/****************************************************************************
**
** Implementation of QWidget class
**
** Created : 931031
**
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**
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#include "qobjectlist.h"
#include "qwidget.h"
#include "qwidgetlist.h"
#include "qwidgetintdict.h"
#include "qptrdict.h"
#include "qfocusdata.h"
#include "qcursor.h"
#include "qpixmap.h"
#include "qapplication.h"
#include "qapplication_p.h"
#include "qbrush.h"
#include "qlayout.h"
#include "qstylefactory.h"
#include "qcleanuphandler.h"
#include "qstyle.h"
#include "qmetaobject.h"
#include "qguardedptr.h"
#if defined(QT_ACCESSIBILITY_SUPPORT)
#include "qaccessible.h"
#endif
#if defined(Q_WS_WIN)
#include "qt_windows.h"
#include "qinputcontext_p.h"
#endif
#if defined(Q_WS_QWS)
#include "qwsmanager_qws.h"
#endif
#include "qfontdata_p.h"
/*!
\class QWidget qwidget.h
\brief The QWidget class is the base class of all user interface objects.
\ingroup abstractwidgets
\mainclass
The widget is the atom of the user interface: it receives mouse,
keyboard and other events from the window system, and paints a
representation of itself on the screen. Every widget is
rectangular, and they are sorted in a Z-order. A widget is
clipped by its parent and by the widgets in front of it.
A widget that isn't embedded in a parent widget is called a
top-level widget. Usually, top-level widgets are windows with a
frame and a title bar (although it is also possible to create
top-level widgets without such decoration if suitable widget flags
are used). In Qt, QMainWindow and the various subclasses of
QDialog are the most common top-level windows.
A widget without a parent widget is always a top-level widget.
Non-top-level widgets are child widgets. These are child windows
in their parent widgets. You cannot usually distinguish a child
widget from its parent visually. Most other widgets in Qt are
useful only as child widgets. (It is possible to make, say, a
button into a top-level widget, but most people prefer to put
their buttons inside other widgets, e.g. QDialog.)
If you want to use a QWidget to hold child widgets you will
probably want to add a layout to the parent QWidget. (See \link
layout.html Layouts\endlink.)
QWidget has many member functions, but some of them have little
direct functionality: for example, QWidget has a font property,
but never uses this itself. There are many subclasses which
provide real functionality, such as QPushButton, QListBox and
QTabDialog, etc.
\section1 Groups of functions:
\table
\header \i Context \i Functions
\row \i Window functions \i
show(),
hide(),
raise(),
lower(),
close().
\row \i Top level windows \i
caption(),
setCaption(),
icon(),
setIcon(),
iconText(),
setIconText(),
isActiveWindow(),
setActiveWindow(),
showMinimized().
showMaximized(),
showFullScreen(),
showNormal().
\row \i Window contents \i
update(),
repaint(),
erase(),
scroll(),
updateMask().
\row \i Geometry \i
pos(),
size(),
rect(),
x(),
y(),
width(),
height(),
sizePolicy(),
setSizePolicy(),
sizeHint(),
updateGeometry(),
layout(),
move(),
resize(),
setGeometry(),
frameGeometry(),
geometry(),
childrenRect(),
adjustSize(),
mapFromGlobal(),
mapFromParent()
mapToGlobal(),
mapToParent(),
maximumSize(),
minimumSize(),
sizeIncrement(),
setMaximumSize(),
setMinimumSize(),
setSizeIncrement(),
setBaseSize(),
setFixedSize()
\row \i Mode \i
isVisible(),
isVisibleTo(),
isMinimized(),
isDesktop(),
isEnabled(),
isEnabledTo(),
isModal(),
isPopup(),
isTopLevel(),
setEnabled(),
hasMouseTracking(),
setMouseTracking(),
isUpdatesEnabled(),
setUpdatesEnabled(),
clipRegion().
\row \i Look and feel \i
style(),
setStyle(),
cursor(),
setCursor()
font(),
setFont(),
palette(),
setPalette(),
backgroundMode(),
setBackgroundMode(),
colorGroup(),
fontMetrics(),
fontInfo().
\row \i Keyboard focus
functions \i
isFocusEnabled(),
setFocusPolicy(),
focusPolicy(),
hasFocus(),
setFocus(),
clearFocus(),
setTabOrder(),
setFocusProxy().
\row \i Mouse and
keyboard grabbing \i
grabMouse(),
releaseMouse(),
grabKeyboard(),
releaseKeyboard(),
mouseGrabber(),
keyboardGrabber().
\row \i Event handlers \i
event(),
mousePressEvent(),
mouseReleaseEvent(),
mouseDoubleClickEvent(),
mouseMoveEvent(),
keyPressEvent(),
keyReleaseEvent(),
focusInEvent(),
focusOutEvent(),
wheelEvent(),
enterEvent(),
leaveEvent(),
paintEvent(),
moveEvent(),
resizeEvent(),
closeEvent(),
dragEnterEvent(),
dragMoveEvent(),
dragLeaveEvent(),
dropEvent(),
childEvent(),
showEvent(),
hideEvent(),
customEvent().
\row \i Change handlers \i
enabledChange(),
fontChange(),
paletteChange(),
styleChange(),
windowActivationChange().
\row \i System functions \i
parentWidget(),
topLevelWidget(),
reparent(),
polish(),
winId(),
find(),
metric().
\row \i What's this help \i
customWhatsThis()
\row \i Internal kernel
functions \i
focusNextPrevChild(),
wmapper(),
clearWFlags(),
getWFlags(),
setWFlags(),
testWFlags().
\endtable
Every widget's constructor accepts two or three standard arguments:
\list 1
\i \c{QWidget *parent = 0} is the parent of the new widget.
If it is 0 (the default), the new widget will be a top-level window.
If not, it will be a child of \e parent, and be constrained by \e
parent's geometry (unless you specify \c WType_TopLevel as
widget flag).
\i \c{const char *name = 0} is the widget name of the new
widget. You can access it using name(). The widget name is little
used by programmers but is quite useful with GUI builders such as
\e{Qt Designer} (you can name a widget in \e{Qt Designer}, and
connect() to it using the name in your code). The dumpObjectTree()
debugging function also uses it.
\i \c{WFlags f = 0} (where available) sets the widget flags; the
default is suitable for almost all widgets, but to get, for
example, a top-level widget without a window system frame, you
must use special flags.
\endlist
The tictac/tictac.cpp example program is good example of a simple
widget. It contains a few event handlers (as all widgets must), a
few custom routines that are specific to it (as all useful widgets
do), and has a few children and connections. Everything it does
is done in response to an event: this is by far the most common way
to design GUI applications.
You will need to supply the content for your widgets yourself, but
here is a brief run-down of the events, starting with the most common
ones:
\list
\i paintEvent() - called whenever the widget needs to be
repainted. Every widget which displays output must implement it,
and it is wise \e not to paint on the screen outside
paintEvent().
\i resizeEvent() - called when the widget has been resized.
\i mousePressEvent() - called when a mouse button is pressed.
There are six mouse-related events, but the mouse press and mouse
release events are by far the most important. A widget receives
mouse press events when the mouse is inside it, or when it has
grabbed the mouse using grabMouse().
\i mouseReleaseEvent() - called when a mouse button is released.
A widget receives mouse release events when it has received the
corresponding mouse press event. This means that if the user
presses the mouse inside \e your widget, then drags the mouse to
somewhere else, then releases, \e your widget receives the release
event. There is one exception: if a popup menu appears while the
mouse button is held down, this popup immediately steals the mouse
events.
\i mouseDoubleClickEvent() - not quite as obvious as it might seem.
If the user double-clicks, the widget receives a mouse press event
(perhaps a mouse move event or two if they don't hold the mouse
quite steady), a mouse release event and finally this event. It is
\e{not possible} to distinguish a click from a double click until you've
seen whether the second click arrives. (This is one reason why most GUI
books recommend that double clicks be an extension of single clicks,
rather than trigger a different action.)
\endlist
If your widget only contains child widgets, you probably do not need to
implement any event handlers. If you want to detect a mouse click in
a child widget call the child's hasMouse() function inside the
parent widget's mousePressEvent().
Widgets that accept keyboard input need to reimplement a few more
event handlers:
\list
\i keyPressEvent() - called whenever a key is pressed, and again
when a key has been held down long enough for it to auto-repeat.
Note that the Tab and Shift+Tab keys are only passed to the widget
if they are not used by the focus-change mechanisms. To force those
keys to be processed by your widget, you must reimplement
QWidget::event().
\i focusInEvent() - called when the widget gains keyboard focus
(assuming you have called setFocusPolicy()). Well written widgets
indicate that they own the keyboard focus in a clear but discreet
way.
\i focusOutEvent() - called when the widget loses keyboard focus.
\endlist
Some widgets will also need to reimplement some of the less common
event handlers:
\list
\i mouseMoveEvent() - called whenever the mouse moves while a
button is held down. This is useful for, for example, dragging. If
you call setMouseTracking(TRUE), you get mouse move events even
when no buttons are held down. (Note that applications which make
use of mouse tracking are often not very useful on low-bandwidth X
connections.) (See also the \link dnd.html drag and drop\endlink
information.)
\i keyReleaseEvent() - called whenever a key is released, and also
while it is held down if the key is auto-repeating. In that case
the widget receives a key release event and immediately a key press
event for every repeat. Note that the Tab and Shift+Tab keys are
only passed to the widget if they are not used by the focus-change
mechanisms. To force those keys to be processed by your widget, you
must reimplement QWidget::event().
\i wheelEvent() -- called whenever the user turns the mouse wheel
while the widget has the focus.
\i enterEvent() - called when the mouse enters the widget's screen
space. (This excludes screen space owned by any children of the
widget.)
\i leaveEvent() - called when the mouse leaves the widget's screen
space.
\i moveEvent() - called when the widget has been moved relative to its
parent.
\i closeEvent() - called when the user closes the widget (or when
close() is called).
\endlist
There are also some rather obscure events. They are listed in
\c qevent.h and you need to reimplement event() to handle them.
The default implementation of event() handles Tab and Shift+Tab
(to move the keyboard focus), and passes on most other events to
one of the more specialized handlers above.
When implementing a widget, there are a few more things to
consider.
\list
\i In the constructor, be sure to set up your member variables
early on, before there's any chance that you might receive an event.
\i It is almost always useful to reimplement sizeHint() and to set
the correct size policy with setSizePolicy(), so users of your class
can set up layout management more easily. A size policy lets you
supply good defaults for the layout management handling, so that
other widgets can contain and manage yours easily. sizeHint()
indicates a "good" size for the widget.
\i If your widget is a top-level window, setCaption() and setIcon() set
the title bar and icon respectively.
\endlist
\sa QEvent, QPainter, QGridLayout, QBoxLayout
*/
/*****************************************************************************
Internal QWidgetMapper class
The purpose of this class is to map widget identifiers to QWidget objects.
All QWidget objects register themselves in the QWidgetMapper when they
get an identifier. Widgets unregister themselves when they change ident-
ifier or when they are destroyed. A widget identifier is really a window
handle.
The widget mapper is created and destroyed by the main application routines
in the file qapp_xxx.cpp.
*****************************************************************************/
#if defined(Q_WS_QWS) || defined(Q_OS_TEMP)
static const int WDictSize = 163; // plenty for small devices
#else
static const int WDictSize = 1123; // plenty for 5 big complex windows
#endif
class QWidgetMapper : public QWidgetIntDict
{ // maps ids -> widgets
public:
QWidgetMapper();
~QWidgetMapper();
QWidget *find( WId id ); // find widget
void insert( const QWidget * ); // insert widget
bool remove( WId id ); // remove widget
private:
WId cur_id;
QWidget *cur_widget;
};
QWidgetMapper *QWidget::mapper = 0; // app global widget mapper
QWidgetMapper::QWidgetMapper() : QWidgetIntDict(WDictSize)
{
cur_id = 0;
cur_widget = 0;
}
QWidgetMapper::~QWidgetMapper()
{
clear();
}
inline QWidget *QWidgetMapper::find( WId id )
{
if ( id != cur_id ) { // need to lookup
cur_widget = QWidgetIntDict::find((long)id);
if ( cur_widget )
cur_id = id;
else
cur_id = 0;
}
return cur_widget;
}
inline void QWidgetMapper::insert( const QWidget *widget )
{
QWidgetIntDict::insert((long)widget->winId(),widget);
}
inline bool QWidgetMapper::remove( WId id )
{
if ( cur_id == id ) { // reset current widget
cur_id = 0;
cur_widget = 0;
}
return QWidgetIntDict::remove((long)id);
}
/*****************************************************************************
QWidget utility functions
*****************************************************************************/
static QFont qt_naturalWidgetFont( QWidget* w ) {
QFont naturalfont = QApplication::font( w );
if ( ! w->isTopLevel() ) {
if ( ! naturalfont.isCopyOf( QApplication::font() ) )
naturalfont = naturalfont.resolve( w->parentWidget()->font() );
else
naturalfont = w->parentWidget()->font();
}
return naturalfont;
}
#ifndef QT_NO_PALETTE
static QPalette qt_naturalWidgetPalette( QWidget* w ) {
QPalette naturalpalette = QApplication::palette( w );
if ( !w->isTopLevel() && naturalpalette.isCopyOf( QApplication::palette() ) )
naturalpalette = w->parentWidget()->palette();
return naturalpalette;
}
#endif
QSize qt_naturalWidgetSize( QWidget *w ) {
QSize s = w->sizeHint();
QSizePolicy::ExpandData exp;
#ifndef QT_NO_LAYOUT
if ( w->layout() ) {
if ( w->layout()->hasHeightForWidth() )
s.setHeight( w->layout()->totalHeightForWidth( s.width() ) );
exp = w->layout()->expanding();
} else
#endif
{
if ( w->sizePolicy().hasHeightForWidth() )
s.setHeight( w->heightForWidth( s.width() ) );
exp = w->sizePolicy().expanding();
}
if ( exp & QSizePolicy::Horizontally )
s.setWidth( QMAX( s.width(), 200 ) );
if ( exp & QSizePolicy::Vertically )
s.setHeight( QMAX( s.height(), 150 ) );
#if defined(Q_WS_X11)
QRect screen = QApplication::desktop()->screenGeometry( w->x11Screen() );
#else // all others
QRect screen = QApplication::desktop()->screenGeometry( w->pos() );
#endif
s.setWidth( QMIN( s.width(), screen.width()*2/3 ) );
s.setHeight( QMIN( s.height(), screen.height()*2/3 ) );
return s;
}
/*****************************************************************************
QWidget member functions
*****************************************************************************/
/*
Widget state flags:
\list
\i WState_Created The widget has a valid winId().
\i WState_Disabled The widget does not receive any mouse or keyboard
events.
\i WState_ForceDisabled The widget is explicitly disabled, i.e. it
will remain disabled even when all its ancestors are set to the enabled
state. This implies WState_Disabled.
\i WState_Visible The widget is currently visible.
\i WState_ForceHide The widget is explicitly hidden, i.e. it won't
become visible unless you call show() on it. WState_ForceHide
implies !WState_Visible.
\i WState_OwnCursor A cursor has been set for this widget.
\i WState_MouseTracking Mouse tracking is enabled.
\i WState_CompressKeys Compress keyboard events.
\i WState_BlockUpdates Repaints and updates are disabled.
\i WState_InPaintEvent Currently processing a paint event.
\i WState_Reparented The widget has been reparented.
\i WState_ConfigPending A configuration (resize/move) event is pending.
\i WState_Resized The widget has been resized.
\i WState_AutoMask The widget has an automatic mask, see setAutoMask().
\i WState_Polished The widget has been "polished" (i.e. late
initialization) by a QStyle.
\i WState_DND The widget supports drag and drop, see setAcceptDrops().
\i WState_Exposed the widget was finally exposed (X11 only,
helps avoid paint event doubling).
\i WState_HasMouse The widget is under the mouse cursor.
\endlist
*/
/*! \enum Qt::WFlags
\internal */
/*! \enum Qt::WState
\internal */
/*!
\enum Qt::WidgetFlags
\keyword widget flag
This enum type is used to specify various window-system properties
for the widget. They are fairly unusual but necessary in a few
cases. Some of these flags depend on whether the underlying window
manager supports them. (See the \link toplevel-example.html
toplevel example\endlink for an explanation and example of their
use.)
The main types are
\value WType_TopLevel indicates that this widget is a top-level
widget, usually with a window-system frame and so on.
\value WType_Dialog indicates that this widget is a top-level
window that should be decorated as a dialog (i.e. typically no
maximize or minimize buttons in the title bar). If you want to use
it as a modal dialog it should be launched from another window, or
have a parent and this flag should be combined with \c WShowModal.
If you make it modal, the dialog will prevent other top-level
windows in the application from getting any input. \c WType_Dialog
implies \c WType_TopLevel. We refer to a top-level window that has
a parent as a \e secondary window. (See also \c WGroupLeader.)
\value WType_Popup indicates that this widget is a popup
top-level window, i.e. that it is modal, but has a window system
frame appropriate for popup menus. \c WType_Popup implies
WType_TopLevel.
\value WType_Desktop indicates that this widget is the desktop.
See also \c WPaintDesktop below. \c WType_Desktop implies \c
WType_TopLevel.
There are also a number of flags which you can use to customize
the appearance of top-level windows. These have no effect on other
windows:
\value WStyle_Customize indicates that the \c WStyle_* flags
should be used to build the window instead of the default flags.
\value WStyle_NormalBorder gives the window a normal border.
This cannot be combined with \c WStyle_DialogBorder or \c
WStyle_NoBorder.
\value WStyle_DialogBorder gives the window a thin dialog border.
This cannot be combined with \c WStyle_NormalBorder or \c
WStyle_NoBorder.
\value WStyle_NoBorder produces a borderless window. Note that
the user cannot move or resize a borderless window via the window
system. This cannot be combined with \c WStyle_NormalBorder or \c
WStyle_DialogBorder. On Windows, the flag works fine. On X11, the
result of the flag is dependent on the window manager and its
ability to understand MOTIF and/or NETWM hints: most existing
modern window managers can handle this. With \c WX11BypassWM, you
can bypass the window manager completely. This results in a
borderless window that is not managed at all (i.e. no keyboard
input unless you call setActiveWindow() manually).
\value WStyle_NoBorderEx this value is obsolete. It has the same
effect as using \c WStyle_NoBorder.
\value WStyle_Title gives the window a title bar.
\value WStyle_SysMenu adds a window system menu.
\value WStyle_Minimize adds a minimize button. Note that on
Windows this has to be combined with \c WStyle_SysMenu for it to
work.
\value WStyle_Maximize adds a maximize button. Note that on
Windows this has to be combined with \c WStyle_SysMenu for it to work.
\value WStyle_MinMax is equal to \c
WStyle_Minimize|WStyle_Maximize. Note that on Windows this has to
be combined with \c WStyle_SysMenu to work.
\value WStyle_ContextHelp adds a context help button to dialogs.
\value WStyle_Tool makes the window a tool window. A tool window
is often a small window with a smaller than usual title bar and
decoration, typically used for collections of tool buttons. It
there is a parent, the tool window will always be kept on top of
it. If there isn't a parent, you may consider passing \c
WStyle_StaysOnTop as well. If the window system supports it, a
tool window can be decorated with a somewhat lighter frame. It can
also be combined with \c WStyle_NoBorder.
\value WStyle_StaysOnTop informs the window system that the
window should stay on top of all other windows. Note that on some
window managers on X11 you also have to pass \c WX11BypassWM for
this flag to work correctly.
\value WStyle_Dialog indicates that the window is a logical
subwindow of its parent (i.e. a dialog). The window will not get
its own taskbar entry and will be kept on top of its parent by the
window system. Usually it will also be minimized when the parent
is minimized. If not customized, the window is decorated with a
slightly simpler title bar. This is the flag QDialog uses.
\value WStyle_Splash indicates that the window is a splash screen.
On X11, we try to follow NETWM standard for a splash screen window if the
window manager supports is otherwise it is equivalent to \c WX11BypassWM. On
other platforms, it is equivalent to \c WStyle_NoBorder \c | \c WMacNoSheet \c |
\c WStyle_Tool \c | \c WWinOwnDC
Modifier flags:
\value WDestructiveClose makes Qt delete this widget when the
widget has accepted closeEvent(), or when the widget tried to
ignore closeEvent() but could not.
