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Java in a Nutshell

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5.5 Anonymous Classes

An anonymous class is essentially a local class without a name. Instead of defining a local class and then instantiating it, you can often use an anonymous class to combine these two steps. Anonymous classes are very commonly used as adapter classes, like the one we saw in Example 5.6. As we'll see, anonymous classes (and their corresponding anonymous objects) are created through another extension to the syntax of the new operator. Thus, an anonymous class is defined by a Java expression, not a Java statement. This means that an anonymous class definition can be included within a larger Java expression such as an assignment or method call.

Example 5.8 shows the use of an anonymous class to implement the java.io.FilenameFilter interface. The implementation in this example is used to list only the files whose names end with .java from a specified directory.

Example 5.8: Implementing an Interface with an Anonymous Class

import java.io.*;
// A simple program to list all Java source code files in a directory
// specified as a command-line argument.
public class Lister 
{
  public static void main(String[] args)
  {
    File f = new File(args[0]);  // f represents the specified directory.
    // List the files in the directory, using the specified filter object.
    // The anonymous class is defined as part of a method call expression.
    String[] list = f.list(new FilenameFilter() {
      public boolean accept(File f, String s) { 
        return s.endsWith(".java"); 
      }
    });
    for(int i = 0; i < list.length; i++)  // output the list
      System.out.println(list[i]);
  }
}

As you can see in Example 5.8, the syntax for defining an anonymous class and creating an instance of that class is a regular new expression, followed by a class body definition in curly braces. If the name following the new keyword is the name of a class, the anonymous class is a subclass of the named class. If the name following new specifies an interface, as in our example, the anonymous class is an implementation of the interface. In this case, the anonymous class is always a subclass of Object--there is no way to specify an extends clause (or an implements clause). In addition, since this syntax creates an anonymous class, there is obviously no way to specify a name for the newly defined class.

Because an anonymous class has no name, it is not possible to define constructors for it within the class body. This is one of the basic restrictions on anonymous classes. Any arguments you specify between the parentheses following the superclass name in an anonymous class definition are implicitly passed to the superclass constructor. Anonymous classes are commonly used to subclass simple classes that do not take any constructor arguments, so the parentheses in the anonymous class definition syntax are often empty, as we saw in Example 5.8. When you use an anonymous class to implement an interface, the constructor argument list is always empty, of course, since the superclass constructor, Object(), expects no arguments.

One of the most elegant things about anonymous classes is that they allow you to define a one-shot class exactly where it is needed. Other important features are the succinctness of the syntax and the fact that no clutter is created by an unnecessary name.

Since anonymous classes have no names, you may wonder what the class files that represent them are named. If you compile the example shown in Example 5.8 you'll find that it produces two class files, Lister.class and Lister$1.class. Anonymous classes are given numbers to produce unique class file names based on the name of the containing class.

Anonymous Class Indentation and Formatting

The common indentation and formatting conventions we are familiar with for languages like Java and C begin to break down somewhat once we start placing class definitions within arbitrary expressions. Based on their experience with inner classes, the engineers at JavaSoft recommend the following formatting rules, which are followed in Example 5.8:

Anonymous Classes versus Local Classes

As we've discussed, an anonymous class behaves just like a local class, and is distinguished from a local class merely in the syntax used to define and instantiate it. In your own code, when you have to choose between using an anonymous class or using a local class, the decision often comes down to stylistic matters. You should use whichever syntax makes your code clearer. In general, you should consider using an anonymous class instead of a local class if:

When considering the use of an anonymous class, there are two important restrictions to bear in mind:

Consider Example 5.9, which shows the Enumeration class we've used throughout this chapter implemented as an anonymous class within the enumerate() method of the LinkedList class. Compare it with Example 5.5, which shows the same class implemented as a local class. In this case, because of the size of the class in question, using local class syntax probably results in code that is a little clearer. Still, if you are a fan of anonymous classes, you might choose to code the example in this way.

