { |
| check(deq.peekLast() == null); |
| THROWS(NoSuchElementException.class, |
| new Fun(){void f(){ deq.getLast(); }}); |
| } else { |
| check(deq.peekLast() != e); |
| check(deq.getLast() != e); |
| } |
| check(!deq.contains(e)); |
| equal(new ArrayList<Integer>(deq), originalContents); |
| |
| // Test operations on empty deque |
| switch (rnd.nextInt(isList ? 4 : 2)) { |
| case 0: deq.clear(); break; |
| case 1: |
| Iterator it = deq.iterator(); |
| while (it.hasNext()) { |
| it.next(); |
| it.remove(); |
| } |
| break; |
| case 2: asList.subList(0, asList.size()).clear(); break; |
| case 3: |
| ListIterator lit = asList.listIterator(asList.size()); |
| while (lit.hasPrevious()) { |
| lit.previous(); |
| lit.remove(); |
| } |
| break; |
| default: throw new AssertionError(); |
| } |
| testEmptyCollection(deq); |
| check(!deq.iterator().hasNext()); |
| if (isList) { |
| check(!asList.listIterator().hasPrevious()); |
| THROWS(NoSuchElementException.class, |
| new Fun(){void f(){ asList.listIterator().previous(); }}); |
| } |
| THROWS(NoSuchElementException.class, |
| new Fun(){void f(){ deq.iterator().next(); }}, |
| new Fun(){void f(){ deq.element(); }}, |
| new Fun(){void f(){ deq.getFirst(); }}, |
| new Fun(){void f(){ deq.getLast(); }}, |
| new Fun(){void f(){ deq.pop(); }}, |
| new Fun(){void f(){ deq.remove(); }}, |
| new Fun(){void f(){ deq.removeFirst(); }}, |
| new Fun(){void f(){ deq.removeLast(); }}); |
| |
| check(deq.poll() == null); |
| check(deq.pollFirst() == null); |
| check(deq.pollLast() == null); |
| check(deq.peek() == null); |
| check(deq.peekFirst() == null); |
| check(deq.peekLast() == null); |
| check(!deq.removeFirstOccurrence(e)); |
| check(!deq.removeLastOccurrence(e)); |
| |
| check(deq.addAll(originalContents) == !isEmpty); |
| equal(new ArrayList<Integer>(deq), originalContents); |
| check(!deq.addAll(Collections.<Integer>emptyList())); |
| equal(new ArrayList<Integer>(deq), originalContents); |
| } |
| } |
| |
| private static void testQueueIteratorRemove(Queue<Integer> q) { |
| System.err.printf("testQueueIteratorRemove %s%n", |
| q.getClass().getSimpleName()); |
| q.clear(); |
| for (int i = 0; i < 5; i++) |
| q.add(i); |
| Iterator<Integer> it = q.iterator(); |
| check(it.hasNext()); |
| for (int i = 3; i >= 0; i--) |
| q.remove(i); |
| equal(it.next(), 0); |
| equal(it.next(), 4); |
| |
| q.clear(); |
| for (int i = 0; i < 5; i++) |
| q.add(i); |
| it = q.iterator(); |
| equal(it.next(), 0); |
| check(it.hasNext()); |
| for (int i = 1; i < 4; i++) |
| q.remove(i); |
| equal(it.next(), 1); |
| equal(it.next(), 4); |
| } |
| |
| private static void testList(final List<Integer> l) { |
| //---------------------------------------------------------------- |
| // 4802633: (coll) AbstractList.addAll(-1,emptyCollection) |
| // doesn't throw IndexOutOfBoundsException |
| //---------------------------------------------------------------- |
| try { |
| l.addAll(-1, Collections.<Integer>emptyList()); |
| fail("Expected IndexOutOfBoundsException not thrown"); |
| } |
| catch (UnsupportedOperationException ignored) {/* OK */} |
| catch (IndexOutOfBoundsException ignored) {/* OK */} |
| catch (Throwable t) { unexpected(t); } |
| |
| // equal(l instanceof Serializable, |
| // l.subList(0,0) instanceof Serializable); |
| if (l.subList(0,0) instanceof Serializable) |
| check(l instanceof Serializable); |
| |
| equal(l instanceof RandomAccess, |
| l.subList(0,0) instanceof RandomAccess); |
| } |
| |
| private static void testCollection(Collection<Integer> c) { |
| try { testCollection1(c); } |
| catch (Throwable t) { unexpected(t); } |
| } |
| |
| private static void testCollection1(Collection<Integer> c) { |
