kwin/client.cpp
Matthias Ettrich bd1e4878ba keep transients together, support various input modes, handle
wm_change_state messages properly

svn path=/trunk/kdebase/kwin/; revision=35353
1999-11-28 20:10:58 +00:00

1568 lines
36 KiB
C++

#include <qapplication.h>
#include <qcursor.h>
#include <qbitmap.h>
#include <qimage.h>
#include <qwmatrix.h>
#include <qlayout.h>
#include <qpainter.h>
#include "workspace.h"
#include "client.h"
#include "atoms.h"
#include <X11/X.h>
#include <X11/Xos.h>
#include <X11/Xlib.h>
#include <X11/Xutil.h>
#include <X11/Xatom.h>
#include <X11/extensions/shape.h>
extern Atom qt_wm_state;
static QRect* visible_bound = 0;
void Client::drawbound( const QRect& geom )
{
if ( visible_bound )
*visible_bound = geom;
else
visible_bound = new QRect( geom );
QPainter p ( workspace()->desktopWidget() );
p.setPen( QPen( Qt::white, 5 ) );
p.setRasterOp( Qt::XorROP );
p.drawRect( geom );
}
void Client::clearbound()
{
if ( !visible_bound )
return;
drawbound( *visible_bound );
delete visible_bound;
visible_bound = 0;
}
void Client::updateShape()
{
if ( shape() )
XShapeCombineShape(qt_xdisplay(), winId(), ShapeBounding,
windowWrapper()->x(), windowWrapper()->y(),
window(), ShapeBounding, ShapeSet);
else
XShapeCombineMask( qt_xdisplay(), winId(), ShapeBounding, 0, 0,
None, ShapeSet);
}
static void sendClientMessage(Window w, Atom a, long x){
XEvent ev;
long mask;
memset(&ev, 0, sizeof(ev));
ev.xclient.type = ClientMessage;
ev.xclient.window = w;
ev.xclient.message_type = a;
ev.xclient.format = 32;
ev.xclient.data.l[0] = x;
ev.xclient.data.l[1] = CurrentTime;
mask = 0L;
if (w == qt_xrootwin())
mask = SubstructureRedirectMask; /* magic! */
XSendEvent(qt_xdisplay(), w, False, mask, &ev);
}
/*!
\class WindowWrapper client.h
\brief The WindowWrapper class encapsulates a client's managed
window.
There's not much to know about this class, it's completley handled by
the abstract class Client. You get access to the window wrapper with
Client:.windowWrapper(). The big advantage of WindowWrapper is,
that you can use just like a normal QWidget, although it encapsulates
an X window that belongs to another application.
In particular, this means adding a client's windowWrapper() to a
QLayout for the geometry management. See StdClient for an example
on how to do this.
*/
WindowWrapper::WindowWrapper( WId w, Client *parent, const char* name)
: QWidget( parent, name )
{
win = w;
setMouseTracking( TRUE );
setBackgroundColor( colorGroup().background() );
// we don't want the window to be destroyed when we are destroyed
XAddToSaveSet(qt_xdisplay(), win );
// set the border width to 0
XWindowChanges wc;
wc.border_width = 0;
XConfigureWindow( qt_xdisplay(), win, CWBorderWidth, &wc );
// get the window
XReparentWindow( qt_xdisplay(), win, winId(), 0, 0 );
// // overwrite Qt-defaults because we need SubstructureNotifyMask
XSelectInput( qt_xdisplay(), winId(),
KeyPressMask | KeyReleaseMask |
ButtonPressMask | ButtonReleaseMask |
KeymapStateMask |
ButtonMotionMask |
PointerMotionMask | // need this, too!
