h4iku/coconut_java2006_preprocessed · Datasets at Hugging Face

rem stringlengths 0 477k	add stringlengths 0 313k	context stringlengths 6 599k
protected ObjectPoolFactory makeFactory(PoolableObjectFactory objectFactory) throws UnsupportedOperationException { throw new UnsupportedOperationException("Subclass needs to override makeFactory method.");	protected ObjectPoolFactory makeFactory() throws UnsupportedOperationException { return makeFactory(new MethodCallPoolableObjectFactory());	protected ObjectPoolFactory makeFactory(PoolableObjectFactory objectFactory) throws UnsupportedOperationException { throw new UnsupportedOperationException("Subclass needs to override makeFactory method."); }
public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(_maxIdle > 0 && (_pool.size() >= _maxIdle \|\| (_testOnReturn && !_factory.validateObject(obj)))) {	public void returnObject(Object obj) throws Exception { boolean success = true; if(_testOnReturn && !(_factory.validateObject(obj))) { success = false; } else {	public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(_maxIdle > 0 && (_pool.size() >= _maxIdle \|\| (_testOnReturn && !_factory.validateObject(obj)))) { try { _factory.passivateObject(obj); } catch(Exception e) { ; // i...
; } _factory.destroyObject(obj); } else { try { _factory.passivateObject(obj); _pool.addFirst(new ObjectTimestampPair(obj)); } catch(Exception e) { _factory.destroyObject(obj);	success = false;	public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(_maxIdle > 0 && (_pool.size() >= _maxIdle \|\| (_testOnReturn && !_factory.validateObject(obj)))) { try { _factory.passivateObject(obj); } catch(Exception e) { ; // i...
notifyAll();	boolean shouldDestroy = !success; synchronized(this) { _numActive--; if((_maxIdle > 0) && (_pool.size() >= _maxIdle)) { shouldDestroy = true; } else if(success) { _pool.addFirst(new ObjectTimestampPair(obj)); } notifyAll(); } if(shouldDestroy) { try { _factory.destroyObject(obj); } catch(Exception e) { } }	public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(_maxIdle > 0 && (_pool.size() >= _maxIdle \|\| (_testOnReturn && !_factory.validateObject(obj)))) { try { _factory.passivateObject(obj); } catch(Exception e) { ; // i...
public synchronized int getNumIdle(Object key) { try { return((LinkedList)(_poolMap.get(key))).size(); } catch(Exception e) { return 0; }	public synchronized int getNumIdle() { return _totalIdle;	public synchronized int getNumIdle(Object key) { try { return((LinkedList)(_poolMap.get(key))).size(); } catch(Exception e) { return 0; } }
public synchronized int getNumActive(Object key) { return getActiveCount(key);	public synchronized int getNumActive() { return _totalActive;	public synchronized int getNumActive(Object key) { return getActiveCount(key); }
	if(newlyCreated) { throw new NoSuchElementException("Could not create a validated object"); }	public synchronized Object borrowObject() throws Exception { assertOpen(); long starttime = System.currentTimeMillis(); for(;;) { ObjectTimestampPair pair = null; // if there are any sleeping, just grab one of those try { pair = (ObjectTimestampPa...
if ((_maxActive <= 0 \|\| active < _maxActive) && (_maxTotal <= 0 \|\| _totalActive + _totalIdle < _maxTotal)) {	if ((_maxActive < 0 \|\| active < _maxActive) && (_maxTotal < 0 \|\| _totalActive + _totalIdle < _maxTotal)) {	public synchronized Object borrowObject(Object key) throws Exception { long starttime = System.currentTimeMillis(); boolean newlyCreated = false; for(;;) { CursorableLinkedList pool = (CursorableLinkedList)(_poolMap.get(key)); if(null == pool) { pool = new C...
public int getNumActive() throws UnsupportedOperationException {	public int getNumActive(Object key) throws UnsupportedOperationException {	public int getNumActive() throws UnsupportedOperationException { return -1; }
public int getNumIdle() throws UnsupportedOperationException {	public int getNumIdle(Object key) throws UnsupportedOperationException {	public int getNumIdle() throws UnsupportedOperationException { return -1; }
public void activateObject(Object obj) {	public void activateObject(Object obj) throws Exception {	public void activateObject(Object obj) { }
public void destroyObject(Object obj) {	public void destroyObject(Object obj) throws Exception {	public void destroyObject(Object obj) { }
public void passivateObject(Object obj) {	public void passivateObject(Object obj) throws Exception {	public void passivateObject(Object obj) { }
protected TestObjectPoolFactory(final String name) {	public TestObjectPoolFactory(final String name) {	protected TestObjectPoolFactory(final String name) { super(name); }
if((_maxIdle > 0) && (_pool.size() >= _maxIdle)) {	if((_maxIdle >= 0) && (_pool.size() >= _maxIdle)) {	public void returnObject(Object obj) throws Exception { assertOpen(); boolean success = true; if(_testOnReturn && !(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { ...
public boolean validateObject(Object key, Object obj) { return true; }	public boolean validateObject(Object key, Object obj) { return valid; }	public boolean validateObject(Object key, Object obj) { return true; }
IdentityKey(final int ident) { this.ident = ident;	IdentityKey(final Object obj) { this(System.identityHashCode(obj));	IdentityKey(final int ident) { this.ident = ident; }
return new GenericObjectPool(_factory,_maxActive,_whenExhaustedAction,_maxWait,_maxIdle,_minIdle,_testOnBorrow,_testOnReturn,_timeBetweenEvictionRunsMillis,_numTestsPerEvictionRun,_minEvictableIdleTimeMillis,_testWhileIdle);	return new GenericObjectPool(_factory,_maxActive,_whenExhaustedAction,_maxWait,_maxIdle,_minIdle,_testOnBorrow,_testOnReturn,_timeBetweenEvictionRunsMillis,_numTestsPerEvictionRun,_minEvictableIdleTimeMillis,_testWhileIdle,_softMinEvictableIdleTimeMillis);	public ObjectPool createPool() { return new GenericObjectPool(_factory,_maxActive,_whenExhaustedAction,_maxWait,_maxIdle,_minIdle,_testOnBorrow,_testOnReturn,_timeBetweenEvictionRunsMillis,_numTestsPerEvictionRun,_minEvictableIdleTimeMillis,_testWhileIdle); }
protected TestKeyedObjectPoolFactory(final String name) {	public TestKeyedObjectPoolFactory(final String name) {	protected TestKeyedObjectPoolFactory(final String name) { super(name); }
g.addUserDatum( LABEL_KEY, edge.getDest().getUserDatum(LABEL_KEY), UserData.SHARED );		private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...
_logger.debug( "Investigating graph: " + _graph.getUserDatum( LABEL_KEY ) );		private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...
_logger.debug( "With graph: " + g.getUserDatum( LABEL_KEY ) + " in file: " + g.getUserDatum( FILE_KEY ) ); if ( _graph.getUserDatum( LABEL_KEY ).equals( g.getUserDatum( LABEL_KEY ) ) )	if ( _graph.hashCode() == g.hashCode() )	private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...
_logger.debug( " Graphs are the same, next..." );		private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...
	_logger.debug( "Analysing graph in file: " + g.getUserDatum( FILE_KEY ) );	private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...
	boolean v1IsMerged = false;	private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...
} _graph.removeVertex( v1 ); }	_graph.removeVertex( v1 ); } }	private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...
_logger.info( "Intend to take the shortest path between: " + (String)_nextVertex.getUserDatum( LABEL_KEY ) + " and " + (String)e.getDest().getUserDatum( LABEL_KEY ) + " (from: " + (String)e.getSource().getUserDatum( LABEL_KEY ) + "), using " + _shortestPathToVertex.size() + " hops." );	_logger.info( "Intend to take the shortest path between: " + _nextVertex.getUserDatum( LABEL_KEY ) + " and " + (String)e.getDest().getUserDatum( LABEL_KEY ) + " (from: " + e.getSource().getUserDatum( LABEL_KEY ) + "), using " + _shortestPathToVertex.size() + " hops." );	private void executeMethod( boolean optimize ) throws FoundNoEdgeException { DirectedSparseEdge edge = null; Object[] outEdges = null; if ( _nextVertex.containsUserDatumKey( BACK_KEY ) && _history. size() >= 3 ) { Float probability = (Float)_nextVertex.getUserDatum( BACK_KEY ); int index = _radomGenerato...
throw new RuntimeException( "The methoden is not defined: " + method );	throw new RuntimeException( "The method is not defined: " + method );	private void invokeMethod( String method ) throws GoBackToPreviousVertexException { Class cls = _object.getClass(); try { if ( method.compareTo( "" ) != 0 ) { Method meth = cls.getMethod( method, null ); meth.invoke( _object, null ); } } catch( NoSuchMethodException e ) { _logger.error( e ); _lo...
for (Property prop : Property.values()) { if (prop.isValidFor(comp) && prop.isStyleProperty() == styleProperties) { GridBox.Row row = new GridBox.Row(); row.add(Main.getSimpleClassName(prop.getType()).replace('$', '.')); row.add(prop.getName()); row.add(prop.getDefaultValue(comp)); row.add(prop == Property.FX_VISIBLE_C...	if (comp.getUserObject() instanceof Widget) { Class<? extends Component> type = ((Widget)comp.getUserObject()).getType(); if (type == TabSheet.class) comp = ((TabFolder)comp).getChildren().get(((TabFolder)comp).getCurrentIndex()); for (Property prop : Property.values()) { if (prop.isValidFor(type) && prop.isStylePrope...	PropertyTabSheet(final Panel panel, final boolean styleProperties) { super(styleProperties ? "Styles" : "Properties"); final GridBox gb = initGridBox(); gb.setPosition(GAP, GAP); final Divider div = new Divider(); div.setX(GAP); div.setHeight(6); final Label lbl = ne...