\value WPaintDesktop gives this widget paint events for the
desktop.
\value WPaintUnclipped makes all painters operating on this
widget unclipped. Children of this widget or other widgets in
front of it do not clip the area the painter can paint on.
\value WPaintClever indicates that Qt should \e not try to
optimize repainting for the widget, but instead pass on window
system repaint events directly. (This tends to produce more events
and smaller repaint regions.)
\value WMouseNoMask indicates that even if the widget has a mask,
it wants mouse events for its entire rectangle.
\value WStaticContents indicates that the widget contents are
north-west aligned and static. On resize, such a widget will
receive paint events only for the newly visible part of itself.
\value WNoAutoErase indicates that the widget paints all its
pixels. Updating, resizing, scrolling and focus changes should
therefore not erase the widget. This allows smart-repainting to
avoid flicker.
\value WResizeNoErase this value is obsolete; use WNoAutoErase instead.
\value WRepaintNoErase this value is obsolete; use WNoAutoErase instead.
\value WGroupLeader makes this window a group leader. A group
leader should \e not have a parent (i.e. it should be a top-level
window). Any decendant windows (direct or indirect) of a group
leader are in its group; other windows are not. If you show a
secondary window from the group (i.e. show a window whose top-most
parent is a group leader), that window will be modal with respect
to the other windows in the group, but modeless with respect to
windows in other groups.
Miscellaneous flags
\value WShowModal see WType_Dialog
Internal flags.
\value WNoMousePropagation
\value WStaticContents
\value WStyle_Reserved
\value WSubWindow
\value WType_Modal
\value WWinOwnDC
\value WX11BypassWM
\value WMacNoSheet
\value WMacDrawer
\value WStyle_Mask
\value WType_Mask
*/
/*!
\enum Qt::NETWMFlags
\keyword NETWM flag
This enum type is used to specify various NETWM properties
under X11 and similar systems.
The main types are
\value WX11DisableMove
\value WX11DisableClose
\value WX11DisableResize
\value WX11DisableMinimize
\value WX11DisableMaximize
\value WX11DisableShade
*/
/*!
\enum Qt::WidgetState
Internal flags.
\value WState_Created
\value WState_Disabled
\value WState_Visible
\value WState_ForceHide
\value WState_OwnCursor
\value WState_MouseTracking
\value WState_CompressKeys
\value WState_BlockUpdates
\value WState_InPaintEvent
\value WState_Reparented
\value WState_ConfigPending
\value WState_Resized
\value WState_AutoMask
\value WState_Polished
\value WState_DND
\value WState_Reserved0 \e internal
\value WState_CreatedHidden
\value WState_Maximized
\value WState_Minimized
\value WState_ForceDisabled
\value WState_Exposed
\value WState_HasMouse
\value WState_CreatedHidden
\value WState_OwnSizePolicy
\value WState_FullScreen
*/
/*!
\enum Qt::WindowState
\keyword window state
This enum type is used to specify the current state of a top-level
window.
The states are
\value WindowNoState The window has no state set (in normal state).
\value WindowMinimized The window is minimized (i.e. iconified).
\value WindowMaximized The window is maximized with a frame around it.
\value WindowFullScreen The window fills the entire screen without any frame around it.
\value WindowActive The window is the active window, i.e. it has keyboard focus.
*/
/*!
Constructs a widget which is a child of \a parent, with the name
\a name, widget flags set to \a f, and NETWM flags set to \a n.
If \a parent is 0, the new widget becomes a top-level window. If
\a parent is another widget, this widget becomes a child window
inside \a parent. The new widget is deleted when its \a parent is
deleted.
The \a name is sent to the QObject constructor.
The widget flags argument, \a f, is normally 0, but it can be set
to customize the window frame of a top-level widget (i.e. \a
parent must be 0). To customize the frame, set the \c
WStyle_Customize flag OR'ed with any of the \l Qt::WidgetFlags.
If you add a child widget to an already visible widget you must
explicitly show the child to make it visible.
Note that the X11 version of Qt may not be able to deliver all
combinations of style flags on all systems. This is because on
X11, Qt can only ask the window manager, and the window manager
can override the application's settings. On Windows, Qt can set
whatever flags you want.
Example:
\code
QLabel *splashScreen = new QLabel( 0, "mySplashScreen",
WStyle_Customize | WStyle_Splash );
\endcode
*/
QWidget::QWidget( QWidget *parent, const char *name, WFlags f, NFlags n )
: QObject( parent, name ), QPaintDevice( QInternal::Widget )
{
#if defined(QT_CHECK_STATE) && !defined(Q_WS_WIN)
if ( qApp->type() == QApplication::Tty ) {
qWarning( "QWidget: Cannot create a QWidget when no GUI "
"is being used" );
}
#endif
fstrut_dirty = 1;
isWidget = TRUE; // is a widget
winid = 0; // default attributes
widget_state = 0;
widget_flags = f;
netwm_flags = n;
focus_policy = 0;
own_font = 0;
own_palette = 0;
sizehint_forced = 0;
is_closing = 0;
in_show = 0;
in_show_maximized = 0;
im_enabled = FALSE;
#ifndef QT_NO_LAYOUT
lay_out = 0;
#endif
extra = 0; // no extra widget info
#ifndef QT_NO_PALETTE
bg_col = pal.active().background(); // default background color
#endif
create(); // platform-dependent init
#ifndef QT_NO_PALETTE
pal = isTopLevel() ? QApplication::palette() : parentWidget()->palette();
#endif
if ( ! isTopLevel() )
fnt = parentWidget()->font();
#if defined(Q_WS_X11)
fnt.x11SetScreen( x11Screen() );
#endif // Q_WS_X11
if ( !isDesktop() )
setBackgroundFromMode(); //### parts of this are done in create but not all (see reparent(...) )
// make sure move/resize events are sent to all widgets
QApplication::postEvent( this, new QMoveEvent( crect.topLeft(),
crect.topLeft() ) );
QApplication::postEvent( this, new QResizeEvent(crect.size(),
crect.size()) );
if ( isTopLevel() ) {
setWState( WState_ForceHide | WState_CreatedHidden );
QFocusData *fd = focusData( TRUE );
if ( fd->focusWidgets.findRef(this) < 0 )
fd->focusWidgets.append( this );
} else {
// propagate enabled state
if ( !parentWidget()->isEnabled() )
setWState( WState_Disabled );
// new widgets do not show up in already visible parents
if ( parentWidget()->isVisible() )
setWState( WState_ForceHide | WState_CreatedHidden );
}
if ( ++instanceCounter > maxInstances )
maxInstances = instanceCounter;
}
/*!
Destroys the widget.
All this widget's children are deleted first. The application
exits if this widget is the main widget.
*/
QWidget::~QWidget()
{
#if defined (QT_CHECK_STATE)
if ( paintingActive() )
qWarning( "%s (%s): deleted while being painted", className(), name() );
#endif
// Remove myself and all children from the can-take-focus list
QFocusData *f = focusData( FALSE );
if ( f ) {
QPtrListIterator it(f->focusWidgets);
QWidget *w;
while ( (w = it.current()) ) {
++it;
QWidget * p = w;
while( p && p != this )
p = p->parentWidget();
if ( p ) // my descendant
f->focusWidgets.removeRef( w );
}
}
--instanceCounter;
if ( QApplication::main_widget == this ) { // reset main widget
QApplication::main_widget = 0;
if (qApp)
qApp->quit();
}
if ( hasFocus() )
clearFocus();
if ( isTopLevel() && isShown() && winId() )
hide();
// A parent widget must destroy all its children before destroying itself
if ( childObjects ) { // delete children objects
QObjectListIt it(*childObjects);
QObject *obj;
while ( (obj=it.current()) ) {
++it;
obj->parentObj = 0;
childObjects->removeRef( obj );
delete obj;
}
delete childObjects;
childObjects = 0;
}
QApplication::removePostedEvents( this );
destroy(); // platform-dependent cleanup
if ( extra )
deleteExtra();
}
int QWidget::instanceCounter = 0; // Current number of widget instances
int QWidget::maxInstances = 0; // Maximum number of widget instances
/*!
\internal
Creates the global widget mapper.
The widget mapper converts window handles to widget pointers.
\sa destroyMapper()
*/
void QWidget::createMapper()
{
mapper = new QWidgetMapper;
Q_CHECK_PTR( mapper );
}
/*!
\internal
Destroys the global widget mapper.
\sa createMapper()
*/
void QWidget::destroyMapper()
{
if ( !mapper ) // already gone
return;
QWidgetIntDictIt it( *((QWidgetIntDict*)mapper) );
QWidgetMapper * myMapper = mapper;
mapper = 0;
register QWidget *w;
while ( (w=it.current()) ) { // remove parents widgets
++it;
if ( !w->parentObj ) // widget is a parent
w->destroy( TRUE, TRUE );
}
delete myMapper;
}
static QWidgetList *wListInternal( QWidgetMapper *mapper, bool onlyTopLevel )
{
QWidgetList *list = new QWidgetList;
Q_CHECK_PTR( list );
if ( mapper ) {
QWidget *w;
QWidgetIntDictIt it( *((QWidgetIntDict*)mapper) );
while ( (w=it.current()) ) {
++it;
if ( !onlyTopLevel || w->isTopLevel() )
list->append( w );
}
}
return list;
}
/*!
\internal
Returns a list of all widgets.
\sa tlwList(), QApplication::allWidgets()
*/
QWidgetList *QWidget::wList()
{
return wListInternal( mapper, FALSE );
}
/*!
\internal
Returns a list of all top level widgets.
\sa wList(), QApplication::topLevelWidgets()
*/
QWidgetList *QWidget::tlwList()
{
return wListInternal( mapper, TRUE );
}
void QWidget::setWinId( WId id ) // set widget identifier
{
if ( !mapper ) // mapper destroyed
return;
if ( winid )
mapper->remove( winid );
winid = id;
#if defined(Q_WS_X11)
hd = id; // X11: hd == ident
#endif
if ( id )
mapper->insert( this );
}
/*!
\internal
Returns a pointer to the block of extra widget data.
*/
QWExtra *QWidget::extraData()
{
return extra;
}
/*!
\internal
Returns a pointer to the block of extra top level widget data.
This data is guaranteed to exist for top level widgets.
*/
QTLWExtra *QWidget::topData()
{
createTLExtra();
return extra->topextra;
}
void QWidget::createTLExtra()
{
if ( !extra )
createExtra();
if ( !extra->topextra ) {
QTLWExtra* x = extra->topextra = new QTLWExtra;
#if defined( Q_WS_WIN ) || defined( Q_WS_MAC )
x->opacity = 255;
#endif
#ifndef QT_NO_WIDGET_TOPEXTRA
x->icon = 0;
#endif
x->focusData = 0;
x->fleft = x->fright = x->ftop = x->fbottom = 0;
x->incw = x->inch = 0;
x->basew = x->baseh = 0;
x->normalGeometry = QRect(0,0,-1,-1);
#if defined(Q_WS_X11)
x->embedded = 0;
x->parentWinId = 0;
x->spont_unmapped = 0;
x->dnd = 0;
x->uspos = 0;
x->ussize = 0;
#endif
x->savedFlags = 0;
#if defined(Q_WS_QWS) && !defined(QT_NO_QWS_MANAGER)
x->decor_allocated_region = QRegion();
x->qwsManager = 0;
#endif
createTLSysExtra();
}
}
/*!
\internal
Creates the widget extra data.
*/
void QWidget::createExtra()
{
if ( !extra ) { // if not exists
extra = new QWExtra;
Q_CHECK_PTR( extra );
extra->minw = extra->minh = 0;
extra->maxw = extra->maxh = QWIDGETSIZE_MAX;
extra->bg_pix = 0;
extra->focus_proxy = 0;
#ifndef QT_NO_CURSOR
extra->curs = 0;
#endif
extra->topextra = 0;
extra->bg_mode = PaletteBackground;
extra->bg_mode_visual = PaletteBackground;
extra->bg_origin = WidgetOrigin;
#ifndef QT_NO_STYLE
extra->style = 0;
#endif
extra->size_policy = QSizePolicy( QSizePolicy::Preferred,
QSizePolicy::Preferred );
extra->m_ceData = NULL;
createSysExtra();
}
}
/*!
\internal
Deletes the widget extra data.
*/
void QWidget::deleteExtra()
{
if ( extra ) { // if exists
delete extra->bg_pix;
#ifndef QT_NO_CURSOR
delete extra->curs;
#endif
deleteSysExtra();
if ( extra->topextra ) {
deleteTLSysExtra();
#ifndef QT_NO_WIDGET_TOPEXTRA
delete extra->topextra->icon;
#endif
delete extra->topextra->focusData;
#if defined(Q_WS_QWS) && !defined(QT_NO_QWS_MANAGER)
delete extra->topextra->qwsManager;
#endif
delete extra->topextra;
}
delete extra;
// extra->xic destroyed in QWidget::destroy()
extra = 0;
}
}
/*!
\internal
This function is called when a widget is hidden or destroyed.
It resets some application global pointers that should only refer active,
visible widgets.
*/
void QWidget::deactivateWidgetCleanup()
{
// If this was the active application window, reset it
if ( this == QApplication::active_window )
qApp->setActiveWindow( 0 );
// If the is the active mouse press widget, reset it
#ifdef Q_WS_MAC
extern QGuardedPtr qt_button_down;
#else
extern QWidget *qt_button_down;
#endif
if ( this == (QWidget *)qt_button_down )
qt_button_down = 0;
}
/*!
Returns a pointer to the widget with window identifer/handle \a
id.
The window identifier type depends on the underlying window
system, see \c qwindowdefs.h for the actual definition. If there
is no widget with this identifier, 0 is returned.
*/
QWidget *QWidget::find( WId id )
{
return mapper ? mapper->find( id ) : 0;
}
/*!
\fn QWidgetMapper *QWidget::wmapper()
\internal
Returns a pointer to the widget mapper.
The widget mapper is an internal dictionary that is used to map from
window identifiers/handles to widget pointers.
\sa find(), id()
*/
/*!
\fn WFlags QWidget::getWFlags() const
Returns the widget flags for this this widget.
Widget flags are a combination of \l{Qt::WidgetFlags}.
\sa testWFlags(), setWFlags(), clearWFlags()
*/
/*!
\fn void QWidget::setWFlags( WFlags f )
Sets the widget flags \a f.
Widget flags are a combination of \l{Qt::WidgetFlags}.
\sa testWFlags(), getWFlags(), clearWFlags()
*/
/*!
\fn void QWidget::clearWFlags( WFlags f )
Clears the widget flags \a f.
Widget flags are a combination of \l{Qt::WidgetFlags}.
\sa testWFlags(), getWFlags(), setWFlags()
*/
/*!
\fn WId QWidget::winId() const
Returns the window system identifier of the widget.
Portable in principle, but if you use it you are probably about to
do something non-portable. Be careful.
\sa find()
*/
#ifndef QT_NO_STYLE
/*!
Returns the GUI style for this widget
\sa QWidget::setStyle(), QApplication::setStyle(), QApplication::style()
*/
QStyle& QWidget::style() const
{
if ( extra && extra->style )
return *extra->style;
QStyle &ret = qApp->style();
return ret;
}
/*!
Sets the widget's GUI style to \a style. Ownership of the style
object is not transferred.
If no style is set, the widget uses the application's style,
QApplication::style() instead.
Setting a widget's style has no effect on existing or future child
widgets.
\warning This function is particularly useful for demonstration
purposes, where you want to show Qt's styling capabilities. Real
applications should avoid it and use one consistent GUI style
instead.
\sa style(), QStyle, QApplication::style(), QApplication::setStyle()
*/
void QWidget::setStyle( QStyle *style )
{
QStyle& old = QWidget::style();
createExtra();
extra->style = style;
if ( !testWFlags(WType_Desktop) // (except desktop)
&& testWState(WState_Polished)) { // (and have been polished)
old.unPolish( this );
QWidget::style().polish( this );
}
styleChange( old );
}
/*!
\overload
Sets the widget's GUI style to \a style using the QStyleFactory.
*/
QStyle* QWidget::setStyle( const QString &style )
{
QStyle *s = QStyleFactory::create( style );
setStyle( s );
return s;
}
/*!
This virtual function is called when the style of the widgets
changes. \a oldStyle is the previous GUI style; you can get the
new style from style().
Reimplement this function if your widget needs to know when its
GUI style changes. You will almost certainly need to update the
widget using update().
The default implementation updates the widget including its
geometry.
\sa QApplication::setStyle(), style(), update(), updateGeometry()
*/
void QWidget::styleChange( QStyle& /* oldStyle */ )
{
update();
updateGeometry();
}
#endif
/*!
\property QWidget::isTopLevel
\brief whether the widget is a top-level widget
A top-level widget is a widget which usually has a frame and a
\link QWidget::caption caption (title)\endlink. \link
QWidget::isPopup() Popup\endlink and \link QWidget::isDesktop()
desktop\endlink widgets are also top-level widgets.
A top-level widget can have a \link QWidget::parentWidget() parent
widget\endlink. It will then be grouped with its parent and deleted
when the parent is deleted, minimized when the parent is minimized
etc. If supported by the window manager, it will also have a
common taskbar entry with its parent.
QDialog and QMainWindow widgets are by default top-level, even if
a parent widget is specified in the constructor. This behavior is
specified by the \c WType_TopLevel widget flag.
\sa topLevelWidget(), isDialog(), isModal(), isPopup(), isDesktop(), parentWidget()
*/
/*!
\property QWidget::isDialog
\brief whether the widget is a dialog widget
A dialog widget is a secondary top-level widget, i.e. a top-level
widget with a parent.
\sa isTopLevel(), QDialog
*/
/*!
\property QWidget::isPopup
\brief whether the widget is a popup widget
A popup widget is created by specifying the widget flag \c
WType_Popup to the widget constructor. A popup widget is also a
top-level widget.
\sa isTopLevel()
*/
/*!
\property QWidget::isDesktop
\brief whether the widget is a desktop widget, i.e. represents the desktop
A desktop widget is also a top-level widget.
\sa isTopLevel(), QApplication::desktop()
*/
/*!
\property QWidget::isModal
\brief whether the widget is a modal widget
This property only makes sense for top-level widgets. A modal
widget prevents widgets in all other top-level widgets from
getting any input.
\sa isTopLevel(), isDialog(), QDialog
*/
/*!
\property QWidget::underMouse
\brief whether the widget is under the mouse cursor
This value is not updated properly during drag and drop
operations.
\sa QEvent::Enter, QEvent::Leave
*/
/*!
\property QWidget::minimized
\brief whether this widget is minimized (iconified)
This property is only relevant for top-level widgets.
\sa showMinimized(), visible, show(), hide(), showNormal(), maximized
*/
bool QWidget::isMinimized() const
{ return testWState(WState_Minimized); }
/*!
Shows the widget minimized, as an icon.
Calling this function only affects \link isTopLevel() top-level
widgets\endlink.
\sa showNormal(), showMaximized(), show(), hide(), isVisible(),
isMinimized()
*/
void QWidget::showMinimized()
{
bool isMin = isMinimized();
if (isMin && isVisible()) return;
if (!isMin)
setWindowState((windowState() & ~WindowActive) | WindowMinimized);
show();
if (!isTopLevel())
QApplication::sendPostedEvents(this, QEvent::ShowMinimized);
}
/*!
\property QWidget::maximized
\brief whether this widget is maximized
This property is only relevant for top-level widgets.
Note that due to limitations in some window-systems, this does not
always report the expected results (e.g. if the user on X11
maximizes the window via the window manager, Qt has no way of
distinguishing this from any other resize). This is expected to
improve as window manager protocols evolve.
\sa windowState(), showMaximized(), visible, show(), hide(), showNormal(), minimized
*/
bool QWidget::isMaximized() const
{ return testWState(WState_Maximized); }
/*! Returns the current window state. The window state is a OR'ed
combination of Qt::WindowState: \c WindowMinimized, \c
WindowMaximized, \c WindowFullScreen and \c WindowActive.
