| Index: docs/accessibility.md
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|
| -# Accessibility Overview
|
| +# Accessibility
|
|
|
| -Accessibility means ensuring that all users, including users with disabilities,
|
| -have equal access to software. One piece of this involves basic design
|
| -principles such as using appropriate font sizes and color contrast,
|
| -avoiding using color to convey important information, and providing keyboard
|
| -alternatives for anything that is normally accomplished with a pointing device.
|
| -However, when you see the word "accessibility" in a directory name in Chromium,
|
| -that code's purpose is to provide full access to Chromium's UI via external
|
| -accessibility APIs that are utilized by assistive technology.
|
| +* [Accessibility Overview](accessibility/overview.md)
|
|
|
| -**Assistive technology** here refers to software or hardware which
|
| -makes use of these APIs to create an alternative interface for the user to
|
| -accommodate some specific needs, for example:
|
| +## Chrome OS
|
|
|
| -Assistive technology includes:
|
| -
|
| -* Screen readers for blind users that describe the screen using
|
| - synthesized speech or braille
|
| -* Voice control applications that let you speak to the computer,
|
| -* Switch access that lets you control the computer with a small number
|
| - of physical switches,
|
| -* Magnifiers that magnify a portion of the screen, and often highlight the
|
| - cursor and caret for easier viewing, and
|
| -* Assistive learning and literacy software that helps users who have a hard
|
| - time reading print, by highlighting and/or speaking selected text
|
| -
|
| -In addition, because accessibility APIs provide a convenient and universal
|
| -way to explore and control applications, they're often used for automated
|
| -testing scripts, and UI automation software like password managers.
|
| -
|
| -Web browsers play an important role in this ecosystem because they need
|
| -to not only provide access to their own UI, but also provide access to
|
| -all of the content of the web.
|
| -
|
| -Each operating system has its own native accessibility API. While the
|
| -core APIs tend to be well-documented, it's unfortunately common for
|
| -screen readers in particular to depend on additional undocumented or
|
| -vendor-specific APIs in order to fully function, especially with web
|
| -browsers, because the standard APIs are insufficient to handle the
|
| -complexity of the web.
|
| -
|
| -Chromium needs to support all of these operating system and
|
| -vendor-specific accessibility APIs in order to be usable with the full
|
| -ecosystem of assistive technology on all platforms. Just like Chromium
|
| -sometimes mimics the quirks and bugs of older browsers, Chromium often
|
| -needs to mimic the quirks and bugs of other browsers' implementation
|
| -of accessibility APIs, too.
|
| -
|
| -## Concepts
|
| -
|
| -While each operating system and vendor accessibility API is different,
|
| -there are some concepts all of them share.
|
| -
|
| -1. The *tree*, which models the entire interface as a tree of objects, exposed
|
| - to assistive technology via accessibility APIs;
|
| -2. *Events*, which let assistive technology know that a part of the tree has
|
| - changed somehow;
|
| -3. *Actions*, which come from assistive technology and ask the interface to
|
| - change.
|
| -
|
| -Consider the following small HTML file:
|
| -
|
| -```
|
| -<html>
|
| -<head>
|
| - <title>How old are you?</title>
|
| -</head>
|
| -<body>
|
| - <label for="age">Age</label>
|
| - <input id="age" type="number" name="age" value="42">
|
| - <div>
|
| - <button>Back</button>
|
| - <button>Next</button>
|
| - </div>
|
| -</body>
|
| -</html>
|
| -```
|
| -
|
| -### The Accessibility Tree and Accessibility Attributes
|
| -
|
| -Internally, Chromium represents the accessibility tree for that web page
|
| -using a data structure something like this:
|
| -
|
| -```
|
| -id=1 role=WebArea name="How old are you?"
|
| - id=2 role=Label name="Age"
|
| - id=3 role=TextField labelledByIds=[2] value="42"
|
| - id=4 role=Group
|
| - id=5 role=Button name="Back"
|
| - id=6 role=Button name="Next"
|
| -```
|
| -
|
| -Note that the tree structure closely resembles the structure of the
|
| -HTML elements, but slightly simplified. Each node in the accessibility
|
| -tree has an ID and a role. Many have a name. The text field has a value,
|
| -and instead of a name it has labelledByIds, which indicates that its
|
| -accessible name comes from another node in the tree, the label node
|
| -with id=2.
