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Field
, Method
, and Constructor
-that reflect class and
interface members and constructors. These classes provide:
Class
that provide for the construction of new instances of
the Field
, Method
, and Constructor
classes.
Array
provides methods to dynamically construct and access Java
arrays.
Modifier
helps decode Java language modifier information
about classes and their members.
InvocationTargetException
is used to wrap exceptions thrown
by reflected methods or constructors.
AccessibleObject
and ReflectPermission
-that provide a
mechanism to suppress standard Java language access control.
java.lang
package that support reflection.
These are:
Class
. These represent the
primitive Java types boolean
, byte
, char
, short
, int
, long
, float
, and
double
, and the keyword void
, at run-time.
Void
-to hold a reference to the Class
object representing the keyword void
.
One category is comprised of applications that need to discover and use all of
the public
members of a target object based on its run-time class. These
applications require run-time access to all the public
fields, methods, and
constructors of an object. Examples in this category are services such as Java(TM)
Beans[1], and lightweight tools, such as object inspectors. These applications
use the instances of the classes Field
, Method
, and Constructor
obtained
through the methods getField
, getMethod
, getConstructor
, getFields
,
getMethods
, and getConstructors
of class Class
.
The second category consists of sophisticated applications that need to
discover and use the members declared by a given class. These applications
need run-time access to the implementation of a class at the level provided by
a class
file. Examples in this category are development tools, such as
interpreters, inspectors, and class browsers, and run-time services, such as
Java(TM) Object Serialization[2]. These applications use instances of the classes
Field
, Method
, and Constructor
obtained through the methods
getDeclaredField
, getDeclaredMethod
, getDeclaredConstructor
,
getDeclaredFields
, getDeclaredMethods
, and getDeclaredConstructors
of
class Class
.
Field
, Method
, and Constructor
are final
. Only the Java
Virtual Machine may create instances of these classes; these objects are used to
manipulate the underlying objects; that is, to:
final
uninstantiable class Array
provides static
methods that permit
creating new arrays, and getting and setting the elements of arrays.
Field
, Method
and Constructor
implement the Member
interface.
The methods of Member
are used to query a reflected member for basic
identifying information. Identifying information consists of the class or
interface that declared the member, the name of the member itself, and the Java
language modifiers (such as public
, protected
, abstract
, synchronized
, and
so on) for the member.
Field
object represents a reflected field. The underlying field may be a class
variable (a static
field) or an instance variable (a non-static
field). Methods
of class Field
are used to obtain the type of the underlying field, and to get
and set the underlying field's value on objects.
Method
object represents a reflected method. The underlying method may be
an abstract method, an instance method, or a class (static
) method.
Methods of class Method
are used to obtain the formal parameter types, the
return type, and the checked exception types of the underlying method. In
addition, the invoke
method of class Method
is used to invoke the underlying
method on target objects. Instance and abstract method invocation uses
dynamic method resolution based on the target object's run-time class and the
reflected method's declaring class, name, and formal parameter types. (Thus, it
is permissible to invoke a reflected interface method on an object that is an
instance of a class that implements the interface.) Static method invocation
uses the underlying static method of the method's declaring class.
Constructor
object represents a reflected constructor. Methods of class
Constructor
are used to obtain the formal parameter types and the checked
exception types of the underlying constructor. In addition, the newInstance
method of class Constructor
is used to create and initialize a new instance of
the class that declares the constructor, provided the class is instantiable.
Array
class is an uninstantiable class that exports class methods to create
Java arrays with primitive or class component types. Methods of class Array
are also used to get and set array component values.
The Modifier
class is an uninstantiable class that exports class methods to
decode Java language modifiers for classes and members. The language
modifiers are encoded in an integer, and use the encoding constants defined by
The Java Virtual Machine Specification.