| |
| System.out.println("\n==> " + c.getClass().getName()); |
| |
| checkFunctionalInvariants(c); |
| |
| if (! supportsAdd(c)) return; |
| //System.out.println("add() supported"); |
| |
| if (c instanceof NavigableSet) { |
| System.out.println("NavigableSet tests..."); |
| |
| NavigableSet<Integer> ns = (NavigableSet<Integer>)c; |
| testNavigableSet(ns); |
| testNavigableSet(ns.headSet(6, false)); |
| testNavigableSet(ns.headSet(5, true)); |
| testNavigableSet(ns.tailSet(0, false)); |
| testNavigableSet(ns.tailSet(1, true)); |
| testNavigableSet(ns.subSet(0, false, 5, true)); |
| testNavigableSet(ns.subSet(1, true, 6, false)); |
| } |
| |
| if (c instanceof Queue) |
| testQueue((Queue<Integer>)c); |
| |
| if (c instanceof List) |
| testList((List<Integer>)c); |
| |
| check(supportsRemove(c)); |
| |
| try { |
| oneElement(c); |
| checkFunctionalInvariants(c); |
| } |
| catch (Throwable t) { unexpected(t); } |
| |
| clear(c); testNullElement(c); |
| oneElement(c); testNullElement(c); |
| |
| clear(c); testStringElement(c); |
| oneElement(c); testStringElement(c); |
| |
| if (c.getClass().getName().matches(".*concurrent.*")) |
| testConcurrentCollection(c); |
| |
| //---------------------------------------------------------------- |
| // The "all" operations should throw NPE when passed null |
| //---------------------------------------------------------------- |
| { |
| clear(c); |
| try { |
| c.removeAll(null); |
| fail("Expected NullPointerException"); |
| } |
| catch (NullPointerException e) { pass(); } |
| catch (Throwable t) { unexpected(t); } |
| |
| oneElement(c); |
| try { |
| c.removeAll(null); |
| fail("Expected NullPointerException"); |
| } |
| catch (NullPointerException e) { pass(); } |
| catch (Throwable t) { unexpected(t); } |
| |
| clear(c); |
| try { |
| c.retainAll(null); |
| fail("Expected NullPointerException"); |
| } |
| catch (NullPointerException e) { pass(); } |
| catch (Throwable t) { unexpected(t); } |
| |
| oneElement(c); |
| try { |
| c.retainAll(null); |
| fail("Expected NullPointerException"); |
| } |
| catch (NullPointerException e) { pass(); } |
| catch (Throwable t) { unexpected(t); } |
| |
| oneElement(c); |
| try { |
| c.addAll(null); |
| fail("Expected NullPointerException"); |
| } |
| catch (NullPointerException e) { pass(); } |
| catch (Throwable t) { unexpected(t); } |
| |
| oneElement(c); |
| try { |
| c.containsAll(null); |
| fail("Expected NullPointerException"); |
| } |
| catch (NullPointerException e) { pass(); } |
| catch (Throwable t) { unexpected(t); } |
| } |
| } |
| |
| //---------------------------------------------------------------- |
| // Map |
| //---------------------------------------------------------------- |
| private static void checkFunctionalInvariants(Map<Integer,Integer> m) { |
| check(m.keySet().size() == m.entrySet().size()); |
| check(m.keySet().size() == m.size()); |
| checkFunctionalInvariants(m.keySet()); |
| checkFunctionalInvariants(m.values()); |
| check(m.size() != 0 ^ m.isEmpty()); |
| } |
| |
| private static void testMap(Map<Integer,Integer> m) { |
| System.out.println("\n==> " + m.getClass().getName()); |
| |
| if (m instanceof ConcurrentMap) |
| testConcurrentMap((ConcurrentMap<Integer,Integer>) m); |
| |
| if (m instanceof NavigableMap) { |
| System.out.println("NavigableMap tests..."); |
| |
| NavigableMap<Integer,Integer> nm = |
| (NavigableMap<Integer,Integer>) m; |
| testNavigableMapRemovers(nm); |
| testNavigableMap(nm); |
| testNavigableMap(nm.headMap(6, false)); |
| testNavigableMap(nm.headMap(5, true)); |
| testNavigableMap(nm.tailMap(0, false)); |
| testNavigableMap(nm.tailMap(1, true)); |
