8231592: Clarify that ConcurrentHashMap compute methods mapping functions execute at most once
Reviewed-by: martin
/*
* 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.
*/
/*
* This file is available under and governed by the GNU General Public
* License version 2 only, as published by the Free Software Foundation.
* However, the following notice accompanied the original version of this
* file:
*
* Written by Doug Lea with assistance from members of JCP JSR-166
* Expert Group and released to the public domain, as explained at
* http://creativecommons.org/publicdomain/zero/1.0/
*/
import java.util.Arrays;
import java.util.BitSet;
import java.util.Collection;
import java.util.Iterator;
import java.util.Map;
import java.util.NavigableMap;
import java.util.NavigableSet;
import java.util.NoSuchElementException;
import java.util.Random;
import java.util.Set;
import java.util.TreeMap;
import junit.framework.Test;
public class TreeMapTest extends JSR166TestCase {
public static void main(String[] args) {
main(suite(), args);
}
public static Test suite() {
class Implementation implements MapImplementation {
public Class<?> klazz() { return TreeMap.class; }
public Map emptyMap() { return new TreeMap(); }
public boolean isConcurrent() { return false; }
public boolean permitsNullKeys() { return false; }
public boolean permitsNullValues() { return true; }
public boolean supportsSetValue() { return true; }
}
return newTestSuite(
TreeMapTest.class,
MapTest.testSuite(new Implementation()));
}
/**
* Returns a new map from Integers 1-5 to Strings "A"-"E".
*/
private static TreeMap map5() {
TreeMap map = new TreeMap();
assertTrue(map.isEmpty());
map.put(one, "A");
map.put(five, "E");
map.put(three, "C");
map.put(two, "B");
map.put(four, "D");
assertFalse(map.isEmpty());
assertEquals(5, map.size());
return map;
}
/**
* clear removes all pairs
*/
public void testClear() {
TreeMap map = map5();
map.clear();
assertEquals(0, map.size());
}
/**
* copy constructor creates map equal to source map
*/
public void testConstructFromSorted() {
TreeMap map = map5();
TreeMap map2 = new TreeMap(map);
assertEquals(map, map2);
}
/**
* Maps with same contents are equal
*/
public void testEquals() {
TreeMap map1 = map5();
TreeMap map2 = map5();
assertEquals(map1, map2);
assertEquals(map2, map1);
map1.clear();
assertFalse(map1.equals(map2));
assertFalse(map2.equals(map1));
}
/**
* containsKey returns true for contained key
*/
public void testContainsKey() {
TreeMap map = map5();
assertTrue(map.containsKey(one));
assertFalse(map.containsKey(zero));
}
/**
* containsValue returns true for held values
*/
public void testContainsValue() {
TreeMap map = map5();
assertTrue(map.containsValue("A"));
assertFalse(map.containsValue("Z"));
}
/**
* get returns the correct element at the given key,
* or null if not present
*/
public void testGet() {
TreeMap map = map5();
assertEquals("A", (String)map.get(one));
TreeMap empty = new TreeMap();
assertNull(empty.get(one));
}
/**
* isEmpty is true of empty map and false for non-empty
*/
public void testIsEmpty() {
TreeMap empty = new TreeMap();
TreeMap map = map5();
assertTrue(empty.isEmpty());
assertFalse(map.isEmpty());
}
/**
* firstKey returns first key
*/
public void testFirstKey() {
TreeMap map = map5();
assertEquals(one, map.firstKey());
}
/**
* lastKey returns last key
*/
public void testLastKey() {
TreeMap map = map5();
assertEquals(five, map.lastKey());
}
/**
* keySet.toArray returns contains all keys
*/
public void testKeySetToArray() {
TreeMap map = map5();
Set s = map.keySet();
Object[] ar = s.toArray();
assertTrue(s.containsAll(Arrays.asList(ar)));
assertEquals(5, ar.length);
ar[0] = m10;
assertFalse(s.containsAll(Arrays.asList(ar)));
}
/**
* descendingkeySet.toArray returns contains all keys
*/
public void testDescendingKeySetToArray() {
TreeMap map = map5();
Set s = map.descendingKeySet();
Object[] ar = s.toArray();
assertEquals(5, ar.length);
assertTrue(s.containsAll(Arrays.asList(ar)));
ar[0] = m10;
assertFalse(s.containsAll(Arrays.asList(ar)));
}
/**
* keySet returns a Set containing all the keys
*/
public void testKeySet() {
TreeMap map = map5();
Set s = map.keySet();
assertEquals(5, s.size());
assertTrue(s.contains(one));
assertTrue(s.contains(two));
assertTrue(s.contains(three));
assertTrue(s.contains(four));
