-
ContainerLifeCycle
-
LOG: Logger
-
_beans: List<Bean>
-
_listeners: List<Listener>
-
_doStarted: boolean
-
_destroyed: boolean
-
doStart(): void
-
start(LifeCycle): void
-
stop(LifeCycle): void
-
doStop(): void
-
destroy(): void
-
contains(Object): boolean
-
isManaged(Object): boolean
-
isAuto(Object): boolean
-
isUnmanaged(Object): boolean
-
addBean(Object): boolean
-
addBean(Object, boolean): boolean
-
addBean(Object, Managed): boolean
-
addManaged(LifeCycle): void
-
addEventListener(Listener): void
-
manage(Object): void
-
manage(Bean): void
-
unmanage(Object): void
-
unmanage(Bean): void
-
setBeans(Collection<Object>): void
-
getBeans(): Collection<Object>
-
getBeans(Class<Object>): Collection<Object>
-
getBean(Class<Object>): Object
-
getBean(Object): Bean
-
removeBeans(): void
-
removeBean(Object): boolean
-
remove(Bean): boolean
-
removeEventListener(Listener): void
-
setStopTimeout(long): void
-
dumpStdErr(): void
-
dump(): String
-
dump(Appendable, String): void
-
dump(Appendable): void
-
dumpObjects(Appendable, String, Object[]): void
-
Managed
-
Bean
-
updateBean(Object, Object): void
-
updateBean(Object, Object, boolean): void
-
updateBeans(Object[], Object[]): void
-
getContainedBeans(Class<Object>): Collection<Object>
-
getContainedBeans(Class<Object>, Collection<Object>): void
-
http://www.eclipse.org/jetty: Utility classes for Jetty
(Webtide)
- Greg Wilkins (Webtide, LLC)
- Jan Bartel (Webtide, LLC)
- Jesse McConnell (Webtide, LLC)
- Joakim Erdfelt (Webtide, LLC)
- Simone Bordet (Webtide, LLC)
- David Jencks (IBM)
- Olivier Lamy (Webtide, LLC)
//
// ========================================================================
// Copyright (c) 1995-2019 Mort Bay Consulting Pty. Ltd.
// ------------------------------------------------------------------------
// All rights reserved. This program and the accompanying materials
// are made available under the terms of the Eclipse Public License v1.0
// and Apache License v2.0 which accompanies this distribution.
//
// The Eclipse Public License is available at
// http://www.eclipse.org/legal/epl-v10.html
//
// The Apache License v2.0 is available at
// http://www.opensource.org/licenses/apache2.0.php
//
// You may elect to redistribute this code under either of these licenses.
// ========================================================================
//
package org.eclipse.jetty.util.component;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
import java.util.concurrent.CopyOnWriteArrayList;
import org.eclipse.jetty.util.MultiException;
import org.eclipse.jetty.util.annotation.ManagedObject;
import org.eclipse.jetty.util.annotation.ManagedOperation;
import org.eclipse.jetty.util.log.Log;
import org.eclipse.jetty.util.log.Logger;
A ContainerLifeCycle is an LifeCycle implementation for a collection of contained beans. Beans can be added to the ContainerLifeCycle either as managed beans or as unmanaged beans. A managed bean is started, stopped and destroyed with the aggregate. An unmanaged bean is associated with the aggregate for the purposes of dump(), but its lifecycle must be managed externally.
When a LifeCycle bean is added without a managed state being specified the state is determined heuristically:
- If the added bean is running, it will be added as an unmanaged bean.
- If the added bean is !running and the container is !running, it will be added as an AUTO bean (see below).
- If the added bean is !running and the container is starting, it will be added as a managed bean
and will be started (this handles the frequent case of new beans added during calls to doStart).
- If the added bean is !running and the container is started, it will be added as an unmanaged bean.
When the container is started, then all contained managed beans will also be started.
Any contained AUTO beans will be check for their status and if already started will be switched unmanaged beans,
else they will be started and switched to managed beans.
Beans added after a container is started are not started and their state needs to be explicitly managed.
When stopping the container, a contained bean will be stopped by this aggregate only if it
is started by this aggregate.
The methods addBean(Object, boolean), manage(Object) and unmanage(Object) can be used to explicitly control the life cycle relationship.