|
| -
|
| -On a particular platform, each node in the accessibility tree is implemented
|
| -by an object that conforms to a particular protocol.
|
| -
|
| -On Windows, the root node implements the IAccessible protocol and
|
| -if you call IAccessible::get_accRole, it returns ROLE_SYSTEM_DOCUMENT,
|
| -and if you call IAccessible::get_accName, it returns "How old are you?".
|
| -Other methods let you walk the tree.
|
| -
|
| -On macOS, the root node implements the NSAccessibility protocol and
|
| -if you call [NSAccessibility accessibilityRole], it returns @"AXWebArea",
|
| -and if you call [NSAccessibility accessibilityLabel], it returns
|
| -"How old are you?".
|
| -
|
| -The Linux accessibility API, ATK, is more similar to the Windows APIs;
|
| -they were developed together. (Chrome's support for desktop Linux
|
| -accessibility is unfinished.)
|
| -
|
| -The Android accessibility API is of course based on Java. The main
|
| -data structure is AccessibilityNodeInfo. It doesn't have a role, but
|
| -if you call AccessibilityNodeInfo.getClassName() on the root node
|
| -it returns "android.webkit.WebView", and if you call
|
| -AccessibilityNodeInfo.getContentDescription() it returns "How old are you?".
|
| -
|
| -On Chrome OS, we use our own accessibility API that closely maps to
|
| -Chrome's internal accessibility API.
|
| -
|
| -So while the details of the interface vary, the underlying concepts are
|
| -similar. Both IAccessible and NSAccessibility have a concept of a role,
|
| -but IAccessible uses a role of "document" for a web page, while NSAccessibility
|
| -uses a role of "web area". Both IAccessible and NSAccessibility have a
|
| -concept of the primary accessible text for a node, but IAccessible calls
|
| -it the "name" while NSAccessibility calls it the "label", and Android
|
| -calls it a "content description".
|
| -
|
| -**Historical note:** The internal names of roles and attributes in
|
| -Chrome often tend to most closely match the macOS accessibility API
|
| -because Chromium was originally based on WebKit, where most of the
|
| -accessibility code was written by Apple. Over time we're slowly
|
| -migrating internal names to match what those roles and attributes are
|
| -called in web accessibility standards, like ARIA.
|
| -
|
| -### Accessibility Events
|
| -
|
| -In Chromium's internal terminology, an Accessibility Event always represents
|
| -communication from the app to the assistive technology, indicating that the
|
| -accessibility tree changed in some way.
|
| -
|
| -As an example, if the user were to press the Tab key and the text
|
| -field from the example above became focused, Chromium would fire a
|
| -"focus" accessibility event that assistive technology could listen
|
| -to. A screen reader might then announce the name and current value of
|
| -the text field. A magnifier might zoom the screen to its bounding
|
| -box. If the user types some text into the text field, Chromium would
|
| -fire a "value changed" accessibility event.
|
| -
|
| -As with nodes in the accessibility tree, each platform has a slightly different
|
| -API for accessibility events. On Windows we'd fire EVENT_OBJECT_FOCUS for
|
| -a focus change, and on Mac we'd fire @"AXFocusedUIElementChanged".
|
| -Those are pretty similar. Sometimes they're quite different - to support
|
| -live regions (notifications that certain key parts of a web page have changed),
|
| -on Mac we simply fire @"AXLiveRegionChanged", but on Windows we need to
|
| -fire IA2_EVENT_TEXT_INSERTED and IA2_EVENT_TEXT_REMOVED events individually
|
| -on each affected node within the changed region, with additional attributes
|
| -like "container-live:polite" to indicate that the affected node was part of
|
| -a live region. This discussion is not meant to explain all of the technical
|
| -details but just to illustrate that the concepts are similar,
|
| -but the details of notifying software on each platform about changes can
|
| -vary quite a bit.
