Section 23.2. The JApplet Class

23.2. The JApplet Class

A JApplet is something like a Swing JPanel with a mission. It is a GUI container that has some extra structure to allow it to be used in an "alien" environment, such as a browser. Applets also have a life cycle that lets them act more like an application than a static component, such as a paragraph of text or an image. Although applets tend to be relatively simple, there's no inherent restriction on their complexity, other than download speed. There's no reason you couldn't write a big application like a word processor as an applet (but that would probably be better suited for Java Web Start, which installs and manages versions locally).

The java.applet.Applet class defines the core functionality of an applet. It was used early on with AWT. The javax.swing.JApplet class is a simple extension of Applet that adds the plumbing necessary for Swing.

Structurally, an applet is a sort of wrapper for your Java code. In contrast to a standalone graphical Java application, which starts up from a main( ) method and creates a GUI, an applet itself is a component that expects to be dropped into someone else's GUI. Thus, an applet can't run by itself; it runs in the context of a web browser or a special applet-viewer program (which we'll talk about later). Instead of having your application create a JFrame to hold your GUI, you stuff your application inside a JApplet (itself is a Container) and let someone else add your applet to their GUI.

Applets are placed on web pages with the <applet> HTML tag, which we'll cover later in this chapter. At its simplest, you just specify the name of the applet class and a size in pixels for the applet:

     <applet code="AnalogClock" width="100" height="100"></applet> 

Pragmatically, an applet is an intruder into someone else's environment and therefore has to be treated with suspicion. The web browsers that run applets impose restrictions on what the applet is allowed to do. The restrictions are enforced by an applet security manager. The browser provides everything the applet needs through an applet contextthe API the applet uses to interact with its environment.

A JApplet expects to be embedded in a page and used in a viewing environment that provides it with resources. In all other respects, however, applets are just ordinary Panel objects. As Figure 23-1 shows, an applet is a kind of Panel. Like any other Panel, a JApplet can contain user-interface components and use all the basic drawing and event-handling capabilities of the Component class. You can draw on a JApplet by overriding its paint( ) method and respond to events in the JApplet's display area by providing the appropriate event listeners. Applets also have additional structure that helps them interact with the browser environment.

Aside from the top-level structure and the security restrictions, there is no difference between an applet and an application. If your application can live within the limits imposed by a browser's security manager, you can easily structure it to function as both an applet and a standalone application. Normally, you'll use your applet class itself only as a thin wrapper to manage the life cycle and appearance of your applicationcreate the GUI, start, and stop. So, the bulk of your code should be easily adaptable to either a standalone or applet deployment.

Figure 23-1. The java.applet package

23.2.1. Applet Life Cycle

The Applet class contains four methods that can be overridden to guide it through its life cycle. The init( ), start( ), stop( ), and destroy( ) methods are called by the appletviewer or web browser to direct the applet's behavior. init( ) is called once, after the applet is created. The init( ) method is where you perform basic setup such as parsing parameters, building a user interface, and loading resources.

By convention, applets don't provide an explicit constructor to do any setup. The reason for this is that the constructor is meant to be called by the applet's environment, for simple creation of the applet. This might happen before the applet has access to certain resources, such as information about its environment. Therefore, an applet doesn't normally do any work there; instead it should rely on the default constructor for the JApplet class and do its initialization in the init( ) method.

The start( ) method is called whenever the applet becomes visible; it shouldn't be a surprise then that the stop( ) method is called whenever the applet becomes invisible. init( ) is called only once in the life of an applet, but start( ) and stop( ) can be called any number of times (although always in the logical sequence). The start( ) method is called when the applet is displayed, such as when it scrolls onto the screen; stop( ) is called if the applet scrolls off the screen, or the viewer leaves the document. start( ) tells the applet it should be active. The applet may want to create threads, animate, or otherwise perform useful (or annoying) activity. stop( ) is called to let the applet know it should go dormant. Applets should cease CPU-intensive or wasteful activity when they are stopped and resume it when (and if) they are restarted. However, there's no requirement that an invisible applet stop computing; in some applications, it may be useful for the applet to continue running in the background. Just be considerate of your user, who doesn't want an invisible applet dragging down system performance.

