Uploaded image for project: 'JDK'
  1. JDK
  2. JDK-8044826

JEP 256: BeanInfo Annotations



    • Sergey Malenkov
    • Feature
    • Open
    • JDK
    • beans dash dev at openjdk dot java dot net
    • L
    • L
    • Completed
    • 256



      Replace @beaninfo Javadoc tags with proper annotations, and process those annotations at run time to generate BeanInfo classes dynamically.


      Simplify the creation of custom BeanInfo classes and enable the modularization of the client library.


      Most BeanInfo classes are automatically generated at runtime, but many Swing classes still generate BeanInfo classes from @beaninfo Javadoc tags at compile time. We propose to replace the @beaninfo tags with the following annotations, and extend the existing introspection algorithm to interpret them:

      package java.beans;
      public @interface JavaBean {
          String description() default "";
          String defaultProperty() default "";
          String defaultEventSet() default "";
      package java.beans;
      public @interface BeanProperty {
          boolean bound() default true;
          boolean expert() default false;
          boolean hidden() default false;
          boolean preferred() default false;
          boolean visualUpdate() default false;
          String description() default "";
          String[] enumerationValues() default {};
      package javax.swing;
      public @interface SwingContainer {
          boolean value() default true;
          String delegate() default "";

      For further detail, see the Javadoc for JavaBean, BeanProperty, and SwingContainer.

      These annotations will set the corresponding feature attributes during BeanInfo generation at run time. It will be easier for developers to specify these attributes directly in Bean classes rather than create a separate BeanInfo class for every Bean class. It will also allow the removal of the automatically-generated classes, which will make it easier to modularize the client library.


      We'll need to verify that the new introspection algorithm behaves as expected. We'll also need to verify that the new introspection algorithm doesn't break backward compatibility, or else ensure that cases in which compatibility is broken are rare.

      Risks and Assumptions

      • The new introspection algorithm may behave somewhat differently, but we do not expect any serious backward incompatibilities.

      • We do not expect any performance degradation. The refactoring of the introspection algorithm might improve performance.


        Issue Links



              serb Sergey Bylokhov
              malenkov Sergey Malenkov (Inactive)
              Sergey Bylokhov Sergey Bylokhov
              Kevin Rushforth, Richard Bair (Inactive)
              Kevin Rushforth
              1 Vote for this issue
              15 Start watching this issue