	Class<? extends Component> type = ((Widget)comp.getUserObject()).getType(); if (type == TabSheet.class) comp = ((TabFolder)comp).getChildren().get(((TabFolder)comp).getCurrentIndex());	public void actionPerformed(ActionEvent ev) { GridBox.Row row = gb.getSelectedRow(); if (row != null) { row.set(COL_VALUE, editor.getText()); Property prop = (Property)row.get(COL_PROPERTY); ...
for (Property prop : Property.values()) { if (prop.isValidFor(comp) && prop.isStyleProperty() == styleProperties) { GridBox.Row row = new GridBox.Row(); row.add(Main.getSimpleClassName(prop.getType()).replace('$', '.')); row.add(prop.getName()); row.add(prop.getDefaultValue(comp)); row.add(prop == Property.FX_VISIBLE_C...	if (comp.getUserObject() instanceof Widget) { Class<? extends Component> type = ((Widget)comp.getUserObject()).getType(); if (type == TabSheet.class) comp = ((TabFolder)comp).getChildren().get(((TabFolder)comp).getCurrentIndex()); for (Property prop : Property.values()) { if (prop.isValidFor(type) && prop.isStylePrope...	public void itemChange(ItemChangeEvent ev) { if (ev.getType() == ItemChangeEvent.Type.ADD && panel.getChildren().size() == 1) { gb.getRows().clear(); Component comp = panel.getChildren().get(0); for (Property prop : ...
	ref.clear();	public synchronized Object borrowObject() throws Exception { assertOpen(); Object obj = null; while(null == obj) { if(_pool.isEmpty()) { if(null == _factory) { throw new NoSuchElementException(); } else { obj...
	pruneClearedReferences();	public synchronized void clear() { assertOpen(); if(null != _factory) { Iterator iter = _pool.iterator(); while(iter.hasNext()) { try { Object obj = ((SoftReference)iter.next()).get(); if(null != obj) { _...
	pruneClearedReferences();	public synchronized int getNumIdle() { assertOpen(); return _pool.size(); }
_pool.add(new SoftReference(obj));	_pool.add(new SoftReference(obj, refQueue));	public synchronized void returnObject(Object obj) throws Exception { assertOpen(); boolean success = true; if(!(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { ...
if(System.currentTimeMillis() - pair.tstamp > _minEvictableIdleTimeMillis) {	if(_minEvictableIdleTimeMillis > 0 && System.currentTimeMillis() - pair.tstamp > _minEvictableIdleTimeMillis) {	public void run() { CursorableLinkedList.Cursor objcursor = null; CursorableLinkedList.Cursor keycursor = null; Object key = null; while(!_cancelled) { long sleeptime = 0L; synchronized(GenericKeyedObjectPool.this) { sl...
public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory \|\| _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _factory.destroyObject(obj); return; }	public void returnObject(Object obj) throws Exception { boolean success = true; if(!(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { success = false;	public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory \|\| _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...
_pool.add(new SoftReference(obj));	boolean shouldDestroy = !success; synchronized(this) { _numActive--; if(success) { _pool.add(new SoftReference(obj)); } notifyAll(); } if(shouldDestroy) { try { _factory.destroyObject(obj); } catch(Exception e) { } }	public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory \|\| _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...
public abstract Object makeObject(Object key);	public abstract Object makeObject(Object key) throws Exception;	public abstract Object makeObject(Object key);
if(_maxIdle > 0 && (pool.size() >= _maxIdle)) {	if(_maxIdle >= 0 && (pool.size() >= _maxIdle)) {	public void returnObject(Object key, Object obj) throws Exception { // grab the pool (list) of objects associated with the given key CursorableLinkedList pool = null; synchronized(this) { pool = (CursorableLinkedList)(_poolMap.get(key)); // if it doesn't exist, create it ...
if(_pool.size() >= _maxSleeping) { shouldDestroy = true; } else if(success) {	if (success) { Object toBeDestroyed = null; if(_pool.size() >= _maxSleeping) { shouldDestroy = true; toBeDestroyed = _pool.remove(0); }	public void returnObject(Object obj) throws Exception { assertOpen(); boolean success = true; if(null != _factory) { if(!(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); ...
	obj = toBeDestroyed;	public void returnObject(Object obj) throws Exception { assertOpen(); boolean success = true; if(null != _factory) { if(!(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); ...
System.out.println( e.getMessage() );	e.printStackTrace();	public static void main(String[] args) { if ( args.length < 2 ) { System.out.println( "Too few arguments" ); displayHelpMessage(); return; } try { _mtb = new ModelBasedTesting( args[ 0 ] ); _mtb.generateJavaCode_XDE( args[ 1 ] ); } catch ( RuntimeException e ) { System.out.println( e.getMessage() )...
public ModelBasedTesting( String graphmlFileName_ )	public ModelBasedTesting( String graphmlFileName_, Object object_ )	public ModelBasedTesting( String graphmlFileName_ ) { _graphmlFileName = graphmlFileName_; _object = null; _logger = org.apache.log4j.Logger.getLogger( ModelBasedTesting.class ); PropertyConfigurator.configure("log4j.properties"); readFiles(); }
_object = null;	_object = object_;	public ModelBasedTesting( String graphmlFileName_ ) { _graphmlFileName = graphmlFileName_; _object = null; _logger = org.apache.log4j.Logger.getLogger( ModelBasedTesting.class ); PropertyConfigurator.configure("log4j.properties"); readFiles(); }
PropertyConfigurator.configure("log4j.properties");		public ModelBasedTesting( String graphmlFileName_ ) { _graphmlFileName = graphmlFileName_; _object = null; _logger = org.apache.log4j.Logger.getLogger( ModelBasedTesting.class ); PropertyConfigurator.configure("log4j.properties"); readFiles(); }
public void activateObject(Object key, Object obj) {	public void activateObject(Object key, Object obj) throws Exception {	public void activateObject(Object key, Object obj) { }
public void destroyObject(Object key, Object obj) {	public void destroyObject(Object key, Object obj) throws Exception {	public void destroyObject(Object key, Object obj) { }
public void passivateObject(Object key, Object obj) {	public void passivateObject(Object key, Object obj) throws Exception {	public void passivateObject(Object key, Object obj) { }
public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory \|\| _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _factory.destroyObject(obj); return; }	public void returnObject(Object obj) throws Exception { boolean success = true; if(!(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { success = false;	public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory \|\| _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...
if(_pool.size() < _maxSleeping) {	} boolean shouldDestroy = !success; synchronized(this) { _numActive--; if(_pool.size() >= _maxSleeping) { shouldDestroy = true; } else if(success) {	public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory \|\| _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...
} else { if(null != _factory) { _factory.destroyObject(obj); }		public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory \|\| _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...
} else { if(null != _factory) {	notifyAll(); } if(shouldDestroy) { try {	public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory \|\| _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...
	} catch(Exception e) {	public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory \|\| _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...
wait(_maxWait);	final long elapsed = (System.currentTimeMillis() - starttime); final long waitTime = _maxWait - elapsed; if (waitTime > 0) { wait(waitTime); }	public synchronized Object borrowObject() throws Exception { assertOpen(); long starttime = System.currentTimeMillis(); boolean newlyCreated = false; for(;;) { ObjectTimestampPair pair = null; // if there are any sleeping, just grab one of those try { ...
if(_minEvictableIdleTimeMillis > 0 && System.currentTimeMillis() - pair.tstamp > _minEvictableIdleTimeMillis) { removeObject = true;	long idleTimeMilis = System.currentTimeMillis() - pair.tstamp; if ((_minEvictableIdleTimeMillis > 0) && (idleTimeMilis > _minEvictableIdleTimeMillis)) { removeObject = true; } else if ((_softMinEvictableIdleTimeMillis > 0) && (idleTimeMilis > _softMinEvictableIdleTimeMillis) && (getNumIdle() > getMinIdle())) { removeOb...	public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { if(null == _evictionCursor) { _evictionCursor = (_pool.cursor(_pool.size())); } else if(!_evictionCursor.hasPrevious()) { _evictionCursor.close(); ...