assertTrue(s.contains(five));
}
/**
* keySet is ordered
*/
public void testKeySetOrder() {
TreeMap map = map5();
Set s = map.keySet();
Iterator i = s.iterator();
Integer last = (Integer)i.next();
assertEquals(last, one);
int count = 1;
while (i.hasNext()) {
Integer k = (Integer)i.next();
assertTrue(last.compareTo(k) < 0);
last = k;
++count;
}
assertEquals(5, count);
}
/**
* descending iterator of key set is inverse ordered
*/
public void testKeySetDescendingIteratorOrder() {
TreeMap map = map5();
NavigableSet s = map.navigableKeySet();
Iterator i = s.descendingIterator();
Integer last = (Integer)i.next();
assertEquals(last, five);
int count = 1;
while (i.hasNext()) {
Integer k = (Integer)i.next();
assertTrue(last.compareTo(k) > 0);
last = k;
++count;
}
assertEquals(5, count);
}
/**
* descendingKeySet is ordered
*/
public void testDescendingKeySetOrder() {
TreeMap map = map5();
Set s = map.descendingKeySet();
Iterator i = s.iterator();
Integer last = (Integer)i.next();
assertEquals(last, five);
int count = 1;
while (i.hasNext()) {
Integer k = (Integer)i.next();
assertTrue(last.compareTo(k) > 0);
last = k;
++count;
}
assertEquals(5, count);
}
/**
* descending iterator of descendingKeySet is ordered
*/
public void testDescendingKeySetDescendingIteratorOrder() {
TreeMap map = map5();
NavigableSet s = map.descendingKeySet();
Iterator i = s.descendingIterator();
Integer last = (Integer)i.next();
assertEquals(last, one);
int count = 1;
while (i.hasNext()) {
Integer k = (Integer)i.next();
assertTrue(last.compareTo(k) < 0);
last = k;
++count;
}
assertEquals(5, count);
}
/**
* values collection contains all values
*/
public void testValues() {
TreeMap map = map5();
Collection s = map.values();
assertEquals(5, s.size());
assertTrue(s.contains("A"));
assertTrue(s.contains("B"));
assertTrue(s.contains("C"));
assertTrue(s.contains("D"));
assertTrue(s.contains("E"));
}
/**
* entrySet contains all pairs
*/
public void testEntrySet() {
TreeMap map = map5();
Set s = map.entrySet();
assertEquals(5, s.size());
Iterator it = s.iterator();
while (it.hasNext()) {
Map.Entry e = (Map.Entry) it.next();
assertTrue(
(e.getKey().equals(one) && e.getValue().equals("A")) ||
(e.getKey().equals(two) && e.getValue().equals("B")) ||
(e.getKey().equals(three) && e.getValue().equals("C")) ||
(e.getKey().equals(four) && e.getValue().equals("D")) ||
(e.getKey().equals(five) && e.getValue().equals("E")));
}
}
/**
* descendingEntrySet contains all pairs
*/
public void testDescendingEntrySet() {
TreeMap map = map5();
Set s = map.descendingMap().entrySet();
assertEquals(5, s.size());
Iterator it = s.iterator();
while (it.hasNext()) {
Map.Entry e = (Map.Entry) it.next();
assertTrue(
(e.getKey().equals(one) && e.getValue().equals("A")) ||
(e.getKey().equals(two) && e.getValue().equals("B")) ||
(e.getKey().equals(three) && e.getValue().equals("C")) ||
(e.getKey().equals(four) && e.getValue().equals("D")) ||
(e.getKey().equals(five) && e.getValue().equals("E")));
}
}
/**
* entrySet.toArray contains all entries
*/
public void testEntrySetToArray() {
TreeMap map = map5();
Set s = map.entrySet();
Object[] ar = s.toArray();
assertEquals(5, ar.length);
for (int i = 0; i < 5; ++i) {
assertTrue(map.containsKey(((Map.Entry)(ar[i])).getKey()));
assertTrue(map.containsValue(((Map.Entry)(ar[i])).getValue()));
}
}
/**
* descendingEntrySet.toArray contains all entries
*/
public void testDescendingEntrySetToArray() {
TreeMap map = map5();
Set s = map.descendingMap().entrySet();
Object[] ar = s.toArray();
assertEquals(5, ar.length);
for (int i = 0; i < 5; ++i) {
assertTrue(map.containsKey(((Map.Entry)(ar[i])).getKey()));
assertTrue(map.containsValue(((Map.Entry)(ar[i])).getValue()));
}
}
/**
* putAll adds all key-value pairs from the given map
*/
public void testPutAll() {
TreeMap empty = new TreeMap();
TreeMap map = map5();
empty.putAll(map);
assertEquals(5, empty.size());
assertTrue(empty.containsKey(one));
assertTrue(empty.containsKey(two));
assertTrue(empty.containsKey(three));
assertTrue(empty.containsKey(four));
assertTrue(empty.containsKey(five));
}
/**
* remove removes the correct key-value pair from the map
*/
public void testRemove() {
TreeMap map = map5();
map.remove(five);
assertEquals(4, map.size());
assertFalse(map.containsKey(five));
}
/**
* lowerEntry returns preceding entry.
