Field Summary

Method Summary

Method Details

• setAccessible

  public void setAccessible(boolean flag)

  Description copied from class: AccessibleObject

  Set theaccessible flag for this reflected object to the indicated boolean value. A value oftrue indicates that the reflected object should suppress checks for Java language access control when it is used. A value offalse indicates that the reflected object should enforce checks for Java language access control when it is used, with the variation noted in the class description.

  This method may be used by a caller in classC to enable access to amember ofdeclaring classD if any of the following hold:

  • C andD are in the same module.
  • The member ispublic andD ispublic in a package that the module containingDexports to at least the module containingC.
  • The member isprotectedstatic,D ispublic in a package that the module containingD exports to at least the module containingC, andC is a subclass ofD.
  • D is in a package that the module containingDopens to at least the module containingC. All packages in unnamed and open modules are open to all modules and so this method always succeeds whenD is in an unnamed or open module.

  This method may be used byJNI code with no caller class on the stack to enable access to amember ofdeclaring classD if and only if:

  • The member ispublic andD ispublic in a package that the module containingDexports unconditionally.

  This method cannot be used to enable access to private members, members with default (package) access, protected instance members, or protected constructors when the declaring class is in a different module to the caller and the package containing the declaring class is not open to the caller's module.

  This method cannot be used to enablewrite access to anon-modifiable final field. The following fields are non-modifiable:

  • static final fields declared in any class or interface
  • final fields declared in ahidden class
  • final fields declared in arecord

  Theaccessible flag whentrue suppresses Java language access control checks to only enableread access to these non-modifiable final fields.

  Overrides:

  setAccessible in class AccessibleObject

  Parameters:

  flag - the new value for theaccessible flag

  Throws:

  InaccessibleObjectException - if access cannot be enabled

  External Specifications

  • Java Native Interface Specification

  See Also:

  • AccessibleObject.trySetAccessible()
  • MethodHandles.privateLookupIn(java.lang.Class<?>, java.lang.invoke.MethodHandles.Lookup)

• getDeclaringClass

  public Class<?> getDeclaringClass()

  Returns theClass object representing the class or interface that declares the method represented by this object.

  Specified by:

  getDeclaringClass in interface Member

  Specified by:

  getDeclaringClass in class Executable

  Returns:

  an object representing the declaring class of the underlying member

• getName

  public String getName()

  Returns the name of the method represented by thisMethod object, as aString.

  Specified by:

  getName in interface Member

  Specified by:

  getName in class Executable

  Returns:

  the simple name of the underlying member

• getModifiers

  public int getModifiers()

  Returns the Java languagemodifiers for the executable represented by this object.

  Specified by:

  getModifiers in interface Member

  Specified by:

  getModifiers in class Executable

  Returns:

  the Java languagemodifiers for the executable represented by this object

  SeeJava Language Specification:

  8.4.3 Method Modifiers
  

  See Also:

  • Executable.accessFlags()

• getTypeParameters

  public TypeVariable<Method>[] getTypeParameters()

  Returns an array ofTypeVariable objects that represent the type variables declared by the generic declaration represented by thisGenericDeclaration object, in declaration order. Returns an array of length 0 if the underlying generic declaration declares no type variables.

  Specified by:

  getTypeParameters in interface GenericDeclaration

  Specified by:

  getTypeParameters in class Executable

  Returns:

  an array ofTypeVariable objects that represent the type variables declared by this generic declaration

  Throws:

  GenericSignatureFormatError - if the generic signature of this generic declaration does not conform to the format specified inThe Java Virtual Machine Specification

  SeeJava Language Specification:

  8.4.4 Generic Methods
  

  Since:

  1.5

• getReturnType

  public Class<?> getReturnType()

  Returns aClass object that represents the formal return type of the method represented by thisMethod object.

  Returns:

  the return type for the method this object represents

• getGenericReturnType

  public Type getGenericReturnType()

  Returns aType object that represents the formal return type of the method represented by thisMethod object.

