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The QtSingleApplication class provides an API to detect and communicate with running instances of an application. More...
#include <QtSingleApplication>
Inherits QApplication.
QtSingleApplication ( int & argc, char ** argv, bool GUIenabled = true ) | |
QtSingleApplication ( const QString & appId, int & argc, char ** argv ) | |
QtSingleApplication ( int & argc, char ** argv, Type type ) | |
QtSingleApplication ( Display * dpy, Qt::HANDLE visual = 0, Qt::HANDLE cmap = 0 ) | |
QtSingleApplication ( Display * dpy, int & argc, char ** argv, Qt::HANDLE visual = 0, Qt::HANDLE cmap = 0 ) | |
QtSingleApplication ( Display * dpy, const QString & appId, int argc, char ** argv, Qt::HANDLE visual = 0, Qt::HANDLE cmap = 0 ) | |
QWidget * | activationWindow () const |
QString | id () const |
bool | isRunning () |
void | setActivationWindow ( QWidget * aw, bool activateOnMessage = true ) |
void | activateWindow () |
bool | sendMessage ( const QString & message, int timeout = 5000 ) |
void | messageReceived ( const QString & message ) |
The QtSingleApplication class provides an API to detect and communicate with running instances of an application.
This class allows you to create applications where only one instance should be running at a time. I.e., if the user tries to launch another instance, the already running instance will be activated instead. Another usecase is a client-server system, where the first started instance will assume the role of server, and the later instances will act as clients of that server.
By default, the full path of the executable file is used to determine whether two processes are instances of the same application. You can also provide an explicit identifier string that will be compared instead.
The application should create the QtSingleApplication object early in the startup phase, and call isRunning() to find out if another instance of this application is already running. If isRunning() returns false, it means that no other instance is running, and this instance has assumed the role as the running instance. In this case, the application should continue with the initialization of the application user interface before entering the event loop with exec(), as normal.
The messageReceived() signal will be emitted when the running application receives messages from another instance of the same application. When a message is received it might be helpful to the user to raise the application so that it becomes visible. To facilitate this, QtSingleApplication provides the setActivationWindow() function and the activateWindow() slot.
If isRunning() returns true, another instance is already running. It may be alerted to the fact that another instance has started by using the sendMessage() function. Also data such as startup parameters (e.g. the name of the file the user wanted this new instance to open) can be passed to the running instance with this function. Then, the application should terminate (or enter client mode).
If isRunning() returns true, but sendMessage() fails, that is an indication that the running instance is frozen.
Here's an example that shows how to convert an existing application to use QtSingleApplication. It is very simple and does not make use of all QtSingleApplication's functionality (see the examples for that).
// Original int main(int argc, char **argv) { QApplication app(argc, argv); MyMainWidget mmw; mmw.show(); return app.exec(); } // Single instance int main(int argc, char **argv) { QtSingleApplication app(argc, argv); if (app.isRunning()) return !app.sendMessage(someDataString); MyMainWidget mmw; app.setActivationWindow(&mmw); mmw.show(); return app.exec(); }
Once this QtSingleApplication instance is destroyed (normally when the process exits or crashes), when the user next attempts to run the application this instance will not, of course, be encountered. The next instance to call isRunning() or sendMessage() will assume the role as the new running instance.
For console (non-GUI) applications, QtSingleCoreApplication may be used instead of this class, to avoid the dependency on the QtGui library.
See also QtSingleCoreApplication.
Creates a QtSingleApplication object. The application identifier will be QCoreApplication::applicationFilePath(). argc, argv, and GUIenabled are passed on to the QAppliation constructor.
If you are creating a console application (i.e. setting GUIenabled to false), you may consider using QtSingleCoreApplication instead.
Creates a QtSingleApplication object with the application identifier appId. argc and argv are passed on to the QAppliation constructor.
Creates a QtSingleApplication object. The application identifier will be QCoreApplication::applicationFilePath(). argc, argv, and type are passed on to the QAppliation constructor.
Special constructor for X11, ref. the documentation of QApplication's corresponding constructor. The application identifier will be QCoreApplication::applicationFilePath(). dpy, visual, and cmap are passed on to the QApplication constructor.
Special constructor for X11, ref. the documentation of QApplication's corresponding constructor. The application identifier will be QCoreApplication::applicationFilePath(). dpy, argc, argv, visual, and cmap are passed on to the QApplication constructor.
Special constructor for X11, ref. the documentation of QApplication's corresponding constructor. The application identifier will be appId. dpy, argc, argv, visual, and cmap are passed on to the QApplication constructor.
De-minimizes, raises, and activates this application's activation window. This function does nothing if no activation window has been set.
This is a convenience function to show the user that this application instance has been activated when he has tried to start another instance.
This function should typically be called in response to the messageReceived() signal. By default, that will happen automatically, if an activation window has been set.
See also setActivationWindow(), messageReceived(), and initialize().
Returns the applications activation window if one has been set by calling setActivationWindow(), otherwise returns 0.
See also setActivationWindow().
Returns the application identifier. Two processes with the same identifier will be regarded as instances of the same application.
Returns true if another instance of this application is running; otherwise false.
This function does not find instances of this application that are being run by a different user (on Windows: that are running in another session).
See also sendMessage().
This signal is emitted when the current instance receives a message from another instance of this application.
See also sendMessage(), setActivationWindow(), and activateWindow().
Tries to send the text message to the currently running instance. The QtSingleApplication object in the running instance will emit the messageReceived() signal when it receives the message.
This function returns true if the message has been sent to, and processed by, the current instance. If there is no instance currently running, or if the running instance fails to process the message within timeout milliseconds, this function return false.
See also isRunning() and messageReceived().
Sets the activation window of this application to aw. The activation window is the widget that will be activated by activateWindow(). This is typically the application's main window.
If activateOnMessage is true (the default), the window will be activated automatically every time a message is received, just prior to the messageReceived() signal being emitted.
See also activationWindow(), activateWindow(), and messageReceived().
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