public TestKeyedObjectPoolFactory(final String name) {	protected TestKeyedObjectPoolFactory(final String name) {	public TestKeyedObjectPoolFactory(final String name) { super(name); }
protected KeyedObjectPoolFactory makeFactory(KeyedPoolableObjectFactory objectFactory) throws UnsupportedOperationException{ throw new UnsupportedOperationException("Subclass needs to override makeFactory method.");	protected KeyedObjectPoolFactory makeFactory() throws UnsupportedOperationException { return makeFactory(createObjectFactory());	protected KeyedObjectPoolFactory makeFactory(KeyedPoolableObjectFactory objectFactory) throws UnsupportedOperationException{ throw new UnsupportedOperationException("Subclass needs to override makeFactory method."); }
public StackKeyedObjectPoolFactory(KeyedPoolableObjectFactory factory) { this(factory,StackKeyedObjectPool.DEFAULT_MAX_SLEEPING,StackKeyedObjectPool.DEFAULT_INIT_SLEEPING_CAPACITY);	public StackKeyedObjectPoolFactory() { this((KeyedPoolableObjectFactory)null,StackKeyedObjectPool.DEFAULT_MAX_SLEEPING,StackKeyedObjectPool.DEFAULT_INIT_SLEEPING_CAPACITY);	public StackKeyedObjectPoolFactory(KeyedPoolableObjectFactory factory) { this(factory,StackKeyedObjectPool.DEFAULT_MAX_SLEEPING,StackKeyedObjectPool.DEFAULT_INIT_SLEEPING_CAPACITY); }
this(null,DEFAULT_MAX_ACTIVE,DEFAULT_WHEN_EXHAUSTED_ACTION,DEFAULT_MAX_WAIT,DEFAULT_MAX_IDLE,DEFAULT_TEST_ON_BORROW,DEFAULT_TEST_ON_RETURN,DEFAULT_TIME_BETWEEN_EVICTION_RUNS_MILLIS,DEFAULT_NUM_TESTS_PER_EVICTION_RUN,DEFAULT_MIN_EVICTABLE_IDLE_TIME_MILLIS,DEFAULT_TEST_WHILE_IDLE);	this(null,DEFAULT_MAX_ACTIVE,DEFAULT_WHEN_EXHAUSTED_ACTION,DEFAULT_MAX_WAIT,DEFAULT_MAX_IDLE,DEFAULT_MIN_IDLE,DEFAULT_TEST_ON_BORROW,DEFAULT_TEST_ON_RETURN,DEFAULT_TIME_BETWEEN_EVICTION_RUNS_MILLIS,DEFAULT_NUM_TESTS_PER_EVICTION_RUN,DEFAULT_MIN_EVICTABLE_IDLE_TIME_MILLIS,DEFAULT_TEST_WHILE_IDLE);	public GenericObjectPool() { this(null,DEFAULT_MAX_ACTIVE,DEFAULT_WHEN_EXHAUSTED_ACTION,DEFAULT_MAX_WAIT,DEFAULT_MAX_IDLE,DEFAULT_TEST_ON_BORROW,DEFAULT_TEST_ON_RETURN,DEFAULT_TIME_BETWEEN_EVICTION_RUNS_MILLIS,DEFAULT_NUM_TESTS_PER_EVICTION_RUN,DEFAULT_MIN_EVICTABLE_IDLE_TIME_MILLIS,DEFAULT_TEST_WHILE_IDLE);...
	} int objectDeficit = getMinIdle() - getNumIdle(); if (_maxActive > 0) { int growLimit = Math.max(0, getMaxActive() - getNumActive() - getNumIdle()); objectDeficit = Math.min(objectDeficit, growLimit); } for ( int j = 0; j < objectDeficit; j++ ) { addObject();	public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { if(null == _evictionCursor) { _evictionCursor = (_pool.cursor(_pool.size())); } else if(!_evictionCursor.hasPrevious()) { _evictionCursor.close(); ...
	setMinIdle(conf.minIdle);	public synchronized void setConfig(GenericObjectPool.Config conf) { setMaxIdle(conf.maxIdle); setMaxActive(conf.maxActive); setMaxWait(conf.maxWait); setWhenExhaustedAction(conf.whenExhaustedAction); setTestOnBorrow(conf.testOnBorrow); setTestOnReturn(conf.testOnReturn); ...
} else if(_testWhileIdle) {	} if(_testWhileIdle && removeObject == false) {	public synchronized void evict() throws Exception { Object key = null; if (_recentlyEvictedKeys == null) { _recentlyEvictedKeys = new HashSet(_poolMap.size()); } Set remainingKeys = new HashSet(_poolMap.keySet()); remainingKeys.removeAll(_recentlyEvictedKeys); It...
wait(_maxWait);	final long elapsed = (System.currentTimeMillis() - starttime); final long waitTime = _maxWait - elapsed; if (waitTime > 0) { wait(waitTime); }	public synchronized Object borrowObject(Object key) throws Exception { long starttime = System.currentTimeMillis(); boolean newlyCreated = false; for(;;) { CursorableLinkedList pool = (CursorableLinkedList)(_poolMap.get(key)); if(null == pool) { pool = new C...
	assertNotNull(pool);	public void testInvalidWhenExhaustedAction() throws Exception { try { pool.setWhenExhaustedAction(Byte.MAX_VALUE); fail("Expected IllegalArgumentException"); } catch(IllegalArgumentException e) { // expected } try { ObjectPool pool = new Generi...
_evictor = new Evictor(delay); Thread t = new Thread(_evictor); t.setDaemon(true); t.start();	_evictor = new Evictor(); EVICTION_TIMER.schedule(_evictor, delay, delay);	protected synchronized void startEvictor(long delay) { if(null != _evictor) { _evictor.cancel(); _evictor = null; } if(delay > 0) { _evictor = new Evictor(delay); Thread t = new Thread(_evictor); t.setDaemon(true); t.start(); ...
synchronized(this) { _numActive++; this.returnObject(obj); }	addObjectToPool(obj, false);	public void addObject() throws Exception { Object obj = _factory.makeObject(); synchronized(this) { _numActive++; // A little slimy - must do this because returnObject decrements it. this.returnObject(obj); } }
boolean success = true; if(_testOnReturn && !(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { success = false; } } boolean shouldDestroy = !success; synchronized(this) { _numActive--; if((_maxIdle >= 0) && (_pool.size() >= _maxIdle)) { shouldDestr...	addObjectToPool(obj, true);	public void returnObject(Object obj) throws Exception { assertOpen(); boolean success = true; if(_testOnReturn && !(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { ...
final EvictorReference ref = (EvictorReference)iter.next(); if (ref != null && ref.get() == null) {	Object o = iter.next(); while (o instanceof LenderReference) { o = ((LenderReference)o).get(); } if (o == null) {	public int size() { if (prune) { synchronized (getObjectPool().getPool()) { final Iterator iter = super.listIterator(); while (iter.hasNext()) { final EvictorReference ref = (EvictorReference)iter.next(); if (ref != null && ref.ge...
	SAXBuilder parser = new SAXBuilder( "org.apache.crimson.parser.XMLReaderImpl", false );	private SparseGraph parseFile( String fileName ) { SparseGraph graph = new SparseGraph(); graph.addUserDatum( FILE_KEY, fileName, UserData.SHARED ); try { _logger.info( "Parsing file: " + fileName ); _doc = _parser.build( fileName ); // Parse all vertices (nodes) Iterator iter = _doc.getDescendants( new or...
_doc = _parser.build( fileName );	Document doc = parser.build( fileName );	private SparseGraph parseFile( String fileName ) { SparseGraph graph = new SparseGraph(); graph.addUserDatum( FILE_KEY, fileName, UserData.SHARED ); try { _logger.info( "Parsing file: " + fileName ); _doc = _parser.build( fileName ); // Parse all vertices (nodes) Iterator iter = _doc.getDescendants( new or...
Iterator iter = _doc.getDescendants( new org.jdom.filter.ElementFilter( "node" ) );	Iterator iter = doc.getDescendants( new org.jdom.filter.ElementFilter( "node" ) );	private SparseGraph parseFile( String fileName ) { SparseGraph graph = new SparseGraph(); graph.addUserDatum( FILE_KEY, fileName, UserData.SHARED ); try { _logger.info( "Parsing file: " + fileName ); _doc = _parser.build( fileName ); // Parse all vertices (nodes) Iterator iter = _doc.getDescendants( new or...
iter = _doc.getDescendants( new org.jdom.filter.ElementFilter( "edge" ) );	iter = doc.getDescendants( new org.jdom.filter.ElementFilter( "edge" ) );	private SparseGraph parseFile( String fileName ) { SparseGraph graph = new SparseGraph(); graph.addUserDatum( FILE_KEY, fileName, UserData.SHARED ); try { _logger.info( "Parsing file: " + fileName ); _doc = _parser.build( fileName ); // Parse all vertices (nodes) Iterator iter = _doc.getDescendants( new or...
catch ( org.jdom.JDOMException e )	catch ( JDOMException e )	private SparseGraph parseFile( String fileName ) { SparseGraph graph = new SparseGraph(); graph.addUserDatum( FILE_KEY, fileName, UserData.SHARED ); try { _logger.info( "Parsing file: " + fileName ); _doc = _parser.build( fileName ); // Parse all vertices (nodes) Iterator iter = _doc.getDescendants( new or...
if(_maxActive > 0 && active < _maxActive) {	if(_maxActive <= 0 \|\| active < _maxActive) {	public synchronized Object borrowObject(Object key) throws Exception { long starttime = System.currentTimeMillis(); for(;;) { CursorableLinkedList pool = (CursorableLinkedList)(_poolMap.get(key)); if(null == pool) { pool = new CursorableLinkedList(); ...
return String.valueOf(counter);	return new String(String.valueOf(counter));	public Object makeObject() { counter++; return String.valueOf(counter); }
try { HashMap map = new HashMap();	final List garbage = new LinkedList(); final Runtime runtime = Runtime.getRuntime(); while (pool.getNumIdle() > 0) { garbage.add(new byte[Math.min(1024 * 1024, (int)runtime.freeMemory())]); System.gc(); } garbage.clear(); System.gc();	public void testOutOfMemory() throws Exception { pool = new SoftReferenceObjectPool(new SmallPoolableObjectFactory()); Object obj = pool.borrowObject(); assertEquals("1", obj); pool.returnObject(obj); obj = null; assertEquals(1, pool.getNumIdle()); try { ...
for (int i = 0; i < 1000000; i++) { map.put(new Integer(i), new String("Fred Flintstone" + i)); } } catch (OutOfMemoryError ex) { }		public void testOutOfMemory() throws Exception { pool = new SoftReferenceObjectPool(new SmallPoolableObjectFactory()); Object obj = pool.borrowObject(); assertEquals("1", obj); pool.returnObject(obj); obj = null; assertEquals(1, pool.getNumIdle()); try { ...
