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A generic parser and writer for all ISO 14496 based files (MP4, Quicktime, DCF, PDCF, ...)

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/* *******************************************************************
 * Copyright (c) 1999-2001 Xerox Corporation, 
 *               2002 Palo Alto Research Center, Incorporated (PARC).
 * All rights reserved. 
 * This program and the accompanying materials are made available 
 * under the terms of the Eclipse Public License v1.0 
 * which accompanies this distribution and is available at 
 * http://www.eclipse.org/legal/epl-v10.html 
 *  
 * Contributors: 
 *     Xerox/PARC     initial implementation 
 * ******************************************************************/


package org.aspectj.lang;

import org.aspectj.lang.reflect.SourceLocation;

/**
 * 

Provides reflective access to both the state available at a join point and * static information about it. This information is available from the body * of advice using the special form thisJoinPoint. The primary * use of this reflective information is for tracing and logging applications. *

* *
 * aspect Logging {
 *     before(): within(com.bigboxco..*) && execution(public * *(..)) {
 *         System.err.println("entering: " + thisJoinPoint);
 *         System.err.println("  w/args: " + thisJoinPoint.getArgs());
 *         System.err.println("      at: " + thisJoinPoint.getSourceLocation());
 *     }
 * }
 * 
*/ public interface JoinPoint { String toString(); /** * @return an abbreviated string representation of the join point. */ String toShortString(); /** * @return an extended string representation of the join point. */ String toLongString(); /** *

Returns the currently executing object. This will always be * the same object as that matched by the this pointcut * designator. Unless you specifically need this reflective access, * you should use the this pointcut designator to * get at this object for better static typing and performance.

* *

Returns null when there is no currently executing object available. * This includes all join points that occur in a static context.

* * @return the currently executing object (or null if not available - e.g. static context) */ Object getThis(); /** * Returns the target object. This will always be * the same object as that matched by the target pointcut * designator. Unless you specifically need this reflective access, * you should use the target pointcut designator to * get at this object for better static typing and performance. * * Returns null when there is no target object * * @return the target object (or null if there isn't one) */ Object getTarget(); /** * @return the arguments at this join point */ Object[] getArgs(); /** * getStaticPart().getSignature() returns the same object * @return the signature at the join point. */ Signature getSignature(); /** * *

If there is no source location available, returns null.

* *

Returns the SourceLocation of the defining class for default constructors.

* *

getStaticPart().getSourceLocation() returns the same object.

* * @return the source location corresponding to the join point. */ SourceLocation getSourceLocation(); /** This string is guaranteed to be interned. * getStaticPart().getKind() returns the same object. * * @return a string representing the kind of join point. */ String getKind(); /** *

This helper object contains only the static information about a join point. * It is available from the JoinPoint.getStaticPart() method, and * can be accessed separately within advice using the special form * thisJoinPointStaticPart.

* *

If you are only interested in the static information about a join point, * you should access it through this type for the best performance. This * is particularly useful for library methods that want to do serious * manipulations of this information, i.e.

* *
     * public class LoggingUtils {
     *     public static void prettyPrint(JoinPoint.StaticPart jp) {
     *         ...
     *     }
     * }
     *
     * aspect Logging {
     *     before(): ... { LoggingUtils.prettyPrint(thisJoinPointStaticPart); }
     * }
     * 
* * @see JoinPoint#getStaticPart() */ public interface StaticPart { /** @return the signature at the join point. */ Signature getSignature(); /** Returns the source location corresponding to the join point. * * If there is no source location available, returns null. * * @return the SourceLocation of the defining class for default constructors */ SourceLocation getSourceLocation(); /** @return a string representing the kind of join point. This String * is guaranteed to be interned */ String getKind(); /** * Return the id for this JoinPoint.StaticPart. All JoinPoint.StaticPart * instances are assigned an id number upon creation. For each advised type * the id numbers start at 0. *
* The id is guaranteed to remain constant across repeated executions * of a program but may change if the code is recompiled. *
* The benefit of having an id is that it can be used for array index * purposes which can be quicker than using the JoinPoint.StaticPart * object itself in a map lookup. *
* Since two JoinPoint.StaticPart instances in different advised types may have * the same id, then if the id is being used to index some joinpoint specific * state then that state must be maintained on a pertype basis - either by * using pertypewithin() or an ITD. * * @return the id of this joinpoint */ int getId(); String toString(); /** * @return an abbreviated string representation of the join point */ String toShortString(); /** * @return an extended string representation of the join point */ String toLongString(); } public interface EnclosingStaticPart extends StaticPart {} /** * @return an object that encapsulates the static parts of this join point. */ StaticPart getStaticPart(); /** * The legal return values from getKind() */ static String METHOD_EXECUTION = "method-execution"; static String METHOD_CALL = "method-call"; static String CONSTRUCTOR_EXECUTION = "constructor-execution"; static String CONSTRUCTOR_CALL = "constructor-call"; static String FIELD_GET = "field-get"; static String FIELD_SET = "field-set"; static String STATICINITIALIZATION = "staticinitialization"; static String PREINITIALIZATION = "preinitialization"; static String INITIALIZATION = "initialization"; static String EXCEPTION_HANDLER = "exception-handler"; static String SYNCHRONIZATION_LOCK = "lock"; static String SYNCHRONIZATION_UNLOCK = "unlock"; static String ADVICE_EXECUTION = "adviceexecution"; }




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