  If the return type is a parameterized type, theType object returned must accurately reflect the actual type arguments used in the source code.

  If the return type is a type variable or a parameterized type, it is created. Otherwise, it is resolved.

  Returns:

  aType object that represents the formal return type of the underlying method

  Throws:

  GenericSignatureFormatError - if the generic method signature does not conform to the format specified inThe Java Virtual Machine Specification

  TypeNotPresentException - if the underlying method's return type refers to a non-existent class or interface declaration

  MalformedParameterizedTypeException - if the underlying method's return type refers to a parameterized type that cannot be instantiated for any reason

  Since:

  1.5

• getParameterTypes

  public Class<?>[] getParameterTypes()

  Returns an array ofClass objects that represent the formal parameter types, in declaration order, of the executable represented by this object. Returns an array of length 0 if the underlying executable takes no parameters. Note that the constructors of some inner classes may have animplicitly declared parameter in addition to explicitly declared ones. Also note that compact constructors of a record class may haveimplicitly declared parameters.

  Specified by:

  getParameterTypes in class Executable

  Returns:

  the parameter types for the executable this object represents

• getParameterCount

  public int getParameterCount()

  Returns the number of formal parameters (whether explicitly declared or implicitly declared or neither) for the executable represented by this object.

  Specified by:

  getParameterCount in class Executable

  Returns:

  The number of formal parameters for the executable this object represents

  Since:

  1.8

• getGenericParameterTypes

  public Type[] getGenericParameterTypes()

  Returns an array ofType objects that represent the formal parameter types, in declaration order, of the executable represented by this object. An array of length 0 is returned if the underlying executable takes no parameters. Note that the constructors of some inner classes may have an implicitly declared parameter in addition to explicitly declared ones. Compact constructors of a record class may also haveimplicitly declared parameters, but they are a special case and thus considered as if they had been explicitly declared in the source. Finally note that as amodeling artifact, the number of returned parameters can differ depending on whether or not generic information is present. If generic information is present, parameters explicitly present in the source or parameters of compact constructors of a record class will be returned. Note that parameters of compact constructors of a record class are a special case, as they are not explicitly present in the source, and its type will be returned regardless of the parameters beingimplicitly declared or not. If generic information is not present, implicit and synthetic parameters may be returned as well.

  If a formal parameter type is a parameterized type, theType object returned for it must accurately reflect the actual type arguments used in the source code. This assertion also applies to the parameters of compact constructors of a record class, independently of them beingimplicitly declared or not.

  If a formal parameter type is a type variable or a parameterized type, it is created. Otherwise, it is resolved.

  Overrides:

  getGenericParameterTypes in class Executable

  Returns:

  an array ofTypes that represent the formal parameter types of the underlying executable, in declaration order

  Throws:

  GenericSignatureFormatError - if the generic method signature does not conform to the format specified inThe Java Virtual Machine Specification

  TypeNotPresentException - if any of the parameter types of the underlying executable refers to a non-existent type declaration

  MalformedParameterizedTypeException - if any of the underlying executable's parameter types refer to a parameterized type that cannot be instantiated for any reason

  Since:

  1.5

• getExceptionTypes

  public Class<?>[] getExceptionTypes()

  Returns an array ofClass objects that represent the types of exceptions declared to be thrown by the underlying executable represented by this object. Returns an array of length 0 if the executable declares no exceptions in its throws clause.

  Specified by:

  getExceptionTypes in class Executable

  Returns:

  the exception types declared as being thrown by the executable this object represents

• getGenericExceptionTypes

  public Type[] getGenericExceptionTypes()

  Returns an array ofType objects that represent the exceptions declared to be thrown by this executable object. Returns an array of length 0 if the underlying executable declares no exceptions in itsthrows clause.

  If an exception type is a type variable or a parameterized type, it is created. Otherwise, it is resolved.

