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     _________________________________________________________________
   
   W3C 
   
User Agent Accessibility Guidelines 1.0

W3C Working Draft 25 May 2001

   This version:
          http://www.w3.org/WAI/UA/WD-UAAG10-20010525/
          (Formats: single HTML, plain text, gzip PostScript, gzip PDF,
          gzip tar file of HTML, zip archive of HTML)
          
   Latest version:
          http://www.w3.org/WAI/UA/UAAG10/
          
   Previous version:
          http://www.w3.org/WAI/UA/WD-UAAG10-20010411/
          
   Editors:
          Ian Jacobs, W3C
          Jon Gunderson, University of Illinois at Urbana-Champaign
          Eric Hansen, Educational Testing Service
          
   Authors and Contributors:
          See acknowledgements.
          
   Copyright © 1999 - 2001 W3C^® (MIT, INRIA, Keio), All Rights Reserved.
   W3C liability, trademark, document use and software licensing rules
   apply.
     _________________________________________________________________
   
Abstract

   This document provides guidelines for designing user agents that lower
   barriers to Web accessibility for people with disabilities (visual,
   hearing, physical, and cognitive). User agents include HTML browsers
   and other types of software that retrieve and render Web content. A
   user agent that conforms to these guidelines will promote
   accessibility through its own user interface and through other
   internal facilities, including its ability to communicate with other
   technologies (especially assistive technologies). Furthermore, all
   users, not just users with disabilities, are expected to find
   conforming user agents to be more usable.
   
   In addition to helping developers of HTML browsers, media players,
   etc., this document will also benefit developers of assistive
   technologies because it explains what types of information and control
   an assistive technology may expect from a conforming user agent.
   Technologies not addressed directly by this document (e.g.,
   technologies for braille rendering) will be essential to ensuring Web
   access for some users with disabilities.
   
Status of this document

   This section describes the status of this document at the time of its
   publication. Other documents may supersede this document. The latest
   status of this document series is maintained at the W3C.
   
   This document incorporates resolutions of the User Agent Accessibility
   Guidelines Working Group to issues raised during the third last call
   of this document through the 23 May 2001 teleconference. The Working
   Group is still resolving last call issues as of the publication of
   this document.
   
   A list of changes to this document is available.
   
   Publication as a Working Draft does not imply endorsement by the W3C
   Membership. This is a draft document and may be updated, replaced or
   obsoleted by other documents at any time. It is inappropriate to cite
   W3C Working Drafts as other than "work in progress."
   
   This document is part of a series of accessibility documents published
   by the Web Accessibility Initiative (WAI) of the World Wide Web
   Consortium (W3C). WAI Accessibility Guidelines are produced as part of
   the WAI Technical Activity. The goals of the User Agent Accessibility
   Guidelines Working Group are described in the charter.
   
   A list of current W3C Recommendations and other technical documents
   can be found at the W3C Web site.
   
Table of contents

     * Abstract
     * Status of this document
     * 1. Introduction
          + 1.1 Relationship to WAI accessibility guidelines
          + 1.2 Target user agents
          + 1.3 Known limitations of this document
          + 1.4 Relationship to general software design guidelines
     * 2. The user agent accessibility guidelines
          + 1. Support input and output device-independence.
          + 2. Ensure user access to all content.
          + 3. Allow configuration not to render some content that may
            reduce accessibility.
          + 4. Ensure user control of rendering.
          + 5. Ensure user control of user interface behavior.
          + 6. Implement standard application programming interfaces.
          + 7. Observe operating environment conventions.
          + 8. Implement specifications that benefit accessibility.
          + 9. Provide navigation mechanisms.
          + 10. Orient the user.
          + 11. Allow configuration and customization.
          + 12. Provide accessible user agent documentation and help.
     * 3. Conformance
          + 3.1 Conformance model
          + 3.2 Conformance levels
          + 3.3 Content type labels
          + 3.4 Input modality labels
          + 3.5 Selection label
          + 3.6 Checkpoint applicability
          + 3.7 Well-formed conformance claims
          + 3.8 Validity of a claim
          + 3.9 Additional conformance topics
     * 4. Glossary
     * 5. References
          + 5.1 How to refer to this document
          + 5.2 Normative references
          + 5.3 Informative references
     * 6. Acknowledgments
       
   An appendix to this document [UAAG10-SUMMARY] summarizes the
   document's principal goals and structure.
   
   Another appendix to this document [UAAG10-CHECKLIST] lists all
   checkpoints for convenient reference (e.g., as a tool for developers
   to evaluate software for conformance).
   
   Note: With a user agent that implements HTML 4 [HTML4] access keys,
   readers may navigate directly to the table of contents via the "c"
   character. Users may have to use additional keyboard strokes depending
   on their operating environment.
   
Related resources

   A separate document, entitled "Techniques for User Agent Accessibility
   Guidelines 1.0" [UAAG10-TECHS], provides suggestions and examples of
   how each checkpoint might be satisfied. It also includes references to
   other accessibility resources (such as platform-specific software
   accessibility guidelines) that provide additional information on how a
   user agent may satisfy each checkpoint. The techniques provided in
   "Techniques for User Agent Accessibility Guidelines 1.0" are
   informative examples only, and other strategies may be used or
   required to satisfy the checkpoints. The Techniques document is
   expected to be updated more frequently than the current guidelines.
   
   The Web Accessibility Initiative provides other resources and
   educational materials to promote Web accessibility. Resources include
   information about accessibility policies, links to translations of WAI
   materials into languages other than English, information about
   specialized user agents and other tools, accessibility training
   resources, and more.
     _________________________________________________________________
   
1. Introduction

   This document specifies requirements that, if satisfied by user agent
   developers, will lower barriers to accessibility. This introduction
   (section 1) provides context for understanding the guidelines listed
   in section 2. Section 1 explains the relationship of this document to
   other accessibility guidelines published by the Web Accessibility
   Initiative, which user agents are expected to conform, known
   limitations of this document, and the relationship of this document to
   other software design guidelines. Section 3 explains how to make
   claims that software conforms to these guidelines and details about
   the applicability of the requirements for different kinds of user
   agents.
   
  1.1 Relationship to WAI accessibility guidelines
  
   "User Agent Accessibility Guidelines 1.0" (UAAG 1.0) is part of a
   series of accessibility guidelines published by the Web Accessibility
   Initiative (WAI). The documents in this series reflect an
   accessibility model in which Web content authors, format designers,
   and software developers have roles in ensuring that users with
   disabilities have access to the Web. These agents intersect and
   complement each other as follows:
     * Protocol (e.g., HTTP) and content format (e.g., HTML, XML, SVG,
       etc.) specifications allow communication on the Web. These
       specifications includes features that authors should use to create
       accessible content, and features that user agents should support
       through an accessible user interface.
     * Authors make use of the accessibility features of different format
       specifications, use markup appropriately, write in clear and
       simple language, organize a Web site consistently, etc. The "Web
       Content Accessibility Guidelines 1.0" [WCAG10] explains the
       responsibilities of authors in meeting the needs of users with
       disabilities. In User Agent Accessibility Guidelines 1.0, WCAG 1.0
       is considered the reference for what defines accessible Web
       content. The "Authoring Tool Accessibility Guidelines 1.0"
       [ATAG10] explains the responsibilities of authoring tool
       developers. An accessible authoring tool facilitates the creation
       of accessible Web content and may be operated by users with
       disabilities.
     * User agent developers design software that conforms to
       specifications (including implementation of their accessibility
       features), provides an accessible user interface, accessible
       documentation, and communicates with other software (notably
       assistive technologies).
       
   This document explains the responsibilities of user agents in meeting
   the needs of users with disabilities. The requirements of this
   document interact with those of the "Web Content Accessibility
   Guidelines 1.0" [WCAG10] in a number of ways:
     * UAAG 1.0 checkpoint 8.1 requires implementation of the
       accessibility features of all implemented specifications. Features
       are those identified as such and those that satisfy all of the
       requirements of WCAG 1.0 [WCAG10].
     * UAAG 1.0 checkpoint 12.1 requires conformance to WCAG 1.0 for user
       agent documentation.
     * UAAG 1.0 also incorporates some terms and concepts from WCAG 1.0,
       a natural consequence of fact that the documents were designed to
       complement one another.
       
   Formats, authors, and designers all have limitations. Formats
   generally do not enable authors to encode all of their knowledge in a
   way that a user agent can recognize 100%. A format may lack features
   required for accessibility. An author may not make use of the
   accessibility features of a format or may misuse a format (which can
   cause problems for user agents). A user agent designer may not
   implement a format specification correctly or completely. Some
   requirements of this document take these limitations into account.
     * UAAG 1.0 includes requirements to satisfy the expectations set by
       WCAG 1.0 "until user agent" clauses. These clauses make additional
       requirements of authors in order to compensate for some
       limitations of deployed user agents.
     * UAAG 1.0 includes several repair requirements (e.g., checkpoints
       checkpoint 2.7 and checkpoint 2.10) for cases where content does
       not conform to WCAG 1.0. Furthermore, this document includes some
       requirements to address certain widespread authoring practices
       that are discouraged because they may cause accessibility or
       usability problems (e.g., some uses of HTML frames).
     * Except for the indicated repair checkpoints, UAAG 1.0 only
       requires user agents to handle what may be recognized through
       protocols and formats. For example, user agents are not expected
       to recognize that the author has used "clear and simple" language
       to express ideas. Please see the section on checkpoint
       applicability for more information about what the user agent is
       expected to recognize.
       
  1.2 Target user agents
  
   This document was designed specifically to improve the accessibility
   of user agents with multimedia capabilities running in the following
   type of environment (typically that of a desktop computer):
     * The operating environment includes a keyboard;
     * Assistive technologies may be used in the operating environment
       and may communicate with the conforming user agent;
       
   This document is not designed so that user agents on other types of
   platforms (e.g., handheld devices, kiosks, etc.) will readily conform.
   This document does not forbid conformance by any user agent, but some
   requirements (e.g., implementation of certain APIs) are not likely to
   be satisfied on environments other than the target environment. Future
   work by the UAWG may address the accessibility of user agents running
   on handheld devices, etc.
   
   The target user agent is one designed for the general public to handle
   general-purpose content in ordinary operating conditions. It is
   expected that a conforming user agent will typically consist of a Web
   browser, one or more media players, and possibly other components.
   
   This document was designed to improve the accessibility of target user
   agents for users with one or more disabilities (including visual,
   hearing, physical, and cognitive) in two ways:
    1. through its own user interface, and
    2. through other internal facilities, including its ability to
       communicate with other technologies (especially assistive
       technologies).
       
   Technologies not addressed directly by this document (e.g., those for
   braille rendering) will be essential to ensuring Web access for some
   users with disabilities. Note that the ability of conforming user
   agents to communicate well with assistive technologies will depend in
   part on the willingness of assistive technology developers to follow
   the same standards and conventions for communication.
   
   This document allows a certain amount of flexibility in the features a
   user agent must support in order to conform. For example, some user
   agents may conform even though they do not support certain content
   types (such as video or audio) or input modalities (such as mouse or
   voice). See the section on conformance for more information.
   
  1.3 Known limitations of this document
  
   People with (or without) disabilities access the Web with widely
   varying sets of capabilities, software, and hardware. Some users with
   disabilities:
     * May not be able to see, hear, move, speak, or may not be able to
       process some types of information easily or at all.
     * May have difficulty reading or comprehending text.
     * May not have or be able to use a keyboard or pointing device.
       
   This document does not include requirements to meet all known
   accessibility needs. Some known limitations of this document include
   the following:
     * Braille. This document does not address braille rendering.
     * Synthesized speech. This document includes few checkpoints related
       to synthesized speech output (in guideline 5).
     * Size and color of non-text content. This document includes some
       checkpoints to ensure that the user is able to control the size
       and color of visually rendered text content (checkpoints 4.1 and
       4.3). This document does not in general address control of the
       size and color of visually rendered non-text content. Note:
       Resizing capabilities may be required for conformance to other
       specifications (e.g., SVG [SVG]).
     * Background image interference. The requirement of checkpoint 3.1
       to allow the user to turn off rendering of background images does
       not extend to multi-layered rendering.
     * Input modalities. This document only includes requirements for
       keyboard, pointing device, and voice input modalities. This
       document includes several checkpoints related to voice input as
       part of general input requirements (e.g., the checkpoints of
       guideline 7 and guideline 11)) but does not otherwise address
       voice-based navigation or control. Note: The UAWG intends to
       coordinate further work on the topics of voice input and
       synthesized speech output with groups in W3C's Voice Browser
       Activity.
     * User control of every user interface component. This document
       includes some requirements for user control of user interface
       components that may be changed through content (see guideline 5).
       However, these requirements do not account for every user
       interface component that the author may affect (e.g., the author
       might supply a script that causes text to scroll in the status
       bar). User agents are required to follow software usability
       guidelines (see checkpoint 7.3), which are also expected to
       include requirements for user control over user interface
       behavior. Note. It is more difficult for users to distinguish
       content from user interface when both are rendered as sound in one
       dimension, than it is when both are rendered visually in two
       dimensions. Developers of aural user agents are therefore strongly
       encouraged to apply the requirements of this document to both
       content and user agent components.
     * Time. This document includes requirements for control of some time
       parameters (including checkpoint 2.4, checkpoint 4.4, checkpoint
       4.5, and checkpoint 4.12). The requirements are for time
       parameters that the user agent recognizes and controls. This
       document does not include requirements for control of time
       parameters managed on the server.
     * Security. This document does not address security issues that may
       arise as a result of these requirements. For instance,
       requirements that software be able to read and write content and
       user interface information through APIs raise security issues. See
       the section on restricted functionality and conformance.
     * Intellectual property. This document does not address intellectual
       property issues that may arise as a result of these requirements.
       
  1.4 Relationship to general software design guidelines
  
   Considerable effort has been made to ensure that the requirements of
   this document are compatible with other good software design
   practices. However, this document does not purport to be a complete
   guide to good software design. For instance, the general topic of user
   interface design for computer software exceeds the scope of this
   document, though some user interface requirements have been included
   because of their importance to accessibility. The "Techniques for User
   Agent Accessibility Guidelines 1.0" [UAAG10-TECHS] includes some
   references to general software design guidelines and platform-specific
   accessibility guidelines (see checkpoint 7.3). Involving people with
   disabilities in the design and testing of software will generally
   improve the accessibility of the software.
   
   Installation is an important aspect of both accessibility and general
   software usability. On platforms where a user can install a user
   agent, the installation (and update) procedures need to be accessible.
   This document does not include a checkpoint requiring that
   installation procedures be accessible. Since this document considers
   installation to be part of software usage, the different aspects of
   installation (user interface, documentation, operating environment
   conventions, etc.) are already covered by the complete set of
   checkpoints.
   
    Benefits of accessible user agent design
    
   Many users without disabilities are likely to benefit from the
   requirements developed to benefit users with disabilities. For
   example, users without disabilities:
     * may have a text-only screen, a small screen, or a slow Internet
       connection (e.g., via a mobile phone browser). These users are
       likely to benefit from the same features that provide access to
       people with low vision or blindness.
     * may be in a situation where their eyes, ears, or hands are busy or
       interfered with (e.g., driving to work, working in a noisy
       environment, etc.). These users are likely to benefit from the
       same features that provide access to people who cannot use a mouse
       or keyboard due to a visual, hearing, or physical disability.
     * may not understand fluently the natural language of spoken
       content. These users are likely to benefit from the same visual
       rendering of text equivalents that make spoken language accessible
       to people with a hearing disability.
       
   Software that satisfies the requirements of this document is expected
   to be more flexible, manageable, extensible, and beneficial to all
   users. For example, a user agent architecture that allows programmatic
   access to content and the user interface will encourage software
   modularity and reuse, and will enable operation by scripting tools and
   automated test engines in addition to assistive technologies.
   
2. The user agent accessibility guidelines

   The twelve guidelines in this document state general principles for
   the development of accessible user agents. Each guideline includes:
     * The guideline number.
     * The statement of the guideline.
     * The rationale behind the guideline and identification of some
       groups of users who benefit from it.
     * A list of checkpoint definitions. This list may be split into
       groups of related checkpoints. For instance, the list might be
       split into one group of "checkpoints for visually rendered text"
       and second group of "checkpoints for audio volume control"."
       Within each group, checkpoints are ordered according to their
       priority, e.g., Priority 1 before Priority 2. Within a guideline,
       checkpoint groupings and checkpoint order have no bearing on
       conformance.
       
   Each checkpoint definition includes:
     * The checkpoint number.
     * An informative summary of the salient requirement of the
       checkpoint. Note: This summary is not itself a requirement, just a
       phrase to help readers remember an important requirement made by
       the checkpoint statement.
     * The statement of the checkpoint. The statement of the checkpoint
       is one or more requirements that must be satisfied by the user
       agent (i.e., the "subject of the claim) for the purposes of
       conformance. The "user agent" may consist of more than one
       software component, as explained in the section on well-formed
       conformance claims.
     * The priority of the checkpoint.
     * A "content or user agent or both" label indicating whether the
       requirements of the checkpoint must be satisfied by the subject of
       the claim for content only, for user agent features only, or for
       both.
     * Content type labels (zero or more). Content type labels are
       explained in the section on conformance.
     * Informative notes about the checkpoint (beginning with the word
       "Note"). These notes do not state requirements that must be
       satisfied as part of conformance; they are informative only. They
       are meant to clarify the scope of the checkpoint through further
       description, examples, cross references, and commentary. Note:
       Some checkpoints in this document are more general than others,
       and some may overlap in scope. Therefore, a checkpoint may be
       identified as a "special case" or an "important special case" of
       one or more other checkpoints.
     * A link to informative rationale, implementation details,
       references, and more information in "Techniques for User Agent
       Accessibility Guidelines 1.0" [UAAG10-TECHS].
       
   Each checkpoint is intended to express one or more minimal
   requirements clearly, so that someone evaluating a user agent may
   verify that it satisfies the requirements. User agent developers are
   encouraged surpass the minimal requirements expressed by the
   checkpoints. Indeed, for some requirements, it is expected that
   developers will find it easier or less costly to implement a solution
   that is more general than one that would only satisfy the minimal
   requirements of a checkpoint. Both this document and "Techniques for
   User Agent Accessibility Guidelines 1.0" [UAAG10-TECHS] suggest
   techniques to help user agent developers meet or surpass the minimal
   requirements. Note: In some cases, though the requirement of a
   checkpoint may be clear, without documentation from vendors (e.g.,
   about implemented APIs), it may be difficult to verify that the
   subject of a conformance claim has satisfied the requirement. Some
   checkpoints (e.g., those requiring developers to follow conventions or
   implement specifications defined outside this document) are inherently
   more subject to interpretation than others.
   
   Note: The requirements of certain checkpoints in this document bear
   upon the requirements of others. For instance, the keyboard
   requirements of checkpoint 1.1 influence the input device requirements
   of the other checkpoints. As a result, these other checkpoints need
   only state "Allow configuration" instead of "Allow configuration
   through the keyboard." Because the document "factors out" requirements
   in this manner, first-time readers are encouraged to read the context
   provided for each checkpoint, including the guideline prose, the
   surrounding checkpoints (since nearby checkpoints are often related),
   notes after checkpoints, and associated techniques (in the Techniques
   document [UAAG10-TECHS]). The checklist [UAAG10-CHECKLIST] is also a
   useful tool (e.g., for evaluating a user agent for conformance), but
   does not provide the same contextual support.
   
  Priorities
  
   Each checkpoint in this document is assigned a priority that indicates
   its importance for users with disabilities.
   
   [Priority 1]
          This checkpoint must be satisfied by user agents, otherwise one
          or more groups of users with disabilities will find it
          impossible to access the Web. Satisfying this checkpoint is a
          basic requirement for enabling some people to access the Web.
          
   [Priority 2]
          This checkpoint should be satisfied by user agents, otherwise
          one or more groups of users with disabilities will find it
          difficult to access the Web. Satisfying this checkpoint will
          remove significant barriers to Web access for some people.
          
   [Priority 3]
          This checkpoint may be satisfied by user agents to make it
          easier for one or more groups of users with disabilities to
          access information. Satisfying this checkpoint will improve
          access to the Web for some people.
          
Guideline 1. Support input and output device-independence.

    Ensure that the user can interact with the user agent (and the content it
    renders) through different input and output devices.
    