Finally, the destroy( ) method gives the applet a last chance to clean up before it's removedsome time after the last call to stop( ). For example, an applet might want to gracefully close down suspended communications channels at this time. Exactly when destroy( ) is called depends on the browser; Netscape calls destroy( ) just prior to deleting the applet from its cache. This means that although an applet can cling to life after being told to stop( ), how long it can go on is unpredictable. If you want to maintain an applet as the user progresses through other pages of activities, you may have to put it in an HTML frame, so that it remains visible and won't be told to stop( ). See "Applet Persistence and Navigation" later in this chapter.

If you've been through the rest of this book, you've already seen a couple of applets that snuck in among other topics. In Chapter 9, we created a simple clock applet, and in Chapter 13, we used an applet to send packets of information from a web browser. Now let's try a simple Swing-based example using JApplet. The following example, shown in Figure 23-2, ShowApplet, does nothing special, but you can use it to test the version of Java that's running in your browser (and see if the Plug-in is installed) and to see when the applet is started and stopped. It's a good reference.

     import javax.swing.*;     import java.awt.event.*;     public class ShowApplet extends JApplet {        JTextArea text = new JTextArea(  );        int startCount;        public void init(  ) {           JButton button = new JButton("Press Me");           button.addActionListener( new ActionListener(  ) {              public void actionPerformed( ActionEvent e ) {                 text.append("Button Pressed!\n");              }           } );           getContentPane(  ).add( "Center", new JScrollPane( text ) );           JPanel panel = new JPanel(  );           panel.add( button );           getContentPane(  ).add( "South", panel );           text.append( "Java Version: "              +System.getProperty("java.version")+"\n" );           text.append( "Applet init(  )\n" );        }        public void start(  ) {           text.append( "Applet started: "+ startCount++ +"\n" );        }        public void stop(  ) {           text.append( "Applet stopped.\n" );        }     } 

Figure 23-2. ShowApplet

After compiling the applet, we have to create an HTML page in which to embed it. The following will do:

     <html><head><title>ShowApplet</title></head>     <body>     <applet code="ShowApplet" width="300" height="300">        Your browser does not understand Java.</applet>     </body>     </html> 

We'll discuss the applet tag and other issues related to embedding applets in documents in detail later in this chapter. For now, just save this in a file called showapplet.html. Load the file with your favorite web browser (we suggest Firefox or Netscape 6.2 or later, which comes with a recent version of Java) and see what happens. If you have access to a web server, you can use it. Otherwise, you can open the file locally using either the browser's Open File menu option or a URL such as:


The applet shows the version of Java running it and prints messages when its button is pressed. If you have installed the latest Java Plug-in you should see "Java version: 1.5.0" in the box, regardless of which browser you are using (including Microsoft Internet Explorer). The applet prints messages when its start( ) and stop( ) methods are called, along with a count. You can use this to experiment with different browsers and page-layout configurations to see when your applet is reloaded or restarted. If your browser fails to display the applet with the correct version of Java, don't despair. Later in this chapter, we'll talk about how to convert the HTML to force the browser to use the Java Plug-in explicitly.

23.2.2. The Applet Security Sandbox

Applets are quarantined within the browser by an applet SecurityManager. The SecurityManager is part of the web browser or appletviewer application. It is installed before the browser loads any applets and implements the basic restrictions that let the user run untrusted applets (loaded over the Internet) safely. Remember, there are no inherent security restrictions on a standalone Java application. It is the browser that limits what applets are allowed to do using a security policy.

Most browsers impose the following restrictions on untrusted applets:

  • Untrusted applets can't read or write files on the local host.

  • Untrusted applets can open network connections (sockets) only to the server from which they originated.

  • Untrusted applets can't start other processes on the local host.

  • Untrusted applets can't have native methods.

The motivation for these restrictions should be fairly obvious: you clearly wouldn't want a program coming from some random Internet site to access your files or run arbitrary programs. Although untrusted applets can't directly read and write files on the client side or talk to arbitrary hosts on the network, applets can work with servers to store data and communicate. For example, an applet can use Java's RMI facility to do processing on its server. An applet can communicate with other applets on the Net by proxy through its server. Trusted applets

We've been using the term untrusted applet, so it should come as no surprise that it is also possible to have such a thing as a trusted applet. Applets become trusted through the use of digital signatures, by signing the JAR file containing your applet code. Because a signature identifies the applet's origin unambiguously, we can now distinguish between trusted applets (i.e., applets that come from a site or person you trust not to do anything harmful) and run-of-the-mill untrusted applets. In browser environments that support signing, trusted applets can be granted permission to "go outside" of the applet security sandbox. Trusted applets can be allowed to do all of the things that standalone Java applications can do: read and write files, open network connections to arbitrary machines, and interact with the local operating system by starting processes. Trusted applets still can't have native methods, but including native methods in an applet would destroy its portability anyway.