|
| -
|
| -### Accessibility Actions
|
| -
|
| -Each native object that implements a platform's native accessibility API
|
| -supports a number of actions, which are requests from the assistive
|
| -technology to control or change the UI. This is the opposite of events,
|
| -which are messages from Chromium to the assistive technology.
|
| -
|
| -For example, if the user had a voice control application running, such as
|
| -Voice Access on Android, the user could just speak the name of one of the
|
| -buttons on the page, like "Next". Upon recognizing that text and finding
|
| -that it matches one of the UI elements on the page, the voice control
|
| -app executes the action to click the button id=6 in Chromium's accessibility
|
| -tree. Internally we call that action "do default" rather than click, since
|
| -it represents the default action for any type of control.
|
| -
|
| -Other examples of actions include setting focus, changing the value of
|
| -a control, and scrolling the page.
|
| -
|
| -### Parameterized attributes
|
| -
|
| -In addition to accessibility attributes, events, and actions, native
|
| -accessibility APIs often have so-called "parameterized attributes".
|
| -The most common example of this is for text - for example there may be
|
| -a function to retrieve the bounding box for a range of text, or a
|
| -function to retrieve the text properties (font family, font size,
|
| -weight, etc.) at a specific character position.
|
| -
|
| -Parameterized attributes are particularly tricky to implement because
|
| -of Chromium's multi-process architecture. More on this in the next section.
|
| -
|
| -## Chromium's multi-process architecture
|
| -
|
| -Native accessibility APIs tend to have a *functional* interface, where
|
| -Chromium implements an interface for a canonical accessible object that
|
| -includes methods to return various attributes, walk the tree, or perform
|
| -an action like click(), focus(), or setValue(...).
|
| -
|
| -In contrast, the web has a largely *declarative* interface. The shape
|
| -of the accessibility tree is determined by the DOM tree (occasionally
|
| -influenced by CSS), and the accessible semantics of a DOM element can
|
| -be modified by adding ARIA attributes.
|
| -
|
| -One important complication is that all of these native accessibility APIs
|
| -are *synchronous*, while Chromium is multi-process, with the contents of
|
| -each web page living in a different process than the process that
|
| -implements Chromium's UI and the native accessibility APIs. Furthermore,
|
| -the renderer processes are *sandboxed*, so they can't implement
|
| -operating system APIs directly.
|
| -
|
| -If you're unfamiliar with Chrome's multi-process architecture, see
|
| -[this blog post introducing the concept](
|
| -https://blog.chromium.org/2008/09/multi-process-architecture.html) or
|
| -[the design doc on chromium.org](
|
| -https://www.chromium.org/developers/design-documents/multi-process-architecture)
|
| -for an intro.
|
| -
|
| -Chromium's multi-process architecture means that we can't implement
|
| -accessibility APIs the same way that a single-process browser can -
|
| -namely, by calling directly into the DOM to compute the result of each
|
| -API call. For example, on some operating systems there might be an API
|
| -to get the bounding box for a particular range of characters on the
|
| -page. In other browsers, this might be implemented by creating a DOM
|
| -selection object and asking for its bounding box.
|
| -
|
| -That implementation would be impossible in Chromium because it'd require
|
| -blocking the main thread while waiting for a response from the renderer
|
| -process that implements that web page's DOM. (Not only is blocking the
|
| -main thread strictly disallowed, but the latency of doing this for every
|
| -API call makes it prohibitively slow anyway.) Instead, Chromium takes an
|
| -approach where a representation of the entire accessibility tree is
|
| -cached in the main process. Great care needs to be taken to ensure that
|
| -this representation is as concise as possible.
|
| -
|
| -In Chromium, we build a data structure representing all of the
|
| -information for a web page's accessibility tree, send the data
|
| -structure from the renderer process to the main browser process, cache
|
| -it in the main browser process, and implement native accessibility
|
| -APIs using solely the information in that cache.
|
| -
|
| -As the accessibility tree changes, tree updates and accessibility events
|
| -get sent from the renderer process to the browser process. The browser
|
| -cache is updated atomically in the main thread, so whenever an external
|
| -client (like assistive technology) calls an accessibility API function,
|
| -we're always returning something from a complete and consistent snapshot
|
| -of the accessibility tree. From time to time, the cache may lag what's
|
| -in the renderer process by a fraction of a second.