EnterWindowMask | LeaveWindowMask |
FocusChangeMask |
ExposureMask |
StructureNotifyMask |
SubstructureRedirectMask |
SubstructureNotifyMask
);
XSelectInput( qt_xdisplay(), w,
FocusChangeMask |
PropertyChangeMask
// StructureNotifyMask
);
// install a passive grab to catch mouse button events
XGrabButton(qt_xdisplay(), AnyButton, AnyModifier, winId(), FALSE,
ButtonPressMask, GrabModeSync, GrabModeSync,
None, None );
}
WindowWrapper::~WindowWrapper()
{
releaseWindow();
}
QSize WindowWrapper::sizeHint() const
{
return size();
}
QSizePolicy WindowWrapper::sizePolicy() const
{
return QSizePolicy( QSizePolicy::Preferred, QSizePolicy::Preferred );
}
/**
Gives layout the illusion the wrapper was visible
*/
void WindowWrapper::pseudoShow()
{
clearWState( WState_ForceHide );
}
void WindowWrapper::resizeEvent( QResizeEvent * )
{
if ( win ) {
XMoveResizeWindow( qt_xdisplay(), win,
0, 0, width(), height() );
if ( ((Client*)parentWidget())->shape() )
((Client*)parentWidget())->updateShape();
}
}
void WindowWrapper::showEvent( QShowEvent* )
{
if ( win ) {
XMoveResizeWindow( qt_xdisplay(), win,
0, 0, width(), height() );
XMapRaised( qt_xdisplay(), win );
}
}
void WindowWrapper::hideEvent( QHideEvent* )
{
if ( win )
XUnmapWindow( qt_xdisplay(), win );
}
void WindowWrapper::invalidateWindow()
{
win = 0;
}
/*!
Releases the window. The client has done its job and the window is still existing.
*/
void WindowWrapper::releaseWindow()
{
if ( win ) {
XReparentWindow( qt_xdisplay(), win,
((Client*)parentWidget())->workspace()->rootWin(),
parentWidget()->x(),
parentWidget()->y() );
XRemoveFromSaveSet(qt_xdisplay(), win );
invalidateWindow();
}
}
void WindowWrapper::mousePressEvent( QMouseEvent* )
{
XAllowEvents( qt_xdisplay(), ReplayPointer, lastMouseEventTime );
}
void WindowWrapper::mouseReleaseEvent( QMouseEvent* )
{
XAllowEvents( qt_xdisplay(), ReplayPointer, lastMouseEventTime );
}
void WindowWrapper::mouseMoveEvent( QMouseEvent* )
{
//#### we sometimes get these but shouldn't..... Maybe a Qt problem
//XAllowEvents( qt_xdisplay(), ReplayPointer, lastMouseEventTime );
}
bool WindowWrapper::x11Event( XEvent * e)
{
switch ( e->type ) {
case ButtonPress:
case ButtonRelease:
lastMouseEventTime = e->xbutton.time;
if ( e->xbutton.button > 3 ) {
XAllowEvents( qt_xdisplay(), ReplayPointer, lastMouseEventTime );
return TRUE;
}
break;
case MotionNotify:
lastMouseEventTime = e->xmotion.time;
break;
default:
break;
}
return FALSE;
}
/*!
\class Client client.h
\brief The Client class encapsulates a window decoration frame.
TODO
*/
/*!
Creates a client on workspace \a ws for window \a w.
*/
Client::Client( Workspace *ws, WId w, QWidget *parent, const char *name, WFlags f )
: QWidget( parent, name, f | WStyle_Customize | WStyle_NoBorder )
{
wspace = ws;
win = w;
XWindowAttributes attr;
if (XGetWindowAttributes(qt_xdisplay(), win, &attr)){
original_geometry.setRect(attr.x, attr.y, attr.width, attr.height );
}
mapped = 0;
wwrap = new WindowWrapper( w, this );
wwrap->installEventFilter( this );
// set the initial mapping state
setMappingState( WithdrawnState );
desk = -1; // and no desktop yet
mode = Nowhere;
buttonDown = FALSE;
moveResizeMode = FALSE;
setMouseTracking( TRUE );
active = FALSE;
shaded = FALSE;
transient_for = None;
is_shape = FALSE;
is_sticky = FALSE;
getWMHints();
getWindowProtocols();
getWmNormalHints(); // get xSizeHint
fetchName();
if ( !XGetTransientForHint( qt_xdisplay(), (Window) win, (Window*) &transient_for ) )
transient_for = None;
}
/*!
Destructor, nothing special.
*/
Client::~Client()
{
releaseWindow();
}
/*!
