/**
* Returns true if the option is present in the specified internal option container, otherwise
* false.
*
* @param type the internal option container
* @param option the option object
* @return true if the option is present in the specified internal option container, otherwise
* false
* @throws OptionException
*/
public boolean contains(int type, Option option) throws OptionException {
if (type == OptionContainer.SAVEDOPTION) {
return savedOptionMap.containsValue(option);
} else if (type == OptionContainer.DEPENDENCIES_RESOLVED) {
return dependenciesResolvedOptionMap.containsValue(option);
} else if (type == OptionContainer.COMMANDLINE) {
return commandLineOptionMap.containsValue(option);
} else if (type == OptionContainer.OPTIONFILE) {
return optionFileOptionMap.containsValue(option);
} else {
throw new OptionException("Unknown option container type");
}
}
public boolean contains(Construct c) {
if (associative_mode) {
return associative_array.containsValue(c);
} else {
return array.contains(c);
}
}
public boolean containsValue(Object value) {
return map.containsValue(value);
}
public boolean containsValue(Object o) {
checkInit();
return delegate.containsValue(o);
}
private <K, V> void checkIndex(
EntityIndex<K, V> index,
SortedMap<Integer, SortedSet<Integer>> expected,
Getter<K> kGetter,
Getter<V> vGetter)
throws DatabaseException {
SortedMap<K, V> map = index.sortedMap();
Transaction txn = txnBegin();
for (int i : expected.keySet()) {
K k = kGetter.fromInt(i);
SortedSet<Integer> dups = expected.get(i);
if (dups.isEmpty()) {
/* EntityIndex */
V v = index.get(txn, k, null);
assertNull(v);
assertTrue(!index.contains(txn, k, null));
/* Map/Collection */
v = map.get(i);
assertNull(v);
assertTrue(!map.containsKey(i));
} else {
int j = dups.first();
/* EntityIndex */
V v = index.get(txn, k, null);
assertNotNull(v);
assertEquals(j, vGetter.getKey(v));
assertTrue(index.contains(txn, k, null));
/* Map/Collection */
v = map.get(i);
assertNotNull(v);
assertEquals(j, vGetter.getKey(v));
assertTrue(map.containsKey(i));
assertTrue("" + i + ' ' + j + ' ' + v + ' ' + map, map.containsValue(v));
assertTrue(map.keySet().contains(i));
assertTrue(map.values().contains(v));
assertTrue(map.entrySet().contains(new MapEntryParameter(i, v)));
}
}
txnCommit(txn);
int keysSize = expandKeySize(expected);
int valuesSize = expandValueSize(expected);
/* EntityIndex.count */
assertEquals("keysSize=" + keysSize, valuesSize, index.count());
/* Map/Collection size */
assertEquals(valuesSize, map.size());
assertEquals(valuesSize, map.values().size());
assertEquals(valuesSize, map.entrySet().size());
assertEquals(keysSize, map.keySet().size());
/* Map/Collection isEmpty */
assertEquals(valuesSize == 0, map.isEmpty());
assertEquals(valuesSize == 0, map.values().isEmpty());
assertEquals(valuesSize == 0, map.entrySet().isEmpty());
assertEquals(keysSize == 0, map.keySet().isEmpty());
txn = txnBeginCursor();
/* Unconstrained cursors. */
checkCursor(index.keys(txn, null), map.keySet(), true, expandKeys(expected), kGetter);
checkCursor(index.entities(txn, null), map.values(), false, expandValues(expected), vGetter);
/* Range cursors. */
if (expected.isEmpty()) {
checkOpenRanges(txn, 0, index, expected, kGetter, vGetter);
checkClosedRanges(txn, 0, 1, index, expected, kGetter, vGetter);
} else {
int firstKey = expected.firstKey();
int lastKey = expected.lastKey();
for (int i = firstKey - 1; i <= lastKey + 1; i += 1) {
checkOpenRanges(txn, i, index, expected, kGetter, vGetter);
int j = i + 1;
if (j < lastKey + 1) {
checkClosedRanges(txn, i, j, index, expected, kGetter, vGetter);
}
}
}
txnCommit(txn);
}
private <K, V> void verify(
SortedMap<K, V> immutableMap, SortedMap<K, V> mutableMap, K key1, K key2, V value) {
try {
immutableMap.clear();
Assert.assertTrue(mutableMap.isEmpty());
} catch (UnsupportedOperationException e) {
Assert.assertFalse(mutableMap.isEmpty());
}
Assert.assertEquals(immutableMap.containsKey(key1), mutableMap.containsKey(key1));
Assert.assertEquals(immutableMap.containsKey(key2), mutableMap.containsKey(key2));
Assert.assertEquals(immutableMap.containsValue(value), mutableMap.containsValue(value));
Assert.assertEquals(immutableMap.containsValue(null), mutableMap.containsValue(null));
Assert.assertEquals(immutableMap.entrySet(), mutableMap.entrySet());
Assert.assertEquals(immutableMap.get(key1), mutableMap.get(key1));
Assert.assertEquals(immutableMap.get(key2), mutableMap.get(key2));
Assert.assertEquals(immutableMap.isEmpty(), mutableMap.isEmpty());
Assert.assertEquals(immutableMap.keySet(), mutableMap.keySet());
try {
immutableMap.put(key1, value);
Assert.fail();
} catch (UnsupportedOperationException e) {
}
try {
immutableMap.putAll(java.util.Collections.singletonMap(key1, value));
Assert.fail();
} catch (UnsupportedOperationException e) {
}
try {
immutableMap.remove(key1);
} catch (UnsupportedOperationException e) {
}
Assert.assertEquals(immutableMap.size(), mutableMap.size());
// Is it OK that this fails?
// Assert.assertEquals(immutableMap.values(), mutableMap.values());
Assert.assertEquals(immutableMap.values().size(), mutableMap.values().size());
if (!mutableMap.isEmpty()) {
Assert.assertEquals(
immutableMap.values().iterator().next(), mutableMap.values().iterator().next());
}
Assert.assertSame(immutableMap.comparator(), mutableMap.comparator());
if (!mutableMap.isEmpty()) {
Assert.assertEquals(immutableMap.firstKey(), mutableMap.firstKey());
Assert.assertEquals(immutableMap.lastKey(), mutableMap.lastKey());
} else {
try {
immutableMap.firstKey();
Assert.fail();
} catch (NoSuchElementException e) {
}
try {
immutableMap.lastKey();
Assert.fail();
} catch (NoSuchElementException e) {
}
}
Assert.assertEquals(immutableMap.headMap(key1), mutableMap.headMap(key1));
Assert.assertEquals(immutableMap.headMap(key2), mutableMap.headMap(key2));
Assert.assertEquals(immutableMap.subMap(key1, key2), mutableMap.subMap(key1, key2));
Assert.assertEquals(immutableMap.tailMap(key1), mutableMap.tailMap(key1));
Assert.assertEquals(immutableMap.tailMap(key2), mutableMap.tailMap(key2));
}