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Exposing basic information about UI elements (XAML)

[This article is for Windows 8.x and Windows Phone 8.x developers writing Windows Runtime apps. If you’re developing for Windows 10, see the latest documentation]

Looking for the HTML/JavaScript version of this topic? See Exposing basic information about UI elements (HTML).

Assistive technologies such as screen readers need information about the UI elements in an app. The system provides the information based on an app's representation in the Microsoft UI Automation framework. Basic accessibility information is sometimes categorized into name, role, and value. This topic describes XAML or other code to help your app expose the basic information that assistive technologies need.

Accessible name

An accessible name is a short, descriptive text string that a screen reader uses to announce a UI element. Set the accessible name for UI elements so that have a meaning that is important for understanding the content or interacting with the UI. Such elements typically include images, input fields, buttons, controls, and regions.

This table describes how to define or obtain an accessible name for various types of elements in a XAML UI.

Element type Description
Static text For TextBlock and RichTextBlock elements, an accessible name is automatically determined from the visible (inner) text. All of the text in that element is used as the name. See Name from inner text.
Images The XAML Image element does not have a direct analog to the HTML alt attribute of img and similar elements. Either use AutomationProperties.Name to provide a name, or use the captioning technique. See Accessible names for images.
Form elements The accessible name for a form element should be the same as the label that is displayed for that element. See Labels and LabeledBy.
Buttons and links By default, the accessible name of a button or link is based on the visible text, using the same rules as described in Name from inner text. In cases where a button contains only an image, use AutomationProperties.Name to provide a text-only equivalent of the button's intended action.

 

Most container elements such as panels do not promote their content as accessible name. This is because it is the item content that should report a name and corresponding role, not its container. The container element might report that it is an element that has children in a UI Automation representation, such that the assistive technology logic can traverse it. But users of assistive technologies don't generally need to know about the containers and thus most containers aren't named.

Role and value

The controls and other UI elements that are part of the Windows Runtime XAML vocabulary implement UI Automation support for reporting role and value as part of their definitions. You can use UI Automation tools to examine the role and value information for the Windows Runtime controls, or you can read the documentation for the AutomationPeer implementations of each control. The available roles in a UI Automation framework are defined in the AutomationControlType enumeration. UI Automation clients such as assistive technologies can obtain role information by calling methods that the UI Automation framework exposes by using the control's AutomationPeer.

Not all controls have a value. Controls that do have a value report this information to UI Automation through the peers and patterns that are supported by that control. For example, a TextBox form element does have a value. An assistive technology can be a UI Automation client and can discover both that a value exists and what the value is. In this specific case the TextBox supports the IValueProvider pattern through the TextBoxAutomationPeer definitions.

Note  For cases where you use AutomationProperties.Name or other techniques to supply the accessible name explicitly, do not include the same text as is used by the control role or type information in the accessible name. For example do not include strings such as "button" or "list" in the name. The role and type information comes from a different UI Automation property (LocalizedControlType) that is supplied by the default control support for UI Automation. Many assistive technologies append the LocalizedControlType to the accessible name, so duplicating the role in the accessible name can result in unnecessarily repeated words. For example, if you give a Button control an accessible name of "button" or include "button" as the last part of the name, this might be read by screen readers as "button button". You should test this aspect of your accessibility info using Narrator.

 

Influencing the UI Automation tree views

The UI Automation framework has a concept of tree views, where UI Automation clients can retrieve the relationships between elements in a UI using three possible views: raw, control, and content. The control view is the view that's often used by UI Automation clients because it provides a good representation and organization of the elements in a UI that are interactive. Testing tools usually enable you to choose which tree view to use when the tool presents the organization of elements.

By default, any Control derived class and a few other elements will appear in the control view when the UI Automation framework represents the UI for a Windows Runtime app using C++, C#, or Visual Basic. But sometimes you don't want an element to appear in the control view because of UI composition, where that element is duplicating information or presenting information that's unimportant for accessibility scenarios. Use the attached property AutomationProperties.AccessibilityView to change how elements are exposed to the tree views. If you put an element in the Raw tree, most assistive technologies won't report that element as part of their views. To see some examples of how this works in existing controls, open the generic.xaml design reference XAML file in a text editor, and search for AutomationProperties.AccessibilityView in the templates.

Name from inner text

To make it easier to use strings that already exist in the visible UI for accessible name values, many of the controls and other UI elements provide support for automatically determining a default accessible name based on inner text within the element, or from string values of content properties.

