QApplication - Manages the GUI application's control flow
and main settings
#include <qapplication.h>
Inherits QObject.
Inherited by QXtApplication.
Public Members
QApplication ( int & argc, char ** argv )
QApplication ( int & argc, char ** argv, bool GUIenabled )
enum Type { Tty, GuiClient, GuiServer }
QApplication ( int & argc, char ** argv, Type )
virtual ~QApplication ()
int argc () const
char** argv () const
Type type () const
enum ColorSpec { NormalColor=0, CustomColor=1, ManyColor=2
}
QWidget* mainWidget () const
virtual void setMainWidget ( QWidget * )
virtual void polish ( QWidget * )
QWidget* focusWidget () const
QWidget* activeWindow () const
int exec ()
void processEvents ()
void processEvents ( int maxtime )
void processOneEvent ()
int enter_loop ()
void exit_loop ()
int loopLevel () const
virtual bool notify ( QObject *, QEvent * )
void setDefaultCodec ( QTextCodec * )
QTextCodec* defaultCodec () const
void installTranslator ( QTranslator * )
void removeTranslator ( QTranslator * )
QString translate ( const char *, const char * ) const
(obsolete)
QString translate ( const char *, const char *, const char
* ) const
bool isSessionRestored () const
QString sessionId () const
virtual void commitData ( QSessionManager & sm )
virtual void saveState ( QSessionManager & sm )
void wakeUpGuiThread ()
void lock ()
void unlock ( bool wakeUpGui = TRUE )
bool locked ()
Public Slots
void quit ()
Signals
void lastWindowClosed ()
void aboutToQuit ()
void guiThreadAwake ()
Static Public Members
QStyle& style ()
void setStyle ( QStyle * )
int colorSpec ()
void setColorSpec ( int )
QCursor* overrideCursor ()
void setOverrideCursor ( const QCursor &, bool
replace=FALSE )
void restoreOverrideCursor ()
bool hasGlobalMouseTracking ()
void setGlobalMouseTracking ( bool enable )
QPalette palette ( const QWidget * = 0 )
void setPalette ( const QPalette &, bool
informWidgets=FALSE, const char * className = 0 )
QFont font ( const QWidget * = 0 )
void setFont ( const QFont &, bool informWidgets=FALSE,
const char * className = 0 )
QFontMetrics fontMetrics ()
QWidgetList* allWidgets ()
QWidgetList* topLevelWidgets ()
QWidget* desktop ()
QWidget* activePopupWidget ()
QWidget* activeModalWidget ()
QClipboard* clipboard ()
QWidget* widgetAt ( int x, int y, bool child=FALSE )
QWidget* widgetAt ( const QPoint &, bool child=FALSE )
void exit ( int retcode=0 )
bool sendEvent ( QObject * receiver, QEvent * event )
void postEvent ( QObject * receiver, QEvent * event )
void sendPostedEvents ( QObject * receiver, int event_type
)
void sendPostedEvents ()
void removePostedEvents ( QObject * receiver )
bool startingUp ()
bool closingDown ()
void flushX ()
void syncX ()
void beep ()
void setWinStyleHighlightColor ( const QColor & )
(obsolete)
const QColor& winStyleHighlightColor () (obsolete)
void setDesktopSettingsAware ( bool )
bool desktopSettingsAware ()
void setCursorFlashTime ( int )
int cursorFlashTime ()
void setDoubleClickInterval ( int )
int doubleClickInterval ()
int wheelScrollLines ()
void setGlobalStrut ( const QSize & )
QSize globalStrut ()
void setStartDragTime ( int ms )
int startDragTime ()
void setStartDragDistance ( int l )
int startDragDistance ()
bool isEffectEnabled ( Qt::UIEffect )
void setEffectEnabled ( Qt::UIEffect, bool enable = TRUE )
RELATED FUNCTION DOCUMENTATION
(Note that these are not member functions.)
void qDebug (const char * msg, ...)
void CHECK_PTR (void * p)
void ASSERT (bool test)
void qWarning (const char * msg, ...)
void qFatal (const char * msg, ...)
const char * qVersion ()
void qAddPostRoutine (Q_CleanUpFunction p)
msg_handler qInstallMsgHandler (msg_handler h)
bool qSysInfo (int * wordSize, bool * bigEndian)
DESCRIPTION
The QApplication class manages the GUI application's
control flow and main settings.
It contains the main event loop, where all events from the
window system and other sources are processed and
dispatched. It also handles the application initialization
and finalization, and provides session management.
Finally, it handles most system-wide and application-wide
settings.
For any GUI application that uses Qt, there is precisely
one QApplication object, no matter whether the application
has 0, 1, 2 or even more windows at the moment.
This object (you can access is using the global variable
qApp) does a great many things, most importantly:
It initializes the application to the user's desktop
settings like palette(), font() or the
doubleClickInterval(). It keeps track of these
properties in case the user changes the desktop
globally in some kind of control panel.
It performs event handling, meaning that it receives
events from the underlying window system and sends
them to the destination widgets. By using
sendEvent() and postEvent() you can send your own
events to widgets.
internal state accordingly. See the constructor
documentation below for more details about this.
It defines the application's look and feel, which is
encapsulated in a QStyle object. This can be
changed during runtime with setStyle().
It specifies how the application is to allocate colors.
See setColorSpec() for details.
It specifies the default text encoding (see
setDefaultCodec() ) and provides localization of
strings that are visible to the user via
translate().
It provides some magic objects like the desktop() and the
clipboard().
It knows about the application's windows, and lets you ask
which widget is at a certain position using
widgetAt(), lets you closeAllWindows(), gives you a
list of topLevelWidgets(), etc.
It manages the application's mouse cursor handling, see
setOverrideCursor() and setGlobalMouseTracking().
On the X window system, it provides functions to flush and
sync the communication stream, see flushX() and
syncX().
It provides support to implement sophisticated session
management. This makes it possible for applications
to terminate gracefully when the user logs out, to
cancel a shutdown process if termination isn't
possible and even to preserve the entire
application state for a future session. See
isSessionRestored(), sessionId() and commitData()
and saveState() for details.
The Application walk-through example contains a typical
complete main() that does the usual things with
QApplication.
Since the QApplication object does so much initialization,
it is absolutely necessary to create it before any other
objects related to the user interface are created.
Since it also deals with common command line arguments, it
is usually a good idea to create it before any
interpretation or modification of argv is done in the
application itself. (Note also that for X11,
setMainWidget() may change the main widget according to
must set your defaults before setMainWidget() and any
overrides after.)
