/*
* JBoss, Home of Professional Open Source
* Copyright 2005, JBoss Inc., and individual contributors as indicated
* by the @authors tag. See the copyright.txt in the distribution for a
* full listing of individual contributors.
*
* This is free software; you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License as
* published by the Free Software Foundation; either version 2.1 of
* the License, or (at your option) any later version.
*
* This software is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this software; if not, write to the Free
* Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
* 02110-1301 USA, or see the FSF site: http://www.fsf.org.
*/
package org.jboss.aop;
import java.lang.ref.WeakReference;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Map;
import org.jboss.aop.advice.AdviceBinding;
import org.jboss.aop.advice.AdviceStack;
import org.jboss.aop.advice.AspectDefinition;
import org.jboss.aop.advice.ClassifiedBindingCollection;
import org.jboss.aop.advice.DynamicCFlowDefinition;
import org.jboss.aop.advice.InterceptorFactory;
import org.jboss.aop.advice.PrecedenceDef;
import org.jboss.aop.array.ArrayReplacement;
import org.jboss.aop.introduction.AnnotationIntroduction;
import org.jboss.aop.introduction.InterfaceIntroduction;
import org.jboss.aop.metadata.ClassMetaDataBinding;
import org.jboss.aop.metadata.ClassMetaDataLoader;
import org.jboss.aop.microcontainer.lifecycle.LifecycleCallbackBinding;
import org.jboss.aop.pointcut.CFlowStack;
import org.jboss.aop.pointcut.DynamicCFlow;
import org.jboss.aop.pointcut.Pointcut;
import org.jboss.aop.pointcut.PointcutInfo;
import org.jboss.aop.pointcut.PointcutStats;
import org.jboss.aop.pointcut.Typedef;
import org.jboss.aop.pointcut.ast.ClassExpression;
/**
* Comment
*
* @author <a href="mailto:bill@jboss.org">Bill Burke</a>
* @author adrian@jboss.org
* @version $Revision: 77243 $
*/
public class Domain extends AspectManager
{
String name;
protected AspectManager parent;
protected boolean parentFirst;
protected boolean inheritsDeclarations = true;
protected boolean inheritsBindings = false;
//Calculating the size of the collections containing this information is timeconsuming, we
//only want to do this when adding/removing stuff
protected boolean hasOwnPointcuts;
protected boolean hasOwnBindings;
protected boolean hasOwnAnnotationIntroductions;
protected boolean hasOwnAnnotationOverrides;
protected boolean hasOwnInterfaceIntroductions;
protected boolean hasOwnTypedefs;
protected boolean hasOwnPrecedenceDefs;
protected boolean hasOwnClassMetaData;
private static int sequenceNumber;
public Domain(AspectManager manager, String name, boolean parentFirst)
{
bindingCollection = new DomainClassifiedBindingCollection();
this.parent = manager;
this.parentFirst = parentFirst;
this.name = name;
manager.addSubDomainByName(this);
}
// FIXME: JBAOP-107 REMOVE THIS HACK
public boolean isValid()
{
return true;
}
public String getDomainName()
{
return name;
}
public String getManagerFQN()
{
return parent.getManagerFQN() + name + "/";
}
public static String getDomainName(final Class<?> clazz, final boolean forInstance)
{
String name = AccessController.doPrivileged(new PrivilegedAction<String>() {
public String run()
{
StringBuffer sb = new StringBuffer();
sb.append(clazz.getName());
sb.append("_");
sb.append(System.identityHashCode(clazz.getClassLoader()));
if (forInstance)
{
sb.append("_");
sb.append(getNextSequenceNumber());
}
return sb.toString();
}
});
return name;
}
private synchronized static int getNextSequenceNumber()
{
return sequenceNumber++;
}
/**
* Inherits interceptor, aspect, advice stack definitions
*
* @param inheritsDeclarations
*/
public void setInheritsDeclarations(boolean inheritsDeclarations)
{
this.inheritsDeclarations = inheritsDeclarations;
}
public void setInheritsBindings(boolean inheritBindings)
{
this.inheritsBindings = inheritBindings;