   Since people use a variety of devices for input and output, user agent
   developers need to ensure redundancy in the user interface. The user
   may have to operate the user interface with a variety of input devices
   (keyboard, pointing device, speech input, etc.) and output devices
   (graphical display, speech output, braille display, etc.).
   
   Though it may seem contradictory, enabling full user agent operation
   through the keyboard is an important part of promoting
   device-independence given today's user agents. In addition to the fact
   that some form of keyboard is supported by most platforms, there are
   several reasons for this:
     * For some users (e.g., users with blindness or physical
       disabilities), operating a user agent with a pointing device may
       be difficult or impossible since it requires tracking the pointing
       device position in a two-dimensional visual space. Keyboard
       operation does not generally require as much movement "through
       space".
     * Some assistive technologies that support a diversity of input and
       output mechanisms use keyboard APIs for communication with some
       user agents; see checkpoint 6.6. People who cannot or do not use a
       pointing device may interact with the user interface with the
       keyboard, through voice input, a head wand, touch screen, or other
       device.
       
   While this document only requires keyboard operation for conformance,
   it promotes device-independence by also allowing people to claim
   conformance for full pointing device support or full voice support.
   
   As a way to promote output device independence, this guideline
   requires support for text messages in the user interface because text
   may be rendered visually, as synthesized speech, and as braille.
   
   The API requirements of guideline 6 also promote device independence
   by ensuring communication with specialized software.
   
    Checkpoints
    
   1.1 Full keyboard access. Ensure that the user can operate the user
          agent fully through keyboard input alone. [Priority 1] Both
          content and user agent.
          Note: For example, ensure that the user can interact with
          enabled elements, select content, navigate viewports, configure
          the user agent, access documentation, install the user agent,
          operate controls of the user interface, etc., all entirely
          through keyboard input. It is also possible to claim
          conformance to this document for full support through pointing
          device input and voice input. See the section on input modality
          labels.
          Techniques for checkpoint 1.1
          
   1.2 Activate event handlers. For the element with content focus, allow
          the user to activate any explicitly associated input device
          event handlers through keyboard input alone. The user agent is
          not required to allow activation of event handlers associated
          with a given device (e.g., the pointing device) in any order
          other than what the device itself allows. [Priority 1] Content
          only.
          Note: The requirements for this checkpoint refer to any
          explicitly associated input device event handlers associated
          with an element, independent of the input modalities for which
          the user agent conforms. For example, suppose that an element
          has an explicitly associated handler for pointing device
          events. Even when the user agent only conforms for keyboard
          input (and does not conform for the pointing device, for
          example), this checkpoint requires the user agent to allow the
          user to activate that handler with the keyboard. This
          checkpoint is an important special case of checkpoint 1.1.
          Please refer to the checkpoints of guideline 9 for more
          information about focus requirements.
          Techniques for checkpoint 1.2
          
   1.3 Provide text messages. Ensure that every message (e.g., prompt,
          alert, notification, etc.) that is a non-text element and is
          part of the user agent user interface has a text equivalent.
          [Priority 1] User agent only.
          Note: For example, if the user is alerted of an event by an
          audio cue, a visually-rendered text equivalent in the status
          bar would satisfy this checkpoint. Per checkpoint 6.4, a text
          equivalent for each such message must be available through an
          API. See also checkpoint 6.5 for requirements for programmatic
          alert of changes to the user interface.
          Techniques for checkpoint 1.3
          
   [next guideline 2] [review guideline 1] [contents]
   
Guideline 2. Ensure user access to all content.

    Ensure that users have access to all content, notably conditional content
    that may have been provided to meet the requirements of the Web Content
    Accessibility Guidelines 1.0 [WCAG10].
    
   The checkpoints in this section require the user agent to provide
   access to all content through a series of complementary mechanisms
   designed so that if one fails, another will provide some access. The
   following preferences are embodied in the checkpoints:
     * Not all content is rendered at all times. Automatic decision by
       the user agent about when and where to render conditional content
       is preferred, but manual choice by the user may be necessary for
       access.
     * Structure is preferred (both the author's specified preferences
       and the user's structured access), but unstructured access may be
       necessary for access to all content.
     * Rendering according to specification is preferred, but a source
       view of text content may be necessary for access (e.g., because of
       user-side error conditions, authoring errors, inadequate
       specification, or incorrect user agent implementation). For
       example, the user may have to look at URIs for information, HTML
       comments, XML element names, or script data. The user agent should
       respect authoring synchronization cues for content that changes
       over time, but also needs to allow the user to control the time
       intervals when user input is possible.
     * Local control of rendering is important; global configuration of
       rendering preferences is convenient for access.
       
   Authors may use the conditional content mechanisms of a specification
   to satisfy the requirements of the Web Content Accessibility
   Guidelines 1.0 [WCAG10]. Ensuring access to conditional content
   benefits all users since some users may not have access to some
   content due to a technological limitation (e.g., their mobile browser
   cannot display graphics) or simply a configuration preference (e.g.,
   they have a slow Internet connection and prefer not to download movies
   or images).
   
    Checkpoints
    
   2.1 Render by specification. Render content according to
          specification. When a rendering requirement of another
          specification explicitly contradicts a requirement of the
          current document, the user agent may disregard the rendering
          requirement of the other specification and still satisfy this
          checkpoint. [Priority 1] Content only.
          Note: Rendering requirements include format-defined
          interactions between author preferences and user
          preferences/capabilities (e.g., when to render the "alt"
          attribute in HTML [HTML4], the rendering order of nested OBJECT
          elements in HTML, test attributes in SMIL [SMIL], and the
          cascade in CSS2 [CSS2]). If a conforming user agent does not
          render a content type, it should allow the user to choose a way
          to handle that content (e.g., by launching another application,
          by saving it to disk, etc.). This checkpoint does not require
          that all content be available through each viewport. The user
          agent is not required to satisfy this checkpoint for all
          implemented specifications; see the section on conformance and
          implementing specifications for more information.
          Techniques for checkpoint 2.1
          
   2.2 Provide text view. For text formats, provide a view of the text
          source. For the purposes of this document, text formats are
          defined to be: (1) all media objects given an Internet media
          type of "text" (e.g., text/plain, text/HTML, or text/*), and
          (2) all SGML and XML applications, regardless of Internet media
          type (e.g., HTML 4.01, XHTML 1.1, SMIL, SVG, etc.).
          [Priority 1] Content only.
          Note: Refer to [RFC2046], section 4.1 for information about the
          "text" Internet media type. A user agent would also satisfy
          this checkpoint by providing a source view for any text format,
          not just implemented text formats. The user agent is not
          required to satisfy this checkpoint for all implemented
          specifications; see the section on conformance and implementing
          specifications for more information.
          Techniques for checkpoint 2.2
          
   2.3 Render conditional content. Allow global configuration to provide
          access to each piece of unrendered conditional content "C".
          Where specifications do not explain how to provide this access,
          do so as follows: If C is a summary, title, alternative,
          description, or expansion of another piece of content D,
          provide access through at least one of the following
          mechanisms: (1a) render C in place of D; (2a) render C in
          addition to D; (3a) provide access to C by querying D. In this
          case, the user agent must also alert the user, on a per-element
          basis, to the existence of "C" (so that the user knows to query
          D); (4a) allow the user to follow a link to C from the context
          of D. Otherwise, provide access to C through at least one of
          the following mechanisms: (1b) render a placeholder for C; (2b)
          provide access to C by query (e.g., allow the user to query an
          element for its attributes). In this case, the user agent must
          also alert the user, on a per-element basis, to the existence
          of "C"; (3b) allow the user to follow a link in context to C.
          [Priority 1] Content only.
          Note: The configuration requirement of this checkpoint is
          global; the user agent is only required to provide one switch
          that turns on or off these alert and access mechanisms. To
          satisfy this checkpoint, the user agent may provide access on
          an per-element basis (e.g., by allowing the user to query
          individual elements) or for all elements (e.g., by offering a
          configuration to render conditional content all the time). For
          instance, an HTML user agent might allow users to query each
          element for access to conditional content supplied for the
          "alt", "title", and "longdesc" attributes. Or, the user agent
          might allow configuration so that the value of the "alt"
          attribute is rendered in place of all IMG elements (while other
          conditional content might be made available through another
          mechanism).
          Techniques for checkpoint 2.3
          
   2.4 Allow time-independent interaction. For content where user input
          is only possible within a finite time interval controlled by
          the user agent, allow configuration to make the time interval
          "infinite". Do this by pausing automatically at the end of each
          time interval where user input is possible, and resuming
          automatically after the user has explicitly completed input. In
          this configuration, alert the user when the session has been
          paused and which enabled elements are time-sensitive. When the
          user pauses a real-time presentation, the user agent may
          discard packets that continue to arrive during the pause.
          [Priority 1] Content only.
          Note: In this configuration, the user agent may have to pause
          the presentation more than once if there is more than one
          opportunity for time-sensitive input. Per checkpoint 2.6, when
          the user pauses one piece of a synchronized presentation, the
          user agent should pause all of the pieces (whether they are
          rendered in the same or different viewports). In SMIL 1.0
          [SMIL], for example, the "begin", "end", and "dur" attributes
          synchronize presentation components. The user may explicitly
          complete input in many different ways (e.g., by following a
          link that replaces the current time-sensitive resource with a
          different resource). This checkpoint does not apply when the
          user agent cannot recognize the time interval in the
          presentation format, or when the user agent cannot control the
          timing (e.g., because it is controlled by the server).
          Techniques for checkpoint 2.4
          
   2.5 Make captions, transcripts available. Allow configuration or
          control so that text transcripts, collated text transcripts,
          captions, and auditory descriptions are rendered at the same
          time as the associated audio tracks and visual tracks.
          [Priority 1] Content only.
          Content type labels: Video, Audio.
          Note: This checkpoint is an important special case of
          checkpoint 2.1.
          Techniques for checkpoint 2.5
          
   2.6 Respect synchronization cues. Respect synchronization cues during
          rendering. [Priority 1] Content only.
          Content type labels: Video, Audio.
          Note: This checkpoint is an important special case of
          checkpoint 2.1.
          Techniques for checkpoint 2.6
          
   2.7 Repair missing content. Allow configuration to generate repair
          text when the user agent recognizes that the author has failed
          to provide conditional content that was required by the format
          specification. The user agent may satisfy this checkpoint by
          basing the repair text on any of the following available
          sources of information: URI reference, content type, or element
          type. [Priority 2] Content only.
          Note: Some markup languages (such as HTML 4 [HTML4] and SMIL
          1.0 [SMIL] require the author to provide conditional content
          for some elements (e.g., the "alt" attribute on the IMG
          element). Repair text based on URI reference, content type, or
          element type is sufficient to satisfy the checkpoint, but may
          not result in the most effective repair. Information that may
          be recognized as relevant to repair might not be "near" the
          missing conditional content in the document object. For
          instance, instead of generating repair text on a simple URI
          reference, the user agent might look for helpful information
          near a different instance of the URI reference in the same
          document object, or might retrieve useful information (e.g., a
          title) from the resource designed by the URI reference.
          Techniques for checkpoint 2.7
          
   2.8 No repair text. Allow configuration so that when the user agent
          recognizes that conditional content required by the format
          specification is present but empty (e.g., the empty string),
          the user agent either (1) generates no repair text, or (2)
          generates repair text as described in checkpoint 2.7.
          [Priority 3] Content only.
          Note: In some authoring scenarios, an empty string of text
          (e.g., "alt=''") may be considered to be an appropriate text
          equivalent (for instance, when some non-text content has no
          other function than pure decoration, or an image is part of a
          "mosaic" of several images and doesn't make sense out of the
          mosaic). Please refer to the Web Content Accessibility
          Guidelines 1.0 [WCAG10] for more information about text
          equivalents.
          Techniques for checkpoint 2.8
          
   2.9 Render conditional content automatically. Allow configuration to
          render all conditional content automatically. The user agent is
          not required to render all conditional content at the same time
          in a single viewport. Provide access to this content according
          to format specifications or where unspecified, by applying one
          of the following techniques described in checkpoint 2.3: 1a,
          2a, or 1b. [Priority 3] Content only.
          Note: The user agent satisfies this checkpoint if it satisfies
          checkpoint 2.3 by applying techniques 1a, 2a, or 1b. For
          instance, an HTML user agent might allow configuration so that
          the value of the "alt" attribute is rendered in place of all
          IMG elements (while other conditional content might be made
          available through another mechanism). The user agent may offer
          multiple configurations (e.g., a first configuration to render
          one type of conditional content automatically, a second to
          render another type, etc.).
          Techniques for checkpoint 2.9
          
   2.10 Alert unsupported language. Allow configuration not to render
          content in unsupported natural languages (including scripts,
          i.e., writing systems). Indicate to the user in context that
          author-supplied content has not been rendered. [Priority 3]
          Content only.
          Note: For example, use a text substitute or accessible
          graphical icon to indicate that content in a particular
          language has not been rendered. This checkpoint does not
          require the user agent to allow different configurations for
          different natural languages.
          Techniques for checkpoint 2.10
          
   [next guideline 3] [review guideline 2] [previous guideline 1]
   [contents]
   
Guideline 3. Allow configuration not to render some content that may reduce
accessibility.

    Ensure that the user may turn off rendering of content (audio, video,
    scripts, etc.) that may reduce accessibility by obscuring other content or
    disorienting the user.
    
   Some content or behavior specified by the author may make the user
   agent unusable or may obscure information. For instance, flashing
   content may trigger seizures in people with photosensitive epilepsy,
   or may make a Web page too distracting to be usable by someone with a
   cognitive disability. Blinking text can affect screen reader users,
   since screen readers (in conjunction with speech synthesizers or
   braille displays) may re-render the text every time it blinks.
   Distracting background images, colors, or sounds may make it
   impossible for users to see or hear other content. Dynamically
   changing Web content may cause problems for some assistive
   technologies. Scripts that cause unanticipated changes (viewports that
   open, automatically redirected or refreshed pages, etc.) may disorient
   some users with cognitive disabilities.
   
   This guideline requires the user agent to allow configuration so that,
   when loading Web resources, the user agent does not render content in
   a manner that may pose accessibility problems. Requirements for
   interactive control of rendered content are part of guideline 4.
   
    Checkpoints
    
   3.1 Toggle background images. Allow configuration not to render
          background images. In this configuration, provide an option to
          alert the user when a background image is available (but has
          not been rendered). [Priority 1] Content only.
          Content type labels: Image.
          Note: This checkpoint only requires control of background
          images for "two-layered renderings", i.e., one rendered
          background image with all other content rendered "above it".
          When background images are not rendered, user agents should
          render a solid background color instead (see checkpoint 4.3).
          In this configuration, the user agent is not required to
          retrieve background images from the Web.
          Techniques for checkpoint 3.1
          
   3.2 Toggle audio, video, animated images. Allow configuration not to
          render audio, video, or animated images except on explicit
          request from the user. In this configuration, provide an option
          to render a placeholder in context for each unrendered source
          of audio, video, or animated image. When placeholders are
          rendered, allow the user to view the original author-supplied
          content associated with each placeholder. [Priority 1] Content
          only.
          Content type labels: Animation, Video, Audio.
          Note: This checkpoint requires configuration for content
          rendered without any user interaction (including content
          rendered on load or as the result of a script), as well as
          content rendered as the result of user interaction that is not
          an explicit request (e.g., when the user activates a link).
          When configured not to render content except on explicit user
          request, the user agent is not required to retrieve the audio,
          video, or animated image from the Web until requested by the
          user. See also checkpoint 3.8, checkpoint 4.5, checkpoint 4.9,
          and checkpoint 4.10.
          Techniques for checkpoint 3.2
          
   3.3 Toggle animated/blinking text. Allow configuration to render
          animated or blinking text as motionless, unblinking text.
          [Priority 1] Content only.
          Content type labels: VisualText.
          Note: Animation (a rendering effect) is different from
          streaming (a delivery mechanism). Streaming content may be
          rendered as an animation (e.g., an animated stock ticker) or as
          static text (e.g., movie subtitles, which are rendered for a
          limited time, but do not give the impression of movement). See
          also checkpoint 3.5. apply for blinking and animation effects
          that are caused by mechanisms that the user agent cannot
          recognize.
          Techniques for checkpoint 3.3
          
   3.4 Toggle scripts. Allow configuration not to execute any executable
          content (e.g., scripts and applets). In this configuration,
          provide an option to alert the user when executable content is
          available (but has not been executed). [Priority 1] Content
          only.
          Note: This checkpoint does not refer to plug-ins and other
          programs that are not part of content. Scripts and applets may
          provide very useful functionality, not all of which causes
          accessibility problems. Developers should not consider that the
          user's ability to turn off scripts is an effective way to
          improve content accessibility; turning off scripts means losing
          the benefits they offer. Instead, developers should provide
          users with finer control over user agent or content behavior
          known to raise accessibility barriers. The user should only
          have to turn off scripts as a last resort.
          Techniques for checkpoint 3.4
          
   3.5 Toggle content refresh. Allow configuration so that client-side
          content refreshes (i.e., those initiated by the user agent, not
          the server) do not change content except on explicit user
          request. Allow the user to request the new content on demand
          (e.g., by following a link or confirming a prompt). Alert the
          user, according to the schedule specified by the author,
          whenever fresh content is available (to be obtained on explicit
          user request). Prior to an explicit request for new content,
          the user agent may ignore content that is available but not
          retrieved (i.e., buffering is not required). [Priority 1]
          Content only.
          Techniques for checkpoint 3.5
          
   3.6 Toggle redirects. Allow configuration so that a "client-side
          redirect" (i.e., one initiated by the user agent, not the
          server) does not change content except on explicit user
          request. Allow the user to access the new content on demand
          (e.g., by following a link or confirming a prompt). The user
          agent is not required to provide these functionalities for
          client-side redirects that occur instantaneously (i.e., when
          there is no delay before the new content is retrieved).
          [Priority 2] Content only.
          Techniques for checkpoint 3.6
          
   3.7 Toggle images. Allow configuration not to render images. In this
          configuration, provide an option to render a placeholder in
          context for each unrendered image. When placeholders are
          rendered, allow the user to view the original author-supplied
          content associated with each placeholder. [Priority 2] Content
          only.
          Content type labels: Image.
          Note: See also checkpoint 3.8.
          Techniques for checkpoint 3.7
          
   3.8 Toggle placeholders. Once the user has viewed the original
          author-supplied content associated with a placeholder, allow
          the user to turn off the rendering of the author-supplied
          content. [Priority 3] Content only.
          Content type labels: Animation, Video, Image, Audio.
          Note: For example, if the user agent substitutes the
          author-supplied content for the placeholder in context, allow
          the user to "toggle" between placeholder and the associated
          content. Or, if the user agent renders the author-supplied
          content in a separate viewport, allow the user to close that
          viewport. See checkpoint 3.2 and checkpoint 3.7.
          Techniques for checkpoint 3.8
          
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   [contents]
   
Guideline 4. Ensure user control of rendering.

    Ensure that the user can select preferred styles (colors, size of rendered
    text, synthesized speech characteristics, etc.) from choices offered by the
    user agent. Allow the user to override author-specified styles and user
    agent default styles.
    
   Providing access to content (see guideline 2) includes enabling users
   to configure and control its rendering. Users with low vision may
   require that text be rendered at a size larger than the size specified
   by the author or by the user agent's default rendering. Users with
   color blindness may need to impose or prevent certain color
   combinations.
   
   For dynamic presentations such as synchronized multimedia
   presentations created with SMIL 1.0 [SMIL], users with cognitive,
   hearing, visual, and physical disabilities may not be able to interact
   with a presentation within the time frame assumed by the author. To
   make the presentation accessible to these users, user agents rendering
   multimedia content (audio, video, and other animations), have to allow
   the user to control the playback rate of this content, and also to
   stop, start, pause, reverse, and advance it manually. User agents
   rendering audio have to allow the user to control the audio volume
   globally and to allow the user to control independently
   distinguishable audio tracks.
   
   User agents with speech synthesis capabilities need to allow users to
   control various speech output parameters. For instance, users who are
   blind and hard of hearing may not be able to make use of high or low
   frequencies; these users have to be able to configure their speech
   synthesizers to use suitable frequencies.
   