Class
objects that are used to represent the eight
primitive Java types and void
at run-time. (Note that these are Class
objects,
not classes.) The Core Reflection API uses these objects to identify the
following:
Class
objects. They have the same
names as the types that they represent. The Class
objects may only be
referenced via the following public
final
static
variables:
java.lang.Boolean.TYPE java.lang.Character.TYPE java.lang.Byte.TYPE java.lang.Short.TYPE java.lang.Integer.TYPE java.lang.Long.TYPE java.lang.Float.TYPE java.lang.Double.TYPE java.lang.Void.TYPEIn particular, these
Class
objects are not accessible via the forName
method of
class Class
.
Class
that give reflective access to a member or a set
of members of a class are the only source for instances of Field
, Method
, and
Constructor
. These methods first delegate security checking to the system
security manager (if installed), which throws a SecurityException
should
the request for reflective access be denied.
protected
, default (package) access, and private
classes and
members-will normally occur when the individual reflected members are
used to operate on the underlying members of objects,that is, to get or set
field values, to invoke methods, or to create and initialize new objects.
Unrestricted access, which overrides standard language access control rules,
may be granted to privileged code using the setAccessible
method. This
method is inherited from AccessibleObject
by the classes Field
, Method
,
and Constructor
.
SecurityManager
:
The policy is determined based on what permissions are granted to the caller. There are two actions of classvoid checkMemberAccess(Class,int) throws SecurityException
The
Class
parameter ofcheckMemberAccess
identifies the class or interface whose members need to be accessed. Theint
parameter identifies the set of members to be accessed-eitherMember.PUBLIC
orMember.DECLARED
.
void checkPackageAccess(String pkg) throws SecurityException
java.lang.RuntimePermission
that affect these
policies. These are:
accessDeclaredMembers.
This grants the ability to reflect on non-public
members of classes.
accessClassInPackage{package name}.
This grants access to classes in
the specified package. These permissions are determined by the security
manager.
SecurityException
. If the requested
access to the set is granted, the method should return.
As stated earler, standard Java language access control will usually be enforced when a reflected member from this set is used to operate on an underlying object, that is, when:
Field
is used to get or set a field value
Method
is used to invoke a method
Constructor
is used to create and initialize a new instance of a class
IllegalAccessException
. Java language access control may be suppressed for
a particular reflected member by setting a flag using the setAccessible
method, as explained below.
public
members and constructors) of any class it may link against. By default,
application code that gains reflective access to a member or constructor may
only use the reflected member or constructor with standard Java language
access control.
The standard policy may be overridden by calling the reflected member's
setAccessible
method. The ability to call the setAccessible
method is in
turn controlled by the suppressAccessChecks
target of the permission
ReflectPermission
.
There are two types of automatic data conversions. Wrapping conversions convert from values of primitive types to objects of class types. Unwrapping conversions convert objects of class types to values of primitive types. The rules for these conversions are defined in "Wrapping and Unwrapping Conversions."
Additionally, field access and method invocation permit widening conversions on primitive and reference types. These conversions are documented in The Java Language Specification, section 5, and are detailed in "Widening Conversions."
Field.get
or Array.get
, or when it is returned by a method invoked via
Method.invoke
.
Similarly, an object value is automatically unwrapped when supplied as a parameter in a context that requires a value of a primitive type. These contexts are:
Field.set
, where the underlying field has a primitive type
Array.set
, where the underlying array has a primitive element type
Method.invoke
or Constructor.newInstance
, where the corresponding
formal parameter of the underlying method or constructor has a primitive
type
boolean
|
java.lang.Boolean
|
char
|
java.lang.Character
|
byte
|
java.lang.Byte
|
short
|
java.lang.Short
|
int
|
java.lang.Integer
|
long
|
java.lang.Long
|
float
|
java.lang.Float
|
double
|
java.lang.Double
|
A method that is declared void
returns the special reference null
when it is
invoked via Method.invoke
.
Widening conversions are performed at run-time:
Field
and Array
Field
and
Array
Method.invoke
or Constructor.newInstance
byte
to short
, int
, long
, float
, or double
short
to int
, long
, float
, or double
char
to int
, long
, float
, or double
int
to long
, float
, or double
long
to float
or double
float
to double
.
java.lang
named
java.lang.reflect
. This avoids compatibility problems caused by Java's
default package importation rules.