The entry point for all reflection operations is
java.lang.Class
. With the exception of
java.lang.reflect.ReflectPermission
, none of the classes in
java.lang.reflect
have public constructors. To get to these classes, it is necessary to invoke appropriate methods on
Class
. There are several ways to get a
Class
depending on whether the code has access to an object, the name of class, a type, or an existing
Class
.
If an instance of an object is available, then the simplest way to get its
Class
is to invoke
Object.getClass()
. Of course, this only works for reference types which all inherit from
Object
. Some examples follow.
Class c = "foo".getClass();
Class c = System.console().getClass();
There is a unique console associated with the virtual machine which is returned by the static
method
System.console()
. The value returned by
getClass()
is the
Class
corresponding to
java.io.Console
.
enum E { A, B } Class c = A.getClass();
A
is is an instance of the enum E
; thus
getClass()
returns the
Class
corresponding to the enumeration type E
.
byte[] bytes = new byte[1024]; Class c = bytes.getClass();
Since arrays are
Objects
, it is also possible to invoke
getClass()
on an instance of an array. The returned
Class
corresponds to an array with component type byte
.
import java.util.HashSet; import java.util.Set; Set<String> s = new HashSet<String>(); Class c = s.getClass();
In this case,
java.util.Set
is an interface to an object of type
java.util.HashSet
. The value returned by
getClass()
is the class corresponding to
java.util.HashSet
.
If the type is available but there is no instance then it is possible to obtain a
Class
by appending ".class"
to the name of the type. This is also the easiest way to obtain the
Class
for a primitive type.
boolean b; Class c = b.getClass(); // compile-time error Class c = boolean.class; // correct
Note that the statement boolean.getClass()
would produce a compile-time error because a boolean
is a primitive type and cannot be dereferenced. The .class
syntax returns the
Class
corresponding to the type boolean
.
Class c = java.io.PrintStream.class;
The variable c
will be the
Class
corresponding to the type
java.io.PrintStream
.
Class c = int[][][].class;
The .class
syntax may be used to retrieve a
Class
corresponding to a multi-dimensional array of a given type.
If the fully-qualified name of a class is available, it is possible to get the corresponding
Class
using the static method
Class.forName()
. This cannot be used for primitive types. The syntax for names of array classes is described by
Class.getName()
. This syntax is applicable to references and primitive types.
Class c = Class.forName("com.duke.MyLocaleServiceProvider");
This statement will create a class from the given fully-qualified name.
Class cDoubleArray = Class.forName("[D"); Class cStringArray = Class.forName("[[Ljava.lang.String;");
The variable cDoubleArray
will contain the
Class
corresponding to an array of primitive type double
(i.e. the same as double[].class
). The cStringArray
variable will contain the
Class
corresponding to a two-dimensional array of
String
(i.e. identical to String[][].class
).
The .class
syntax is a more convenient and the preferred way to obtain the
Class
for a primitive type; however there is another way to acquire the
Class
. Each of the primitive types and void
has a wrapper class in
java.lang
that is used for boxing of primitive types to reference types. Each wrapper class contains a field named TYPE
which is equal to the
Class
for the primitive type being wrapped.
Class c = Double.TYPE;
There is a class
java.lang.Double
which is used to wrap the primitive type double
whenever an
Object
is required. The value of
Double.TYPE
is identical to that of double.class
.
Class c = Void.TYPE;
Void.TYPE
is identical to void.class
.
There are several Reflection APIs which return classes but these may only be accessed if a
Class
has already been obtained either directly or indirectly.
Class.getSuperclass()
Class c = javax.swing.JButton.class.getSuperclass();
javax.swing.JButton
is
javax.swing.AbstractButton
.Class.getClasses()
Class<?>[] c = Character.class.getClasses();
Character
contains two member classes
Character.Subset
and
Character.UnicodeBlock
.Class.getDeclaredClasses()
Class<?>[] c = Character.class.getDeclaredClasses();
Character
contains two public member classes
Character.Subset
and
Character.UnicodeBlock
and one private class Character.CharacterCache
.Class.getDeclaringClass()
java.lang.reflect.Field.getDeclaringClass()
java.lang.reflect.Method.getDeclaringClass()
java.lang.reflect.Constructor.getDeclaringClass()
Class
in which these members were declared.
Anonymous Class Declarations will not have a declaring class but will have an enclosing class.
import java.lang.reflect.Field; Field f = System.class.getField("out"); Class c = f.getDeclaringClass();
out
is declared in
System
.
public class MyClass { static Object o = new Object() { public void m() {} }; static Class<c> = o.getClass().getEnclosingClass(); }
o
is null
.Class.getEnclosingClass()
Class c = Thread.State.class().getEnclosingClass();
Thread.State
is
Thread
.
public class MyClass { static Object o = new Object() { public void m() {} }; static Class<c> = o.getClass().getEnclosingClass(); }
o
is enclosed by MyClass
.