127

Example:

public class TestClass {

    public static void main(String[] args) {
        TestClass t = new TestClass();
    }

    private static void testMethod() {
        abstract class TestMethod {
            int a;
            int b;
            int c;

            abstract void implementMe();
        }

        class DummyClass extends TestMethod {
            void implementMe() {}
        }

        DummyClass dummy = new DummyClass();
    }
}

I found out that the above piece of code is perfectly legal in Java. I have the following questions.

  1. What is the use of ever having a class definition inside a method?
  2. Will a class file be generated for DummyClass
  3. It's hard for me to imagine this concept in an Object Oriented manner. Having a class definition inside a behavior. Probably can someone tell me with equivalent real world examples.
  4. Abstract classes inside a method sounds a bit crazy to me. But no interfaces allowed. Is there any reason behind this?
2
  • 1
    I agree, it's incredibly messy looking. I inspected some code that my colleague wrote and found this local class in a method... it just made me feel like this module was totally defiled. Mar 20, 2015 at 22:23
  • 11
    Sometimes it's more about hiding away stuff that you need nowhere else, rather than looks ;) Mar 10, 2016 at 7:47

9 Answers 9

84

This is called a local class.

2 is the easy one: yes, a class file will be generated.

1 and 3 are kind of the same question. You would use a local class where you never need to instantiate one or know about implementation details anywhere but in one method.

A typical use would be to create a throw-away implementation of some interface. For example you'll often see something like this:

  //within some method
  taskExecutor.execute( new Runnable() {
       public void run() {
            classWithMethodToFire.doSomething( parameter );
       }
  }); 

If you needed to create a bunch of these and do something with them, you might change this to

  //within some method
  class myFirstRunnableClass implements Runnable {
       public void run() {
            classWithMethodToFire.doSomething( parameter );
       }
  }
  class mySecondRunnableClass implements Runnable {
       public void run() {
            classWithMethodToFire.doSomethingElse( parameter );
       }
  }
  taskExecutor.execute(new myFirstRunnableClass());
  taskExecutor.execute(new mySecondRunnableClass());

Regarding interfaces: I'm not sure if there's a technical issue that makes locally-defined interfaces a problem for the compiler, but even if there isn't, they wouldn't add any value. If a local class that implements a local interface were used outside the method, the interface would be meaningless. And if a local class was only going to be used inside the method, both the interface and the class would be implemented within that method, so the interface definition would be redundant.

7
  • Any idea in which version of Java local classes where introduced?
    – Sled
    Nov 6, 2014 at 17:32
  • 1
    Inner classes were added in Java 1.1 -- I'm guessing local classes were as well but I don't have documentation on that. Nov 6, 2014 at 19:27
  • Could you provide a better example for what could be a use case of a non-anonymous local class? Your second block of code could be rewritten with anonymous classes.
    – S. Pauk
    Apr 14, 2015 at 7:00
  • 1
    Most uses of non-anonymous local classes can be accomplished with anonymous classes. I didn't flesh out the example but you'd typically use a named local class if you need to create more that one instance of the same class type. Apr 14, 2015 at 13:08
  • 1
    For the OP: note that local class provides a way for threads to communicate - the parameter above might be declared in the enclosing method, and is accessible by both threads.
    – flow2k
    Jul 16, 2017 at 22:30
18

Those are called local classes. You can find a detailed explanation and an example here. The example returns a specific implementation which we doesn't need to know about outside the method.

1
  • 2
    Great link (still works after 7+ years!). In particular, note "Like member classes, local classes are associated with a containing instance, and can access any members, including private members, of the containing class."
    – flow2k
    Jul 16, 2017 at 22:31
11
  1. The class can't be seen (i.e. instantiated, its methods accessed without Reflection) from outside the method. Also, it can access the local variables defined in testMethod(), but before the class definition.

  2. I actually thought: "No such file will be written." until I just tried it: Oh yes, such a file is created! It will be called something like A$1B.class, where A is the outer class, and B is the local class.

  3. Especially for callback functions (event handlers in GUIs, like onClick() when a Button is clicked etc.), it's quite usual to use "anonymous classes" - first of all because you can end up with a lot of them. But sometimes anonymous classes aren't good enough - especially, you can't define a constructor on them. In these cases, these method local classes can be a good alternative.

3
  • 2
    2. Ehrm, sure it will. Class files will be generated for every nested, local or anonymous class in your java file.
    – sepp2k
    Mar 11, 2010 at 20:02
  • 2
    "2. No such file will be written." -- this is wrong. It creates TestClass$1TestMethodClass.class, analogous to how inner classes .class files are named. Mar 11, 2010 at 20:04
  • Good answer, exception for 2: you will get the anonymous class generated, in this case "TestClass$1TestMethodClass.class"
    – Steve B.
    Mar 11, 2010 at 20:05
7

The real purpose of this is to allow us to create classes inline in function calls to console those of us who like to pretend that we're writing in a functional language ;)

4

The only case when you would like to have a full blown function inner class vs anonymous class ( a.k.a. Java closure ) is when the following conditions are met

  1. you need to supply an interface or abstract class implementation
  2. you want to use some final parameters defined in calling function
  3. you need to record some state of execution of the interface call.

E.g. somebody wants a Runnable and you want to record when the execution has started and ended.

With anonymous class it is not possible to do, with inner class you can do this.