if (inheritsBindings)
{
parent.subscribeSubDomain(this);
}
else
{
parent.unsubscribeSubDomain(this);
}
}
@Override
public LinkedHashMap<String, AdviceBinding> getBindings()
{
if (inheritsBindings)
{
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
LinkedHashMap<String, AdviceBinding> map = new LinkedHashMap<String, AdviceBinding>(parent.getBindings());
map.putAll(this.bindingCollection.getBindings());
return map;
}
else
{
LinkedHashMap<String, AdviceBinding> map = new LinkedHashMap<String, AdviceBinding>(this.bindingCollection.getBindings());
map.putAll(parent.getBindings());
return map;
}
}
return super.getBindings();
}
public boolean hasOwnBindings()
{
return hasOwnBindings;
}
@Override
public synchronized void addBinding(AdviceBinding binding)
{
hasOwnPointcuts = true;
hasOwnBindings = true;
super.addBinding(binding);
}
@Override
public synchronized void removeBinding(String name)
{
super.removeBinding(name);
hasOwnBindings = !bindingCollection.isEmpty();
}
@Override
public synchronized void removeBindings(ArrayList<String> binds)
{
super.removeBindings(binds);
hasOwnBindings = !bindingCollection.isEmpty();
hasOwnPointcuts = !bindingCollection.isEmpty();
}
@Override
public LinkedHashMap<String, Pointcut> getPointcuts()
{
if (inheritsBindings)
{
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
LinkedHashMap<String, Pointcut> map = new LinkedHashMap<String, Pointcut>(parent.getPointcuts());
map.putAll(this.pointcuts);
return map;
}
else
{
LinkedHashMap<String, Pointcut> map = new LinkedHashMap<String, Pointcut>(this.pointcuts);
map.putAll(parent.getPointcuts());
return map;
}
}
return super.getPointcuts();
}
public boolean hasOwnPointcuts()
{
return hasOwnPointcuts;
}
@Override
public synchronized void addPointcut(Pointcut pointcut)
{
hasOwnPointcuts = true;
super.addPointcut(pointcut);
}
@Override
public void removePointcut(String name)
{
super.removePointcut(name);
hasOwnPointcuts = pointcuts.size() > 0;
}
@Override
public LinkedHashMap<String, PointcutInfo> getPointcutInfos()
{
if (inheritsBindings)
{
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
LinkedHashMap<String, PointcutInfo> map = new LinkedHashMap<String, PointcutInfo>(parent.getPointcutInfos());
map.putAll(this.pointcutInfos);
return map;
}
else
{
LinkedHashMap<String, PointcutInfo> map = new LinkedHashMap<String, PointcutInfo>(this.pointcutInfos);
map.putAll(parent.getPointcutInfos());
return map;
}
}
return super.getPointcutInfos();
}
@Override
public List<AnnotationIntroduction> getAnnotationIntroductions()
{
if (inheritsBindings)
{
List<AnnotationIntroduction> result = new ArrayList<AnnotationIntroduction>();
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
result.addAll(parent.getAnnotationIntroductions());
synchronized (annotationIntroductions)
{
result = new ArrayList<AnnotationIntroduction>(annotationIntroductions.values());
}
return result;
}
else
{
synchronized (annotationIntroductions)
{
result = new ArrayList<AnnotationIntroduction>(annotationIntroductions.values());
}
result.addAll(parent.getAnnotationIntroductions());
return result;
}
}
return super.getAnnotationIntroductions();
}
@Override
public Map<String, ArrayReplacement> getArrayReplacements()
{
if (inheritsBindings)
{
HashMap<String, ArrayReplacement> map = new HashMap<String, ArrayReplacement>();
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
map.putAll(parent.getArrayReplacements());
synchronized (arrayReplacements)
{
map.putAll(arrayReplacements);
}
return map;
}
else
{
synchronized (arrayReplacements)
{
map.putAll(arrayReplacements);
}
map.putAll(parent.getArrayReplacements());
return map;
}
}
return super.getArrayReplacements();
}
public boolean hasOwnAnnotationIntroductions()
{
return hasOwnAnnotationIntroductions;
}
@Override
public synchronized void addAnnotationIntroduction(AnnotationIntroduction pointcut)
{
hasOwnAnnotationIntroductions = true;