\sa Qt::WindowState setWindowState()
*/
uint QWidget::windowState() const
{
uint state = 0;
if (testWState(WState_Minimized))
state |= WindowMinimized;
if (testWState(WState_Maximized))
state |= WindowMaximized;
if (testWState(WState_FullScreen))
state |= WindowFullScreen;
if (isActiveWindow())
state |= WindowActive;
return state;
}
/*!
\fn void QWidget::setWindowState(uint windowState)
Sets the window state to \a windowState. The window state is a OR'ed
combination of Qt::WindowState: \c WindowMinimized, \c
WindowMaximized, \c WindowFullScreen and \c WindowActive.
If the window is not visible (i.e. isVisible() returns FALSE), the
window state will take effect when show() is called. For visible
windows, the change is immediate. For example, to toggle between
full-screen and mormal mode, use the following code:
\code
w->setWindowState(w->windowState() ^ WindowFullScreen);
\endcode
In order to restore and activate a minimized window (while
preserving its maximized and/or full-screen state), use the following:
\code
w->setWindowState(w->windowState() & ~WindowMinimized | WindowActive);
\endcode
Note: On some window systems \c WindowActive is not immediate, and may be
ignored in certain cases.
\sa Qt::WindowState windowState()
*/
/*!
\property QWidget::fullScreen
\brief whether the widget is full screen
\sa windowState(), minimized, maximized
*/
bool QWidget::isFullScreen() const
{ return testWState(WState_FullScreen); }
/*!
Shows the widget in full-screen mode.
Calling this function only affects top-level widgets.
To return from full-screen mode, call showNormal().
Full-screen mode works fine under Windows, but has certain
problems under X. These problems are due to limitations of the
ICCCM protocol that specifies the communication between X11
clients and the window manager. ICCCM simply does not understand
the concept of non-decorated full-screen windows. Therefore, the
best we can do is to request a borderless window and place and
resize it to fill the entire screen. Depending on the window
manager, this may or may not work. The borderless window is
requested using MOTIF hints, which are at least partially
supported by virtually all modern window managers.
An alternative would be to bypass the window manager entirely and
create a window with the WX11BypassWM flag. This has other severe
problems though, like totally broken keyboard focus and very
strange effects on desktop changes or when the user raises other
windows.
X11 window managers that follow modern post-ICCCM specifications
support full-screen mode properly.
\sa showNormal(), showMaximized(), show(), hide(), isVisible()
*/
void QWidget::showFullScreen()
{
bool isFull = isFullScreen();
if (isFull && isVisible())
return;
if (!isFull)
setWindowState(windowState() | WindowFullScreen);
show();
if (!isTopLevel())
QApplication::sendPostedEvents(this, QEvent::ShowFullScreen);
setActiveWindow();
}
/*!
Shows the widget maximized.
Calling this function only affects \link isTopLevel() top-level
widgets\endlink.
On X11, this function may not work properly with certain window
managers. See the \link geometry.html Window Geometry
documentation\endlink for an explanation.
\sa setWindowState(), showNormal(), showMinimized(), show(), hide(), isVisible()
*/
void QWidget::showMaximized()
{
if (isMaximized() && isVisible() && !isMinimized())
return;
setWindowState((windowState() & ~WindowMinimized) | WindowMaximized);
show();
if (!isTopLevel())
QApplication::sendPostedEvents(this, QEvent::ShowMaximized);
}
/*!
Restores the widget after it has been maximized or minimized.
Calling this function only affects \link isTopLevel() top-level
widgets\endlink.
\sa setWindowState(), showMinimized(), showMaximized(), show(), hide(), isVisible()
*/
void QWidget::showNormal()
{
setWindowState(WindowNoState);
show();
if (!isTopLevel())
QApplication::sendPostedEvents(this, QEvent::ShowNormal);
}
/*!
Returns TRUE if this widget would become enabled if \a ancestor is
enabled; otherwise returns FALSE.
This is the case if neither the widget itself nor every parent up
to but excluding \a ancestor has been explicitly disabled.
isEnabledTo(0) is equivalent to isEnabled().
\sa setEnabled() enabled
*/
bool QWidget::isEnabledTo( QWidget* ancestor ) const
{
const QWidget * w = this;
while ( w && !w->testWState(WState_ForceDisabled)
&& !w->isTopLevel()
&& w->parentWidget()
&& w->parentWidget() != ancestor )
w = w->parentWidget();
return !w->testWState( WState_ForceDisabled );
}
/*!
\fn bool QWidget::isEnabledToTLW() const
\obsolete
This function is deprecated. It is equivalent to isEnabled()
*/
/*!
\property QWidget::enabled
\brief whether the widget is enabled
An enabled widget receives keyboard and mouse events; a disabled
widget does not. In fact, an enabled widget only receives keyboard
events when it is in focus.
Some widgets display themselves differently when they are
disabled. For example a button might draw its label grayed out. If
your widget needs to know when it becomes enabled or disabled, you
can reimplement the enabledChange() function.
Disabling a widget implicitly disables all its children. Enabling
respectively enables all child widgets unless they have been
explicitly disabled.
\sa isEnabled(), isEnabledTo(), QKeyEvent, QMouseEvent, enabledChange()
*/
void QWidget::setEnabled( bool enable )
{
if ( enable )
clearWState( WState_ForceDisabled );
else
setWState( WState_ForceDisabled );
if ( !isTopLevel() && parentWidget() &&
!parentWidget()->isEnabled() && enable )
return; // nothing we can do
if ( enable ) {
if ( testWState(WState_Disabled) ) {
clearWState( WState_Disabled );
setBackgroundFromMode();
enabledChange( !enable );
if ( children() ) {
QObjectListIt it( *children() );
QWidget *w;
while( (w = (QWidget *)it.current()) != 0 ) {
++it;
if ( w->isWidgetType() &&
!w->testWState( WState_ForceDisabled ) )
w->setEnabled( TRUE );
}
}
}
} else {
if ( !testWState(WState_Disabled) ) {
if (focusWidget() == this) {
bool parentIsEnabled = (!parentWidget() || parentWidget()->isEnabled());
if (!parentIsEnabled || !focusNextPrevChild(TRUE))
clearFocus();
}
setWState( WState_Disabled );
setBackgroundFromMode();
enabledChange( !enable );
if ( children() ) {
QObjectListIt it( *children() );
QWidget *w;
while( (w = (QWidget *)it.current()) != 0 ) {
++it;
if ( w->isWidgetType() && w->isEnabled() ) {
w->setEnabled( FALSE );
w->clearWState( WState_ForceDisabled );
}
}
}
}
}
#if defined(Q_WS_X11)
if ( testWState( WState_OwnCursor ) ) {
// enforce the windows behavior of clearing the cursor on
// disabled widgets
extern void qt_x11_enforce_cursor( QWidget * w ); // defined in qwidget_x11.cpp
qt_x11_enforce_cursor( this );
}
#endif
#ifdef Q_WS_WIN
QInputContext::enable( this, im_enabled & !((bool)testWState(WState_Disabled)) );
#endif
}
/*!
Disables widget input events if \a disable is TRUE; otherwise
enables input events.
See the \l enabled documentation for more information.
\sa isEnabledTo(), QKeyEvent, QMouseEvent, enabledChange()
*/
void QWidget::setDisabled( bool disable )
{
setEnabled( !disable );
}
/*!
\fn void QWidget::enabledChange( bool oldEnabled )
This virtual function is called from setEnabled(). \a oldEnabled
is the previous setting; you can get the new setting from
isEnabled().
Reimplement this function if your widget needs to know when it
becomes enabled or disabled. You will almost certainly need to
update the widget using update().
The default implementation repaints the visible part of the
widget.
\sa setEnabled(), isEnabled(), repaint(), update(), clipRegion()
*/
void QWidget::enabledChange( bool )
{
update();
#if defined(QT_ACCESSIBILITY_SUPPORT)
QAccessible::updateAccessibility( this, 0, QAccessible::StateChanged );
#endif
}
/*!
\fn void QWidget::windowActivationChange( bool oldActive )
This virtual function is called for a widget when its window is
activated or deactivated by the window system. \a oldActive is the
previous state; you can get the new setting from isActiveWindow().
Reimplement this function if your widget needs to know when its
window becomes activated or deactivated.
The default implementation updates the visible part of the widget
if the inactive and the active colorgroup are different for colors
other than the highlight and link colors.
\sa setActiveWindow(), isActiveWindow(), update(), palette()
*/
void QWidget::windowActivationChange( bool )
{
#ifndef QT_NO_PALETTE
if ( !isVisible() )
return;
const QColorGroup &acg = palette().active();
const QColorGroup &icg = palette().inactive();
if ( acg != icg ) {
BackgroundMode bm = backgroundMode();
QColorGroup::ColorRole role = QPalette::backgroundRoleFromMode(bm);
if ( bm > NoBackground && acg.brush(role) != icg.brush(role) )
setBackgroundFromMode();
else if ( acg.background() == icg.background() &&
acg.base() == icg.base() &&
acg.text() == icg.text() &&
acg.foreground() == icg.foreground() &&
acg.button() == icg.button() &&
acg.buttonText() == icg.buttonText() &&
acg.brightText() == icg.brightText() &&
acg.dark() == icg.dark() &&
acg.light() == icg.light() &&
acg.mid() == icg.mid() &&
acg.midlight() == icg.midlight() &&
acg.shadow() == icg.shadow() )
return;
update();
}
#endif
}
/*!
\property QWidget::frameGeometry
\brief geometry of the widget relative to its parent including any
window frame
See the \link geometry.html Window Geometry documentation\endlink
for an overview of geometry issues with top-level widgets.
\sa geometry() x() y() pos()
*/
QRect QWidget::frameGeometry() const
{
if (isTopLevel() && ! isPopup()) {
if (fstrut_dirty)
updateFrameStrut();
QWidget *that = (QWidget *) this;
QTLWExtra *top = that->topData();
return QRect(crect.x() - top->fleft,
crect.y() - top->ftop,
crect.width() + top->fleft + top->fright,
crect.height() + top->ftop + top->fbottom);
}
return crect;
}
/*! \property QWidget::x
\brief the x coordinate of the widget relative to its parent including
any window frame
See the \link geometry.html Window Geometry documentation\endlink
for an overview of top-level widget geometry.
\sa frameGeometry, y, pos
*/
int QWidget::x() const
{
if (isTopLevel() && ! isPopup()) {
if (fstrut_dirty)
updateFrameStrut();
QWidget *that = (QWidget *) this;
return crect.x() - that->topData()->fleft;
}
return crect.x();
}
/*!
\property QWidget::y
\brief the y coordinate of the widget relative to its parent and
including any window frame
See the \link geometry.html Window Geometry documentation\endlink
for an overview of top-level widget geometry.
\sa frameGeometry, x, pos
*/
int QWidget::y() const
{
if (isTopLevel() && ! isPopup()) {
if (fstrut_dirty)
updateFrameStrut();
QWidget *that = (QWidget *) this;
return crect.y() - that->topData()->ftop;
}
return crect.y();
}
/*!
\property QWidget::pos
\brief the position of the widget within its parent widget
If the widget is a top-level widget, the position is that of the
widget on the desktop, including its frame.
When changing the position, the widget, if visible, receives a
move event (moveEvent()) immediately. If the widget is not
currently visible, it is guaranteed to receive an event before it
is shown.
move() is virtual, and all other overloaded move() implementations
in Qt call it.
\warning Calling move() or setGeometry() inside moveEvent() can
lead to infinite recursion.
See the \link geometry.html Window Geometry documentation\endlink
for an overview of top-level widget geometry.
\sa frameGeometry, size x(), y()
*/
QPoint QWidget::pos() const
{
if (isTopLevel() && ! isPopup()) {
if (fstrut_dirty)
updateFrameStrut();
QWidget *that = (QWidget *) this;
QTLWExtra *top = that->topData();
return QPoint(crect.x() - top->fleft, crect.y() - top->ftop);
}
return crect.topLeft();
}
/*!
\property QWidget::geometry
\brief the geometry of the widget relative to its parent and
excluding the window frame
When changing the geometry, the widget, if visible, receives a
move event (moveEvent()) and/or a resize event (resizeEvent())
immediately. If the widget is not currently visible, it is
guaranteed to receive appropriate events before it is shown.
The size component is adjusted if it lies outside the range
defined by minimumSize() and maximumSize().
setGeometry() is virtual, and all other overloaded setGeometry()
implementations in Qt call it.
\warning Calling setGeometry() inside resizeEvent() or moveEvent()
can lead to infinite recursion.
See the \link geometry.html Window Geometry documentation\endlink
for an overview of top-level widget geometry.
\sa frameGeometry(), rect(), move(), resize(), moveEvent(),
resizeEvent(), minimumSize(), maximumSize()
*/
/*!
\property QWidget::size
\brief the size of the widget excluding any window frame
When resizing, the widget, if visible, receives a resize event
(resizeEvent()) immediately. If the widget is not currently
visible, it is guaranteed to receive an event before it is shown.
The size is adjusted if it lies outside the range defined by
minimumSize() and maximumSize(). Furthermore, the size is always
at least QSize(1, 1). For toplevel widgets, the minimum size
might be larger, depending on the window manager.
If you want a top-level window to have a fixed size, call
setResizeMode( QLayout::FreeResize ) on its layout.
resize() is virtual, and all other overloaded resize()
implementations in Qt call it.
\warning Calling resize() or setGeometry() inside resizeEvent() can
lead to infinite recursion.
\sa pos, geometry, minimumSize, maximumSize, resizeEvent()
*/
/*!
\property QWidget::width
\brief the width of the widget excluding any window frame
See the \link geometry.html Window Geometry documentation\endlink
for an overview of top-level widget geometry.
\sa geometry, height, size
*/
/*!
\property QWidget::height
\brief the height of the widget excluding any window frame
See the \link geometry.html Window Geometry documentation\endlink
for an overview of top-level widget geometry.
\sa geometry, width, size
*/
/*!
\property QWidget::rect
\brief the internal geometry of the widget excluding any window
frame
The rect property equals QRect(0, 0, width(), height()).
See the \link geometry.html Window Geometry documentation\endlink
for an overview of top-level widget geometry.
\sa size
*/
/*!
\property QWidget::childrenRect
\brief the bounding rectangle of the widget's children
Hidden children are excluded.
\sa childrenRegion() geometry()
*/
QRect QWidget::childrenRect() const
{
QRect r( 0, 0, 0, 0 );
if ( !children() )
return r;
QObjectListIt it( *children() );
QObject *obj;
while ( (obj = it.current()) ) {
++it;
if ( obj->isWidgetType() && !((QWidget*)obj)->isHidden() && !((QWidget*)obj)->isTopLevel())
r = r.unite( ((QWidget*)obj)->geometry() );
}
return r;
}
/*!
\property QWidget::childrenRegion
\brief the combined region occupied by the widget's children
Hidden children are excluded.
\sa childrenRect() geometry()
*/
QRegion QWidget::childrenRegion() const
{
QRegion r;
if ( !children() )
return r;
QObjectListIt it( *children() ); // iterate over all children
QObject *obj;
while ( (obj=it.current()) ) {
++it;
if ( obj->isWidgetType() && !((QWidget*)obj)->isHidden() && !((QWidget*)obj)->isTopLevel())
r = r.unite( ((QWidget*)obj)->geometry() );
}
return r;
}
/*!
\property QWidget::minimumSize
\brief the widget's minimum size
The widget cannot be resized to a smaller size than the minimum
widget size. The widget's size is forced to the minimum size if
the current size is smaller.
If you use a layout inside the widget, the minimum size will be
set by the layout and not by setMinimumSize(), unless you set the
layout's resize mode to QLayout::FreeResize.
\sa minimumWidth, minimumHeight, maximumSize, sizeIncrement
QLayout::setResizeMode()
*/
QSize QWidget::minimumSize() const
{
return extra ? QSize( extra->minw, extra->minh ) : QSize( 0, 0 );
}
/*!
\property QWidget::maximumSize
\brief the widget's maximum size
The widget cannot be resized to a larger size than the maximum
widget size.
\sa maximumWidth(), maximumHeight(), setMaximumSize(),
minimumSize(), sizeIncrement()
*/
QSize QWidget::maximumSize() const
{
return extra ? QSize( extra->maxw, extra->maxh )
: QSize( QWIDGETSIZE_MAX, QWIDGETSIZE_MAX );
}
/*!
\property QWidget::minimumWidth
\brief the widget's minimum width
This property corresponds to minimumSize().width().
\sa minimumSize, minimumHeight
*/
/*!
\property QWidget::minimumHeight
\brief the widget's minimum height
This property corresponds to minimumSize().height().
\sa minimumSize, minimumWidth
*/
/*!
\property QWidget::maximumWidth
\brief the widget's maximum width
This property corresponds to maximumSize().width().
\sa maximumSize, maximumHeight
*/
/*!
\property QWidget::maximumHeight
\brief the widget's maximum height
This property corresponds to maximumSize().height().
\sa maximumSize, maximumWidth
*/
/*!
\property QWidget::sizeIncrement
\brief the size increment of the widget
When the user resizes the window, the size will move in steps of
sizeIncrement().width() pixels horizontally and
sizeIncrement.height() pixels vertically, with baseSize() as the
basis. Preferred widget sizes are for non-negative integers \e i
and \e j:
\code
width = baseSize().width() + i * sizeIncrement().width();
height = baseSize().height() + j * sizeIncrement().height();
\endcode
Note that while you can set the size increment for all widgets, it
only affects top-level widgets.
\warning The size increment has no effect under Windows, and may
be disregarded by the window manager on X.
\sa size, minimumSize, maximumSize
*/
QSize QWidget::sizeIncrement() const
{
return ( extra && extra->topextra )
? QSize( extra->topextra->incw, extra->topextra->inch )
: QSize( 0, 0 );
}
/*!
\property QWidget::baseSize
\brief the base size of the widget
The base size is used to calculate a proper widget size if the
widget defines sizeIncrement().
\sa setSizeIncrement()
*/
QSize QWidget::baseSize() const
{
return ( extra != 0 && extra->topextra != 0 )
? QSize( extra->topextra->basew, extra->topextra->baseh )
: QSize( 0, 0 );
}
/*!
Sets both the minimum and maximum sizes of the widget to \a s,
thereby preventing it from ever growing or shrinking.
\sa setMaximumSize() setMinimumSize()
*/
void QWidget::setFixedSize( const QSize & s)
{
setMinimumSize( s );
setMaximumSize( s );
resize( s );
}
/*!
\overload void QWidget::setFixedSize( int w, int h )
Sets the width of the widget to \a w and the height to \a h.
*/
void QWidget::setFixedSize( int w, int h )
{
setMinimumSize( w, h );
setMaximumSize( w, h );
resize( w, h );
}
void QWidget::setMinimumWidth( int w )
{
setMinimumSize( w, minimumSize().height() );
}
void QWidget::setMinimumHeight( int h )
{
setMinimumSize( minimumSize().width(), h );
}
void QWidget::setMaximumWidth( int w )
{
setMaximumSize( w, maximumSize().height() );
}
void QWidget::setMaximumHeight( int h )
{
setMaximumSize( maximumSize().width(), h );
}
/*!
Sets both the minimum and maximum width of the widget to \a w
without changing the heights. Provided for convenience.
\sa sizeHint() minimumSize() maximumSize() setFixedSize()
*/
void QWidget::setFixedWidth( int w )
{
setMinimumSize( w, minimumSize().height() );
setMaximumSize( w, maximumSize().height() );
}
/*!
Sets both the minimum and maximum heights of the widget to \a h
without changing the widths. Provided for convenience.
\sa sizeHint() minimumSize() maximumSize() setFixedSize()
*/
void QWidget::setFixedHeight( int h )
{
setMinimumSize( minimumSize().width(), h );
setMaximumSize( maximumSize().width(), h );
}
/*!
Translates the widget coordinate \a pos to the coordinate system
of \a parent. The \a parent must not be 0 and must be a parent
of the calling widget.
\sa mapFrom() mapToParent() mapToGlobal() hasMouse()
*/
QPoint QWidget::mapTo( QWidget * parent, const QPoint & pos ) const
{
QPoint p = pos;
if ( parent ) {
const QWidget * w = this;
while ( w != parent ) {
p = w->mapToParent( p );
w = w->parentWidget();
}
}
return p;
}
/*!