Groups of functions:
System settings: desktopSettingsAware(),
setDesktopSettingsAware(), cursorFlashTime(),
setCursorFlashTime(), doubleClickInterval(),
setDoubleClickInterval(), wheelScrollLines(),
setWheelScrollLines(), palette(), setPalette(),
font(), setFont(), fontMetrics().
Event handling: exec(), processEvents(),
processOneEvent(), enter_loop(), exit_loop(),
exit(), quit(). sendEvent(), postEvent(),
sendPostedEvents(), removePostedEvents(), notify(),
x11EventFilter(), x11ProcessEvent(),
winEventFilter().
GUI Styles: style(), setStyle(), polish().
Color usage: colorSpec(), setColorSpec().
Text handling: setDefaultCodec(), installTranslator(),
removeTranslator() translate().
Certain widgets: mainWidget(), setMainWidget(),
allWidgets(), topLevelWidgets(), desktop(),
activePopupWidget(), activeModalWidget(),
clipboard(), focusWidget(), activeWindow(),
widgetAt().
Advanced cursor handling: hasGlobalMouseTracking(),
setGlobalMouseTracking(), overrideCursor(),
setOverrideCursor(), restoreOverrideCursor().
X Window System synchronization: flushX(), syncX().
Session management: isSessionRestored(), sessionId(),
commitData(), saveState()
Misc: closeAllWindows(), startingUp(), closingDown(),
Non-GUI programs
While Qt is not optimized or designed for writing non-GUI
programs, it's possible to use some of its classes without
creating a QApplication. This can be useful if you wish to
share code between a non-GUI server and a GUI client.
Examples: showimg/main.cpp action/main.cpp
rangecontrols/main.cpp iconview/main.cpp
validator/main.cpp themes/main.cpp listviews/main.cpp
aclock/main.cpp checklists/main.cpp drawlines/connect.cpp
application/main.cpp cursor/cursor.cpp layout/layout.cpp
helpviewer/main.cpp buttongroups/main.cpp life/main.cpp
i18n/main.cpp drawdemo/drawdemo.cpp lineedits/main.cpp
popup/popup.cpp fileiconview/main.cpp listbox/main.cpp
menu/menu.cpp progress/progress.cpp scribble/main.cpp
qmag/qmag.cpp tabdialog/main.cpp splitter/splitter.cpp
progressbar/main.cpp tooltip/main.cpp richtext/main.cpp
qwerty/main.cpp forever/forever.cpp rot13/rot13.cpp
xml/tagreader desktop/desktop.cpp
scrollview/scrollview.cpp qfd/qfd.cpp addressbook/main.cpp
movies/main.cpp picture/picture.cpp hello/main.cpp
listboxcombo/main.cpp biff/main.cpp tictac/main.cpp
customlayout/main.cpp mdi/main.cpp dirview/main.cpp
MEMBER FUNCTION DOCUMENTATION
QApplication::QApplication ( int & argc, char ** argv )
Initializes the window system and constructs an
application object with the command line arguments argc
and argv.
The global qApp pointer refers to this application object.
Only one application object should be created.
This application object must be constructed before any
paint devices (includes widgets, pixmaps, bitmaps etc.)
Notice that argc and argv might be changed. Qt removes
command line arguments that it recognizes. The original
argc and argv are can be accessed later by qApp->argc()
and qApp->argv(). The documentation for argv() contains a
detailed description of how to process command line
arguments.
Qt debugging options (not available if Qt was compiled
with the NO_DEBUG flag defined):
-nograb, tells Qt to never grab the mouse or the keyboard.
-dograb (only under X11), running under a debugger can
cause an implicit -nograb, use -dograb to override.
-sync (only under X11), switches to synchronous mode for
debugging.
See Debugging Techniques for a more detailed explanation.
All Qt programs automatically support the following
command line options:
-style= style, sets the application GUI style. Possible
values are motif, windows, and platinum.
earlier session.
The X11 version of Qt also supports some traditional X11
command line options:
-display display, sets the X display (default is
$DISPLAY).
-geometry geometry, sets the client geometry of the main
widget.
-fn or -font font, defines the application font.
-bg or -background color, sets the default background
color and an application palette (light and dark
shades are calculated).
-fg or -foreground color, sets the default foreground
color.
-btn or -button color, sets the default button color.
-name name, sets the application name.
-title title, sets the application title (caption).
-visual TrueColor, forces the application to use a
TrueColor visual on an 8-bit display.
-ncols count, limits the number of colors allocated in the
color cube on a 8-bit display, if the application
is using the QApplication::ManyColor color
specification. If count is 216 then a 6x6x6 color
cube is used (ie. 6 levels of red, 6 of green, and
6 of blue); for other values, a cube approximately
proportional to a 2x3x1 cube is used.
-cmap, causes the application to install a private color
map on an 8-bit display.
See also argc() and argv().
QApplication::QApplication ( int & argc, char ** argv, Type type
)
For Qt/Embedded, passing QApplication::GuiServer for type
make this application the server (equivalent to running
with the -qws option).
QApplication::QApplication ( int & argc, char ** argv, bool
GUIenabled )
Constructs an application object with the command line
arguments argc and argv. If GUIenabled is TRUE, a normal
application is constructed, otherwise a non-GUI
Set GUIenabled to FALSE for programs without a graphical
user interface that should be able to run without a window
system.
On X11, the window system is initialized if GUIenabled is
TRUE. If GUIenabled is FALSE, the application does not
connect to the X-server.
On Windows, currently the window system is always
initialized, regardless of the value of GUIenabled. This
may change in future versions of Qt.
The following example shows how to create an application
that uses a graphical interface when available.
int main( int argc, char **argv )
{
QApplication app(argc, argv, useGUI);
if ( useGUI ) {
//start GUI version
...
} else {
//start non-GUI version
...
}
return app.exec();
}
QApplication::~QApplication () [virtual]
Cleans up any window system resources that were allocated
by this application. Sets the global variable qApp to
null.
void QApplication::aboutToQuit () [signal]
This signal is emitted when the application is about to
quit the main event loop. This may happen either after a
call to quit() from inside the application or when the
users shuts down the entire desktop session.
The signal is particularly useful if your application has
to do some last-second cleanups. Note that no user
interaction is possible at this state.
See also quit().
QWidget * QApplication::activeModalWidget () [static]
Returns the active modal widget.
A modal widget is a special top level widget which is a
subclass of QDialog that specifies the modal parameter of
the constructor to TRUE. A modal widget must be finished
before the user can continue with other parts of the
The modal widgets are organized in a stack. This function
returns the active modal widget on top of the stack.