try { HashMap map = new HashMap();	final List garbage = new LinkedList(); final Runtime runtime = Runtime.getRuntime(); while (pool.getNumIdle() > 0) { garbage.add(new byte[Math.min(1024 * 1024, (int)runtime.freeMemory())]); System.gc(); } garbage.clear(); System.gc();	public void testOutOfMemory1000() throws Exception { pool = new SoftReferenceObjectPool(new SmallPoolableObjectFactory()); for (int i = 0 ; i < 1000 ; i++) { pool.addObject(); } Object obj = pool.borrowObject(); assertEquals("1000", obj); pool.returnObject(obj); ...
for (int i = 0; i < 1000000; i++) { map.put(new Integer(i), new String("Fred Flintstone" + i)); } } catch (OutOfMemoryError ex) { }		public void testOutOfMemory1000() throws Exception { pool = new SoftReferenceObjectPool(new SmallPoolableObjectFactory()); for (int i = 0 ; i < 1000 ; i++) { pool.addObject(); } Object obj = pool.borrowObject(); assertEquals("1000", obj); pool.returnObject(obj); ...
HashMap map = new HashMap();	final Map map = new HashMap();	public void testOutOfMemoryKeepMap() throws Exception { pool = new SoftReferenceObjectPool(new LargePoolableObjectFactory(1000000)); Object obj = pool.borrowObject(); assertTrue(((String)obj).startsWith("1.")); pool.returnObject(obj); obj = null; assertEquals(1, poo...
for (int i = 0; i < 1000000; i++) { map.put(new Integer(i), new String("Fred Flintstone" + i));	final Runtime runtime = Runtime.getRuntime(); int i = 0; while (true) { final int size = Math.max(1, Math.min(1048576, (int)runtime.freeMemory() / 2)); final byte[] data = new byte[size]; map.put(new Integer(i++), data);	public void testOutOfMemoryKeepMap() throws Exception { pool = new SoftReferenceObjectPool(new LargePoolableObjectFactory(1000000)); Object obj = pool.borrowObject(); assertTrue(((String)obj).startsWith("1.")); pool.returnObject(obj); obj = null; assertEquals(1, poo...
try { HashMap map = new HashMap();	final List garbage = new LinkedList(); final Runtime runtime = Runtime.getRuntime(); while (pool.getNumIdle() > 0) { garbage.add(new byte[Math.min(1024 * 1024, (int)runtime.freeMemory())]); System.gc(); } garbage.clear(); System.gc();	public void testOutOfMemoryLarge() throws Exception { pool = new SoftReferenceObjectPool(new LargePoolableObjectFactory(1000000)); Object obj = pool.borrowObject(); assertTrue(((String)obj).startsWith("1.")); pool.returnObject(obj); obj = null; assertEquals(1, pool....
for (int i = 0; i < 1000000; i++) { map.put(new Integer(i), new String("Fred Flintstone" + i)); } } catch (OutOfMemoryError ex) { }		public void testOutOfMemoryLarge() throws Exception { pool = new SoftReferenceObjectPool(new LargePoolableObjectFactory(1000000)); Object obj = pool.borrowObject(); assertTrue(((String)obj).startsWith("1.")); pool.returnObject(obj); obj = null; assertEquals(1, pool....
Thread.currentThread().sleep(_timeBetweenEvictionRunsMillis);	Thread.currentThread().sleep(sleeptime);	public void run() { CursorableLinkedList.Cursor cursor = null; while(!_cancelled) { long sleeptime = 0L; synchronized(GenericObjectPool.this) { sleeptime = _timeBetweenEvictionRunsMillis; } try { ...
value = val; tstamp = System.currentTimeMillis();	this(val, System.currentTimeMillis());	ObjectTimestampPair(Object val) { value = val; tstamp = System.currentTimeMillis(); }
sourceFile.append( " print \"Edge: PressBackButton\n\";" );	sourceFile.append( " print \"Edge: PressBackButton\";\n" );	public void generatePerlCode( String fileName ) { boolean _existBack = false; _vertices = _graph.getVertices().toArray(); _edges = _graph.getEdges().toArray(); ArrayList writtenVertices = new ArrayList(); ArrayList writtenEdges = new ArrayList(); StringBuffer sourceFile = new StringBuffer(); /** * Read ...
sourceFile.append( " print \"Vertex: " + (String)vertex.getUserDatum( LABEL_KEY ) + "\n\";" );	sourceFile.append( " print \"Vertex: " + (String)vertex.getUserDatum( LABEL_KEY ) + "\";\n" );	public void generatePerlCode( String fileName ) { boolean _existBack = false; _vertices = _graph.getVertices().toArray(); _edges = _graph.getEdges().toArray(); ArrayList writtenVertices = new ArrayList(); ArrayList writtenEdges = new ArrayList(); StringBuffer sourceFile = new StringBuffer(); /** * Read ...
sourceFile.append( " print \"Edge: " + (String)edge.getUserDatum( LABEL_KEY ) + "\n\";" );	sourceFile.append( " print \"Edge: " + (String)edge.getUserDatum( LABEL_KEY ) + "\";\n" );	public void generatePerlCode( String fileName ) { boolean _existBack = false; _vertices = _graph.getVertices().toArray(); _edges = _graph.getEdges().toArray(); ArrayList writtenVertices = new ArrayList(); ArrayList writtenEdges = new ArrayList(); StringBuffer sourceFile = new StringBuffer(); /** * Read ...
CursorableLinkedList.Cursor objcursor = null; CursorableLinkedList.Cursor keycursor = null; Object key = null;		public void run() { CursorableLinkedList.Cursor objcursor = null; CursorableLinkedList.Cursor keycursor = null; Object key = null; while(!_cancelled) { long sleeptime = 0L; synchronized(GenericKeyedObjectPool.this) { sl...
synchronized(GenericKeyedObjectPool.this) { for(int i=0,m=getNumTests();i<m;i++) { if(_poolMap.size() > 0) { if(null == keycursor) { keycursor = _poolList.cursor(); key = null; if(null != objcursor) { objcursor.close(); objcursor = null; } } if(null == objcursor) { if(keycursor.hasNext()) { key = keycursor.next(); C...	evict();	public void run() { CursorableLinkedList.Cursor objcursor = null; CursorableLinkedList.Cursor keycursor = null; Object key = null; while(!_cancelled) { long sleeptime = 0L; synchronized(GenericKeyedObjectPool.this) { sl...
if(null != keycursor) { keycursor.close(); } if(null != objcursor) { objcursor.close();	synchronized(GenericKeyedObjectPool.this) { if(null != _evictionCursor) { _evictionCursor.close(); _evictionCursor = null; } if(null != _evictionKeyCursor) { _evictionKeyCursor.close(); _evictionKeyCursor = null; }	public void run() { CursorableLinkedList.Cursor objcursor = null; CursorableLinkedList.Cursor keycursor = null; Object key = null; while(!_cancelled) { long sleeptime = 0L; synchronized(GenericKeyedObjectPool.this) { sl...
	if(null != _evictionCursor) { _evictionCursor.close(); _evictionCursor = null; } if(null != _evictionKeyCursor) { _evictionKeyCursor.close(); _evictionKeyCursor = null; }	synchronized public void close() throws Exception { clear(); _poolList = null; _poolMap = null; _activeMap = null; if(null != _evictor) { _evictor.cancel(); _evictor = null; } }
if (referant == null) {	Object r = referant; while (r instanceof LenderReference) { r = ((LenderReference)r).get(); } if (r == null) {	public void run() { // Skip some synchronization if we can if (referant == null) { cancel(); return; } final PoolableObjectFactory factory = getObjectPool().getFactory(); synchronized(getObjectPo...
factory.activateObject(referant); if (factory.validateObject(referant)) { factory.passivateObject(referant);	factory.activateObject(r); if (factory.validateObject(r)) { factory.passivateObject(r);	public void run() { // Skip some synchronization if we can if (referant == null) { cancel(); return; } final PoolableObjectFactory factory = getObjectPool().getFactory(); synchronized(getObjectPo...
factory.destroyObject(referant);	factory.destroyObject(r);	public void run() { // Skip some synchronization if we can if (referant == null) { cancel(); return; } final PoolableObjectFactory factory = getObjectPool().getFactory(); synchronized(getObjectPo...
} else { boolean removeObject = false; ObjectTimestampPair pair = (ObjectTimestampPair)(iter.previous()); long idleTimeMilis = System.currentTimeMillis() - pair.tstamp; if ((_minEvictableIdleTimeMillis > 0)	} boolean removeObject = false; final ObjectTimestampPair pair = (ObjectTimestampPair)(iter.previous()); final long idleTimeMilis = System.currentTimeMillis() - pair.tstamp; if ((_minEvictableIdleTimeMillis > 0)	public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { ListIterator iter; if (evictLastIndex < 0) { iter = _pool.listIterator(_pool.size()); } else { iter = _pool.listIterator(evictLastIndex); }...
removeObject = true;	removeObject = true; } if(_testWhileIdle && !removeObject) { boolean active = false; try { _factory.activateObject(pair.value); active = true; } catch(Exception e) { removeObject=true;	public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { ListIterator iter; if (evictLastIndex < 0) { iter = _pool.listIterator(_pool.size()); } else { iter = _pool.listIterator(evictLastIndex); }...
if(_testWhileIdle && removeObject == false) { boolean active = false; try { _factory.activateObject(pair.value); active = true; } catch(Exception e) {	if(active) { if(!_factory.validateObject(pair.value)) {	public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { ListIterator iter; if (evictLastIndex < 0) { iter = _pool.listIterator(_pool.size()); } else { iter = _pool.listIterator(evictLastIndex); }...
} if(active) { if(!_factory.validateObject(pair.value)) {	} else { try { _factory.passivateObject(pair.value); } catch(Exception e) {	public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { ListIterator iter; if (evictLastIndex < 0) { iter = _pool.listIterator(_pool.size()); } else { iter = _pool.listIterator(evictLastIndex); }...

