Java class local public

Local Classes

Local classes are classes that are defined in a block, which is a group of zero or more statements between balanced braces. You typically find local classes defined in the body of a method.

This section covers the following topics:

Declaring Local Classes

You can define a local class inside any block (see Expressions, Statements, and Blocks for more information). For example, you can define a local class in a method body, a for loop, or an if clause.

The following example, LocalClassExample , validates two phone numbers. It defines the local class PhoneNumber in the method validatePhoneNumber :

public class LocalClassExample < static String regularExpression = "[^0-9]"; public static void validatePhoneNumber( String phoneNumber1, String phoneNumber2) < final int numberLength = 10; // Valid in JDK 8 and later: // int numberLength = 10; class PhoneNumber < String formattedPhoneNumber = null; PhoneNumber(String phoneNumber)< // numberLength = 7; String currentNumber = phoneNumber.replaceAll( regularExpression, ""); if (currentNumber.length() == numberLength) formattedPhoneNumber = currentNumber; else formattedPhoneNumber = null; >public String getNumber() < return formattedPhoneNumber; >// Valid in JDK 8 and later: // public void printOriginalNumbers() < // System.out.println("Original numbers are " + phoneNumber1 + // " and " + phoneNumber2); // >> PhoneNumber myNumber1 = new PhoneNumber(phoneNumber1); PhoneNumber myNumber2 = new PhoneNumber(phoneNumber2); // Valid in JDK 8 and later: // myNumber1.printOriginalNumbers(); if (myNumber1.getNumber() == null) System.out.println("First number is invalid"); else System.out.println("First number is " + myNumber1.getNumber()); if (myNumber2.getNumber() == null) System.out.println("Second number is invalid"); else System.out.println("Second number is " + myNumber2.getNumber()); > public static void main(String. args) < validatePhoneNumber("123-456-7890", "456-7890"); >>

The example validates a phone number by first removing all characters from the phone number except the digits 0 through 9. After, it checks whether the phone number contains exactly ten digits (the length of a phone number in North America). This example prints the following:

First number is 1234567890 Second number is invalid

Accessing Members of an Enclosing Class

A local class has access to the members of its enclosing class. In the previous example, the PhoneNumber constructor accesses the member LocalClassExample.regularExpression .

In addition, a local class has access to local variables. However, a local class can only access local variables that are declared final. When a local class accesses a local variable or parameter of the enclosing block, it captures that variable or parameter. For example, the PhoneNumber constructor can access the local variable numberLength because it is declared final; numberLength is a captured variable.

However, starting in Java SE 8, a local class can access local variables and parameters of the enclosing block that are final or effectively final. A variable or parameter whose value is never changed after it is initialized is effectively final. For example, suppose that the variable numberLength is not declared final, and you add the highlighted assignment statement in the PhoneNumber constructor to change the length of a valid phone number to 7 digits:

PhoneNumber(String phoneNumber) < numberLength = 7; String currentNumber = phoneNumber.replaceAll( regularExpression, ""); if (currentNumber.length() == numberLength) formattedPhoneNumber = currentNumber; else formattedPhoneNumber = null; >

Because of this assignment statement, the variable numberLength is not effectively final anymore. As a result, the Java compiler generates an error message similar to «local variables referenced from an inner class must be final or effectively final» where the inner class PhoneNumber tries to access the numberLength variable:

if (currentNumber.length() == numberLength)

Starting in Java SE 8, if you declare the local class in a method, it can access the method’s parameters. For example, you can define the following method in the PhoneNumber local class:

public void printOriginalNumbers()

The method printOriginalNumbers accesses the parameters phoneNumber1 and phoneNumber2 of the method validatePhoneNumber .

Shadowing and Local Classes

Declarations of a type (such as a variable) in a local class shadow declarations in the enclosing scope that have the same name. See Shadowing for more information.

Local Classes Are Similar To Inner Classes

Local classes are similar to inner classes because they cannot define or declare any static members. Local classes in static methods, such as the class PhoneNumber , which is defined in the static method validatePhoneNumber , can only refer to static members of the enclosing class. For example, if you do not define the member variable regularExpression as static, then the Java compiler generates an error similar to «non-static variable regularExpression cannot be referenced from a static context.»