If adding a bean that is shared between multiple ContainerLifeCycle instances, then it should be started before being added, so it is unmanaged, or the API must be used to explicitly set it as unmanaged.
This class also provides utility methods to dump deep structures of objects.
In the dump, the following symbols are used to indicate the type of contained object:
SomeContainerLifeCycleInstance
+- contained POJO instance
+= contained MANAGED object, started and stopped with this instance
+~ referenced UNMANAGED object, with separate lifecycle
+? referenced AUTO object that could become MANAGED or UNMANAGED.
/**
* A ContainerLifeCycle is an {@link LifeCycle} implementation for a collection of contained beans.
* <p>
* Beans can be added to the ContainerLifeCycle either as managed beans or as unmanaged beans.
* A managed bean is started, stopped and destroyed with the aggregate.
* An unmanaged bean is associated with the aggregate for the purposes of {@link #dump()}, but its
* lifecycle must be managed externally.
* <p>
* When a {@link LifeCycle} bean is added without a managed state being specified the state is
* determined heuristically:
* <ul>
* <li>If the added bean is running, it will be added as an unmanaged bean.</li>
* <li>If the added bean is !running and the container is !running, it will be added as an AUTO bean (see below).</li>
* <li>If the added bean is !running and the container is starting, it will be added as a managed bean
* and will be started (this handles the frequent case of new beans added during calls to doStart).</li>
* <li>If the added bean is !running and the container is started, it will be added as an unmanaged bean.</li>
* </ul>
* When the container is started, then all contained managed beans will also be started.
* Any contained AUTO beans will be check for their status and if already started will be switched unmanaged beans,
* else they will be started and switched to managed beans.
* Beans added after a container is started are not started and their state needs to be explicitly managed.
* <p>
* When stopping the container, a contained bean will be stopped by this aggregate only if it
* is started by this aggregate.
* <p>
* The methods {@link #addBean(Object, boolean)}, {@link #manage(Object)} and {@link #unmanage(Object)} can be used to
* explicitly control the life cycle relationship.
* <p>
* If adding a bean that is shared between multiple {@link ContainerLifeCycle} instances, then it should be started
* before being added, so it is unmanaged, or the API must be used to explicitly set it as unmanaged.
* <p>
* This class also provides utility methods to dump deep structures of objects.
* In the dump, the following symbols are used to indicate the type of contained object:
* <pre>
* SomeContainerLifeCycleInstance
* +- contained POJO instance
* += contained MANAGED object, started and stopped with this instance
* +~ referenced UNMANAGED object, with separate lifecycle
* +? referenced AUTO object that could become MANAGED or UNMANAGED.
* </pre>
*/
@ManagedObject("Implementation of Container and LifeCycle")
public class ContainerLifeCycle extends AbstractLifeCycle implements Container, Destroyable, Dumpable
{
private static final Logger LOG = Log.getLogger(ContainerLifeCycle.class);
private final List<Bean> _beans = new CopyOnWriteArrayList<>();
private final List<Container.Listener> _listeners = new CopyOnWriteArrayList<>();
private boolean _doStarted;
private boolean _destroyed;
Starts the managed lifecycle beans in the order they were added.
/**
* Starts the managed lifecycle beans in the order they were added.
*/
@Override
protected void doStart() throws Exception
{
if (_destroyed)
throw new IllegalStateException("Destroyed container cannot be restarted");
// indicate that we are started, so that addBean will start other beans added.
_doStarted = true;
// start our managed and auto beans
try
{
for (Bean b : _beans)
{
if (b._bean instanceof LifeCycle)
{
LifeCycle l = (LifeCycle)b._bean;
switch (b._managed)
{
case MANAGED:
if (!l.isRunning())
start(l);
break;
case AUTO:
if (l.isRunning())
unmanage(b);
else
{
manage(b);
start(l);
}
break;
default:
break;
}
}
}
super.doStart();
}
catch (Throwable th)
{
// on failure, stop any managed components that have been started
List<Bean> reverse = new ArrayList<>(_beans);
Collections.reverse(reverse);
for (Bean b : reverse)
{
if (b._bean instanceof LifeCycle && b._managed == Managed.MANAGED)
{
LifeCycle l = (LifeCycle)b._bean;
if (l.isRunning())
{
try
{
l.stop();
}
catch (Throwable th2)
{
if (th2 != th)
th.addSuppressed(th2);
}
}
}
}
throw th;
}
}
Starts the given lifecycle.