*/
public void testLowerEntry() {
TreeMap map = map5();
Map.Entry e1 = map.lowerEntry(three);
assertEquals(two, e1.getKey());
Map.Entry e2 = map.lowerEntry(six);
assertEquals(five, e2.getKey());
Map.Entry e3 = map.lowerEntry(one);
assertNull(e3);
Map.Entry e4 = map.lowerEntry(zero);
assertNull(e4);
}
/**
* higherEntry returns next entry.
*/
public void testHigherEntry() {
TreeMap map = map5();
Map.Entry e1 = map.higherEntry(three);
assertEquals(four, e1.getKey());
Map.Entry e2 = map.higherEntry(zero);
assertEquals(one, e2.getKey());
Map.Entry e3 = map.higherEntry(five);
assertNull(e3);
Map.Entry e4 = map.higherEntry(six);
assertNull(e4);
}
/**
* floorEntry returns preceding entry.
*/
public void testFloorEntry() {
TreeMap map = map5();
Map.Entry e1 = map.floorEntry(three);
assertEquals(three, e1.getKey());
Map.Entry e2 = map.floorEntry(six);
assertEquals(five, e2.getKey());
Map.Entry e3 = map.floorEntry(one);
assertEquals(one, e3.getKey());
Map.Entry e4 = map.floorEntry(zero);
assertNull(e4);
}
/**
* ceilingEntry returns next entry.
*/
public void testCeilingEntry() {
TreeMap map = map5();
Map.Entry e1 = map.ceilingEntry(three);
assertEquals(three, e1.getKey());
Map.Entry e2 = map.ceilingEntry(zero);
assertEquals(one, e2.getKey());
Map.Entry e3 = map.ceilingEntry(five);
assertEquals(five, e3.getKey());
Map.Entry e4 = map.ceilingEntry(six);
assertNull(e4);
}
/**
* lowerKey returns preceding element
*/
public void testLowerKey() {
TreeMap q = map5();
Object e1 = q.lowerKey(three);
assertEquals(two, e1);
Object e2 = q.lowerKey(six);
assertEquals(five, e2);
Object e3 = q.lowerKey(one);
assertNull(e3);
Object e4 = q.lowerKey(zero);
assertNull(e4);
}
/**
* higherKey returns next element
*/
public void testHigherKey() {
TreeMap q = map5();
Object e1 = q.higherKey(three);
assertEquals(four, e1);
Object e2 = q.higherKey(zero);
assertEquals(one, e2);
Object e3 = q.higherKey(five);
assertNull(e3);
Object e4 = q.higherKey(six);
assertNull(e4);
}
/**
* floorKey returns preceding element
*/
public void testFloorKey() {
TreeMap q = map5();
Object e1 = q.floorKey(three);
assertEquals(three, e1);
Object e2 = q.floorKey(six);
assertEquals(five, e2);
Object e3 = q.floorKey(one);
assertEquals(one, e3);
Object e4 = q.floorKey(zero);
assertNull(e4);
}
/**
* ceilingKey returns next element
*/
public void testCeilingKey() {
TreeMap q = map5();
Object e1 = q.ceilingKey(three);
assertEquals(three, e1);
Object e2 = q.ceilingKey(zero);
assertEquals(one, e2);
Object e3 = q.ceilingKey(five);
assertEquals(five, e3);
Object e4 = q.ceilingKey(six);
assertNull(e4);
}
/**
* pollFirstEntry returns entries in order
*/
public void testPollFirstEntry() {
TreeMap map = map5();
Map.Entry e = map.pollFirstEntry();
assertEquals(one, e.getKey());
assertEquals("A", e.getValue());
e = map.pollFirstEntry();
assertEquals(two, e.getKey());
map.put(one, "A");
e = map.pollFirstEntry();
assertEquals(one, e.getKey());
assertEquals("A", e.getValue());
e = map.pollFirstEntry();
assertEquals(three, e.getKey());
map.remove(four);
e = map.pollFirstEntry();
assertEquals(five, e.getKey());
try {
e.setValue("A");
shouldThrow();
} catch (UnsupportedOperationException success) {}
e = map.pollFirstEntry();
assertNull(e);
}
/**
* pollLastEntry returns entries in order
*/
public void testPollLastEntry() {
TreeMap map = map5();
Map.Entry e = map.pollLastEntry();
assertEquals(five, e.getKey());