Translates the widget coordinate \a pos from the coordinate system
of \a parent to this widget's coordinate system. The \a parent
must not be 0 and must be a parent of the calling widget.
\sa mapTo() mapFromParent() mapFromGlobal() hasMouse()
*/
QPoint QWidget::mapFrom( QWidget * parent, const QPoint & pos ) const
{
QPoint p( pos );
if ( parent ) {
const QWidget * w = this;
while ( w != parent ) {
p = w->mapFromParent( p );
w = w->parentWidget();
}
}
return p;
}
/*!
Translates the widget coordinate \a pos to a coordinate in the
parent widget.
Same as mapToGlobal() if the widget has no parent.
\sa mapFromParent() mapTo() mapToGlobal() hasMouse()
*/
QPoint QWidget::mapToParent( const QPoint &pos ) const
{
return pos + crect.topLeft();
}
/*!
Translates the parent widget coordinate \a pos to widget
coordinates.
Same as mapFromGlobal() if the widget has no parent.
\sa mapToParent() mapFrom() mapFromGlobal() hasMouse()
*/
QPoint QWidget::mapFromParent( const QPoint &pos ) const
{
return pos - crect.topLeft();
}
/*!
Returns the top-level widget for this widget, i.e. the next
ancestor widget that has (or could have) a window-system frame.
If the widget is a top-level, the widget itself is returned.
Typical usage is changing the window caption:
\code
aWidget->topLevelWidget()->setCaption( "New Caption" );
\endcode
\sa isTopLevel()
*/
QWidget *QWidget::topLevelWidget() const
{
QWidget *w = (QWidget *)this;
QWidget *p = w->parentWidget();
while ( !w->testWFlags(WType_TopLevel) && p ) {
w = p;
p = p->parentWidget();
}
return w;
}
/*!
\property QWidget::paletteForegroundColor
\brief the foreground color of the widget
setPaletteForegroundColor() is a convenience function that creates
and sets a modified QPalette with setPalette(). The palette is
modified according to the widget's \e {background mode}. For
example, if the background mode is \c PaletteButton the palette entry
\c QColorGroup::ButtonText is set to color.
\sa setPalette() QApplication::setPalette() backgroundMode()
foregroundColor() setBackgroundMode() setEraseColor()
*/
const QColor &QWidget::paletteForegroundColor() const
{
#ifndef QT_NO_PALETTE
BackgroundMode mode = extra ? (BackgroundMode) extra->bg_mode_visual : PaletteBackground;
return colorGroup().color( QPalette::foregroundRoleFromMode(mode) );
#else
return Qt::black;
#endif
}
void QWidget::setPaletteForegroundColor( const QColor & color )
{
#ifndef QT_NO_PALETTE
BackgroundMode mode = extra ? (BackgroundMode) extra->bg_mode_visual : PaletteBackground;
QPalette pal = palette();
QColorGroup::ColorRole role = QPalette::foregroundRoleFromMode( mode );
pal.setColor( QPalette::Active, role, color );
pal.setColor( QPalette::Inactive, role, color );
pal.setColor( QPalette::Disabled, role, color );
setPalette( pal );
#endif
}
/*!
Same as paletteForegroundColor()
*/
const QColor &QWidget::foregroundColor() const
{
return paletteForegroundColor();
}
/*!
\fn const QColor& QWidget::eraseColor() const
Returns the erase color of the widget.
\sa setEraseColor() setErasePixmap() backgroundColor()
*/
/*!
Sets the erase color of the widget to \a color.
The erase color is the color the widget is to be cleared to before
paintEvent() is called. If there is an erase pixmap (set using
setErasePixmap()), then this property has an indeterminate value.
\sa erasePixmap(), backgroundColor(), backgroundMode(), palette()
*/
void QWidget::setEraseColor( const QColor & color )
{
setBackgroundModeDirect( FixedColor );
setBackgroundColorDirect( color );
update();
}
/*!
Returns the widget's erase pixmap.
\sa setErasePixmap() eraseColor()
*/
const QPixmap *QWidget::erasePixmap() const
{
return ( extra && extra->bg_pix ) ? extra->bg_pix : 0;
}
/*!
Sets the widget's erase pixmap to \a pixmap.
This pixmap is used to clear the widget before paintEvent() is
called.
*/
void QWidget::setErasePixmap( const QPixmap &pixmap )
{
// This function is called with a null pixmap by setBackgroundEmpty().
setBackgroundPixmapDirect( pixmap );
setBackgroundModeDirect( FixedPixmap );
update();
}
void QWidget::setBackgroundFromMode()
{
#ifndef QT_NO_PALETTE
QColorGroup::ColorRole r = QColorGroup::Background;
if ( extra ) {
int i = (BackgroundMode)extra->bg_mode;
if ( i == FixedColor || i == FixedPixmap || i == NoBackground ) {
// Mode is for fixed color, not one based on palette,
// so nothing to do.
return;
}
switch( i ) {
case PaletteForeground:
r = QColorGroup::Foreground;
break;
case PaletteButton:
r = QColorGroup::Button;
break;
case PaletteLight:
r = QColorGroup::Light;
break;
case PaletteMidlight:
r = QColorGroup::Midlight;
break;
case PaletteDark:
r = QColorGroup::Dark;
break;
case PaletteMid:
r = QColorGroup::Mid;
break;
case PaletteText:
r = QColorGroup::Text;
break;
case PaletteBrightText:
r = QColorGroup::BrightText;
break;
case PaletteBase:
r = QColorGroup::Base;
break;
case PaletteBackground:
r = QColorGroup::Background;
break;
case PaletteShadow:
r = QColorGroup::Shadow;
break;
case PaletteHighlight:
r = QColorGroup::Highlight;
break;
case PaletteHighlightedText:
r = QColorGroup::HighlightedText;
break;
case PaletteButtonText:
r = QColorGroup::ButtonText;
break;
case X11ParentRelative:
#if defined(Q_WS_X11)
setBackgroundX11Relative();
#endif
return;
}
}
const QColorGroup &cg = colorGroup();
QPixmap * p = cg.brush( r ).pixmap();
if ( p )
setBackgroundPixmapDirect( *p );
else
setBackgroundColorDirect( cg.color( r ) );
#endif
}
/*!
\enum Qt::BackgroundMode
This enum describes how the background of a widget changes, as the
widget's palette changes.
The background is what the widget contains when \link
QWidget::paintEvent() paintEvent()\endlink is called. To minimize
flicker, this should be the most common color or pixmap in the
widget. For \c PaletteBackground, use colorGroup().brush( \c
QColorGroup::Background ), and so on.
\value PaletteForeground
\value PaletteBackground
\value PaletteButton
\value PaletteLight
\value PaletteMidlight
\value PaletteDark
\value PaletteMid
\value PaletteText
\value PaletteBrightText
\value PaletteButtonText
\value PaletteBase
\value PaletteShadow
\value PaletteHighlight
\value PaletteHighlightedText
\value PaletteLink
\value PaletteLinkVisited
\value X11ParentRelative (internal use only)
The final three values have special meaning:
\value NoBackground the widget is not cleared before paintEvent().
If the widget's paint event always draws on all the pixels, using
this mode can be both fast and flicker-free.
\value FixedColor the widget is cleared to a fixed color, normally
different from all the ones in the palette(). Set using \link
QWidget::setPaletteBackgroundColor()
setPaletteBackgroundColor()\endlink.
\value FixedPixmap the widget is cleared to a fixed pixmap,
normally different from all the ones in the palette(). Set using
\link QWidget::setPaletteBackgroundPixmap()
setPaletteBackgroundPixmap()\endlink.
Although \c FixedColor and \c FixedPixmap are sometimes just
right, if you use them, make sure that you test your application
when the desktop color scheme has been changed. (On X11, a quick
way to test this is e.g. "./myapp -bg paleblue". On Windows, you
must use the control panel.)
\sa QWidget::setBackgroundMode() QWidget::backgroundMode()
QWidget::setBackgroundPixmap() QWidget::setPaletteBackgroundColor()
*/
/*!
\property QWidget::backgroundMode
\brief the color role used for painting the background of the widget
setPaletteBackgroundColor() reads this property to determine which
entry of the \link QWidget::palette palette\endlink to set.
For most widgets the default suffices (\c PaletteBackground,
typically gray), but some need to use \c PaletteBase (the
background color for text output, typically white) or another
role.
QListBox, which is "sunken" and uses the base color to contrast
with its environment, does this in its constructor:
\code
setBackgroundMode( PaletteBase );
\endcode
You will never need to set the background mode of a built-in
widget in Qt, but you might consider setting it in your custom
widgets, so that setPaletteBackgroundColor() works as expected.
Note that two of the BackgroundMode values make no sense for
setBackgroundMode(), namely \c FixedPixmap and \c FixedColor. You
must call setBackgroundPixmap() and setPaletteBackgroundColor()
instead.
*/
Qt::BackgroundMode QWidget::backgroundMode() const
{
return extra ? (BackgroundMode) extra->bg_mode : PaletteBackground;
}
void QWidget::setBackgroundMode( BackgroundMode m )
{
setBackgroundMode( m, m );
if ( (widget_state & (WState_Visible|WState_BlockUpdates)) ==
WState_Visible )
update();
}
/*!
\overload
Sets the widget's own background mode to \a m and the visual
background mode to \a visual. The visual background mode is used
with the designable properties \c backgroundColor, \c
foregroundColor and \c backgroundPixmap.
For complex controls, the logical background mode sometimes
differs from a widget's own background mode. A spinbox for example
has \c PaletteBackground as background mode (typically dark gray),
while it's embedded lineedit control uses \c PaletteBase
(typically white). Since the lineedit covers most of the visual
area of a spinbox, it defines \c PaletteBase to be its \a visual
background mode. Changing the \c backgroundColor property thus
changes the lineedit control's background, which is exactly what
the user expects in \e{Qt Designer}.
*/
void QWidget::setBackgroundMode( BackgroundMode m, BackgroundMode visual )
{
if ( m == NoBackground ) {
setBackgroundEmpty();
} else if ( m == FixedColor || m == FixedPixmap ) {
#if defined(QT_DEBUG)
qWarning( "QWidget::setBackgroundMode: FixedColor or FixedPixmap makes"
" no sense" );
#endif
return;
}
setBackgroundModeDirect(m);
if ( m != visual && !extra )
createExtra();
if ( extra )
extra->bg_mode_visual = visual;
}
/*!
\internal
*/
void QWidget::setBackgroundModeDirect( BackgroundMode m )
{
if ( m == PaletteBackground && !extra )
return;
createExtra();
if ( (BackgroundMode)extra->bg_mode != m ) {
extra->bg_mode = m;
extra->bg_mode_visual = m;
setBackgroundFromMode();
}
}
/*!
\property QWidget::paletteBackgroundColor
\brief the background color of the widget
The palette background color is usually set implicitly by
setBackgroundMode(), although it can also be set explicitly by
setPaletteBackgroundColor(). setPaletteBackgroundColor() is a
convenience function that creates and sets a modified QPalette
with setPalette(). The palette is modified according to the
widget's background mode. For example, if the background mode is
\c PaletteButton the color used for the palette's \c
QColorGroup::Button color entry is set.
If there is a background pixmap (set using
setPaletteBackgroundPixmap()), then the return value of this
function is indeterminate.
\sa paletteBackgroundPixmap, paletteForegroundColor, palette, colorGroup()
*/
const QColor & QWidget::paletteBackgroundColor() const
{
#ifndef QT_NO_PALETTE
BackgroundMode mode = extra ? (BackgroundMode) extra->bg_mode_visual : PaletteBackground;
switch( mode ) {
case FixedColor:
case FixedPixmap :
case NoBackground:
case X11ParentRelative:
return eraseColor();
default:
QColorGroup::ColorRole role = QPalette::backgroundRoleFromMode( mode );
return colorGroup().color( role );
}
#else
return eraseColor();
#endif
}
void QWidget::setPaletteBackgroundColor( const QColor &color )
{
#ifndef QT_NO_PALETTE
BackgroundMode mode = extra ? (BackgroundMode) extra->bg_mode_visual : PaletteBackground;
switch( mode ) {
case FixedColor:
case FixedPixmap :
case NoBackground:
case X11ParentRelative:
setEraseColor( color );
break;
default:
QPalette pal = palette();
QColorGroup::ColorRole role = QPalette::backgroundRoleFromMode( mode );
pal.setColor( QPalette::Active, role, color );
pal.setColor( QPalette::Inactive, role, color );
pal.setColor( QPalette::Disabled, role, color );
setPalette( pal );
break;
}
#else
setEraseColor( color );
#endif
}
/*!
\property QWidget::paletteBackgroundPixmap
\brief the background pixmap of the widget
The palette background pixmap is usually set implicitly by
setBackgroundMode(), although it can also be set explicitly by
setPaletteBackgroundPixmap(). setPaletteBackgroundPixmap() is a
convenience function that creates and sets a modified QPalette
with setPalette(). The palette is modified according to the
widget's background mode. For example, if the background mode is
\c PaletteButton the pixmap used for the palette's
\c QColorGroup::Button color entry is set.
If there is a plain background color (set using
setPaletteBackgroundColor()), then this function returns 0.
\sa paletteBackgroundColor, paletteForegroundColor, palette, colorGroup()
*/
const QPixmap *QWidget::paletteBackgroundPixmap() const
{
#ifndef QT_NO_PALETTE
BackgroundMode mode = extra ? (BackgroundMode) extra->bg_mode_visual : PaletteBackground;
switch( mode ) {
case FixedColor:
case FixedPixmap :
case NoBackground:
case X11ParentRelative:
return erasePixmap();
default:
QColorGroup::ColorRole role = QPalette::backgroundRoleFromMode( mode );
return palette().brush( QPalette::Active, role ).pixmap();
}
#else
return erasePixmap();
#endif
}
void QWidget::setPaletteBackgroundPixmap( const QPixmap &pixmap )
{
#ifndef QT_NO_PALETTE
BackgroundMode mode = extra ? (BackgroundMode) extra->bg_mode_visual : PaletteBackground;
switch( mode ) {
case FixedColor:
case FixedPixmap :
case NoBackground:
case X11ParentRelative:
setErasePixmap( pixmap );
break;
default:
QPalette pal = palette();
QColorGroup::ColorRole role = QPalette::backgroundRoleFromMode( mode );
pal.setBrush( QPalette::Active, role, QBrush( pal.color( QPalette::Active, role ), pixmap ) );
pal.setBrush( QPalette::Inactive, role, QBrush( pal.color( QPalette::Inactive, role ), pixmap ) );
pal.setBrush( QPalette::Disabled, role, QBrush( pal.color( QPalette::Disabled, role ), pixmap ) );
setPalette( pal );
break;
}
#else
setErasePixmap( pixmap );
#endif
}
/*!
\property QWidget::backgroundBrush
\brief the widget's background brush
The background brush depends on a widget's palette and its
background mode.
\sa backgroundColor(), backgroundPixmap(), eraseColor(), palette,
QApplication::setPalette()
*/
const QBrush& QWidget::backgroundBrush() const
{
static QBrush noBrush;
#ifndef QT_NO_PALETTE
BackgroundMode mode = extra ? (BackgroundMode) extra->bg_mode_visual : PaletteBackground;
switch( mode ) {
case FixedColor:
case FixedPixmap :
case NoBackground:
case X11ParentRelative:
return noBrush;
default:
QColorGroup::ColorRole role = QPalette::backgroundRoleFromMode( mode );
return colorGroup().brush( role );
}
#else
return noBrush;
#endif
}
/*!
\property QWidget::colorGroup
\brief the current color group of the widget palette
The color group is determined by the state of the widget. A
disabled widget has the QPalette::disabled() color group, a widget
with keyboard focus has the QPalette::active() color group, and an
inactive widget has the QPalette::inactive() color group.
\sa palette
*/
#ifndef QT_NO_PALETTE
const QColorGroup &QWidget::colorGroup() const
{
if ( !isEnabled() )
return palette().disabled();
else if ( !isVisible() || isActiveWindow() )
return palette().active();
else
return palette().inactive();
}
#endif
/*!
\property QWidget::palette
\brief the widget's palette
As long as no special palette has been set, or after unsetPalette()
has been called, this is either a special palette for the widget
class, the parent's palette or (if this widget is a top level
widget), the default application palette.
Instead of defining an entirely new palette, you can also use the
\link QWidget::paletteBackgroundColor paletteBackgroundColor\endlink,
\link QWidget::paletteBackgroundPixmap paletteBackgroundPixmap\endlink and
\link QWidget::paletteForegroundColor paletteForegroundColor\endlink
convenience properties to change a widget's
background and foreground appearance only.
\sa ownPalette, colorGroup(), QApplication::palette()
*/
#ifndef QT_NO_PALETTE
void QWidget::setPalette( const QPalette &palette )
{
own_palette = TRUE;
if ( pal == palette )
return;
QPalette old = pal;
pal = palette;
setBackgroundFromMode();
QEvent ev( QEvent::PaletteChange );
QApplication::sendEvent( this, &ev );
if ( children() ) {
QEvent e( QEvent::ParentPaletteChange );
QObjectListIt it( *children() );
QWidget *w;
while( (w=(QWidget *)it.current()) != 0 ) {
++it;
if ( w->isWidgetType() )
QApplication::sendEvent( w, &e );
}
}
paletteChange( old );
update();
}
void QWidget::unsetPalette()
{
// reset the palette
setPalette( qt_naturalWidgetPalette( this ) );
own_palette = FALSE;
}
/*!
\fn void QWidget::setPalette( const QPalette&, bool )
\obsolete
Use setPalette( const QPalette& p ) instead.
*/
/*!
\fn void QWidget::paletteChange( const QPalette &oldPalette )
This virtual function is called from setPalette(). \a oldPalette
is the previous palette; you can get the new palette from
palette().
Reimplement this function if your widget needs to know when its
palette changes.
\sa setPalette(), palette()
*/
void QWidget::paletteChange( const QPalette & )
{
}
#endif // QT_NO_PALETTE
/*!
\property QWidget::font
\brief the font currently set for the widget
The fontInfo() function reports the actual font that is being used
by the widget.
As long as no special font has been set, or after unsetFont() is
called, this is either a special font for the widget class, the
parent's font or (if this widget is a top level widget), the
default application font.
This code fragment sets a 12 point helvetica bold font:
\code
QFont f( "Helvetica", 12, QFont::Bold );
setFont( f );
\endcode
In addition to setting the font, setFont() informs all children
about the change.
\sa fontChange() fontInfo() fontMetrics() ownFont()
*/
void QWidget::setFont( const QFont &font )
{
own_font = TRUE;
if ( fnt == font && fnt.d->mask == font.d->mask )
return;
QFont old = fnt;
fnt = font.resolve( qt_naturalWidgetFont( this ) );
#if defined(Q_WS_X11)
// make sure the font set on this widget is associated with the correct screen
fnt.x11SetScreen( x11Screen() );
#endif
if ( children() ) {
QEvent e( QEvent::ParentFontChange );
QObjectListIt it( *children() );
QWidget *w;
while( (w=(QWidget *)it.current()) != 0 ) {
++it;
if ( w->isWidgetType() )
QApplication::sendEvent( w, &e );
}
}
if ( hasFocus() )
setFontSys();
fontChange( old );
}
void QWidget::unsetFont()
{
// reset the font
setFont( qt_naturalWidgetFont( this ) );
own_font = FALSE;
}
/*!
\fn void QWidget::setFont( const QFont&, bool )
\obsolete
Use setFont(const QFont& font) instead.
*/
/*!
\fn void QWidget::fontChange( const QFont &oldFont )
This virtual function is called from setFont(). \a oldFont is the
previous font; you can get the new font from font().
Reimplement this function if your widget needs to know when its
font changes. You will almost certainly need to update the widget
using update().
The default implementation updates the widget including its
geometry.
\sa setFont(), font(), update(), updateGeometry()
*/
void QWidget::fontChange( const QFont & )
{
update();
updateGeometry();
}
/*!