Local classes are non-static because they have access to instance members of the enclosing block. Consequently, they cannot contain most kinds of static declarations.

You cannot declare an interface inside a block; interfaces are inherently static. For example, the following code excerpt does not compile because the interface HelloThere is defined inside the body of the method greetInEnglish :

public void greetInEnglish() < interface HelloThere < public void greet(); >class EnglishHelloThere implements HelloThere < public void greet() < System.out.println("Hello " + name); >> HelloThere myGreeting = new EnglishHelloThere(); myGreeting.greet(); >

You cannot declare static initializers or member interfaces in a local class. The following code excerpt does not compile because the method EnglishGoodbye.sayGoodbye is declared static . The compiler generates an error similar to «modifier ‘static’ is only allowed in constant variable declaration» when it encounters this method definition:

public void sayGoodbyeInEnglish() < class EnglishGoodbye < public static void sayGoodbye() < System.out.println("Bye bye"); >> EnglishGoodbye.sayGoodbye(); >

A local class can have static members provided that they are constant variables. (A constant variable is a variable of primitive type or type String that is declared final and initialized with a compile-time constant expression. A compile-time constant expression is typically a string or an arithmetic expression that can be evaluated at compile time. See Understanding Class Members for more information.) The following code excerpt compiles because the static member EnglishGoodbye.farewell is a constant variable:

public void sayGoodbyeInEnglish() < class EnglishGoodbye < public static final String farewell = "Bye bye"; public void sayGoodbye() < System.out.println(farewell); >> EnglishGoodbye myEnglishGoodbye = new EnglishGoodbye(); myEnglishGoodbye.sayGoodbye(); >

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Controlling Access to Members of a Class

Access level modifiers determine whether other classes can use a particular field or invoke a particular method. There are two levels of access control:

• At the top level— public , or package-private (no explicit modifier).
• At the member level— public , private , protected , or package-private (no explicit modifier).

A class may be declared with the modifier public , in which case that class is visible to all classes everywhere. If a class has no modifier (the default, also known as package-private), it is visible only within its own package (packages are named groups of related classes — you will learn about them in a later lesson.)

At the member level, you can also use the public modifier or no modifier (package-private) just as with top-level classes, and with the same meaning. For members, there are two additional access modifiers: private and protected . The private modifier specifies that the member can only be accessed in its own class. The protected modifier specifies that the member can only be accessed within its own package (as with package-private) and, in addition, by a subclass of its class in another package.

The following table shows the access to members permitted by each modifier.

Access Levels

Modifier	Class	Package	Subclass	World
public	Y	Y	Y	Y
protected	Y	Y	Y	N
no modifier	Y	Y	N	N
private	Y	N	N	N

The first data column indicates whether the class itself has access to the member defined by the access level. As you can see, a class always has access to its own members. The second column indicates whether classes in the same package as the class (regardless of their parentage) have access to the member. The third column indicates whether subclasses of the class declared outside this package have access to the member. The fourth column indicates whether all classes have access to the member.

Access levels affect you in two ways. First, when you use classes that come from another source, such as the classes in the Java platform, access levels determine which members of those classes your own classes can use. Second, when you write a class, you need to decide what access level every member variable and every method in your class should have.

Let’s look at a collection of classes and see how access levels affect visibility. The following figure shows the four classes in this example and how they are related.

Classes and Packages of the Example Used to Illustrate Access Levels

The following table shows where the members of the Alpha class are visible for each of the access modifiers that can be applied to them.

Visibility

Modifier	Alpha	Beta	Alphasub	Gamma
public	Y	Y	Y	Y
protected	Y	Y	Y	N
no modifier	Y	Y	N	N
private	Y	N	N	N

If other programmers use your class, you want to ensure that errors from misuse cannot happen. Access levels can help you do this.

• Use the most restrictive access level that makes sense for a particular member. Use private unless you have a good reason not to.
• Avoid public fields except for constants. (Many of the examples in the tutorial use public fields. This may help to illustrate some points concisely, but is not recommended for production code.) Public fields tend to link you to a particular implementation and limit your flexibility in changing your code.

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