  Overrides:

  getGenericExceptionTypes in class Executable

  Returns:

  an array of Types that represent the exception types thrown by the underlying executable

  Throws:

  GenericSignatureFormatError - if the generic method signature does not conform to the format specified inThe Java Virtual Machine Specification

  TypeNotPresentException - if the underlying executable'sthrows clause refers to a non-existent type declaration

  MalformedParameterizedTypeException - if the underlying executable'sthrows clause refers to a parameterized type that cannot be instantiated for any reason

  Since:

  1.5

• equals

  public boolean equals(Object obj)

  Compares thisMethod against the specified object. Returns true if the objects are the same. TwoMethods are the same if they were declared by the same class and have the same name and formal parameter types and return type.

  Overrides:

  equals in class Object

  Parameters:

  obj - the reference object with which to compare.

  Returns:

  true if this object is the same as the obj argument;false otherwise.

  See Also:

  • Object.hashCode()
  • HashMap

• hashCode

  public int hashCode()

  Returns a hashcode for thisMethod. The hashcode is computed as the exclusive-or of the hashcodes for the underlying method's declaring class name and the method's name.

  Overrides:

  hashCode in class Object

  Returns:

  a hash code value for this object

  See Also:

  • Object.equals(java.lang.Object)
  • System.identityHashCode(java.lang.Object)

• toString

  public String toString()

  Returns a string describing thisMethod. The string is formatted as the method access modifiers, if any, followed by the method return type, followed by a space, followed by the class declaring the method, followed by a period, followed by the method name, followed by a parenthesized, comma-separated list of the method's formal parameter types. If the method throws checked exceptions, the parameter list is followed by a space, followed by the word "throws" followed by a comma-separated list of the thrown exception types. For example:

      public boolean java.lang.Object.equals(java.lang.Object)

  The access modifiers are placed in canonical order as specified by "The Java Language Specification". This ispublic,protected orprivate first, and then other modifiers in the following order:abstract,default,static,final,synchronized,native,strictfp.

  Overrides:

  toString in class Object

  Returns:

  a string describing thisMethod

  SeeJava Language Specification:

  8.4.3 Method Modifiers
  9.4 Method Declarations
  9.6.1 Annotation Interface Elements
  

• toGenericString

  public String toGenericString()

  Returns a string describing thisMethod, including type parameters. The string is formatted as the method access modifiers, if any, followed by an angle-bracketed comma-separated list of the method's type parameters, if any, including informative bounds of the type parameters, if any, followed by the method's generic return type, followed by a space, followed by the class declaring the method, followed by a period, followed by the method name, followed by a parenthesized, comma-separated list of the method's generic formal parameter types. If this method was declared to take a variable number of arguments, instead of denoting the last parameter as "Type[]", it is denoted as "Type...". A space is used to separate access modifiers from one another and from the type parameters or return type. If there are no type parameters, the type parameter list is elided; if the type parameter list is present, a space separates the list from the class name. If the method is declared to throw exceptions, the parameter list is followed by a space, followed by the word "throws" followed by a comma-separated list of the generic thrown exception types.

  The access modifiers are placed in canonical order as specified by "The Java Language Specification". This ispublic,protected orprivate first, and then other modifiers in the following order:abstract,default,static,final,synchronized,native,strictfp.

  Specified by:

  toGenericString in class Executable

  Returns:

  a string describing thisMethod, include type parameters

  SeeJava Language Specification:

  8.4.3 Method Modifiers
  9.4 Method Declarations
  9.6.1 Annotation Interface Elements
  

  Since:

  1.5

• invoke

  public Object invoke(Object obj,Object... args) throwsIllegalAccessException,InvocationTargetException

  Invokes the underlying method represented by thisMethod object, on the specified object with the specified parameters. Individual parameters are automatically unwrapped to match primitive formal parameters, and both primitive and reference parameters are subject to method invocation conversions as necessary.

  If the underlying method is static, then the specifiedobj argument is ignored. It may be null.

  If the number of formal parameters required by the underlying method is 0, the suppliedargs array may be of length 0 or null.