assertEquals("E", e.getValue());
e = map.pollLastEntry();
assertEquals(four, e.getKey());
map.put(five, "E");
e = map.pollLastEntry();
assertEquals(five, e.getKey());
assertEquals("E", e.getValue());
e = map.pollLastEntry();
assertEquals(three, e.getKey());
map.remove(two);
e = map.pollLastEntry();
assertEquals(one, e.getKey());
try {
e.setValue("E");
shouldThrow();
} catch (UnsupportedOperationException success) {}
e = map.pollLastEntry();
assertNull(e);
}
/**
* size returns the correct values
*/
public void testSize() {
TreeMap map = map5();
TreeMap empty = new TreeMap();
assertEquals(0, empty.size());
assertEquals(5, map.size());
}
/**
* toString contains toString of elements
*/
public void testToString() {
TreeMap map = map5();
String s = map.toString();
for (int i = 1; i <= 5; ++i) {
assertTrue(s.contains(String.valueOf(i)));
}
}
// Exception tests
/**
* get(null) of nonempty map throws NPE
*/
public void testGet_NullPointerException() {
TreeMap c = map5();
try {
c.get(null);
shouldThrow();
} catch (NullPointerException success) {}
}
/**
* containsKey(null) of nonempty map throws NPE
*/
public void testContainsKey_NullPointerException() {
TreeMap c = map5();
try {
c.containsKey(null);
shouldThrow();
} catch (NullPointerException success) {}
}
/**
* remove(null) throws NPE for nonempty map
*/
public void testRemove1_NullPointerException() {
TreeMap c = new TreeMap();
c.put("sadsdf", "asdads");
try {
c.remove(null);
shouldThrow();
} catch (NullPointerException success) {}
}
/**
* A deserialized/reserialized map equals original
*/
public void testSerialization() throws Exception {
NavigableMap x = map5();
NavigableMap y = serialClone(x);
assertNotSame(x, y);
assertEquals(x.size(), y.size());
assertEquals(x.toString(), y.toString());
assertEquals(x, y);
assertEquals(y, x);
}
/**
* subMap returns map with keys in requested range
*/
public void testSubMapContents() {
TreeMap map = map5();
NavigableMap sm = map.subMap(two, true, four, false);
assertEquals(two, sm.firstKey());
assertEquals(three, sm.lastKey());
assertEquals(2, sm.size());
assertFalse(sm.containsKey(one));
assertTrue(sm.containsKey(two));
assertTrue(sm.containsKey(three));
assertFalse(sm.containsKey(four));
assertFalse(sm.containsKey(five));
Iterator i = sm.keySet().iterator();
Object k;
k = (Integer)(i.next());
assertEquals(two, k);
k = (Integer)(i.next());
assertEquals(three, k);
assertFalse(i.hasNext());
Iterator r = sm.descendingKeySet().iterator();
k = (Integer)(r.next());
assertEquals(three, k);
k = (Integer)(r.next());
assertEquals(two, k);
assertFalse(r.hasNext());
Iterator j = sm.keySet().iterator();
j.next();
j.remove();
assertFalse(map.containsKey(two));
assertEquals(4, map.size());
assertEquals(1, sm.size());
assertEquals(three, sm.firstKey());
assertEquals(three, sm.lastKey());
assertEquals("C", sm.remove(three));
assertTrue(sm.isEmpty());
assertEquals(3, map.size());
}
public void testSubMapContents2() {
TreeMap map = map5();
NavigableMap sm = map.subMap(two, true, three, false);
assertEquals(1, sm.size());
assertEquals(two, sm.firstKey());
assertEquals(two, sm.lastKey());
assertFalse(sm.containsKey(one));
assertTrue(sm.containsKey(two));
assertFalse(sm.containsKey(three));
assertFalse(sm.containsKey(four));
assertFalse(sm.containsKey(five));
Iterator i = sm.keySet().iterator();
Object k;
k = (Integer)(i.next());
assertEquals(two, k);
assertFalse(i.hasNext());