\fn QFontMetrics QWidget::fontMetrics() const
Returns the font metrics for the widget's current font.
Equivalent to QFontMetrics(widget->font()).
\sa font(), fontInfo(), setFont()
*/
/*!
\fn QFontInfo QWidget::fontInfo() const
Returns the font info for the widget's current font.
Equivalent to QFontInto(widget->font()).
\sa font(), fontMetrics(), setFont()
*/
/*!
\property QWidget::cursor
\brief the cursor shape for this widget
The mouse cursor will assume this shape when it's over this
widget. See the \link Qt::CursorShape list of predefined cursor
objects\endlink for a range of useful shapes.
An editor widget might use an I-beam cursor:
\code
setCursor( IbeamCursor );
\endcode
If no cursor has been set, or after a call to unsetCursor(), the
parent's cursor is used. The function unsetCursor() has no effect
on top-level widgets.
\sa QApplication::setOverrideCursor()
*/
#ifndef QT_NO_CURSOR
const QCursor &QWidget::cursor() const
{
if ( testWState(WState_OwnCursor) )
return (extra && extra->curs)
? *extra->curs
: arrowCursor;
else
return (isTopLevel() || !parentWidget()) ? arrowCursor : parentWidget()->cursor();
}
#endif
#ifndef QT_NO_WIDGET_TOPEXTRA
/*!
\property QWidget::caption
\brief the window caption (title)
This property only makes sense for top-level widgets. If no
caption has been set, the caption is QString::null.
\sa icon() iconText()
*/
QString QWidget::caption() const
{
return extra && extra->topextra
? extra->topextra->caption
: QString::null;
}
/*!
\property QWidget::icon
\brief the widget's icon
This property only makes sense for top-level widgets. If no icon
has been set, icon() returns 0.
\sa iconText, caption,
\link appicon.html Setting the Application Icon\endlink
*/
const QPixmap *QWidget::icon() const
{
return ( extra && extra->topextra ) ? extra->topextra->icon : 0;
}
/*!
\property QWidget::iconText
\brief the widget's icon text
This property only makes sense for top-level widgets. If no icon
text has been set, this functions returns QString::null.
\sa icon, caption
*/
QString QWidget::iconText() const
{
return ( extra && extra->topextra ) ? extra->topextra->iconText
: QString::null;
}
#endif //QT_NO_WIDGET_TOPEXTRA
/*!
\property QWidget::mouseTracking
\brief whether mouse tracking is enabled for the widget
If mouse tracking is disabled (the default), the widget only
receives mouse move events when at least one mouse button is
pressed while the mouse is being moved.
If mouse tracking is enabled, the widget receives mouse move
events even if no buttons are pressed.
\sa mouseMoveEvent(), QApplication::setGlobalMouseTracking()
*/
/*!
Sets the widget's focus proxy to widget \a w. If \a w is 0, the
function resets this widget to have no focus proxy.
Some widgets, such as QComboBox, can "have focus", but create a
child widget to actually handle the focus. QComboBox, for example,
creates a QLineEdit which handles the focus.
setFocusProxy() sets the widget which will actually get focus when
"this widget" gets it. If there is a focus proxy, focusPolicy(),
setFocusPolicy(), setFocus() and hasFocus() all operate on the
focus proxy.
\sa focusProxy()
*/
void QWidget::setFocusProxy( QWidget * w )
{
if ( !w && !extra )
return;
for ( QWidget* fp = w; fp; fp = fp->focusProxy() ) {
if ( fp == this ) {
#if defined (QT_CHECK_STATE)
qWarning( "%s (%s): already in focus proxy chain", className(), name() );
#endif
return;
}
}
createExtra();
if ( extra->focus_proxy ) {
disconnect( extra->focus_proxy, SIGNAL(destroyed()),
this, SLOT(focusProxyDestroyed()) );
extra->focus_proxy = 0;
}
if ( w ) {
setFocusPolicy( w->focusPolicy() );
connect( w, SIGNAL(destroyed()),
this, SLOT(focusProxyDestroyed()) );
}
extra->focus_proxy = w;
}
/*!
Returns the focus proxy, or 0 if there is no focus proxy.
\sa setFocusProxy()
*/
QWidget * QWidget::focusProxy() const
{
return extra ? extra->focus_proxy : 0;
}
/*!
\internal
Internal slot used to clean up if the focus proxy is destroyed.
\sa setFocusProxy()
*/
void QWidget::focusProxyDestroyed()
{
if ( extra )
extra->focus_proxy = 0;
setFocusPolicy( NoFocus );
}
/*!
\property QWidget::focus
\brief whether this widget (or its focus proxy) has the keyboard
input focus
Effectively equivalent to \c {qApp->focusWidget() == this}.
\sa setFocus(), clearFocus(), setFocusPolicy(), QApplication::focusWidget()
*/
bool QWidget::hasFocus() const
{
const QWidget* w = this;
while ( w->focusProxy() )
w = w->focusProxy();
return qApp->focusWidget() == w;
}
/*!
Gives the keyboard input focus to this widget (or its focus
proxy) if this widget or one of its parents is the \link
isActiveWindow() active window\endlink.
First, a focus out event is sent to the focus widget (if any) to
tell it that it is about to lose the focus. Then a focus in event
is sent to this widget to tell it that it just received the focus.
(Nothing happens if the focus in and focus out widgets are the
same.)
setFocus() gives focus to a widget regardless of its focus policy,
but does not clear any keyboard grab (see grabKeyboard()).
Be aware that if the widget is hidden, it will not accept focus.
\warning If you call setFocus() in a function which may itself be
called from focusOutEvent() or focusInEvent(), you may get an
infinite recursion.
\sa hasFocus() clearFocus() focusInEvent() focusOutEvent()
setFocusPolicy() QApplication::focusWidget() grabKeyboard()
grabMouse()
*/
void QWidget::setFocus()
{
if ( !isEnabled() )
return;
if ( focusProxy() ) {
focusProxy()->setFocus();
return;
}
QFocusData * f = focusData( TRUE );
if ( f->it.current() == this && qApp->focusWidget() == this
#if defined(Q_WS_WIN)
&& GetFocus() == winId()
#endif
)
return;
f->it.toFirst();
while ( f->it.current() != this && !f->it.atLast() )
++f->it;
// at this point, the iterator should point to 'this'. if it
// does not, 'this' must not be in the list - an error, but
// perhaps possible. fix it.
if ( f->it.current() != this ) {
f->focusWidgets.append( this );
f->it.toLast();
}
if ( isActiveWindow() ) {
QWidget * prev = qApp->focus_widget;
if ( prev ) {
// This part is never executed when Q_WS_X11? Preceding XFocusOut
// had already reset focus_widget when received XFocusIn
// Don't reset input context explicitly here. Whether reset or not
// when focusing out is a responsibility of input methods. For
// example, Japanese input context should not be reset here. The
// context sometimes contains a whole paragraph and has minutes of
// lifetime different to ephemeral one in other languages. The
// input context should be survived until focused again. So we
// delegate the responsibility to input context via
// unfocusInputContext().
if ( prev != this && prev->isInputMethodEnabled() ) {
#if 0
prev->resetInputContext();
#else
prev->unfocusInputContext();
#endif
}
}
#if defined(Q_WS_WIN)
else {
QInputContext::endComposition();
}
#endif
qApp->focus_widget = this;
if( isInputMethodEnabled() )
focusInputContext();
#if defined(Q_WS_WIN)
if ( !topLevelWidget()->isPopup() )
SetFocus( winId() );
else {
#endif
#if defined(QT_ACCESSIBILITY_SUPPORT)
QAccessible::updateAccessibility( this, 0, QAccessible::Focus );
#endif
#if defined(Q_WS_WIN)
}
#endif
if ( prev != this ) {
if ( prev ) {
QFocusEvent out( QEvent::FocusOut );
QApplication::sendEvent( prev, &out );
}
if ( qApp->focus_widget == this ) {
QFocusEvent in( QEvent::FocusIn );
QApplication::sendEvent( this, &in );
}
}
}
}
/*!
Takes keyboard input focus from the widget.
If the widget has active focus, a \link focusOutEvent() focus out
event\endlink is sent to this widget to tell it that it is about
to lose the focus.
This widget must enable focus setting in order to get the keyboard
input focus, i.e. it must call setFocusPolicy().
\sa hasFocus(), setFocus(), focusInEvent(), focusOutEvent(),
setFocusPolicy(), QApplication::focusWidget()
*/
void QWidget::clearFocus()
{
if ( focusProxy() ) {
focusProxy()->clearFocus();
return;
} else if ( hasFocus() ) {
#if !defined(Q_WS_X11)
resetInputContext();
#else
unfocusInputContext();
#endif
QWidget* w = qApp->focusWidget();
// clear active focus
qApp->focus_widget = 0;
QFocusEvent out( QEvent::FocusOut );
QApplication::sendEvent( w, &out );
#if defined(Q_WS_WIN)
if ( !isPopup() && GetFocus() == winId() )
SetFocus( 0 );
else {
#endif
#if defined(QT_ACCESSIBILITY_SUPPORT)
QAccessible::updateAccessibility( this, 0, QAccessible::Focus );
#endif
#if defined(Q_WS_WIN)
}
#endif
}
}
/*!
Finds a new widget to give the keyboard focus to, as appropriate
for Tab and Shift+Tab, and returns TRUE if is can find a new
widget and FALSE if it can't,
If \a next is TRUE, this function searches "forwards", if \a next
is FALSE, it searches "backwards".
Sometimes, you will want to reimplement this function. For
example, a web browser might reimplement it to move its "current
active link" forwards or backwards, and call
QWidget::focusNextPrevChild() only when it reaches the last or
first link on the "page".
Child widgets call focusNextPrevChild() on their parent widgets,
but only the top-level widget decides where to redirect focus. By
overriding this method for an object, you thus gain control of
focus traversal for all child widgets.
\warning QScrollView uses it own logic for this function, which
does the right thing in most cases. But if you are using a
QScrollView and want complete control of the focus chain you'll
need to override QScrollView::focusNextPrevChild() and your
top-level widgets' focusNextPrevChild() functions.
\sa focusData()
*/
bool QWidget::focusNextPrevChild( bool next )
{
QWidget* p = parentWidget();
if ( !isTopLevel() && p )
return p->focusNextPrevChild(next);
QFocusData *f = focusData( TRUE );
QWidget *startingPoint = f->it.current();
QWidget *candidate = 0;
QWidget *w = next ? f->focusWidgets.last() : f->focusWidgets.first();
extern bool qt_tab_all_widgets;
uint focus_flag = qt_tab_all_widgets ? TabFocus : StrongFocus;
do {
if ( w && w != startingPoint &&
( ( w->focusPolicy() & focus_flag ) == focus_flag )
&& !w->focusProxy() && w->isVisibleTo(this) && w->isEnabled())
candidate = w;
w = next ? f->focusWidgets.prev() : f->focusWidgets.next();
} while( w && !(candidate && w==startingPoint) );
if ( !candidate )
return FALSE;
candidate->setFocus();
return TRUE;
}
/*!
Returns the focus widget in this widget's window. This is not the
same as QApplication::focusWidget(), which returns the focus
widget in the currently active window.
*/
QWidget *QWidget::focusWidget() const
{
QWidget *that = (QWidget *)this; // mutable
QFocusData *f = that->focusData( FALSE );
if ( f && f->focusWidgets.count() && f->it.current() == 0 )
f->it.toFirst();
return ( f && f->it.current() ) ? f->it.current() : 0;
}
/*!
Returns the focus data for this widget's top-level widget.
Focus data always belongs to the top-level widget. The focus data
list contains all the widgets in this top-level widget that can
accept focus, in tab order. An iterator points to the current
focus widget (focusWidget() returns a pointer to this widget).
This information is useful for implementing advanced versions of
focusNextPrevChild().
*/
QFocusData * QWidget::focusData()
{
return focusData( TRUE );
}
/*!
\internal
Internal function which lets us ask for the focus data, creating
it if it doesn't exist and \a create is TRUE.
*/
QFocusData * QWidget::focusData( bool create )
{
QWidget * tlw = topLevelWidget();
QWExtra * ed = tlw->extraData();
if ( !ed || !ed->topextra ) {
if ( !create )
return 0;
tlw->createTLExtra();
ed = tlw->extraData();
}
if ( create && !ed->topextra->focusData )
ed->topextra->focusData = new QFocusData;
return ed->topextra->focusData;
}
/*!
\property QWidget::inputMethodEnabled
\brief enables or disables the use of input methods for this widget.
Most Widgets (as eg. buttons) that do not handle text input should have
the input method disabled if they have focus. This is the default.
If a widget handles text input it should set this property to TRUE.
*/
void QWidget::setInputMethodEnabled( bool b )
{
im_enabled = b;
#ifdef Q_WS_WIN
QInputContext::enable( this, im_enabled & !((bool)testWState(WState_Disabled)) );
#endif
}
/*!
Enables key event compression, if \a compress is TRUE, and
disables it if \a compress is FALSE.
Key compression is off by default (except for QLineEdit and
QTextEdit), so widgets receive one key press event for each key
press (or more, since autorepeat is usually on). If you turn it on
and your program doesn't keep up with key input, Qt may try to
compress key events so that more than one character can be
processed in each event.
For example, a word processor widget might receive 2, 3 or more
characters in each QKeyEvent::text(), if the layout recalculation
takes too long for the CPU.
If a widget supports multiple character unicode input, it is
always safe to turn the compression on.
Qt performs key event compression only for printable characters.
Modifier keys, cursor movement keys, function keys and
miscellaneous action keys (e.g. Escape, Enter, Backspace,
PrintScreen) will stop key event compression, even if there are
more compressible key events available.
Not all platforms support this compression, in which case turning
it on will have no effect.
\sa QKeyEvent::text();
*/
void QWidget::setKeyCompression(bool compress)
{
if ( compress )
setWState( WState_CompressKeys );
else
clearWState( WState_CompressKeys );
}
/*!
\property QWidget::isActiveWindow
\brief whether this widget is the active window
The active window is the window that contains the widget
that has keyboard focus.
When popup windows are visible, this property is TRUE for both the
active window \e and for the popup.
\sa setActiveWindow(), QApplication::activeWindow()
*/
bool QWidget::isActiveWindow() const
{
QWidget *tlw = topLevelWidget();
if(testWFlags(WSubWindow) && parentWidget())
tlw = parentWidget()->topLevelWidget();
if(tlw == qApp->activeWindow() || ( isVisible() && tlw->isPopup() ))
return TRUE;
#ifndef QT_NO_STYLE
const_cast(this)->createExtra();
if (!extra->m_ceData) {
const_cast(this)->extra->m_ceData = new QStyleControlElementData();
}
//extra->m_ceData->widgetObjectTypes = getObjectTypeListForObject(this);
extra->m_ceData->widgetObjectTypes.clear();
extra->m_ceData->allDataPopulated = false;
//if(style().styleHint(QStyle::SH_Widget_ShareActivation, *extra->m_ceData, getControlElementFlagsForObject(this, extra->m_ceData->widgetObjectTypes, QStyleOption(), false), QStyleOption(), NULL, this)) {
if(style().styleHint(QStyle::SH_Widget_ShareActivation, *extra->m_ceData, QStyle::CEF_None, QStyleOption(), NULL, this)) {
if((tlw->isDialog() || (tlw->testWFlags(Qt::WStyle_Tool) && !tlw->isPopup())) &&
!tlw->testWFlags(Qt::WShowModal) &&
(!tlw->parentWidget() || tlw->parentWidget()->isActiveWindow()))
return TRUE;
QWidget *w = qApp->activeWindow();
if( !testWFlags(WSubWindow) && w && w->testWFlags(WSubWindow) &&
w->parentWidget()->topLevelWidget() == tlw)
return TRUE;
while(w && (tlw->isDialog() || tlw->testWFlags(Qt::WStyle_Tool)) &&
!w->testWFlags(Qt::WShowModal) && w->parentWidget()) {
w = w->parentWidget()->topLevelWidget();
if( w == tlw )
return TRUE;
}
}
#endif
#if defined(Q_WS_WIN32)
HWND parent = tlw->winId();
HWND topparent = GetActiveWindow();
while ( parent ) {
parent = ::GetParent( parent );
if ( parent && parent == topparent )
return TRUE;
}
#endif
return FALSE;
}
/*!
Moves the \a second widget around the ring of focus widgets so
that keyboard focus moves from the \a first widget to the \a
second widget when the Tab key is pressed.
Note that since the tab order of the \a second widget is changed,
you should order a chain like this:
\code
setTabOrder( a, b ); // a to b
setTabOrder( b, c ); // a to b to c
setTabOrder( c, d ); // a to b to c to d
\endcode
\e not like this:
\code
setTabOrder( c, d ); // c to d WRONG
setTabOrder( a, b ); // a to b AND c to d
setTabOrder( b, c ); // a to b to c, but not c to d
\endcode
If \a first or \a second has a focus proxy, setTabOrder()
correctly substitutes the proxy.
\sa setFocusPolicy(), setFocusProxy()
*/
void QWidget::setTabOrder( QWidget* first, QWidget *second )
{
if ( !first || !second ||
first->focusPolicy() == NoFocus || second->focusPolicy() == NoFocus )
return;
// If first is redirected, set first to the last child of first
// that can take keyboard focus so that second is inserted after
// that last child, and the focus order within first is (more
// likely to be) preserved.
if ( first->focusProxy() ) {
QObjectList *l = first->queryList( "QWidget" );
if ( l && l->count() ) {
QObjectListIt it(*l);
it.toLast();
while (it.current()) {
if (((QWidget*)it.current())->topLevelWidget() == first->topLevelWidget()) {
first = (QWidget*)it.current();
if (first->focusPolicy() != NoFocus)
break;
}
--it;
}
}
delete l;
}
while ( first->focusProxy() )
first = first->focusProxy();
while ( second->focusProxy() )
second = second->focusProxy();
QFocusData *f = first->focusData( TRUE );
bool focusThere = (f->it.current() == second );
f->focusWidgets.removeRef( second );
if ( f->focusWidgets.findRef( first ) >= 0 )
f->focusWidgets.insert( f->focusWidgets.at() + 1, second );
else
f->focusWidgets.append( second );
if ( focusThere ) { // reset iterator so tab will work appropriately
f->it.toFirst();
while( f->it.current() && f->it.current() != second )
++f->it;
}
}
/*!\internal
Moves the relevant subwidgets of this widget from the \a oldtlw's
tab chain to that of the new parent, if there's anything to move and
we're really moving
This function is called from QWidget::reparent() *after* the widget
has been reparented.
\sa reparent()
*/
void QWidget::reparentFocusWidgets( QWidget * oldtlw )
{
if ( oldtlw == topLevelWidget() )
return; // nothing to do
QFocusData * from = oldtlw ? oldtlw->topData()->focusData : 0;
QFocusData * to;
to = focusData();
if ( from ) {
from->focusWidgets.first();
do {
QWidget * pw = from->focusWidgets.current();
while( pw && pw != this )
pw = pw->parentWidget();
if ( pw == this ) {
QWidget * w = from->focusWidgets.take();
if ( w == from->it.current() )
// probably best to clear keyboard focus, or
// the user might become rather confused
w->clearFocus();
if ( !isTopLevel() )
to->focusWidgets.append( w );
} else {
from->focusWidgets.next();
}
} while( from->focusWidgets.current() );
}
if ( to->focusWidgets.findRef(this) < 0 )
to->focusWidgets.append( this );
if ( !isTopLevel() && extra && extra->topextra && extra->topextra->focusData ) {
// this widget is no longer a top-level widget, so get rid
// of old focus data
delete extra->topextra->focusData;
extra->topextra->focusData = 0;
}
}
/*!
\fn void QWidget::recreate( QWidget *parent, WFlags f, const QPoint & p, bool showIt )
\obsolete
This method is provided to aid porting from Qt 1.0 to 2.0. It has
been renamed reparent() in Qt 2.0.
*/
/*!
\property QWidget::frameSize
\brief the size of the widget including any window frame
*/
QSize QWidget::frameSize() const
{
if ( isTopLevel() && !isPopup() ) {
if ( fstrut_dirty )
updateFrameStrut();
QWidget *that = (QWidget *) this;
QTLWExtra *top = that->topData();
return QSize( crect.width() + top->fleft + top->fright,
crect.height() + top->ftop + top->fbottom );
}
return crect.size();
}
/*!