protected ObjectPoolFactory makeFactory(PoolableObjectFactory objectFactory) throws UnsupportedOperationException { throw new UnsupportedOperationException("Subclass needs to override makeFactory method.");

protected ObjectPoolFactory makeFactory() throws UnsupportedOperationException { return makeFactory(new MethodCallPoolableObjectFactory());

protected ObjectPoolFactory makeFactory(PoolableObjectFactory objectFactory) throws UnsupportedOperationException { throw new UnsupportedOperationException("Subclass needs to override makeFactory method."); }

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(_maxIdle > 0 && (_pool.size() >= _maxIdle || (_testOnReturn && !_factory.validateObject(obj)))) {

public void returnObject(Object obj) throws Exception { boolean success = true; if(_testOnReturn && !(_factory.validateObject(obj))) { success = false; } else {

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(_maxIdle > 0 && (_pool.size() >= _maxIdle || (_testOnReturn && !_factory.validateObject(obj)))) { try { _factory.passivateObject(obj); } catch(Exception e) { ; // i...

; } _factory.destroyObject(obj); } else { try { _factory.passivateObject(obj); _pool.addFirst(new ObjectTimestampPair(obj)); } catch(Exception e) { _factory.destroyObject(obj);

success = false;

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(_maxIdle > 0 && (_pool.size() >= _maxIdle || (_testOnReturn && !_factory.validateObject(obj)))) { try { _factory.passivateObject(obj); } catch(Exception e) { ; // i...

notifyAll();

boolean shouldDestroy = !success; synchronized(this) { _numActive--; if((_maxIdle > 0) && (_pool.size() >= _maxIdle)) { shouldDestroy = true; } else if(success) { _pool.addFirst(new ObjectTimestampPair(obj)); } notifyAll(); } if(shouldDestroy) { try { _factory.destroyObject(obj); } catch(Exception e) { } }

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(_maxIdle > 0 && (_pool.size() >= _maxIdle || (_testOnReturn && !_factory.validateObject(obj)))) { try { _factory.passivateObject(obj); } catch(Exception e) { ; // i...

public synchronized int getNumIdle(Object key) { try { return((LinkedList)(_poolMap.get(key))).size(); } catch(Exception e) { return 0; }

public synchronized int getNumIdle() { return _totalIdle;

public synchronized int getNumIdle(Object key) { try { return((LinkedList)(_poolMap.get(key))).size(); } catch(Exception e) { return 0; } }

public synchronized int getNumActive(Object key) { return getActiveCount(key);

public synchronized int getNumActive() { return _totalActive;

public synchronized int getNumActive(Object key) { return getActiveCount(key); }

if(newlyCreated) { throw new NoSuchElementException("Could not create a validated object"); }

public synchronized Object borrowObject() throws Exception { assertOpen(); long starttime = System.currentTimeMillis(); for(;;) { ObjectTimestampPair pair = null; // if there are any sleeping, just grab one of those try { pair = (ObjectTimestampPa...

if ((_maxActive <= 0 || active < _maxActive) && (_maxTotal <= 0 || _totalActive + _totalIdle < _maxTotal)) {

if ((_maxActive < 0 || active < _maxActive) && (_maxTotal < 0 || _totalActive + _totalIdle < _maxTotal)) {

public synchronized Object borrowObject(Object key) throws Exception { long starttime = System.currentTimeMillis(); boolean newlyCreated = false; for(;;) { CursorableLinkedList pool = (CursorableLinkedList)(_poolMap.get(key)); if(null == pool) { pool = new C...

public int getNumActive() throws UnsupportedOperationException {

public int getNumActive(Object key) throws UnsupportedOperationException {

public int getNumActive() throws UnsupportedOperationException { return -1; }

public int getNumIdle() throws UnsupportedOperationException {

public int getNumIdle(Object key) throws UnsupportedOperationException {

public int getNumIdle() throws UnsupportedOperationException { return -1; }

public void activateObject(Object obj) {

public void activateObject(Object obj) throws Exception {

public void activateObject(Object obj) { }

public void destroyObject(Object obj) {

public void destroyObject(Object obj) throws Exception {

public void destroyObject(Object obj) { }

public void passivateObject(Object obj) {

public void passivateObject(Object obj) throws Exception {

public void passivateObject(Object obj) { }

protected TestObjectPoolFactory(final String name) {

public TestObjectPoolFactory(final String name) {

protected TestObjectPoolFactory(final String name) { super(name); }

if((_maxIdle > 0) && (_pool.size() >= _maxIdle)) {

if((_maxIdle >= 0) && (_pool.size() >= _maxIdle)) {

public void returnObject(Object obj) throws Exception { assertOpen(); boolean success = true; if(_testOnReturn && !(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { ...

public boolean validateObject(Object key, Object obj) { return true; }

public boolean validateObject(Object key, Object obj) { return valid; }

public boolean validateObject(Object key, Object obj) { return true; }

IdentityKey(final int ident) { this.ident = ident;

IdentityKey(final Object obj) { this(System.identityHashCode(obj));

IdentityKey(final int ident) { this.ident = ident; }

return new GenericObjectPool(_factory,_maxActive,_whenExhaustedAction,_maxWait,_maxIdle,_minIdle,_testOnBorrow,_testOnReturn,_timeBetweenEvictionRunsMillis,_numTestsPerEvictionRun,_minEvictableIdleTimeMillis,_testWhileIdle);

return new GenericObjectPool(_factory,_maxActive,_whenExhaustedAction,_maxWait,_maxIdle,_minIdle,_testOnBorrow,_testOnReturn,_timeBetweenEvictionRunsMillis,_numTestsPerEvictionRun,_minEvictableIdleTimeMillis,_testWhileIdle,_softMinEvictableIdleTimeMillis);

public ObjectPool createPool() { return new GenericObjectPool(_factory,_maxActive,_whenExhaustedAction,_maxWait,_maxIdle,_minIdle,_testOnBorrow,_testOnReturn,_timeBetweenEvictionRunsMillis,_numTestsPerEvictionRun,_minEvictableIdleTimeMillis,_testWhileIdle); }

protected TestKeyedObjectPoolFactory(final String name) {

public TestKeyedObjectPoolFactory(final String name) {

protected TestKeyedObjectPoolFactory(final String name) { super(name); }

g.addUserDatum( LABEL_KEY, edge.getDest().getUserDatum(LABEL_KEY), UserData.SHARED );

private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...

_logger.debug( "Investigating graph: " + _graph.getUserDatum( LABEL_KEY ) );

private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...

_logger.debug( "With graph: " + g.getUserDatum( LABEL_KEY ) + " in file: " + g.getUserDatum( FILE_KEY ) ); if ( _graph.getUserDatum( LABEL_KEY ).equals( g.getUserDatum( LABEL_KEY ) ) )

if ( _graph.hashCode() == g.hashCode() )

private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...

_logger.debug( " Graphs are the same, next..." );

private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...

_logger.debug( "Analysing graph in file: " + g.getUserDatum( FILE_KEY ) );

private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...

boolean v1IsMerged = false;

private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...

} _graph.removeVertex( v1 ); }

_graph.removeVertex( v1 ); } }

private void analyseSubGraphs() { boolean foundStartGraph = false; for ( Iterator iter = _graphList.iterator(); iter.hasNext(); ) { SparseGraph g = (SparseGraph) iter.next(); Object[] vertices = g.getVertices().toArray(); for ( int i = 0; i < vertices.length; i++ ) { DirectedSparseVertex v = (Directed...

_logger.info( "Intend to take the shortest path between: " + (String)_nextVertex.getUserDatum( LABEL_KEY ) + " and " + (String)e.getDest().getUserDatum( LABEL_KEY ) + " (from: " + (String)e.getSource().getUserDatum( LABEL_KEY ) + "), using " + _shortestPathToVertex.size() + " hops." );

_logger.info( "Intend to take the shortest path between: " + _nextVertex.getUserDatum( LABEL_KEY ) + " and " + (String)e.getDest().getUserDatum( LABEL_KEY ) + " (from: " + e.getSource().getUserDatum( LABEL_KEY ) + "), using " + _shortestPathToVertex.size() + " hops." );

private void executeMethod( boolean optimize ) throws FoundNoEdgeException { DirectedSparseEdge edge = null; Object[] outEdges = null; if ( _nextVertex.containsUserDatumKey( BACK_KEY ) && _history. size() >= 3 ) { Float probability = (Float)_nextVertex.getUserDatum( BACK_KEY ); int index = _radomGenerato...

throw new RuntimeException( "The methoden is not defined: " + method );

throw new RuntimeException( "The method is not defined: " + method );

private void invokeMethod( String method ) throws GoBackToPreviousVertexException { Class cls = _object.getClass(); try { if ( method.compareTo( "" ) != 0 ) { Method meth = cls.getMethod( method, null ); meth.invoke( _object, null ); } } catch( NoSuchMethodException e ) { _logger.error( e ); _lo...

for (Property prop : Property.values()) { if (prop.isValidFor(comp) && prop.isStyleProperty() == styleProperties) { GridBox.Row row = new GridBox.Row(); row.add(Main.getSimpleClassName(prop.getType()).replace('$', '.')); row.add(prop.getName()); row.add(prop.getDefaultValue(comp)); row.add(prop == Property.FX_VISIBLE_C...

if (comp.getUserObject() instanceof Widget) { Class<? extends Component> type = ((Widget)comp.getUserObject()).getType(); if (type == TabSheet.class) comp = ((TabFolder)comp).getChildren().get(((TabFolder)comp).getCurrentIndex()); for (Property prop : Property.values()) { if (prop.isValidFor(type) && prop.isStylePrope...

PropertyTabSheet(final Panel panel, final boolean styleProperties) { super(styleProperties ? "Styles" : "Properties"); final GridBox gb = initGridBox(); gb.setPosition(GAP, GAP); final Divider div = new Divider(); div.setX(GAP); div.setHeight(6); final Label lbl = ne...