| testNavigableMap(nm.subMap(1, true, 6, false)); |
| testNavigableMap(nm.subMap(0, false, 5, true)); |
| } |
| |
| checkFunctionalInvariants(m); |
| |
| if (supportsClear(m)) { |
| try { clear(m); } |
| catch (Throwable t) { unexpected(t); } |
| } |
| |
| if (supportsPut(m)) { |
| try { |
| check(m.put(3333, 77777) == null); |
| check(m.put(9134, 74982) == null); |
| check(m.get(9134) == 74982); |
| check(m.put(9134, 1382) == 74982); |
| check(m.get(9134) == 1382); |
| check(m.size() == 2); |
| checkFunctionalInvariants(m); |
| checkNPEConsistency(m); |
| } |
| catch (Throwable t) { unexpected(t); } |
| } |
| } |
| |
| private static boolean supportsPut(Map<Integer,Integer> m) { |
| // We're asking for .equals(...) semantics |
| if (m instanceof IdentityHashMap) return false; |
| |
| try { check(m.put(778347983,12735) == null); } |
| catch (UnsupportedOperationException t) { return false; } |
| catch (Throwable t) { unexpected(t); } |
| |
| try { |
| check(m.containsKey(778347983)); |
| check(m.remove(778347983) != null); |
| } catch (Throwable t) { unexpected(t); } |
| return true; |
| } |
| |
| private static boolean supportsClear(Map<?,?> m) { |
| try { m.clear(); } |
| catch (UnsupportedOperationException t) { return false; } |
| catch (Throwable t) { unexpected(t); } |
| return true; |
| } |
| |
| //---------------------------------------------------------------- |
| // ConcurrentMap |
| //---------------------------------------------------------------- |
| private static void testConcurrentMap(ConcurrentMap<Integer,Integer> m) { |
| System.out.println("ConcurrentMap tests..."); |
| |
| try { |
| clear(m); |
| |
| check(m.putIfAbsent(18357,7346) == null); |
| check(m.containsKey(18357)); |
| check(m.putIfAbsent(18357,8263) == 7346); |
| try { m.putIfAbsent(18357,null); fail("NPE"); } |
| catch (NullPointerException t) { } |
| check(m.containsKey(18357)); |
| |
| check(! m.replace(18357,8888,7777)); |
| check(m.containsKey(18357)); |
| try { m.replace(18357,null,7777); fail("NPE"); } |
| catch (NullPointerException t) { } |
| check(m.containsKey(18357)); |
| check(m.get(18357) == 7346); |
| check(m.replace(18357,7346,5555)); |
| check(m.replace(18357,5555,7346)); |
| check(m.get(18357) == 7346); |
| |
| check(m.replace(92347,7834) == null); |
| try { m.replace(18357,null); fail("NPE"); } |
| catch (NullPointerException t) { } |
| check(m.replace(18357,7346) == 7346); |
| check(m.replace(18357,5555) == 7346); |
| check(m.get(18357) == 5555); |
| check(m.replace(18357,7346) == 5555); |
| check(m.get(18357) == 7346); |
| |
| check(! m.remove(18357,9999)); |
| check(m.get(18357) == 7346); |
| check(m.containsKey(18357)); |
| check(! m.remove(18357,null)); // 6272521 |
| check(m.get(18357) == 7346); |
| check(m.remove(18357,7346)); |
| check(m.get(18357) == null); |
| check(! m.containsKey(18357)); |
| check(m.isEmpty()); |
| |
| m.putIfAbsent(1,2); |
| check(m.size() == 1); |
| check(! m.remove(1,null)); |
| check(! m.remove(1,null)); |
| check(! m.remove(1,1)); |
| check(m.remove(1,2)); |
| check(m.isEmpty()); |
| |
| testEmptyMap(m); |
| } |
| catch (Throwable t) { unexpected(t); } |
| } |
| |
| private static void throwsConsistently(Class<? extends Throwable> k, |
| Iterable<Fun> fs) { |
| List<Class<? extends Throwable>> threw |
| = new ArrayList<Class<? extends Throwable>>(); |
| for (Fun f : fs) |
| try { f.f(); threw.add(null); } |
| catch (Throwable t) { |
| check(k.isAssignableFrom(t.getClass())); |
| threw.add(t.getClass()); |
| } |
| if (new HashSet<Object>(threw).size() != 1) |
| fail(threw.toString()); |
| } |
| |
| private static <T> void checkNPEConsistency(final Map<T,Integer> m) { |
| m.clear(); |