    Checkpoints for visually rendered text
    
   4.1 Configure text size. Allow global configuration and control over
          the reference size of visually rendered text, with an option to
          override reference sizes specified by the author or user agent
          defaults. Allow the user to choose from among the full range of
          font sizes supported by the operating environment. [Priority 1]
          Content only.
          Content type labels: VisualText.
          Note: The reference size of rendered text corresponds to the
          default value of the CSS2 'font-size' property, which is
          'medium' (refer to CSS2 [CSS2], section 15.2.4). For example,
          in HTML, this might be paragraph text. The default reference
          size of rendered text may vary among user agents. User agents
          may offer different mechanisms to allow control of the size of
          rendered text (e.g., font size control, zoom, magnification,
          etc.). Refer, for example to the Scalable Vector Graphics
          specification [SVG] for information about scalable rendering.
          Techniques for checkpoint 4.1
          
   4.2 Configure font family. Allow global configuration of the font
          family of all visually rendered text, with an option to
          override font families specified by the author or by user agent
          defaults. Allow the user to choose from among the full range of
          font families supported by the operating environment.
          [Priority 1] Content only.
          Content type labels: VisualText.
          Note: For example, allow the user to specify that all text is
          to be rendered in a particular sans-serif font family. For text
          that cannot be rendered properly using the user's preferred
          font family, the user agent may substitute an alternative font
          family.
          Techniques for checkpoint 4.2
          
   4.3 Configure text colors. Allow global configuration of the
          foreground and background color of all visually rendered text,
          with an option to override foreground and background colors
          specified by the author or user agent defaults. Allow the user
          to choose from among the full range of colors supported by the
          operating environment. [Priority 1] Content only.
          Content type labels: ColorText.
          Note: User configuration of foreground and background colors
          may inadvertently lead to the inability to distinguish ordinary
          text from selected text, focused text, etc. See checkpoint 10.3
          for more information about highlight styles.
          Techniques for checkpoint 4.3
          
    Checkpoints for multimedia presentations and other presentations that
    change continuously over time
    
   4.4 Slow multimedia. Allow the user to slow the presentation rate of
          audio and animations (including video and animated images). For
          a visual track, provide at least one setting between 40% and
          60% of the original speed. For a prerecorded audio track
          including audio-only presentations, provide at least one
          setting between 75% and 80% of the original speed. When the
          user agent allows the user to slow the visual track of a
          synchronized multimedia presentation to between 100% and 80% of
          its original speed, synchronize the visual and audio tracks.
          Below 80%, the user agent is not required to render the audio
          track. The user agent is not required to satisfy this
          checkpoint for audio and animations whose recognized role is to
          create a purely stylistic effect. [Priority 1] Content only.
          Content type labels: Animation, Audio.
          Note: Purely stylistic effects include background sounds,
          decorative animated images, and effects caused by style sheets.
          The style exception of this checkpoint is based on the
          assumption that authors have satisfied the requirements of the
          "Web Content Accessibility Guidelines 1.0" [WCAG10] not to
          convey information through style alone (e.g., through color
          alone or style sheets alone). See checkpoint 2.6 and checkpoint
          4.7.
          Techniques for checkpoint 4.4
          
   4.5 Start, stop, pause, advance multimedia. Allow the user to stop,
          pause, resume, fast advance, and fast reverse audio and
          animations (including video and animated images) that last
          three or more seconds at their default playback rate. The user
          agent is not required to satisfy this checkpoint for audio and
          animations whose recognized role is to create a purely
          stylistic effect. The user agent is not required to play
          synchronized audio during fast advance or reverse of animations
          (though doing so may help orient the user). The user agent is
          not required to play animations during fast advance and fast
          reverse. When the user pauses a real-time audio or animation,
          the user agent may discard packets that continue to arrive
          during the pause. [Priority 1] Content only.
          Content type labels: Animation, Audio.
          Note: See checkpoint 4.4 for more information about the
          exception for purely stylistic effects. This checkpoint applies
          to content that is either rendered automatically or on request
          from the user. The requirement of this checkpoint is for
          control of each source of audio and animation that is
          recognized as distinct. Respect synchronization cues per
          checkpoint 2.6.
          Techniques for checkpoint 4.5
          
   4.6 Position captions. For graphical viewports, allow the user to
          position captions with respect to synchronized visual tracks as
          follows: If the user agent satisfies this checkpoint by using a
          markup language or style sheet language to provide
          configuration or control, then the user agent must allow the
          user to choose from among at least the range of positions
          enabled by the format. Otherwise, the user agent must allow
          both non-overlapping and overlapping positions (e.g., by
          rendering captions in a separate viewport that may be
          positioned on top of the visual track). The user agent must
          allow the user to override the author's specified position. The
          user agent is not required to change the layout of other
          content (i.e., reflow) after the user has changed the position
          of captions. [Priority 1] Content only.
          Note: When captions overlap the synchronized visual track, the
          user should be able to view the visual track behind the
          captions. Refer to checkpoint 4.3 for requirements related to
          the control of background colors.
          Techniques for checkpoint 4.6
          
   4.7 Slow other multimedia. Allow the user to slow the presentation
          rate of audio and animations (including video and animated
          images) not covered by checkpoint 4.4. The same speed
          percentage requirements of checkpoint 4.4 apply. [Priority 2]
          Content only.
          Content type labels: Animation, Audio.
          Note: User agents automatically satisfy this checkpoint if they
          satisfy checkpoint 4.4 for all audio and animations.
          Techniques for checkpoint 4.7
          
   4.8 Control other multimedia. Allow the user to stop, pause, resume,
          fast advance, and fast reverse audio and animations (including
          video and animated images) not covered by checkpoint 4.5.
          [Priority 2] Content only.
          Content type labels: Animation, Audio.
          Note: User agents automatically satisfy this checkpoint if they
          satisfy checkpoint 4.5 for all audio and animations.
          Techniques for checkpoint 4.8
          
    Checkpoints for audio volume control
    
   4.9 Global volume control. Allow global configuration and control of
          the volume of all audio, with an option to override audio
          volumes specified by the author or user agent defaults. The
          user must be able to choose zero volume (i.e., silent).
          [Priority 1] Content only.
          Content type labels: Audio.
          Note: User agents should allow configuration and control of
          volume through available operating environment controls.
          Techniques for checkpoint 4.9
          
   4.10 Independent volume control. Allow independent control of the
          volumes of distinct audio sources synchronized to play
          simultaneously. The user agent is not required to satisfy this
          checkpoint for audio whose recognized role is to create a
          purely stylistic effect. [Priority 1] Content only.
          Content type labels: Audio.
          Note: See checkpoint 4.4 for more information about the
          exception for purely stylistic effects. The user agent should
          satisfy this checkpoint by allowing the user to control
          independently the volumes of all distinct audio sources (e.g.,
          by implementing a general audio mixer type of functionality).
          The user control required by this checkpoint includes the
          ability to override author-specified volumes for the relevant
          sources of audio. See also checkpoint 4.13.
          Techniques for checkpoint 4.10
          
   4.11 Control other volume. Allow independent control of the volumes of
          distinct audio sources synchronized to play simultaneously that
          are not covered by checkpoint 4.10. [Priority 2] Content only.
          Content type labels: Audio.
          Note: User agents automatically satisfy this checkpoint if they
          satisfy checkpoint 4.10 for all audio.
          Techniques for checkpoint 4.11
          
    Checkpoints for synthesized speech
    
   4.12 Configure speech rate. Allow configuration and control of the
          synthesized speech rate, according to the full range offered by
          the speech synthesizer. [Priority 1] Content only.
          Content type labels: Speech.
          Note: The range of speech rates offered by the speech
          synthesizer may depend on natural language.
          Techniques for checkpoint 4.12
          
   4.13 Configure speech volume. Allow control of the synthesized speech
          volume, independent of other sources of audio. [Priority 1]
          Content only.
          Content type labels: Speech.
          Note: The user control required by this checkpoint includes the
          ability to override author-specified speech volume. See also
          checkpoint 4.10.
          Techniques for checkpoint 4.13
          
   4.14 Configure speech characteristics. Allow configuration of speech
          characteristics according to the full range of values offered
          by the speech synthesizer. [Priority 1] Content only.
          Note: Some speech synthesizers allow users to choose values for
          speech characteristics at a higher abstraction layer, i.e., by
          choosing from present options that group several
          characteristics. Some typical options one might encounter
          include: "adult male voice", "female child voice", "robot
          voice", "pitch", "stress", etc. Ranges for values may vary
          among speech synthesizers.
          Techniques for checkpoint 4.14
          
   4.15 Specific speech characteristics. Allow configuration of the
          following speech characteristics: pitch, pitch range, stress,
          richness. Pitch refers to the average frequency of the speaking
          voice. Pitch range specifies a variation in average frequency.
          Stress refers to the height of "local peaks" in the intonation
          contour of the voice. Richness refers to the richness or
          brightness of the voice. [Priority 2] Content only.
          Note: This checkpoint is more specific than checkpoint 4.14: it
          requires support for the voice characteristics listed.
          Definitions for these characteristics are taken from section 19
          of the Cascading Style Sheets Level 2 Recommendation [CSS2];
          please refer to that specification for additional informative
          descriptions. Some speech synthesizers allow users to choose
          values for speech characteristics at a higher abstraction
          layer, i.e., by choosing from present options distinguished by
          "gender", "age", "accent", etc. Ranges of values may vary among
          speech synthesizers.
          Content type labels: Speech.
          Techniques for checkpoint 4.15
          
   4.16 Configure speech features. Provide support for user-defined
          extensions to the speech dictionary, as well as the following
          functionalities: spell-out (spell text one character at a time
          or according to language-dependent pronunciation rules),
          speak-numeral (speak a numeral as individual digits or as a
          full number), and speak-punctuation (speak punctuation
          literally or render as natural pauses). [Priority 2] Content
          only.
          Note: Definitions for the functionalities listed are taken from
          section 19 of the Cascading Style Sheets Level 2 Recommendation
          [CSS2]; please refer to that specification for additional
          informative descriptions.
          Techniques for checkpoint 4.16
          
    Checkpoints related to style sheets
    
   4.17 Choose style sheets. For user agents that support style sheets,
          allow the user to choose from (and apply) available author and
          user style sheets or to ignore them. [Priority 1] Both content
          and user agent.
          Note: By definition, the user agent's default style sheet is
          always present, but may be overridden by author or user styles.
          Developers should not consider that the user's ability to turn
          off author and user style sheets is an effective way to improve
          content accessibility; turning off style sheet support means
          losing the many benefits they offer. Instead, developers should
          provide users with finer control over user agent or content
          behavior known to raise accessibility barriers. The user should
          only have to turn off author and user style sheets as a last
          resort.
          Techniques for checkpoint 4.17
          
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   [contents]
   
Guideline 5. Ensure user control of user interface behavior.

    Ensure that the user can control the behavior of viewports and other user
    interface controls, including those that may be manipulated by the author
    (e.g., through scripts).
    
   Control of viewport behavior is important to accessibility. For people
   with visual disabilities or certain types of learning disabilities, it
   is important that the point of regard - what the user is presumed to
   be viewing - remain as stable as possible. Unexpected changes may
   cause users to lose track of how many viewports are open, which
   viewport has the current focus, etc. This guideline includes
   requirements for control of opening and closing viewports, the
   relative position of graphical viewports, changes to focus, and
   inadvertent form submissions and micropayments.
   
    Checkpoints
    
   5.1 No automatic content focus change. Allow configuration so that if
          a viewport opens without explicit user request, its content
          focus does not automatically become the current focus.
          Configuration is not required if the content focus can only
          ever be moved by explicit user request. [Priority 2] Both
          content and user agent.
          Techniques for checkpoint 5.1
          
   5.2 Keep viewport on top. For graphical user interfaces, allow
          configuration so that the viewport with the current focus
          remains "on top" of all other viewports with which it overlaps.
          [Priority 2] Both content and user agent.
          Techniques for checkpoint 5.2
          
   5.3 Manual viewport open only. Allow configuration so that viewports
          only open on explicit user request. In this configuration,
          instead of opening a viewport automatically, alert the user and
          allow the user to open it on demand (e.g., by following a link
          or confirming a prompt). Allow the user to close viewports. If
          a viewport (e.g., a frame set) contains other viewports, these
          requirements only apply to the outermost container viewport.
          [Priority 2] Both content and user agent.
          Note: User creation of a new viewport (e.g., empty or with a
          new resource loaded) through the user agent's user interface
          constitutes an explicit user request. See also checkpoint 5.1
          (for control over changes of focus when a viewport opens) and
          checkpoint 6.5 (for programmatic alert of changes to the user
          interface).
          Techniques for checkpoint 5.3
          
   5.4 Selection and focus in viewport. Ensure that when a viewport's
          selection or content focus changes, it is at least partially in
          the viewport after the change. [Priority 2] Both content and
          user agent.
          Note: For example, if users navigating links move to a portion
          of the document outside a graphical viewport, the viewport
          should scroll to include the new location of the focus. Or, for
          users of audio viewports, allow configuration to render the
          selection or focus immediately after the change.
          Techniques for checkpoint 5.4
          
   5.5 Confirm form submission. Allow configuration to prompt the user to
          confirm (or cancel) any form submission that is not caused by
          an explicit user request to activate a form submit control.
          [Priority 2] Content only.
          Note: For example, do not submit a form automatically when a
          menu option is selected, when all fields of a form have been
          filled out, or when a "mouseover" or "change" event occurs. The
          user agent may satisfy this checkpoint by prompting the user to
          confirm all form submissions.
          Techniques for checkpoint 5.5
          
   5.6 Confirm fee links. Allow configuration to prompt the user to
          confirm (or cancel) any payment that results from activation of
          a fee link. [Priority 2] Content only.
          Techniques for checkpoint 5.6
          
   5.7 Manual viewport close only. Allow configuration to prompt the user
          to confirm (or cancel) closing any viewport that starts to
          close without explicit user request. [Priority 3] User agent
          only.
          Techniques for checkpoint 5.7
          
   [next guideline 6] [review guideline 5] [previous guideline 4]
   [contents]
   
Guideline 6. Implement standard application programming interfaces.

    Implement standard interfaces to communicate with other software (e.g.,
    assistive technologies, the operating environment, plug-ins, etc.).
    
   This guideline addresses interoperability between a conforming user
   agent and other software, in particular assistive technologies. The
   checkpoints of this guideline require implementation of application
   programming interfaces (APIs) for communication. There are three types
   of requirements in this guideline:
    1. Requirements for what information must be communicated through an
       API.
    2. Requirements for which APIs or types of APIs must be used to
       communicate this information.
    3. Requirements for additional characteristics of these APIs.
       
   Note: The User Agent Accessibility Guidelines Working Group believes
   that, in order to promote interoperability between a conforming user
   agent and more than one assistive technology, it is more important to
   implement conventional APIs than custom APIs, even when custom APIs
   provide equal or superior access. When conventional APIs do not allow
   users to satisfy the requirements of these checkpoints, however,
   developers may implement alternative APIs.
   
    Checkpoints
    
   6.1 DOM read access. Provide programmatic read access to HTML and XML
          content by conforming to the following modules of the W3C
          Document Object Model DOM Level 2 Core Specification [DOM2CORE]
          and exporting the interfaces they define: (1) the Core module
          for HTML; (2) the Core and XML modules for XML. [Priority 1]
          Content only.
          Note: Please refer to the "Document Object Model (DOM) Level 2
          Core Specification" [DOM2CORE] for information about HTML and
          XML versions covered.
          Techniques for checkpoint 6.1
          
   6.2 DOM write access. If the user can modify HTML and XML content
          through the user interface, provide the same functionality
          programmatically by conforming to the following modules of the
          W3C Document Object Model DOM Level 2 Core Specification
          [DOM2CORE] and exporting the interfaces they define: (1) the
          Core module for HTML; (2) the Core and XML modules for XML.
          [Priority 1] Content only.
          Note: For example, if the user interface allows users to
          complete HTML forms, this must also be possible through the
          required DOM APIs. Please refer to the "Document Object Model
          (DOM) Level 2 Core Specification" [DOM2CORE] for information
          about HTML and XML versions covered.
          Techniques for checkpoint 6.2
          
   6.3 Programmatic access to other content. For markup languages other
          than HTML and XML, provide programmatic read access to content.
          Provide programmatic write access for those parts of content
          that the user can modify through the user interface. To satisfy
          these requirements, implement at least one API that is either
          (a) defined by a W3C Recommendation, or (b) a publicly
          documented API designed to enable interoperability with
          assistive technologies. If no such API is available, or if
          available APIs do not enable the user agent to satisfy the
          requirements, implement at least one publicly documented API to
          satisfy the requirements, and follow operating environment
          conventions for the use of input and output APIs. [Priority 1]
          Content only.
          Note: This checkpoint addresses content not covered by
          checkpoints checkpoint 6.1 and checkpoint 6.2. An API is
          considered "available" if the specification of the API is
          published (e.g., as a W3C Recommendation) in time for
          integration into a user agent's development cycle.
          Techniques for checkpoint 6.3
          
   6.4 Programmatic operation. Provide programmatic read access to user
          agent user interface controls. Provide programmatic write
          access for those controls that the user can modify through the
          user interface. For security reasons, user agents are not
          required to allow instructions in content to modify user agent
          user interface controls. To satisfy these requirements,
          implement at least one API that is either (a) defined by a W3C
          Recommendation, or (b) a publicly documented API designed to
          enable interoperability with assistive technologies. If no such
          API is available, or if available APIs do not enable the user
          agent to satisfy the requirements, implement at least one
          publicly documented API that allows programmatic operation of
          all of the functionalities that are available through the user
          agent user interface, and follow operating environment
          conventions for the use of input and output APIs. [Priority 1]
          User agent only.
          Note: APIs used to satisfy the requirements of this checkpoint
          may be platform-independent APIs such as the W3C DOM,
          conventional APIs for a particular operating environment,
          conventional APIs for programming languages, plug-ins, virtual
          machine environments, etc. User agents should always follow
          operating environment conventions for the use of input and
          output APIs. An API is considered "available" if the
          specification of the API is published (e.g., as a W3C
          Recommendation) in time for integration into a user agent's
          development cycle.
          Techniques for checkpoint 6.4
          
   6.5 Programmatic alert of changes. Provide programmatic alert of
          changes to content, user interface controls, selection, content
          focus, and user interface focus. To satisfy these requirements,
          implement at least one API that is either (a) defined by a W3C
          Recommendation, or (b) a publicly documented API designed to
          enable interoperability with assistive technologies. If no such
          API is available, or if available APIs do not enable the user
          agent to satisfy the requirements, implement at least one
          publicly documented API to satisfy the requirements, and follow
          operating environment conventions for the use of input and
          output APIs. [Priority 1] Both content and user agent.
          Note: For instance, when user interaction in one frame causes
          automatic changes to content in another, provide a programmatic
          alert. An API is considered "available" if the specification of
          the API is published (e.g., as a W3C Recommendation) in time
          for integration into a user agent's development cycle.
          Techniques for checkpoint 6.5
          
   6.6 Conventional keyboard APIs. Follow operating environment
          conventions when implementing APIs for the keyboard. If such
          APIs for the keyboard do not exist, implement publicly
          documented APIs for the keyboard. [Priority 1] User agent only.
          Note: An operating environment may define more than one
          conventional API for the keyboard. For instance, for Japanese
          and Chinese, input may be processed in two stages, with an API
          for each.
          Techniques for checkpoint 6.6
          
   6.7 API character encodings. For an API implemented to satisfy
          requirements of this document, support the character encodings
          required for that API. [Priority 1] Both content and user
          agent.
          Note: Support for character encodings is important so that text
          is not "broken" when communicated to assistive technologies.
          For example, the DOM Level 2 Core Specification [DOM2CORE],
          section 1.1.5 requires that the DOMString type be encoded using
          UTF-16. This checkpoint is an important special case of the
          other API requirements of this document.
          Techniques for checkpoint 6.7
          
   6.8 DOM CSS access. For user agents that implement Cascading Style
          Sheets (CSS), provide programmatic access to those style sheets
          by conforming to the CSS module of the W3C Document Object
          Model (DOM) Level 2 Style Specification [DOM2STYLE] and
          exporting the interfaces it defines. [Priority 2] Content only.
          Note: As of the publication of this document, Cascading Style
          Sheets (CSS) are defined by CSS Level 1 [CSS1] and CSS Level 2
          [CSS2]. Please refer to the "Document Object Model (DOM) Level
          2 Style Specification" [DOM2STYLE] for information about CSS
          versions covered.
          Techniques for checkpoint 6.8
          
   6.9 Timely access. Ensure that programmatic exchanges proceed in a
          timely manner. [Priority 2] Both content and user agent.
          Note: For example, the programmatic exchange of information
          required by other checkpoints in this document should be
          efficient enough to prevent information loss, a risk when
          changes to content or user interface occur more quickly than
          the communication of those changes. Timely exchange is also
          important for the proper synchronization of alternative
          renderings. The techniques for this checkpoint explain how
          developers can reduce communication delays. This will help
          ensure that assistive technologies have timely access to the
          document object model and other information that is important
          for providing access.
          Techniques for checkpoint 6.9
          
   [next guideline 7] [review guideline 6] [previous guideline 5]
   [contents]
   
Guideline 7. Observe operating environment conventions.

