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Enables C3P0 with Hibernate connections in the GuicedPersistence provider Requires JDK 8 and up

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/*
 * Distributed as part of mchange-commons-java 0.2.11
 *
 * Copyright (C) 2015 Machinery For Change, Inc.
 *
 * Author: Steve Waldman 
 *
 * This library is free software; you can redistribute it and/or modify
 * it under the terms of EITHER:
 *
 *     1) The GNU Lesser General Public License (LGPL), version 2.1, as 
 *        published by the Free Software Foundation
 *
 * OR
 *
 *     2) The Eclipse Public License (EPL), version 1.0
 *
 * You may choose which license to accept if you wish to redistribute
 * or modify this work. You may offer derivatives of this work
 * under the license you have chosen, or you may provide the same
 * choice of license which you have been offered here.
 *
 * This software 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.
 *
 * You should have received copies of both LGPL v2.1 and EPL v1.0
 * along with this software; see the files LICENSE-EPL and LICENSE-LGPL.
 * If not, the text of these licenses are currently available at
 *
 * LGPL v2.1: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html
 *  EPL v1.0: http://www.eclipse.org/org/documents/epl-v10.php 
 * 
 */

package com.mchange.v2.util;

import java.lang.ref.ReferenceQueue;
import java.lang.ref.WeakReference;
import java.util.AbstractSet;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;
import java.util.Map.Entry;


import com.mchange.v1.util.AbstractMapEntry;
import com.mchange.v1.util.WrapperIterator;

//TODO -- ensure that cleanCleared() gets called only once, even in methods implemented
//        as loops. (cleanCleared() is idempotent, so the repeated calls are okay,
//        but they're wasteful.

/**
 * 

This class is not Thread safe. * Use in single threaded contexts, or contexts where * single threaded-access can be guaranteed, or * wrap with Collections.synchronizedMap().

* *

This class does not accept null keys or values.

