Mercurial > hg > graal-compiler
view test/compiler/6865031/Test.java @ 1552:c18cbe5936b8
6941466: Oracle rebranding changes for Hotspot repositories
Summary: Change all the Sun copyrights to Oracle copyright
Reviewed-by: ohair
| author | trims |
|---|---|
| date | Thu, 27 May 2010 19:08:38 -0700 |
| parents | 9a4e87ba1a90 |
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/* * Copyright 2009 Goldman Sachs International. 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 6865031 * @summary Application gives bad result (throws bad exception) with compressed oops * @run main/othervm -XX:+IgnoreUnrecognizedVMOptions -XX:+UseCompressedOops -XX:HeapBaseMinAddress=32g -XX:-LoopUnswitching -XX:CompileCommand=inline,AbstractMemoryEfficientList.equals Test hello goodbye */ import java.lang.ref.ReferenceQueue; import java.lang.ref.WeakReference; import java.util.ArrayList; import java.util.Arrays; import java.util.List; interface MyList { public int size(); public Object set(final int index, final Object element); public Object get(final int index); } abstract class AbstractMemoryEfficientList implements MyList { abstract public int size(); abstract public Object get(final int index); abstract public Object set(final int index, final Object element); public boolean equals(Object o) { if (o == this) { return true; } if (!(o instanceof MyList)) { return false; } final MyList that = (MyList) o; if (this.size() != that.size()) { return false; } for (int i = 0; i < this.size(); i++) { try { if (!((this.get(i)).equals(that.get(i)))) { return false; } } catch (IndexOutOfBoundsException e) { System.out.println("THROWING RT EXC"); System.out.println("concurrent modification of this:" + this.getClass() + ":" + System.identityHashCode(this) + "; that:" + that.getClass() + ":" + System.identityHashCode(that) + "; i:" + i); e.printStackTrace(); System.exit(97); throw new RuntimeException("concurrent modification of this:" + this.getClass() + ":" + System.identityHashCode(this) + "; that:" + that.getClass() + ":" + System.identityHashCode(that) + "; i:" + i, e); } } return true; } public int hashCode() { int hashCode = 1; for (int i = 0; i < this.size(); i++) { Object obj = this.get(i); hashCode = 31 * hashCode + (obj == null ? 0 : obj.hashCode()); } return hashCode; } } final class SingletonList extends AbstractMemoryEfficientList { private Object element1; SingletonList(final Object obj1) { super(); this.element1 = obj1; } public int size() { return 1; } public Object get(final int index) { if (index == 0) { return this.element1; } else { throw new IndexOutOfBoundsException("Index: " + index + ", Size: " + this.size()); } } public Object set(final int index, final Object element) { if (index == 0) { final Object previousElement = this.element1; this.element1 = element; return previousElement; } else { throw new IndexOutOfBoundsException("Index: " + index + ", Size: " + this.size()); } } } final class DoubletonList extends AbstractMemoryEfficientList { private Object element1; private Object element2; DoubletonList(final Object obj1, final Object obj2) { this.element1 = obj1; this.element2 = obj2; } public int size() { return 2; } public Object get(final int index) { switch (index) { case 0 : return this.element1; case 1 : return this.element2; default: throw new IndexOutOfBoundsException("Index: " + index + ", Size: " + this.size()); } } public Object set(final int index, final Object element) { switch (index) { case 0 : { final Object previousElement = this.element1; this.element1 = element; return previousElement; } case 1 : { final Object previousElement = this.element2; this.element2 = element; return previousElement; } default : throw new IndexOutOfBoundsException("Index: " + index + ", Size: " + this.size()); } } } class WeakPool<V> { protected static final int DEFAULT_INITIAL_CAPACITY = 16; private static final int MAXIMUM_CAPACITY = 1 << 30; private static final float DEFAULT_LOAD_FACTOR = 0.75f; protected Entry<V>[] table; private int size; protected int threshold; private final float loadFactor; private final ReferenceQueue<V> queue = new ReferenceQueue<V>(); public WeakPool() { this.loadFactor = DEFAULT_LOAD_FACTOR; threshold = DEFAULT_INITIAL_CAPACITY; table = new Entry[DEFAULT_INITIAL_CAPACITY]; } /** * Check for equality of non-null reference x and possibly-null y. By * default uses Object.equals. */ private boolean eq(Object x, Object