See also activePopupWidget() and topLevelWidgets().
QWidget * QApplication::activePopupWidget () [static]
Returns the active popup widget.
A popup widget is a special top level widget that sets the
WType_Popup widget flag, e.g. the QPopupMenu widget. When
the application opens a popup widget, all events are sent
to the popup. Normal widgets and modal widgets cannot be
accessed before the popup widget is closed.
Only other popup widgets may be opened when a popup widget
is shown. The popup widgets are organized in a stack. This
function returns the active popup widget on top of the
stack.
See also activeModalWidget() and topLevelWidgets().
QWidget * QApplication::activeWindow () const
Returns the application top-level window that has the
keyboard input focus, or null if no application window has
the focus. Note that there might be an activeWindow even
if there is no focusWidget(), for example if no widget in
that window accepts key events.
See also QWidget::setFocus(), QWidget::hasFocus() and
focusWidget().
QWidgetList * QApplication::allWidgets () [static]
Returns a list of all the widgets in the application.
The list is created using new and must be deleted by the
caller.
The list is empty (QList::isEmpty()) if there are no
widgets.
Note that some of the widgets may be hidden.
Example:
//
// Updates all widgets.
//
QWidgetList *list = QApplication::allWidgets();
QWidgetListIt it( *list ); // iterate over the widgets
QWidget * w;
while ( (w=it.current()) != 0 ) { // for each widget...
++it;
}
delete list; // delete the list, not the widgets
The QWidgetList class is defined in the qwidcoll.h header
file.
Warning: Delete the list away as soon you have finished
using it. The widgets in the list may be deleted by
someone else at any time.
See also topLevelWidgets(), QWidget::isVisible() and
QList::isEmpty(),.
int QApplication::argc () const
Returns the number of command line arguments.
The documentation for argv() contains a detailed
description of how to process command line arguments.
See also argv() and QApplication::QApplication().
char ** QApplication::argv () const
Returns the command line argument vector.
argv()[0] is the program name, argv()[1] is the first
argument and argv()[argc()-1] is the last argument.
A QApplication object is constructed by passing argc and
argv from the main() function. Some of the arguments may
be recognized as Qt options removed from the argument
vector. For example, the X11 version of Qt knows about
-display, -font and a few more options.
Example:
// showargs.cpp - displays program arguments in a list box
#include <qapplication.h>
#include <qlistbox.h>
int main( int argc, char **argv )
{
QApplication a( argc, argv );
QListBox b;
a.setMainWidget( &b );
for ( int i=0; i<a.argc(); i++ ) // a.argc() == argc
b.insertItem( a.argv()[i] ); // a.argv()[i] == argv[i]
b.show();
return a.exec();
}
If you run showargs -display unix:0 -font 9x15bold hello
world under X11, the list box contains the three strings"
showargs", "hello" and "world".
void QApplication::beep () [static]
Sounds the bell, using the default volume and sound.
QClipboard * QApplication::clipboard () [static]
Returns a pointer to the application global clipboard.
void QApplication::closeAllWindows () [slot]
A convenience function that closes all toplevel windows.
The function is particularly useful for applications with
many toplevel windows. It could for example be connected
to a "Quit" entry in the file menu as shown in the
following code example:
// the "Quit" menu entry should try to close all windows
QPopupMenu* file = new QPopupMenu( this );
file->insertItem( tr("&Quit"), qApp, SLOT(closeAllWindows()), CTRL+Key_Q );
// when the last window was closed, the application should quit
connect( qApp, SIGNAL( lastWindowClosed() ), qApp, SLOT( quit() ) );
The windows are closed in random order, until one window
does not accept the close event.
See also QWidget::close(), QWidget::closeEvent(),
lastWindowClosed(), quit(), topLevelWidgets() and
QWidget::isTopLevel().
bool QApplication::closingDown () [static]
Returns TRUE if the application objects are being
destroyed.
See also startingUp().
int QApplication::colorSpec () [static]
Returns the color specification.
See also QApplication::setColorSpec().
void QApplication::commitData ( QSessionManager & sm ) [virtual]
This function deals with session management. It is invoked
when the QSessionManager wants the application to commit
all its data.
Usually this means saving of all open files, after getting
permission from the user. Furthermore you may want to
provide the user a way to cancel the shutdown.
Note that you should not exit the application within this
function. Instead, the session manager may or may not do
this afterwards, depending on the context.
Important
unless you ask the session manager sm for explicit
permission. See QSessionManager::allowsInteraction() and
QSessionManager::allowsErrorInteraction() for details and
example usage.
The default implementation requests interaction and sends
a close event to all visible toplevel widgets. If at least
one event was rejected, the shutdown is cancelled.
See also isSessionRestored(), sessionId() and saveState().
int QApplication::cursorFlashTime () [static]
Returns the text cursor's flash time in milliseconds. The
flash time is the time required to display, invert and
restore the caret display.
The default value on X11 is 1000 milliseconds. On Windows,
the control panel value is used.
Widgets should not cache this value since it may vary any
time the user changes the global desktop settings.
See also setCursorFlashTime().
QTextCodec* QApplication::defaultCodec () const
Returns the default codec (see setDefaultCodec()). Returns
0 by default (no codec).
QWidget * QApplication::desktop () [static]
Returns the desktop widget (also called the root window).
The desktop widget is useful for obtaining the size of the
screen. It may also be possible to draw on the desktop. We
recommend against assuming that it's possible to draw on
the desktop, as it works on some machines and not on
others.
QWidget *d = QApplication::desktop();
int w=d->width(); // returns screen width
int h=d->height(); // returns screen height
Examples: helpviewer/main.cpp scribble/main.cpp
qmag/qmag.cpp
bool QApplication::desktopSettingsAware () [static]
Returns the value set by setDesktopSettingsAware(), by
default TRUE.
See also setDesktopSettingsAware().
int QApplication::doubleClickInterval () [static]
Returns the maximum duration for a double click.
the control panel value is used.
See also setDoubleClickInterval().
int QApplication::enter_loop ()
This function enters the main event loop (recursively). Do
not call it unless you really know what you are doing.
See also exit_loop() and loopLevel().
int QApplication::exec ()
Enters the main event loop and waits until exit() is
called or the main widget is destroyed, and Returns the
value that was set via to exit() (which is 0 if exit() is
called via quit()).
It is necessary to call this function to start event
handling. The main event loop receives events from the
window system and dispatches these to the application
widgets.