    Observe operating environment conventions for the user agent user
    interface, documentation, installation, etc.
    
   Part of user agent accessibility involves following the conventions of
   the user's operating environment. This includes:
     * following operating environment conventions for user agent user
       interface design, documentation, and installation.
     * incorporating operating environment-level user preferences into
       the user agent. For instance, some operating systems include
       settings that allow users to request high-contrast colors (for
       users with low vision) or graphical rendering of audio cues (for
       users with hearing disabilities).
       
   Following operating environment conventions increases predictability
   for users and for developers of assistive technologies. Platform
   guidelines explain what users will expect from the look and feel of
   the user interface, keyboard conventions, documentation, etc. Platform
   guidelines also include information about accessibility features that
   the user agent should adopt rather than reimplement.
   
    Checkpoints
    
   7.1 Focus and selection conventions. Follow operating environment
          conventions that benefit accessibility when implementing the
          selection, content focus, and user interface focus.
          [Priority 1] User agent only.
          Note: This checkpoint is an important special case of
          checkpoint 7.3. See also checkpoint 9.1 and checkpoint 9.2.
          Techniques for checkpoint 7.1
          
   7.2 Respect input configuration conventions. Ensure that default input
          configurations do not interfere with operating environment
          accessibility conventions. [Priority 1] User agent only.
          Note: In particular, default configurations should not
          interfere with operating conventions for keyboard
          accessibility. Information about operating environment
          accessibility conventions is available in the Techniques
          document [UAAG10-TECHS]. See also checkpoint 11.5.
          Techniques for checkpoint 7.2
          
   7.3 Operating environment conventions. Follow operating environment
          conventions that benefit accessibility. In particular, follow
          conventions that benefit accessibility for user interface
          design, keyboard configuration, product installation, and
          documentation. [Priority 2] User agent only.
          Note: Operating environment conventions that benefit
          accessibility are those described in this document and in
          platform-specific accessibility guidelines. Some of these
          conventions (e.g., sticky keys, mouse keys, show sounds, etc.)
          are discussed in the Techniques document [UAAG10-TECHS].
          Techniques for checkpoint 7.3
          
   7.4 Input configuration indications. Follow operating environment
          conventions to indicate the input configuration. [Priority 2]
          User agent only.
          Note: For example, in some operating environments, when a
          functionality may be triggered through a menu and through the
          keyboard, the developer may design the menu entry so that the
          character of the activating key is also shown. This checkpoint
          is an important special case of checkpoint 7.3. See also
          checkpoint 11.5.
          Techniques for checkpoint 7.4
          
   [next guideline 8] [review guideline 7] [previous guideline 6]
   [contents]
   
Guideline 8. Implement specifications that benefit accessibility.

    Support the accessibility features of all implemented specifications.
    Implement W3C Recommendations when available and appropriate for a task.
    
   Developers should implement open specifications. Conformance to open
   specifications benefits interoperability and accessibility by making
   it easier to design assistive technologies (also discussed in
   guideline 6).
   
   While developers should implement the accessibility features of any
   specification (checkpoint 8.1), this document recommends conformance
   to W3C Recommendations in particular (checkpoint 8.2) for several
   reasons:
     * W3C specifications include "built-in" accessibility features.
     * W3C specifications undergo early review to ensure that
       accessibility issues are considered during the design phase. This
       review includes review from stakeholders in accessibility.
     * W3C specifications are developed in a consensus process (refer to
       the process defined by the W3C Process Document [W3CPROCESS]). W3C
       encourages the public to review and comment on these
       specifications (public Working Drafts, Candidate Recommendations,
       and Proposed Recommendations). For information about how
       specifications become W3C Recommendations, refer to the W3C
       Recommendation track ([W3CPROCESS], section 6.2). W3C
       Recommendations (and other technical reports) are published at the
       W3C Web site.
       
    Checkpoints
    
   8.1 Implement accessibility features. Implement the accessibility
          features of specifications (markup languages, style sheet
          languages, metadata languages, graphics formats, etc.). For the
          purposes of this checkpoint, an accessibility feature is either
          (a) one identified as such, or (b) one that allows the author
          to satisfy any requirement of the "Web Content Accessibility
          Guidelines 1.0" [WCAG10]. [Priority 1] Content only.
          Note: This checkpoint applies to both W3C-developed and non-W3C
          specifications. The Techniques document [UAAG10-TECHS] provides
          information about the accessibility features of some
          specifications, including W3C specifications. The user agent is
          not required to satisfy this checkpoint for all implemented
          specifications; see the section on conformance and implementing
          specifications for more information.
          Techniques for checkpoint 8.1
          
   8.2 Conform to specifications. Use and conform to either (1) W3C
          Recommendations when they are available and appropriate for a
          task, or (2) non-W3C specifications that enable the creation of
          content that conforms to the Web Content Accessibility
          Guidelines 1.0 [WCAG10] at any conformance level. When a
          requirement of another specification explicitly contradicts a
          requirement of the current document, the user agent may
          disregard the requirement of the other specification and still
          satisfy this checkpoint. [Priority 2] Content only.
          Note: For instance, for markup, the user agent may conform to
          HTML 4 [HTML4], XHTML 1.0 [XHTML10], or XML 1.0 [XML]. For
          style sheets, the user agent may conform to CSS ([CSS1],
          [CSS2]). For mathematics, the user agent may conform to MathML
          2.0 [MATHML20]. For synchronized multimedia, the user agent may
          conform to SMIL 1.0 [SMIL]. A specification is considered
          "available" if it is published (e.g., as a W3C Recommendation)
          in time for integration into a user agent's development cycle.
          The user agent is not required to satisfy this checkpoint for
          all implemented specifications; see the section on conformance
          and implementing specifications for more information.
          Techniques for checkpoint 8.2
          
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   [contents]
   
Guideline 9. Provide navigation mechanisms.

    Provide access to content through a variety of navigation mechanisms:
    sequential navigation, direct navigation, searches, structured navigation,
    etc.
    
   Users should be able to navigate to important pieces of content within
   a configurable view, identify the type of object they have navigated
   to, interact with that object easily (if it is an enabled element),
   and review the surrounding context (to orient themselves). Providing a
   variety of navigation and search mechanisms helps users with
   disabilities (and all users) access content more efficiently.
   Navigation and searching are particularly important to users who
   access content serially (e.g., as synthesized speech or braille).
   
   Sequential navigation (e.g., line scrolling, page scrolling,
   sequential navigation through enabled elements, etc.) means advancing
   (or rewinding) through rendered content in well-defined steps (line by
   line, screen by screen, link by link, etc.). Sequential navigation can
   provide context, but can be time-consuming. Sequential navigation is
   important to users who cannot scan a page visually for context and
   also benefits users unfamiliar with a page. Sequential access may be
   based on element type (e.g., links only), content structure (e.g.,
   navigation from heading to heading), or other criteria.
   
   Direct navigation (e.g., to a particular link or paragraph) is faster
   than sequential navigation, but generally requires familiarity with
   the content. Direct navigation is important to users with some
   physical disabilities (who may have little or no manual dexterity
   and/or increased tendency to push unwanted buttons or keys), to users
   with visual disabilities, and also benefits "power users." Direct
   navigation may be possible with the pointing device or the keyboard
   (e.g., keyboard shortcuts).
   
   Structured navigation mechanisms offer both context and speed. User
   agents should allow users to navigate to content known to be
   structurally important: blocks of content, headers and sections,
   tables, forms and form elements, enabled elements, navigation
   mechanisms, containers, etc. For information about programmatic access
   to document structure, see guideline 6.
   
   User agents should allow users to configure navigation mechanisms
   (e.g., to allow navigation of links only, or links and headings, or
   tables and forms, etc.).
   
    Checkpoints
    
   9.1 Provide content focus. Provide at least one content focus for each
          viewport (including frames) where enabled elements are part of
          the rendered content. Allow the user to make the content focus
          of each viewport the current focus. [Priority 1] Content only.
          Note: For example, when two frames of a frameset contain
          enabled elements, allow the user to make the content focus of
          either frame the current focus. Note that viewports "owned" by
          plug-ins that are part of a conformance claim are also covered
          by this checkpoint.
          Techniques for checkpoint 9.1
          
   9.2 Provide user interface focus. Provide a user interface focus.
          [Priority 1] User agent only.
          Techniques for checkpoint 9.2
          
   9.3 Move content focus. Allow the user to move the content focus to
          any enabled element in the viewport. If the author has not
          specified a navigation order, allow at least forward sequential
          navigation to each element, in document order. The user agent
          may also include disabled elements in the navigation order.
          [Priority 1] Content only.
          Note: In addition to forward sequential navigation, the user
          agent should also allow reverse sequential navigation. This
          checkpoint is an important special case of checkpoint 9.9.
          Techniques for checkpoint 9.3
          
   9.4 Restore history. For user agents that implement a viewport history
          mechanism, for each state in a viewport's browsing history,
          maintain information about the point of regard, content focus,
          and selection. When the user returns to any state in the
          viewport history, restore the saved values for all of these
          state variables. [Priority 1] Content only.
          Note: For example, when the user uses the "back" functionality,
          restore the four state variables.
          Techniques for checkpoint 9.4
          
   9.5 Move focus without activation. Allow configuration so that moving
          the content focus to an enabled element does not automatically
          activate any explicitly associated input device event handlers.
          [Priority 2] Content only.
          Note: In this configuration, user agents should still apply any
          stylistic changes (e.g., highlighting) that may occur when
          there is a change in content focus.
          Techniques for checkpoint 9.5
          
   9.6 Show event handlers. For the element with content focus, make
          available the list of input device event handlers explicitly
          associated with the element. [Priority 2] Content only.
          Note: For example, allow the user to query the element with
          content focus for the list of input device event handlers, or
          add them directly to the serial navigation order. See
          checkpoint 1.2 for information about activation of event
          handlers associated with the element with focus.
          Techniques for checkpoint 9.6
          
   9.7 Move content focus optimally. Allow the user to move the content
          focus to any enabled element in the viewport. If the author has
          not specified a navigation order, allow at least forward and
          reverse sequential navigation to each element, in document
          order. The user agent must not include disabled elements in the
          navigation order. [Priority 2] Content only.
          Note: This checkpoint is a special case of checkpoint 9.3.
          Techniques for checkpoint 9.7
          
   9.8 Text search. Allow the user to search within rendered text content
          for a sequence of characters from the document character set.
          Allow the user to start a forward search (in document order)
          from any selected or focused location in content. When there is
          a match (1) move the viewport so that the matched text content
          is within it, and (2) allow the user to search for the next
          instance of the text from the location of the match. Alert the
          user when there is no match, when the search reaches the end of
          content, and prior to any wrapping. Provide a case-insensitive
          search option for text in scripts (i.e., writing systems) where
          case is significant. [Priority 2] Content only.
          Note: If the user has not indicated a start position for the
          search, the search should start from the beginning of content.
          Use operating environments conventions for indicating the
          result of a search (e.g., selection or content focus). A
          wrapping search is one that restarts automatically at the
          beginning of content once the end of content has been reached.
          Techniques for checkpoint 9.8
          
   9.9 Structured navigation. Allow the user to navigate efficiently to
          and among important structural elements. Allow forward and
          backward sequential navigation to important structural
          elements. [Priority 2] Content only.
          Note: This specification intentionally does not identify which
          "important elements" must be navigable as this will vary
          according to markup language. What constitutes "efficient
          navigation" may depend on a number of factors as well,
          including the "shape" of content (e.g., serial navigation of
          long lists is not efficient) and desired granularity (e.g.,
          among tables, then among the cells of a given table). Refer to
          the Techniques document [UAAG10-TECHS] for information about
          identifying and navigating important elements.
          Techniques for checkpoint 9.9
          
   9.10 Configure important elements. Allow configuration and control of
          the set of important elements required by checkpoint 9.9 and
          checkpoint 10.5. Allow the user to include and exclude element
          types in the set of elements. [Priority 3] Content only.
          Note: For example, allow the user to navigate only paragraphs,
          or only headings and paragraphs, etc.
          Techniques for checkpoint 9.10
          
   [next guideline 10] [review guideline 9] [previous guideline 8]
   [contents]
   
Guideline 10. Orient the user.

    Provide information that will help the user understand browsing context.
    
   All users require clues to help them understand their "location" when
   browsing: where they are, how they got there, where they can go,
   what's nearby, etc. Some mechanisms that provide such clues through
   the user interface (visually, as audio, or as braille) include:
     * information about the current state of the user's interaction with
       content: where the viewport is in content (shown, for example,
       through proportional scroll bars), which viewport has the current
       focus, where the user has selected content, a history mechanism,
       the title of the current document or frame, etc. These clues need
       to be available to the user in a device-independent manner;
     * information about specific elements, such as the dimensions of a
       table, the length of an audio clip, the structure of a form,
       whether following a link will involve a fee, etc.
     * information about relationships among elements, such as between
       table cells and related table headers.
     * information about the structure of content. For instance, a
       navigable outline view can accelerate access to content while
       preserving context.
       
   Orientation mechanisms such as these are especially important to users
   who view content serially, (e.g., when rendered as speech or braille).
   For instance, these users cannot "scan" a graphically displayed table
   with their eyes for information about a table cell's headers,
   neighboring cells, etc. User agents need to provide other means for
   users to understand table cell relationships, frame relationships
   (what relationship does the graphical layout convey?), form context
   (have I filled out the form completely?), link information (have I
   already visited this link?), etc.
   
   This guideline also includes requirements to allow the user to control
   some user agent behavior (form submission and activation of fee links)
   that, if carried out automatically, might go unnoticed by some users
   (e.g., users with blindness) or might disorient others (e.g., some
   users with a cognitive disability).
   
    Checkpoints
    
   10.1 Table orientation. Make available to the user the purpose of each
          table (e.g., as expressed in a summary or table caption) and
          the relationships among the table cells and headers.
          [Priority 1] Content only.
          Note: This checkpoint refers only to table information that the
          user agent can recognize. Depending on the table, some
          techniques may be more efficient than others for conveying data
          relationships. For many tables, user agents rendering in two
          dimensions may satisfy this checkpoint by rendering a table as
          a grid and by ensuring that users can find headers associated
          with cells. However, for large tables or small viewports,
          allowing the user to query cells for information about related
          headers may improve access. This checkpoint is an important
          special case of checkpoint 2.1.
          Techniques for checkpoint 10.1
          
   10.2 Highlight selection and focus. Provide a mechanism for
          highlighting the selection and content focus of each viewport.
          The highlight mechanism must not rely on color alone. Allow
          global configuration of selection and focus highlight styles.
          For graphical viewports, if the highlight mechanism involves
          colors or text decorations, allow the user to choose from among
          the full range of colors or text decorations supported by the
          operating environment. [Priority 1] Content only.
          Note: Examples of highlight mechanisms include foreground and
          background color variations, underlining, distinctive voice
          pitches, rectangular boxes, etc. Because the selection and
          focus change frequently, user agents should not highlight them
          using mechanisms (e.g., font size variations) that cause
          content to reflow as this may disorient the user. See also
          checkpoint 7.1.
          Techniques for checkpoint 10.2
          
   10.3 Distinct default highlight styles. Ensure that all of the default
          highlight styles for the selection, content focus, enabled
          elements, recently visited links, and fee links (1) do not rely
          on color alone, and (2) differ from each other, and not by
          color alone. [Priority 1] Content only.
          Note: For instance, by default a graphical user agent may
          present the selection using color and a dotted outline, the
          focus using a solid outline, enabled elements as underlined in
          blue, recently visited links as dotted underlined in purple,
          and fee links using a special icon or flag to draw the user's
          attention.
          Techniques for checkpoint 10.3
          
   10.4 Highlight special elements. Provide a mechanism for highlighting
          all enabled elements, recently visited links, and fee links.
          Allow the user to configure the highlight styles. The highlight
          mechanism must not rely on color alone. For graphical
          viewports, if the highlight mechanism involves colors, fonts,
          or text decorations, allow the user to choose from among the
          full range of colors, fonts, or text decorations supported by
          the operating environment. For an image map, the user agent
          must highlight the image map as a whole and should allow
          configuration to highlight each enabled region. [Priority 2]
          Content only.
          Note: Examples of highlight mechanisms include foreground and
          background color variations, font variations, underlining,
          distinctive voice pitches, rectangular boxes, etc.
          Techniques for checkpoint 10.4
          
   10.5 Outline view. Make available to the user an "outline" view of
          content, composed of labels for important structural elements
          (e.g., heading text, table titles, form titles, etc.).
          [Priority 2] Content only.
          Note: This checkpoint is meant to provide the user with a
          simplified view of content (e.g, a table of contents). What
          constitutes a label is defined by each markup language
          specification. For example, in HTML, a heading (H1-H6) is a
          label for the section that follows it, a CAPTION is a label for
          a table, the "title" attribute is a label for its element, etc.
          A label is not required to be text only. For important elements
          that do not have associated labels, user agents may generate
          labels for the outline view. For information about what
          constitutes the set of important structural elements, please
          see the Note following checkpoint 9.9. By making the outline
          view navigable, it is possible to satisfy this checkpoint and
          checkpoint 9.9 together: Allow users to navigate among the
          important elements of the outline view, and to navigate from a
          position in the outline view to the corresponding position in a
          full view of content. See also checkpoint 9.10.
          Techniques for checkpoint 10.5
          
   10.6 Provide link information. To help the user decide whether to
          traverse a link, make available the following information about
          it: link element content, link title, whether the link is
          internal to the resource (e.g., the link is to a target in the
          same Web page), whether the user has traversed the link
          recently, whether traversing it may involve a fee, and
          information about the type, size, and natural language of
          linked Web resources. The user agent is not required to compute
          or make available information that requires retrieval of linked
          Web resources. [Priority 3] Content only.
          Techniques for checkpoint 10.6
          
    Checkpoints for the user interface
    
   10.7 Highlight current viewport. Provide a mechanism for highlighting
          the viewport with the current focus. For graphical viewports,
          the default highlight mechanism must not rely on color alone.
          [Priority 1] User agent only.
          Note: This includes highlighting and identifying frames. This
          checkpoint is an important special case of checkpoint 1.1. See
          also to checkpoint checkpoint 7.1.
          Techniques for checkpoint 10.7
          
   10.8 Indicate rendering progress. Indicate the relative position of
          the viewport in rendered content (e.g., the proportion of an
          audio or video clip that has been played, the proportion of a
          Web page that has been viewed, etc.). For two-dimensional
          renderings, relative position includes both vertical and
          horizontal positions. [Priority 3] User agent only.
          Note: The user agent may calculate the relative position
          according to content focus position, selection position, or
          viewport position, depending on how the user has been browsing.
          The user agent may indicate the proportion of content viewed in
          a number of ways, including as a percentage, as a relative size
          in bytes, etc.
          Techniques for checkpoint 10.8
          
   [next guideline 11] [review guideline 10] [previous guideline 9]
   [contents]
   
Guideline 11. Allow configuration and customization.

    Allow users to configure the user agent so that frequently performed tasks
    are made convenient, and allow users to save their preferences.
    
   Web users have a wide range of capabilities and need to be able to
   configure the user agent according to their preferences for styles,
   graphical user interface configuration, keyboard configuration, etc.
   Most of the checkpoints in this guideline pertain to the input
   configuration: how user agent behavior is controlled through keyboard
   input, pointing device input, and voice input.
   