Manages the clients. This means handling the very first maprequest:
reparenting, initial geometry, initial state, placement, etc.
*/
void Client::manage( bool isMapped )
{
layout()->setResizeMode( QLayout::Minimum );
QRect geom( original_geometry );
bool placementDone = FALSE;
if ( isMapped )
placementDone = TRUE;
else {
if ( (xSizeHint.flags & PPosition) || (xSizeHint.flags & USPosition) ) {
// support for obsolete hints
if ( xSizeHint.x != 0 && geom.x() == 0 )
geom.setRect( xSizeHint.x, geom.y(), geom.width(), geom.height() );
if ( xSizeHint.y != 0 && geom.y() == 0 )
geom.setRect( geom.x(), xSizeHint.y, geom.width(), geom.height() );
placementDone = TRUE;
}
if ( (xSizeHint.flags & USSize) || (xSizeHint.flags & PSize) ) {
if ( xSizeHint.width != 0 )
geom.setWidth( xSizeHint.width );
if ( xSizeHint.height != 0 )
geom.setHeight( xSizeHint.height );
}
if (xSizeHint.flags & PMaxSize)
geom.setSize( geom.size().boundedTo( QSize(xSizeHint.max_width, xSizeHint.max_height ) ) );
if (xSizeHint.flags & PMinSize)
geom.setSize( geom.size().expandedTo( QSize(xSizeHint.min_width, xSizeHint.min_height ) ) );
}
windowWrapper()->resize( geom.size() );
// the clever activate() trick is necessary
layout()->activate();
// resize( geom.width() + width() - windowWrapper()->width(),
// geom.height() + height() - windowWrapper()->height() );
resize ( sizeForWindowSize( geom.size() ) );
layout()->activate();
move( geom.x(), geom.y() );
gravitate( FALSE );
if ( !placementDone && transient_for ) {
// transient_for workaround for broken qt snapshot, #####
placementDone = TRUE;
}
if ( !placementDone ) {
workspace()->doPlacement( this );
placementDone = TRUE;
}
if ( (is_shape = Shape::hasShape( win )) ) {
updateShape();
}
// find out the initial state. Several possibilities exist
XWMHints * hints = XGetWMHints(qt_xdisplay(), win );
int state = NormalState;
if (hints && (hints->flags & StateHint))
state = hints->initial_state;
if (hints)
XFree(hints);
// ### TODO check XGetWMHints() for initial mapping state, icon, etc. pp.
// assume window wants to be visible on the current desktop
desk = KWM::desktop( win ); //workspace()->currentDesktop();
KWM::moveToDesktop( win, desk ); // compatibility
setMappingState( state );
if ( state == NormalState && isOnDesktop( workspace()->currentDesktop() ) ) {
show();
if ( options->focusPolicyIsReasonable() )
workspace()->requestFocus( this );
}
}
/*!
Gets the client's normal WM hints and reconfigures itself respectively.
*/
void Client::getWmNormalHints()
{
// TODO keep in mind changing of fix size! if !isWithdrawn()!
long msize;
if (XGetWMNormalHints(qt_xdisplay(), win, &xSizeHint, &msize) == 0 )
xSizeHint.flags = 0;
}
/*!
Fetches the window's caption (WM_NAME property). It will be
stored in the client's caption().
*/
void Client::fetchName()
{
char* name = 0;
if ( XFetchName( qt_xdisplay(), win, &name ) && name ) {
QString s = QString::fromLatin1( name );
if ( s != caption() ) {
setCaption( QString::fromLatin1( name ) );
if ( !isWithdrawn() )
captionChange( caption() );
}
XFree( name );
}
}
/*!
Sets the client window's mapping state. Possible values are
WithdrawnState, IconicState, NormalState.
*/
void Client::setMappingState(int s){
if ( !win)
return;
unsigned long data[2];
data[0] = (unsigned long) s;
data[1] = (unsigned long) None;
state = s;
XChangeProperty(qt_xdisplay(), win, qt_wm_state, qt_wm_state, 32,
PropModeReplace, (unsigned char *)data, 2);
}
/*!