| final ConcurrentMap<T,Integer> cm = (m instanceof ConcurrentMap) |
| ? (ConcurrentMap<T,Integer>) m |
| : null; |
| List<Fun> fs = new ArrayList<Fun>(); |
| fs.add(new Fun(){void f(){ check(! m.containsKey(null));}}); |
| fs.add(new Fun(){void f(){ equal(m.remove(null), null);}}); |
| fs.add(new Fun(){void f(){ equal(m.get(null), null);}}); |
| if (cm != null) { |
| fs.add(new Fun(){void f(){ check(! cm.remove(null,null));}});} |
| throwsConsistently(NullPointerException.class, fs); |
| |
| fs.clear(); |
| final Map<T,Integer> sm = singletonMap(null,1); |
| fs.add(new Fun(){void f(){ equal(m.put(null,1), null); m.clear();}}); |
| fs.add(new Fun(){void f(){ m.putAll(sm); m.clear();}}); |
| if (cm != null) { |
| fs.add(new Fun(){void f(){ check(! cm.remove(null,null));}}); |
| fs.add(new Fun(){void f(){ equal(cm.putIfAbsent(null,1), 1);}}); |
| fs.add(new Fun(){void f(){ equal(cm.replace(null,1), null);}}); |
| fs.add(new Fun(){void f(){ equal(cm.replace(null,1, 1), 1);}}); |
| } |
| throwsConsistently(NullPointerException.class, fs); |
| } |
| |
| //---------------------------------------------------------------- |
| // NavigableMap |
| //---------------------------------------------------------------- |
| private static void |
| checkNavigableMapKeys(NavigableMap<Integer,Integer> m, |
| Integer i, |
| Integer lower, |
| Integer floor, |
| Integer ceiling, |
| Integer higher) { |
| equal(m.lowerKey(i), lower); |
| equal(m.floorKey(i), floor); |
| equal(m.ceilingKey(i), ceiling); |
| equal(m.higherKey(i), higher); |
| } |
| |
| private static void |
| checkNavigableSetKeys(NavigableSet<Integer> m, |
| Integer i, |
| Integer lower, |
| Integer floor, |
| Integer ceiling, |
| Integer higher) { |
| equal(m.lower(i), lower); |
| equal(m.floor(i), floor); |
| equal(m.ceiling(i), ceiling); |
| equal(m.higher(i), higher); |
| } |
| |
| static final Random rnd = new Random(); |
| static void equalNext(final Iterator<?> it, Object expected) { |
| if (rnd.nextBoolean()) |
| check(it.hasNext()); |
| equal(it.next(), expected); |
| } |
| |
| static void equalMaps(Map m1, Map m2) { |
| equal(m1, m2); |
| equal(m2, m1); |
| equal(m1.size(), m2.size()); |
| equal(m1.isEmpty(), m2.isEmpty()); |
| equal(m1.toString(), m2.toString()); |
| check(Arrays.equals(m1.entrySet().toArray(), m2.entrySet().toArray())); |
| } |
| |
| @SuppressWarnings({"unchecked", "rawtypes"}) |
| static void testNavigableMapRemovers(NavigableMap m) |
| { |
| final Map emptyMap = new HashMap(); |
| |
| final Map singletonMap = new HashMap(); |
| singletonMap.put(1, 2); |
| |
| abstract class NavigableMapView { |
| abstract NavigableMap view(NavigableMap m); |
| } |
| |
| NavigableMapView[] views = { |
| new NavigableMapView() { NavigableMap view(NavigableMap m) { |
| return m; }}, |
| new NavigableMapView() { NavigableMap view(NavigableMap m) { |
| return m.headMap(99, true); }}, |
| new NavigableMapView() { NavigableMap view(NavigableMap m) { |
| return m.tailMap(-99, false); }}, |
| new NavigableMapView() { NavigableMap view(NavigableMap m) { |
| return m.subMap(-99, true, 99, false); }}, |
| }; |
| |
| abstract class Remover { |
| abstract void remove(NavigableMap m, Object k, Object v); |
| } |
| |
| Remover[] removers = { |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| equal(m.remove(k), v); }}, |
| |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| equal(m.descendingMap().remove(k), v); }}, |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| equal(m.descendingMap().headMap(-86, false).remove(k), v); }}, |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| equal(m.descendingMap().tailMap(86, true).remove(k), v); }}, |
