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Any other resources that \tt Hello.qml referred to, usually by a relative URL, would similarly be loaded from the network. \section1 Relative vs. Absolute URLs Whenever an object has a property of type URL (QUrl), assigning a string to that property will actually assign an absolute URL - by resolving the string against the URL of the document where the string is used. For example, consider this content in \tt{http://example.com/mystuff/test.qml}: \qml Image { source: "images/logo.png" } \endqml The \l Image source property will be assigned \tt{http://example.com/mystuff/images/logo.png}, but while the QML is being developed, in say \tt C:\\User\\Fred\\Documents\\MyStuff\\test.qml, it will be assigned \tt C:\\User\\Fred\\Documents\\MyStuff\\images\\logo.png. If the string assigned to a URL is already an absolute URL, then "resolving" does not change it and the URL is assigned directly. \section1 Progressive Loading Because of the declarative nature of QML and the asynchronous nature of network resources, objects which reference network resource generally change state as the network resource loads. For example, an Image with a network source will initially have a \c width and \c height of 0, a \c status of \c Loading, and a \c progress of 0.0. While the content loads, the \c progress will increase until the content is fully loaded from the network, at which point the \c width and \c height become the content size, the \c status becomes \c Ready, and the \c progress reaches 1.0. Applications can bind to these changing states to provide visual progress indicators where appropriate, or simply bind to the \c width and \c height as if the content was a local file, adapting as those bound values change. Note that when objects reference local files they immediately have the \c Ready status, but applications wishing to remain network transparent should not rely on this. Future versions of QML may also use asynchronous local file I/O to improve performance. \section1 Accessing Network Services QML types such as XmlListModel, and JavaScript classes like XMLHttpRequest are intended entirely for accessing network services, which usually respond with references to content by URLs that can then be used directly in QML. For example, using these facilities to access an on-line photography service would provide the QML application with URLs to photographs, which can be directly set on an \l Image \c source property. See the \tt demos/declarative/flickr for a real demonstration of this. \section1 Configuring the Network Access Manager All network access from QML is managed by a QNetworkAccessManager set on the QmlEngine which executes the QML. By default, this is an unmodified Qt QNetworkAccessManager. You may set a different manager using QmlEngine::setNetworkAccessManager() as appropriate for the policies of your application. For example, the \l qmlviewer tool sets a new QNetworkAccessManager which trusts HTTP Expiry headers to avoid network cache checks, allows HTTP Pipelining, adds a persistent HTTP CookieJar, a simple disk cache, and supports proxy settings. \section1 QRC Resources One of the URL schemes built into Qt is the "qrc" scheme. This allows content to be compiled into the executable using \l{The Qt Resource System}. Using this, an executable can reference QML content that is compiled into the executable: \code QmlView *canvas = new QmlView; canvas->setUrl(QUrl("qrc:/dial.qml")); \endcode The content itself can then use relative URLs, and so be transparently unaware that the content is compiled into the executable. \section1 Limitations The \c import statement is only network transparent if it has an "as" clause. More specifically: \list \o \c{import "dir"} only works on local file systems \o \c{import libraryUri} only works on local file systems \o \c{import "dir" as D} works network transparently \o \c{import libraryUrl as U} works network transparently \endlist */