Class<? extends Component> type = ((Widget)comp.getUserObject()).getType(); if (type == TabSheet.class) comp = ((TabFolder)comp).getChildren().get(((TabFolder)comp).getCurrentIndex());

public void actionPerformed(ActionEvent ev) { GridBox.Row row = gb.getSelectedRow(); if (row != null) { row.set(COL_VALUE, editor.getText()); Property prop = (Property)row.get(COL_PROPERTY); ...

for (Property prop : Property.values()) { if (prop.isValidFor(comp) && prop.isStyleProperty() == styleProperties) { GridBox.Row row = new GridBox.Row(); row.add(Main.getSimpleClassName(prop.getType()).replace('$', '.')); row.add(prop.getName()); row.add(prop.getDefaultValue(comp)); row.add(prop == Property.FX_VISIBLE_C...

if (comp.getUserObject() instanceof Widget) { Class<? extends Component> type = ((Widget)comp.getUserObject()).getType(); if (type == TabSheet.class) comp = ((TabFolder)comp).getChildren().get(((TabFolder)comp).getCurrentIndex()); for (Property prop : Property.values()) { if (prop.isValidFor(type) && prop.isStylePrope...

public void itemChange(ItemChangeEvent ev) { if (ev.getType() == ItemChangeEvent.Type.ADD && panel.getChildren().size() == 1) { gb.getRows().clear(); Component comp = panel.getChildren().get(0); for (Property prop : ...

ref.clear();

public synchronized Object borrowObject() throws Exception { assertOpen(); Object obj = null; while(null == obj) { if(_pool.isEmpty()) { if(null == _factory) { throw new NoSuchElementException(); } else { obj...

pruneClearedReferences();

public synchronized void clear() { assertOpen(); if(null != _factory) { Iterator iter = _pool.iterator(); while(iter.hasNext()) { try { Object obj = ((SoftReference)iter.next()).get(); if(null != obj) { _...

pruneClearedReferences();

public synchronized int getNumIdle() { assertOpen(); return _pool.size(); }

_pool.add(new SoftReference(obj));

_pool.add(new SoftReference(obj, refQueue));

public synchronized void returnObject(Object obj) throws Exception { assertOpen(); boolean success = true; if(!(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { ...

if(System.currentTimeMillis() - pair.tstamp > _minEvictableIdleTimeMillis) {

if(_minEvictableIdleTimeMillis > 0 && System.currentTimeMillis() - pair.tstamp > _minEvictableIdleTimeMillis) {

public void run() { CursorableLinkedList.Cursor objcursor = null; CursorableLinkedList.Cursor keycursor = null; Object key = null; while(!_cancelled) { long sleeptime = 0L; synchronized(GenericKeyedObjectPool.this) { sl...

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory || _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _factory.destroyObject(obj); return; }

public void returnObject(Object obj) throws Exception { boolean success = true; if(!(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { success = false;

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory || _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...

_pool.add(new SoftReference(obj));

boolean shouldDestroy = !success; synchronized(this) { _numActive--; if(success) { _pool.add(new SoftReference(obj)); } notifyAll(); } if(shouldDestroy) { try { _factory.destroyObject(obj); } catch(Exception e) { } }

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory || _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...

public abstract Object makeObject(Object key);

public abstract Object makeObject(Object key) throws Exception;

public abstract Object makeObject(Object key);

if(_maxIdle > 0 && (pool.size() >= _maxIdle)) {

if(_maxIdle >= 0 && (pool.size() >= _maxIdle)) {

public void returnObject(Object key, Object obj) throws Exception { // grab the pool (list) of objects associated with the given key CursorableLinkedList pool = null; synchronized(this) { pool = (CursorableLinkedList)(_poolMap.get(key)); // if it doesn't exist, create it ...

if(_pool.size() >= _maxSleeping) { shouldDestroy = true; } else if(success) {

if (success) { Object toBeDestroyed = null; if(_pool.size() >= _maxSleeping) { shouldDestroy = true; toBeDestroyed = _pool.remove(0); }

public void returnObject(Object obj) throws Exception { assertOpen(); boolean success = true; if(null != _factory) { if(!(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); ...

obj = toBeDestroyed;

public void returnObject(Object obj) throws Exception { assertOpen(); boolean success = true; if(null != _factory) { if(!(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); ...

System.out.println( e.getMessage() );

e.printStackTrace();

public static void main(String[] args) { if ( args.length < 2 ) { System.out.println( "Too few arguments" ); displayHelpMessage(); return; } try { _mtb = new ModelBasedTesting( args[ 0 ] ); _mtb.generateJavaCode_XDE( args[ 1 ] ); } catch ( RuntimeException e ) { System.out.println( e.getMessage() )...

public ModelBasedTesting( String graphmlFileName_ )

public ModelBasedTesting( String graphmlFileName_, Object object_ )

public ModelBasedTesting( String graphmlFileName_ ) { _graphmlFileName = graphmlFileName_; _object = null; _logger = org.apache.log4j.Logger.getLogger( ModelBasedTesting.class ); PropertyConfigurator.configure("log4j.properties"); readFiles(); }

_object = null;

_object = object_;

public ModelBasedTesting( String graphmlFileName_ ) { _graphmlFileName = graphmlFileName_; _object = null; _logger = org.apache.log4j.Logger.getLogger( ModelBasedTesting.class ); PropertyConfigurator.configure("log4j.properties"); readFiles(); }

PropertyConfigurator.configure("log4j.properties");

public ModelBasedTesting( String graphmlFileName_ ) { _graphmlFileName = graphmlFileName_; _object = null; _logger = org.apache.log4j.Logger.getLogger( ModelBasedTesting.class ); PropertyConfigurator.configure("log4j.properties"); readFiles(); }

public void activateObject(Object key, Object obj) {

public void activateObject(Object key, Object obj) throws Exception {

public void activateObject(Object key, Object obj) { }

public void destroyObject(Object key, Object obj) {

public void destroyObject(Object key, Object obj) throws Exception {

public void destroyObject(Object key, Object obj) { }

public void passivateObject(Object key, Object obj) {

public void passivateObject(Object key, Object obj) throws Exception {

public void passivateObject(Object key, Object obj) { }

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory || _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _factory.destroyObject(obj); return; }

public void returnObject(Object obj) throws Exception { boolean success = true; if(!(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { success = false;

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory || _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...

if(_pool.size() < _maxSleeping) {

} boolean shouldDestroy = !success; synchronized(this) { _numActive--; if(_pool.size() >= _maxSleeping) { shouldDestroy = true; } else if(success) {

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory || _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...

} else { if(null != _factory) { _factory.destroyObject(obj); }

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory || _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...

} else { if(null != _factory) {

notifyAll(); } if(shouldDestroy) { try {

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory || _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...

} catch(Exception e) {

public synchronized void returnObject(Object obj) throws Exception { _numActive--; if(null == _factory || _factory.validateObject(obj)) { if(null != _factory) { try { _factory.passivateObject(obj); } catch(Exception e) { _f...

wait(_maxWait);

final long elapsed = (System.currentTimeMillis() - starttime); final long waitTime = _maxWait - elapsed; if (waitTime > 0) { wait(waitTime); }

public synchronized Object borrowObject() throws Exception { assertOpen(); long starttime = System.currentTimeMillis(); boolean newlyCreated = false; for(;;) { ObjectTimestampPair pair = null; // if there are any sleeping, just grab one of those try { ...

if(_minEvictableIdleTimeMillis > 0 && System.currentTimeMillis() - pair.tstamp > _minEvictableIdleTimeMillis) { removeObject = true;

long idleTimeMilis = System.currentTimeMillis() - pair.tstamp; if ((_minEvictableIdleTimeMillis > 0) && (idleTimeMilis > _minEvictableIdleTimeMillis)) { removeObject = true; } else if ((_softMinEvictableIdleTimeMillis > 0) && (idleTimeMilis > _softMinEvictableIdleTimeMillis) && (getNumIdle() > getMinIdle())) { removeOb...

public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { if(null == _evictionCursor) { _evictionCursor = (_pool.cursor(_pool.size())); } else if(!_evictionCursor.hasPrevious()) { _evictionCursor.close(); ...

public TestKeyedObjectPoolFactory(final String name) {

protected TestKeyedObjectPoolFactory(final String name) {

public TestKeyedObjectPoolFactory(final String name) { super(name); }

protected KeyedObjectPoolFactory makeFactory(KeyedPoolableObjectFactory objectFactory) throws UnsupportedOperationException{ throw new UnsupportedOperationException("Subclass needs to override makeFactory method.");

protected KeyedObjectPoolFactory makeFactory() throws UnsupportedOperationException { return makeFactory(createObjectFactory());

protected KeyedObjectPoolFactory makeFactory(KeyedPoolableObjectFactory objectFactory) throws UnsupportedOperationException{ throw new UnsupportedOperationException("Subclass needs to override makeFactory method."); }

public StackKeyedObjectPoolFactory(KeyedPoolableObjectFactory factory) { this(factory,StackKeyedObjectPool.DEFAULT_MAX_SLEEPING,StackKeyedObjectPool.DEFAULT_INIT_SLEEPING_CAPACITY);

public StackKeyedObjectPoolFactory() { this((KeyedPoolableObjectFactory)null,StackKeyedObjectPool.DEFAULT_MAX_SLEEPING,StackKeyedObjectPool.DEFAULT_INIT_SLEEPING_CAPACITY);

public StackKeyedObjectPoolFactory(KeyedPoolableObjectFactory factory) { this(factory,StackKeyedObjectPool.DEFAULT_MAX_SLEEPING,StackKeyedObjectPool.DEFAULT_INIT_SLEEPING_CAPACITY); }