Generally speaking, no user interaction can take place
before calling exec(). As a special case, modal widgets
like QMessageBox can be used before calling exec(),
because modal widgets call exec() to start a local event
loop.
To make your application perform idle processing, i.e.
executing a special function whenever there are no pending
events, use a QTimer with 0 timeout. More advanced idle
processing schemes can be achieved by using
processEvents() and processOneEvent().
See also quit(), exit(), processEvents() and
setMainWidget().
Examples: showimg/main.cpp action/main.cpp
rangecontrols/main.cpp iconview/main.cpp
validator/main.cpp themes/main.cpp listviews/main.cpp
aclock/main.cpp checklists/main.cpp drawlines/connect.cpp
dclock/main.cpp mainlyQt/editor.cpp xform/xform.cpp
application/main.cpp cursor/cursor.cpp layout/layout.cpp
helpviewer/main.cpp buttongroups/main.cpp life/main.cpp
i18n/main.cpp drawdemo/drawdemo.cpp lineedits/main.cpp
popup/popup.cpp fileiconview/main.cpp listbox/main.cpp
menu/menu.cpp progress/progress.cpp scribble/main.cpp
qmag/qmag.cpp tabdialog/main.cpp splitter/splitter.cpp
progressbar/main.cpp tooltip/main.cpp richtext/main.cpp
qwerty/main.cpp forever/forever.cpp rot13/rot13.cpp
xml/tagreader scrollview/scrollview.cpp qfd/qfd.cpp
addressbook/main.cpp movies/main.cpp picture/picture.cpp
hello/main.cpp listboxcombo/main.cpp biff/main.cpp
tictac/main.cpp customlayout/main.cpp mdi/main.cpp
void QApplication::exit ( int retcode=0 ) [static]
Tells the application to exit with a return code.
After this function has been called, the application
leaves the main event loop and returns from the call to
exec(). The exec() function returns retcode.
By convention, retcode 0 means success, any non-zero value
indicates an error.
Note that unlike the C library function of the same name,
this function does returns to the caller - it is event
processing that stops.
See also quit() and exec().
Examples: picture/picture.cpp
void QApplication::exit_loop ()
This function leaves from a recursive call to the main
event loop. Do not call it unless you are an expert.
See also enter_loop() and loopLevel().
void QApplication::flushX () [static]
Flushes the X event queue in the X11 implementation. This
normally returns almost immediately. Does nothing on other
platforms.
See also syncX().
QWidget * QApplication::focusWidget () const
Returns the application widget that has the keyboard input
focus, or null if no widget in this application has the
focus.
See also QWidget::setFocus(), QWidget::hasFocus() and
activeWindow().
QFont QApplication::font ( const QWidget * w = 0 ) [static]
Returns the default font for a widget. Basically this
function uses w->className() to get a font for it.
If w is 0 the default application font is returned.
See also setFont(), fontMetrics() and QWidget::font().
QFontMetrics QApplication::fontMetrics () [static]
Returns display (screen) font metrics for the application
font.
See also font(), setFont(), QWidget::fontMetrics() and
QSize QApplication::globalStrut () [static]
Returns the global strut of the application.
See also setGlobalStrut().
void QApplication::guiThreadAwake () [signal]
This signal is emitted when the GUI threads is about to
process a cycle of the event loop.
See also wakeUpGuiThread().
bool QApplication::hasGlobalMouseTracking () [static]
Returns TRUE if global mouse tracking is enabled,
otherwise FALSE.
See also setGlobalMouseTracking().
void QApplication::installTranslator ( QTranslator * mf )
Adds mf to the list of message files to be used for
localization. Message files are searched starting with the
most recently added file.
See also removeTranslator(), translate() and
QObject::tr().
bool QApplication::isEffectEnabled ( Qt::UIEffect effect )
[static]
Returns TRUE if effect is enabled, otherwise FALSE.
By default, Qt will try to use the desktop settings, and
setDesktopSettingsAware() must be called to prevent this.
sa\ setEffectEnabled(), Qt::UIEffect.
bool QApplication::isSessionRestored () const
Returns whether the application has been restored from an
earlier session.
See also sessionId(), commitData() and saveState().
void QApplication::lastWindowClosed () [signal]
This signal is emitted when the user has closed the last
remaining top level window.
The signal is very useful when your application has many
top level widgets but no main widget. You can then connect
it to the quit() slot.
For convenience, transient toplevel widgets such as popup
menus and dialogs are omitted.
See also mainWidget(), topLevelWidgets(),
void QApplication::lock ()
Lock the Qt library mutex. If another thread has already
locked the mutex, the calling thread will block until the
other thread has unlocked the mutex.
See also unlock() and locked().
bool QApplication::locked ()
Returns TRUE if the Qt library mutex is locked by a
different thread, otherwise returns FALSE.
NOTE: Due to differing implementations of recursive
mutexes on various platforms, calling this function from
the same thread that previous locked the mutex will return
undefined results.
See also lock() and unlock().
int QApplication::loopLevel () const
Returns the current loop level
See also enter_loop() and exit_loop().
QWidget * QApplication::mainWidget () const
Returns the main application widget, or a null pointer if
there is not a defined main widget.
See also setMainWidget().
bool QApplication::notify ( QObject * receiver, QEvent * event )
[virtual]
Sends event to receiver: receiver->event( event ) Returns
the value that is returned from the receiver's event
handler.
Reimplementing this virtual function is one of five ways
to process an event:
1 Reimplementing this function. Very powerful, you
get complete control, but of course only one
subclass can be qApp.
2 Installing an event filter on qApp. Such an event
filter gets to process all events for all widgets,
so it's just as powerful as reimplementing
notify(), and in this way it's possible to have
more than one application-global event filter.
Global event filter get to see even mouse events
for disabled widgets, and if global mouse tracking
is enabled, mouse move events for all widgets.
3 Reimplementing QObject::event() (as QWidget does).
to see the events before any widget-specific event
filters.
4 Installing an event filter on the object. Such an
even filter gets all the events except Tab and
Shift-Tab key presses.
5 Finally, reimplementing paintEvent(),
mousePressEvent() and so on. This is the normal,
easiest and least powerful way.
See also QObject::event() and installEventFilter().
QCursor * QApplication::overrideCursor () [static]
Returns the active application override cursor.
This function returns 0 if no application cursor has been
defined (i.e. the internal cursor stack is empty).
See also setOverrideCursor() and restoreOverrideCursor().
QPalette QApplication::palette ( const QWidget * w = 0 ) [static]
Returns a pointer to the default application palette.
There is always an application palette, i.e. the returned
pointer is guaranteed to be non-null.