| |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| equal(m.headMap(86, true).remove(k), v); }}, |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| equal(m.tailMap(-86, true).remove(k), v); }}, |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| equal(m.subMap(-86, false, 86, true).remove(k), v); }}, |
| |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| check(m.keySet().remove(k)); }}, |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| check(m.navigableKeySet().remove(k)); }}, |
| |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| check(m.navigableKeySet().headSet(86, true).remove(k)); }}, |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| check(m.navigableKeySet().tailSet(-86, false).remove(k)); }}, |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| check(m.navigableKeySet().subSet(-86, true, 86, false) |
| .remove(k)); }}, |
| |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| check(m.descendingKeySet().headSet(-86, false).remove(k)); }}, |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| check(m.descendingKeySet().tailSet(86, true).remove(k)); }}, |
| new Remover() { void remove(NavigableMap m, Object k, Object v) { |
| check(m.descendingKeySet().subSet(86, true, -86, false) |
| .remove(k)); }}, |
| }; |
| |
| for (NavigableMapView view : views) { |
| for (Remover remover : removers) { |
| try { |
| m.clear(); |
| equalMaps(m, emptyMap); |
| equal(m.put(1, 2), null); |
| equalMaps(m, singletonMap); |
| NavigableMap v = view.view(m); |
| remover.remove(v, 1, 2); |
| equalMaps(m, emptyMap); |
| } catch (Throwable t) { unexpected(t); } |
| } |
| } |
| } |
| |
| private static void testNavigableMap(NavigableMap<Integer,Integer> m) |
| { |
| clear(m); |
| checkNavigableMapKeys(m, 1, null, null, null, null); |
| |
| equal(m.put(1, 2), null); |
| equal(m.put(3, 4), null); |
| equal(m.put(5, 9), null); |
| |
| equal(m.put(1, 2), 2); |
| equal(m.put(3, 4), 4); |
| equal(m.put(5, 6), 9); |
| |
| checkNavigableMapKeys(m, 0, null, null, 1, 1); |
| checkNavigableMapKeys(m, 1, null, 1, 1, 3); |
| checkNavigableMapKeys(m, 2, 1, 1, 3, 3); |
| checkNavigableMapKeys(m, 3, 1, 3, 3, 5); |
| checkNavigableMapKeys(m, 5, 3, 5, 5, null); |
| checkNavigableMapKeys(m, 6, 5, 5, null, null); |
| |
| for (final Iterator<Integer> it : |
| (Iterator<Integer>[]) |
| new Iterator<?>[] { |
| m.descendingKeySet().iterator(), |
| m.navigableKeySet().descendingIterator()}) { |
| equalNext(it, 5); |
| equalNext(it, 3); |
| equalNext(it, 1); |
| check(! it.hasNext()); |
| THROWS(NoSuchElementException.class, |
| new Fun(){void f(){it.next();}}); |
| } |
| |
| { |
| final Iterator<Map.Entry<Integer,Integer>> it |
| = m.descendingMap().entrySet().iterator(); |
| check(it.hasNext()); equal(it.next().getKey(), 5); |
| check(it.hasNext()); equal(it.next().getKey(), 3); |
| check(it.hasNext()); equal(it.next().getKey(), 1); |
| check(! it.hasNext()); |
| THROWS(NoSuchElementException.class, |
| new Fun(){void f(){it.next();}}); |
| } |
| |
| prepMapForDescItrTests(m); |
| checkDescItrRmFirst(m.keySet(), m.navigableKeySet().descendingIterator()); |
| prepMapForDescItrTests(m); |
| checkDescItrRmMid(m.keySet(), m.navigableKeySet().descendingIterator()); |
| prepMapForDescItrTests(m); |
| checkDescItrRmLast(m.keySet(), m.navigableKeySet().descendingIterator()); |
| |
| prepMapForDescItrTests(m); |
| checkDescItrRmFirst(m.keySet(), m.descendingMap().keySet().iterator()); |
| prepMapForDescItrTests(m); |
| checkDescItrRmMid(m.keySet(), m.descendingMap().keySet().iterator()); |
| prepMapForDescItrTests(m); |
| checkDescItrRmLast(m.keySet(), m.descendingMap().keySet().iterator()); |
| |
| prepMapForDescItrTests(m); |