Iterator r = sm.descendingKeySet().iterator();
k = (Integer)(r.next());
assertEquals(two, k);
assertFalse(r.hasNext());
Iterator j = sm.keySet().iterator();
j.next();
j.remove();
assertFalse(map.containsKey(two));
assertEquals(4, map.size());
assertEquals(0, sm.size());
assertTrue(sm.isEmpty());
assertSame(sm.remove(three), null);
assertEquals(4, map.size());
}
/**
* headMap returns map with keys in requested range
*/
public void testHeadMapContents() {
TreeMap map = map5();
NavigableMap sm = map.headMap(four, false);
assertTrue(sm.containsKey(one));
assertTrue(sm.containsKey(two));
assertTrue(sm.containsKey(three));
assertFalse(sm.containsKey(four));
assertFalse(sm.containsKey(five));
Iterator i = sm.keySet().iterator();
Object k;
k = (Integer)(i.next());
assertEquals(one, k);
k = (Integer)(i.next());
assertEquals(two, k);
k = (Integer)(i.next());
assertEquals(three, k);
assertFalse(i.hasNext());
sm.clear();
assertTrue(sm.isEmpty());
assertEquals(2, map.size());
assertEquals(four, map.firstKey());
}
/**
* headMap returns map with keys in requested range
*/
public void testTailMapContents() {
TreeMap map = map5();
NavigableMap sm = map.tailMap(two, true);
assertFalse(sm.containsKey(one));
assertTrue(sm.containsKey(two));
assertTrue(sm.containsKey(three));
assertTrue(sm.containsKey(four));
assertTrue(sm.containsKey(five));
Iterator i = sm.keySet().iterator();
Object k;
k = (Integer)(i.next());
assertEquals(two, k);
k = (Integer)(i.next());
assertEquals(three, k);
k = (Integer)(i.next());
assertEquals(four, k);
k = (Integer)(i.next());
assertEquals(five, k);
assertFalse(i.hasNext());
Iterator r = sm.descendingKeySet().iterator();
k = (Integer)(r.next());
assertEquals(five, k);
k = (Integer)(r.next());
assertEquals(four, k);
k = (Integer)(r.next());
assertEquals(three, k);
k = (Integer)(r.next());
assertEquals(two, k);
assertFalse(r.hasNext());
Iterator ei = sm.entrySet().iterator();
Map.Entry e;
e = (Map.Entry)(ei.next());
assertEquals(two, e.getKey());
assertEquals("B", e.getValue());
e = (Map.Entry)(ei.next());
assertEquals(three, e.getKey());
assertEquals("C", e.getValue());
e = (Map.Entry)(ei.next());
assertEquals(four, e.getKey());
assertEquals("D", e.getValue());
e = (Map.Entry)(ei.next());
assertEquals(five, e.getKey());
assertEquals("E", e.getValue());
assertFalse(i.hasNext());
NavigableMap ssm = sm.tailMap(four, true);
assertEquals(four, ssm.firstKey());
assertEquals(five, ssm.lastKey());
assertEquals("D", ssm.remove(four));
assertEquals(1, ssm.size());
assertEquals(3, sm.size());
assertEquals(4, map.size());
}
Random rnd = new Random(666);
BitSet bs;
/**
* Submaps of submaps subdivide correctly
*/
public void testRecursiveSubMaps() throws Exception {
int mapSize = expensiveTests ? 1000 : 100;
Class cl = TreeMap.class;
NavigableMap<Integer, Integer> map = newMap(cl);
bs = new BitSet(mapSize);
populate(map, mapSize);
check(map, 0, mapSize - 1, true);
check(map.descendingMap(), 0, mapSize - 1, false);
mutateMap(map, 0, mapSize - 1);
check(map, 0, mapSize - 1, true);
check(map.descendingMap(), 0, mapSize - 1, false);
bashSubMap(map.subMap(0, true, mapSize, false),
0, mapSize - 1, true);
}
static NavigableMap<Integer, Integer> newMap(Class cl) throws Exception {
NavigableMap<Integer, Integer> result
= (NavigableMap<Integer, Integer>) cl.getConstructor().newInstance();
assertEquals(0, result.size());
assertFalse(result.keySet().iterator().hasNext());