this(null,DEFAULT_MAX_ACTIVE,DEFAULT_WHEN_EXHAUSTED_ACTION,DEFAULT_MAX_WAIT,DEFAULT_MAX_IDLE,DEFAULT_TEST_ON_BORROW,DEFAULT_TEST_ON_RETURN,DEFAULT_TIME_BETWEEN_EVICTION_RUNS_MILLIS,DEFAULT_NUM_TESTS_PER_EVICTION_RUN,DEFAULT_MIN_EVICTABLE_IDLE_TIME_MILLIS,DEFAULT_TEST_WHILE_IDLE);

this(null,DEFAULT_MAX_ACTIVE,DEFAULT_WHEN_EXHAUSTED_ACTION,DEFAULT_MAX_WAIT,DEFAULT_MAX_IDLE,DEFAULT_MIN_IDLE,DEFAULT_TEST_ON_BORROW,DEFAULT_TEST_ON_RETURN,DEFAULT_TIME_BETWEEN_EVICTION_RUNS_MILLIS,DEFAULT_NUM_TESTS_PER_EVICTION_RUN,DEFAULT_MIN_EVICTABLE_IDLE_TIME_MILLIS,DEFAULT_TEST_WHILE_IDLE);

public GenericObjectPool() { this(null,DEFAULT_MAX_ACTIVE,DEFAULT_WHEN_EXHAUSTED_ACTION,DEFAULT_MAX_WAIT,DEFAULT_MAX_IDLE,DEFAULT_TEST_ON_BORROW,DEFAULT_TEST_ON_RETURN,DEFAULT_TIME_BETWEEN_EVICTION_RUNS_MILLIS,DEFAULT_NUM_TESTS_PER_EVICTION_RUN,DEFAULT_MIN_EVICTABLE_IDLE_TIME_MILLIS,DEFAULT_TEST_WHILE_IDLE);...

} int objectDeficit = getMinIdle() - getNumIdle(); if (_maxActive > 0) { int growLimit = Math.max(0, getMaxActive() - getNumActive() - getNumIdle()); objectDeficit = Math.min(objectDeficit, growLimit); } for ( int j = 0; j < objectDeficit; j++ ) { addObject();

public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { if(null == _evictionCursor) { _evictionCursor = (_pool.cursor(_pool.size())); } else if(!_evictionCursor.hasPrevious()) { _evictionCursor.close(); ...

setMinIdle(conf.minIdle);

public synchronized void setConfig(GenericObjectPool.Config conf) { setMaxIdle(conf.maxIdle); setMaxActive(conf.maxActive); setMaxWait(conf.maxWait); setWhenExhaustedAction(conf.whenExhaustedAction); setTestOnBorrow(conf.testOnBorrow); setTestOnReturn(conf.testOnReturn); ...

} else if(_testWhileIdle) {

} if(_testWhileIdle && removeObject == false) {

public synchronized void evict() throws Exception { Object key = null; if (_recentlyEvictedKeys == null) { _recentlyEvictedKeys = new HashSet(_poolMap.size()); } Set remainingKeys = new HashSet(_poolMap.keySet()); remainingKeys.removeAll(_recentlyEvictedKeys); It...

wait(_maxWait);

final long elapsed = (System.currentTimeMillis() - starttime); final long waitTime = _maxWait - elapsed; if (waitTime > 0) { wait(waitTime); }

public synchronized Object borrowObject(Object key) throws Exception { long starttime = System.currentTimeMillis(); boolean newlyCreated = false; for(;;) { CursorableLinkedList pool = (CursorableLinkedList)(_poolMap.get(key)); if(null == pool) { pool = new C...

assertNotNull(pool);

public void testInvalidWhenExhaustedAction() throws Exception { try { pool.setWhenExhaustedAction(Byte.MAX_VALUE); fail("Expected IllegalArgumentException"); } catch(IllegalArgumentException e) { // expected } try { ObjectPool pool = new Generi...

_evictor = new Evictor(delay); Thread t = new Thread(_evictor); t.setDaemon(true); t.start();

_evictor = new Evictor(); EVICTION_TIMER.schedule(_evictor, delay, delay);

protected synchronized void startEvictor(long delay) { if(null != _evictor) { _evictor.cancel(); _evictor = null; } if(delay > 0) { _evictor = new Evictor(delay); Thread t = new Thread(_evictor); t.setDaemon(true); t.start(); ...

synchronized(this) { _numActive++; this.returnObject(obj); }

addObjectToPool(obj, false);

public void addObject() throws Exception { Object obj = _factory.makeObject(); synchronized(this) { _numActive++; // A little slimy - must do this because returnObject decrements it. this.returnObject(obj); } }

boolean success = true; if(_testOnReturn && !(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { success = false; } } boolean shouldDestroy = !success; synchronized(this) { _numActive--; if((_maxIdle >= 0) && (_pool.size() >= _maxIdle)) { shouldDestr...

addObjectToPool(obj, true);

public void returnObject(Object obj) throws Exception { assertOpen(); boolean success = true; if(_testOnReturn && !(_factory.validateObject(obj))) { success = false; } else { try { _factory.passivateObject(obj); } catch(Exception e) { ...

final EvictorReference ref = (EvictorReference)iter.next(); if (ref != null && ref.get() == null) {

Object o = iter.next(); while (o instanceof LenderReference) { o = ((LenderReference)o).get(); } if (o == null) {

public int size() { if (prune) { synchronized (getObjectPool().getPool()) { final Iterator iter = super.listIterator(); while (iter.hasNext()) { final EvictorReference ref = (EvictorReference)iter.next(); if (ref != null && ref.ge...

SAXBuilder parser = new SAXBuilder( "org.apache.crimson.parser.XMLReaderImpl", false );

private SparseGraph parseFile( String fileName ) { SparseGraph graph = new SparseGraph(); graph.addUserDatum( FILE_KEY, fileName, UserData.SHARED ); try { _logger.info( "Parsing file: " + fileName ); _doc = _parser.build( fileName ); // Parse all vertices (nodes) Iterator iter = _doc.getDescendants( new or...

_doc = _parser.build( fileName );

Document doc = parser.build( fileName );

private SparseGraph parseFile( String fileName ) { SparseGraph graph = new SparseGraph(); graph.addUserDatum( FILE_KEY, fileName, UserData.SHARED ); try { _logger.info( "Parsing file: " + fileName ); _doc = _parser.build( fileName ); // Parse all vertices (nodes) Iterator iter = _doc.getDescendants( new or...

Iterator iter = _doc.getDescendants( new org.jdom.filter.ElementFilter( "node" ) );

Iterator iter = doc.getDescendants( new org.jdom.filter.ElementFilter( "node" ) );

private SparseGraph parseFile( String fileName ) { SparseGraph graph = new SparseGraph(); graph.addUserDatum( FILE_KEY, fileName, UserData.SHARED ); try { _logger.info( "Parsing file: " + fileName ); _doc = _parser.build( fileName ); // Parse all vertices (nodes) Iterator iter = _doc.getDescendants( new or...

iter = _doc.getDescendants( new org.jdom.filter.ElementFilter( "edge" ) );

iter = doc.getDescendants( new org.jdom.filter.ElementFilter( "edge" ) );

private SparseGraph parseFile( String fileName ) { SparseGraph graph = new SparseGraph(); graph.addUserDatum( FILE_KEY, fileName, UserData.SHARED ); try { _logger.info( "Parsing file: " + fileName ); _doc = _parser.build( fileName ); // Parse all vertices (nodes) Iterator iter = _doc.getDescendants( new or...

catch ( org.jdom.JDOMException e )

catch ( JDOMException e )

private SparseGraph parseFile( String fileName ) { SparseGraph graph = new SparseGraph(); graph.addUserDatum( FILE_KEY, fileName, UserData.SHARED ); try { _logger.info( "Parsing file: " + fileName ); _doc = _parser.build( fileName ); // Parse all vertices (nodes) Iterator iter = _doc.getDescendants( new or...

if(_maxActive > 0 && active < _maxActive) {

if(_maxActive <= 0 || active < _maxActive) {

public synchronized Object borrowObject(Object key) throws Exception { long starttime = System.currentTimeMillis(); for(;;) { CursorableLinkedList pool = (CursorableLinkedList)(_poolMap.get(key)); if(null == pool) { pool = new CursorableLinkedList(); ...

return String.valueOf(counter);

return new String(String.valueOf(counter));

public Object makeObject() { counter++; return String.valueOf(counter); }

try { HashMap map = new HashMap();

final List garbage = new LinkedList(); final Runtime runtime = Runtime.getRuntime(); while (pool.getNumIdle() > 0) { garbage.add(new byte[Math.min(1024 * 1024, (int)runtime.freeMemory())]); System.gc(); } garbage.clear(); System.gc();

public void testOutOfMemory() throws Exception { pool = new SoftReferenceObjectPool(new SmallPoolableObjectFactory()); Object obj = pool.borrowObject(); assertEquals("1", obj); pool.returnObject(obj); obj = null; assertEquals(1, pool.getNumIdle()); try { ...

for (int i = 0; i < 1000000; i++) { map.put(new Integer(i), new String("Fred Flintstone" + i)); } } catch (OutOfMemoryError ex) { }

public void testOutOfMemory() throws Exception { pool = new SoftReferenceObjectPool(new SmallPoolableObjectFactory()); Object obj = pool.borrowObject(); assertEquals("1", obj); pool.returnObject(obj); obj = null; assertEquals(1, pool.getNumIdle()); try { ...

try { HashMap map = new HashMap();

final List garbage = new LinkedList(); final Runtime runtime = Runtime.getRuntime(); while (pool.getNumIdle() > 0) { garbage.add(new byte[Math.min(1024 * 1024, (int)runtime.freeMemory())]); System.gc(); } garbage.clear(); System.gc();

public void testOutOfMemory1000() throws Exception { pool = new SoftReferenceObjectPool(new SmallPoolableObjectFactory()); for (int i = 0 ; i < 1000 ; i++) { pool.addObject(); } Object obj = pool.borrowObject(); assertEquals("1000", obj); pool.returnObject(obj); ...

for (int i = 0; i < 1000000; i++) { map.put(new Integer(i), new String("Fred Flintstone" + i)); } } catch (OutOfMemoryError ex) { }

public void testOutOfMemory1000() throws Exception { pool = new SoftReferenceObjectPool(new SmallPoolableObjectFactory()); for (int i = 0 ; i < 1000 ; i++) { pool.addObject(); } Object obj = pool.borrowObject(); assertEquals("1000", obj); pool.returnObject(obj); ...