Chapter 3 discussed how to package your applet's class files and resources into a JAR file. Later in this chapter, we'll show you how to sign an applet JAR with your digital signature.

23.2.3. Getting Applet Resources

An applet must communicate with its browser or applet viewer. For example, it may need configuration parameters from the HTML document in which it appears. An applet may also need to load images, audio clips, and other items. It may also want to ask the viewer about other applets on the same HTML page in order to communicate with them. To get resources from the environment, applets use the AppletStub and AppletContext interfaces, provided by the browser. Applet parameters

An applet can get configuration parameters from <param> tags placed inside the <applet> tag in the HTML document, as we'll describe later. You can retrieve these parameters using Applet's getParameter( ) method. For example, the following code reads parameters called imageName and sheep from its HTML page:

     String imageName = getParameter( "imageName" );     try  {         int numberOfSheep = Integer.parseInt( getParameter( "sheep" ) );     } catch ( NumberFormatException e ) { /* use default */ } 

There is an API that allows an applet to provide information (help) about the parameters it accepts. The applet's getParameterInfo( ) can return an array of string arrays, listing and describing the applet's parameters. However, it's unclear who, if anyone, uses this API. Applet resources

An applet can find out where it lives using the getdocumentBase( ) and getCodeBase( ) methods. getdocumentBase( ) returns the base URL of the document in which the applet appears; getCodeBase( ) returns the base URL of the Applet's class files (these two are often the same). An applet can use these methods to construct relative URLs from which to load other resources from its server, such as images, sounds, and other data. The getImage( ) method takes a URL and asks for an image from the viewer environment. The image may be cached or loaded when later used. The getAudioClip( ) method, similarly, retrieves sound clips.

The following example uses getCodeBase( ) to construct a URL and load a properties configuration file, located in the same remote directory on the web server as the applet's class file:

     Properties props = new Properties(  );     try {       URL url = new URL( getCodeBase(  ), "appletConfig.props" );       props.load( url.openStream(  ) );     } catch ( IOException e ) { /* failed */ } 

A better way to load resources is by calling the getresource( ) and getresourceAsStream( ) methods of the Class class, which search the applet's JAR files (if any) as well as its codebase, which is an extension of the classpath for applets. The following code loads the same properties file in a more portable way:

     Properties props = new Properties(  );     try {       props.load( getClass(  ).getResourceAsStream( "appletConfig.props") );     } catch ( IOException e ) { /* failed */ } 

An applet can ask its viewer to retrieve an image by calling the getImage( ) method. The location of the image to be retrieved is given as a URL, either absolute or fetched from an applet's resources:

     public class MyApplet extends javax.swing.JApplet {       public void init(  ) {         try {           // absolute URL           URL monaURL =               new URL( "http://myserver/images/mona_lisa.gif");           Image monaImage = getImage( monaURL );           // applet resource URL           URL daffyURL =               getClass(  ).getResource("cartoons/images/daffy.gif");           Image daffyDuckImage = getImage( daffyURL );         }         catch ( MalformedURLException e ) {             // unintelligable url         }       }       // ...     } 

Again, using geTResource( ) is preferred; it looks for the image in the applet's JAR file (if there is one), before looking elsewhere in the applet's classpath on the server (We'll talk more later about how classes are located for applets). Driving the browser

The status line is a blurb of text that usually appears somewhere in the web browser's display, indicating a current activity. An applet can request that some text be placed in the status line with the showStatus( ) method. (The browser isn't required to do anything in response to this call, but most browsers will oblige you.)

An applet can also ask the browser to show a new document. To do this, the applet makes a call to the showDocument(url) method of the AppletContext. You can get a reference to the AppletContext with the applet's getAppletContext( ) method. Calling showDocument(url) replaces the currently showing document, which means that your currently running applet will be stopped.