If a widget is passed as argument, the default palette for
the widget's class is returned. This may or may not be the
application palett. In most cases there isn't be a special
palette for certain types of widgets, but one notable
exception is the popup menu under Windows, if the user has
defined a special background color for menus in the
display settings.
See also setPalette() and QWidget::palette().
void QApplication::polish ( QWidget * w ) [virtual]
Polishing of widgets.
Usually widgets call this automatically when they are
polished. It may be used to do some style-based central
customization of widgets.
Note that you are not limited to public functions of
QWidget. Instead, based on meta information like
QObject::className() you are able to customize any kind of
widgets.
See also QStyle::polish(), QWidget::polish(), setPalette()
and setFont().
void QApplication::postEvent ( QObject * receiver, QEvent * event
) [static]
The event must be allocated on the heap, as it is deleted
when the event has been posted.
When control returns to the main event loop, all events
that are stored in the queue will be sent using the
notify() function.
See also sendEvent().
void QApplication::processEvents ()
Processes pending events, for 3 seconds or until there are
no more events to process, whichever is shorter.
You can call this function occasionally when your program
is busy doing a long operation (e.g. copying a file).
See also processOneEvent(), exec() and QTimer.
void QApplication::processEvents ( int maxtime )
Processes pending events for maxtime milliseconds or until
there are no more events to process, whichever is shorter.
You can call this function occasionally when you program
is busy doing a long operation (e.g. copying a file).
See also processOneEvent(), exec() and QTimer.
void QApplication::processOneEvent ()
Waits for an event to occur, processes it, then returns.
This function is useful for adapting Qt to situations
where the event processing must be grafted into existing
program loops. Using this function in new applications may
be an indication of design problems.
See also processEvents(), exec() and QTimer.
void QApplication::quit () [slot]
Tells the application to exit with return code 0
(success). Equivalent to calling QApplication::exit( 0 ).
This function is a slot, so you may connect any signal to
activate quit().
Example:
QPushButton *quitButton = new QPushButton( "Quit" );
connect( quitButton, SIGNAL(clicked()), qApp, SLOT(quit()) );
See also exit() and aboutToQuit().
[static]
Removes all events posted using postEvent() for receiver.
The events are not dispatched, simply removed from the
queue. You should never need to call this function. If you
do call it, be aware that killing events may cause
receiver to break one or more invariants.
void QApplication::removeTranslator ( QTranslator * mf )
Removes mf from the list of message files used by this
application. Does not, of course, delete mf.
See also installTranslator(), translate() and
QObject::tr().
void QApplication::restoreOverrideCursor () [static]
Undoes the last setOverrideCursor().
If setOverrideCursor() has been called twice, calling
restoreOverrideCursor() will activate the first cursor
set. Calling this function a second time restores the
original widgets cursors.
See also setOverrideCursor() and overrideCursor().
void QApplication::saveState ( QSessionManager & sm ) [virtual]
This function deals with session management. It is invoked
when the session manager wants the application to preserve
its state for a future session.
For a text editor this would mean creating a temporary
file that includes the current contents of the edit
buffers, the location of the cursor and other aspects of
the current editing session.
Note that you should never exit the application within
this function. Instead, the session manager may or may not
do this afterwards, depending on the context. Futhermore,
most session managers will very likely request a saved
state immediately after the application has been started.
This permits the session manager to learn about the
application's restart policy.
Important
Within this function, no user interaction is possible,
unless you ask the session manager sm for explicit
permission. See QSessionManager::allowsInteraction() and
QSessionManager::allowsErrorInteraction() for details.
See also isSessionRestored(), sessionId() and
commitData().
) [static]
Sends an event directly to a receiver, using the notify()
function. Returns the value that was returned from the
event handler.
See also postEvent() and notify().
Examples: popup/popup.cpp
void QApplication::sendPostedEvents () [static]
Dispatches all posted events.
void QApplication::sendPostedEvents ( QObject * receiver, int
event_type ) [static]
Immediately dispatches all events which have been
previously enqueued with QApplication::postEvent() and
which are for the object receiver and have the event_type.
Some event compression may occur. Note that events from
the window system are not dispatched by this function.
QString QApplication::sessionId () const
Returns the identifier of the current session.
If the application has been restored from an earlier
session, this identifier is the same as it was in that
previous session.
The session identifier is guaranteed to be unique for both
different applications and different instances of the same
application.
See also isSessionRestored(), commitData() and
saveState().
void QApplication::setColorSpec ( int spec ) [static]
Sets the color specification for the application to spec.
The color specification controls how your application
allocates colors when run on a display with a limited
amount of colors, i.e. 8 bit / 256 color displays.
The color specification must be set before you create the
QApplication object.
The choices are:
QApplication::NormalColor. This is the default color
allocation strategy. Use this choice if your
application uses buttons, menus, texts and pixmaps
with few colors. With this choice, the application
uses system global colors. This works fine for most
applications under X11, but on Windows machines it
QApplication::CustomColor. Use this choice if your
application needs a small number of custom colors.
On X11, this choice is the same as NormalColor. On
Windows, Qt creates a Windows palette, and
allocates colors in it on demand.
QApplication::ManyColor. Use this choice if your
application is very color hungry (e.g. it wants
thousands of colors). Under X11 the effect is:
For 256-color displays which have at best a 256 color true
color visual, the default visual is used, and
colors are allocated from a color cube. The color
cube is the 6x6x6 (216 color) "Web palette", but
the number of colors can be changed by the -ncols
option. The user can force the application to use
the true color visual by the -visual option.
For 256-color displays which have a true color visual with
more than 256 colors, use that visual. Silicon
Graphics X servers have this feature, for example.
They provide an 8 bit visual by default but can
deliver true color when asked. On Windows, Qt
creates a Windows palette, and fills it with a
color cube.
Be aware that the CustomColor and ManyColor choices may
lead to colormap flashing: The foreground application gets
(most) of the available colors, while the background
windows will look less good.
Example:
int main( int argc, char **argv )
{
QApplication::setColorSpec( QApplication::ManyColor );
QApplication a( argc, argv );
...
}
QColor provides more functionality for controlling color
allocation and freeing up certain colors. See
QColor::enterAllocContext() for more information.
To see what mode you end up with, you can call
QColor::numBitPlanes() once the QApplication object
exists. A value greater than 8 (typically 16, 24 or 32)
means true color.
The color cube used by Qt are all those colors with red,
green, and blue components of either 0x00, 0x33, 0x66,
0x99, 0xCC, or 0xFF.