  If the underlying method is an instance method, it is invoked using dynamic method lookup as documented in The Java Language Specification, section15.12.4.4; in particular, overriding based on the runtime type of the target object may occur.

  If the underlying method is static, the class that declared the method is initialized if it has not already been initialized.

  If the method completes normally, the value it returns is returned to the caller of invoke; if the value has a primitive type, it is first appropriately wrapped in an object. However, if the value has the type of an array of a primitive type, the elements of the array arenot wrapped in objects; in other words, an array of primitive type is returned. If the underlying method return type is void, the invocation returns null.

  Parameters:

  obj - the object the underlying method is invoked from

  args - the arguments used for the method call

  Returns:

  the result of dispatching the method represented by this object onobj with parametersargs

  Throws:

  IllegalAccessException - if thisMethod object is enforcing Java language access control and the underlying method is inaccessible.

  IllegalArgumentException - if the method is an instance method and the specified object argument is not an instance of the class or interface declaring the underlying method (or of a subclass or implementor thereof); if the number of actual and formal parameters differ; if an unwrapping conversion for primitive arguments fails; or if, after possible unwrapping, a parameter value cannot be converted to the corresponding formal parameter type by a method invocation conversion.

  InvocationTargetException - if the underlying method throws an exception.

  NullPointerException - if the specified object is null and the method is an instance method.

  ExceptionInInitializerError - if the initialization provoked by this method fails.

• isBridge

  public boolean isBridge()

  Returnstrue if this method is a bridge method; returnsfalse otherwise.

  API Note:

  A bridge method is asynthetic method created by a Java compiler alongside a method originating from the source code. Bridge methods are used by Java compilers in various circumstances to span differences in Java programming language semantics and JVM semantics.

  One example use of bridge methods is as a technique for a Java compiler to supportcovariant overrides, where a subclass overrides a method and gives the new method a more specific return type than the method in the superclass. While the Java language specification forbids a class declaring two methods with the same parameter types but a different return type, the virtual machine does not. A common case where covariant overrides are used is for aCloneable class where theclone method inherited from java.lang.Object is overridden and declared to return the type of the class. For example,Object declares

  protected Object clone() throws CloneNotSupportedException {...}

  andEnumSet<E> declares its language-levelcovariant override

  public EnumSet<E> clone() {...}

  If this technique was being used, the resulting class file forEnumSet would have twoclone methods, one returningEnumSet<E> and the second a bridge method returningObject. The bridge method is a JVM-level override ofObject.clone(). The body of the clone bridge method calls its non-bridge counterpart and returns its result.

  Returns:

  true if this method is a bridge method; returnsfalse otherwise

  SeeJava Language Specification:

  8.4.8.3 Requirements in Overriding and Hiding
  15.12.4.5 Create Frame, Synchronize, Transfer Control
  

  SeeJava Virtual Machine Specification:

  4.6 Methods
  

  Since:

  1.5

  See Also:

  • Java programming language and JVM modeling in core reflection

• isVarArgs

  public boolean isVarArgs()

  Returnstrue if this executable was declared to take a variable number of arguments; returnsfalse otherwise.

  Overrides:

  isVarArgs in class Executable

  Returns:

  true if this executable was declared to take a variable number of arguments; returnsfalse otherwise

  SeeJava Language Specification:

  8.4.1 Formal Parameters
  

  Since:

  1.5

• isSynthetic

  public boolean isSynthetic()

  Returnstrue if this executable is a synthetic construct; returnsfalse otherwise.

  Specified by:

  isSynthetic in interface Member

  Overrides:

  isSynthetic in class Executable

  Returns:

  true if and only if this executable is a synthetic construct as defined byThe Java Language Specification.

  SeeJava Language Specification:

  13.1 The Form of a Binary
  

  SeeJava Virtual Machine Specification:

  4.6 Methods
  

  Since:

  1.5

  See Also:

  • Java programming language and JVM modeling in core reflection

• isDefault

  public boolean isDefault()

  Returnstrue if this method is a default method; returnsfalse otherwise. A default method is a public non-abstract instance method, that is, a non-static method with a body, declared in an interface.