Another version of showDocument( ) takes an additional String argument to tell the browser where to display the new URL:

     getAppletContext(  ).showDocument( url, name ); 

The name argument can be the name of an existing labeled HTML frame; the document referenced by the URL is displayed in that frame. You can use this method to create an applet that "drives" the browser to new locations dynamically but keeps itself active on the screen in a separate frame. This is common for applets that act like navigation controls or menus. If the named frame doesn't exist, the browser creates a new top-level window to hold it. Alternatively, name can have one of the following special values:


Show in the current frame


Show in the parent of our frame


Show in outermost (top-level) frame


Show in a new top-level browser window

Both showStatus( ) and showDocument( ) requests may be ignored by a cold-hearted viewer or web browser. Nothing in browser-land is ever really certain. Inter-applet communication

Although it's not very common, applets that are embedded in documents loaded from the same location on a web site can use a simple mechanism to locate one another and coordinate their activities on a page. Once an applet has a reference to another applet, it can communicate with it, just as with any other object, by invoking methods and sending events. The getApplet( ) method of the applet context looks for an applet by name:

     Applet clock = getAppletContext(  ).getApplet("theClock"); 

Give an applet a name within your HTML document using the name attribute of the <applet> tag. Alternatively, you can use the getApplets( ) method to enumerate all the available applets in the pages.

The tricky thing with applet communications is that applets run inside the security sandbox. An untrusted applet can "see" and communicate only with objects that were loaded by the same class loader. Currently, the only reliable criterion for when applets share a class loader is when they share a common base URL. For example, all the applets contained in web pages loaded from the base URL of should share a class loader and should be able to see each other. This includes documents such as mypages/foo.html and mypages/bar.html, but not mypages/morestuff/foo.html.

When applets do share a class loader, other techniques are possible, too. As with any other class, you can call static methods in applets by name. So you could use static methods in one of your applets as a "registry" to coordinate your activities. Applet persistence and navigation

One of the biggest shortcomings of the Applet API is the lack of a real context for coordinating their activities during navigation across a multipage document or web application. The Applet API simply wasn't designed for this. Although an applet's life cycle is well-defined in terms of its API, it is not well-defined in terms of management by the browser or scope of visibility. As we described in the previous section, applets loaded from the same codebase can rendezvous at runtime using their name attributes. But there are no guarantees about how long an applet will liveor whether it will be stopped as opposed to being destroyedonce it is out of view. If you experiment with our ShowApplet in various browsers and in the Java Plug-in (which we'll discuss later), you'll see that, in some cases, the applet is stopped and restarted when the user leaves the page, but more often the applet is reinitialized from scratch. This makes designing multipage applications that work in all browsers difficult.

One solution has been to use static methods as a shared "registry," as mentioned earlier. However, the details governing how classes loaded by applets are managed are even less well-defined than the management of the applet's themselves. In Java 1.4, a new pair of methods was added to the AppletContext to support short-term applet persistence: setStream( ) and getStream( ). With these methods, an applet can ask the context to save a stream of byte data by a key value and return it later. The notion of providing the state to the context as a stream is a little odd but easy enough to accommodate. Here is an example:

     getAppletContext.setStream("myStream",         new ByteArrayInputStream( "This is some test data...".getBytes(  ) ) ); 

Later, the stream data can be retrieved:

     InputStream in = getAppletContext.getStream( "myStream" ); 

Currently, the data is retained only as long as the browser is running. But it's possible that a longer-term persistence API will come about in the future. If you need more complex state and navigation capabilities, you might consider using a signed applet to write to a file or taking advantage of the new Java Web Start API to install your application locally. Applets versus standalone applications

The following are the methods of the Applet API. The first list is from the AppletStub interface:

     boolean isActive(  );     URL getDocumentBase(  );     URL getCodeBase(  );     String getParameter(String name);     AppletContext getAppletContext(  );     void appletResize(int width, int height); 

The second list is from the AppletContext interface:

     AudioClip getAudioClip(URL url);     Image getImage(URL url);     Applet getApplet(String name);     Enumeration getApplets(  );     void showDocument(URL url);     public void showDocument(URL url, String target);     void showStatus(String status); 

These are the methods provided by the applet-viewer environment. If your applet doesn't use any of them, or if you can provide alternatives to handle common cases (such as loading images), your applet can function as a standalone application as well as an applet. Again, it's best to structure your code so that both the applet and an alternative "Main" application class contain as little environment-specific code as possible and share implementation classes.

