Package javax.lang.model.element

Interfaces used to model elements of the Java programming language. The term "element" in this package is used to refer to program elements, the declared entities that make up a program. Elements include classes, interfaces, methods, constructors, and fields. The interfaces in this package do not model the structure of a program inside a method body; for example there is no representation of a for loop or try-finally block. However, the interfaces can model some structures only appearing inside method bodies, such as local variables and anonymous classes.

When used in the context of annotation processing, an accurate model of the element being represented must be returned. As this is a language model, the source code provides the fiducial (reference) representation of the construct in question rather than a representation in an executable output like a class file. Executable output may serve as the basis for creating a modeling element. However, the process of translating source code to executable output may not permit recovering some aspects of the source code representation. For example, annotations with source retention cannot be recovered from class files and class files might not be able to provide source position information. Names of parameters may not be recoverable from class files. The modifiers on an element created from a class file may differ in some cases from an element for the same declaration created from a source file including:

  • strictfp on a class or interface
  • final on a parameter
  • protected, private, and static on classes and interfaces
Some elements which are mandated may not be marked as such when created from class files. Additionally, synthetic constructs in a class file, such as accessor methods used in implementing nested classes and bridge methods used in implementing covariant returns, are translation artifacts strictly outside of this model. However, when operating on class files, it is helpful be able to operate on such elements, screening them out when appropriate.

During annotation processing, operating on incomplete or erroneous programs is necessary; however, there are fewer guarantees about the nature of the resulting model. If the source code is not syntactically well-formed or has some other irrecoverable error that could not be removed by the generation of new types, a model may or may not be provided as a quality of implementation issue. If a program is syntactically valid but erroneous in some other fashion, any returned model must have no less information than if all the method bodies in the program were replaced by "throw new RuntimeException();". If a program refers to a missing type Xyz, the returned model must contain no less information than if the declaration of type Xyz were assumed to be "class Xyz {}", "interface Xyz {}", "enum Xyz {}", or "@interface Xyz {}". If a program refers to a missing type Xyz<K1, ... ,Kn>, the returned model must contain no less information than if the declaration of Xyz were assumed to be "class Xyz<T1, ... ,Tn> {}" or "interface Xyz<T1, ... ,Tn> {}"

Unless otherwise specified in a particular implementation, the collections returned by methods in this package should be expected to be unmodifiable by the caller and unsafe for concurrent access.

Unless otherwise specified, methods in this package will throw a NullPointerException if given a null argument.

Since:
1.6
Interface Summary
Interface Description
AnnotationMirror

Represents an annotation.

AnnotationValue

Represents a value of an annotation type element.

AnnotationValueVisitor<R,​P>

A visitor of the values of annotation type elements, using a variant of the visitor design pattern.

Element

Represents a program element such as a module, package, class, or method.

ElementVisitor<R,​P>

A visitor of program elements, in the style of the visitor design pattern.

ExecutableElement

Represents a method, constructor, or initializer (static or instance) of a class or interface, including annotation type elements.

ModuleElement

Represents a module program element.

ModuleElement.Directive

Represents a directive within the declaration of this module.

ModuleElement.DirectiveVisitor<R,​P>

A visitor of module directives, in the style of the visitor design pattern.

ModuleElement.ExportsDirective

An exported package of a module.

ModuleElement.OpensDirective

An opened package of a module.

ModuleElement.ProvidesDirective

An implementation of a service provided by a module.

ModuleElement.RequiresDirective

A dependency of a module.

ModuleElement.UsesDirective

A reference to a service used by a module.

Name

An immutable sequence of characters.

PackageElement

Represents a package program element.

Parameterizable

A mixin interface for an element that has type parameters.

QualifiedNameable

A mixin interface for an element that has a qualified name.

TypeElement

Represents a class or interface program element.

TypeParameterElement

Represents a formal type parameter of a generic class, interface, method, or constructor element.

VariableElement

Represents a field, enum constant, method or constructor parameter, local variable, resource variable, or exception parameter.

Enum Summary
Enum Description
ElementKind

The kind of an element.

Modifier

Represents a modifier on a program element such as a class, method, or field.

ModuleElement.DirectiveKind

The kind of a directive.

NestingKind

The nesting kind of a type element.

Exception Summary
Exception Description
UnknownAnnotationValueException

Indicates that an unknown kind of annotation value was encountered.

UnknownDirectiveException

Indicates that an unknown kind of module directive was encountered.

UnknownElementException

Indicates that an unknown kind of element was encountered.