/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the documentation of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:FDL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Free Documentation License ** Alternatively, this file may be used under the terms of the GNU Free ** Documentation License version 1.3 as published by the Free Software ** Foundation and appearing in the file included in the packaging of this ** file. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ /*! \example phonon/capabilities \title Capabilities Example The Backend Capabilities example shows how to check which MIME types, audio devices, and audio effects are available. \image capabilitiesexample.png Phonon does not implement the multimedia functionality itself, but relies on a backend to manage this. The backends do not manage the hardware directly, but use intermediate technologies: QuickTime on Mac, GStreamer on Linux, and DirectShow (which requires DirectX) on Windows. The user may add support for new MIME types and effects to these systems, and the systems abilities may also be different. The support for multimedia MIME types, and audio effects in Phonon will therefore vary from system to system. Backends informs the programmer about current capabilities through an implementation of the Phonon::BackendCapabilities namespace. The backend reports which MIME types can be played back, which audio effects are available, and which sound devices are available on the system. When the capabilities of a backend changes, it will emit the \l{Phonon::BackendCapabilities::Notifier::}{capabilitiesChanged()} signal. The example consists of one class, \c Window, which displays capabilities information from the current backend used by Phonon. See the \l{Phonon Overview} for a high-level introduction to Phonon. \section1 Window Class Definition The \c Window class queries the Phonon backend for its capabilities. The results are presented in a GUI consisting of standard Qt widgets. We will now take a tour of the Phonon related parts of both the definition and implementation of the \c Window class. \snippet examples/phonon/capabilities/window.h windowMembers We need the slot to notice changes in the backends capabilities. \c mimeListWidget and \c devicesListView lists MIME types and audio devices. The \c effectsTreeWidget lists audio effects, and expands to show their parameters. The \c setupUi() and \c setupBackendBox() private utility functions create the widgets and lays them out. We skip these functions while discussing the implementation because they do not contain Phonon relevant code. \section1 Window Class Implementation Our examination starts with a look at the constructor: \snippet examples/phonon/capabilities/window.cpp constructor After creating the user interface, we call \c updateWidgets(), which will fill the widgets with the information we get from the backend. We then connect the slot to the \l{Phonon::BackendCapabilities::Notifier::}{capabilitiesChanged()} and \l{Phonon::BackendCapabilities::Notifier::availableAudioOutputDevicesChanged()}{availableAudioOutputDevicesChanged()} signals in case the backend's abilities changes while the example is running. The signal is emitted by a Phonon::BackendCapabilities::Notifier object, which listens for changes in the backend. In the \c updateWidgets() function, we query the backend for information it has about its abilities and present it in the GUI of \c Window. We dissect it here: \snippet examples/phonon/capabilities/window.cpp outputDevices The \l{Phonon::BackendCapabilities::Notifier::}{availableAudioOutputDevicesChanged()} function is a member of the Phonon::BackendCapabilities namespace. It returns a list of \l{Phonon::}{AudioOutputDevice}s, which gives us information about a particular device, e.g., a sound card or a USB headset. Note that \l{Phonon::}{AudioOutputDevice} and also \l{Phonon::}{EffectDescription}, which is described shortly, are typedefs of \l{Phonon::}{ObjectDescriptionType}. \omit ### The \l{Phonon::}{ObjectDescriptionModel} is a convenience model that displays the names of the devices. Their descriptions are shown as tooltips and disabled devices are shown in gray. \endomit \snippet examples/phonon/capabilities/window.cpp mimeTypes The MIME types supported are given as strings in a QStringList. We can therefore create a list widget item with the string, and append it to the \c mimeListWidget, which displays the available MIME types. \snippet examples/phonon/capabilities/window.cpp effects As before we add the description and name to our widget, which in this case is a QTreeWidget. A particular effect may also have parameters, which are inserted in the tree as child nodes of their effect. \snippet examples/phonon/capabilities/window.cpp effectsParameters The parameters are only accessible through an instance of the \l{Phonon::}{Effect} class. Notice that an effect is created with the effect description. The \l{Phonon::}{EffectParameter} contains information about one of an effects parameters. We pick out some of the information to describe the parameter in the tree widget. \section1 The main() function Because Phonon uses D-Bus on Linux, it is necessary to give the application a name. You do this with \l{QCoreApplication::}{setApplicationName()}. \snippet examples/phonon/capabilities/main.cpp everything */