    Checkpoints
    
   11.1 Current user bindings. Provide information to the user about
          current user preferences for input configurations. [Priority 1]
          User agent only.
          Note: To satisfy this checkpoint, the user agent may make
          available binding information in a centralized fashion (e.g., a
          list of bindings) or a distributed fashion (e.g., by listing
          keyboard shortcuts in user interface menus).
          Techniques for checkpoint 11.1
          
   11.2 Current author bindings. Provide a centralized view of the
          current author-specified input configuration bindings.
          [Priority 2] Content only.
          Note: For example, for HTML documents, provide a view of
          keyboard bindings specified by the author through the
          "accesskey" attribute. The intent of this checkpoint is to
          centralize information about author-specified bindings so that
          the user does not have to read the entire content first to find
          out what bindings are available. The user agent may satisfy
          this checkpoint by providing different views for different
          input modalities (keyboard, pointing device, voice, etc.).
          Techniques for checkpoint 11.2
          
   11.3 Override bindings. Allow the user to override any binding that is
          part of the user agent default input configuration The user
          agent is not required to allow the user to override
          conventional bindings for the operating environment (e.g., for
          access to help). [Priority 2] User agent only.
          Note: The override requirement only applies to bindings for the
          same input modality (e.g., the user must be able to override a
          keyboard binding with another keyboard binding). See also
          checkpoint 11.5, checkpoint 11.7, and checkpoint 12.3.
          Techniques for checkpoint 11.3
          
   11.4 Single key access. Allow the user to override any binding in the
          default keyboard configuration with a binding to either a key
          plus modifier keys or to a single-key. For each functionality
          in the set required by checkpoint 11.5, allow the user to
          configure a single-key binding (i.e., one key press performs
          the task, with zero modifier keys). If the number of physical
          keys on the keyboard is less than the number of functionalities
          required by checkpoint 11.5, allow single-key bindings for as
          many of those functionalities as possible. The user agent is
          not required to allow the user to override conventional
          bindings for the operating environment (e.g., for access to
          help). [Priority 2] User agent only.
          Note: In this checkpoint, "key" refers to a physical key of the
          keyboard (rather than, say, a character of the document
          character set). Because single-key access is so important to
          some users with physical disabilities, user agents should
          ensure that (1) most keys of the physical keyboard may be
          configured for single-key bindings, and (2) most
          functionalities of the user agent may be configured for
          single-key bindings. This checkpoint does not require single
          physical key bindings for character input, only for the
          activation of user agent functionalities. For information about
          access to user agent functionality through a keyboard API, see
          checkpoint 6.6.
          Techniques for checkpoint 11.4
          
   11.5 Default binding requirements. Ensure that the default input
          configuration includes bindings for the following
          functionalities required by other checkpoints in this document:
          move focus to next enabled element; move focus to previous
          enabled element; activate focused link; search for text; search
          again for same text; increase size of rendered text; decrease
          size of rendered text; increase global volume; decrease global
          volume; (each of) stop, pause, resume, fast advance, and fast
          reverse selected audio and animations (including video and
          animated images). If the user agent supports the following
          functionalities, the default input configuration must also
          include bindings for them: next history state (forward);
          previous history state (back); enter URI for new resource; add
          to favorites (i.e., bookmarked resources); view favorites; stop
          loading resource; reload resource; refresh rendering; forward
          one viewport; back one viewport; next line; previous line.
          [Priority 2] User agent only.
          Note: This checkpoint does not make any requirements about the
          ease of use of default input configurations, though clearly the
          default configuration should include single-key bindings and
          allow easy operation. Ease of use is ensured by the
          configuration requirements of checkpoint 11.3.
          Techniques for checkpoint 11.5
          
   11.6 User profiles. For the configuration requirements of this
          document, allow the user to save user preferences in at least
          one user profile. Allow users to choose from among available
          profiles or no profile (i.e., the user agent default settings).
          [Priority 2] User agent only.
          Note: The configuration requirements of the checkpoints in this
          document involve user preferences for styles, presentation
          rates, input configurations, navigation, viewport behavior, and
          user agent prompts and alerts.
          Techniques for checkpoint 11.6
          
   11.7 Configure tool bars. For graphical user interfaces, allow the
          user to configure the position of controls on tool bars of the
          user agent user interface, to add or remove controls for the
          user interface from a predefined set, and to restore the
          default user interface. [Priority 3] User agent only.
          Note: This checkpoint is a special case of checkpoint 11.3.
          Techniques for checkpoint 11.7
          
   [next guideline 12] [review guideline 11] [previous guideline 10]
   [contents]
   
Guideline 12. Provide accessible user agent documentation and help.

    Ensure that the user can learn about software features that benefit
    accessibility from the documentation. Ensure that the documentation is
    accessible.
    
   User agent documentation is especially important to users with
   disabilities who may not understand a complex graphical user
   interface, who may not be using part of it (e.g., audio cues), or may
   not be using it at all. Without documentation, users with disabilities
   may have a very difficult time knowing what the user agent is capable
   of and how to operate it.
   
   There are three types of requirements in this guideline:
    1. accessibility of the documentation (checkpoint 12.1);
    2. minimal requirements of what must be documented (checkpoint 12.2,
       checkpoint 12.3, and checkpoint 12.4). Documentation should
       include much more to explain how to install, get help for, use, or
       configure the user agent;
    3. organization of the documentation (checkpoint 12.5).
       
   Refer to checkpoint 7.3 for information about following system
   conventions for documentation.
   
    Checkpoints
    
   12.1 Accessible documentation. Ensure that at least one version of the
          user agent documentation conforms to at least Level Double-A of
          the Web Content Accessibility Guidelines 1.0 [WCAG10].
          [Priority 1] User agent only.
          Techniques for checkpoint 12.1
          
   12.2 Document accessibility features. Document all user agent features
          that benefit accessibility. For the purposes of this
          checkpoint, a user agent feature that benefits accessibility is
          one implemented to satisfy the requirements of this document
          (including the requirements of checkpoints 8.1 and 7.3).
          [Priority 1] User agent only.
          Note: The help system should include discussion of user agent
          features that benefit accessibility. The documentation of
          accessibility features should be integrated into the
          documentation as a whole; see also checkpoint 12.5.
          Techniques for checkpoint 12.2
          
   12.3 Document default bindings. Document the default user agent input
          configuration (e.g., the default keyboard bindings).
          [Priority 1] User agent only.
          Note: If the default input configuration is inconsistent with
          conventions of the operating environment, the documentation
          should alert the user.
          Techniques for checkpoint 12.3
          
   12.4 Document changes. Document changes from the previous version of
          the user agent to accessibility features, including
          accessibility features of the user interface. [Priority 2] User
          agent only.
          Note: Accessibility features are those defined in checkpoint
          12.2.
          Techniques for checkpoint 12.4
          
   12.5 Dedicated section on accessibility. In a dedicated section of the
          documentation, describe all features of the user agent that
          benefit accessibility. [Priority 2] User agent only.
          Note: The features that benefit accessibility are those defined
          in checkpoint 12.2. This is a more specific requirement than
          checkpoint 12.2.
          Techniques for checkpoint 12.5
          
   [review guideline 12] [previous guideline 11] [contents]
   
3. Conformance

   This normative section defines what it means to conform to this
   document and explains how to make a valid conformance claim. Please
   note that this document includes both conformance requirements and
   conformance claim requirements.
   
   Here is a sample claim (expressed in HTML):
   
   <p>On 25 May 2001, Project X (version 2.3) running on
   MyOperatingSystem (version 4.2) conforms to <abbr title="the World
   Wide Web Consortium">W3C</abbr>'s "User Agent Accessibility Guidelines
   1.0", http://www.w3.org/WAI/UA/WD-UAAG10-20010525, level Double-A.
   Unsupported content types: Video, Speech. Unsupported input
   modalities: Voice. (see section 3.1 of the UAAG 1.0). The <a
   href="http://example.com/checkpoints">list of checkpoints that do not
   apply</a> is available online.</p>
   
   In this document (notably in the checkpoints and in this section on
   conformance), the terms "must", "should", and "may" (and related
   terms) are used in accordance with RFC 2119 [RFC2119]. This section
   uses the expression "subject of a claim" to refer to a user agent
   about which someone wishes to claim some level of conformance to this
   document. The subject of a claim may be one or more software
   components (e.g., a browser plus additional software).
   
   Note: Conformance to the requirements of this document is expected to
   be a strong indicator of accessibility, but it is neither a necessary
   nor sufficient condition for ensuring the accessibility of software.
   Some software may not conform to this document but still be accessible
   to some users with disabilities. Conversely, some software may conform
   to this document but still be inaccessible to some users with
   disabilities. Please refer to the section on known limitations of this
   document.
   
  3.1 Conformance model
  
   The conformance model of this document has been designed to allow
   different types of user agents with different input and output
   capabilities to conform. At the same time, the model is designed so
   that:
     * people reading claims can determine whether a conforming user
       agent is likely to meet their accessibility needs, and
     * people can compare claims about different user agents with
       relative ease. Note: The checklist [UAAG10-CHECKLIST] may be used
       when evaluating a user agent for conformance.
       
   The conformance model works as follows:
     * A user agent conforms to this document by satisfying a set of
       requirements. Conformance requirements only come from the
       checkpoint statements. Each checkpoint statement includes one or
       more requirements.
     * The "default" set of requirements for conformance consists of all
       the requirements of all of the checkpoints. A user agent conforms
       unconditionally to this document if it satisfies all of these
       requirements.
     * Different user agents may conform to different sets of
       checkpoints. A user agent conforms conditionally if it satisfies
       any set of requirements that results from carrying out the four
       steps below. Since these steps may produce very different sets of
       checkpoints for different user agents, a valid conformance claim
       must indicate how the set of requirements chosen for the claim
       differs from the default set.
       
   A user agent conforms conditionally if it satisfies any set of
   requirements that results from following these steps:
    1. Choose a conformance level. Each conformance level corresponds to
       a set of checkpoints (and thus a set of requirements).
    2. Remove the requirements associated with any unsupported content
       type labels. In order to conform conditionally, a user agent must
       satisfy the requirements of at least one content type label.
    3. Remove the requirements of any checkpoints or parts of checkpoints
       that do not apply.
    4. If the user agent does not implement a selection mechanism, remove
       the requirements of any checkpoints or parts of checkpoints
       associated with the selection label.
    5. Add requirements associated with any supported input modality
       label. Note: In the default set of requirements, the only input
       device requirements relate to keyboard input.
       
    Example of how to determine conformance requirements
    
   The following example illustrates how to apply the above steps to
   determine which requirements must be satisfied for conformance, and
   what would be required as part of a well-formed conformance claim.
   This informative example does not illustrate a complete user agent
   evaluation.
   
   Consider a user agent with these capabilities:
     * it supports keyboard and pointing device input;
     * it renders text (in color) and implements:
          + one audio format,
          + two image formats,
          + two other animation formats (besides video, which is
            considered an animation format in this document);
     * it hands off video to be rendered by a plug-in;
     * it doesn't support speech output;
     * it implements a selection mechanism.
       
      Step 1: Choose a conformance level.
      
   The claimant wishes to conform at level Double-A. This establishes a
   set of requirements consisting of all of the requirements of all the
   priority 1 and 2 checkpoints.
   
      Step 2: Remove the requirements associated with any unsupported content
      type labels.
      
   The claimant wishes to claim conformance for the user agent's support
   of text, images, audio, and video. The claimant does not wish to claim
   conformance for other animation formats.
   
   The following content type labels are therefore relevant: VisualText,
   ColorText, Image, Animation, Video, and Audio. This means that:
     * the claimant must remove the set of requirements associated with
       the Speech content type label.
     * the claimant must satisfy the requirements associated with the
       other content type labels.
       
      Step 3: Remove the requirements of any checkpoints or parts of
      checkpoints that do not apply.
      
   Consider checkpoint 4.4, for example, which is associated with both
   the Audio and Animation content type labels:
   
   4.4 Slow multimedia. Allow the user to slow the presentation rate of
   audio and animations (including video and animated images). For a
   visual track, provide at least one setting between 40% and 60% of the
   original speed. For a prerecorded audio track including audio-only
   presentations, provide at least one setting between 75% and 80% of the
   original speed. When the user agent allows the user to slow the visual
   track of a synchronized multimedia presentation to between 100% and
   80% of its original speed, synchronize the visual and audio tracks.
   Below 80%, the user agent is not required to render the audio track.
   The user agent is not required to satisfy this checkpoint for audio
   and animations whose recognized role is to create a purely stylistic
   effect. [Priority 1]
   
   Suppose that:
    1. The claimant wishes to claim support for the two image formats,
       the one audio format, and the one video format;
    2. The claimant does not wish to claim support for the other two
       animation formats (e.g., because the user agent doesn't satisfy
       the requirements of checkpoint 4.4 for those animation formats);
    3. The user agent does not implement any synchronized multimedia
       formats.
       
   The resulting applicable requirements from this checkpoint would be:
     * For the audio format: Allow the user to slow the presentation rate
       of audio. For a prerecorded audio track including audio-only
       presentations, provide at least one setting between 75% and 80% of
       the original speed.
     * For the video format: Allow the user to slow the presentation rate
       of video. For a visual track, provide at least one setting between
       40% and 60% of the original speed.
     * For the image formats: None, since the Image content type label
       does not include checkpoint checkpoint 4.4.
     * Limitation of scope for any format: The user agent is not required
       to satisfy the requirements of this checkpoint for audio and
       animations whose recognized role is to create a purely stylistic
       effect.
       
   The following requirements would not apply:
     * When the user agent allows the user to slow the visual track of a
       synchronized multimedia presentation to between 100% and 80% of
       its original speed, synchronize the visual and audio tracks. Below
       80%, the user agent is not required to render the audio track.
       Note: The relevant applicability provision is provision three:
       control of a content property that the subject cannot recognize.
       In this case, no format implemented by the user agent supports
       synchronized multimedia.
       
      Step 4: Add requirements related to the selection.
      
   In this example, since the user agent implements a selection
   mechanism, it must satisfy the requirements associated with the
   selection label.
   
      Step 5: Add requirements associated with any supported input modality
      label.
      
   In this example, the claimant does not wish to claim conformance for
   complete operation for pointing device or voice input, so no
   requirements are added.
   
      Construct a well-formed conformance claim.
      
   The following information is an excerpt of that required for a
   well-formed claim:
     * Conformance level satisfied: Double-A
     * Information about the subject. Both the "main" user agent and the
       plug-in used to support video must be identified in the claim
       (since the plug-in is the component used to satisfy the
       requirements for video).
       
   The user agent does not conform unconditionally, therefore, the claim
   must also include the following information (excerpted from a complete
   claim):
     * A general statement about lack of support for the Speech content
       type label: "This user agent does not support the requirements of
       the Speech content type label. "
     * A specific statement about content type support for checkpoint
       4.4: "This user agent satisfies the requirements of the Animation
       content type label for the audio format A and the video format V.
       It does not satisfy the Animation requirements for animation
       formats Y and Z."
     * A specific statement about applicability for checkpoint 4.4: "The
       synchronized multimedia requirements of checkpoint checkpoint 4.4
       do not apply because the user agent does not implement any formats
       that support synchronized multimedia."
       
  3.2 Conformance levels
  
   Each conformance level defines a set of requirements, based on
   priority.
     * Conformance Level "A": the requirements of all Priority 1
       checkpoints.
     * Conformance Level "Double-A": the requirements of all Priority 1
       and 2 checkpoints.
     * Conformance Level "Triple-A": the requirements of all Priority 1,
       2, and 3 checkpoints.
       
   Note: Conformance levels are spelled out in text (e.g., "Double-A"
   rather than "AA") so they may be understood when rendered as speech.
   
  3.3 Content type labels
  
   Each content type label defines a set of requirements related to
   support for images, video, animations generally, visually displayed
   text (in color), and synthesized speech.
   
   VisualText
          This content type label refers to all of the requirements
          related to the visual rendering of text for the following
          checkpoints: 3.3, 4.1, and 4.2.
          
   ColorText
          This content type label refers to all of the requirements
          related to text foreground and background color for the
          following checkpoint: 10.4.
          
   Image
          This content type label refers to all of the requirements
          related to images (excluding animated images) for the following
          checkpoints: 3.1, 3.7, and 3.8. To conform, the user agent must
          implement at least one image format.
          
   Animation
          This content type label refers to all of the requirements
          related to animations (including video and animated images) for
          the following checkpoints: 3.2, 3.8, 4.4, 4.5, 4.7, and 4.8. To
          conform, the user agent must implement at least one animation
          format.
          
   Video
          This content type label refers to all of the requirements
          related to video for the following checkpoints: 2.5, 2.6, 3.2,
          and 3.8. To conform, the user agent must implement at least one
          video format.
          
   Audio
          This content type label refers to all of the requirements
          related to audio for the following checkpoints: 2.5, 2.6, 3.2,
          3.8, 4.4, 4.5, 4.7, 4.8, 4.9, 4.10, and 4.11 To conform, the
          user agent must implement at least one audio format.
          
   Speech
          This content type label refers to all of the requirements
          related to synthesized speech for the following checkpoints:
          4.12, 4.13, 4.14, 4.15, and 4.16. To conform, the user agent
          must support synthesized speech.
          
   Note: Some of the labels above require implementation of at least one
   format (e.g., for images). This document does not require
   implementation of specific formats, (e.g., PNG [PNG] versus SVG [SVG]
   for images). However, please see the requirements of checkpoint 8.2.
   
  3.4 Input modality labels
  
   Each input modality label defines a set of requirements related to
   support for pointing device and voice input. Input device requirements
   in this document are either stated generically (e.g., "input
   configuration" requirements) or as keyboard-specific requirements
   (e.g., "keyboard API").
   
   Pointer
          This input modality label refers to all of the input device
          requirements of this document, applied to pointing device
          input. For keyboard-specific requirements, substitute "pointing
          device input" for "keyboard." The set of pointing device input
          requirements does not include the requirements of checkpoint
          11.4.
          
   Voice
          This input modality label refers to all of the input device
          requirements of this document, applied to voice input. For
          keyboard-specific requirements, substitute "voice input" for
          "keyboard." The set of voice input requirements does not
          include the requirements of checkpoint 11.4.
          
   Note: Developers are encouraged to design user agents that are at
   least partially operable through all three input modalities.
   
  3.5 Selection label
  
   This document does not require the user agent to implement a selection
   mechanism in order to conform. However, if the user agent does
   implement a selection mechanism, in order to conform it must satisfy
   the relevant portions of the following checkpoints: 6.5, 7.1, 9.4,
   10.2, 10.3, and 5.4. The Selection label refers to the selection
   requirements of these checkpoints.
   
   If a user agent does not implement a selection mechanism, then a
   well-formed claim must say so.
   
   Note: This document does require implementation of both content focus
   and user interface focus; see checkpoint 9.1 and checkpoint 9.2.
   
  3.6 Checkpoint applicability
  
   A checkpoint (or part of a checkpoint) applies unless any one of the
   following conditions is met:
    1. The checkpoint makes requirements for graphical user interfaces or
       graphical viewports and the subject of the claim only has audio or
       tactile user interfaces or viewports.
    2. The checkpoint refers to a role of content (e.g., transcript,
       captions, associated conditional content, fee link,
       synchronization cue, client-side redirect, purpose of a table,
       etc.) that the subject of the claim cannot recognize because of
       how the content has been encoded in a particular format. For
       instance, HTML user agents can recognize "alt", OBJECT content, or
       NOFRAMES content as specified mechanisms for conditional content.
       HTML user agents are not expected to recognize that a nearby
       paragraph is a text equivalent for the image (though not marked up
       as such).
    3. The checkpoint requires control of a content property that the
       subject cannot recognize because of how the content has been
       encoded in a particular format. Some examples of this include:
          + captioning information that is "burned" into a video
            presentation and cannot be recognized as captions in the
            presentation format;
          + streamed content that cannot be fast advanced or reversed,
          + information or relationships encoded in scripts in a manner
            that cannot be recognized. For instance, the requirements of
            checkpoint 3.3 would not apply for animation effects
            unrecognized in a script. Some input device behavior may be
            controlled by scripts in a manner that the user agent cannot
            recognize. For example, when the author uses event bubbling
            to dispatch events, the user agent is not likely to recognize
            the full set of elements that may receive those events; the
            user agent is expected to recognize which element has the
            explicitly associated event handler.
       
  3.7 Well-formed conformance claims
  
   A claim is well-formed if meets the following conditions.
   
