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krebbl edited this page Mar 19, 2013 · 6 revisions

XAML

XAML stands for Extensible Application Markup Language and is the way of defining views based on HTML and ready to use components in rAppid:js.

XAML is XML and so we could make use of

  • Namespaces
  • Schemas / Validation
  • Generation and transformation of views

The basics

XML is a markup language defined by text characters, which forms either markup or content. XML is specified by the W3C and used to define many languages of the internet - e.g. HTML5, SVG, RSS and hunders more. The markup is enclosed in < and > chars or between & and ; - the rest of the document is content.

Element

XML consists of Elements (e.g. <p>An Element</p>) which are defined by a start-tag <tag> and the matching end-tag </tag>. The content between the tags can consist of text and Elements, which are called child elements. If there are no children of the element the element can be defined as empty-element-tag <tag />.

Attribute

Each elements can have a set of attributes, which are a combination of key and value influencing the behavior of the element. The attributes are written as <p class="foo" /> either in the start tag or the empty-element-tag.

Namespace

Each element of an xml document consists of a namespaceUri and a localName defining the full qualified name of the element. A namespace is declared using the xmlns attribute in the element node, mostly the root Element of the XML document and is inherit to all it's children until a new xmls declaration is found. Beside the default namespace defined using the xmlns more namespaces can pre-defined using a prefix with xmlns:uniquePrefix="my.namespace.uri".

Usage in rAppid:js

XAML is the declarative way to describe a view. Defining a view with XAML creates a class!

Because rAppid:js is a Javascript Web MVC Framework the Views are defined in XHTML. The default namespace uri for every view component must be http://www.w3.org/1999/xhtml to allow the usage of all HTML5 elements.

Code- behind

If you start using rAppid:js by scaffolding an application with the following command

rappidjs create app App /path/of/my/application/root

you'll find an App.xml and an AppClass.js inside the public directory of your application root (see Project). The App.xml is the main application XAML and the the AppClass.js the corresponding code behind file.

<?xml version="1.0"?>
<app:AppClass xmlns="http://www.w3.org/1999/xhtml"
               xmlns:js="js.core" xmlns:ui="js.ui" xmlns:app="app">
    <div class="container">
        Your Application {appName} is running!
    </div>
</app:AppClass>

The root element of the App.xml defines the default namespace http://www.w3.org/1999/xhtml and the three more namespaces. Each of the namespace declaration has a prefix and a namespace uri (beside the default namespace), which maps to a directory under the public folder of your application root.

The prefix js maps to the namespace uri js.core which stands for the directory js/core inside the public folder. The prefix app maps to the namespace uri app which stands for the directory app where all you application code should be located.

Relation between View and Code-Behind

As described above, the App.xml has the AppClass.js as Code-Behind file. How are the related? Each XAML defines a class where the full qualified name of the class is the path to the .xml file from the project public directory.

Important! You really need to keep this in mind

  • XAML defines a class!
  • The full qualified name of the class is the path to the .xml file
  • Each XAML class inherits from a base class

Each XAML class inherits from a base class. The base class is determinated by the full qualified element name of the root tag. In the above example this means:

  • the full qualified element name of the root node is app.AppClass, because
    • the prefix app maps to the namespace uri app
    • and the local name is AppClass
  • our XAML class app.App inherit from app.AppClass
  • all methods and variables from app.AppClass will be known in app.App

That's code behind! With this technic you could also write different views e.g. for browser and mobile devises with the same code-behind file which is the Controller of the application.

Example

The example is based on the simple ToDo application which can be found at http://www.rappidjs.com.

<?xml version="1.0"?>
<app:AppClass xmlns="http://www.w3.org/1999/xhtml"
              xmlns:js="js.core" xmlns:ui="js.ui" xmlns:app="example.todo">
    <h2>Todo</h2>


    <ui:ListView items="{todoList}" itemKey="todo" class="unstyled">
        <js:Template name="item">
            <label class="checkbox">
                <input type="checkbox" checked="{{$todo.completed}}"/>
                <span class="{$todo.status()}">{$todo.title}</span>
            </label>
        </js:Template>
    </ui:ListView>

</app:AppClass>

The App.xml inherits from the code-behind file is located at public/example/todo/AppClass.js, because the prefix app of the root node maps to example.todo and the local name is AppClass.

The ui:ListView element will map to js/ui/ListView.js and the js:Template to js/core/Template.js.

The h2, label and span tag used in the view are inside the http://www.w3.org/1999/xhtml namespace and will be mapped to js.html.HtmlElement. The input element would map to `js.html.

WTF and why?

Namespace and RewriteMap

In rAppid.js we introduced a RewriteMap which will map namespace uris to an uri, which can resolved inside the public directory of the application. In addition there is a RewriteMap mapping some full qualified elements to different classes e.g. the js.html.HtmlElement.

Theses mechanismen allows to use tags which haven't any special implementation to map to a generic implementation, like the HtmlElement. In addition it allows to implement some special logic e.g. for the Input element, which doesn't allow Bindings by default.

The same technic is used for SVG, which maps to js.svg.SvgElement.

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