QColor::enterAllocContext().
Examples: showimg/main.cpp themes/main.cpp
tetrix/tetrix.cpp helpviewer/main.cpp
void QApplication::setCursorFlashTime ( int msecs ) [static]
Sets the text cursor's flash time to msecs milliseconds.
The flash time is the time required to display, invert and
restore the caret display: A full flash cycle. Usually,
the text cursor is displayed for msecs/2 milliseconds,
then hidden for msecs/2 milliseconds, but this may vary.
Note that on Microsoft Windows, calling this function sets
the cursor flash time for all windows.
See also cursorFlashTime().
void QApplication::setDefaultCodec ( QTextCodec * codec )
If the literal quoted text in the program is not in the
Latin1 encoding, this function can be used to set the
appropriate encoding. For example, software developed by
Korean programmers might use eucKR for all the text in the
program, in which case main() would be:
main(int argc, char** argv)
{
QApplication app(argc, argv);
... install any additional codecs ...
app.setDefaultCodec( QTextCodec::codecForName("eucKR") );
...
}
Note that this is not the way to select the encoding that
the user has chosen. For example, to convert an
application containing literal English strings to Korean,
all that is needed is for the English strings to be passed
through tr() and for translation files to be loaded. For
details of internationalization, see the Qt
Internationalization documentation.
Note also that some Qt built-in classes call tr() with
various strings. These strings are in English, so for a
full translation, a codec would be required for these
strings.
void QApplication::setDesktopSettingsAware ( bool on ) [static]
By default, Qt will try to get the current standard
colors, fonts etc. from the underlying window system's
desktop settings (resources), and use them for all
relevant widgets. This behavior can be switched off by
calling this function with on set to FALSE.
This static function must be called before creating the
int main( int argc, char** argv ) {
QApplication::setDesktopSettingsAware( FALSE ); // I know better than the user
QApplication myApp( argc, argv ); // gimme default fonts & colors
...
}
See also desktopSettingsAware().
void QApplication::setDoubleClickInterval ( int ms ) [static]
Sets the time limit that distinguishes a double click from
two consecutive mouse clicks to ms milliseconds.
Note that on Microsoft Windows, calling this function sets
the double click interval for all windows.
See also doubleClickInterval().
void QApplication::setEffectEnabled ( Qt::UIEffect effect, bool
enable = TRUE ) [static]
Enables the UI effect effect if enable is TRUE, otherwise
the effect will not be used.
See also isEffectEnabled(), Qt::UIEffect and
setDesktopSettingsAware().
void QApplication::setFont ( const QFont & font, bool
informWidgets=FALSE, const char * className = 0 ) [static]
Changes the default application font to font. If
informWidgets is TRUE, then existing widgets are informed
about the change and thus may adjust themselves to the new
application setting. Otherwise the change only affects
newly created widgets. If className is passed, the change
applies only to classes that inherit className (as
reported by QObject::inherits()).
On application start-up, the default font depends on the
window system. It can vary both with window system version
and with locale. This function lets you override it. Note
that overriding it may be a bad idea, for example some
locales need extra-big fonts to support their special
characters.
See also font(), fontMetrics() and QWidget::setFont().
Examples: showimg/main.cpp desktop/desktop.cpp qfd/qfd.cpp
void QApplication::setGlobalMouseTracking ( bool enable )
[static]
Enables global mouse tracking if enable is TRUE or
disables it if enable is FALSE.
Enabling global mouse tracking makes it possible for
all mouse move events, even when no button is depressed.
This is useful for special GUI elements, e.g. tool tips.
Global mouse tracking does not affect widgets and their
mouseMoveEvent(). For a widget to get mouse move events
when no button is depressed, it must do
QWidget::setMouseTracking(TRUE).
This function uses an internal counter. Each
setGlobalMouseTracking(TRUE) must have a corresponding
setGlobalMouseTracking(FALSE):
// at this point global mouse tracking is off
QApplication::setGlobalMouseTracking( TRUE );
QApplication::setGlobalMouseTracking( TRUE );
QApplication::setGlobalMouseTracking( FALSE );
// at this point it's still on
QApplication::setGlobalMouseTracking( FALSE );
// but now it's off
See also hasGlobalMouseTracking() and
QWidget::hasMouseTracking().
void QApplication::setGlobalStrut ( const QSize & strut )
[static]
Sets the application strut to strut. No GUI-element that
can be interacted with should be smaller than the provided
size. This should be considered when reimplementing items
that may be used on touch-screens or with similar IO-
devices.
Example:
QSize& WidgetClass::sizeHint() const
{
return QSize( 80, 25 ).expandedTo( QApplication::globalStrut() );
}
See also golbalStrut().
void QApplication::setMainWidget ( QWidget * mainWidget )
[virtual]
Sets the main widget of the application.
The main widget is like any other, in most respects except
that if it is deleted, the application exits.
You need not have a main widget; connecting
lastWindowClosed() to quit() is another alternative.
For X11, this function also resizes and moves the main
widget according to the -geometry command-line option, so
you should set the default geometry (using
See also mainWidget(), exec() and quit().
Examples: rangecontrols/main.cpp iconview/main.cpp
validator/main.cpp themes/main.cpp listviews/main.cpp
aclock/main.cpp checklists/main.cpp drawlines/connect.cpp
dclock/main.cpp mainlyQt/editor.cpp xform/xform.cpp
cursor/cursor.cpp layout/layout.cpp buttongroups/main.cpp
life/main.cpp i18n/main.cpp drawdemo/drawdemo.cpp
lineedits/main.cpp popup/popup.cpp fileiconview/main.cpp
listbox/main.cpp menu/menu.cpp progress/progress.cpp
scribble/main.cpp qmag/qmag.cpp tabdialog/main.cpp
splitter/splitter.cpp progressbar/main.cpp
tooltip/main.cpp richtext/main.cpp forever/forever.cpp
rot13/rot13.cpp xml/tagreader qfd/qfd.cpp
addressbook/main.cpp picture/picture.cpp hello/main.cpp
listboxcombo/main.cpp biff/main.cpp tictac/main.cpp
customlayout/main.cpp dirview/main.cpp
void QApplication::setOverrideCursor ( const QCursor & cursor,
bool replace=FALSE ) [static]
Sets the application override cursor to cursor.
Application override cursors are intended for showing the
user that the application is in a special state, for
example during an operation that might take some time.
This cursor will be displayed in all the widgets of the
application until restoreOverrideCursor() or another
setOverrideCursor() is called.