Applets are embedded in HTML documents with the <applet> tag. The <applet> tag resembles the HTML <img> image tag. It contains attributes that identify the applet to be displayed and, optionally, give the web browser hints about how it should be shown.[1]

[1] If you aren't familiar with HTML or other markup languages, you may want to refer to HTML and XHTML: The Definitive Guide by Chuck Musciano and Bill Kennedy (O'Reilly) for a complete reference on HTML and structured web documents.

The standard image tag sizing and alignment attributes, such as height and width, can be used inside the applet tag. However, unlike images, applets have both an opening <applet> and a closing </applet> tag. Sandwiched between these can be any number of <param> tags that contain configuration data to be passed to the applet:

     <applet attribute attribute ... >         <param parameter >         <param parameter >         ...     </applet> 

23.2.4. Attributes

Attributes are name/value pairs that are interpreted by a web browser or applet viewer. Attributes of the <applet> tag specify general features that apply to any applet, such as size and alignment. The definition of the <applet> tag lists a fixed set of recognized attributes; specifying an incorrect or nonexistent attribute should be considered an HTML error.

Three attributes are required in the <applet> tag. Two of these attributes, width and height, specify the space the applet occupies on the screen. The third required attribute must be either code or object; you must supply one of these attributes, and you can't specify both. The code attribute specifies the class file from which the applet is loaded; the object attribute specifies a serialized representation of an applet. Most often, you'll use the code attribute.

The following is an HTML fragment for a simple clock applet that takes no parameters and requires no special HTML layout:

     <applet code="AnalogClock" width="100" height="100"></applet> 

The HTML file that contains this <applet> tag must be stored in the same directory as the AnalogClock.class class file. The applet tag is not sensitive to spacing in the HTML, so the previous tag could be also be formatted a little more readably like so:

     <applet         code="AnalogClock"         width="100"         height="100">     </applet> 

23.2.5. Parameters

Parameters are analogous to command-line arguments; they provide a way to pass information to an applet. Each <param> tag contains a name and a value that are passed as string values to the applet:

     <param name = "parameter_name" value = "parameter_value"> 

Parameters provide a means of embedding application-specific data and configuration information within an HTML document. Our AnalogClock applet, for example, might accept a parameter that selects between local and universal time:

     <applet code="AnalogClock" width="100" height="100">         <param name="zone" value="GMT">     </applet> 

Presumably, this AnalogClock applet is designed to look for a parameter named zone with a possible value of GMT.

Parameter names and values should be quoted and can contain spaces and other whitespace characters. The parameters a given applet expects are, of course, determined by the developer of that applet. There is no standard set of parameter names or values; it's up to the applet to interpret the parameter name/value pairs that are passed to it. Any number of parameters can be specified, and the applet may choose to use or ignore them as it sees fit.

23.2.6. ¿Habla Applet?

Web browsers are supposed to ignore tags they don't understand; if the web browser doesn't know about the <applet> or <param> tags, we would expect them to disappear, and any HTML between the <applet> and </applet> tags to appear normally. By convention, Java-enabled web browsers ignore any extra HTML between the <applet> and </applet> tags. Combined, this means we can place some alternative HTML inside the <applet> tag, which is displayed only by web browsers that can't run the applet.

For our AnalogClock example, we could display a small text explanation and an image of the clock applet as a teaser:

     <applet code="AnalogClock" width="100" height="100">         <param name="zone" value="GMT">         <strong>If you see this, you don't have a Java-enabled Web         browser. Here's a picture of what you are missing.</strong>         <img src="/books/4/122/1/html/2/clockface.gif">     </applet> 

23.2.7. The Complete <applet> Tag

We'll now spell out the complete syntax for the <applet> tag:

     <applet         code = class_name 


         object = serialized_applet_name         width = pixels_high         height = pixels_wide         [ codebase = location_URL ]         [ archive = comma_separated_list_of_archive_files ]         [ name = applet_instance_name ]         [ alt = alternate_text ]         [ align = style ]         [ vspace = vertical pad pixels ]         [ hspace = horizontal pad pixels ]     >         [ <param name = parameter_name value = parameter_value> ]         [ <param ...  ]         [ HTML code for non-Java-aware browsers ]     </applet> 

Either the code attribute or the object attribute must be present to specify the applet to run. The code attribute specifies the applet's class file; you'll see this most frequently. The object attribute specifies a serialized representation of an applet. When you use the object attribute to load an applet, the applet's init( ) method is not called. However, the serialized applet's start( ) method is called.