| checkDescItrRmFirst(m.keySet(), m.descendingKeySet().iterator()); |
| prepMapForDescItrTests(m); |
| checkDescItrRmMid(m.keySet(), m.descendingKeySet().iterator()); |
| prepMapForDescItrTests(m); |
| checkDescItrRmLast(m.keySet(), m.descendingKeySet().iterator()); |
| |
| prepMapForDescItrTests(m); |
| checkDescItrRmFirst(m.values(), m.descendingMap().values().iterator()); |
| prepMapForDescItrTests(m); |
| checkDescItrRmMid(m.values(), m.descendingMap().values().iterator()); |
| prepMapForDescItrTests(m); |
| checkDescItrRmLast(m.values(), m.descendingMap().values().iterator()); |
| |
| prepMapForDescItrTests(m); |
| checkDescItrRmFirst((Collection)m.entrySet(), |
| m.descendingMap().entrySet().iterator()); |
| prepMapForDescItrTests(m); |
| checkDescItrRmMid((Collection)m.entrySet(), |
| m.descendingMap().entrySet().iterator()); |
| prepMapForDescItrTests(m); |
| checkDescItrRmLast((Collection)m.entrySet(), |
| m.descendingMap().entrySet().iterator()); |
| } |
| |
| private static void testNavigableSet(NavigableSet<Integer> s) { |
| clear(s); |
| checkNavigableSetKeys(s, 1, null, null, null, null); |
| |
| check(s.add(1)); |
| check(s.add(3)); |
| check(s.add(5)); |
| |
| check(! s.add(1)); |
| check(! s.add(3)); |
| check(! s.add(5)); |
| |
| checkNavigableSetKeys(s, 0, null, null, 1, 1); |
| checkNavigableSetKeys(s, 1, null, 1, 1, 3); |
| checkNavigableSetKeys(s, 2, 1, 1, 3, 3); |
| checkNavigableSetKeys(s, 3, 1, 3, 3, 5); |
| checkNavigableSetKeys(s, 5, 3, 5, 5, null); |
| checkNavigableSetKeys(s, 6, 5, 5, null, null); |
| |
| for (final Iterator<Integer> it : |
| (Iterator<Integer>[]) |
| new Iterator<?>[] { |
| s.descendingIterator(), |
| s.descendingSet().iterator()}) { |
| equalNext(it, 5); |
| equalNext(it, 3); |
| equalNext(it, 1); |
| check(! it.hasNext()); |
| THROWS(NoSuchElementException.class, |
| new Fun(){void f(){it.next();}}); |
| } |
| |
| prepSetForDescItrTests(s); |
| checkDescItrRmFirst(s, s.descendingIterator()); |
| prepSetForDescItrTests(s); |
| checkDescItrRmMid(s, s.descendingIterator()); |
| prepSetForDescItrTests(s); |
| checkDescItrRmLast(s, s.descendingIterator()); |
| |
| prepSetForDescItrTests(s); |
| checkDescItrRmFirst(s, s.descendingSet().iterator()); |
| prepSetForDescItrTests(s); |
| checkDescItrRmMid(s, s.descendingSet().iterator()); |
| prepSetForDescItrTests(s); |
| checkDescItrRmLast(s, s.descendingSet().iterator()); |
| } |
| |
| private static void prepSetForDescItrTests(Set s) { |
| clear(s); |
| check(s.add(1)); |
| check(s.add(3)); |
| check(s.add(5)); |
| } |
| |
| private static void prepMapForDescItrTests(Map m) { |
| clear(m); |
| equal(m.put(1, 2), null); |
| equal(m.put(3, 4), null); |
| equal(m.put(5, 9), null); |
| } |
| |
| //-------------------------------------------------------------------- |
| // Check behavior of descending iterator when first element is removed |
| //-------------------------------------------------------------------- |
| private static <T> void checkDescItrRmFirst(Collection<T> ascColl, |
| Iterator<T> descItr) { |
| T[] expected = (T[]) ascColl.toArray(); |
| int idx = expected.length -1; |
| |
| equalNext(descItr, expected[idx--]); |
| descItr.remove(); |
| while(idx >= 0 && descItr.hasNext()) { |
| equalNext(descItr, expected[idx--]); |
| } |
| equal(descItr.hasNext(), false); |
| equal(idx, -1); |
| } |
| |
| //----------------------------------------------------------------------- |
| // Check behavior of descending iterator when a middle element is removed |
| //----------------------------------------------------------------------- |
| private static <T> void checkDescItrRmMid(Collection<T> ascColl, |
| Iterator<T> descItr) { |