Application cursors are stored on an internal stack.
setOverrideCursor() pushes the cursor onto the stack, and
restoreOverrideCursor() pops the active cursor off the
stack. Every setOverrideCursor() must eventually be
followed by a corresponding restoreOverrideCursor(),
otherwise the stack will never be emptied.
If replace is TRUE, the new cursor will replace the last
override cursor (the stack keeps its depth). If replace is
FALSE, the new stack is pushed onto the top of the stack.
Example:
QApplication::setOverrideCursor( Qt::waitCursor );
calculateHugeMandelbrot(); // lunch time...
QApplication::restoreOverrideCursor();
See also overrideCursor(), restoreOverrideCursor() and
QWidget::setCursor().
void QApplication::setPalette ( const QPalette & palette, bool
informWidgets=FALSE, const char * className = 0 ) [static]
informWidgets is TRUE, then existing widgets are informed
about the change and thus may adjust themselves to the new
application setting. Otherwise the change only affects
newly created widgets. If className is passed, the change
applies only to classes that inherit className (as
reported by QObject::inherits()).
The palette may be changed according to the current GUI
style in QStyle::polish().
See also QWidget::setPalette(), palette() and
QStyle::polish().
void QApplication::setStartDragDistance ( int l ) [static]
Sets the distance after which a drag should start.
See also startDragDistance().
void QApplication::setStartDragTime ( int ms ) [static]
Sets the time after which a drag should start.
See also startDragTime().
void QApplication::setStyle ( QStyle * style ) [static]
Sets the application GUI style to style. Ownership of the
style object is transferred to QApplication, so
QApplication will delete the style object on application
exit or when a new style is set.
Example usage:
QApplication::setStyle( new QWindowStyle );
When switching application styles, the color palette is
set back to the initial colors or the system defaults.
This is necessary since certain styles have to adapt the
color palette to be fully style-guide compliant.
See also style(), QStyle, setPalette() and
desktopSettingsAware().
void QApplication::setWheelScrollLines ( int n ) [static]
Sets the number of lines to scroll when the mouse wheel is
rotated.
If this number exceeds the number of visible lines in a
certain widget, the widget should interpret the scroll
operation as a single page up / page down operation
instead.
See also wheelScrollLines().
[static]
This function is obsolete. It is provided to keep old
source working, and will probably be removed in a future
version of Qt. We strongly advise against using it in new
code.
Sets the color used to mark selections in windows style
for all widgets in the application. Will repaint all
widgets if the color is changed.
The default color is darkBlue.
See also winStyleHighlightColor().
int QApplication::startDragDistance () [static]
If you support drag'n'drop in you application and a drag
should start after a mouse click and after moving the
mouse a certain distance, you should use the value which
this method returns as the distance. So if the mouse
position of the click is stored in startPos and the
current position (e.g. in the mouse move event) is
currPos, you can find out if a drag should be started with
a code like this:
if ( ( startPos - currPos ).manhattanLength() > QApplication::startDragDistance() )
startTheDrag();
Qt internally uses this value too, e.g. in the
QFileDialog.
The default value is set to 4 pixels.
See also setStartDragDistance(), startDragTime() and
QPoint::manhattanLength().
int QApplication::startDragTime () [static]
If you support drag'n'drop in you application and a drag
should start after a mouse click and after a certain time
elapsed, you should use the value which this method
returns as delay (in ms).
Qt internally uses also this delay e.g. in QMultiLineEdit
for starting a drag.
The default value is set to 500 ms.
See also setStartDragTime() and startDragDistance().
bool QApplication::startingUp () [static]
Returns TRUE if an application object has not been created
yet.
See also closingDown().
Returns the style object of the application.
See also setStyle() and QStyle.
void QApplication::syncX () [static]
Synchronizes with the X server in the X11 implementation.
This normally takes some time. Does nothing on other
platforms.
See also flushX().
QWidgetList * QApplication::topLevelWidgets () [static]
Returns a list of the top level widgets in the
application.
The list is created using new and must be deleted by the
caller.
The list is empty (QList::isEmpty()) if there are no top
level widgets.
Note that some of the top level widgets may be hidden, for
example the tooltip if no tooltip is currently shown.
Example:
//
// Shows all hidden top level widgets.
//
QWidgetList *list = QApplication::topLevelWidgets();
QWidgetListIt it( *list ); // iterate over the widgets
QWidget * w;
while ( (w=it.current()) != 0 ) { // for each top level widget...
++it;
if ( !w->isVisible() )
w->show();
}
delete list; // delete the list, not the widgets
Warning: Delete the list away as soon you have finished
using it. The widgets in the list may be deleted by
someone else at any time.
See also allWidgets(), QWidget::isTopLevel(),
QWidget::isVisible() and QList::isEmpty().
QString QApplication::translate ( const char * scope, const char
* key, const char * comment ) const
Returns the translation text for key, by querying the
installed messages files. The message file that was
installed last is asked first.
QObject::tr() offers a more convenient way to use this
context is typically a class name (e.g. MyDialog) and key
is either English text or a short marker text, if the
output text will be very long (as for help texts).
comment is a disambiguating comment, for when the same
text is used in different roles within one context.
See the QTranslator documentation for more information
about keys, contexts and comments.
If none of the message files contain a translation for key
in scope, this function returns key.
This function is not virtual, but you can add alternative
translation techniques by installing subclasses of
QTranslator.
See also QObject::tr(), installTranslator(),
removeTranslator() and QTranslator.
QString QApplication::translate ( const char * context, const
char * key ) const
This function is obsolete. It is provided to keep old
source working, and will probably be removed in a future
version of Qt. We strongly advise against using it in new
code.
This is an overloaded member function, provided for
convenience. It differs from the above function only in
what argument(s) it accepts.
This version of the function uses "" as comment.
void QApplication::unlock ( bool wakeUpGui = TRUE )
Unlock the Qt library mutex. if wakeUpGui is TRUE (default
argument), then the GUI thread will be woken with
QApplication::wakeUpGuiThread().
See also lock() and locked().
void QApplication::wakeUpGuiThread ()
Wakes up the GUI thread.
See also guiThreadAwake().
int QApplication::wheelScrollLines () [static]
Returns the number of lines to scroll when the mouse wheel
is rotated.
See also setWheelScrollLines().
) [static]
Returns a pointer to the widget at global screen position
(x,y), or a null pointer if there is no Qt widget there.
If child is FALSE and there is a child widget at position
(x,y), the top-level widget containing it is returned. If
child is TRUE the child widget at position (x,y) is
returned.
This function is normally rather slow.