Params: - l – the lifecycle to start
Throws: - Exception – if unable to start lifecycle
/**
* Starts the given lifecycle.
*
* @param l the lifecycle to start
* @throws Exception if unable to start lifecycle
*/
protected void start(LifeCycle l) throws Exception
{
l.start();
}
Stops the given lifecycle.
Params: - l – the lifecycle to stop
Throws: - Exception – if unable to stop the lifecycle
/**
* Stops the given lifecycle.
*
* @param l the lifecycle to stop
* @throws Exception if unable to stop the lifecycle
*/
protected void stop(LifeCycle l) throws Exception
{
l.stop();
}
Stops the managed lifecycle beans in the reverse order they were added.
/**
* Stops the managed lifecycle beans in the reverse order they were added.
*/
@Override
protected void doStop() throws Exception
{
_doStarted = false;
super.doStop();
List<Bean> reverse = new ArrayList<>(_beans);
Collections.reverse(reverse);
MultiException mex = new MultiException();
for (Bean b : reverse)
{
if (b._managed == Managed.MANAGED && b._bean instanceof LifeCycle)
{
LifeCycle l = (LifeCycle)b._bean;
try
{
stop(l);
}
catch (Throwable th)
{
mex.add(th);
}
}
}
mex.ifExceptionThrow();
}
Destroys the managed Destroyable beans in the reverse order they were added.
/**
* Destroys the managed Destroyable beans in the reverse order they were added.
*/
@Override
public void destroy()
{
_destroyed = true;
List<Bean> reverse = new ArrayList<>(_beans);
Collections.reverse(reverse);
for (Bean b : reverse)
{
if (b._bean instanceof Destroyable && (b._managed == Managed.MANAGED || b._managed == Managed.POJO))
{
Destroyable d = (Destroyable)b._bean;
try
{
d.destroy();
}
catch (Throwable th)
{
LOG.warn(th);
}
}
}
_beans.clear();
}
Params: - bean – the bean to test
Returns: whether this aggregate contains the bean
/**
* @param bean the bean to test
* @return whether this aggregate contains the bean
*/
public boolean contains(Object bean)
{
for (Bean b : _beans)
{
if (b._bean == bean)
return true;
}
return false;
}
Params: - bean – the bean to test
Returns: whether this aggregate contains and manages the bean
/**
* @param bean the bean to test
* @return whether this aggregate contains and manages the bean
*/
@Override
public boolean isManaged(Object bean)
{
for (Bean b : _beans)
{
if (b._bean == bean)
return b.isManaged();
}
return false;
}
Params: - bean – the bean to test
Returns: whether this aggregate contains the bean in auto state
/**
* @param bean the bean to test
* @return whether this aggregate contains the bean in auto state
*/
public boolean isAuto(Object bean)
{
for (Bean b : _beans)
{
if (b._bean == bean)
return b._managed == Managed.AUTO;
}
return false;
}
Params: - bean – the bean to test
Returns: whether this aggregate contains the bean in auto state
/**
* @param bean the bean to test
* @return whether this aggregate contains the bean in auto state
*/
public boolean isUnmanaged(Object bean)
{
for (Bean b : _beans)
{
if (b._bean == bean)
return b._managed == Managed.UNMANAGED;
}
return false;
}
Adds the given bean, detecting whether to manage it or not. If the bean is a LifeCycle, then it will be managed if it is not already started and not managed if it is already started. The addBean(Object, boolean) method should be used if this is not correct, or the manage(Object) and unmanage(Object) methods may be used after an add to change the status. Params: - o – the bean object to add
Returns: true if the bean was added, false if it was already present
/**
* Adds the given bean, detecting whether to manage it or not.
* If the bean is a {@link LifeCycle}, then it will be managed if it is not
* already started and not managed if it is already started.
* The {@link #addBean(Object, boolean)}
* method should be used if this is not correct, or the {@link #manage(Object)} and {@link #unmanage(Object)}
* methods may be used after an add to change the status.