y) { return x == y || x.equals(y); } /** * Return index for hash code h. */ private int indexFor(int h, int length) { return h & length - 1; } /** * Expunge stale entries from the table. */ private void expungeStaleEntries() { Object r; while ((r = queue.poll()) != null) { Entry e = (Entry) r; int h = e.hash; int i = indexFor(h, table.length); // System.out.println("EXPUNGING " + h); Entry<V> prev = table[i]; Entry<V> p = prev; while (p != null) { Entry<V> next = p.next; if (p == e) { if (prev == e) { table[i] = next; } else { prev.next = next; } e.next = null; // Help GC size--; break; } prev = p; p = next; } } } /** * Return the table after first expunging stale entries */ private Entry<V>[] getTable() { expungeStaleEntries(); return table; } /** * Returns the number of key-value mappings in this map. * This result is a snapshot, and may not reflect unprocessed * entries that will be removed before next attempted access * because they are no longer referenced. */ public int size() { if (size == 0) { return 0; } expungeStaleEntries(); return size; } /** * Returns <tt>true</tt> if this map contains no key-value mappings. * This result is a snapshot, and may not reflect unprocessed * entries that will be removed before next attempted access * because they are no longer referenced. */ public boolean isEmpty() { return size() == 0; } /** * Returns the value stored in the pool that equals the requested key * or <tt>null</tt> if the map contains no mapping for * this key (or the key is null) * * @param key the key whose equals value is to be returned. * @return the object that is equal the specified key, or * <tt>null</tt> if key is null or no object in the pool equals the key. */ public V get(V key) { if (key == null) { return null; } int h = key.hashCode(); Entry<V>[] tab = getTable(); int index = indexFor(h, tab.length); Entry<V> e = tab[index]; while (e != null) { V candidate = e.get(); if (e.hash == h && eq(key, candidate)) { return candidate; } e = e.next; } return null; } /** * Returns the entry associated with the specified key in the HashMap. * Returns null if the HashMap contains no mapping for this key. */ Entry getEntry(Object key) { int h = key.hashCode(); Entry[] tab = getTable(); int index = indexFor(h, tab.length); Entry e = tab[index]; while (e != null && !(e.hash == h && eq(key, e.get()))) { e = e.next; } return e; } /** * Places the object into the pool. If the object is null, nothing happens. * If an equal object already exists, it is not replaced. * * @param key the object to put into the pool. key may be null. * @return the object in the pool that is equal to the key, or the newly placed key if no such object existed when put was called */ public V put(V key) { if (key == null) { return null; } int h = key.hashCode(); Entry<V>[] tab = getTable(); int i = indexFor(h, tab.length); for (Entry<V> e = tab[i]; e != null; e = e.next) { V candidate = e.get(); if (h == e.hash && eq(key, candidate)) { return candidate; } } tab[i] = new Entry<V>(key, queue, h, tab[i]); if (++size >= threshold) { resize(tab.length * 2); } // System.out.println("Added " + key + " to pool"); return key; } /** * Rehashes the contents of this map into a new array with a * larger capacity. This method is called automatically when the * number of keys in this map reaches its threshold. * <p/> * If current capacity is MAXIMUM_CAPACITY, this method does not * resize the map, but but sets threshold to Integer.MAX_VALUE. * This has the effect of preventing future calls. * * @param newCapacity the new capacity, MUST be a power of two; * must be greater than current capacity unless current * capacity is MAXIMUM_CAPACITY (in which case value * is irrelevant). */ void resize(int newCapacity) { Entry<V>[] oldTable = getTable(); int oldCapacity = oldTable.length; if (oldCapacity == MAXIMUM_CAPACITY) { threshold = Integer.MAX_VALUE; return; } Entry<V>[] newTable = new Entry[newCapacity]; transfer(oldTable, newTable); table = newTable; /* * If ignoring null elements and processing ref queue caused massive * shrinkage, then restore old table. This should be rare, but avoids * unbounded expansion of garbage-filled tables. */ if (size >= threshold / 2) { threshold = (int) (newCapacity * loadFactor); } else { expungeStaleEntries(); transfer(newTable, oldTable); table = oldTable; } } /** * Transfer all entries from src to dest tables */ private void transfer(Entry[] src, Entry[] dest) { for (int j = 0; j < src.length; ++j) { Entry e = src[j]; src[j] = null; while (e != null) { Entry next = e.next; Object key = e.get(); if (key == null) { e.next = null; // Help GC size--; } else { int i = indexFor(e.hash, dest.length); e.next = dest[i]; dest[i] = e; } e = next; } } } /** * Removes the object in the pool that equals the key. * * @param key * @return previous value associated with specified key, or <tt>null</tt> * if there was no mapping for key or the key is null. */ public V removeFromPool(V key) { if (key == null) { return null; } int h = key.hashCode(); Entry<V>[] tab = getTable(); int i = indexFor(h, tab.length); Entry<V> prev = tab[i]; Entry<V> e = prev; while (e != null) { Entry<V> next = e.next; V candidate = e.get(); if (h == e.hash && eq(key, candidate)) { size--; if (prev == e) { tab[i] = next; } else { prev.next = next; } return candidate; } prev = e; e = next; } return null; } /** * Removes all mappings from this map. */ public void clear() { // clear out ref queue. We don't need to expunge entries // since table is getting cleared. while (queue.poll() != null) { // nop } table = new Entry[DEFAULT_INITIAL_CAPACITY]; threshold = DEFAULT_INITIAL_CAPACITY; size = 0; // Allocation of array may have caused GC, which may have caused // additional entries to go stale. Removing these entries from the // reference queue will make them eligible for reclamation. while (queue.poll() != null) { // nop } } /** * The entries in this hash table extend WeakReference, using its main ref * field as the key. */ protected static class Entry<V> extends WeakReference<V> { private final int hash; private Entry<V> next; /** * Create new entry. */ Entry(final V key, final ReferenceQueue<V> queue, final int hash, final Entry<V> next) { super(key, queue); this.hash = hash; this.next = next; } public V getKey() { return super.get(); } public boolean equals(Object o) { if (!(o instanceof WeakPool.Entry)) { return false; } WeakPool.Entry<V> that = (WeakPool.Entry<V>) o; V k1 = this.getKey(); V k2 = that.getKey(); return (k1==k2 || k1.equals(k2)); } public int hashCode() { return this.hash; } public String toString() { return String.valueOf(this.getKey()); } } } final class MultiSynonymKey { private List<MyList> keys; public MultiSynonymKey() { keys = new ArrayList<MyList>(); } public MultiSynonymKey(MyList... arg) { keys = Arrays.asList(arg); } public List<MyList> getKeys() { return keys; } public int hashCode() { return this.getKeys().hashCode(); } public boolean equals(Object obj) { if (this == obj) { return true; } if (!(obj instanceof MultiSynonymKey)) { return false; } MultiSynonymKey that = (MultiSynonymKey) obj; return this.getKeys().equals(that.getKeys()); } public String toString() { return this.getClass().getName() + this.getKeys().toString(); } } public class Test extends Thread { static public Test test; static private byte[] arg1; static private byte[] arg2; static public WeakPool<MultiSynonymKey> wp; public volatile MultiSynonymKey ml1; public volatile MultiSynonymKey ml2; private volatile MultiSynonymKey ml3; public void run() { int count=0; while (true) { try { Thread.sleep(10); } catch (Exception e) {} synchronized (wp) { ml2 = new MultiSynonymKey(new DoubletonList(new String(arg1), new String(arg2))); wp.put(ml2); ml3 = new MultiSynonymKey(new DoubletonList(new String(arg1), new String(arg2))); } try { Thread.sleep(10); } catch (Exception e) {} synchronized (wp) { ml1 = new MultiSynonymKey(new SingletonList(new String(arg1))); wp.put(ml1); ml3 = new MultiSynonymKey(new SingletonList(new String(arg1))); } if (count++==100) System.exit(95); } } public static void main(String[] args) throws Exception { wp = new WeakPool<MultiSynonymKey>(); test = new Test(); test.arg1 = args[0].getBytes(); test.arg2 = args[1].getBytes(); test.ml1 = new MultiSynonymKey(new SingletonList(new String(test.arg1))); test.ml2 = new MultiSynonymKey(new DoubletonList(new String(test.arg1), new String(test.arg2))); test.ml3 = new MultiSynonymKey(new DoubletonList(new String(test.arg1), new String(test.arg2))); wp.put(test.ml1); wp.put(test.ml2); test.setDaemon(true); test.start(); int counter = 0; while (true) { synchronized (wp) { MultiSynonymKey foo = test.ml3; if (wp.put(foo) == foo) { // System.out.println("foo " + counter); // System.out.println(foo); } } counter++; } } private boolean eq(Object x, Object y) { return x == y || x.equals(y); } }