\internal
Recursive function that updates \a widget and all its children,
if they have some parent background origin.
*/
static void qt_update_bg_recursive( QWidget *widget )
{
if ( !widget || widget->isHidden() || widget->backgroundOrigin() == QWidget::WidgetOrigin || !widget->backgroundPixmap() )
return;
const QObjectList *lst = widget->children();
if ( lst ) {
QObjectListIterator it( *lst );
QWidget *widget;
while ( (widget = (QWidget*)it.current()) ) {
++it;
if ( widget->isWidgetType() && !widget->isHidden() && !widget->isTopLevel() && !widget->testWFlags(Qt::WSubWindow) )
qt_update_bg_recursive( widget );
}
}
QApplication::postEvent( widget, new QPaintEvent( widget->clipRegion(), !widget->testWFlags(Qt::WRepaintNoErase) ) );
}
/*!
\overload
This corresponds to move( QPoint(\a x, \a y) ).
*/
void QWidget::move( int x, int y )
{
QPoint oldp(pos());
internalSetGeometry( x + geometry().x() - QWidget::x(),
y + geometry().y() - QWidget::y(),
width(), height(), TRUE );
if ( isVisible() && oldp != pos() )
qt_update_bg_recursive( this );
}
/*!
\overload
This corresponds to resize( QSize(\a w, \a h) ).
*/
void QWidget::resize( int w, int h )
{
internalSetGeometry( geometry().x(), geometry().y(), w, h, FALSE );
setWState( WState_Resized );
}
/*!
\overload
This corresponds to setGeometry( QRect(\a x, \a y, \a w, \a h) ).
*/
void QWidget::setGeometry( int x, int y, int w, int h )
{
QPoint oldp( pos( ));
internalSetGeometry( x, y, w, h, TRUE );
setWState( WState_Resized );
if ( isVisible() && oldp != pos() )
qt_update_bg_recursive( this );
}
/*!
\property QWidget::focusEnabled
\brief whether the widget accepts keyboard focus
Keyboard focus is initially disabled (i.e. focusPolicy() ==
\c QWidget::NoFocus).
You must enable keyboard focus for a widget if it processes
keyboard events. This is normally done from the widget's
constructor. For instance, the QLineEdit constructor calls
setFocusPolicy(QWidget::StrongFocus).
\sa setFocusPolicy(), focusInEvent(), focusOutEvent(), keyPressEvent(),
keyReleaseEvent(), isEnabled()
*/
/*!
\enum QWidget::FocusPolicy
This enum type defines the various policies a widget can have with
respect to acquiring keyboard focus.
\value TabFocus the widget accepts focus by tabbing.
\value ClickFocus the widget accepts focus by clicking.
\value StrongFocus the widget accepts focus by both tabbing
and clicking. On Mac OS X this will also
be indicate that the widget accepts tab focus
when in 'Text/List focus mode'.
\value WheelFocus like StrongFocus plus the widget accepts
focus by using the mouse wheel.
\value NoFocus the widget does not accept focus.
*/
/*!
\property QWidget::focusPolicy
\brief the way the widget accepts keyboard focus
The policy is \c QWidget::TabFocus if the widget accepts keyboard
focus by tabbing, \c QWidget::ClickFocus if the widget accepts
focus by clicking, \c QWidget::StrongFocus if it accepts both, and
\c QWidget::NoFocus (the default) if it does not accept focus at
all.
You must enable keyboard focus for a widget if it processes
keyboard events. This is normally done from the widget's
constructor. For instance, the QLineEdit constructor calls
setFocusPolicy(QWidget::StrongFocus).
\sa focusEnabled, focusInEvent(), focusOutEvent(), keyPressEvent(),
keyReleaseEvent(), enabled
*/
void QWidget::setFocusPolicy( FocusPolicy policy )
{
if ( focusProxy() )
focusProxy()->setFocusPolicy( policy );
if ( policy != NoFocus ) {
QFocusData * f = focusData( TRUE );
if ( f->focusWidgets.findRef( this ) < 0 )
f->focusWidgets.append( this );
}
focus_policy = (uint) policy;
}
/*!
\property QWidget::updatesEnabled
\brief whether updates are enabled
Calling update() and repaint() has no effect if updates are
disabled. Paint events from the window system are processed
normally even if updates are disabled.
setUpdatesEnabled() is normally used to disable updates for a
short period of time, for instance to avoid screen flicker during
large changes.
Example:
\code
setUpdatesEnabled( FALSE );
bigVisualChanges();
setUpdatesEnabled( TRUE );
repaint();
\endcode
\sa update(), repaint(), paintEvent()
*/
void QWidget::setUpdatesEnabled( bool enable )
{
if ( enable )
clearWState( WState_BlockUpdates );
else
setWState( WState_BlockUpdates );
}
/*!
Shows the widget and its child widgets.
If its size or position has changed, Qt guarantees that a widget
gets move and resize events just before it is shown.
You almost never have to reimplement this function. If you need to
change some settings before a widget is shown, use showEvent()
instead. If you need to do some delayed initialization use
polish().
\sa showEvent(), hide(), showMinimized(), showMaximized(),
showNormal(), isVisible(), polish()
*/
void QWidget::show()
{
if ( testWState(WState_Visible) )
return;
bool wasHidden = isHidden();
bool postLayoutHint = !isTopLevel() && wasHidden;
clearWState( WState_ForceHide | WState_CreatedHidden );
if ( !isTopLevel() && !parentWidget()->isVisible() ) {
// we should become visible, but one of our ancestors is
// explicitly hidden. Since we cleared the ForceHide flag, our
// immediate parent will call show() on us again during its
// own processing of show().
if ( wasHidden ) {
QEvent showToParentEvent( QEvent::ShowToParent );
QApplication::sendEvent( this, &showToParentEvent );
}
if ( postLayoutHint )
QApplication::postEvent( parentWidget(),
new QEvent(QEvent::LayoutHint) );
return;
}
in_show = TRUE; // set qws recursion watch
QApplication::sendPostedEvents( this, QEvent::ChildInserted );
uint state = isTopLevel() ? windowState() : 0;
#ifndef Q_OS_TEMP
if ( isTopLevel() && !testWState( WState_Resized ) ) {
// do this before sending the posted resize events. Otherwise
// the layout would catch the resize event and may expand the
// minimum size.
QSize s = qt_naturalWidgetSize( this );
if ( !s.isEmpty() )
resize( s );
}
#endif // Q_OS_TEMP
QApplication::sendPostedEvents( this, QEvent::Move );
QApplication::sendPostedEvents( this, QEvent::Resize );
// the resizing and layouting might have changed the window state
if (isTopLevel() && windowState() != state)
setWindowState(state);
setWState( WState_Visible );
if ( parentWidget() )
QApplication::sendPostedEvents( parentWidget(),
QEvent::ChildInserted );
if ( extra ) {
int w = crect.width();
int h = crect.height();
if ( w < extra->minw || h < extra->minh ||
w > extra->maxw || h > extra->maxh ) {
w = QMAX( extra->minw, QMIN( w, extra->maxw ));
h = QMAX( extra->minh, QMIN( h, extra->maxh ));
resize( w, h ); // deferred resize
}
}
if ( testWFlags(WStyle_Tool) || isPopup() ) {
raise();
} else if ( testWFlags(WType_TopLevel) ) {
while ( QApplication::activePopupWidget() ) {
if ( !QApplication::activePopupWidget()->close() )
break;
}
}
if ( !testWState(WState_Polished) )
polish();
showChildren( FALSE );
if ( postLayoutHint )
QApplication::postEvent( parentWidget(),
new QEvent(QEvent::LayoutHint) );
// Required for Mac, not sure whether we should always do that
if( isTopLevel() )
QApplication::sendPostedEvents(0, QEvent::LayoutHint);
// On Windows, show the popup now so that our own focus handling
// stores the correct old focus widget even if it's stolen in the showevent
#if defined(Q_WS_WIN)
if ( testWFlags(WType_Popup) )
qApp->openPopup( this );
#endif
QShowEvent showEvent;
QApplication::sendEvent( this, &showEvent );
if ( testWFlags(WShowModal) ) {
// qt_enter_modal *before* show, otherwise the initial
// stacking might be wrong
qt_enter_modal( this );
}
// do not show the window directly, but post a show-window request
// to reduce flicker with widgets in layouts
if ( postLayoutHint )
QApplication::postEvent( this, new QEvent( QEvent::ShowWindowRequest ) );
else
showWindow();
#if !defined(Q_WS_WIN)
if ( testWFlags(WType_Popup) )
qApp->openPopup( this );
#endif
#if defined(QT_ACCESSIBILITY_SUPPORT)
QAccessible::updateAccessibility( this, 0, QAccessible::ObjectShow );
#endif
in_show = FALSE; // reset qws recursion watch
}
/*! \fn void QWidget::iconify()
\obsolete
*/
/*!
Hides the widget.
You almost never have to reimplement this function. If you need to
do something after a widget is hidden, use hideEvent() instead.
\sa hideEvent(), isHidden(), show(), showMinimized(), isVisible(), close()
*/
void QWidget::hide()
{
clearWState( WState_CreatedHidden );
if ( testWState(WState_ForceHide) )
return;
setWState( WState_ForceHide );
if ( testWFlags(WType_Popup) )
qApp->closePopup( this );
// Move test modal here. Otherwise, a modal dialog could get
// destroyed and we lose all access to its parent because we haven't
// left modality. (Eg. modal Progress Dialog)
if ( testWFlags(WShowModal) )
qt_leave_modal( this );
#if defined(Q_WS_WIN)
if ( isTopLevel() && !isPopup() && parentWidget() && isActiveWindow() )
parentWidget()->setActiveWindow(); // Activate parent
#endif
hideWindow();
if ( testWState(WState_Visible) ) {
clearWState( WState_Visible );
// next bit tries to move the focus if the focus widget is now
// hidden.
if ( qApp && qApp->focusWidget() == this )
focusNextPrevChild( TRUE );
QHideEvent hideEvent;
QApplication::sendEvent( this, &hideEvent );
hideChildren( FALSE );
#if defined(QT_ACCESSIBILITY_SUPPORT)
QAccessible::updateAccessibility( this, 0, QAccessible::ObjectHide );
#endif
} else {
QEvent hideToParentEvent( QEvent::HideToParent );
QApplication::sendEvent( this, &hideToParentEvent );
}
// post layout hint for non toplevels. The parent widget check is
// necessary since the function is called in the destructor
if ( !isTopLevel() && parentWidget() )
QApplication::postEvent( parentWidget(),
new QEvent( QEvent::LayoutHint) );
}
void QWidget::setShown( bool show )
{
if ( show )
this->show();
else
hide();
}
void QWidget::setHidden( bool hide )
{
if ( hide )
this->hide();
else
show();
}
void QWidget::showChildren( bool spontaneous )
{
if ( children() ) {
QObjectListIt it(*children());
register QObject *object;
QWidget *widget;
while ( it ) {
object = it.current();
++it;
if ( object->isWidgetType() ) {
widget = (QWidget*)object;
if ( !widget->isTopLevel() && widget->isShown() ) {
if ( spontaneous ) {
widget->showChildren( spontaneous );
QShowEvent e;
QApplication::sendSpontaneousEvent( widget, &e );
} else {
widget->show();
}
}
}
}
}
}
void QWidget::hideChildren( bool spontaneous )
{
if ( children() ) {
QObjectListIt it(*children());
register QObject *object;
QWidget *widget;
while ( it ) {
object = it.current();
++it;
if ( object->isWidgetType() ) {
widget = (QWidget*)object;
if ( !widget->isTopLevel() && widget->isShown() ) {
if ( !spontaneous )
widget->clearWState( WState_Visible );
widget->hideChildren( spontaneous );
QHideEvent e;
if ( spontaneous )
QApplication::sendSpontaneousEvent( widget, &e );
else
QApplication::sendEvent( widget, &e );
}
}
}
}
}
/*!
Delayed initialization of a widget.
This function will be called \e after a widget has been fully
created and \e before it is shown the very first time.
Polishing is useful for final initialization which depends on
having an instantiated widget. This is something a constructor
cannot guarantee since the initialization of the subclasses might
not be finished.
After this function, the widget has a proper font and palette and
QApplication::polish() has been called.
Remember to call QWidget's implementation first when reimplementing this
function to ensure that your program does not end up in infinite recursion.
\sa constPolish(), QApplication::polish()
*/
void QWidget::polish()
{
#ifndef QT_NO_WIDGET_TOPEXTRA
if ( isTopLevel() ) {
const QPixmap *pm = icon();
if ( !pm || pm->isNull() ) {
QWidget *mw = (QWidget *)parent();
pm = mw ? mw->icon() : 0;
if ( pm && !pm->isNull() )
setIcon( *pm );
else {
mw = mw ? mw->topLevelWidget() : 0;
pm = mw ? mw->icon() : 0;
if ( pm && !pm->isNull() )
setIcon( *pm );
else {
mw = qApp ? qApp->mainWidget() : 0;
pm = mw ? mw->icon() : 0;
if ( pm && !pm->isNull() )
setIcon( *pm );
}
}
}
}
#endif
if ( !testWState(WState_Polished) ) {
if ( ! own_font &&
! QApplication::font( this ).isCopyOf( QApplication::font() ) )
unsetFont();
#ifndef QT_NO_PALETTE
if ( ! own_palette &&
! QApplication::palette( this ).isCopyOf( QApplication::palette() ) )
unsetPalette();
#endif
setWState(WState_Polished);
qApp->polish( this );
QApplication::sendPostedEvents( this, QEvent::ChildInserted );
}
}
/*!
\fn void QWidget::constPolish() const
Ensures that the widget is properly initialized by calling
polish().
Call constPolish() from functions like sizeHint() that depends on
the widget being initialized, and that may be called before
show().
\warning Do not call constPolish() on a widget from inside that
widget's constructor.
\sa polish()
*/
/*!
\overload
Closes this widget. Returns TRUE if the widget was closed;
otherwise returns FALSE.
If \a alsoDelete is TRUE or the widget has the \c
WDestructiveClose widget flag, the widget is also deleted. The
widget can prevent itself from being closed by rejecting the
\l QCloseEvent it gets. A close events is delivered to the widget
no matter if the widget is visible or not.
The QApplication::lastWindowClosed() signal is emitted when the
last visible top level widget is closed.
Note that closing the \l QApplication::mainWidget() terminates the
application.
\sa closeEvent(), QCloseEvent, hide(), QApplication::quit(),
QApplication::setMainWidget(), QApplication::lastWindowClosed()
*/
bool QWidget::close( bool alsoDelete )
{
if ( is_closing )
return TRUE;
is_closing = 1;
WId id = winId();
bool isMain = qApp->mainWidget() == this;
bool checkLastWindowClosed = isTopLevel() && !isPopup();
bool deleted = FALSE;
QCloseEvent e;
QApplication::sendEvent( this, &e );
deleted = !QWidget::find(id);
if ( !deleted && !e.isAccepted() ) {
is_closing = 0;
return FALSE;
}
if ( !deleted && !isHidden() )
hide();
if ( checkLastWindowClosed
&& qApp->receivers(SIGNAL(lastWindowClosed())) ) {
/* if there is no non-withdrawn top level window left (except
the desktop, popups, or dialogs with parents), we emit the
lastWindowClosed signal */
QWidgetList *list = qApp->topLevelWidgets();
QWidget *widget = list->first();
while ( widget ) {
if ( !widget->isHidden()
&& !widget->isDesktop()
&& !widget->isPopup()
&& (!widget->isDialog() || !widget->parentWidget()))
break;
widget = list->next();
}
delete list;
if ( widget == 0 )
emit qApp->lastWindowClosed();
}
if ( isMain )
qApp->quit();
if ( deleted )
return TRUE;
is_closing = 0;
if ( alsoDelete )
delete this;
else if ( testWFlags(WDestructiveClose) ) {
clearWFlags(WDestructiveClose);
deleteLater();
}
return TRUE;
}
/*!
\fn bool QWidget::close()
Closes this widget. Returns TRUE if the widget was closed;
otherwise returns FALSE.
First it sends the widget a QCloseEvent. The widget is \link
hide() hidden\endlink if it \link QCloseEvent::accept()
accepts\endlink the close event. The default implementation of
QWidget::closeEvent() accepts the close event.
The \l QApplication::lastWindowClosed() signal is emitted when the
last visible top level widget is closed.
*/
/*!
\property QWidget::visible
\brief whether the widget is visible
Calling show() sets the widget to visible status if all its parent
widgets up to the top-level widget are visible. If an ancestor is
not visible, the widget won't become visible until all its
ancestors are shown.
Calling hide() hides a widget explicitly. An explicitly hidden
widget will never become visible, even if all its ancestors become
visible, unless you show it.
A widget receives show and hide events when its visibility status
changes. Between a hide and a show event, there is no need to
waste CPU cycles preparing or displaying information to the user.
A video application, for example, might simply stop generating new
frames.
A widget that happens to be obscured by other windows on the
screen is considered to be visible. The same applies to iconified
top-level widgets and windows that exist on another virtual
desktop (on platforms that support this concept). A widget
receives spontaneous show and hide events when its mapping status
is changed by the window system, e.g. a spontaneous hide event
when the user minimizes the window, and a spontaneous show event
when the window is restored again.
\sa show(), hide(), isHidden(), isVisibleTo(), isMinimized(),
showEvent(), hideEvent()
*/
/*!
Returns TRUE if this widget would become visible if \a ancestor is
shown; otherwise returns FALSE.
The TRUE case occurs if neither the widget itself nor any parent
up to but excluding \a ancestor has been explicitly hidden.
This function will still return TRUE if the widget is obscured by
other windows on the screen, but could be physically visible if it
or they were to be moved.
isVisibleTo(0) is identical to isVisible().
\sa show() hide() isVisible()
*/
bool QWidget::isVisibleTo(QWidget* ancestor) const
{
if ( !ancestor )
return isVisible();
const QWidget * w = this;
while ( w
&& w->isShown()
&& !w->isTopLevel()
&& w->parentWidget()
&& w->parentWidget() != ancestor )
w = w->parentWidget();
return w->isShown();
}
/*!
\fn bool QWidget::isVisibleToTLW() const
\obsolete
This function is deprecated. It is equivalent to isVisible()
*/
/*!
\property QWidget::hidden
\brief whether the widget is explicitly hidden
If FALSE, the widget is visible or would become visible if all its
ancestors became visible.
\sa hide(), show(), isVisible(), isVisibleTo(), shown
*/
/*!
\property QWidget::shown
\brief whether the widget is shown
If TRUE, the widget is visible or would become visible if all its
ancestors became visible.
\sa hide(), show(), isVisible(), isVisibleTo(), hidden
*/
/*!
\property QWidget::visibleRect
\brief the visible rectangle
\obsolete
No longer necessary, you can simply call repaint(). If you do not
need the rectangle for repaint(), use clipRegion() instead.
*/
QRect QWidget::visibleRect() const
{
QRect r = rect();
const QWidget * w = this;
int ox = 0;
int oy = 0;
while ( w
&& w->isVisible()
&& !w->isTopLevel()
&& w->parentWidget() ) {
ox -= w->x();
oy -= w->y();
w = w->parentWidget();
r = r.intersect( QRect( ox, oy, w->width(), w->height() ) );
}
if ( !w->isVisible() )
return QRect();
return r;
}
/*!
Returns the unobscured region where paint events can occur.
For visible widgets, this is an approximation of the area not
covered by other widgets; otherwise, this is an empty region.
The repaint() function calls this function if necessary, so in
general you do not need to call it.
*/
QRegion QWidget::clipRegion() const
{
return visibleRect();
}
/*!
Adjusts the size of the widget to fit the contents.
Uses sizeHint() if valid (i.e if the size hint's width and height
are \>= 0), otherwise sets the size to the children rectangle (the
union of all child widget geometries).