*/ public class DoubleWeakHashMap implements Map { HashMap inner; ReferenceQueue keyQ = new ReferenceQueue(); ReferenceQueue valQ = new ReferenceQueue(); CheckKeyHolder holder = new CheckKeyHolder(); Set userKeySet = null; Collection valuesCollection = null; public DoubleWeakHashMap() { this.inner = new HashMap(); } public DoubleWeakHashMap(int initialCapacity) { this.inner = new HashMap( initialCapacity ); } public DoubleWeakHashMap(int initialCapacity, float loadFactor) { this.inner = new HashMap( initialCapacity, loadFactor ); } public DoubleWeakHashMap(Map m) { this(); putAll(m); } public void cleanCleared() { WKey wk; while ((wk = (WKey) keyQ.poll()) != null) inner.remove(wk); WVal wv; while ((wv = (WVal) valQ.poll()) != null) inner.remove(wv.getWKey()); } public void clear() { cleanCleared(); inner.clear(); } public boolean containsKey(Object key) { cleanCleared(); try { return inner.containsKey( holder.set(key) ); } finally { holder.clear(); } } public boolean containsValue(Object val) { for (Iterator ii = inner.values().iterator(); ii.hasNext();) { WVal wval = (WVal) ii.next(); if (val.equals(wval.get())) return true; } return false; } public Set entrySet() { cleanCleared(); return new UserEntrySet(); } public Object get(Object key) { try { cleanCleared(); WVal wval = (WVal) inner.get(holder.set(key)); return (wval == null ? null : wval.get()); } finally { holder.clear(); } } public boolean isEmpty() { cleanCleared(); return inner.isEmpty(); } public Set keySet() { cleanCleared(); if (userKeySet == null) userKeySet = new UserKeySet(); return userKeySet; } public Object put(Object key, Object val) { cleanCleared(); WVal wout = doPut(key, val); if (wout != null) return wout.get(); else return null; } private WVal doPut(Object key, Object val) { WKey wk = new WKey(key, keyQ); WVal wv = new WVal(wk, val, valQ); return (WVal) inner.put(wk, wv); } public void putAll(Map m) { cleanCleared(); for (Iterator ii = m.entrySet().iterator(); ii.hasNext();) { Map.Entry entry = (Map.Entry) ii.next(); this.doPut( entry.getKey(), entry.getValue() ); } } public Object remove(Object key) { try { cleanCleared(); WVal wv = (WVal) inner.remove( holder.set(key) ); return (wv == null ? null : wv.get()); } finally { holder.clear(); } } public int size() { cleanCleared(); return inner.size(); } public Collection values() { if (valuesCollection == null) this.valuesCollection = new ValuesCollection(); return valuesCollection; } final static class CheckKeyHolder { Object checkKey; public Object get() {return checkKey; } public CheckKeyHolder set(Object ck) { assert this.checkKey == null : "Illegal concurrenct use of DoubleWeakHashMap!"; this.checkKey = ck; return this; } public void clear() { checkKey = null; } public int hashCode() { return checkKey.hashCode(); } public boolean equals(Object o) { assert this.get() != null : "CheckedKeyHolder should never do an equality check while its value is null." ; if (this == o) return true; else if (o instanceof CheckKeyHolder) return this.get().equals( ((CheckKeyHolder) o).get() ); else if (o instanceof WKey) return this.get().equals( ((WKey) o).get() ); else return false; } } final static class WKey extends WeakReference { int cachedHash; WKey(Object keyObj, ReferenceQueue rq) { super(keyObj, rq); this.cachedHash = keyObj.hashCode(); } public int hashCode() { return cachedHash; } public boolean equals(Object o) { if (this == o) return true; else if (o instanceof WKey) { WKey oo = (WKey) o; Object myVal = this.get(); Object ooVal = oo.get(); if (myVal == null || ooVal == null) return false; else return myVal.equals(ooVal); } else if (o instanceof CheckKeyHolder) { CheckKeyHolder oo = (CheckKeyHolder) o; Object myVal = this.get(); Object ooVal = oo.get(); if (myVal == null || ooVal == null) return false; else return myVal.equals(ooVal); } else return false; } } final static class WVal extends WeakReference { WKey key; WVal(WKey key, Object valObj, ReferenceQueue rq) { super(valObj, rq); this.key = key; } public WKey getWKey() { return key; } } private final class UserEntrySet extends AbstractSet { private Set innerEntrySet() { cleanCleared(); return inner.entrySet(); } public Iterator iterator() { return new WrapperIterator(innerEntrySet().iterator(), true) { protected Object transformObject(Object o) { Entry innerEntry = (Entry) o; Object key = ((WKey) innerEntry.getKey()).get(); Object val = ((WVal) innerEntry.getValue()).get(); if (key == null || val == null) return WrapperIterator.SKIP_TOKEN; else return new UserEntry( innerEntry, key, val ); } }; } public int size() { return innerEntrySet().size(); } } class UserEntry extends AbstractMapEntry { Entry innerEntry; Object key; Object val; UserEntry(Entry innerEntry, Object key, Object val) { this.innerEntry = innerEntry; this.key = key; this.val = val; } public final Object getKey() { return key; } public final Object getValue() { return val; } public final Object setValue(Object value) { return innerEntry.setValue( new WVal( (WKey) innerEntry.getKey() ,value, valQ) ); } } class UserKeySet implements Set { public boolean add(Object o) { cleanCleared(); throw new UnsupportedOperationException("You cannot add to a Map's key set."); } public boolean addAll(Collection c) { cleanCleared(); throw new UnsupportedOperationException("You cannot add to a Map's key set."); } public void clear() { DoubleWeakHashMap.this.clear(); } public boolean contains(Object o) { return DoubleWeakHashMap.this.containsKey(o); } public boolean containsAll(Collection c) { for (Iterator ii = c.iterator(); ii.hasNext();) if (! this.contains(ii.next())) return false; return true; } public boolean isEmpty() { return DoubleWeakHashMap.this.isEmpty(); } public Iterator iterator() { cleanCleared(); return new WrapperIterator(DoubleWeakHashMap.this.inner.keySet().iterator(), true) { protected Object transformObject(Object o) { Object key = ((WKey) o).get(); if (key == null) return WrapperIterator.SKIP_TOKEN; else return key; } }; } public boolean remove(Object o) { return (DoubleWeakHashMap.this.remove(o) != null); } public boolean removeAll(Collection c) { boolean out = false; for (Iterator ii = c.iterator(); ii.hasNext();) out |= this.remove(ii.next()); return out; } public boolean retainAll(Collection c) { //we implicitly cleanCleared() by calling iterator() boolean out = false; for (Iterator ii = this.iterator(); ii.hasNext();) { if (!c.contains(ii.next())) { ii.remove(); out = true; } } return out; } public int size() { return DoubleWeakHashMap.this.size(); } public Object[] toArray() { cleanCleared(); return new HashSet( this ).toArray(); } public Object[] toArray(Object[] array) { cleanCleared(); return new HashSet( this ).toArray(array); } } class ValuesCollection implements Collection { public boolean add(Object o) { cleanCleared(); throw new UnsupportedOperationException("DoubleWeakHashMap does not support adding to its values Collection."); } public boolean addAll(Collection c) { cleanCleared(); throw new UnsupportedOperationException("DoubleWeakHashMap does not support adding to its values Collection."); } public void clear() { DoubleWeakHashMap.this.clear(); } public boolean contains(Object o) { return DoubleWeakHashMap.this.containsValue(o); } public boolean containsAll(Collection c) { for (Iterator ii = c.iterator(); ii.hasNext();) if (!this.contains(ii.next())) return false; return true; } public boolean isEmpty() { return DoubleWeakHashMap.this.isEmpty(); } public Iterator iterator() { return new WrapperIterator(inner.values().iterator(), true) { protected Object transformObject(Object o) { Object val = ((WVal) o).get(); if (val == null) return WrapperIterator.SKIP_TOKEN; else return val; } }; } public boolean remove(Object o) { cleanCleared(); return removeValue(o); } public boolean removeAll(Collection c) { cleanCleared(); boolean out = false; for (Iterator ii = c.iterator(); ii.hasNext();) out |= removeValue(ii.next()); return out; } public boolean retainAll(Collection c) { cleanCleared(); return retainValues(c); } public int size() { return DoubleWeakHashMap.this.size(); } public Object[] toArray() { cleanCleared(); return new ArrayList(this).toArray(); } public Object[] toArray(Object[] array) { cleanCleared(); return new ArrayList(this).toArray(array); } private boolean removeValue(Object val) { boolean out = false; for (Iterator ii = inner.values().iterator(); ii.hasNext();) { WVal wv = (WVal) ii.next(); if (val.equals(wv.get())) { ii.remove(); out = true; } } return out; } private boolean retainValues(Collection c) { boolean out = false; for (Iterator ii = inner.values().iterator(); ii.hasNext();) { WVal wv = (WVal) ii.next(); if (! c.contains(wv.get()) ) { ii.remove(); out = true; } } return out; } } /* public static void main(String[] argv) { DoubleWeakHashMap m = new DoubleWeakHashMap(); //Set keySet = new HashSet(); //Set valSet = new HashSet(); while (true) { System.err.println( m.inner.size() ); //if (Math.random() < 0.1f) // valSet.clear(); Object key = new Object(); Object val = new long[100000]; //keySet.add(key); //valSet.add(val); m.put( key, val ); } } */ }




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