Export (0) Print
Expand All
1 out of 2 rated this helpful - Rate this topic

WPF XAML Namescopes

XAML namescopes are a concept that identifies objects that are defined in XAML. The names in a XAML namescope can be used to establish relationships between the XAML-defined names of objects and their instance equivalents in an object tree. Typically, XAML namescopes in WPF managed code are created when loading the individual XAML page roots for a XAML application. XAML namescopes as the programming object are defined by the INameScope interface and are also implemented by the practical class NameScope.

This topic contains the following sections.

In a broader programming or computer science context, programming concepts often include the principle of a unique identifier or name that can be used to access an object. For systems that use identifiers or names, the namescope defines the boundaries within which a process or technique will search if an object of that name is requested, or the boundaries wherein uniqueness of identifying names is enforced. These general principles are true for XAML namescopes. In WPF, XAML namescopes are created on the root element for a XAML page when the page is loaded. Each name specified within the XAML page starting at the page root is added to a pertinent XAML namescope.

In WPF XAML, elements that are common root elements (such as Page, and Window) always control a XAML namescope. If an element such as FrameworkElement or FrameworkContentElement is the root element of the page in markup, a XAML processor adds a Page root implicitly so that the Page can provide a working XAML namescope.

NoteNote

WPF build actions create a XAML namescope for a XAML production even if no Name or x:Name attributes are defined on any elements in the XAML markup.

If you try to use the same name twice in any XAML namescope, an exception is raised. For WPF XAML that has code-behind and is part of a compiled application, the exception is raised at build time by WPF build actions, when creating the generated class for the page during the initial markup compile. For XAML that is not markup-compiled by any build action, exceptions related to XAML namescope issues might be raised when the XAML is loaded. XAML designers might also anticipate XAML namescope issues at design time.

Adding Objects to Runtime Object Trees

The moment that XAML is parsed represents the moment in time that a WPF XAML namescope is created and defined. If you add an object to an object tree at a point in time after the XAML that produced that tree was parsed, a Name or x:Name value on the new object does not automatically update the information in a XAML namescope. To add a name for an object into a WPF XAML namescope after XAML is loaded, must call the appropriate implementation of RegisterName on the object that defines the XAML namescope, which is typically the XAML page root. If the name is not registered, the added object cannot be referenced by name through methods such as FindName, and you cannot use that name for animation targeting.

The most common scenario for application developers is that you will use RegisterName to register names into the XAML namescope on the current root of the page. RegisterName is part of an mportant scenario for storyboards that target objects for animations. For more information, see Storyboards Overview.

If you call RegisterName on an object other than the object that defines the XAML namescope, the name is still registered to the XAML namescope that the calling object is held within, as if you had called RegisterName on the XAML namescope defining object.

XAML Namescopes in Code

You can create and then use XAML namescopes in code. The APIs and the concepts involved in XAML namescope creation are the same even for a pure code usage, because the XAML processor for WPF uses these APIs and concepts when it processes XAML itself. The concepts and API exist mainly for the purpose of being able to find objects by name within an object tree that is typically defined partially or entirely in XAML.

For applications that are created programmatically, and not from loaded XAML, the object that defines a XAML namescope must implement INameScope, or be a FrameworkElement or FrameworkContentElement derived class, in order to support creation of a XAML namescope on its instances.

Also, for any element that is not loaded and processed by a XAML processor, the XAML namescope for the object is not created or initialized by default. You must explicitly create a new XAML namescope for any object that you intend to register names into subsequently. To create a XAML namescope, you call the static SetNameScope method. Specify the object that will own it as the dependencyObject parameter, and a new NameScope constructor call as the value parameter.

If the object provided as dependencyObject for SetNameScope is not a INameScope implementation, FrameworkElement or FrameworkContentElement, calling RegisterName on any child elements will have no effect. If you fail to create the new XAML namescope explicitly, then calls to RegisterName will raise an exception.

For an example of using XAML namescope APIs in code, see How to: Define a Name Scope.