Here is an example do demonstrate my point

private static void testMethod (
        final Object param1,
        final Object param2
    )
{
    class RunnableWithStartAndEnd extends Runnable{
        Date start;
        Date end;

        public void run () {
            start = new Date( );
            try
            {
                evalParam1( param1 );
                evalParam2( param2 );
                ...
            }
            finally
            {
                end = new Date( );
            }
        }
    }

    final RunnableWithStartAndEnd runnable = new RunnableWithStartAndEnd( );

    final Thread thread = new Thread( runnable );
    thread.start( );
    thread.join( );

    System.out.println( runnable.start );
    System.out.println( runnable.end );
}

Before using this pattern though, please evaluate if plain old top-level class, or inner class, or static inner class are better alternatives.

1
  • I abuse #2 quite a bit to assign return values from functions. Feb 5, 2015 at 7:59
3

The main reason to define inner classes (within a method or a class) is to deal with accessibility of members and variables of the enclosing class and method. An inner class can look up private data members and operate on them. If within a method it can deal with final local variable as well.

Having inner classes does help in making sure this class is not accessible to outside world. This holds true especially for cases of UI programming in GWT or GXT etc where JS generating code is written in java and behavior for each button or event has to be defined by creating anonymous classes

3

I've came across a good example in the Spring. The framework is using concept of local class definitions inside of the method to deal with various database operations in a uniform way.

Assume you have a code like this:

JdbcTemplate jdbcOperations = new JdbcTemplate(this.myDataSource);
jdbcOperations.execute("call my_stored_procedure()")
jdbcOperations.query(queryToRun, new MyCustomRowMapper(), withInputParams);
jdbcOperations.update(queryToRun, withInputParams);

Let's first look at the implementation of the execute():

    @Override
    public void execute(final String sql) throws DataAccessException {
        if (logger.isDebugEnabled()) {
            logger.debug("Executing SQL statement [" + sql + "]");
        }

        /**
         * Callback to execute the statement.
         (can access method local state like sql input parameter)
         */
        class ExecuteStatementCallback implements StatementCallback<Object>, SqlProvider {
            @Override
            @Nullable
            public Object doInStatement(Statement stmt) throws SQLException {
                stmt.execute(sql);
                return null;
            }
            @Override
            public String getSql() {
                return sql;
            }
        }

        //transforms method input into a functional Object
        execute(new ExecuteStatementCallback());
    }

Please note the last line. Spring does this exact "trick" for the rest of the methods as well:

//uses local class QueryStatementCallback implements StatementCallback<T>, SqlProvider
jdbcOperations.query(...) 
//uses local class UpdateStatementCallback implements StatementCallback<Integer>, SqlProvider
jdbcOperations.update(...)

The "trick" with local classes allows the framework to deal with all of those scenarios in a single method which accept those classes via StatementCallback interface. This single method acts as a bridge between actions (execute, update) and common operations around them (e.g execution, connection management, error translation and dbms console output)

public <T> T execute(StatementCallback<T> action) throws DataAccessException    {
        Assert.notNull(action, "Callback object must not be null");

        Connection con = DataSourceUtils.getConnection(obtainDataSource());
        Statement stmt = null;
        try {
            stmt = con.createStatement();
            applyStatementSettings(stmt);
            //
            T result = action.doInStatement(stmt);
            handleWarnings(stmt);
            return result;
        }
        catch (SQLException ex) {
            // Release Connection early, to avoid potential connection pool deadlock
            // in the case when the exception translator hasn't been initialized yet.
            String sql = getSql(action);
            JdbcUtils.closeStatement(stmt);
            stmt = null;
            DataSourceUtils.releaseConnection(con, getDataSource());
            con = null;
            throw translateException("StatementCallback", sql, ex);
        }
        finally {
            JdbcUtils.closeStatement(stmt);
            DataSourceUtils.releaseConnection(con, getDataSource());
        }
    }
0

Everything is clear here but I wanted to place another example of reasonable use case for this definition type of class for the next readers.

Regarding @jacob-mattison 's answer, If we assume we have some common actions in these throw-away implementations of the interface, So, it's better to write it once but keep the implementations anonymous too:

    //within some method
    abstract class myRunnableClass implements Runnable {

        protected abstract void DO_AN_SPECIFIC_JOB();

        public void run() {
            someCommonCode();
            //...
            DO_AN_SPECIFIC_JOB();
            //..
            anotherCommonCode();
        }
    }

Then it's easy to use this defined class and just implement the specific task separately:

    taskExecutor.execute(new myRunnableClass() {
        protected void DO_AN_SPECIFIC_JOB() {
            // Do something
        }
    });
    taskExecutor.execute(new myRunnableClass() {
        protected void DO_AN_SPECIFIC_JOB() {
            // Do another thing
        }
    });
0

The local classes are a neat way to get default values out of an annotation. Let's say you implemented a Foo annotation with a bunch of parameters with default values:

@Retention(RetentionPolicy.RUNTIME)
@Target(ElementType.TYPE)
public @interface Foo {

  String paramBar() default "Bar";

  String paramVar() default "Var";
}

Now, let's say you have a code where you look for your Foo annotation on classes given to you in a set of Class<?> objects, and when present you read the parameters, but when missing you want to get the default values. Here's how it could be done:

void aMethod(Set<Class<?>> classSet) {
  @Foo
  final class FooDefault { }

  for (var cls : classSet) {
    Foo foo;

    if (cls.isAnnotationPresent(Foo.class)) {
      foo = cls.getAnnotation(Foo.class);
    } else {
      foo = FooDefault.class.getAnnotation(Foo.class);
    }

    doSomethingCool(cls, foo);
  }
}

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.