*
* @param o the bean object to add
* @return true if the bean was added, false if it was already present
*/
@Override
public boolean addBean(Object o)
{
if (o instanceof LifeCycle)
{
LifeCycle l = (LifeCycle)o;
return addBean(o, l.isRunning() ? Managed.UNMANAGED : Managed.AUTO);
}
return addBean(o, Managed.POJO);
}
Adds the given bean, explicitly managing it or not.
Params: - o – The bean object to add
- managed – whether to managed the lifecycle of the bean
Returns: true if the bean was added, false if it was already present
/**
* Adds the given bean, explicitly managing it or not.
*
* @param o The bean object to add
* @param managed whether to managed the lifecycle of the bean
* @return true if the bean was added, false if it was already present
*/
@Override
public boolean addBean(Object o, boolean managed)
{
if (o instanceof LifeCycle)
return addBean(o, managed ? Managed.MANAGED : Managed.UNMANAGED);
return addBean(o, managed ? Managed.POJO : Managed.UNMANAGED);
}
public boolean addBean(Object o, Managed managed)
{
if (o == null || contains(o))
return false;
Bean newBean = new Bean(o);
// if the bean is a Listener
if (o instanceof Container.Listener)
addEventListener((Container.Listener)o);
// Add the bean
_beans.add(newBean);
// Tell existing listeners about the new bean
for (Container.Listener l : _listeners)
{
l.beanAdded(this, o);
}
try
{
switch (managed)
{
case UNMANAGED:
unmanage(newBean);
break;
case MANAGED:
manage(newBean);
if (isStarting() && _doStarted)
{
LifeCycle l = (LifeCycle)o;
if (!l.isRunning())
start(l);
}
break;
case AUTO:
if (o instanceof LifeCycle)
{
LifeCycle l = (LifeCycle)o;
if (isStarting())
{
if (l.isRunning())
unmanage(newBean);
else if (_doStarted)
{
manage(newBean);
start(l);
}
else
newBean._managed = Managed.AUTO;
}
else if (isStarted())
unmanage(newBean);
else
newBean._managed = Managed.AUTO;
}
else
newBean._managed = Managed.POJO;
break;
case POJO:
newBean._managed = Managed.POJO;
break;
default:
throw new IllegalStateException(managed.toString());
}
}
catch (RuntimeException | Error e)
{
throw e;
}
catch (Exception e)
{
throw new RuntimeException(e);
}
if (LOG.isDebugEnabled())
LOG.debug("{} added {}", this, newBean);
return true;
}
Adds a managed lifecycle.
This is a convenience method that uses addBean(lifecycle,true)
and then ensures that the added bean is started iff this container
is running. Exception from nested calls to start are caught and
wrapped as RuntimeExceptions
Params: - lifecycle – the managed lifecycle to add
/**
* Adds a managed lifecycle.
* <p>This is a convenience method that uses addBean(lifecycle,true)
* and then ensures that the added bean is started iff this container
* is running. Exception from nested calls to start are caught and
* wrapped as RuntimeExceptions
*
* @param lifecycle the managed lifecycle to add
*/
public void addManaged(LifeCycle lifecycle)
{
addBean(lifecycle, true);
try
{
if (isRunning() && !lifecycle.isRunning())
start(lifecycle);
}
catch (RuntimeException | Error e)
{
throw e;
}
catch (Exception e)
{
throw new RuntimeException(e);
}
}
@Override
public void addEventListener(Container.Listener listener)
{
if (_listeners.contains(listener))
return;
_listeners.add(listener);
// tell it about existing beans
for (Bean b : _beans)
{
listener.beanAdded(this, b._bean);
// handle inheritance
if (listener instanceof InheritedListener && b.isManaged() && b._bean instanceof Container)
{
if (b._bean instanceof ContainerLifeCycle)
((ContainerLifeCycle)b._bean).addBean(listener, false);
else
((Container)b._bean).addBean(listener);
}
}
}
Manages a bean already contained by this aggregate, so that it is started/stopped/destroyed with this
aggregate.
Params: - bean – The bean to manage (must already have been added).
/**
* Manages a bean already contained by this aggregate, so that it is started/stopped/destroyed with this
* aggregate.
*
* @param bean The bean to manage (must already have been added).