super.addAnnotationIntroduction(pointcut);
}
@Override
public void removeAnnotationIntroduction(AnnotationIntroduction pointcut)
{
super.removeAnnotationIntroduction(pointcut);
hasOwnAnnotationIntroductions = annotationIntroductions.size() > 0;
}
@Override
public List<AnnotationIntroduction> getAnnotationOverrides()
{
if (inheritsBindings)
{
ArrayList<AnnotationIntroduction> list = new ArrayList<AnnotationIntroduction>();
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
list.addAll(parent.getAnnotationOverrides());
synchronized (annotationOverrides)
{
list.addAll(annotationOverrides.values());
}
return list;
}
else
{
synchronized (annotationOverrides)
{
list.addAll(annotationOverrides.values());
}
list.addAll(parent.getAnnotationOverrides());
return list;
}
}
return super.getAnnotationOverrides();
}
public boolean hasOwnAnnotationOverrides()
{
return hasOwnAnnotationOverrides;
}
@Override
public synchronized void addAnnotationOverride(AnnotationIntroduction pointcut)
{
hasOwnAnnotationOverrides = true;
super.addAnnotationOverride(pointcut);
}
@Override
public void removeAnnotationOverride(AnnotationIntroduction pointcut)
{
super.removeAnnotationOverride(pointcut);
hasOwnAnnotationOverrides = annotationOverrides.size() > 0;
}
@Override
public Map<String, InterfaceIntroduction> getInterfaceIntroductions()
{
if (inheritsBindings)
{
HashMap<String, InterfaceIntroduction> map = new HashMap<String, InterfaceIntroduction>();
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
map.putAll(parent.getInterfaceIntroductions());
synchronized (interfaceIntroductions)
{
map.putAll(interfaceIntroductions);
}
return map;
}
else
{
synchronized (interfaceIntroductions)
{
map.putAll(interfaceIntroductions);
}
map.putAll(parent.getInterfaceIntroductions());
return map;
}
}
return super.getInterfaceIntroductions();
}
public boolean hasOwnInterfaceIntroductions()
{
return hasOwnInterfaceIntroductions;
}
@Override
public synchronized void addInterfaceIntroduction(InterfaceIntroduction pointcut)
{
hasOwnInterfaceIntroductions = true;
super.addInterfaceIntroduction(pointcut);
}
@Override
public void removeInterfaceIntroduction(String name)
{
super.removeInterfaceIntroduction(name);
hasOwnInterfaceIntroductions = interfaceIntroductions.size() > 0;
}
@Override
public Map<String, Typedef> getTypedefs()
{
if (inheritsBindings)
{
HashMap<String, Typedef> map = new HashMap<String, Typedef>();
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
map.putAll(parent.getTypedefs());
synchronized (typedefs)
{
map.putAll(typedefs);
}
return map;
}
else
{
synchronized (typedefs)
{
map.putAll(typedefs);
}
map.putAll(parent.getTypedefs());
return map;
}
}
return super.getTypedefs();
}
public boolean hasOwnTypedefs()
{
return hasOwnTypedefs;
}
@Override
public synchronized void addTypedef(Typedef def) throws Exception
{
hasOwnTypedefs = true;
super.addTypedef(def);
}
@Override
public void removeTypedef(String name)
{
super.removeTypedef(name);
hasOwnTypedefs = typedefs.size() > 0;
}
public Map<String, AdviceStack> getInterceptorStacks()
{
if (inheritsBindings)
{
HashMap<String, AdviceStack> map = new HashMap<String, AdviceStack>();
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
map.putAll(parent.getInterceptorStacks());
synchronized (interceptorStacks)
{
map.putAll(interceptorStacks);
}
return map;
}
else
{
synchronized (interceptorStacks)
{
map.putAll(interceptorStacks);
}
map.putAll(parent.getInterceptorStacks());
return map;
}
}
return super.getInterceptorStacks();
}
@Override
public Map<String, ClassMetaDataLoader> getClassMetaDataLoaders()
{
if (inheritsBindings)
{
HashMap<String, ClassMetaDataLoader> map = new HashMap<String, ClassMetaDataLoader>();
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
map.putAll(parent.getClassMetaDataLoaders());
synchronized (classMetaDataLoaders)
{
map.putAll(classMetaDataLoaders);
}
return map;