Example 5.9: An Enumeration Implemented with an Anonymous Class

import java.util.*;
public class LinkedList 
{
  // Our nested top-level interface.  Body omitted here...
  public interface Linkable { ... } 
  // The head of the list.
  /* private */ Linkable head;  
  // Method bodies omitted here.
  public void addToHead(Linkable node) { ... }
  public Linkable removeHead() { ...  }
  // This method creates and returns an Enumeration object for this 
  // LinkedList.
  public Enumeration enumerate() 
  {
    // Instantiate and return this implementation.
    return new Enumeration() { 
      Linkable current = head; // This used to be in the constructor, but
                               // anonymous classes don't have constructors.
      public boolean hasMoreElements() {  return (current != null); }
      public Object nextElement() {
        if (current == null) throw new NoSuchElementException("LinkedList");
        Object value = current;
        current = current.getNext();
        return value;
      }
    };  // Note the required semicolon.  It terminates the return statement.
  }
}

As another example, consider Example 5.10, which shows the createMenuItem() method of Example 5.6 rewritten to use an anonymous class instead of a local class. In this case, using an anonymous class is probably the right thing to do.

Example 5.10: Using an Anonymous Class as an Adapter

MenuItem createMenuItem(String label, char shortcut, final int command)
{
  // First we create a MenuItem object.
  MenuItem item = new MenuItem(label, new MenuShortcut(shortcut));
  // Then we register an anonymous ActionListener for our new MenuItem.
  item.addActionListener(new ActionListener() {
    public void actionPerformed(ActionEvent e) { app.doCommand(command); }
  });
  // And return the item, ready to be inserted into a menu.
  return item;
}

New Java Syntax for Anonymous Classes

We've already seen examples of the syntax for defining and instantiating an anonymous class. More formally, we can write it as the following:

new class-name ( [ argument-list ] ) { class-body }

or

new interface-name () { class-body }

There is one additional new piece of syntax to support anonymous classes. As noted, anonymous classes cannot define constructors, since they do not have names. Therefore Java 1.1 adds a feature known as an instance initializer, which is similar to the static initializer of Java 1.0. Example 5.11 illustrates this new syntax.

Example 5.11: Java 1.1 Instance Initializers

public class InitializerDemo 
{
  // This is an instance variable.
  public int[] array1;
  // This is an instance initializer.  It is an arbitrary block of code.
  // It runs for every new instance, after the superclass constructor 
  // and before the class constructor, if any.  It can serve the same
  // function as a constructor with no arguments.
  { 
    array1 = new int[10];
    for(int i = 0; i < 10; i++) array1[i] = i; 
  }
  // The line below contains another instance initializer.  The instance
  // initializers for an object are run in the order in which they appear
  // in the class definition.
  int[] array2 = new int[10]; { for(int i=0; i<10; i++) array2[i] = i*2; }
  static int[] static_array = new int[10];
  // By contrast, the block below is a static initializer.  Note the static
  // keyword.  It runs only once, when the class is first loaded.
  static { 
    for(int i = 0; i < 10; i++) static_array[i] = i; 
  }
}

An instance initializer is simply a block of code inside curly braces that is embedded in a class definition, where a field or method definition normally appears. [11] A class (any class--not just anonymous classes) can have any number of instance initializers. The instance initializers and any variable initializers that appear in field definitions for the class are executed in the order they appear in the Java source code. These initializers are automatically run after the superclass constructor has returned but before the constructor, if any, of the current class runs.

[11] Notice that Java 1.1 now allows blocks of code to be inserted in class definitions, and local class definitions to be inserted in blocks of code.

Because an instance initializer can serve the same function as a no-argument constructor method, these initializers are particularly useful for anonymous classes. They can also be useful in non-anonymous classes. Instance initializers allow you to initialize an object's fields near the definition of those fields, rather than deferring that initialization to a constructor defined further away in the class. Used in this way, they can sometimes improve code readability.

Restrictions on Anonymous Classes

Because anonymous classes are just a type of local class, they share the same restrictions: an anonymous class cannot define any static fields, methods, or classes. Since nested interfaces are implicitly static, they cannot be defined within anonymous classes. Similarly, interfaces cannot be defined anonymously.

Anonymous classes, like local classes, cannot be public, private, protected, or static. In fact, the syntax for defining anonymous classes does not allow any modifiers to be specified.


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