   Condition 1: The claim must include the following information:
    1. The date of the claim.
    2. The guidelines title/version: "User Agent Accessibility Guidelines
       1.0".
    3. The URI of the guidelines:
       http://www.w3.org/WAI/UA/WD-UAAG10-20010525.
    4. The conformance level satisfied: "A", "Double-A", or "Triple-A".
    5. Information about the subject. The subject of the claim may
       consist of one or more software components (e.g., a browser plus a
       multimedia player plus a plug-in). For each component, the claim
       must include the following:
          + The user agent name and version information (version number,
            minor release number, and any required patches or updates).
            The claim must also include the vendor name if it is required
            to identify the user agent.
          + The operating environment (e.g., operating system) name and
            version number.
       
   Condition 2: The claim must include the following information if the
   user agent conforms conditionally:
    1. Content type labels. Content type labels are used in assertions
       that the subject either (1) does not satisfy the requirements
       associated with the label (e.g., for a specific checkpoint, for
       any checkpoint, etc.), or (2) does satisfy the requirements
       associated with the label (e.g., for a particular format when
       satisfying the requirements of a checkpoint). In order to conform
       conditionally, a user agent must satisfy the requirements of at
       least one content type label.
    2. Input modality labels. Each input modality label ("Pointer" or
       "Voice") is an assertion that the user agent satisfies the
       requirements associated with the label.
    3. Selection label. If the user agent does not implement a selection
       mechanism, the claim must say so.
    4. A list of requirements (checkpoints or portions of checkpoints)
       that the claim asserts do not apply.
       
   Condition 3: If the claim is on the Web, it must conform to the "Web
   Content Accessibility Guidelines 1.0" [WCAG10], level A.
   
   A well-formed claim should also include the following information:
     * Information about which specifications have been implemented to
       satisfy the requirements of the document (e.g., those of guideline
       6 and guideline 8).
     * Rationale for any requirements that do not apply.
       
   This specification imposes no restrictions on the format used to make
   a well-formed claim. For instance, the claim may be marked up using
   HTML (see sample claim), or expressed in the Resource Description
   Framework (RDF) [RDF10].
   
  3.8 Validity of a claim
  
   A conformance claim is valid if the following conditions are met:
    1. The claim is well-formed.
    2. It is verified that the user agent satisfies the default set of
       requirements, in addition to (or except) those requirements added
       (or exempted) by the allowable mechanisms: conformance levels,
       content type labels, input modality labels, and applicability.
       
   It is not currently possible to validate a claim entirely
   automatically.
   
   Note: The subject of the claim may consist of more than one software
   component, and taken together they must satisfy all requirements that
   are not excluded through the claim. This includes assistive
   technologies and operating environment features that are part of a
   claim. Some components may not have to satisfy some requirements as
   long as the subject as a whole satisfies them. For instance, a
   particular component of the subject may not have to conform to the DOM
   APIs required by guideline 6 as long as the subject of the claim as a
   whole makes all content available through those APIs.
   
   Note: Ideally, the default user agent installation procedure should
   provide and install all components that are part of a conformance
   claim. This is because, the more software components the user must
   install in order to construct a conforming user agent, the higher the
   risk of failure. Failure may be due to inaccessible mechanisms for
   downloading and installing plug-ins, or lack of installation access
   privileges for a computer in a public space, etc.
   
    Responsibility for claims
    
   This specification imposes no restrictions about:
     * who may make a claim (e.g., vendors about their own user agents,
       third parties about those user agents, journalists about user
       agents, etc.), or
     * where claims may be published (e.g., on the Web or in paper
       documentation).
       
   Claimants (or relevant assuring parties) are solely responsible for
   the validity of their claims, keeping claims up to date, and proper
   use of the conformance icons. As of the publication of this document,
   W3C does not act as an assuring party, but it may do so in the future,
   or it may establish recommendations for assuring parties.
   
   Claimants are expected to modify or retract a claim if it may be
   demonstrated that the claim is not valid. Claimants are encouraged to
   claim conformance to the most recent User Agent Accessibility
   Guidelines Recommendation available.
   
    Conformance icons
    
   As part of a conformance claim, people may use a conformance icon (or,
   "conformance logo") on a Web site, on user agent packaging, in
   documentation, etc. Each conformance icon (chosen according to the
   appropriate conformance level) used on the Web must link to the W3C
   explanation of the icon. The appearance of a conformance icon does not
   imply that W3C has reviewed or validated the claim. An icon must be
   accompanied by a well-formed claim.
   
   Draft Note: In the event this document becomes a W3C Recommendation
   this document will link to the W3C Web site for additional information
   about the icons and how to use them.
   
  3.9 Additional conformance topics
  
   The following sections describe additional conformance requirements
   and exemptions.
   
    Conformance and implementing specifications
    
   User agents may conform (both unconditionally and conditionally) by
   satisfying the the specification requirements of this document for
   some, but not all, implemented specifications and APIs. For example, a
   developer may implement ten image formats but only wish to claim
   "Image" conformance for three of them.
   
   In particular, the following requirements may be satisfied for some
   but not all implemented specifications:
     * requirements associated with a content type label;
     * the API requirements of checkpoint checkpoint 6.3, checkpoint 6.4,
       and checkpoint 6.5.
     * the rendering requirements of checkpoints 2.1 and 2.2;
     * the format requirements of checkpoints 8.1 and 8.2.
       
    Requirements for content, user agent features, or both
    
   Each checkpoint definition indicates whether the requirements of the
   checkpoint must be satisfied by the subject of the claim for:
    1. content only, i.e., the document object.
    2. user agent features only, i.e., everything besides the document
       object (e.g., components of the user agent user interface, the
       user agent documentation, and the user interface focus).
    3. both content and user agent features.
       
   The user agent may satisfy a "content only" requirement with a
   mechanism that also involves user agent features. For instance, to
   satisfy checkpoint 4.9, the user agent may provide a single control
   for all volume (including content and user interface features).
   Similarly, to satisfy checkpoint 3.3, the user agent may offer a
   single configuration that turns off blinking in both content and the
   user interface.
   
   The user agent may satisfy the configuration requirements of this
   document through configuration files (e.g., profiles, initialization
   files, etc.). For instance, style sheets might be used as a mechanism
   to satisfy the highlight and configuration requirements of checkpoints
   10.2 and 10.4. Any functionality that is configurable through a
   configuration file should also be configurable through the user agent
   user interface. Furthermore, if configuration files may be edited by
   hand, the user agent documentation should explain the configuration
   file format.
   
   Note. Depending on the checkpoint, content focus and selection
   requirements may have any of the three labels. Content focus and
   selection are "state variables" that straddle both worlds of content
   and user agent user interface.
   
    Requirements satisfied through user interface or API
    
   The requirements of guideline 6 must be satisfied by implementing
   APIs.
   
   The requirements of the other guidelines must be satisfied by at least
   one mechanism other than an API. These requirements are not meant to
   be satisfied by assistive technologies (unless those technologies are
   part of a conformance claim). For example, checkpoint 9.3 involves
   navigation that must be possible through the user interface, not just
   via an API.
   
    Use of operating environment features as part of conformance
    
   To satisfy the requirements of this document, developers are
   encouraged to adopt operating environment conventions and features
   that benefit accessibility. When an operating environment feature
   (e.g., the operating system's audio control feature, including its
   user interface) is adopted to satisfy the requirements of this
   document, it is part of the subject of the claim.
   
   Developers may provide access through the user agent's user interface
   to operating environment features adopted to satisfy the requirements
   of this document. For example, if the user agent adopts the operating
   system's audio control feature to satisfy checkpoint 4.9, the user
   agent may (but is not required to) include those controls in its own
   user interface.
   
    Restricted functionality and conformance
    
   User agents do not conform to this document on a per-resource basis;
   claims are not as specific as "the user agent conforms for this
   particular Web page." A user agent conforms if it satisfies the
   requirements of this document for most general-purpose content, in
   ordinary operating conditions.
   
   In some cases, an author may wish to limit the user agent's
   functionality for specific reasons, such as to protect intellectual
   property rights, for security reasons, or to provide a read-only view
   (allowing no user interaction). Content that limits the functionality
   of the user agent in some cases does not automatically invalidate a
   conformance claim. A valid conformance claim remains valid as long as
   the user agent is capable of satisfying the requirements of the
   document (i.e., the functionalities have been implemented), and does
   so for most general-purpose content.
   
   Note: The User Agent Accessibility Guidelines Working Group recognizes
   that further work is necessary in the area of digital rights
   management as it relates to accessibility.
   
4. Glossary

   This glossary is normative. Some terms (or parts of explanations of
   terms) may not have an impact on conformance.
   
   Note: In this document, glossary terms generally link to the
   corresponding entries in this section. These terms are also
   highlighted through style sheets and identified as glossary terms
   through markup.
   
   a · b · c · d · e · f · g · h · i · j · k · l · m · n · o · p · q · r
   · s · t · u · v · w · x · y · z
   
   Activate
          In this document, the verb "to activate" means (depending on
          context) either:
          
          + To execute or carry out one or more behaviors associated with
            an enabled element.
          + To execute or carry out one or more behaviors associated with
            a component of the user agent user interface.
            
          The effect of activation depends on the type of enabled element
          or user interface control. For instance, when a link is
          activated, the user agent generally retrieves the linked Web
          resource. When a form element is activated, it may change state
          (e.g., check boxes) or may take user input (e.g., a text entry
          field).
          
   Alert
          In this document, "to alert" means to make the user aware of
          some event, without requiring acknowledgement. For example, the
          user agent may alert the user that new content is available on
          the server by displaying a text message in the user agent's
          status bar. See checkpoint 1.3 for requirements about alerts.
          
   Animation
          In this document, the term "animation" refers to any visual
          movement effect created automatically (i.e., without manual
          user interaction). This definition of animation includes video
          and animated images. Animation techniques include:
          
          + graphically displaying a sequence of snapshots within the
            same region (e.g., as is done for video and animated images).
            The series of snapshots may be provided by a single resource
            (e.g., an animated GIF image) or from distinct resources
            (e.g., a series of images downloaded continuously by the user
            agent).
          + scrolling text (e.g., achieved through markup or style
            sheets).
          + displacing graphical objects around the viewport (e.g., a
            picture of a ball that is moved around the viewport giving
            the impression that it is bouncing off of the viewport
            edges). For instance, the SMIL 2.0 [SMIL20] animation modules
            explain how to create such animation effects in a declarative
            manner (i.e., not by composition of successive snapshots).
            
   Applet
          An applet is a program (generally written in the Java
          programming language) that is part of content, and that the
          user agent executes.
          
   Application Programming Interface (API), conventional
          input/output/device API
          An application programming interface (API) defines how
          communication may take place between applications.
          
          Implementing APIs that are independent of a particular
          operating environment (as are the W3C DOM Level 2
          specifications) may reduce implementation costs for
          multi-platform user agents and promote the development of
          multi-platform assistive technologies. Implementing
          conventional APIs for a particular operating environment may
          reduce implementation costs for assistive technology developers
          who wish to interoperate with more than one piece of software
          running on that operating environment.
          
          A "device API" defines how communication may take place with an
          input or output device such as a keyboard, mouse, video card,
          etc.
          
          In this document, an "input/output API" defines how
          applications or devices communicate with a user agent. As used
          in this document, input and output APIs include, but are not
          limited to, device APIs. Input and output APIs also include
          more abstract communication interfaces than those specified by
          device APIs. A "conventional input/output API" is one that is
          expected to be implemented by software running on a particular
          operating environment. For example, on desktop computers today,
          the conventional input APIs are for the mouse and keyboard. For
          touch screen devices or mobile devices, conventional input APIs
          may include stylus, buttons, voice, etc. The graphical display
          and sound card are considered conventional ouput devices for a
          graphical desktop computer environment, and each has an
          associated API.
          
   Assistive technology
          In the context of this document, an assistive technology is a
          user agent that:
          
         1. relies on services (such as retrieving Web resources, parsing
            markup, etc.) provided by one or more other "host" user
            agents. Assistive technologies communicate data and messages
            with host user agents by using and monitoring APIs.
         2. provides services beyond those offered by the host user
            agents to meet the requirements of a users with disabilities.
            Additional services include alternative renderings (e.g., as
            synthesized speech or magnified content), alternative input
            methods (e.g., voice), additional navigation or orientation
            mechanisms, content transformations (e.g., to make tables
            more accessible), etc.
            
          For example, screen reader software is an assistive technology
          because it relies on browsers or other software to enable Web
          access, particularly for people with visual and learning
          disabilities.
          
          Examples of assistive technologies that are important in the
          context of this document include the following:
          
          + screen magnifiers, which are used by people with visual
            disabilities to enlarge and change colors on the screen to
            improve the visual readability of rendered text and images.
          + screen readers, which are used by people who are blind or
            have reading disabilities to read textual information through
            synthesized speech or braille displays.
          + speech recognition software, which may be used by people who
            have some physical disabilities.
          + alternative keyboards, which are used by people with certain
            physical disabilities to simulate the keyboard.
          + alternative pointing devices, which are used by people with
            certain physical disabilities to simulate mouse pointing and
            button activations.
            
          Beyond this document, assistive technologies consist of
          software or hardware that has been specifically designed to
          assist people with disabilities in carrying out daily
          activities, e.g., wheelchairs, reading machines, devices for
          grasping, text telephones, vibrating pagers, etc. For example,
          the following very general definition of "assistive technology
          device" comes from the (U.S.) Assistive Technology Act of 1998
          [AT1998]:
          
     Any item, piece of equipment, or product system, whether acquired
     commercially, modified, or customized, that is used to increase,
     maintain, or improve functional capabilities of individuals with
     disabilities.
     
   Attribute
          This document uses the term "attribute" in the XML sense: an
          element may have a set of attribute specifications (refer to
          the XML 1.0 specification [XML] section 3).
          
   Audio-only presentation
          An audio-only presentation is content consisting exclusively of
          one or more audio tracks presented concurrently or in series.
          Examples of an audio-only presentation include a musical
          performance, a radio-style news broadcast, and a book reading.
          
   Audio track
          An audio object is content rendered as sound through an audio
          viewport. An audio track is an audio object that is intended as
          a whole or partial presentation. An audio track may, but is not
          required to, correspond to a single audio channel (left or
          right audio channel).
          
   Auditory description
          An auditory description (sometimes, "audio description") is
          either a prerecorded human voice or a synthesized voice
          (recorded or generated dynamically) describing the key visual
          elements of a movie or other animation. The auditory
          description is synchronized with the audio track of the
          presentation, usually during natural pauses in the audio track.
          Auditory descriptions include information about actions, body
          language, graphics, and scene changes.
          
   Author styles
          Authors styles are style property values that come from a
          document, or from its associated style sheets, or that are
          generated by the server.
          
   Captions
          Captions (sometimes, "closed captions") are text transcripts
          that are synchronized with other audio tracks or visual tracks.
          Captions convey information about spoken words and non-spoken
          sounds such as sound effects. They benefit people who are deaf
          or hard-of-hearing, and anyone who cannot hear the audio (e.g.,
          someone in a noisy environment). Captions are generally
          rendered graphically above, below, or superimposed over video.
          Note: Other terms that include the word "caption" may have
          different meanings in this document. For instance, a "table
          caption" is a title for the table, often positioned graphically
          above or below the table. In this document, the intended
          meaning of "caption" will be clear from context.
          
   Character encoding
          A "character encoding" is a mapping from a character set
          definition to the actual code units used to represent the data.
          Please refer to the Unicode specification [UNICODE] for more
          information about character encodings. Refer to "Character
          Model for the World Wide Web" [CHARMOD] for additional
          information about characters and character encodings.
          
   Collated text transcript
          A collated text transcript is a text equivalent of a movie or
          other animation. More specifically, it is the combination of
          the text transcript of the audio track and the text equivalent
          of the visual track. For example, a collated text transcript
          typically includes segments of spoken dialogue interspersed
          with text descriptions of the key visual elements of a
          presentation (actions, body language, graphics, and scene
          changes). See also the definitions of text transcript and
          auditory description. Collated text transcripts are essential
          for individuals who are deaf-blind.
          
   Conditional content
          Conditional content is content that, by specification, should
          be made available to users through the user interface,
          generally under certain conditions (e.g., based on user
          preferences or operating environment limitations). Some
          examples of conditional content mechanisms include:
          
          + The "alt" attribute of the IMG element in HTML 4. According
            to section 13.2 of the HTML 4 specification ([HTML4]): "User
            agents must render alternate text when they cannot support
            images, they cannot support a certain image type or when they
            are configured not to display images.
          + OBJECT elements in HTML 4. Section 13.3.1 of the HTML 4
            specification ([HTML4]) explains the conditional rendering
            rules of (nested) OBJECT elements.
          + The switch element and test attributes in SMIL 1.0. Sections
            4.3 and 4.4, respectively, of SMIL 1.0 [SMIL] explain the
            conditional rendering rules of these features.
          + SVG 1.0 [SVG] also includes a switch element and several
            attributes for conditional processing.
          + The NOSCRIPT and NOFRAMES elements in HTML 4 [HTML4] allow
            the author to provide content under conditions when the user
            agent does not support scripts or frames, or the user has
            turned off support for scripts or frames.
            
          Specifications vary in how completely they define how and when
          to render conditional content. For instance, the HTML 4
          specification includes the rendering conditions for the "alt"
          attribute, but not for the "title" attribute. The HTML 4
          specification does indicate that the "title" attribute should
          be available to users through the user interface ("Values of
          the title attribute may be rendered by user agents in a variety
          of ways...").
          
          Note: The Web Content Accessibility Guidelines 1.0 requires
          that authors provide text equivalents for non-text content.
          This is generally done by using the conditional content
          mechanisms of a markup language. Since conditional content may
          not be rendered by default, the current document requires the
          user agent to provide access to unrendered conditional content
          (checkpoint 2.3 and checkpoint 2.9) as it may have been
          provided to promote accessibility.
          
   Configure, control
          In the context of this document, the verbs "to control" and "to
          configure" share in common the idea of governance such as a
          user may exercise over interface layout, user agent behavior,
          rendering style, and other parameters required by this
          document. Generally, the difference in the terms centers on the
          idea of persistence. When a user makes a change by
          "controlling" a setting, that change usually does not persist
          beyond that user session. On the other hand, when a user
          "configures" a setting, that setting typically persists into
          later user sessions. Furthermore, the term "control" typically
          means that the change can be made easily (such as through a
          keyboard shortcut) and that the results of the change occur
          immediately, whereas the term "configure" typically means that
          making the change requires more time and effort (such as making
          the change via a series of menus leading to a dialog box, via
          style sheets or scripts, etc.) and that the results of the
          change may not take effect immediately (e.g., due to time spent
          reinitializing the system, initiating a new session, rebooting
          the system). In order to be able to configure and control the
          user agent, the user needs to be able to "read" as well as
          "write" values for these parameters. Configuration settings may
          be stored in a profile. The range and granularity of the
          changes that can be controlled or configured by the user may
          depend on limitations of the operating environment or hardware.
          
          Both configuration and control may apply at different "levels":
          across Web resources (i.e., at the user agent level, or
          inherited from the operating environment), to the entirety of a
          Web resource, or to components of a Web resource (e.g., on a
          per-element basis). In this document, the term global
          configuration is used to emphasize when a configuration applies
          across Web resources. For example, users may configure the user
          agent to apply the same font family across Web resources, so
          that all text is displayed by default using that font family.
          On the other hand, the user may wish to configure the rendering
          of a particular element type, which may be done through style
          sheets. Or, the user may wish to control the text size
          dynamically (zooming in and out) for a given document, without
          having to reconfigure the user agent. Or, the user may wish to
          control the text size dynamically for a given element, e.g., by
          navigating to the element and zooming in on it.
          
          User agents may allow users to choose configurations based on
          various parameters, such as hardware capabilities, natural
          language, etc.
          
          Note: In this document, the noun "control" refers to a
          component of the user agent user interface.
          
   Content
          In this specification, the noun "content" is used in three
          ways:
          
         1. It is used to mean the document object as a whole or in
            parts.
         2. It is used to mean the content of an HTML or XML element, in
            the sense employed by the XML 1.0 specification ([XML],
            section 3.1): "The text between the start-tag and end-tag is
            called the element's content." Context should indicate that
            the term content is being used in this sense.
         3. It is used in the context of the phrases non-text content and
            text content.
            