*/
@Override
public void manage(Object bean)
{
for (Bean b : _beans)
{
if (b._bean == bean)
{
manage(b);
return;
}
}
throw new IllegalArgumentException("Unknown bean " + bean);
}
private void manage(Bean bean)
{
if (bean._managed != Managed.MANAGED)
{
bean._managed = Managed.MANAGED;
if (bean._bean instanceof Container)
{
for (Container.Listener l : _listeners)
{
if (l instanceof InheritedListener)
{
if (bean._bean instanceof ContainerLifeCycle)
((ContainerLifeCycle)bean._bean).addBean(l, false);
else
((Container)bean._bean).addBean(l);
}
}
}
if (bean._bean instanceof AbstractLifeCycle)
{
((AbstractLifeCycle)bean._bean).setStopTimeout(getStopTimeout());
}
}
}
Unmanages a bean already contained by this aggregate, so that it is not started/stopped/destroyed with this
aggregate.
Params: - bean – The bean to unmanage (must already have been added).
/**
* Unmanages a bean already contained by this aggregate, so that it is not started/stopped/destroyed with this
* aggregate.
*
* @param bean The bean to unmanage (must already have been added).
*/
@Override
public void unmanage(Object bean)
{
for (Bean b : _beans)
{
if (b._bean == bean)
{
unmanage(b);
return;
}
}
throw new IllegalArgumentException("Unknown bean " + bean);
}
private void unmanage(Bean bean)
{
if (bean._managed != Managed.UNMANAGED)
{
if (bean._managed == Managed.MANAGED && bean._bean instanceof Container)
{
for (Container.Listener l : _listeners)
{
if (l instanceof InheritedListener)
((Container)bean._bean).removeBean(l);
}
}
bean._managed = Managed.UNMANAGED;
}
}
public void setBeans(Collection<Object> beans)
{
for (Object bean : beans)
{
addBean(bean);
}
}
@Override
public Collection<Object> getBeans()
{
return getBeans(Object.class);
}
@Override
public <T> Collection<T> getBeans(Class<T> clazz)
{
ArrayList<T> beans = null;
for (Bean b : _beans)
{
if (clazz.isInstance(b._bean))
{
if (beans == null)
beans = new ArrayList<>();
beans.add(clazz.cast(b._bean));
}
}
return beans == null ? Collections.emptyList() : beans;
}
@Override
public <T> T getBean(Class<T> clazz)
{
for (Bean b : _beans)
{
if (clazz.isInstance(b._bean))
return clazz.cast(b._bean);
}
return null;
}
private Bean getBean(Object o)
{
for (Bean b : _beans)
{
if (b._bean == o)
return b;
}
return null;
}
Removes all bean
/**
* Removes all bean
*/
public void removeBeans()
{
ArrayList<Bean> beans = new ArrayList<>(_beans);
for (Bean b : beans)
{
remove(b);
}
}
@Override
public boolean removeBean(Object o)
{
Bean b = getBean(o);
return b != null && remove(b);
}
private boolean remove(Bean bean)
{
if (_beans.remove(bean))
{
final boolean wasManaged = bean.isManaged();
unmanage(bean);
for (Container.Listener l : _listeners)
{
l.beanRemoved(this, bean._bean);
}
if (bean._bean instanceof Container.Listener)
removeEventListener((Container.Listener)bean._bean);
// stop managed beans
if (wasManaged && bean._bean instanceof LifeCycle)
{
try
{
stop((LifeCycle)bean._bean);
}
catch (RuntimeException | Error e)
{
throw e;
}
catch (Exception e)
{
throw new RuntimeException(e);
}
}
return true;
}
return false;
}
@Override
public void removeEventListener(Container.Listener listener)
{
if (_listeners.remove(listener))
{
// remove existing beans
for (Bean b : _beans)
{
listener.beanRemoved(this, b._bean);
if (listener instanceof InheritedListener && b.isManaged() && b._bean instanceof Container)
((Container)b._bean).removeBean(listener);
}
}
}
@Override
public void setStopTimeout(long stopTimeout)
{
super.setStopTimeout(stopTimeout);
for (Bean bean : _beans)
{
if (bean.isManaged() && bean._bean instanceof AbstractLifeCycle)
((AbstractLifeCycle)bean._bean).setStopTimeout(stopTimeout);
}
}
Dumps to System.err. See Also:
/**
* Dumps to {@link System#err}.