|
| -
|
| -Here are some of the specific challenges faced by this approach and
|
| -how we've addressed them.
|
| -
|
| -### Sparse data
|
| -
|
| -There are a *lot* of possible accessibility attributes for any given
|
| -node in an accessibility tree. For example, there are more than 150
|
| -unique accessibility API methods that Chrome implements on the Windows
|
| -platform alone. We need to implement all of those APIs, many of which
|
| -request rather rare or obscure attributes, but storing all possible
|
| -attribute values in a single struct would be quite wasteful.
|
| -
|
| -To avoid each accessible node object containing hundreds of fields the
|
| -data for each accessibility node is stored in a relatively compact
|
| -data structure, ui::AXNodeData. Every AXNodeData has an integer ID, a
|
| -role enum, and a couple of other mandatory fields, but everything else
|
| -is stored in attribute arrays, one for each major data type.
|
| -
|
| -```
|
| -struct AXNodeData {
|
| - int32_t id;
|
| - AXRole role;
|
| - ...
|
| - std::vector<std::pair<AXStringAttribute, std::string>> string_attributes;
|
| - std::vector<std::pair<AXIntAttribute, int32_t>> int_attributes;
|
| - ...
|
| -}
|
| -```
|
| -
|
| -So if a text field has a placeholder attribute, we can store
|
| -that by adding an entry to `string_attributes` with an attribute
|
| -of ui::AX_ATTR_PLACEHOLDER and the placeholder string as the value.
|
| -
|
| -### Incremental tree updates
|
| -
|
| -Web pages change frequently. It'd be terribly inefficient to send a
|
| -new copy of the accessibility tree every time any part of it changes.
|
| -However, the accessibility tree can change shape in complicated ways -
|
| -for example, whole subtrees can be reparented dynamically.
|
| -
|
| -Rather than writing code to deal with every possible way the
|
| -accessibility tree could be modified, Chromium has a general-purpose
|
| -tree serializer class that's designed to send small incremental
|
| -updates of a tree from one process to another. The tree serializer has
|
| -just a few requirements:
|
| -
|
| -* Every node in the tree must have a unique integer ID.
|
| -* The tree must be acyclic.
|
| -* The tree serializer must be notified when a node's data changes.
|
| -* The tree serializer must be notified when the list of child IDs of a
|
| - node changes.
|
| -
|
| -The tree serializer doesn't know anything about accessibility attributes.
|
| -It keeps track of the previous state of the tree, and every time the tree
|
| -structure changes (based on notifications of a node changing or a node's
|
| -children changing), it walks the tree and builds up an incremental tree
|
| -update that serializes as few nodes as possible.
|
| -
|
| -In the other process, the Unserialization code applies the incremental
|
| -tree update atomically.
|
| -
|
| -### Text bounding boxes
|
| -
|
| -One challenge faced by Chromium is that accessibility clients want to be
|
| -able to query the bounding box of an arbitrary range of text - not necessarily
|
| -just the current cursor position or selection. As discussed above, it's
|
| -not possible to block Chromium's main browser process while waiting for this
|
| -information from Blink, so instead we cache enough information to satisfy these
|
| -queries in the accessibility tree.
|
| -
|
| -To compactly store the bounding box of every character on the page, we
|
| -split the text into *inline text boxes*, sometimes called *text runs*.
|
| -For example, in a typical paragraph, each line of text would be its own
|
| -inline text box. In general, an inline text box or text run contians a
|
| -sequence of text characters that are all oriented in the same direction,
|
| -in a line, with the same font, size, and style.
|
| -
|
| -Each inline text box stores its own bounding box, and then the relative
|
| -x-coordinate of each character in its text (assuming left-to-right).
|
| -From that it's possible to compute the bounding box
|
| -of any individual character.
|
| -
|
| -The inline text boxes are part of Chromium's internal accessibility tree.
|
| -They're used purely internally and aren't ever exposed directly via any
|
| -native accessibility APIs.