The width, height, align, vspace, and hspace attributes determine the preferred size, alignment, and padding, respectively. The width and height attributes are required.

The codebase attribute specifies the base URL to be searched for the applet's class files. If this attribute isn't present, the browser looks in the same location as the HTML file. The archive attribute specifies a list of JAR or ZIP files in which the applet's class files are located. To put two or more files in the list, separate the filenames with commas; for example, the following attribute tells the browser to load and search three archives for the applet's classes:


The archive files listed by the archive tag are loaded from the codebase URL. When searching for classes, a browser checks the archives before searching any other locations on the server.

The alt attribute specifies alternate text that is displayed by browsers that understand the <applet> tag and its attributes but have Java disabled or don't run applets. This attribute can also describe the applet because, in this case, any alternate HTML between <applet> and </applet> is, by convention, ignored by Java-enabled browsers.

The name attribute specifies an instance name for the executing applet. This is a name specified as a unique label for each copy of an applet on a particular HTML page. For example, if we include our clock twice on the same page (using two applet tags), we should give each instance a unique name to differentiate them:

     <applet code="AnalogClock" name="bigClock" width="300" height="300">     </applet>     <applet code="AnalogClock" name="smallClock" width="50" height="50">     </applet> 

Applets can use instance names to recognize and communicate with other applets on the same page. We could, for instance, create a "clock setter" applet that knows how to set the time on an AnalogClock applet and pass it the instance name of a particular target clock on this page as a parameter. This might look something like:

     <applet code="ClockSetter">         <param name="clockToSet" value="bigClock">     </applet> 

23.2.8. Loading Class Files

The code attribute of the <applet> tag should specify the name of an applet. This is either a simple class name or a package path and class name. For now, let's look at simple class names; we'll discuss packages in a moment. By default, the Java runtime system looks for the class file in the same location as the HTML document that contains it. This location is known as the base URL for the document.

Consider an HTML document, clock.html, that contains our clock applet example:

     <applet code="AnalogClock" width="100" height="100"></applet> 

Let's say we retrieve the document at the following URL: 

Java tries to retrieve the applet class file from the same base location: 

The codebase attribute of the <applet> tag specifies an alternative base URL for the class file search. Let's say our HTML document now specifies codebase, as in the following example:

     <applet         codebase=""         code="AnalogClock"         width="100"         height="100">     </applet> 

Java now looks for the applet class file at: 

23.2.9. Packages

For "loose" applet class files that are not packaged into archives, Java uses the standard package name to directory path mapping to locate files on the server. The only difference is that the requests are not local file lookups but requests to the web server at the applet's codebase URL. Before a class file is retrieved from a server, its package-name component is translated by the client into a relative path name under the applet's codebase.

Let's suppose that our AnalogClock has been placed into a package called time.clock (a subordinate package for clock-related classes, within a package for time-related classes). The fully qualified name of our class is time.clock.AnalogClock. Our simple <applet> tag would now look like:

     <applet code="time.clock.AnalogClock" width="100" height="100"></applet> 

Let's say the clock.html document is once again retrieved from: 

Java now looks for the class file in the following location: 

The same is true when specifying an alternative codebase:

     <applet         codebase=""         code="time.clock.AnalogClock"         width="100"         height="100">     </applet> 

Java now tries to find the class in the corresponding path under this base URL: 

23.2.10. appletviewer

Sun's SDK comes with an applet-viewer program, aptly called appletviewer. To use appletviewer, specify the URL of the document on the command line. For example, to view our (still only theoretical) AnalogClock at the URL shown earlier, use the following command:

     % appletviewer 

appletviewer retrieves all applets in the specified document and displays each one in a separate window. appletviewer isn't a web browser; it doesn't attempt to display HTML. It was primarily useful before the Java Plug-in as a way to test an applet in a specific version of the Java runtime.

    Learning Java
    Learning Java
    ISBN: 0596008732
    EAN: 2147483647
    Year: 2005
    Pages: 262

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