  • TextBlock, RichTextBlock, TextBox and RichTextBlock each promote the value of the Text property as the default accessible name.
  • Any ContentControl subclass uses an iterative "ToString" technique to find strings in its Content value, and promotes these strings as the default accessible name.

Note   As enforced by UI Automation, the accessible name length cannot be greater than 2048 characters. If a string used for automatic accessible name determination exceeds that limit, the accessible name is truncated at that point.

 

Accessible names for images

To support screen readers and to provide the basic identifying information for each element in the UI, you sometimes must provide text alternatives to non-textual information such as images and charts (excluding any purely decorative or structural elements). These elements don't have inner text so the accessible name won't have a calculated value. You can set the accessible name directly by setting the AutomationProperties.Name attached property as shown in this example.

<Image Source="product.png"
  AutomationProperties.Name="An image of a customer using the product."/>

Alternatively, consider including a text caption that appears in the visible UI and that also serves as the label-associated accessibility information for the image content. Here's an example:

<Image HorizontalAlignment="Left" Width="480" x:Name="img_MyPix"
  Source="snoqualmie-NF.jpg"
  AutomationProperties.LabeledBy="{Binding ElementName=caption_MyPix}"/>
<TextBlock x:Name="caption_MyPix">
Mount Snoqualmie Skiing
</TextBlock>

Labels and LabeledBy

The preferred way to associate a label with a form element is to use a TextBlock with an x:Name for label text, and then to set the AutomationProperties.LabeledBy attached property on the form element to reference the labeling TextBlock by its XAML name. If you use this pattern, when the user clicks the label, the focus moves to the associated control and assistive technologies can use the label text as the accessible name for the form field. Here's an example that shows this technique.

 <StackPanel x:Name="LayoutRoot" Background="White">
   <StackPanel Orientation="Horizontal">
     <TextBlock Name="lbl_FirstName">First name</TextBlock>
     <TextBox
      AutomationProperties.LabeledBy="{Binding ElementName=lbl_FirstName}"
      Name="tbFirstName" Width="100"/>
   </StackPanel>
   <StackPanel Orientation="Horizontal">
     <TextBlock Name="lbl_LastName">Last name</TextBlock>
     <TextBox
      AutomationProperties.LabeledBy="{Binding ElementName=lbl_LastName}"
      Name="tbLastName" Width="100"/>
   </StackPanel>
 </StackPanel>

Accessible description (optional)

An accessible description provides additional accessibility information about a particular UI element. You typically provide an accessible description when an accessible name alone does not adequately convey an element's purpose.

The Narrator screen reader reads an element's accessible description only when the user requests more information about the element by pressing Caps Lock+F.

The accessible name is meant to identify the control rather than to fully document its behavior. If a brief description is not enough to explain the control, you can set the AutomationProperties.HelpText attached property in addition to AutomationProperties.Name.

Testing accessibility early and often

Ultimately, the best approach for supporting screen readers is to test your app using a screen reader yourself. That will show you how the screen reader behaves and what basic accessibility information might be missing from the app. Then you can adjust the UI or UI Automation property values accordingly. For more info, see Testing your app for accessibility.

One of the tools you can use for testing accessibility is called AccScope. The AccScope tool is particularly useful because you can see visual representations of your UI that represent how assistive technologies might view your app as an automation tree. In particular, there's a Narrator mode that gives a view of how Narrator gets text from your app and how it organizes the elements in the UI. AccScope is designed so that it can be used and be useful throughout a development cycle for an app, even during the preliminary design phase. For more info see AccScope.

Accessible names from dynamic data

The Windows Runtime supports many controls that can be used to display values that come from an associated data source, through a feature known as data binding. When you populate lists with data items, you may need to use a technique that sets accessible names for data-bound list items after the initial list is populated. For more info, see "Scenario 4" in the XAML accessibility sample.

Accessible names and localization

To make sure that the accessible name is also an element that is localized, you should use correct techniques for storing localizable strings as resources and then referencing the resource connections with x:Uid values. If the accessible name is coming from an explicitly set AutomationProperties.Name usage, make sure that the string there is also localizable.

Note that attached properties such as the AutomationProperties properties use a special qualifying syntax for the resource name, so that the resource references the attached property as applied to a specific element. For example, the resource name for AutomationProperties.Name as applied to a UI element named MediumButton is: MediumButton.[using:Windows.UI.Xaml.Automation]AutomationProperties.Name. For more info, see Quickstart: Translating UI resources.

AutomationProperties.Name

XAML accessibility sample

Testing your app for accessibility