|
| -
|
| -For example, suppose that a document contains a text field with the text
|
| -"Hello world", but the field is narrow, so "Hello" is on the first line and
|
| -"World" is on the second line. Internally Chromium's accessibility tree
|
| -might look like this:
|
| -
|
| -```
|
| -staticText location=(8, 8) size=(38, 36) name='Hello world'
|
| - inlineTextBox location=(0, 0) size=(36, 18) name='Hello ' characterOffsets=12,19,23,28,36
|
| - inlineTextBox location=(0, 18) size=(38, 18) name='world' characterOffsets=12,20,25,29,37
|
| -```
|
| -
|
| -### Scrolling, transformations, and animation
|
| -
|
| -Native accessibility APIs typically want the bounding box of every element in the
|
| -tree, either in window coordinates or global screen coordinates. If we
|
| -stored the global screen coordinates for every node, we'd be constantly
|
| -re-serializing the whole tree every time the user scrolls or drags the
|
| -window.
|
| -
|
| -Instead, we store the bounding box of each node in the accessibility tree
|
| -relative to its *offset container*, which can be any ancestor. If no offset
|
| -container is specified, it's assumed to be the root of the tree.
|
| -
|
| -In addition, any offset container can contain scroll offsets, which can be
|
| -used to scroll the bounding boxes of anything in that subtree.
|
| -
|
| -Finally, any offset container can also include an arbitrary 4x4 transformation
|
| -matrix, which can be used to represent arbitrary 3-D rotations, translations, and
|
| -scaling, and more. The transformation matrix applies to the whole subtree.
|
| -
|
| -Storing coordinates this way means that any time an object scrolls, moves, or
|
| -animates its position and scale, only the root of the scrolling or animation
|
| -needs to post updates to the accessibility tree. Everything in the subtree
|
| -remains valid relative to that offset container.
|
| -
|
| -Computing the global screen coordinates for an object in the accessibility
|
| -tree just means walking up its ancestor chain and applying offsets and
|
| -occasionally multiplying by a 4x4 matrix.
|
| -
|
| -### Site isolation / out-of-process iframes
|
| -
|
| -At one point in time, all of the content of a single Tab or other web view
|
| -was contained in the same Blink process, and it was possible to serialize
|
| -the accessibility tree for a whole frame tree in a single pass.
|
| -
|
| -Today the situation is a bit more complicated, as Chromium supports
|
| -out-of-process iframes. (It also supports "browser plugins" such as
|
| -the `<webview>` tag in Chrome packaged apps, which embeds a whole
|
| -browser inside a browser, but for the purposes of accessibility this
|
| -is handled the same as frames.)
|
| -
|
| -Rather than a mix of in-process and out-of-process frames that are handled
|
| -differently, Chromium builds a separate independent accessibility tree
|
| -for each frame. Each frame gets its own tree ID, and it keeps track of
|
| -the tree ID of its parent frame (if any) and any child frames.
|
| -
|
| -In Chrome's main browser process, the accessibility trees for each frame
|
| -are cached separately, and when an accessibility client (assistive
|
| -technology) walks the accessibility tree, Chromium dynamically composes
|
| -all of the frames into a single virtual accessibility tree on the fly,
|
| -using those aforementioned tree IDs.
|
| -
|
| -The node IDs for accessibility trees only need to be unique within a
|
| -single frame. Where necessary, separate unique IDs are used within
|
| -Chrome's main browser process. In Chromium accessibility, a "node ID"
|
| -always means that ID that's only unique within a frame, and a "unique ID"
|
| -means an ID that's globally unique.
|
| -
|
| -## Blink
|
| -
|
| -Blink constructs an accessibility tree (a hierarchy of [WebAXObject]s) from the
|
| -page it is rendering. WebAXObject is the public API wrapper around [AXObject],
|
| -which is the core class of Blink's accessibility tree. AXObject is an abstract
|
| -class; the most commonly used concrete subclass of it is [AXNodeObject], which
|
| -wraps a [Node]. In turn, most AXNodeObjects are actually [AXLayoutObject]s,
|
| -which wrap both a [Node] and a [LayoutObject]. Access to the LayoutObject is
|
| -important because some elements are only in the AXObject tree depending on their
|
| -visibility, geometry, linewrapping, and so on. There are some subclasses of
|
| -AXLayoutObject that implement special-case logic for specific types of Node.