| T[] expected = (T[]) ascColl.toArray(); |
| int idx = expected.length -1; |
| |
| while (idx >= expected.length / 2) { |
| equalNext(descItr, expected[idx--]); |
| } |
| descItr.remove(); |
| while (idx >= 0 && descItr.hasNext()) { |
| equalNext(descItr, expected[idx--]); |
| } |
| equal(descItr.hasNext(), false); |
| equal(idx, -1); |
| } |
| |
| //----------------------------------------------------------------------- |
| // Check behavior of descending iterator when the last element is removed |
| //----------------------------------------------------------------------- |
| private static <T> void checkDescItrRmLast(Collection<T> ascColl, |
| Iterator<T> descItr) { |
| T[] expected = (T[]) ascColl.toArray(); |
| int idx = expected.length -1; |
| |
| while (idx >= 0 && descItr.hasNext()) { |
| equalNext(descItr, expected[idx--]); |
| } |
| equal(idx, -1); |
| equal(descItr.hasNext(), false); |
| descItr.remove(); |
| equal(ascColl.contains(expected[0]), false); |
| } |
| |
| //--------------------- Infrastructure --------------------------- |
| static volatile int passed = 0, failed = 0; |
| static void pass() { passed++; } |
| static void fail() { failed++; Thread.dumpStack(); } |
| static void fail(String msg) { System.out.println(msg); fail(); } |
| static void unexpected(Throwable t) { failed++; t.printStackTrace(); } |
| static void check(boolean cond) { if (cond) pass(); else fail(); } |
| static void equal(Object x, Object y) { |
| if (x == null ? y == null : x.equals(y)) pass(); |
| else {System.out.println(x + " not equal to " + y); fail();}} |
| static void equal2(Object x, Object y) {equal(x, y); equal(y, x);} |
| public static void main(String[] args) throws Throwable { |
| try { realMain(args); } catch (Throwable t) { unexpected(t); } |
| |
| System.out.printf("%nPassed = %d, failed = %d%n%n", passed, failed); |
| if (failed > 0) throw new Exception("Some tests failed"); |
| } |
| private static abstract class Fun {abstract void f() throws Throwable;} |
| private static void THROWS(Class<? extends Throwable> k, Fun... fs) { |
| for (Fun f : fs) |
| try { f.f(); fail("Expected " + k.getName() + " not thrown"); } |
| catch (Throwable t) { |
| if (k.isAssignableFrom(t.getClass())) pass(); |
| else unexpected(t);}} |
| static byte[] serializedForm(Object obj) { |
| try { |
| ByteArrayOutputStream baos = new ByteArrayOutputStream(); |
| new ObjectOutputStream(baos).writeObject(obj); |
| return baos.toByteArray(); |
| } catch (IOException e) { throw new Error(e); }} |
| static Object readObject(byte[] bytes) |
| throws IOException, ClassNotFoundException { |
| InputStream is = new ByteArrayInputStream(bytes); |
| return new ObjectInputStream(is).readObject();} |
| @SuppressWarnings("unchecked") |
| static <T> T serialClone(T obj) { |
| try { return (T) readObject(serializedForm(obj)); } |
| catch (Exception e) { throw new Error(e); }} |
| private static class NewAbstractCollection<E> extends AbstractCollection<E> { |
| ArrayList<E> list = new ArrayList<>(); |
| public boolean remove(Object obj) { |
| return list.remove(obj); |
| } |
| public boolean add(E e) { |
| return list.add(e); |
| } |
| public Iterator<E> iterator() { |
| return list.iterator(); |
| } |
| public int size() { |
| return list.size(); |
| } |
| } |
| private static class NewAbstractSet<E> extends AbstractSet<E> { |
| HashSet<E> set = new HashSet<>(); |
| public boolean remove(Object obj) { |
| return set.remove(obj); |
| } |
| public boolean add(E e) { |
| return set.add(e); |
| } |
| public Iterator<E> iterator() { |
| return set.iterator(); |
| } |
| public int size() { |
| return set.size(); |
| } |
| } |
| |
| } |