Defines a contract between user-interface components and an assistive technology that provides access to those components. If a Java application fully supports the Java Accessibility API, then it should be compatible with, and friendly toward, assistive technologies such as screen readers, screen magnifiers, etc. With a Java application that fully supports the Java Accessibility API, no screen reader off screen model would be necessary because the API provides all of the information normally contained in an off screen model.
The Java Accessibility API package consists of 8 Java programming language interfaces, and 6 Java programming language classes. These are described below.
Interface Accessible is the main interface of the Java Accessibility API. All components that support the Java Accessibility API must implement this interface. It contains a single method,
getAccessibleContext, that returns an instance of the class
AccessibleContext. Sun thinks that implementing this interface is the absolute minimum requirement of every object that is part of the user interface of a Java application, if that program is to be compatible with assistive technologies.
AccessibleContext represents the minimum information all accessible objects return and is obtained by calling the
getAccessibleContext method on an object that implements the
Accessible interface. This information includes the accessible name, description,
role, and
state of the object, as well as information about the parent and children of the object. In addition, JavaBeans
TM property change support is also included to allow assisitive technologies learn when the values of the accessible properties change. AccessibleContext also contains methods for obtaining more specific accessibility information about a component. If the component supports it, these methods will return an object that implements one or more of the following interfaces:
- AccessibleAction - the object can perform one or more actions. This interface provides the standard mechanism for an assistive technology to determine what those actions are and tell the object to perform those actions. Any object that can be manipulated should return an object that implements this interface when the getAccessibleAction method is called on an AccessibleContext.
- AccessibleComponent - the object has a graphical representation. This interface provides the standard mechanism for an assistive technology to determine and set the graphical representation of the object. Any object that is rendered on the screen should return an object that implements this interface when the getAccessibleComponent method is called on an AccessibleContext.
- AccessibleSelection - the object allows its children to be selected. This interface provides the standard mechanism for an assistive technology to determine the currently selected children as well as modify the selection set. Any object that has children that can be selected should return an object that implements this interface when the getAccessibleSelection method is called on an AccessibleContext.
- AccessibleText - the object presents editable textual information on the display. This interface provides the standard mechanism for an assistive technology to access that text via its content, attributes, and spatial location. Any object that contains editable text should return an object that implements this interface when the getAccessibleText method is called on an AccessibleContext.
- AccessibleHypertext - the object presents hypertext information on the display. This interface provides the standard mechanism for an assistive technology to access that hypertext via its content, attributes, and spatial location. Any object that contains hypertext should return an object that implements this interface when the getAccessibleText method is called on an AccessibleContext.
- AccessibleValue - the object supports a numerical value. This interface provides the standard mechanism for an assistive technology to determine and set the current value of the object, as well as the minimum and maximum values. Any object that supports a numerical value should return an object that implements this interface when the getAccessibleValue method is called on an AccessibleContext.
This class encapsulates the Accessible object's role in the user interface and is obtained by calling the
getAccessibleRole method on an
AccessibleContext. Accessible roles include "Check box", "Menu Item", "Panel", etc. These roles are identified by the constants in this class such as
AccessibleRole.CHECK_BOX, AccessibleRole.MENU_ITEM, and
AccessibleRole.PANEL. The constants in this class present a strongly typed enumeration of common object roles. A public constructor for this class has been purposely omitted and applications should use one of the constants from this class. Although this class pre-defines a large list of standard roles, it is extensible so additional programmer-defined roles can be added in the future without needing to modify the base class.
This class encapsulates a particular state of the Accessible object. Accessible states include things like "Armed", "Busy", "Checked", "Focused", etc. These roles are identified by the constants in this class such as
AccessibleState.ARMED, AccessibleState.BUSY, AccessibleState.CHECKED, and
AccessibleState.FOCUSED. The sum of all the states of an Accessible object is called the
AccessibleStateSet, and can be obtained by calling the
getAccessibleStateSet method on an
AccessibleContext.