See also QCursor::pos(), QWidget::grabMouse() and
QWidget::grabKeyboard().
QWidget * QApplication::widgetAt ( const QPoint & pos, bool
child=FALSE ) [static]
This is an overloaded member function, provided for
convenience. It differs from the above function only in
what argument(s) it accepts.
const QColor& QApplication::winStyleHighlightColor () [static]
This function is obsolete. It is provided to keep old
source working, and will probably be removed in a future
version of Qt. We strongly advise against using it in new
code.
Returns the color used to mark selections in windows
style.
See also setWinStyleHighlightColor().
RELATED FUNCTION DOCUMENTATION
void qDebug (const char * msg, ...)
Prints a debug message, or calls the message handler (if
it has been installed).
This function takes a format string and a list of
arguments, similar to the C printf() function.
Example:
qDebug( "my window handle = %x", myWidget->id() );
Under X11, the text is printed to stderr. Under Windows,
the text is sent to the debugger.
Warning: The internal buffer is limited to 8196 bytes
(including the 0-terminator).
See also qWarning(), qFatal(), qInstallMsgHandler() and
Debugging
If p is null, a fatal messages says that the program ran
out of memory and exits. If p is not null, nothing
happens.
This is really a macro defined in qglobal.h.
Example:
int *a;
CHECK_PTR( a = new int[80] ); // never do this!
// do this instead:
a = new int[80];
CHECK_PTR( a ); // this is fine
See also qFatal() and Debugging
void ASSERT (bool test)
Prints a warning message containing the source code file
name and line number if test is FALSE.
This is really a macro defined in qglobal.h.
ASSERT is useful for testing required conditions in your
program.
Example:
//
// File: div.cpp
//
#include <qglobal.h>
int divide( int a, int b )
{
ASSERT( b != 0 ); // this is line 9
return a/b;
}
If b is zero, the ASSERT statement will output the
following message using the qWarning() function:
ASSERT: "b == 0" in div.cpp (9)
See also qWarning() and Debugging
void qWarning (const char * msg, ...)
Prints a warning message, or calls the message handler (if
it has been installed).
This function takes a format string and a list of
arguments, similar to the C printf() function.
Example:
{
if ( c > 200 )
qWarning( "f: bad argument, c == %d", c );
}
Under X11, the text is printed to stderr. Under Windows,
the text is sent to the debugger.
Warning: The internal buffer is limited to 8196 bytes
(including the 0-terminator).
See also qDebug(), qFatal(), qInstallMsgHandler() and
Debugging
Examples: life/main.cpp progress/progress.cpp
tictac/main.cpp
void qFatal (const char * msg, ...)
Prints a fatal error message and exits, or calls the
message handler (if it has been installed).
This function takes a format string and a list of
arguments, similar to the C printf() function.
Example:
int divide( int a, int b )
{
if ( b == 0 ) // program error
qFatal( "divide: cannot divide by zero" );
return a/b;
}
Under X11, the text is printed to stderr. Under Windows,
the text is sent to the debugger.
Warning: The internal buffer is limited to 8196 bytes
(including the 0-terminator).
See also qDebug(), qWarning(), qInstallMsgHandler() and
Debugging
const char * qVersion ()
Returns the Qt version number for the library, typically
"1.30" or "2.1.0".
void qAddPostRoutine (Q_CleanUpFunction p)
Adds a global routine that will be called from the
QApplication destructor. This function is normally used to
add cleanup routines for program-wide functionality.
The function given by p should take no arguments and
return nothing, like this:
static void cleanup_ptr()
{
delete [] global_ptr;
global_ptr = 0;
}
void init_ptr()
{
global_ptr = new int[100]; // allocate data
qAddPostRoutine( cleanup_ptr ); // delete later
}
Note that for an application- or module-wide cleanup,
qAddPostRoutine() is often not suitable. People have a
tendency to make such modules dynamically loaded, and then
unload those modules long before the QApplication
destructor is called, for example.
For modules and libraries, using a reference-counted
initialization manager or Qt' parent-child delete
mechanism may be better. Here is an example of a private
class which uses the parent-child mechanism to call a
cleanup function at the right time:
class MyPrivateInitStuff: public QObject {
private:
MyPrivateInitStuff( QObject * parent ): QObject( parent) {
// initialization goes here
}
MyPrivateInitStuff * p;
public:
static MyPrivateInitStuff * initStuff( QObject * parent ) {
if ( !p )
p = new MyPrivateInitStuff( parent );
return p;
}
~MyPrivateInitStuff() {
// cleanup (the "post routine") goes here
}
}
By selecting the right parent widget/object, this can
often be made to clean up the module's data at the exact
right moment.
msg_handler qInstallMsgHandler (msg_handler h)
Installs a Qt message handler. Returns a pointer to the
message handler previously defined.
The message handler is a function that prints out debug
messages, warnings and fatal error messages. The Qt
library (debug version) contains hundreds of warning
messages that are printed when internal errors (usually
invalid function arguments) occur. If you implement your
messages.
The default message handler prints the message to the
standard output under X11 or to the debugger under
Windows. If it is a fatal message, the application aborts
immediately.
Only one message handler can be defined, since this is
usually done on an application-wide basis to control debug
output.
To restore the message handler, call
qInstallMsgHandler(0).
Example:
#include <qapplication.h>
#include <stdio.h>
#include <stdlib.h>
void myMessageOutput( QtMsgType type, const char *msg )
{
switch ( type ) {
case QtDebugMsg:
fprintf( stderr, "Debug: %s\n", msg );
break;
case QtWarningMsg:
fprintf( stderr, "Warning: %s\n", msg );
break;
case QtFatalMsg:
fprintf( stderr, "Fatal: %s\n", msg );
abort(); // dump core on purpose
}
}
int main( int argc, char **argv )
{
qInstallMsgHandler( myMessageOutput );
QApplication a( argc, argv );
...
return a.exec();
}
See also qDebug(), qWarning(), qFatal() and Debugging
bool qSysInfo (int * wordSize, bool * bigEndian)
Obtains information about the system.
The system's word size in bits (typically 32) is returned
in *wordSize. The *bigEndian is set to TRUE if this is a
big-endian machine, or to FALSE if this is a little-endian
machine.
This function calls qFatal() with a message if the
computer is truly weird (i.e. different endianness for 16
SEE ALSO
http://doc.trolltech.com/qapplication.html
http://www.trolltech.com/faq/tech.html
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Copyright 1992-2001 Trolltech AS,
http://www.trolltech.com. See the license file included
in the distribution for a complete license statement.
AUTHOR
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