}
else
{
synchronized (classMetaDataLoaders)
{
map.putAll(classMetaDataLoaders);
}
map.putAll(parent.getClassMetaDataLoaders());
return map;
}
}
return super.getClassMetaDataLoaders();
}
@Override
public Map<String, CFlowStack> getCflowStacks()
{
if (inheritsBindings)
{
HashMap<String, CFlowStack> map = new HashMap<String, CFlowStack>();
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
map.putAll(parent.getCflowStacks());
synchronized (cflowStacks)
{
map.putAll(cflowStacks);
}
return map;
}
else
{
synchronized (cflowStacks)
{
map.putAll(cflowStacks);
}
map.putAll(parent.getCflowStacks());
return map;
}
}
return super.getCflowStacks();
}
@Override
public Map<String, DynamicCFlowDefinition> getDynamicCFlows()
{
if (inheritsBindings)
{
HashMap<String, DynamicCFlowDefinition> map = new HashMap<String, DynamicCFlowDefinition>();
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
map.putAll(parent.getDynamicCFlows());
synchronized (dynamicCFlows)
{
map.putAll(dynamicCFlows);
}
return map;
}
else
{
synchronized (dynamicCFlows)
{
map.putAll(dynamicCFlows);
}
map.putAll(parent.getDynamicCFlows());
return map;
}
}
return super.getDynamicCFlows();
}
@Override
public Map<String, Object> getPerVMAspects()
{
if (inheritsBindings)
{
HashMap<String, Object> map = new HashMap<String, Object>();
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
map.putAll(parent.getPerVMAspects());
synchronized (perVMAspects)
{
map.putAll(perVMAspects);
}
return map;
}
else
{
synchronized (perVMAspects)
{
map.putAll(perVMAspects);
}
map.putAll(parent.getPerVMAspects());
return map;
}
}
return super.getPerVMAspects();
}
@Override
public LinkedHashMap<String, PrecedenceDef> getPrecedenceDefs()
{
if (inheritsDeclarations)
{
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
LinkedHashMap<String, PrecedenceDef> map = new LinkedHashMap<String, PrecedenceDef>(parent.getPrecedenceDefs());
map.putAll(this.precedenceDefs);
return map;
}
else
{
LinkedHashMap<String, PrecedenceDef> map = new LinkedHashMap<String, PrecedenceDef>(this.precedenceDefs);
map.putAll(parent.getPrecedenceDefs());
return map;
}
}
return super.getPrecedenceDefs();
}
public boolean hasOwnPrecedenceDefs()
{
return hasOwnPrecedenceDefs;
}
@Override
public void addPrecedence(PrecedenceDef precedenceDef)
{
hasOwnPrecedenceDefs = true;
super.addPrecedence(precedenceDef);
}
@Override
public void removePrecedence(String name)
{
super.removePrecedence(name);
hasOwnPrecedenceDefs = precedenceDefs.size() > 0;
}
@Override
public Map<String, ClassMetaDataBinding> getClassMetaData()
{
if (inheritsBindings)
{
HashMap<String, ClassMetaDataBinding> map = new HashMap<String, ClassMetaDataBinding>();
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
map.putAll(parent.getClassMetaData());
synchronized (classMetaData)
{
map.putAll(classMetaData);
}
return map;
}
else
{
synchronized (classMetaData)
{
map.putAll(classMetaData);
}
map.putAll(parent.getClassMetaData());
return map;
}
}
return super.getClassMetaData();
}
public boolean hasOwnClassMetaData()
{
return hasOwnClassMetaData;
}
@Override
public void removeClassMetaData(String name)
{
super.removeClassMetaData(name);
hasOwnClassMetaData = classMetaData.size() > 0;
}
@Override
public void addClassMetaData(ClassMetaDataBinding meta)
{
hasOwnClassMetaData = true;
super.addClassMetaData(meta);
}
public boolean hasOwnDataWithEffectOnAdvices()
{
return hasOwnBindings ||
hasOwnPointcuts ||
hasOwnAnnotationIntroductions ||
hasOwnAnnotationOverrides ||
hasOwnInterfaceIntroductions ||
hasOwnTypedefs ||
hasOwnPrecedenceDefs ||
hasOwnClassMetaData;
}
@Override
public InterceptorFactory getInterceptorFactory(String name)
{
InterceptorFactory factory = null;
if (parentFirst)
{
factory = parent.getInterceptorFactory(name);
if (factory != null) return factory;
}
factory = super.getInterceptorFactory(name);
if (factory != null) return factory;