General handler for XEvents concerning the client window
*/
bool Client::windowEvent( XEvent * e)
{
switch (e->type) {
case UnmapNotify:
if ( e->xunmap.window == winId() ) {
mapped = 0;
return FALSE;
}
return unmapNotify( e->xunmap );
case MapNotify:
if ( e->xmap.window == winId() ) {
mapped = 1;
return FALSE;
}
break;
case MapRequest:
return mapRequest( e->xmaprequest );
case ConfigureRequest:
return configureRequest( e->xconfigurerequest );
case PropertyNotify:
return propertyNotify( e->xproperty );
case ButtonPress:
case ButtonRelease:
XAllowEvents( qt_xdisplay(), e->xbutton.time, ReplayPointer );
break;
case FocusIn:
if ( e->xfocus.mode == NotifyUngrab )
break; // we don't care
if ( e->xfocus.detail == NotifyPointer )
break; // we don't care
setActive( TRUE );
break;
case FocusOut:
if ( e->xfocus.mode == NotifyGrab )
break; // we don't care
if ( isShade() )
break; // we neither
if ( e->xfocus.detail != NotifyNonlinear )
return TRUE; // hack for motif apps like netscape
setActive( FALSE );
break;
case ReparentNotify:
break;
case ClientMessage:
return clientMessage( e->xclient );
default:
break;
}
return TRUE; // we accept everything :-)
}
/*!
Handles map requests of the client window
*/
bool Client::mapRequest( XMapRequestEvent& /* e */ )
{
switch ( mappingState() ) {
case WithdrawnState:
manage();
break;
case IconicState:
show();
break;
case NormalState:
show(); // for safety
break;
}
return TRUE;
}
/*!
Handles unmap notify events of the client window
*/
bool Client::unmapNotify( XUnmapEvent& e )
{
if ( e.event != windowWrapper()->winId() && !e.send_event )
return TRUE;
switch ( mappingState() ) {
case IconicState:
// only react on sent events, all others are produced by us
if ( e.send_event )
withdraw();
break;
case NormalState:
if ( ( !mapped || !windowWrapper()->isVisibleTo( this )) && !e.send_event )
return TRUE; // this event was produced by us as well
// maybe we will be destroyed soon. Check this first.
XEvent ev;
if ( XCheckTypedWindowEvent (qt_xdisplay(), windowWrapper()->winId(),
DestroyNotify, &ev) ){
workspace()->destroyClient( this );
return TRUE;
}
// fall through
case WithdrawnState: // however that has been possible....
withdraw();
break;
}
return TRUE;
}
/*!
Withdraws the window and destroys the client afterwards
*/
void Client::withdraw()
{
setMappingState( WithdrawnState );
KWM::moveToDesktop( win, -1 ); // compatibility
releaseWindow();
workspace()->destroyClient( this );
}
/*!
Handles configure requests of the client window
*/
bool Client::configureRequest( XConfigureRequestEvent& e )
{
if ( isResize() )
return TRUE; // we have better things to do right now
if ( isShade() )
setShade( FALSE );
// compress configure requests
XEvent otherEvent;
while (XCheckTypedWindowEvent (qt_xdisplay(), win,
ConfigureRequest, &otherEvent) ) {
if (otherEvent.xconfigurerequest.value_mask == e.value_mask)
e = otherEvent.xconfigurerequest;
else {
XPutBackEvent(qt_xdisplay(), &otherEvent);
break;
}
}
if ( e.value_mask & CWBorderWidth ) {
// first, get rid of a window border
XWindowChanges wc;
unsigned int value_mask = 0;
wc.border_width = 0;
value_mask = CWBorderWidth;
XConfigureWindow( qt_xdisplay(), win, value_mask, & wc );
}
if ( e.value_mask & (CWX | CWY ) ) {
int nx = x() + windowWrapper()->x();
int ny = y() + windowWrapper()->y();
if ( e.value_mask & CWX )
nx = e.x;
if ( e.value_mask & CWY )
ny = e.y;
move( nx - windowWrapper()->x(), ny - windowWrapper()->y() );
}
if ( e.value_mask & (CWWidth | CWHeight ) ) {
int nw = windowWrapper()->width();
int nh = windowWrapper()->height();
if ( e.value_mask & CWWidth )
nw = e.width;
if ( e.value_mask & CWHeight )
nh = e.height;
resize( sizeForWindowSize( QSize( nw, nh ) ) );
}
// TODO handle stacking!
sendSynteticConfigureNotify();
return TRUE;
}
/*!
