start page | rating of books | rating of authors | reviews | copyrights

Book Home Java Enterprise in a Nutshell Search this book

3.11. Local Classes

A local class is declared locally within a block of Java code, rather than as a member of a class. Typically, a local class is defined within a method, but it can also be defined within a static initializer or instance initializer of a class. Because all blocks of Java code appear within class definitions, all local classes are nested within containing classes. For this reason, local classes share many of the features of member classes. It is usually more appropriate, however, to think of them as an entirely separate kind of inner class. A local class has approximately the same relationship to a member class as a local variable has to an instance variable of a class.

The defining characteristic of a local class is that it is local to a block of code. Like a local variable, a local class is valid only within the scope defined by its enclosing block. If a member class is used only within a single method of its containing class, for example, there is usually no reason it cannot be coded as a local class, rather than a member class. Example 3-10 shows how we can modify the enumerate() method of the LinkedStack class so it defines Enumerator as a local class instead of a member class. By doing this, we move the definition of the class even closer to where it is used and hopefully improve the clarity of the code even further. For brevity, Example 3-10 shows only the enumerate() method, not the entire LinkedStack class that contains it.

Example 3-10. Defining and Using a Local Class

// This method creates and returns an Enumeration object
public java.util.Enumeration enumerate() {

  // Here's the definition of Enumerator as a local class
  class Enumerator implements java.util.Enumeration {
    Linkable current;
    public Enumerator() { current = head; }
    public boolean hasMoreElements() {  return (current != null); }
    public Object nextElement() {
      if (current == null) throw new java.util.NoSuchElementException();
      Object value = current;
      current = current.getNext();
      return value;
    }
  }

  // Now return an instance of the Enumerator class defined directly above
  return new Enumerator();
}

3.11.1. Features of Local Classes

Local classes have the following interesting features:

3.11.2. Restrictions on Local Classes

Local classes are subject to the following restrictions:

3.11.3. New Syntax for Local Classes

In Java 1.0, only fields, methods, and classes can be declared final. The addition of local classes in Java 1.1 has required a liberalization in the use of the final modifier. It can now be applied to local variables, method parameters, and even the exception parameter of a catch statement. The meaning of the final modifier remains the same in these new uses: once the local variable or parameter has been assigned a value, that value cannot be changed.

Instances of local classes, like instances of member classes, have an enclosing instance that is implicitly passed to all constructors of the local class. Local classes can use the same this syntax as member classes, to refer explicitly to members of enclosing classes. Because local classes are never visible outside the blocks that define them, however, there is never a need to use the new and super syntax used by member classes to specify the enclosing instance explicitly.

3.11.4. Scope of a Local Class

In discussing member classes, we saw that a member class can access any members inherited from superclasses and any members defined by its containing classes. The same is true for local classes, but local classes can also access final local variables and parameters. The following code illustrates the many fields and variables that may be accessible to a local class:

class A { protected char a = 'a'; }
class B { protected char b = 'b'; }

public class C extends A {
  private char c = 'c';         // Private fields visible to local class
  public static char d = 'd';
  public void createLocalObject(final char e)
  {
    final char f = 'f';
    int i = 0;                  // i not final; not usable by local class
    class Local extends B
    {
      char g = 'g';
      public void printVars()
      {
        // All of these fields and variables are accessible to this class
        System.out.println(g);  // (this.g) g is a field of this class
        System.out.println(f);  // f is a final local variable
        System.out.println(e);  // e is a final local parameter
        System.out.println(d);  // (C.this.d) d -- field of containing class
        System.out.println(c);  // (C.this.c) c -- field of containing class
        System.out.println(b);  // b is inherited by this class
        System.out.println(a);  // a is inherited by the containing class
      }
    }
    Local l = new Local();      // Create an instance of the local class
    l.printVars();              // and call its printVars() method. 
  }
}

3.11.5. Local Classes and Local Variable Scope

A local variable is defined within a block of code, which defines its scope. A local variable ceases to exist outside of its scope. Java is a lexically scoped language, which means that its concept of scope has to do with the way the source code is written. Any code within the curly braces that define the boundaries of a block can use local variables defined in that block.[9]

[9] This section covers advanced material; first-time readers may want to skip it for now and return to it later.

Lexical scoping simply defines a segment of source code within which a variable can be used. It is common, however, to think of a scope as a temporal scope--to think of a local variable as existing from the time the Java interpreter begins executing the block until the time the interpreter exits the block. This is usually a reasonable way to think about local variables and their scope.

The introduction of local classes confuses the picture, however, because local classes can use local variables, and instances of a local class can have a lifetime much longer than the time it takes the interpreter to execute the block of code. In other words, if you create an instance of a local class, the instance does not automatically go away when the interpreter finishes executing the block that defines the class, as shown in the following code:

public class Weird {
  // A static member interface used below
  public static interface IntHolder { public int getValue(); }

  public static void main(String[] args) {     
    IntHolder[] holders = new IntHolder[10];   // An array to hold 10 objects
    for(int i = 0; i < 10; i++) {              // Loop to fill the array up
      final int fi = i;                        // A final local variable
      class MyIntHolder implements IntHolder { // A local class
	public int getValue() { return fi; }  // It uses the final variable
      }
      holders[i] = new MyIntHolder();          // Instantiate the local class
    }

    // The local class is now out of scope, so we can't use it. But
    // we've got ten valid instances of that class in our array. The local
    // variable fi is not in our scope here, but it is still in scope for
    // the getValue() method of each of those ten objects. So call getValue()
    // for each object and print it out. This prints the digits 0 to 9. 
    for(int i = 0; i < 10; i++) System.out.println(holders[i].getValue());
  }
}

The behavior of the previous program is pretty surprising. To make sense of it, remember that the lexical scope of the methods of a local class has nothing to do with when the interpreter enters and exits the block of code that defines the local class. Here's another way to think about it: each instance of a local class has an automatically created private copy of each of the final local variables it uses, so, in effect, it has its own private copy of the scope that existed when it was created.



Library Navigation Links

Copyright © 2001 O'Reilly & Associates. All rights reserved.