return parent.getInterceptorFactory(name);
}
@Override
public AdviceStack getAdviceStack(String name)
{
AdviceStack factory = null;
if (parentFirst)
{
factory = parent.getAdviceStack(name);
if (factory != null) return factory;
}
factory = super.getAdviceStack(name);
if (factory != null) return factory;
return parent.getAdviceStack(name);
}
@Override
public Object getPerVMAspect(AspectDefinition def)
{
return getPerVMAspect(def.getName());
}
@Override
public Object getPerVMAspect(String def)
{
Object factory = null;
if (parentFirst)
{
factory = parent.getPerVMAspect(def);
if (factory != null) return factory;
}
factory = super.getPerVMAspect(def);
if (factory != null) return factory;
return parent.getPerVMAspect(def);
}
@Override
public AspectDefinition getAspectDefinition(String name)
{
AspectDefinition factory = null;
if (parentFirst)
{
factory = parent.getAspectDefinition(name);
if (factory != null) return factory;
}
factory = super.getAspectDefinition(name);
if (factory != null) return factory;
return parent.getAspectDefinition(name);
}
@Override
public Typedef getTypedef(String name)
{
Typedef factory = null;
if (parentFirst)
{
factory = parent.getTypedef(name);
if (factory != null) return factory;
}
factory = super.getTypedef(name);
if (factory != null) return factory;
return parent.getTypedef(name);
}
@Override
public DomainDefinition getContainer(String name)
{
DomainDefinition container = null;
if (parentFirst)
{
container = parent.getContainer(name);
if (container != null) return container;
}
container = super.getContainer(name);
if (container != null) return container;
return parent.getContainer(name);
}
/**
* Find a pointcut of with a given name
*/
@Override
public Pointcut getPointcut(String name)
{
Pointcut pointcut = null;
if (parentFirst)
{
pointcut = parent.getPointcut(name);
if (pointcut != null) return pointcut;
}
pointcut = super.getPointcut(name);
if (pointcut != null) return pointcut;
return parent.getPointcut(name);
}
@Override
public void attachMetaData(Advisor advisor, Class<?> clazz)
{
if (inheritsBindings)
{
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
parent.attachMetaData(advisor, clazz);
super.attachMetaData(advisor, clazz);
}
else
{
super.attachMetaData(advisor, clazz);
parent.attachMetaData(advisor, clazz);
}
}
else
{
super.attachMetaData(advisor, clazz);
}
}
@Override
public CFlowStack getCFlowStack(String name)
{
if (inheritsDeclarations)
{
if (!parentFirst)
{
CFlowStack cflow = super.getCFlowStack(name);
if (cflow == null)
{
cflow = parent.getCFlowStack(name);
}
return cflow;
}
else
{
CFlowStack cflow = parent.getCFlowStack(name);
if (cflow == null)
{
cflow = super.getCFlowStack(name);
}
return cflow;
}
}
else
{
return super.getCFlowStack(name);
}
}
@Override
public DynamicCFlow getDynamicCFlow(String name, ClassLoader cl)
{
if (inheritsBindings)
{
if (!parentFirst)
{
DynamicCFlow cflow = super.getDynamicCFlow(name, cl);
if (cflow == null)
{
cflow = parent.getDynamicCFlow(name, cl);
}
return cflow;
}
else
{
DynamicCFlow cflow = parent.getDynamicCFlow(name, cl);
if (cflow == null)
{
cflow = super.getDynamicCFlow(name, cl);
}
return cflow;
}
}
else
{
return super.getDynamicCFlow(name, cl);
}
}
@Override
public ClassMetaDataLoader findClassMetaDataLoader(String group)
{
if (inheritsDeclarations)
{
if (!parentFirst)
{
ClassMetaDataLoader loader = super.findClassMetaDataLoader(group);
if (loader == null)
{
loader = parent.findClassMetaDataLoader(group);
}
return loader;
}
else
{
ClassMetaDataLoader loader = parent.findClassMetaDataLoader(group);
if (loader == null)
{
loader = super.findClassMetaDataLoader(group);
}
return loader;
}
}
return super.findClassMetaDataLoader(group);
}
@Override
public Map<String, LifecycleCallbackBinding> getLifecycleBindings()
{
if (inheritsBindings)
{
if (!parentFirst)
{
// when child first, parent bindings go in first so that they can be overridden by child.