   Device-independence
          Device-independence refers to the ability to make use of
          software with any supported input or output device.
          
   Document object, Document Object Model (DOM)
          In general usage, the term "document object" refers to the user
          agent's representation of data (e.g., a document). This data
          generally comes from the document source, but may also be
          generated (from style sheets, scripts, transformations, etc.),
          produced as a result of preferences set within the user agent,
          added as the result of a repair performed automatically by the
          user agent, etc. Some data that is part of the document object
          is routinely rendered (e.g., in HTML, what appears between the
          start and end tags of elements and the values of attributes
          such as "alt", "title", and "summary"). Other parts of the
          document object are generally processed by the user agent
          without user awareness, such as DTD-defined names of element
          types and attributes, and other attribute values such as
          "href", "id", etc. These guidelines require that users have
          access to both types of data through the user interface. Most
          of the requirements of this document apply to the document
          object after its construction. However, a few checkpoints
          (e.g., checkpoint 2.7 and checkpoint 2.10) may affect the
          construction of the document object.
          
          A "document object model" is the abstraction that governs the
          construction of the user agent's document object. The document
          object model employed by different user agents may vary in
          implementation and sometimes in scope. This specification
          requires that user agents implement the APIs defined in
          Document Object Model (DOM) Level 2 Specifications ([DOM2CORE]
          and [DOM2STYLE]) for access to HTML, XML, and CSS content.
          These DOM APIs allow authors to access and modify the content
          via a scripting language (e.g., JavaScript) in a consistent
          manner across different scripting languages. As a standard
          interface, the DOM APIs make it easier not just for authors,
          but for assistive technology developers to extract information
          and render it in ways most suited to the needs of particular
          users.
          
   Document character set
          A document character set (an concept taken from SGML) is a
          sequence of abstract characters that may appear in Web content
          represented in a particular format (such as HTML, XML, etc.). A
          document character set consists of:
          
          + a "repertoire", A set of abstract characters, such as the
            Latin letter "A", the Cyrillic letter "I", the Chinese
            character meaning "water", etc.
          + Code positions: A set of integer references to characters in
            the repertoire.
            
          For instance, the character set required by the HTML 4
          specification [HTML4] is defined in the Unicode specification
          [UNICODE]. Refer to "Character Model for the World Wide Web"
          [CHARMOD] for more information about document character sets.
          
   Document source, text source
          In this document, the term "document source" refers to the data
          that the user agent receives as the direct result of a request
          for a Web resource (e.g., as the result of an HTTP/1.1
          [RFC2616] "GET", or as the result of viewing a resource on the
          local file system). The document source generally refers to the
          "payload" of the user agent's request, and doesn't generally
          include information exchanged as part of the transfer protocol.
          The document source is data that is prior to any repair by the
          user agent (e.g., prior to repairing invalid markup). "Text
          source" refers to document source that is composed of text.
          
   Documentation
          Documentation refers to information that supports the use of a
          user agent. This information may be found in manuals,
          installation instructions, the help system, tutorials, etc.
          Documentation may be distributed (e.g., some parts may be
          delivered on CD-ROM, others on the Web). Refer to guideline 12
          for information about documentation requirements.
          
   Element
          This document uses the term "element" both in the XML sense (an
          element is a syntactic construct as described in the XML 1.0
          specification [XML], section 3) and more generally to mean a
          type of content (such as video or sound) or a logical construct
          (such as a header or list).
          
   Enabled element, disabled element
          An enabled element is a piece of content with associated
          behaviors that may be activated through the user interface or
          through an API. The set of elements that a user agent enables
          is generally derived from, but is not limited to, the set of
          interactive elements defined by implemented markup languages.
          
          Some elements may only be enabled elements for part of a user
          session. For instance, an element may be disabled by a script
          as the result of user interaction. Or, an element may only be
          enabled during a given time period (e.g., during part of a SMIL
          1.0 [SMIL] presentation). Or, the user may be viewing content
          in "read-only" mode, which may disable some elements.
          
          A disabled element is a piece of content that is potentially an
          enabled element, but is not in the current session. Generally,
          disabled elements will be interactive elements that are not
          enabled in the current session. This document distinguishes
          disabled elements (not currently enabled) from non-interactive
          elements (never enabled).
          
          For the requirements of this document, user selection does not
          constitute user interaction with enabled elements. See the
          definition of content focus.
          
          Note: Enabled and disabled elements come from content; they are
          not part of the user agent user interface.
          
          Note: The term "active element" is not used in this document
          since it may suggest several different concepts, including:
          interactive element, enabled element, an element "in the
          process of being activated" (which is the meaning of ':active'
          in CSS2 [CSS2], for example).
          
   Equivalent (for content)
          The term "equivalent" is used in this document as it is used in
          the Web Content Accessibility Guidelines 1.0 [WCAG10]:
          
     Content is "equivalent" to other content when both fulfill
     essentially the same function or purpose upon presentation to the
     user. In the context of this document, the equivalent must fulfill
     essentially the same function for the person with a disability (at
     least insofar as is feasible, given the nature of the disability
     and the state of technology), as the primary content does for the
     person without any disability.
     
          Equivalents include text equivalents (e.g., text equivalents
          for images; text transcripts for audio tracks; collated text
          transcripts for multimedia presentations and animations) and
          non-text equivalents (e.g., a prerecorded auditory description
          of a visual track of a movie, or a sign language video
          rendition of a written text, etc.).
          
          Each markup language defines its own mechanisms for specifying
          conditional content, and these mechanisms may be used by
          authors to provide text equivalents. For instance, in HTML 4
          [HTML4] or SMIL 1.0 [SMIL], authors may use the "alt" attribute
          to specify a text equivalent for some elements. In HTML 4,
          authors may provide equivalents (or portions of equivalents) in
          attribute values (e.g., the "summary" attribute for the TABLE
          element), in element content (e.g., OBJECT for external content
          it specifies, NOFRAMES for frame equivalents, and NOSCRIPT for
          script equivalents), and in prose. Please consult the Web
          Content Accessibility Guidelines 1.0 [WCAG10] and its
          associated Techniques document [WCAG10-TECHS] for more
          information about equivalents.
          
   Events and scripting, event handler
          User agents often perform a task when an event occurs that is
          due to user interaction (e.g., document loading, mouse motion
          or a key press), a request from the operating environment, etc.
          Some markup languages allow authors to specify that a script,
          called an event handler, be executed when the event occurs. An
          event handler is "explicitly associated with an element" when
          the event handler is associated with that element through
          markup or the DOM. The term "event bubbling" describes a
          programming style where a single event handler dispatches
          events to more than one element. In this case, the event
          handlers are not explicitly associated with the elements
          receiving the events (except for the single element that
          dispatches the events).
          
          Note: The combination of HTML, style sheets, the Document
          Object Model (DOM) and scripting is commonly referred to as
          "Dynamic HTML" or DHTML. However, as there is no W3C
          specification that formally defines DHTML, this document only
          refers to event handlers and scripts.
          
   Explicit user request
          In several checkpoints in this document, the term "explicit
          user request" is used to mean any user interaction recognized
          with certainty to be for a specific purpose. For instance, when
          the user selects "New viewport" in the user agent's user
          interface, this is an explicit user request for a new viewport.
          On the other hand, it is not an explicit request when the user
          activates a link and that link has been marked up by the author
          to open a new viewport (since the user may not know that a new
          viewport will open). Nor is it an explicit user request even if
          the link text states "will open a new viewport". Some other
          examples of explicit user requests include "yes" responses to
          prompts from the user agent, configuration through the user
          agent's user interface, activation of known form submit
          elements, and link activation (which should not be assumed to
          mean more than "get this linked resource", even if the link
          text or title or role indicates more). Some examples of
          behaviors that happen without explicit user request include
          changes due to scripts.
          
          Note: Users do make mistakes. For example, a user may submit a
          form inadvertently by activating a known form submit element.
          In this document, this type of mistake is still considered an
          explicit user request.
          
   Fee link
          For the purpose of this document, the term "fee link" refers to
          a link that when activated, debits the user's electronic
          "wallet" (generally, a "micropayment"). The link's role as a
          fee link is identified through markup (in a manner that the
          user agent can recognize). This definition of fee link excludes
          payment mechanisms (e.g., some form-based credit card
          transactions) that cannot be recognized by the user agent as
          causing payments. For more information about fee links, refer
          to "Common Markup for micropayment per-fee-links"
          [MICROPAYMENT].
          
   Focus, content focus, user interface focus, current focus
          In this document, the term "content focus" refers to a user
          agent mechanism that satisfies all of the following properties:
          
         1. It designates zero or one element in content that is either
            enabled or disabled. (In general, the focus should only
            designate enabled elements, but it may also designate
            disabled elements.)
         2. The user may "set" content focus (programmatically or through
            the user interface) on an enabled element without triggering
            the associated behaviors.
         3. It has state. The content focus should only move from one
            element to another on explicit user request.
         4. It may be used (programmatically or through the user
            interface) to trigger the behaviors associated with an
            enabled element. This is generally implemented by making the
            focus respond to input device events (often just keyboard
            events).
            
          User interface mechanisms may resemble content focus, but do
          not satisfy all of the properties. For example, text editors
          often implement a "caret" that indicates the current location
          of text input or editing. The caret may have state and may
          respond to input device events, but it does not enable users to
          activate the behaviors associated with enabled elements.
          
          The user interface focus shares the properties of the content
          focus except the first: the user interface focus designates
          zero or one control of the user agent user interface that has
          associated behaviors (e.g., radio button, text box, menu,
          etc.).
          
          On the screen, the content focus may be highlighted using
          colors, fonts, graphics, magnification, etc. The content focus
          may also be highlighted when rendered as speech, for example
          through changes in speech prosody. The dimensions of the
          rendered content focus may exceed those of the viewport.
          
          In this document, each viewport is expected to have at most one
          content focus and at most one user interface focus. This
          document includes requirements for content focus only, for user
          interface focus only, and for both. When a requirement refers
          to both, the term "focus" is used.
          
          When several viewports coexist, at most one viewport's content
          focus or user interface focus responds to input events; this is
          called the current focus.
          
   Graphical
          In this document, the term "graphical" refers to information
          (text, colors, graphics, images, animations, etc.) rendered for
          visual consumption.
          
   Highlight
          In this document, "to highlight" means to emphasize through the
          user interface. For example, user agents highlight which
          content is selected or focused. Graphical highlight mechanisms
          include dotted boxes, underlining, and reverse video.
          Synthesized speech highlight mechanisms include alterations of
          voice pitch and volume.
          
   Input configuration
          An input configuration is the mapping of user agent
          functionalities to some user interface input mechanisms (e.g.,
          menus, buttons, keyboard keys, voice commands, etc.). The
          default input configuration is the mapping the user finds after
          installation of the software; it must be documented (per
          checkpoint 12.3]). Input configurations may be affected by
          author-specified bindings (e.g., through the "accesskey"
          attribute of HTML 4 [HTML4]).
          
   Interactive element, non-interactive element,
          An interactive element is piece of content that, by
          specification, may have associated behaviors to be executed or
          carried out as a result of user or programmatic interaction.
          For instance, the interactive elements of HTML 4 [HTML4]
          include: links, image maps, form elements, elements with a
          value for the "longdesc" attribute, and elements with event
          handlers explicitly associated with them (e.g., through the
          various "on" attributes). The role of an element as an
          interactive element is subject to applicability. A
          non-interactive element is an element that, by specification,
          does not have associated behaviors. The expectation of this
          document is that interactive elements become enabled elements
          in some sessions, and non-interactive elements never become
          enabled elements.
          
   Natural language
          Natural language is spoken, written, or signed human language
          such as French, Japanese, and American Sign Language. On the
          Web, the natural language of content may be specified by markup
          or HTTP headers. Some examples include the "lang" attribute in
          HTML 4 ([HTML4] section 8.1), the "xml:lang" attribute in XML
          1.0 ([XML], section 2.12), the HTML 4 "hreflang" attribute for
          links in HTML 4 ([HTML4], section 12.1.5), the HTTP
          Content-Language header ([RFC2616], section 14.12) and the
          Accept-Language request header ([RFC2616], section 14.4). See
          also the definition of script.
          
   Normative, informative
          As used in this document, the term "normative" refers to "that
          on which the requirements of this document depend for their
          most precise statement." What is normative is required for
          conformance (though the conformance scheme of this document
          allows claimants to exempt certain normative provisions as long
          as the claim discloses the exemption). What is identified as
          "informative" (sometimes, "non-normative") is never required
          for conformance.
          
   Operating environment
          The term "operating environment" refers to the environment that
          governs the user agent's operation, whether it is an operating
          system or a programming language environment such as Java.
          
   Override
          In this document, the term "override" means that one
          configuration or behavior preference prevails over another.
          Generally, the requirements of this document involve user
          preferences prevailing over author preferences and user agent
          default settings and behaviors. Preferences may be multi-valued
          in general (e.g., the user prefers blue over red or yellow),
          and include the special case of two values (e.g., turn on or
          off blinking text content).
          
   Placeholder
          A placeholder is content generated by the user agent to replace
          author-supplied content. A placeholder may be generated as the
          result of a user preference (e.g., to not render images) or as
          repair content (e.g., when an image cannot be found).
          Placeholders can be any type of content, including text and
          images.
          
          This document includes requirements that the user be able to
          view the original author-supplied content associated with a
          placeholder. To satisfy these requirements, the user agent
          might render the content in place of the placeholder or in a
          separate viewport (leaving the placeholder as is). A request to
          view the original content associated with a placeholder is
          considered an explicit user request to render that content.
          
          This document does not require user agents to include
          placeholders in the document object. A placeholder that is
          inserted in the document object should conform to the Web
          Content Accessibility Guidelines 1.0 [WCAG10]. If a placeholder
          is not part of the document object, it is part of the user
          interface only (and subject, for example, to checkpoint 1.3).
          
   Plug-in
          A plug-in is a program runs as part of the user agent and it is
          not part of content. Users generally choose to include or
          exclude plug-ins from their user agent.
          
   Point of regard
          The point of regard is a position in rendered content that the
          user is presumed to be viewing. The dimensions of the point of
          regard may vary. For example, it may be a point (e.g., a moment
          in an audio rendering or a cursor in a graphical rendering), or
          a range of text (e.g., focused text), or a two-dimensional area
          (e.g., content rendered through a two-dimensional graphical
          viewport). The point of regard is almost always within a
          viewport (though the dimensions of the point of regard could
          exceed those of the viewport). The point of regard may also
          refer to a particular moment in time for content that changes
          over time (e.g., an audio-only presentation). User agents may
          determine the point of regard in a number of ways, including
          based on viewport position in content, content focus,
          selection, etc. A user agent should not change the point of
          regard unexpectedly as this may disorient the user.
          
   Profile
          A profile is a named and persistent representation of user
          preferences that may be used to configure a user agent.
          Preferences include input configurations, style preferences,
          natural language preferences, etc. In operating environments
          with distinct user accounts, profiles enable users to
          reconfigure software quickly when they log on, and profiles may
          be shared by several users. Platform-independent profiles are
          useful for those who use the same user agent on different
          platforms.
          
   Prompt
          In this document, "to prompt" means to require input from the
          user. The user agent should allow users to configure how they
          wish to be prompted. For instance, for a user agent
          functionality X, configurations might include: always do X
          without prompting me, never do X without prompting me, never do
          X but tell me when you could have, never do X and never tell me
          that you could have, etc.
          
   Properties, values, and defaults
          A user agent renders a document by applying formatting
          algorithms and style information to the document's elements.
          Formatting depends on a number of factors, including where the
          document is rendered: on screen, on paper, through
          loudspeakers, on a braille display, on a mobile device, etc.
          Style information (e.g., fonts, colors, speech prosody, etc.)
          may come from the elements themselves (e.g., certain font and
          phrase elements in HTML), from style sheets, or from user agent
          settings. For the purposes of these guidelines, each formatting
          or style option is governed by a property and each property may
          take one value from a set of legal values. Generally in this
          document, the term "property" has the meaning defined in CSS 2
          ([CSS2], section 3). A reference to "styles" in this document
          means a set of style-related properties.
          The value given to a property by a user agent when it is
          installed is called the property's default value.
          
   Recognize
          Authors encode information in markup languages, style sheet
          languages, scripting languages, protocols, etc. When the
          information is encoded in a manner that allows the user agent
          to process it with certainty, the user agent can "recognize"
          the information. For instance, HTML allows authors to specify a
          heading with the H1 element, so a user agent that implements
          HTML can recognize that content as a heading. If the author
          creates headings using a visual effect alone (e.g., by
          increasing the font size), then the author has encoded the
          heading in a manner that does not allow the user agent to
          recognize it as a heading.
          
          Some requirements of this document depend on content roles,
          content relationships, timing relationships, and other
          information supplied by the author. These requirements only
          apply when the author has encoded that information in a manner
          that the user agent can recognize. See the section on
          conformance for more information about applicability.
          
          In practice, user agents will rely heavily on information that
          the author has encoded in a markup language or style sheet
          language. On the other hand, behaviors, style, and meaning
          encoded in a script may not be recognized by the user agent as
          easily. The Techniques document [UAAG10-TECHS] lists some
          markup known to affect accessibility that user agents can
          recognize.
          
   Rendered content, rendered text
          Rendered content is the part of content that the user agent
          makes available to the user's senses of sight and hearing (and
          only those senses for the purposes of this document). Any
          content that causes an effect that may be perceived through
          these senses constitutes rendered content. This includes text
          characters, images, style sheets, scripts, and anything else in
          content that, once processed, may be perceived through sight
          and hearing
          Note: In the context of this document, "invisible content" is
          content that influences graphical rendering of other content
          but is not rendered itself. Similarly, "silent content" is
          content that influences audio rendering of other content but is
          not rendered itself. Neither invisible nor silent content is
          considered rendered content.
          
   Repair content, repair text
          In this document, the term "repair content" refers to content
          generated by the user agent in order to correct an error
          condition. "Repair text" means repair content consisting only
          of text. Some error conditions that may lead to the generation
          of repair content include:
          
          + Erroneous or incomplete content (e.g., ill-formed markup,
            invalid markup, missing conditional content that is required
            by specification, etc.);
          + Missing resources for handling or rendering content (e.g.,
            the user agent lacks a font family to display some
            characters, the user agent doesn't implement a particular
            scripting language, etc.);
            
          This document does not require user agents to include repair
          content in the document object. Repair content inserted in the
          document object should conform to the Web Content Accessibility
          Guidelines 1.0 [WCAG10]. For more information about repair
          techniques for Web content and software, refer to "Techniques
          for Authoring Tool Accessibility Guidelines 1.0"
          [ATAG10-TECHS].
          
   Script
          In this document, the term "script" almost always refers to a
          scripting (programming) language used to create dynamic Web
          content. However, in checkpoints referring to the written
          (natural) language of content, the term "script" is used as in
          Unicode [UNICODE] to mean "A collection of symbols used to
          represent textual information in one or more writing systems."
          
          Information encoded in scripts may be difficult for a user
          agent to recognize For instance, a user agent is not expected
          to recognize that, when executed, a script will calculate a
          factorial. The user agent will be able to recognize some
          information in a script by virtue of implementing the scripting
          language or a known program library (e.g., the user agent is
          expected to recognize when a script will open a viewport or
          retrieve a resource from the Web).
          
   Selection, current selection
          In this document, the term "selection" refers to a user agent
          mechanism for identifying a range of content (e.g., text,
          images, etc.). Generally, user agents limit selection to text
          content (e.g., one or more fragments of text). The selection
          may be structured (based on the document tree) or unstructured
          (e.g., text-based). The range may be empty.
          
          On the screen, the selection may be highlighted using colors,
          fonts, graphics, magnification, etc. The selection may also be
          highlighted when rendered as speech, for example through
          changes in speech prosody. The dimensions of the rendered
          selection may exceed those of the viewport.
          
          The selection may be used for a variety of purposes: for cut
          and paste operations, to designate a specific element in a
          document for the purposes of a query, as an indication of point
          of regard, etc.
          
          The selection has state. It may be set programmatically or
          through the user interface.
          
          In this document, each viewport is expected to have at most one
          selection. When several viewports coexist, at most one
          viewport's selection responds to input events; this is called
          the current selection.
          
          See the section on the selection label for information about
          implementing a selection and conformance.
          