Styles and templates in WPF provide the ability to reuse and reapply content in a straightforward way. However, styles and templates might also include elements with XAML names defined at the template level. That same template might be used multiple times in a page. For this reason, styles and templates both define their own XAML namescopes, independent of whatever location in an object tree where the style or template is applied.

Consider the following example:


<Page
  xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
  xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
  >
  <Page.Resources>
    <ControlTemplate x:Key="MyButtonTemplate" TargetType="{x:Type Button}">
      <Border BorderBrush="Red" Name="TheBorder" BorderThickness="2">
        <ContentPresenter/>
      </Border>      
    </ControlTemplate>
  </Page.Resources>
  <StackPanel>
    <Button Template="{StaticResource MyButtonTemplate}">My first button</Button>
    <Button Template="{StaticResource MyButtonTemplate}">My second button</Button>
  </StackPanel>
</Page>


Here, the same template is applied to two different buttons. If templates did not have discrete XAML namescopes, the TheBorder name used in the template would cause a name collision in the XAML namescope. Each instantiation of the template has its own XAML namescope, so in this example each instantiated template's XAML namescope would contain exactly one name.

Styles also define their own XAML namescope, mostly so that parts of storyboards can have particular names assigned. These names enable control specific behaviors that will target elements of that name, even if the template was re-defined as part of control customization.

Because of the separate XAML namescopes, finding named elements in a template is more challenging than finding a non-templated named element in a page. You first need to determine the applied template, by getting the Template property value of the control where the template is applied. Then, you call the template version of FindName, passing the control where the template was applied as the second parameter.

If you are a control author and you are generating a convention where a particular named element in an applied template is the target for a behavior that is defined by the control itself, you can use the GetTemplateChild method from your control implementation code. The GetTemplateChild method is protected, so only the control author has access to it.

If you are working from within a template, and need to get to the XAML namescope where the template is applied, get the value of TemplatedParent, and then call FindName there. An example of working within the template would be if you are writing the event handler implementation where the event will be raised from an element in an applied template.

FrameworkElement has FindName, RegisterName and UnregisterName methods. If the object you call these methods on owns a XAML namescope, the methods call into the methods of the relevant XAML namescope. Otherwise, the parent element is checked to see if it owns a XAML namescope, and this process continues recursively until a XAML namescope is found (because of the XAML processor behavior, there is guaranteed to be a XAML namescope at the root). FrameworkContentElement has analogous behaviors, with the exception that no FrameworkContentElement will ever own a XAML namescope. The methods exist on FrameworkContentElement so that the calls can be forwarded eventually to a FrameworkElement parent element.

SetNameScope is used to map a new XAML namescope to an existing object. You can call SetNameScope more than once in order to reset or clear the XAML namescope, but that is not a common usage. Also, GetNameScope is not typically used from code.

XAML Namescope Implementations

The following classes implement INameScope directly:

ResourceDictionary does not use XAML names or namescopes ; it uses keys instead, because it is a dictionary implementation. The only reason that ResourceDictionary implements INameScope is so it can raise exceptions to user code that help clarify the distinction between a true XAML namescope and how a ResourceDictionary handles keys, and also to assure that XAML namescopes are not applied to a ResourceDictionary by parent elements.

FrameworkTemplate and Style implement INameScope through explicit interface definitions. The explicit implementations allow these XAML namescopes to behave conventionally when they are accessed through the INameScope interface, which is how XAML namescopes are communicated by WPF internal processes. But the explicit interface definitions are not part of the conventional API surface of FrameworkTemplate and Style, because you seldom need to call the INameScope methods on FrameworkTemplate and Style directly, and instead would use other API such as GetTemplateChild.

The following classes define their own XAML namescope, by using the System.Windows.NameScope helper class and connecting to its XAML namescope implementation through the NameScope.NameScope attached property:

Did you find this helpful?
(1500 characters remaining)
Thank you for your feedback
Show:
© 2014 Microsoft. All rights reserved.