|
| -There are also other subclasses of AXObject, which are mostly used for testing.
|
| -
|
| -Note that not all AXLayoutObjects correspond to actual Nodes; some are synthetic
|
| -layout objects which group related inline elements or similar.
|
| -
|
| -The central class responsible for dealing with accessibility events in Blink is
|
| -[AXObjectCacheImpl], which is responsible for caching the corresponding
|
| -AXObjects for Nodes or LayoutObjects. This class has many methods named
|
| -`handleFoo`, which are called throughout Blink to notify the AXObjectCacheImpl
|
| -that it may need to update its tree. Since this class is already aware of all
|
| -accessibility events in Blink, it is also responsible for relaying accessibility
|
| -events from Blink to the embedding content layer.
|
| -
|
| -## The content layer
|
| -
|
| -The content layer lives on both sides of the renderer/browser split. The content
|
| -layer translates WebAXObjects into [AXContentNodeData], which is a subclass of
|
| -[ui::AXNodeData]. The ui::AXNodeData class and related classes are Chromium's
|
| -cross-platform accessibility tree. The translation is implemented in
|
| -[BlinkAXTreeSource]. This translation happens on the renderer side, so the
|
| -ui::AXNodeData tree now needs to be sent to the browser, which is done by
|
| -sending [AccessibilityHostMsg_EventParams] with the payload being serialized
|
| -delta-updates to the tree, so that changes that happen on the renderer side can
|
| -be reflected on the browser side.
|
| -
|
| -On the browser side, these IPCs are received by [RenderFrameHostImpl], and then
|
| -usually forwarded to [BrowserAccessibilityManager] which is responsible for:
|
| -
|
| -1. Merging AXNodeData trees into one tree of [BrowserAccessibility] objects,
|
| - by linking to other BrowserAccessibilityManagers. This is important because
|
| - each page has its own accessibility tree, but each Chromium *window* must
|
| - have only one accessibility tree, so trees from multiple pages need to be
|
| - combined (possibly also with trees from Views UI).
|
| -2. Dispatching outgoing accessibility events to the platform's accessibility
|
| - APIs. This is done in the platform-specific subclasses of
|
| - BrowserAccessibilityManager, in a method named `NotifyAccessibilityEvent`.
|
| -3. Dispatching incoming accessibility actions to the appropriate recipient, via
|
| - [BrowserAccessibilityDelegate]. For messages destined for a renderer,
|
| - [RenderFrameHostImpl], which is a BrowserAccessibilityDelegate, is
|
| - responsible for sending appropriate `AccessibilityMsg_Foo` IPCs to the
|
| - renderer, where they will be received by [RenderAccessibilityImpl].
|
| -
|
| -On Chrome OS, RenderFrameHostImpl does not route events to
|
| -BrowserAccessibilityManager at all, since there is no platform screenreader
|
| -outside Chromium to integrate with.
|
| -
|
| -## Views
|
| -
|
| -Views generates a [NativeViewAccessibility] for each View, which is used as the
|
| -delegate for an [AXPlatformNode] representing that View. This part is relatively
|
| -straightforward, but then the generated tree must be combined with the web
|
| -accessibility tree, which is handled by BrowserAccessibilityManager.
|
| -
|
| -## WebUI
|
| -
|
| -Since WebUI surfaces have renderer processes as normal, WebUI accessibility goes
|
| -through the blink-to-content-to-platform pipeline described above. Accessibility
|
| -for WebUI is largely implemented in JavaScript in [webui-js]; these classes take
|
| -care of adding ARIA attributes and so on to DOM nodes as needed.
|
| -
|
| -## The Chrome OS layer
|
| -
|
| -The accessibility tree is also exposed via the [chrome.automation API], which
|
| -gives extension JavaScript access to the accessibility tree, events, and
|
| -actions. This API is implemented in C++ by [AutomationInternalCustomBindings],
|
| -which is renderer-side code, and in JavaScript by the [automation API]. The API
|
| -is defined by [automation.idl], which must be kept synchronized with
|
| -[ax_enums.idl].