return result;
}
void populate(NavigableMap<Integer, Integer> map, int limit) {
for (int i = 0, n = 2 * limit / 3; i < n; i++) {
int key = rnd.nextInt(limit);
put(map, key);
}
}
void mutateMap(NavigableMap<Integer, Integer> map, int min, int max) {
int size = map.size();
int rangeSize = max - min + 1;
// Remove a bunch of entries directly
for (int i = 0, n = rangeSize / 2; i < n; i++) {
remove(map, min - 5 + rnd.nextInt(rangeSize + 10));
}
// Remove a bunch of entries with iterator
for (Iterator<Integer> it = map.keySet().iterator(); it.hasNext(); ) {
if (rnd.nextBoolean()) {
bs.clear(it.next());
it.remove();
}
}
// Add entries till we're back to original size
while (map.size() < size) {
int key = min + rnd.nextInt(rangeSize);
assertTrue(key >= min && key <= max);
put(map, key);
}
}
void mutateSubMap(NavigableMap<Integer, Integer> map, int min, int max) {
int size = map.size();
int rangeSize = max - min + 1;
// Remove a bunch of entries directly
for (int i = 0, n = rangeSize / 2; i < n; i++) {
remove(map, min - 5 + rnd.nextInt(rangeSize + 10));
}
// Remove a bunch of entries with iterator
for (Iterator<Integer> it = map.keySet().iterator(); it.hasNext(); ) {
if (rnd.nextBoolean()) {
bs.clear(it.next());
it.remove();
}
}
// Add entries till we're back to original size
while (map.size() < size) {
int key = min - 5 + rnd.nextInt(rangeSize + 10);
if (key >= min && key <= max) {
put(map, key);
} else {
try {
map.put(key, 2 * key);
shouldThrow();
} catch (IllegalArgumentException success) {}
}
}
}
void put(NavigableMap<Integer, Integer> map, int key) {
if (map.put(key, 2 * key) == null)
bs.set(key);
}
void remove(NavigableMap<Integer, Integer> map, int key) {
if (map.remove(key) != null)
bs.clear(key);
}
void bashSubMap(NavigableMap<Integer, Integer> map,
int min, int max, boolean ascending) {
check(map, min, max, ascending);
check(map.descendingMap(), min, max, !ascending);
mutateSubMap(map, min, max);
check(map, min, max, ascending);
check(map.descendingMap(), min, max, !ascending);
// Recurse
if (max - min < 2)
return;
int midPoint = (min + max) / 2;
// headMap - pick direction and endpoint inclusion randomly
boolean incl = rnd.nextBoolean();
NavigableMap<Integer,Integer> hm = map.headMap(midPoint, incl);
if (ascending) {
if (rnd.nextBoolean())
bashSubMap(hm, min, midPoint - (incl ? 0 : 1), true);
else
bashSubMap(hm.descendingMap(), min, midPoint - (incl ? 0 : 1),
false);
} else {
if (rnd.nextBoolean())
bashSubMap(hm, midPoint + (incl ? 0 : 1), max, false);
else
bashSubMap(hm.descendingMap(), midPoint + (incl ? 0 : 1), max,
true);
}
// tailMap - pick direction and endpoint inclusion randomly
incl = rnd.nextBoolean();
NavigableMap<Integer,Integer> tm = map.tailMap(midPoint,incl);
if (ascending) {
if (rnd.nextBoolean())
bashSubMap(tm, midPoint + (incl ? 0 : 1), max, true);
else
bashSubMap(tm.descendingMap(), midPoint + (incl ? 0 : 1), max,
false);
} else {
if (rnd.nextBoolean()) {
bashSubMap(tm, min, midPoint - (incl ? 0 : 1), false);
} else {
bashSubMap(tm.descendingMap(), min, midPoint - (incl ? 0 : 1),
true);
}
}
// subMap - pick direction and endpoint inclusion randomly
int rangeSize = max - min + 1;
int[] endpoints = new int[2];
endpoints[0] = min + rnd.nextInt(rangeSize);
endpoints[1] = min + rnd.nextInt(rangeSize);
Arrays.sort(endpoints);
boolean lowIncl = rnd.nextBoolean();
boolean highIncl = rnd.nextBoolean();
if (ascending) {