\sa sizeHint(), childrenRect()
*/
void QWidget::adjustSize()
{
QApplication::sendPostedEvents( 0, QEvent::ChildInserted );
QApplication::sendPostedEvents( 0, QEvent::LayoutHint );
if ( !testWState(WState_Polished) )
polish();
QSize s = sizeHint();
if ( isTopLevel() ) {
#if defined(Q_WS_X11)
QRect screen = QApplication::desktop()->screenGeometry( x11Screen() );
#else // all others
QRect screen = QApplication::desktop()->screenGeometry( pos() );
#endif
#ifndef QT_NO_LAYOUT
if ( layout() ) {
if ( layout()->hasHeightForWidth() ) {
s = s.boundedTo( screen.size() );
s.setHeight( layout()->totalHeightForWidth( s.width() ) );
}
} else
#endif
{
if ( sizePolicy().hasHeightForWidth() ) {
s = s.boundedTo( screen.size() );
s.setHeight( heightForWidth( s.width() ) );
}
}
}
if ( s.isValid() ) {
resize( s );
return;
}
QRect r = childrenRect(); // get children rectangle
if ( r.isNull() ) // probably no widgets
return;
resize( r.width() + 2 * r.x(), r.height() + 2 * r.y() );
}
/*!
\property QWidget::sizeHint
\brief the recommended size for the widget
If the value of this property is an invalid size, no size is
recommended.
The default implementation of sizeHint() returns an invalid size
if there is no layout for this widget, and returns the layout's
preferred size otherwise.
\sa QSize::isValid(), minimumSizeHint(), sizePolicy(),
setMinimumSize(), updateGeometry()
*/
QSize QWidget::sizeHint() const
{
#ifndef QT_NO_LAYOUT
if ( layout() )
return layout()->totalSizeHint();
#endif
return QSize( -1, -1 );
}
/*!
\property QWidget::minimumSizeHint
\brief the recommended minimum size for the widget
If the value of this property is an invalid size, no minimum size
is recommended.
The default implementation of minimumSizeHint() returns an invalid
size if there is no layout for this widget, and returns the
layout's minimum size otherwise. Most built-in widgets reimplement
minimumSizeHint().
\l QLayout will never resize a widget to a size smaller than
minimumSizeHint.
\sa QSize::isValid(), resize(), setMinimumSize(), sizePolicy()
*/
QSize QWidget::minimumSizeHint() const
{
#ifndef QT_NO_LAYOUT
if ( layout() )
return layout()->totalMinimumSize();
#endif
return QSize( -1, -1 );
}
/*!
\fn QWidget *QWidget::parentWidget( bool sameWindow ) const
Returns the parent of this widget, or 0 if it does not have any
parent widget. If \a sameWindow is TRUE and the widget is top
level returns 0; otherwise returns the widget's parent.
*/
/*!
\fn WFlags QWidget::testWFlags( WFlags f ) const
Returns the bitwise AND of the widget flags and \a f.
Widget flags are a combination of \l{Qt::WidgetFlags}.
If you want to test for the presence of multiple flags (or
composite flags such as \c WStyle_Splash), test the
return value for equality against the argument. For example:
\code
int flags = WStyle_Tool | WStyle_NoBorder;
if ( testWFlags(flags) )
... // WStyle_Tool or WStyle_NoBorder or both are set
if ( testWFlags(flags) == flags )
... // both WStyle_Tool and WStyle_NoBorder are set
\endcode
\sa getWFlags(), setWFlags(), clearWFlags()
*/
/*!
\fn WState QWidget::testWState( WState s ) const
\internal
Returns the bitwise AND of the widget states and \a s.
*/
/*!
\fn uint QWidget::getWState() const
\internal
Returns the current widget state.
*/
/*!
\fn void QWidget::clearWState( uint n )
\internal
Clears the widgets states \a n.
*/
/*!
\fn void QWidget::setWState( uint n )
\internal
Sets the widgets states \a n.
*/
/*****************************************************************************
QWidget event handling
*****************************************************************************/
/*!
This is the main event handler; it handles event \a e. You can
reimplement this function in a subclass, but we recommend using
one of the specialized event handlers instead.
The main event handler first passes an event through all \link
QObject::installEventFilter() event filters\endlink that have been
installed. If none of the filters intercept the event, it calls
one of the specialized event handlers.
Key press and release events are treated differently from other
events. event() checks for Tab and Shift+Tab and tries to move the
focus appropriately. If there is no widget to move the focus to
(or the key press is not Tab or Shift+Tab), event() calls
keyPressEvent().
This function returns TRUE if it is able to pass the event over to
someone (i.e. someone wanted the event); otherwise returns FALSE.
\sa closeEvent(), focusInEvent(), focusOutEvent(), enterEvent(),
keyPressEvent(), keyReleaseEvent(), leaveEvent(),
mouseDoubleClickEvent(), mouseMoveEvent(), mousePressEvent(),
mouseReleaseEvent(), moveEvent(), paintEvent(), resizeEvent(),
QObject::event(), QObject::timerEvent()
*/
bool QWidget::event( QEvent *e )
{
if ( QObject::event( e ) )
return TRUE;
switch ( e->type() ) {
case QEvent::MouseMove:
mouseMoveEvent( (QMouseEvent*)e );
if ( ! ((QMouseEvent*)e)->isAccepted() )
return FALSE;
break;
case QEvent::MouseButtonPress:
// Don't reset input context here. Whether reset or not is
// a responsibility of input method. reset() will be
// called by mouseHandler() of input method if necessary
// via mousePressEvent() of text widgets.
#if 0
resetInputContext();
#endif
mousePressEvent( (QMouseEvent*)e );
if ( ! ((QMouseEvent*)e)->isAccepted() )
return FALSE;
break;
case QEvent::MouseButtonRelease:
mouseReleaseEvent( (QMouseEvent*)e );
if ( ! ((QMouseEvent*)e)->isAccepted() )
return FALSE;
break;
case QEvent::MouseButtonDblClick:
mouseDoubleClickEvent( (QMouseEvent*)e );
if ( ! ((QMouseEvent*)e)->isAccepted() )
return FALSE;
break;
#ifndef QT_NO_WHEELEVENT
case QEvent::Wheel:
wheelEvent( (QWheelEvent*)e );
if ( ! ((QWheelEvent*)e)->isAccepted() )
return FALSE;
break;
#endif
case QEvent::TabletMove:
case QEvent::TabletPress:
case QEvent::TabletRelease:
tabletEvent( (QTabletEvent*)e );
if ( ! ((QTabletEvent*)e)->isAccepted() )
return FALSE;
break;
case QEvent::Accel:
((QKeyEvent*)e)->ignore();
return FALSE;
case QEvent::KeyPress: {
QKeyEvent *k = (QKeyEvent *)e;
bool res = FALSE;
if ( !(k->state() & ControlButton || k->state() & AltButton) ) {
if ( k->key() == Key_Backtab ||
(k->key() == Key_Tab &&
(k->state() & ShiftButton)) ) {
QFocusEvent::setReason( QFocusEvent::Backtab );
res = focusNextPrevChild( FALSE );
QFocusEvent::resetReason();
} else if ( k->key() == Key_Tab ) {
QFocusEvent::setReason( QFocusEvent::Tab );
res = focusNextPrevChild( TRUE );
QFocusEvent::resetReason();
}
if ( res )
break;
}
keyPressEvent( k );
if ( !k->isAccepted() )
return FALSE;
}
break;
case QEvent::KeyRelease:
keyReleaseEvent( (QKeyEvent*)e );
if ( ! ((QKeyEvent*)e)->isAccepted() )
return FALSE;
break;
case QEvent::IMStart: {
QIMEvent *i = (QIMEvent *) e;
imStartEvent(i);
if (! i->isAccepted())
return FALSE;
}
break;
case QEvent::IMCompose: {
QIMEvent *i = (QIMEvent *) e;
imComposeEvent(i);
if (! i->isAccepted())
return FALSE;
}
break;
case QEvent::IMEnd: {
QIMEvent *i = (QIMEvent *) e;
imEndEvent(i);
if (! i->isAccepted())
return FALSE;
}
break;
case QEvent::FocusIn:
focusInEvent( (QFocusEvent*)e );
setFontSys();
break;
case QEvent::FocusOut:
focusOutEvent( (QFocusEvent*)e );
break;
case QEvent::Enter:
enterEvent( e );
break;
case QEvent::Leave:
leaveEvent( e );
break;
case QEvent::Paint:
// At this point the event has to be delivered, regardless
// whether the widget isVisible() or not because it
// already went through the filters
paintEvent( (QPaintEvent*)e );
break;
case QEvent::Move:
moveEvent( (QMoveEvent*)e );
break;
case QEvent::Resize:
resizeEvent( (QResizeEvent*)e );
break;
case QEvent::Close: {
QCloseEvent *c = (QCloseEvent *)e;
closeEvent( c );
if ( !c->isAccepted() )
return FALSE;
}
break;
case QEvent::ContextMenu: {
QContextMenuEvent *c = (QContextMenuEvent *)e;
contextMenuEvent( c );
if ( !c->isAccepted() )
return FALSE;
}
break;
#ifndef QT_NO_DRAGANDDROP
case QEvent::Drop:
dropEvent( (QDropEvent*) e);
break;
case QEvent::DragEnter:
dragEnterEvent( (QDragEnterEvent*) e);
break;
case QEvent::DragMove:
dragMoveEvent( (QDragMoveEvent*) e);
break;
case QEvent::DragLeave:
dragLeaveEvent( (QDragLeaveEvent*) e);
break;
#endif
case QEvent::Show:
showEvent( (QShowEvent*) e);
break;
case QEvent::Hide:
hideEvent( (QHideEvent*) e);
break;
case QEvent::ShowWindowRequest:
if ( isShown() )
showWindow();
break;
case QEvent::ParentFontChange:
if ( isTopLevel() )
break;
// fall through
case QEvent::ApplicationFontChange:
if ( own_font )
setFont( fnt.resolve( qt_naturalWidgetFont( this ) ) );
else
unsetFont();
break;
#ifndef QT_NO_PALETTE
case QEvent::ParentPaletteChange:
if ( isTopLevel() )
break;
// fall through
case QEvent::ApplicationPaletteChange:
if ( !own_palette && !isDesktop() )
unsetPalette();
# if defined(Q_WS_QWS) && !defined (QT_NO_QWS_MANAGER)
if ( isTopLevel() && topData()->qwsManager ) {
QRegion r( topData()->qwsManager->region() );
QApplication::postEvent(topData()->qwsManager, new QPaintEvent(r, FALSE) );
}
# endif
break;
#endif
case QEvent::WindowActivate:
case QEvent::WindowDeactivate:
windowActivationChange( e->type() != QEvent::WindowActivate );
if ( children() ) {
QObjectListIt it( *children() );
QObject *o;
while( ( o = it.current() ) != 0 ) {
++it;
if ( o->isWidgetType() &&
((QWidget*)o)->isVisible() &&
!((QWidget*)o)->isTopLevel() )
QApplication::sendEvent( o, e );
}
}
break;
case QEvent::LanguageChange:
case QEvent::LocaleChange:
if ( children() ) {
QObjectListIt it( *children() );
QObject *o;
while( ( o = it.current() ) != 0 ) {
++it;
QApplication::sendEvent( o, e );
}
}
if ( e->type() == QEvent::LanguageChange ) {
int index = metaObject()->findSlot( "languageChange()", TRUE );
if ( index >= 0 )
qt_invoke( index, 0 );
}
update();
break;
#ifndef QT_NO_LAYOUT
case QEvent::LayoutDirectionChange:
if ( layout() ) {
layout()->activate();
} else {
QObjectList* llist = queryList( "QLayout", 0, TRUE, TRUE );
QObjectListIt lit( *llist );
QLayout *lay;
while ( ( lay = (QLayout*)lit.current() ) != 0 ) {
++lit;
lay->activate();
}
delete llist;
}
update();
break;
#endif
case QEvent::WindowStateChange:
{
QEvent::Type type;
if (isMinimized())
type = QEvent::ShowMinimized;
else if (isFullScreen())
type = QEvent::ShowFullScreen;
else if (isMaximized())
type = QEvent::ShowMaximized;
else
type = QEvent::ShowNormal;
QApplication::postEvent(this, new QEvent(type));
break;
}
case QEvent::WindowBlocked:
case QEvent::WindowUnblocked:
if ( children() ) {
QObjectListIt it( *children() );
QObject *o;
while( ( o = it.current() ) != 0 ) {
++it;
QWidget *w = ::qt_cast(o);
if (w && !w->testWFlags(Qt::WShowModal))
QApplication::sendEvent( o, e );
}
}
break;
default:
return FALSE;
}
return TRUE;
}
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive mouse move events for the widget.
If mouse tracking is switched off, mouse move events only occur if
a mouse button is pressed while the mouse is being moved. If mouse
tracking is switched on, mouse move events occur even if no mouse
button is pressed.
QMouseEvent::pos() reports the position of the mouse cursor,
relative to this widget. For press and release events, the
position is usually the same as the position of the last mouse
move event, but it might be different if the user's hand shakes.
This is a feature of the underlying window system, not Qt.
\sa setMouseTracking(), mousePressEvent(), mouseReleaseEvent(),
mouseDoubleClickEvent(), event(), QMouseEvent
*/
void QWidget::mouseMoveEvent( QMouseEvent * e)
{
e->ignore();
}
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive mouse press events for the widget.
If you create new widgets in the mousePressEvent() the
mouseReleaseEvent() may not end up where you expect, depending on
the underlying window system (or X11 window manager), the widgets'
location and maybe more.
The default implementation implements the closing of popup widgets
when you click outside the window. For other widget types it does
nothing.
\sa mouseReleaseEvent(), mouseDoubleClickEvent(),
mouseMoveEvent(), event(), QMouseEvent
*/
void QWidget::mousePressEvent( QMouseEvent *e )
{
e->ignore();
if ( isPopup() ) {
e->accept();
QWidget* w;
while ( (w = qApp->activePopupWidget() ) && w != this ){
w->close();
if (qApp->activePopupWidget() == w) // widget does not want to dissappear
w->hide(); // hide at least
}
if (!rect().contains(e->pos()) ){
close();
}
}
}
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive mouse release events for the widget.
\sa mouseReleaseEvent(), mouseDoubleClickEvent(),
mouseMoveEvent(), event(), QMouseEvent
*/
void QWidget::mouseReleaseEvent( QMouseEvent * e )
{
e->ignore();
}
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive mouse double click events for the widget.
The default implementation generates a normal mouse press event.
Note that the widgets gets a mousePressEvent() and a
mouseReleaseEvent() before the mouseDoubleClickEvent().
\sa mousePressEvent(), mouseReleaseEvent() mouseMoveEvent(),
event(), QMouseEvent
*/
void QWidget::mouseDoubleClickEvent( QMouseEvent *e )
{
mousePressEvent( e ); // try mouse press event
}
#ifndef QT_NO_WHEELEVENT
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive wheel events for the widget.
If you reimplement this handler, it is very important that you
\link QWheelEvent ignore()\endlink the event if you do not handle
it, so that the widget's parent can interpret it.
The default implementation ignores the event.
\sa QWheelEvent::ignore(), QWheelEvent::accept(), event(),
QWheelEvent
*/
void QWidget::wheelEvent( QWheelEvent *e )
{
e->ignore();
}
#endif
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive tablet events for the widget.
If you reimplement this handler, it is very important that you
\link QTabletEvent ignore()\endlink the event if you do not handle
it, so that the widget's parent can interpret it.
The default implementation ignores the event.
\sa QTabletEvent::ignore(), QTabletEvent::accept(), event(),
QTabletEvent
*/
void QWidget::tabletEvent( QTabletEvent *e )
{
e->ignore();
}
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive key press events for the widget.
A widget must call setFocusPolicy() to accept focus initially and
have focus in order to receive a key press event.
If you reimplement this handler, it is very important that you
explicitly \link QKeyEvent::ignore() ignore\endlink the event
if you do not understand it, so that the widget's parent can
interpret it; otherwise, the event will be implicitly accepted.
Although top-level widgets are able to choose whether to accept
or ignore unknown events because they have no parent widgets that
could otherwise handle them, it is good practice to explicitly
ignore events to make widgets as reusable as possible.
The default implementation closes popup widgets if the user
presses Esc. Otherwise the event is ignored.
\sa keyReleaseEvent(), QKeyEvent::ignore(), setFocusPolicy(),
focusInEvent(), focusOutEvent(), event(), QKeyEvent
*/
void QWidget::keyPressEvent( QKeyEvent *e )
{
if ( isPopup() && e->key() == Key_Escape ) {
e->accept();
close();
} else {
e->ignore();
}
}
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive key release events for the widget.
A widget must \link setFocusPolicy() accept focus\endlink
initially and \link hasFocus() have focus\endlink in order to
receive a key release event.
If you reimplement this handler, it is very important that you
\link QKeyEvent ignore()\endlink the release if you do not
understand it, so that the widget's parent can interpret it.
The default implementation ignores the event.
\sa keyPressEvent(), QKeyEvent::ignore(), setFocusPolicy(),
focusInEvent(), focusOutEvent(), event(), QKeyEvent
*/
void QWidget::keyReleaseEvent( QKeyEvent *e )
{
e->ignore();
}
/*!
This event handler can be reimplemented in a subclass to receive
keyboard focus events (focus received) for the widget.
A widget normally must setFocusPolicy() to something other than
\c NoFocus in order to receive focus events. (Note that the
application programmer can call setFocus() on any widget, even
those that do not normally accept focus.)
The default implementation updates the widget (except for toplevel
widgets that do not specify a focusPolicy() ). It also calls
setMicroFocusHint(), hinting any system-specific input tools about
the focus of the user's attention.
\sa focusOutEvent(), setFocusPolicy(), keyPressEvent(),
keyReleaseEvent(), event(), QFocusEvent
*/
void QWidget::focusInEvent( QFocusEvent * )
{
if ( focusPolicy() != NoFocus || !isTopLevel() ) {
update();
if ( testWState(WState_AutoMask) )
updateMask();
setMicroFocusHint(width()/2, 0, 1, height(), FALSE);
}
}
/*!
This event handler can be reimplemented in a subclass to receive
keyboard focus events (focus lost) for the widget.
A widget normally must setFocusPolicy() to something other than
\c NoFocus in order to receive focus events. (Note that the
application programmer can call setFocus() on any widget, even
those that do not normally accept focus.)
The default implementation updates the widget (except for toplevel
widgets that do not specify a focusPolicy() ). It also calls
setMicroFocusHint(), hinting any system-specific input tools about
the focus of the user's attention.
\sa focusInEvent(), setFocusPolicy(), keyPressEvent(),
keyReleaseEvent(), event(), QFocusEvent
*/
void QWidget::focusOutEvent( QFocusEvent * )
{
if ( focusPolicy() != NoFocus || !isTopLevel() ){
update();
if ( testWState(WState_AutoMask) )
updateMask();
}
}
/*!
\property QWidget::microFocusHint
\brief the currently set micro focus hint for this widget.
See the documentation of setMicroFocusHint() for more information.
*/
QRect QWidget::microFocusHint() const
{
if ( !extra || extra->micro_focus_hint.isEmpty() )
return QRect(width()/2, 0, 1, height() );
else
return extra->micro_focus_hint;
}
/*!
This event handler can be reimplemented in a subclass to receive
widget enter events.
An event is sent to the widget when the mouse cursor enters the
widget.
\sa leaveEvent(), mouseMoveEvent(), event()
*/
void QWidget::enterEvent( QEvent * )
{
}
/*!
This event handler can be reimplemented in a subclass to receive
widget leave events.
A leave event is sent to the widget when the mouse cursor leaves
the widget.
\sa enterEvent(), mouseMoveEvent(), event()
*/
void QWidget::leaveEvent( QEvent * )
{
}
/*!
This event handler can be reimplemented in a subclass to receive
paint events.
A paint event is a request to repaint all or part of the widget.
It can happen as a result of repaint() or update(), or because the
widget was obscured and has now been uncovered, or for many other
reasons.
Many widgets can simply repaint their entire surface when asked
to, but some slow widgets need to optimize by painting only the
requested region: QPaintEvent::region(). This speed optimization
does not change the result, as painting is clipped to that region
during event processing. QListView and QCanvas do this, for
example.