*
* @see #dump()
*/
@ManagedOperation("Dump the object to stderr")
public void dumpStdErr()
{
try
{
dump(System.err, "");
System.err.println(Dumpable.KEY);
}
catch (IOException e)
{
LOG.warn(e);
}
}
@Override
@ManagedOperation("Dump the object to a string")
public String dump()
{
return Dumpable.dump(this);
}
@Override
public void dump(Appendable out, String indent) throws IOException
{
dumpObjects(out, indent);
}
Dump this object to an Appendable with no indent.
Params: - out – The appendable to dump to.
Throws: - IOException – May be thrown by the Appendable
/**
* Dump this object to an Appendable with no indent.
*
* @param out The appendable to dump to.
* @throws IOException May be thrown by the Appendable
*/
public void dump(Appendable out) throws IOException
{
dump(out, "");
}
Dump this object, it's contained beans and additional items to an Appendable
Params: - out – The appendable to dump to
- indent – The indent to apply after any new lines
- items – Additional items to be dumped as contained.
Throws: - IOException – May be thrown by the Appendable
/**
* Dump this object, it's contained beans and additional items to an Appendable
*
* @param out The appendable to dump to
* @param indent The indent to apply after any new lines
* @param items Additional items to be dumped as contained.
* @throws IOException May be thrown by the Appendable
*/
protected void dumpObjects(Appendable out, String indent, Object... items) throws IOException
{
Dumpable.dumpObjects(out, indent, this, items);
}
enum Managed
{
POJO, MANAGED, UNMANAGED, AUTO
}
private static class Bean
{
private final Object _bean;
private volatile Managed _managed = Managed.POJO;
private Bean(Object b)
{
if (b == null)
throw new NullPointerException();
_bean = b;
}
public boolean isManaged()
{
return _managed == Managed.MANAGED;
}
public boolean isManageable()
{
switch (_managed)
{
case MANAGED:
return true;
case AUTO:
return _bean instanceof LifeCycle && ((LifeCycle)_bean).isStopped();
default:
return false;
}
}
@Override
public String toString()
{
return String.format("{%s,%s}", _bean, _managed);
}
}
public void updateBean(Object oldBean, final Object newBean)
{
if (newBean != oldBean)
{
if (oldBean != null)
removeBean(oldBean);
if (newBean != null)
addBean(newBean);
}
}
public void updateBean(Object oldBean, final Object newBean, boolean managed)
{
if (newBean != oldBean)
{
if (oldBean != null)
removeBean(oldBean);
if (newBean != null)
addBean(newBean, managed);
}
}
public void updateBeans(Object[] oldBeans, final Object[] newBeans)
{
// remove oldChildren not in newChildren
if (oldBeans != null)
{
loop:
for (Object o : oldBeans)
{
if (newBeans != null)
{
for (Object n : newBeans)
{
if (o == n)
continue loop;
}
}
removeBean(o);
}
}
// add new beans not in old
if (newBeans != null)
{
loop:
for (Object n : newBeans)
{
if (oldBeans != null)
{
for (Object o : oldBeans)
{
if (o == n)
continue loop;
}
}
addBean(n);
}
}
}
Params: - clazz – the class of the beans
Type parameters: - <T> – the Bean type
Returns: the list of beans of the given class from the entire Container hierarchy
/**
* @param clazz the class of the beans
* @param <T> the Bean type
* @return the list of beans of the given class from the entire Container hierarchy
*/
@Override
public <T> Collection<T> getContainedBeans(Class<T> clazz)
{
Set<T> beans = new HashSet<>();
getContainedBeans(clazz, beans);
return beans;
}
Params: - clazz – the class of the beans
- beans – the collection to add beans of the given class from the entire Container hierarchy
Type parameters: - <T> – the Bean type
/**
* @param clazz the class of the beans
* @param <T> the Bean type
* @param beans the collection to add beans of the given class from the entire Container hierarchy
*/
protected <T> void getContainedBeans(Class<T> clazz, Collection<T> beans)
{
beans.addAll(getBeans(clazz));
for (Container c : getBeans(Container.class))
{
Bean bean = getBean(c);
if (bean != null && bean.isManageable())
{
if (c instanceof ContainerLifeCycle)
((ContainerLifeCycle)c).getContainedBeans(clazz, beans);
else
beans.addAll(c.getContainedBeans(clazz));
}
}
}
}