HashMap map = new HashMap();

final Map map = new HashMap();

public void testOutOfMemoryKeepMap() throws Exception { pool = new SoftReferenceObjectPool(new LargePoolableObjectFactory(1000000)); Object obj = pool.borrowObject(); assertTrue(((String)obj).startsWith("1.")); pool.returnObject(obj); obj = null; assertEquals(1, poo...

for (int i = 0; i < 1000000; i++) { map.put(new Integer(i), new String("Fred Flintstone" + i));

final Runtime runtime = Runtime.getRuntime(); int i = 0; while (true) { final int size = Math.max(1, Math.min(1048576, (int)runtime.freeMemory() / 2)); final byte[] data = new byte[size]; map.put(new Integer(i++), data);

public void testOutOfMemoryKeepMap() throws Exception { pool = new SoftReferenceObjectPool(new LargePoolableObjectFactory(1000000)); Object obj = pool.borrowObject(); assertTrue(((String)obj).startsWith("1.")); pool.returnObject(obj); obj = null; assertEquals(1, poo...

try { HashMap map = new HashMap();

final List garbage = new LinkedList(); final Runtime runtime = Runtime.getRuntime(); while (pool.getNumIdle() > 0) { garbage.add(new byte[Math.min(1024 * 1024, (int)runtime.freeMemory())]); System.gc(); } garbage.clear(); System.gc();

public void testOutOfMemoryLarge() throws Exception { pool = new SoftReferenceObjectPool(new LargePoolableObjectFactory(1000000)); Object obj = pool.borrowObject(); assertTrue(((String)obj).startsWith("1.")); pool.returnObject(obj); obj = null; assertEquals(1, pool....

for (int i = 0; i < 1000000; i++) { map.put(new Integer(i), new String("Fred Flintstone" + i)); } } catch (OutOfMemoryError ex) { }

public void testOutOfMemoryLarge() throws Exception { pool = new SoftReferenceObjectPool(new LargePoolableObjectFactory(1000000)); Object obj = pool.borrowObject(); assertTrue(((String)obj).startsWith("1.")); pool.returnObject(obj); obj = null; assertEquals(1, pool....

Thread.currentThread().sleep(_timeBetweenEvictionRunsMillis);

Thread.currentThread().sleep(sleeptime);

public void run() { CursorableLinkedList.Cursor cursor = null; while(!_cancelled) { long sleeptime = 0L; synchronized(GenericObjectPool.this) { sleeptime = _timeBetweenEvictionRunsMillis; } try { ...

value = val; tstamp = System.currentTimeMillis();

this(val, System.currentTimeMillis());

ObjectTimestampPair(Object val) { value = val; tstamp = System.currentTimeMillis(); }

sourceFile.append( " print \"Edge: PressBackButton\n\";" );

sourceFile.append( " print \"Edge: PressBackButton\";\n" );

public void generatePerlCode( String fileName ) { boolean _existBack = false; _vertices = _graph.getVertices().toArray(); _edges = _graph.getEdges().toArray(); ArrayList writtenVertices = new ArrayList(); ArrayList writtenEdges = new ArrayList(); StringBuffer sourceFile = new StringBuffer(); /** * Read ...

sourceFile.append( " print \"Vertex: " + (String)vertex.getUserDatum( LABEL_KEY ) + "\n\";" );

sourceFile.append( " print \"Vertex: " + (String)vertex.getUserDatum( LABEL_KEY ) + "\";\n" );

public void generatePerlCode( String fileName ) { boolean _existBack = false; _vertices = _graph.getVertices().toArray(); _edges = _graph.getEdges().toArray(); ArrayList writtenVertices = new ArrayList(); ArrayList writtenEdges = new ArrayList(); StringBuffer sourceFile = new StringBuffer(); /** * Read ...

sourceFile.append( " print \"Edge: " + (String)edge.getUserDatum( LABEL_KEY ) + "\n\";" );

sourceFile.append( " print \"Edge: " + (String)edge.getUserDatum( LABEL_KEY ) + "\";\n" );

public void generatePerlCode( String fileName ) { boolean _existBack = false; _vertices = _graph.getVertices().toArray(); _edges = _graph.getEdges().toArray(); ArrayList writtenVertices = new ArrayList(); ArrayList writtenEdges = new ArrayList(); StringBuffer sourceFile = new StringBuffer(); /** * Read ...

CursorableLinkedList.Cursor objcursor = null; CursorableLinkedList.Cursor keycursor = null; Object key = null;

public void run() { CursorableLinkedList.Cursor objcursor = null; CursorableLinkedList.Cursor keycursor = null; Object key = null; while(!_cancelled) { long sleeptime = 0L; synchronized(GenericKeyedObjectPool.this) { sl...

synchronized(GenericKeyedObjectPool.this) { for(int i=0,m=getNumTests();i<m;i++) { if(_poolMap.size() > 0) { if(null == keycursor) { keycursor = _poolList.cursor(); key = null; if(null != objcursor) { objcursor.close(); objcursor = null; } } if(null == objcursor) { if(keycursor.hasNext()) { key = keycursor.next(); C...

evict();

public void run() { CursorableLinkedList.Cursor objcursor = null; CursorableLinkedList.Cursor keycursor = null; Object key = null; while(!_cancelled) { long sleeptime = 0L; synchronized(GenericKeyedObjectPool.this) { sl...

if(null != keycursor) { keycursor.close(); } if(null != objcursor) { objcursor.close();

synchronized(GenericKeyedObjectPool.this) { if(null != _evictionCursor) { _evictionCursor.close(); _evictionCursor = null; } if(null != _evictionKeyCursor) { _evictionKeyCursor.close(); _evictionKeyCursor = null; }

public void run() { CursorableLinkedList.Cursor objcursor = null; CursorableLinkedList.Cursor keycursor = null; Object key = null; while(!_cancelled) { long sleeptime = 0L; synchronized(GenericKeyedObjectPool.this) { sl...

if(null != _evictionCursor) { _evictionCursor.close(); _evictionCursor = null; } if(null != _evictionKeyCursor) { _evictionKeyCursor.close(); _evictionKeyCursor = null; }

synchronized public void close() throws Exception { clear(); _poolList = null; _poolMap = null; _activeMap = null; if(null != _evictor) { _evictor.cancel(); _evictor = null; } }

if (referant == null) {

Object r = referant; while (r instanceof LenderReference) { r = ((LenderReference)r).get(); } if (r == null) {

public void run() { // Skip some synchronization if we can if (referant == null) { cancel(); return; } final PoolableObjectFactory factory = getObjectPool().getFactory(); synchronized(getObjectPo...

factory.activateObject(referant); if (factory.validateObject(referant)) { factory.passivateObject(referant);

factory.activateObject(r); if (factory.validateObject(r)) { factory.passivateObject(r);

public void run() { // Skip some synchronization if we can if (referant == null) { cancel(); return; } final PoolableObjectFactory factory = getObjectPool().getFactory(); synchronized(getObjectPo...

factory.destroyObject(referant);

factory.destroyObject(r);

public void run() { // Skip some synchronization if we can if (referant == null) { cancel(); return; } final PoolableObjectFactory factory = getObjectPool().getFactory(); synchronized(getObjectPo...

} else { boolean removeObject = false; ObjectTimestampPair pair = (ObjectTimestampPair)(iter.previous()); long idleTimeMilis = System.currentTimeMillis() - pair.tstamp; if ((_minEvictableIdleTimeMillis > 0)

} boolean removeObject = false; final ObjectTimestampPair pair = (ObjectTimestampPair)(iter.previous()); final long idleTimeMilis = System.currentTimeMillis() - pair.tstamp; if ((_minEvictableIdleTimeMillis > 0)

public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { ListIterator iter; if (evictLastIndex < 0) { iter = _pool.listIterator(_pool.size()); } else { iter = _pool.listIterator(evictLastIndex); }...

removeObject = true;

removeObject = true; } if(_testWhileIdle && !removeObject) { boolean active = false; try { _factory.activateObject(pair.value); active = true; } catch(Exception e) { removeObject=true;

public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { ListIterator iter; if (evictLastIndex < 0) { iter = _pool.listIterator(_pool.size()); } else { iter = _pool.listIterator(evictLastIndex); }...

if(_testWhileIdle && removeObject == false) { boolean active = false; try { _factory.activateObject(pair.value); active = true; } catch(Exception e) {

if(active) { if(!_factory.validateObject(pair.value)) {

public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { ListIterator iter; if (evictLastIndex < 0) { iter = _pool.listIterator(_pool.size()); } else { iter = _pool.listIterator(evictLastIndex); }...

} if(active) { if(!_factory.validateObject(pair.value)) {

} else { try { _factory.passivateObject(pair.value); } catch(Exception e) {

public synchronized void evict() throws Exception { assertOpen(); if(!_pool.isEmpty()) { ListIterator iter; if (evictLastIndex < 0) { iter = _pool.listIterator(_pool.size()); } else { iter = _pool.listIterator(evictLastIndex); }...