The constants in this class present a strongly typed enumeration of common object roles. A public constructor for this class has been purposely omitted and applications should use one of the constants from this class. Although this class pre-defines a large list of standard roles, it is extensible so additional, programmer-defined roles can be added in the future without needing to modify the base class.
This class encapsulates a collection of states of the Accessible object and is obtained by calling the
getAccessibleStateSet method on an
AccessibleContext. Since an object might have multiple states (e.g. it might be both "Checked" and "Focused"), this class is needed to encapsulate a collection of these states. Methods in the class provide for retrieving the individual
AccessibleStates on the state set.
This class is used to maintain a strongly typed enumeration. It is the super class of both the
AccessibleRole and
AccessibleState classes. Programmers normally do not interact with this class directly, but will instead use the
AccessibleRole and
AccessibleState classes.
The
AccessibleAction interface should be supported by any object that can perform one or more actions. This interface provides the standard mechanism for an assistive technology to determine what those actions are as well as tell the object to perform those actions. Any object that can be manipulated should support this interface.
Applications can determine if an object supports the AccessibleAction interface by first obtaining its AccessibleContext (see Accessible) and then calling the getAccessibleAction method of AccessibleContext. If the return value is not null, the object supports this interface.
The
AccessibleComponent interface should be supported by any object that is rendered on the screen. This interface provides the standard mechanism for an assistive technology to determine and set the graphical representation of an object.
Applications can determine if an object supports the AccessibleComponent interface by first obtaining its AccessibleContext (see Accessible) and then calling the getAccessibleComponent method of AccessibleContext. If the return value is not null, the object supports this interface.
The
AccessibleSelection interface provides the standard mechanism for an assistive technology to determine what the current selected children are, as well as modify the selection set. Any object that has children that can be selected should support this the AccessibleSelection interface.
Applications can determine if an object supports the AccessibleSelection interface by first obtaining its AccessibleContext (see Accessible) and then calling the getAccessibleSelection method of AccessibleContext. If the return value is not null, the object supports this interface.
Interface
AccessibleText is the contract for making rich, editable text Accessible. Not all text displayed on the screen is rich and editable (e.g. text contained in buttons, labels, menus, etc., which users aren't expected to manipulate). However, objects containing editable text must implement interface AccessibleText if they are to interoperate with assistive technologies.
This interface provides support for going between pixel coordinates and the text at a given pixel coordinate, for retrieving the letter, word, and sentence at, before, or after a given position in the text. This interface provides support for retrieving the attributes of the character at a given position in the text (font, font size, style, etc.), as well as getting the selected text (if any), the length of the text, and the location of the text caret.
Applications can determine if an object supports the AccessibleText interface by first obtaining its AccessibleContext (see Accessible) and then calling the getAccessibleText method of AccessibleContext. If the return value is not null, the object supports this interface.
The
AccessibleHypertext interface should be supported by any object that presents hypertext information on the display. This interface provides the standard mechanism for an assistive technology to access that text via its content, attributes, and spatial location. It also provides standard mechanisms for manipulating
hyperlinks. Applications can determine if an object supports the AccessibleHypertext interface by first obtaining its
AccessibleContext (see
Accessible) and then calling the AccessibleContext.getAccessibleText() method of
AccessibleContext. If the return value is a class which extends AccessibleHypertext, then that object supports AccessibleHypertext.
An object that is a hyperlink should support the
AccessibleHyperlink interface. An object that implements this interface will be returned by calling the getLink method on an
AccessibleHypertext object.
The
AccessibleValue interface should be supported by any object that supports a numerical value (e.g., a scroll bar). This interface provides the standard mechanism for an assistive technology to determine and set the numerical value as well as get the minimum and maximum values.
Applications can determine if an object supports the AccessibleValue interface by first obtaining its AccessibleContext (see Accessible) and then calling the getAccessibleValue method of AccessibleContext. If the return value is not null, the object supports this interface.