|
| -
|
| -[AccessibilityHostMsg_EventParams]: https://cs.chromium.org/chromium/src/content/common/accessibility_messages.h?sq=package:chromium&l=75
|
| -[AutomationInternalCustomBindings]: https://cs.chromium.org/chromium/src/chrome/renderer/extensions/automation_internal_custom_bindings.h
|
| -[AXContentNodeData]: https://cs.chromium.org/chromium/src/content/common/ax_content_node_data.h
|
| -[AXLayoutObject]: https://cs.chromium.org/chromium/src/third_party/WebKit/Source/modules/accessibility/AXLayoutObject.h
|
| -[AXNodeObject]: https://cs.chromium.org/chromium/src/third_party/WebKit/Source/modules/accessibility/AXNodeObject.h
|
| -[AXObject]: https://cs.chromium.org/chromium/src/third_party/WebKit/Source/modules/accessibility/AXObject.h
|
| -[AXObjectCacheImpl]: https://cs.chromium.org/chromium/src/third_party/WebKit/Source/modules/accessibility/AXObjectCacheImpl.h
|
| -[AXPlatformNode]: https://cs.chromium.org/chromium/src/ui/accessibility/platform/ax_platform_node.h
|
| -[AXTreeSerializer]: https://cs.chromium.org/chromium/src/ui/accessibility/ax_tree_serializer.h
|
| -[BlinkAXTreeSource]: https://cs.chromium.org/chromium/src/content/renderer/accessibility/blink_ax_tree_source.h
|
| -[BrowserAccessibility]: https://cs.chromium.org/chromium/src/content/browser/accessibility/browser_accessibility.h
|
| -[BrowserAccessibilityDelegate]: https://cs.chromium.org/chromium/src/content/browser/accessibility/browser_accessibility_manager.h?sq=package:chromium&l=64
|
| -[BrowserAccessibilityManager]: https://cs.chromium.org/chromium/src/content/browser/accessibility/browser_accessibility_manager.h
|
| -[LayoutObject]: https://cs.chromium.org/chromium/src/third_party/WebKit/Source/core/layout/LayoutObject.h
|
| -[NativeViewAccessibility]: https://cs.chromium.org/chromium/src/ui/views/accessibility/native_view_accessibility.h
|
| -[Node]: https://cs.chromium.org/chromium/src/third_party/WebKit/Source/core/dom/Node.h
|
| -[RenderAccessibilityImpl]: https://cs.chromium.org/chromium/src/content/renderer/accessibility/render_accessibility_impl.h
|
| -[RenderFrameHostImpl]: https://cs.chromium.org/chromium/src/content/browser/frame_host/render_frame_host_impl.h
|
| -[ui::AXNodeData]: https://cs.chromium.org/chromium/src/ui/accessibility/ax_node_data.h
|
| -[WebAXObject]: https://cs.chromium.org/chromium/src/third_party/WebKit/public/web/WebAXObject.h
|
| -[automation API]: https://cs.chromium.org/chromium/src/chrome/renderer/resources/extensions/automation
|
| -[automation.idl]: https://cs.chromium.org/chromium/src/chrome/common/extensions/api/automation.idl
|
| -[ax_enums.idl]: https://cs.chromium.org/chromium/src/ui/accessibility/ax_enums.idl
|
| -[chrome.automation API]: https://developer.chrome.com/extensions/automation
|
| -[webui-js]: https://cs.chromium.org/chromium/src/ui/webui/resources/js/cr/ui/
|
| +* [ChromeVox for Developers](accessibility/chromevox.md)
|
| +* [ChromeVox on Desktop Linux](accessibility/chromevox_on_desktop_linux.md)
|
| +* [Updating brltty braille drivers](accessibility/brltty.md)
|
| +* [Updating the patts speech synthesis engine](accessibility/patts.md)
|
|
|
Chromium Code Reviews
Issue 2701603002:
Update accessibility documentation. (Closed)