NavigableMap<Integer,Integer> sm = map.subMap(
endpoints[0], lowIncl, endpoints[1], highIncl);
if (rnd.nextBoolean())
bashSubMap(sm, endpoints[0] + (lowIncl ? 0 : 1),
endpoints[1] - (highIncl ? 0 : 1), true);
else
bashSubMap(sm.descendingMap(), endpoints[0] + (lowIncl ? 0 : 1),
endpoints[1] - (highIncl ? 0 : 1), false);
} else {
NavigableMap<Integer,Integer> sm = map.subMap(
endpoints[1], highIncl, endpoints[0], lowIncl);
if (rnd.nextBoolean())
bashSubMap(sm, endpoints[0] + (lowIncl ? 0 : 1),
endpoints[1] - (highIncl ? 0 : 1), false);
else
bashSubMap(sm.descendingMap(), endpoints[0] + (lowIncl ? 0 : 1),
endpoints[1] - (highIncl ? 0 : 1), true);
}
}
/**
* min and max are both inclusive. If max < min, interval is empty.
*/
void check(NavigableMap<Integer, Integer> map,
final int min, final int max, final boolean ascending) {
class ReferenceSet {
int lower(int key) {
return ascending ? lowerAscending(key) : higherAscending(key);
}
int floor(int key) {
return ascending ? floorAscending(key) : ceilingAscending(key);
}
int ceiling(int key) {
return ascending ? ceilingAscending(key) : floorAscending(key);
}
int higher(int key) {
return ascending ? higherAscending(key) : lowerAscending(key);
}
int first() {
return ascending ? firstAscending() : lastAscending();
}
int last() {
return ascending ? lastAscending() : firstAscending();
}
int lowerAscending(int key) {
return floorAscending(key - 1);
}
int floorAscending(int key) {
if (key < min)
return -1;
else if (key > max)
key = max;
// BitSet should support this! Test would run much faster
while (key >= min) {
if (bs.get(key))
return key;
key--;
}
return -1;
}
int ceilingAscending(int key) {
if (key < min)
key = min;
else if (key > max)
return -1;
int result = bs.nextSetBit(key);
return result > max ? -1 : result;
}
int higherAscending(int key) {
return ceilingAscending(key + 1);
}
private int firstAscending() {
int result = ceilingAscending(min);
return result > max ? -1 : result;
}
private int lastAscending() {
int result = floorAscending(max);
return result < min ? -1 : result;
}
}
ReferenceSet rs = new ReferenceSet();
// Test contents using containsKey
int size = 0;
for (int i = min; i <= max; i++) {
boolean bsContainsI = bs.get(i);
assertEquals(bsContainsI, map.containsKey(i));
if (bsContainsI)
size++;
}
assertEquals(size, map.size());
// Test contents using contains keySet iterator
int size2 = 0;
int previousKey = -1;
for (int key : map.keySet()) {
assertTrue(bs.get(key));
size2++;
assertTrue(previousKey < 0 ||
(ascending ? key - previousKey > 0 : key - previousKey < 0));
previousKey = key;
}
assertEquals(size2, size);
// Test navigation ops
for (int key = min - 1; key <= max + 1; key++) {
assertEq(map.lowerKey(key), rs.lower(key));
assertEq(map.floorKey(key), rs.floor(key));
assertEq(map.higherKey(key), rs.higher(key));
assertEq(map.ceilingKey(key), rs.ceiling(key));
}
// Test extrema
if (map.size() != 0) {
assertEq(map.firstKey(), rs.first());
assertEq(map.lastKey(), rs.last());
} else {
assertEq(rs.first(), -1);
assertEq(rs.last(), -1);
try {
map.firstKey();
shouldThrow();
} catch (NoSuchElementException success) {}
try {
map.lastKey();
shouldThrow();
} catch (NoSuchElementException success) {}
}
}
static void assertEq(Integer i, int j) {
if (i == null)
assertEquals(j, -1);
else
assertEquals((int) i, j);
}
static boolean eq(Integer i, int j) {
return i == null ? j == -1 : i == j;
}
}