Qt also tries to speed up painting by merging multiple paint
events into one. When update() is called several times or the
window system sends several paint events, Qt merges these events
into one event with a larger region (see QRegion::unite()).
repaint() does not permit this optimization, so we suggest using
update() when possible.
When the paint event occurs, the update region has normally been
erased, so that you're painting on the widget's background. There
are a couple of exceptions and QPaintEvent::erased() tells you
whether the widget has been erased or not.
The background can be set using setBackgroundMode(),
setPaletteBackgroundColor() or setBackgroundPixmap(). The
documentation for setBackgroundMode() elaborates on the
background; we recommend reading it.
\sa event(), repaint(), update(), QPainter, QPixmap, QPaintEvent
*/
void QWidget::paintEvent( QPaintEvent * )
{
}
/*!
This event handler can be reimplemented in a subclass to receive
widget move events. When the widget receives this event, it is
already at the new position.
The old position is accessible through QMoveEvent::oldPos().
\sa resizeEvent(), event(), move(), QMoveEvent
*/
void QWidget::moveEvent( QMoveEvent * )
{
}
/*!
This event handler can be reimplemented in a subclass to receive
widget resize events. When resizeEvent() is called, the widget
already has its new geometry. The old size is accessible through
QResizeEvent::oldSize().
The widget will be erased and receive a paint event immediately
after processing the resize event. No drawing need be (or should
be) done inside this handler.
Widgets that have been created with the \c WNoAutoErase flag
will not be erased. Nevertheless, they will receive a paint event
for their entire area afterwards. Again, no drawing needs to be
done inside this handler.
The default implementation calls updateMask() if the widget has
\link QWidget::setAutoMask() automatic masking\endlink enabled.
\sa moveEvent(), event(), resize(), QResizeEvent, paintEvent()
*/
void QWidget::resizeEvent( QResizeEvent * )
{
if ( testWState(WState_AutoMask) )
updateMask();
}
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive widget close events.
The default implementation calls e->accept(), which hides this
widget. See the \l QCloseEvent documentation for more details.
\sa event(), hide(), close(), QCloseEvent
*/
void QWidget::closeEvent( QCloseEvent *e )
{
e->accept();
}
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive widget context menu events.
The default implementation calls e->ignore(), which rejects the
context event. See the \l QContextMenuEvent documentation for
more details.
\sa event(), QContextMenuEvent
*/
void QWidget::contextMenuEvent( QContextMenuEvent *e )
{
e->ignore();
}
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive Input Method composition events. This handler
is called when the user begins entering text using an Input Method.
The default implementation calls e->ignore(), which rejects the
Input Method event. See the \l QIMEvent documentation for more
details.
\sa event(), QIMEvent
*/
void QWidget::imStartEvent( QIMEvent *e )
{
e->ignore();
}
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive Input Method composition events. This handler
is called when the user has entered some text using an Input Method.
The default implementation calls e->ignore(), which rejects the
Input Method event. See the \l QIMEvent documentation for more
details.
\sa event(), QIMEvent
*/
void QWidget::imComposeEvent( QIMEvent *e )
{
e->ignore();
}
/*!
This event handler, for event \a e, can be reimplemented in a
subclass to receive Input Method composition events. This handler
is called when the user has finished inputting text via an Input
Method.
The default implementation calls e->ignore(), which rejects the
Input Method event. See the \l QIMEvent documentation for more
details.
\sa event(), QIMEvent
*/
void QWidget::imEndEvent( QIMEvent *e )
{
e->ignore();
}
#ifndef QT_NO_DRAGANDDROP
/*!
This event handler is called when a drag is in progress and the
mouse enters this widget.
See the \link dnd.html Drag-and-drop documentation\endlink for an
overview of how to provide drag-and-drop in your application.
\sa QTextDrag, QImageDrag, QDragEnterEvent
*/
void QWidget::dragEnterEvent( QDragEnterEvent * )
{
}
/*!
This event handler is called when a drag is in progress and the
mouse enters this widget, and whenever it moves within the widget.
See the \link dnd.html Drag-and-drop documentation\endlink for an
overview of how to provide drag-and-drop in your application.
\sa QTextDrag, QImageDrag, QDragMoveEvent
*/
void QWidget::dragMoveEvent( QDragMoveEvent * )
{
}
/*!
This event handler is called when a drag is in progress and the
mouse leaves this widget.
See the \link dnd.html Drag-and-drop documentation\endlink for an
overview of how to provide drag-and-drop in your application.
\sa QTextDrag, QImageDrag, QDragLeaveEvent
*/
void QWidget::dragLeaveEvent( QDragLeaveEvent * )
{
}
/*!
This event handler is called when the drag is dropped on this
widget.
See the \link dnd.html Drag-and-drop documentation\endlink for an
overview of how to provide drag-and-drop in your application.
\sa QTextDrag, QImageDrag, QDropEvent
*/
void QWidget::dropEvent( QDropEvent * )
{
}
#endif // QT_NO_DRAGANDDROP
/*!
This event handler can be reimplemented in a subclass to receive
widget show events.
Non-spontaneous show events are sent to widgets immediately before
they are shown. The spontaneous show events of top-level widgets
are delivered afterwards.
\sa event(), QShowEvent
*/
void QWidget::showEvent( QShowEvent * )
{
}
/*!
This event handler can be reimplemented in a subclass to receive
widget hide events.
Hide events are sent to widgets immediately after they have been
hidden.
\sa event(), QHideEvent
*/
void QWidget::hideEvent( QHideEvent * )
{
}
/*
\fn QWidget::x11Event( MSG * )
This special event handler can be reimplemented in a subclass to
receive native X11 events.
In your reimplementation of this function, if you want to stop the
event being handled by Qt, return TRUE. If you return FALSE, this
native event is passed back to Qt, which translates the event into
a Qt event and sends it to the widget.
\warning This function is not portable.
\sa QApplication::x11EventFilter()
*/
#if defined(Q_WS_MAC)
/*!
This special event handler can be reimplemented in a subclass to
receive native Macintosh events.
In your reimplementation of this function, if you want to stop the
event being handled by Qt, return TRUE. If you return FALSE, this
native event is passed back to Qt, which translates the event into
a Qt event and sends it to the widget.
\warning This function is not portable.
\sa QApplication::macEventFilter()
*/
bool QWidget::macEvent( MSG * )
{
return FALSE;
}
#endif
#if defined(Q_WS_WIN)
/*!
This special event handler can be reimplemented in a subclass to
receive native Windows events.
In your reimplementation of this function, if you want to stop the
event being handled by Qt, return TRUE. If you return FALSE, this
native event is passed back to Qt, which translates the event into
a Qt event and sends it to the widget.
\warning This function is not portable.
\sa QApplication::winEventFilter()
*/
bool QWidget::winEvent( MSG * )
{
return FALSE;
}
#endif
#if defined(Q_WS_X11)
/*!
This special event handler can be reimplemented in a subclass to
receive native X11 events.
In your reimplementation of this function, if you want to stop the
event being handled by Qt, return TRUE. If you return FALSE, this
native event is passed back to Qt, which translates the event into
a Qt event and sends it to the widget.
\warning This function is not portable.
\sa QApplication::x11EventFilter()
*/
bool QWidget::x11Event( XEvent * )
{
return FALSE;
}
#endif
#if defined(Q_WS_QWS)
/*!
This special event handler can be reimplemented in a subclass to
receive native Qt/Embedded events.
In your reimplementation of this function, if you want to stop the
event being handled by Qt, return TRUE. If you return FALSE, this
native event is passed back to Qt, which translates the event into
a Qt event and sends it to the widget.
\warning This function is not portable.
\sa QApplication::qwsEventFilter()
*/
bool QWidget::qwsEvent( QWSEvent * )
{
return FALSE;
}
#endif
/*!
\property QWidget::autoMask
\brief whether the auto mask feature is enabled for the widget
Transparent widgets use a mask to define their visible region.
QWidget has some built-in support to make the task of
recalculating the mask easier. When setting auto mask to TRUE,
updateMask() will be called whenever the widget is resized or
changes its focus state. Note that you must reimplement
updateMask() (which should include a call to setMask()) or nothing
will happen.
Note: when you re-implement resizeEvent(), focusInEvent() or
focusOutEvent() in your custom widgets and still want to ensure
that the auto mask calculation works, you should add:
\code
if ( autoMask() )
updateMask();
\endcode
at the end of your event handlers. This is true for all member
functions that change the appearance of the widget in a way that
requires a recalculation of the mask.
While being a technically appealing concept, masks have a big
drawback: when using complex masks that cannot be expressed easily
with relatively simple regions, they can be very slow on some
window systems. The classic example is a transparent label. The
complex shape of its contents makes it necessary to represent its
mask by a bitmap, which consumes both memory and time. If all you
want is to blend the background of several neighboring widgets
together seamlessly, you will probably want to use
setBackgroundOrigin() rather than a mask.
\sa autoMask() updateMask() setMask() clearMask() setBackgroundOrigin()
*/
bool QWidget::autoMask() const
{
return testWState(WState_AutoMask);
}
void QWidget::setAutoMask( bool enable )
{
if ( enable == autoMask() )
return;
if ( enable ) {
setWState(WState_AutoMask);
updateMask();
} else {
clearWState(WState_AutoMask);
clearMask();
}
}
/*!
\enum QWidget::BackgroundOrigin
This enum defines the origin used to draw a widget's background
pixmap.
The pixmap is drawn using the:
\value WidgetOrigin widget's coordinate system.
\value ParentOrigin parent's coordinate system.
\value WindowOrigin top-level window's coordinate system.
\value AncestorOrigin same origin as the parent uses.
*/
/*!
\property QWidget::backgroundOrigin
\brief the origin of the widget's background
The origin is either WidgetOrigin (the default), ParentOrigin,
WindowOrigin or AncestorOrigin.
This only makes a difference if the widget has a background
pixmap, in which case positioning matters. Using \c WindowOrigin
for several neighboring widgets makes the background blend
together seamlessly. \c AncestorOrigin allows blending backgrounds
seamlessly when an ancestor of the widget has an origin other than
\c WindowOrigin.
\sa backgroundPixmap(), setBackgroundMode()
*/
QWidget::BackgroundOrigin QWidget::backgroundOrigin() const
{
return extra ? (BackgroundOrigin)extra->bg_origin : WidgetOrigin;
}
void QWidget::setBackgroundOrigin( BackgroundOrigin origin )
{
if ( origin == backgroundOrigin() )
return;
createExtra();
extra->bg_origin = origin;
update();
}
/*!
This function can be reimplemented in a subclass to support
transparent widgets. It should be called whenever a widget changes
state in a way that means that the shape mask must be recalculated.
\sa setAutoMask(), updateMask(), setMask(), clearMask()
*/
void QWidget::updateMask()
{
}
/*!
\internal
Returns the offset of the widget from the backgroundOrigin.
\sa setBackgroundMode(), backgroundMode(),
*/
QPoint QWidget::backgroundOffset() const
{
if (!isTopLevel()) {
switch(backgroundOrigin()) {
case WidgetOrigin:
break;
case ParentOrigin:
return pos();
case WindowOrigin:
{
const QWidget *topl = this;
while(topl && !topl->isTopLevel() && !topl->testWFlags(Qt::WSubWindow))
topl = topl->parentWidget(TRUE);
return mapTo((QWidget *)topl, QPoint(0, 0) );
}
case AncestorOrigin:
{
const QWidget *topl = this;
bool ancestorIsWindowOrigin = FALSE;
while(topl && !topl->isTopLevel() && !topl->testWFlags(Qt::WSubWindow))
{
if (!ancestorIsWindowOrigin) {
if (topl->backgroundOrigin() == QWidget::WidgetOrigin)
break;
if (topl->backgroundOrigin() == QWidget::ParentOrigin)
{
topl = topl->parentWidget(TRUE);
break;
}
if (topl->backgroundOrigin() == QWidget::WindowOrigin)
ancestorIsWindowOrigin = TRUE;
}
topl = topl->parentWidget(TRUE);
}
return mapTo((QWidget *) topl, QPoint(0,0) );
}
}
}
// fall back
return QPoint(0,0);
}
/*!
\fn QLayout* QWidget::layout () const
Returns the layout engine that manages the geometry of this
widget's children.
If the widget does not have a layout, layout() returns 0.
\sa sizePolicy()
*/
/* Sets this widget to use layout \a l to manage the geometry of its
children.
If the widget already had a layout, the old layout is
forgotten. (Note that it is not deleted.)
\sa layout() QLayout sizePolicy()
*/
#ifndef QT_NO_LAYOUT
void QWidget::setLayout( QLayout *l )
{
lay_out = l;
}
#endif
/*!
\property QWidget::sizePolicy
\brief the default layout behavior of the widget
If there is a QLayout that manages this widget's children, the
size policy specified by that layout is used. If there is no such
QLayout, the result of this function is used.
The default policy is Preferred/Preferred, which means that the
widget can be freely resized, but prefers to be the size
sizeHint() returns. Button-like widgets set the size policy to
specify that they may stretch horizontally, but are fixed
vertically. The same applies to lineedit controls (such as
QLineEdit, QSpinBox or an editable QComboBox) and other
horizontally orientated widgets (such as QProgressBar).
QToolButton's are normally square, so they allow growth in both
directions. Widgets that support different directions (such as
QSlider, QScrollBar or QHeader) specify stretching in the
respective direction only. Widgets that can provide scrollbars
(usually subclasses of QScrollView) tend to specify that they can
use additional space, and that they can make do with less than
sizeHint().
\sa sizeHint() QLayout QSizePolicy updateGeometry()
*/
QSizePolicy QWidget::sizePolicy() const
{
return extra ? extra->size_policy
: QSizePolicy( QSizePolicy::Preferred, QSizePolicy::Preferred );
}
void QWidget::setSizePolicy( QSizePolicy policy )
{
setWState( WState_OwnSizePolicy );
if ( policy == sizePolicy() )
return;
createExtra();
extra->size_policy = policy;
updateGeometry();
}
/*!
\overload void QWidget::setSizePolicy( QSizePolicy::SizeType hor, QSizePolicy::SizeType ver, bool hfw )
Sets the size policy of the widget to \a hor, \a ver and \a hfw
(height for width).
\sa QSizePolicy::QSizePolicy()
*/
/*!
Returns the preferred height for this widget, given the width \a
w. The default implementation returns 0, indicating that the
preferred height does not depend on the width.
\warning Does not look at the widget's layout.
*/
int QWidget::heightForWidth( int w ) const
{
(void)w;
return 0;
}
/*!
\property QWidget::customWhatsThis
\brief whether the widget wants to handle What's This help manually
The default implementation of customWhatsThis() returns FALSE,
which means the widget will not receive any events in Whats This
mode.
The widget may leave What's This mode by calling
QWhatsThis::leaveWhatsThisMode(), with or without actually
displaying any help text.
You can also reimplement customWhatsThis() if your widget is a
"passive interactor" supposed to work under all circumstances.
Simply don't call QWhatsThis::leaveWhatsThisMode() in that case.
\sa QWhatsThis::inWhatsThisMode() QWhatsThis::leaveWhatsThisMode()
*/
bool QWidget::customWhatsThis() const
{
return FALSE;
}
/*!
Returns the visible child widget at pixel position \a (x, y) in
the widget's own coordinate system.
If \a includeThis is TRUE, and there is no child visible at \a (x,
y), the widget itself is returned.
*/
QWidget *QWidget::childAt( int x, int y, bool includeThis ) const
{
if ( !rect().contains( x, y ) )
return 0;
if ( children() ) {
QObjectListIt it( *children() );
it.toLast();
QWidget *w, *t;
while( (w=(QWidget *)it.current()) != 0 ) {
--it;
if ( w->isWidgetType() && !w->isTopLevel() && !w->isHidden() ) {
if ( ( t = w->childAt( x - w->x(), y - w->y(), TRUE ) ) )
return t;
}
}
}
if ( includeThis )
return (QWidget*)this;
return 0;
}
/*!
\overload
Returns the visible child widget at point \a p in the widget's own
coordinate system.
If \a includeThis is TRUE, and there is no child visible at \a p,
the widget itself is returned.
*/
QWidget *QWidget::childAt( const QPoint & p, bool includeThis ) const
{
return childAt( p.x(), p.y(), includeThis );
}
/*!
Notifies the layout system that this widget has changed and may
need to change geometry.
Call this function if the sizeHint() or sizePolicy() have changed.
For explicitly hidden widgets, updateGeometry() is a no-op. The
layout system will be notified as soon as the widget is shown.
*/
void QWidget::updateGeometry()
{
if ( !isTopLevel() && isShown() )
QApplication::postEvent( parentWidget(),
new QEvent( QEvent::LayoutHint ) );
}
/*!
Reparents the widget. The widget gets a new \a parent, new widget
flags (\a f, but as usual, use 0) at a new position in its new
parent (\a p).
If \a showIt is TRUE, show() is called once the widget has been
reparented.
If the new parent widget is in a different top-level widget, the
reparented widget and its children are appended to the end of the
\link setFocusPolicy() tab chain \endlink of the new parent
widget, in the same internal order as before. If one of the moved
widgets had keyboard focus, reparent() calls clearFocus() for that
widget.
If the new parent widget is in the same top-level widget as the
old parent, reparent doesn't change the tab order or keyboard
focus.
\warning It is extremely unlikely that you will ever need this
function. If you have a widget that changes its content
dynamically, it is far easier to use \l QWidgetStack or \l
QWizard.
\sa getWFlags()
*/
void QWidget::reparent( QWidget *parent, WFlags f, const QPoint &p,
bool showIt )
{
reparentSys( parent, f, p, showIt );
QEvent e( QEvent::Reparent );
QApplication::sendEvent( this, &e );
if (!own_font)
unsetFont();
else
setFont( fnt.resolve( qt_naturalWidgetFont( this ) ) );
#ifndef QT_NO_PALETTE
if (!own_palette)
unsetPalette();
#endif
}
/*!
\overload
A convenience version of reparent that does not take widget flags
as argument.
Calls reparent(\a parent, getWFlags() \& ~\l WType_Mask, \a p, \a
showIt).
*/
void QWidget::reparent( QWidget *parent, const QPoint & p,
bool showIt )
{
reparent( parent, getWFlags() & ~WType_Mask, p, showIt );
}
/*!
\property QWidget::ownCursor
\brief whether the widget uses its own cursor
If FALSE, the widget uses its parent widget's cursor.
\sa cursor
*/
/*!
\property QWidget::ownFont
\brief whether the widget uses its own font
If FALSE, the widget uses its parent widget's font.
\sa font
*/
/*!
\property QWidget::ownPalette
\brief whether the widget uses its own palette
If FALSE, the widget uses its parent widget's palette.
\sa palette
*/
void QWidget::repaint( bool erase )
{
repaint( visibleRect(), erase );
}
/*!\obsolete Use paletteBackgroundColor() or eraseColor() instead. */
const QColor & QWidget::backgroundColor() const { return eraseColor(); }
/*!\obsolete Use setPaletteBackgroundColor() or setEraseColor() instead. */
void QWidget::setBackgroundColor( const QColor &c ) { setEraseColor( c ); }
/*!\obsolete Use paletteBackgroundPixmap() or erasePixmap() instead. */
const QPixmap *QWidget::backgroundPixmap() const { return erasePixmap(); }
/*!\obsolete Use setPaletteBackgroundPixmap() or setErasePixmap() instead. */
void QWidget::setBackgroundPixmap( const QPixmap &pm ) { setErasePixmap( pm ); }
// documentation in qdesktopwidget_win.cpp
void QDesktopWidget::insertChild( QObject *obj )
{
if ( obj->isWidgetType() )
return;
QWidget::insertChild( obj );
}
/*!
\property QWidget::windowOpacity
\brief The level of opacity for the window.
The valid range of opacity is from 1.0 (completely opaque) to
0.0 (completely transparent).
By default the value of this property is 1.0.
This feature is only present on Mac OS X and Windows 2000 and up.
\warning Changing this property from opaque to transparent might issue a
paint event that needs to be processed before the window is displayed
correctly. This affects mainly the use of QPixmap::grabWindow(). Also note
that semi-transparent windows update and resize significantely slower than
opaque windows.
*/