  Returns:

  true if and only if this method is a default method as defined by the Java Language Specification.

  SeeJava Language Specification:

  9.4 Method Declarations
  

  Since:

  1.8

• getDefaultValue

  public Object getDefaultValue()

  Returns the default value for the annotation member represented by thisMethod instance. If the member is of a primitive type, an instance of the corresponding wrapper type is returned. Returns null if no default is associated with the member, or if the method instance does not represent a declared member of an annotation type.

  Returns:

  the default value for the annotation member represented by thisMethod instance.

  Throws:

  TypeNotPresentException - if the annotation is of typeClass and no definition can be found for the default class value.

  SeeJava Language Specification:

  9.6.2 Defaults for Annotation Interface Elements
  

  Since:

  1.5

• getAnnotation

  public <T extendsAnnotation> T getAnnotation(Class<T> annotationClass)

  Returns this element's annotation for the specified type if such an annotation ispresent, else null.

  Note that any annotation returned by this method is a declaration annotation.

  Specified by:

  getAnnotation in interface AnnotatedElement

  Overrides:

  getAnnotation in class Executable

  Type Parameters:

  T - the type of the annotation to query for and return if present

  Parameters:

  annotationClass - the Class object corresponding to the annotation type

  Returns:

  this element's annotation for the specified annotation type if present on this element, else null

  Throws:

  NullPointerException - if the given annotation class is null

  Since:

  1.5

• getDeclaredAnnotations

  public Annotation[] getDeclaredAnnotations()

  Returns annotations that aredirectly present on this element. This method ignores inherited annotations. If there are no annotationsdirectly present on this element, the return value is an array of length 0. The caller of this method is free to modify the returned array; it will have no effect on the arrays returned to other callers.

  Note that any annotations returned by this method are declaration annotations.

  Specified by:

  getDeclaredAnnotations in interface AnnotatedElement

  Overrides:

  getDeclaredAnnotations in class AccessibleObject

  Returns:

  annotations directly present on this element

  Since:

  1.5

• getParameterAnnotations

  public Annotation[][] getParameterAnnotations()

  Returns an array of arrays ofAnnotations that represent the annotations on the formal parameters, in declaration order, of theExecutable represented by this object. Synthetic and mandated parameters (see explanation below), such as the outer "this" parameter to an inner class constructor will be represented in the returned array. If the executable has no parameters (meaning no formal, no synthetic, and no mandated parameters), a zero-length array will be returned. If theExecutable has one or more parameters, a nested array of length zero is returned for each parameter with no annotations. The annotation objects contained in the returned arrays are serializable. The caller of this method is free to modify the returned arrays; it will have no effect on the arrays returned to other callers. A compiler may add extra parameters that are implicitly declared in source ("mandated"), as well as parameters that are neither implicitly nor explicitly declared in source ("synthetic") to the parameter list for a method. SeeParameter for more information.

  Note that any annotations returned by this method are declaration annotations.

  Specified by:

  getParameterAnnotations in class Executable

  Returns:

  an array of arrays that represent the annotations on the formal and implicit parameters, in declaration order, of the executable represented by this object

  Since:

  1.5

  See Also:

  • Parameter
  • Parameter.getAnnotations()

• getAnnotatedReturnType

  public AnnotatedType getAnnotatedReturnType()

  Returns anAnnotatedType object that represents the use of a type to specify the return type of the method/constructor represented by this Executable. If thisExecutable object represents a constructor, the AnnotatedType object represents the type of the constructed object. If thisExecutable object represents a method, the AnnotatedType object represents the use of a type to specify the return type of the method.

  Specified by:

  getAnnotatedReturnType in class Executable

  Returns:

  an object representing the return type of the method or constructor represented by thisExecutable

  Since:

  1.8