LinkedHashMap<String, LifecycleCallbackBinding> map = new LinkedHashMap<String, LifecycleCallbackBinding>(parent.getLifecycleBindings());
map.putAll(super.getLifecycleBindings());
return map;
}
else
{
LinkedHashMap<String, LifecycleCallbackBinding> map = new LinkedHashMap<String, LifecycleCallbackBinding>(super.getLifecycleBindings());
map.putAll(parent.getLifecycleBindings());
return map;
}
}
return super.getLifecycleBindings();
}
//////////////////////////////////////////////////////////////////////////
//Methods that should delegate to the top AspectManager
@Override
public InterceptionMarkers getInterceptionMarkers()
{
return parent.getInterceptionMarkers();
}
/** Managed by the top-level aspect manager */
@Override
protected Map<Class<?>, WeakReference<Domain>> getSubDomainsPerClass()
{
return parent.getSubDomainsPerClass();
}
/** Only set on a per vm basis */
@Override
public ArrayList<String> getExclude()
{
return parent.getExclude();
}
/** Only set on a per vm basis */
@Override
public ArrayList<String> getInclude()
{
return parent.getInclude();
}
/** Only set on a per vm basis */
@Override
public ArrayList<String> getIgnore()
{
return parent.getIgnore();
}
/** Only set on a per vm basis */
@Override
public ClassExpression[] getIgnoreExpressions()
{
return parent.getIgnoreExpressions();
}
/** Only set on a per vm basis */
@Override
public List<String> getIncludedInvisibleAnnotations()
{
return parent.getIncludedInvisibleAnnotations();
}
@Override
public DynamicAOPStrategy getDynamicAOPStrategy()
{
return parent.getDynamicAOPStrategy();
}
@Override
public void setDynamicAOPStrategy(DynamicAOPStrategy strategy)
{
parent.setDynamicAOPStrategy(strategy);
}
@Override
protected void updatePointcutStats(Pointcut pointcut)
{
parent.updatePointcutStats(pointcut);
}
@Override
protected void updateStats(PointcutStats stats)
{
parent.updateStats(stats);
}
@Override
public boolean isExecution()
{
return parent.isExecution();
}
@Override
public boolean isConstruction()
{
return parent.isConstruction();
}
@Override
public boolean isCall()
{
return parent.isCall();
}
@Override
public boolean isWithin()
{
return parent.isWithin();
}
@Override
public boolean isWithincode()
{
return parent.isWithincode();
}
@Override
public boolean isGet()
{
return parent.isGet();
}
@Override
public boolean isSet()
{
return parent.isSet();
}
private class DomainClassifiedBindingCollection extends ClassifiedBindingCollection
{
public Collection<AdviceBinding> getFieldReadBindings()
{
Collection<AdviceBinding> result = super.getFieldReadBindings();
Collection<AdviceBinding> parentResult = parent.getBindingCollection().
getFieldReadBindings();
return unifyCollections(result, parentResult, parentFirst);
}
public Collection<AdviceBinding> getFieldWriteBindings()
{
Collection<AdviceBinding> result = super.getFieldWriteBindings();
Collection<AdviceBinding> parentResult = parent.getBindingCollection().
getFieldWriteBindings();
return unifyCollections(result, parentResult, parentFirst);
}
public Collection<AdviceBinding> getConstructionBindings()
{
Collection<AdviceBinding> result = super.getConstructionBindings();
Collection<AdviceBinding> parentResult = parent.getBindingCollection().
getConstructionBindings();
return unifyCollections(result, parentResult, parentFirst);
}
public Collection<AdviceBinding> getConstructorExecutionBindings()
{
Collection<AdviceBinding> result = super.getConstructorExecutionBindings();
Collection<AdviceBinding> parentResult = parent.getBindingCollection().
getConstructorExecutionBindings();
return unifyCollections(result, parentResult, parentFirst);
}
public Collection<AdviceBinding> getMethodExecutionBindings()
{
Collection<AdviceBinding> result = super.getMethodExecutionBindings();
Collection<AdviceBinding> parentResult = parent.getBindingCollection().
getMethodExecutionBindings();
return unifyCollections(result, parentResult, parentFirst);
}
public Collection<AdviceBinding> getConstructorCallBindings()
{
Collection<AdviceBinding> result = super.getConstructorCallBindings();
Collection<AdviceBinding> parentResult = parent.getBindingCollection().
getConstructorCallBindings();
return unifyCollections(result, parentResult, parentFirst);
}
public Collection<AdviceBinding> getMethodCallBindings()
{
Collection<AdviceBinding> result = super.getMethodCallBindings();
Collection<AdviceBinding> parentResult = parent.getBindingCollection().
getMethodCallBindings();
return unifyCollections(result, parentResult, parentFirst);
}
private <T> Collection<T> unifyCollections(Collection<T> collection1,
Collection<T> collection2, boolean prioritizeFirst)
{
if (collection1.isEmpty())
{
return collection2;
}
if (collection2.isEmpty())
{
return collection1;
}
if (prioritizeFirst)
{
collection1 = new LinkedHashSet<T>(collection1);
collection1.addAll(collection2);
}
else
{
Collection<T> temp = collection1;
collection1 = new LinkedHashSet<T>(collection2);
collection1.addAll(temp);
}
return collection1;
}
}
}