          Note: Some user agents may also implement a selection for
          designating a range of information in controls of the user
          agent user interface. The current document only includes
          requirements for a content selection mechanism.
          
   Support, implement, conform
          In this document, the terms "support", "implement", and
          "conform" all refer to what a developer has designed a user
          agent to do, but they represent different degrees of
          specificity. A user agent "supports" general classes of
          objects, such as "images" or "Japanese". A user agent
          "implements" a specification (e.g., the PNG and SVG image
          format specifications, a particular scripting language, etc.)
          or an API (e.g., the DOM API) when it has been programmed to
          follow all or part of a specification. A user agent "conforms
          to" a specification when it implements the specification and
          satisfies its conformance criteria. This document includes some
          explicit conformance requirements (e.g., to a particular level
          of the "Web Content Accessibility Guidelines 1.0" [WCAG10]).
          
   Synchronize
          In this document, "to synchronize" refers to the
          time-coordination of two or more presentation components (e.g.,
          in a multimedia presentation, a visual track with captions).
          For Web content developers, the requirement to synchronize
          means to provide the data that will permit sensible
          time-coordinated rendering by a user agent. For example, Web
          content developers can ensure that the segments of caption text
          are neither too long nor too short, and that they map to
          segments of the visual track that are appropriate in length.
          For user agent developers, the requirement to synchronize means
          to present the content in a sensible time-coordinated fashion
          under a wide range of circumstances including technology
          constraints (e.g., small text-only displays), user limitations
          (slow reading speeds, large font sizes, high need for review or
          repeat functions), and content that is sub-optimal in terms of
          accessibility.
          
   Text
          In this document, the term "text" used by itself refers to a
          sequence of characters from a markup language's document
          character set. Refer to the "Character Model for the World Wide
          Web " [CHARMOD] for more information about text and characters.
          Note: This document makes use of other terms that include the
          word "text" that have highly specialized meanings: collated
          text transcript, non-text content, text content, non-text
          element, text element, text equivalent, and text transcript.
          
   Text content, non-text content, text element, non-text element, text
          equivalent non-text equivalent
          As used in this document a "text element" adds text characters
          to either content or the user interface. Both in the Web
          Content Accessibility Guidelines 1.0 [WCAG10] and in this
          document, text elements are presumed to produce text that can
          be understood when rendered visually, as speech, or as Braille.
          Such text elements benefit at least these three groups of
          users:
          
         1. visually-displayed text benefits users who are deaf and adept
            in reading visually-displayed text;
         2. synthesized speech benefits users who are blind and adept in
            use of synthesized speech;
         3. braille benefits users who are deaf-blind and adept at
            reading braille.
            
          A text element may consist of both text and non-text data. For
          instance, a text element may contain markup for style (e.g.,
          font size or color), structure (e.g., heading levels), and
          other semantics. The essential function of the text element
          should be retained even if style information happens to be lost
          in rendering.
          
          A user agent may have to process a text element in order to
          have access to the text characters. For instance, a text
          element may consist of markup, it may be encrypted or
          compressed, or it may include embedded text in a binary format
          (e.g., JPEG).
          
          "Text content" is content that is composed of one or more text
          elements. A "text equivalent" (whether in content or the user
          interface) is an equivalent composed of one or more text
          elements. Authors generally provide text equivalents for
          content by using the conditional content mechanisms of a
          specification.
          
          A "non-text element" is an element (in content or the user
          interface) that does not have the qualities of a text element.
          "Non-text content" is composed of one or more non-text
          elements. A "non-text equivalent" (whether in content or the
          user interface) is an equivalent composed of one or more
          non-text elements.
          
          Note that the terms "text element" and "non-text element" are
          defined by the characteristics of their output (e.g.,
          rendering) rather than those of their input (e.g., information
          sources) or their internals (e.g., format). Both text elements
          and non-text elements should be understood as "pre-rendering"
          content in contrast to the "post-rendering" content that they
          produce.
          
   Text decoration
          In this document, a "text decoration" is any stylistic effect
          that the user agent may apply to visually rendered text that
          does not affect the layout of the document (i.e., does not
          require reformatting when applied or removed). Text decoration
          mechanisms include underline, overline, and strike-through.
          
   Text transcript
          A text transcript is a text equivalent of audio information
          (e.g., an audio-only presentation or the audio track of a movie
          or other animation). It provides text for both spoken words and
          non-spoken sounds such as sound effects. Text transcripts make
          audio information accessible to people who have hearing
          disabilities and to people who cannot play the audio. Text
          transcripts are usually pre-written but may be generated on the
          fly (e.g., by speech-to-text converters). See also the
          definitions of captions and collated text transcripts.
          
   User agent
          In this document, the term "user agent" is used in two ways:
          
         1. Any software that retrieves and renders Web content for
            users. This may include Web browsers, media players,
            plug-ins, and other programs - including assistive
            technologies -- that help in retrieving and rendering Web
            content.
         2. The subject of a conformance claim to this document. This is
            the most common use of the term in this document and is the
            usage in the checkpoints.
            
   User agent default styles
          User agent default styles are style property values applied in
          the absence of any author or user styles. Some markup languages
          specify a default rendering for documents in that markup
          language. Other specifications may not specify default styles.
          For example, XML 1.0 [XML] does not specify default styles for
          XML documents. HTML 4 [HTML4] does not specify default styles
          for HTML documents, but the CSS 2 [CSS2] specification suggests
          a sample default style sheet for HTML 4 based on current
          practice.
          
   User interface
          For the purposes of this document, user interface includes
          both:
          
         1. the "user agent user interface", i.e., the controls and
            mechanisms offered by the user agent for user interaction,
            such as menus, buttons, keyboard access, etc.
         2. the "content user interface", i.e., the enabled elements that
            are part of content, such as form elements, links, applets,
            etc.
            
          The document distinguishes them only where required for
          clarity.
          
   User styles
          User styles are style property values that come from user
          interface settings, user style sheets, or other user
          interactions.
          
   Visual-only presentation
          An visual-only presentation is content consisting exclusively
          of one or more visual tracks presented concurrently or in
          series. Examples of an visual-only presentation include a
          silent movie.
          
   Visual track
          A visual object is content rendered through a graphical
          viewport. Visual objects include graphics, text, and visual
          portions of movies and other animations. An visual track is a
          visual object that is intended as a whole or partial
          presentation. A visual track does not necessarily correspond to
          a single physical object or software object. A visual track may
          be text-based or graphic. A visual track may be static or
          involve animation.
          
   Views, viewports
          The user agent renders content through one or more viewports.
          Viewports include windows, frames, pieces of paper,
          loudspeakers, virtual magnifying glasses, etc. A viewport may
          contain another viewport (e.g., nested frames). User interface
          controls such as prompts, menus, alerts, etc. are not
          viewports.
          
          When the dimensions (spatial or temporal) of a viewport exceed
          the dimensions of rendered content (e.g., when the user can
          only view a portion of a large document through a small
          graphical viewport, when audio content has already been played,
          etc.), the user agent provides mechanisms such as scroll bars
          and advance and rewind functionalities so that the user can
          access the rendered content "outside" the viewport.
          
          When several viewports coexist, only one has the current focus
          at a given moment. This viewport is highlighted to make it
          stand out.
          
          User agents may render the same content in a variety of ways;
          each rendering is called a view. For instance, a user agent may
          allow users to view an entire document or just a list of the
          document's headers. These are two different views of the
          document.
          
   Voice browser
          From "Introduction and Overview of W3C Speech Interface
          Framework" [VOICEBROWSER]: "A voice browser is a device
          (hardware and software) that interprets voice markup languages
          to generate voice output, interpret voice input, and possibly
          accept and produce other modalities of input and output."
          
   Web resource
          The term "Web resource" is used in this document in accordance
          with Web Characterization Terminology and Definitions Sheet
          [WEBCHAR] to mean anything that can be identified by a Uniform
          Resource Identifier (URI); refer to RFC 2396 [RFC2396].
     _________________________________________________________________
   
5. References

   For the latest version of any W3C specification please consult the
   list of W3C Technical Reports at http://www.w3.org/TR/. Some documents
   listed below may have been superseded since the publication of this
   document.
   
   Note: In this document, bracketed labels such as "[HTML4]" link to the
   corresponding entries in this section. These labels are also
   identified as references through markup.
   
  5.1 How to refer to this document
  
   There are two recommended ways to refer to the "User Agent
   Accessibility Guidelines 1.0" (and to W3C documents in general):
    1. References to a specific version of "User Agent Accessibility
       Guidelines 1.0". For example, use the "this version" URI to refer
       to the current document:
       http://www.w3.org/WAI/UA/WD-UAAG10-20010525/.
    2. References to the latest version of "User Agent Accessibility
       Guidelines 1.0". Use the "latest version" URI to refer to the most
       recently published document in the series:
       http://www.w3.org/WAI/UA/UAAG10/.
       
   In almost all cases, references (either by name or by link) should be
   to a specific version of the document. W3C will make every effort to
   make this document indefinitely available at its original address in
   its original form. The top of this document includes the relevant
   catalog metadata for specific references (including title, publication
   date, "this version" URI, editors' names, and copyright information).
   
   An XHTML 1.0 [XHTML10] paragraph including a reference to this
   specific document might be written:
<p>
<cite><a href="http://www.w3.org/WAI/UA/WD-UAAG10-20010525/">
"User Agent Accessibility Guidelines 1.0"</a></cite>,
I. Jacobs, J. Gunderson, E. Hansen, eds.,
W3C Working Draft, 25 May 2001.
The <a href="http://www.w3.org/WAI/UA/UAAG10/">latest
version</a> of this document is available at
http://www.w3.org/WAI/UA/UAAG10/.</p>

   For very general references to this document (where stability of
   content, anchors, etc., is not required), it may be appropriate to
   refer to the latest version of this document. In this case, please use
   the "latest version" URI at the top of this document.
   
   See also information about making conformance claims to this document.
   
  5.2 Normative references
  
   [DOM2CORE]
          "Document Object Model (DOM) Level 2 Core Specification", A. Le
          Hors, P. Le Hégaret, L. Wood, G. Nicol, J. Robie, M. Champion,
          S. Byrne, eds., 13 November 2000. This W3C Recommendation is
          http://www.w3.org/TR/2000/REC-DOM-Level-2-Core-20001113/.
          
   [DOM2STYLE]
          "Document Object Model (DOM) Level 2 Style Specification", V.
          Apparao, P. Le Hégaret, C. Wilson, eds., 13 November 2000. This
          W3C Recommendation is
          http://www.w3.org/TR/2000/REC-DOM-Level-2-Style-20001113/.
          
   [RFC2046]
          "Multipurpose Internet Mail Extensions (MIME) Part Two: Media
          Types", N. Freed, N. Borenstein, November 1996.
          
   [RFC2119]
          "Key words for use in RFCs to Indicate Requirement Levels", S.
          Bradner, March 1997.
          
   [WCAG10]
          "Web Content Accessibility Guidelines 1.0", W. Chisholm, G.
          Vanderheiden, and I. Jacobs, eds., 5 May 1999. This W3C
          Recommendation is
          http://www.w3.org/TR/1999/WAI-WEBCONTENT-19990505/.
          
  5.3 Informative references
  
   [AT1998]
          The Assistive Technology Act of 1998, 13 November 1998, United
          States P.L. 105-394.
          
   [ATAG10]
          "Authoring Tool Accessibility Guidelines 1.0", J. Treviranus,
          C. McCathieNevile, I. Jacobs, and J. Richards, eds., 3 February
          2000. This W3C Recommendation is
          http://www.w3.org/TR/2000/REC-ATAG10-20000203/.
          
   [ATAG10-TECHS]
          "Techniques for Authoring Tool Accessibility Guidelines 1.0",
          J. Treviranus, C. McCathieNevile, I. Jacobs, and J. Richards,
          eds., 4 May 2000. This W3C Note is
          http://www.w3.org/TR/2000/NOTE-ATAG10-TECHS-20000504/.
          
   [CHARMOD]
          "Character Model for the World Wide Web", M. Dürst and F.
          Yergeau, eds., 29 November 1999. This W3C Working Draft is
          http://www.w3.org/TR/1999/WD-charmod-19991129/
          
   [CSS1]
          "CSS, level 1 Recommendation", B. Bos, H. Wium Lie, eds., 17
          December 1996, revised 11 January 1999. This W3C Recommendation
          is http://www.w3.org/TR/1999/REC-CSS1-19990111.
          
   [CSS2]
          "CSS, level 2 Recommendation", B. Bos, H. Wium Lie, C. Lilley,
          and I. Jacobs, eds., 12 May 1998. This W3C Recommendation is
          http://www.w3.org/TR/1998/REC-CSS2-19980512/.
          
   [HTML4]
          "HTML 4.01 Recommendation", D. Raggett, A. Le Hors, and I.
          Jacobs, eds., 24 December 1999. This W3C Recommendation is
          http://www.w3.org/TR/1999/REC-html401-19991224/.
          
   [MATHML20]
          "Mathematical Markup Language (MathML) Version 2.0", D.
          Carlisle, P. Ion, R. Miner, N. Poppelier, et al., 21 February
          2001. This W3C Recommendation is
          http://www.w3.org/TR/2001/REC-MathML2-20010221/.
          
   [MICROPAYMENT]
          "Common Markup for micropayment per-fee-links", T. Michel, ed.,
          25 August 1999. This W3C Working Draft is
          http://www.w3.org/TR/1999/WD-Micropayment-Markup-19990825/.
          
   [PNG]
          "PNG (Portable Network Graphics) Specification 1.0", T.
          Boutell, ed., 1 October 1996. This W3C Recommendation is
          http://www.w3.org/TR/REC-png.
          
   [RDF10]
          "Resource Description Framework (RDF) Model and Syntax
          Specification", O. Lassila, R. Swick, eds., 22 February 1999.
          This W3C Recommendation is
          http://www.w3.org/TR/1999/REC-rdf-syntax-19990222/.
          
   [RFC2396]
          "Uniform Resource Identifiers (URI): Generic Syntax", T.
          Berners-Lee, R. Fielding, L. Masinter, August 1998.
          
   [RFC2616]
          "Hypertext Transfer Protocol -- HTTP/1.1", J. Gettys, J. Mogul,
          H. Frystyk, L. Masinter, P. Leach, T. Berners-Lee, June 1999.
          
   [SMIL]
          "Synchronized Multimedia Integration Language (SMIL) 1.0
          Specification", P. Hoschka, ed., 15 June 1998. This W3C
          Recommendation is http://www.w3.org/TR/1998/REC-smil-19980615/.
          
   [SMIL20]
          Synchronized Multimedia Integration Language (SMIL 2.0)
          Specification, J. Ayars, et al., eds., 1 March 2001. This W3C
          Working Draft is http://www.w3.org/TR/2001/WD-smil20-20010301/.
          The latest version of SMIL 2.0 is available at
          http://www.w3.org/TR/smil20.
          
   [SVG]
          "Scalable Vector Graphics (SVG) 1.0 Specification", J.
          Ferraiolo, ed., 2 August 2000. This W3C Candidate
          Recommendation is http://www.w3.org/TR/2000/CR-SVG-20000802/.
          
   [UAAG10-CHECKLIST]
          An appendix to this document lists all of the checkpoints,
          sorted by priority. The checklist is available in either
          tabular form or list form.
          
   [UAAG10-SUMMARY]
          An appendix to this document provides a summary of the goals
          and structure of User Agent Accessibility Guidelines 1.0.
          
   [UAAG10-TECHS]
          "Techniques for User Agent Accessibility Guidelines 1.0", I.
          Jacobs, J. Gunderson, E. Hansen, eds. The latest draft of the
          techniques document is available at
          http://www.w3.org/WAI/UA/UAAG10-TECHS/.
          
   [UNICODE]
          "The Unicode Standard, Version 3.1". This technical report of
          the Unicode Consortium is available at
          http://www.unicode.org/unicode/reports/tr27/. This is a
          revision of "The Unicode Standard, Version 3.0", The Unicode
          Consortium, Addison-Wesley Developers Press, 2000. ISBN
          0-201-61633-5. Refer also to
          http://www.unicode.org/unicode/standard/versions/. For
          information about character encodings, refer to Unicode
          Technical Report #17 "Character Encoding Model".
          
   [VOICEBROWSER]
          "Voice Browsers: An introduction and glossary for the
          requirements drafts", M. Robin, J. Larson, 23 December 1999.
          This document is
          http://www.w3.org/TR/1999/WD-voice-intro-19991223/. This
          document includes references to additional W3C specifications
          about voice browser technology.
          
   [W3CPROCESS]
          "World Wide Web Consortium Process Document", I. Jacobs ed. The
          11 November 1999 version of the Process Document is
          http://www.w3.org/Consortium/Process/Process-19991111/.
          
   [WCAG10-TECHS]
          "Techniques for Web Content Accessibility Guidelines 1.0", W.
          Chisholm, G. Vanderheiden, and I. Jacobs, eds. This W3C Note is
          http://www.w3.org/TR/1999/WAI-WEBCONTENT-TECHS-19990505/.
          
   [WEBCHAR]
          "Web Characterization Terminology and Definitions Sheet", B.
          Lavoie, H. F. Nielsen, eds., 24 May 1999. This is a W3C Working
          Draft that defines some terms to establish a common
          understanding about key Web concepts. This W3C Working Draft is
          http://www.w3.org/1999/05/WCA-terms/01.
          
   [XHTML10]
          "XHTML[tm] 1.0: The Extensible HyperText Markup Language", S.
          Pemberton, et al., 26 January 2000. This W3C Recommendation is
          http://www.w3.org/TR/2000/REC-xhtml1-20000126/.
          
   [XML]
          "Extensible Markup Language (XML) 1.0", T. Bray, J. Paoli, C.M.
          Sperberg-McQueen, eds., 10 February 1998. This W3C
          Recommendation is http://www.w3.org/TR/1998/REC-xml-19980210.
          
6. Acknowledgments

   The active participants of the User Agent Accessibility Guidelines
   Working Group who authored this document were: James Allan, Denis
   Anson (College Misericordia), Harvey Bingham, Al Gilman, Jon Gunderson
   (Chair of the Working Group, University of Illinois,
   Urbana-Champaign), Eric Hansen (Educational Testing Service), Ian
   Jacobs (Team Contact, W3C), Tim Lacy (Microsoft), Charles
   McCathieNevile (W3C), David Poehlman, Mickey Quenzer, Gregory Rosmaita
   (Visually Impaired Computer Users Group of New York City), and Rich
   Schwerdtfeger (IBM).
   
   Many thanks to the following people who have contributed through
   review and past participation in the Working Group: Paul Adelson,
   Kitch Barnicle, Olivier Borius, Judy Brewer, Dick Brown, Bryan
   Campbell, Kevin Carey, Tantek Çelik, Wendy Chisholm, David Clark,
   Chetz Colwell, Wilson Craig, Nir Dagan, Daniel Dardailler, B. K.
   Delong, Neal Ewers, Geoff Freed, John Gardner, Larry Goldberg, Glen
   Gordon, John Grotting, Markku Hakkinen, Earle Harrison, Chris Hasser,
   Kathy Hewitt, Philipp Hoschka, Masayasu Ishikawa, Phill Jenkins, Earl
   Johnson, Jan Kärrman (for help with html2ps), Leonard Kasday, George
   Kerscher, Marja-Riitta Koivunen, Peter Korn, Josh Krieger, Catherine
   Laws, Aaron Leventhal, Greg Lowney, Susan Lesch, Scott Luebking,
   William Loughborough, Napoleon Maou, Peter Meijer, Karen Moses,
   Masafumi Nakane, Mark Novak, Charles Oppermann, Mike Paciello, David
   Pawson, Michael Pederson, Helen Petrie, Michael Pieper, Richard
   Premack, Jan Richards, Hans Riesebos, Joe Roeder, Lakespur L. Roca,
   Madeleine Rothberg, Lloyd Rutledge, Liam Quinn, T.V. Raman, Robert
   Savellis, Constantine Stephanidis, Jim Thatcher, Jutta Treviranus,
   Claus Thogersen, Steve Tyler, Gregg Vanderheiden, Jaap van Lelieveld,
   Jon S. von Tetzchner, Willie Walker, Ben Weiss, Evan Wies, Chris
   Wilson, Henk Wittingen, and Tom Wlodkowski.
     _________________________________________________________________
   
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