Handles property changes of the client window
*/
bool Client::propertyNotify( XPropertyEvent& e )
{
switch ( e.atom ) {
case XA_WM_NORMAL_HINTS:
getWmNormalHints();
break;
case XA_WM_NAME:
fetchName();
break;
case XA_WM_TRANSIENT_FOR:
if ( !XGetTransientForHint( qt_xdisplay(), (Window) win, (Window*) &transient_for ) )
transient_for = None;
break;
case XA_WM_HINTS:
getWMHints();
break;
default:
if ( e.atom == atoms->wm_protocols )
getWindowProtocols();
else if ( e.atom == atoms->kwm_win_icon ) {
getWMHints(); // for the icons
}
break;
}
return TRUE;
}
/*!
Handles client messages for the client window
*/
bool Client::clientMessage( XClientMessageEvent& e )
{
if ( e.message_type == atoms->wm_change_state) {
if ( e.data.l[0] == IconicState && isNormal() )
iconify();
return TRUE;
} else if ( e.message_type == atoms->net_active_window ) {
workspace()->activateClient( this );
return TRUE;
}
return FALSE;
}
/*!
Auxiliary function to inform the client about the current window
configuration.
*/
void Client::sendSynteticConfigureNotify()
{
XConfigureEvent c;
c.type = ConfigureNotify;
c.event = win;
c.window = win;
c.x = x() + windowWrapper()->x();
c.y = y() + windowWrapper()->y();
c.width = windowWrapper()->width();
c.height = windowWrapper()->height();
c.border_width = 0;
XSendEvent( qt_xdisplay(), c.event, TRUE, NoEventMask, (XEvent*)&c );
}
/*!
Adjust the frame size \a frame according to he window's size hints.
*/
QSize Client::adjustedSize( const QSize& frame) const
{
// first, get the window size for the given frame size s
QSize wsize( frame.width() - ( width() - wwrap->width() ),
frame.height() - ( height() - wwrap->height() ) );
return sizeForWindowSize( wsize );
}
/*!
Calculate the appropriate frame size for the given window size \a
wsize.
\a wsize is adapted according to the window's size hints (minimum,
maximum and incremental size changes).
*/
QSize Client::sizeForWindowSize( const QSize& wsize, bool ignore_height) const
{
int w = wsize.width();
int h = wsize.height();
if (w<1) w = 1;
if (h<1) h = 1;
int bw = 0;
int bh = 0;
if (xSizeHint.flags & PBaseSize) {
bw = xSizeHint.base_width;
bh = xSizeHint.base_height;
if (w < xSizeHint.base_width)
w = xSizeHint.base_width;
if (h < xSizeHint.base_height)
h = xSizeHint.base_height;
}
if (xSizeHint.flags & PResizeInc) {
if ( xSizeHint.width_inc > 0 ) {
int sx = (w - bw) / xSizeHint.width_inc;
w = bw + sx * xSizeHint.width_inc;
}
if ( xSizeHint.height_inc > 0 ) {
int sy = (h - bh) / xSizeHint.height_inc;
h = bh + sy * xSizeHint.height_inc;
}
}
if (xSizeHint.flags & PMaxSize) {
w = QMIN( xSizeHint.max_width, w );
h = QMIN( xSizeHint.max_height, h );
}
if (xSizeHint.flags & PMinSize) {
w = QMAX( xSizeHint.min_width, w );
h = QMAX( xSizeHint.min_height, h );
}
int ww = wwrap->width();
int wh = 0;
if ( !wwrap->testWState( WState_ForceHide ) )
wh = wwrap->height();
if ( ignore_height && wsize.height() == 0 )
h = 0;
return QSize( width() - ww + w, height()-wh+h );
// return QSize( QMIN( QMAX( width() - ww + w, minimumWidth() ),
// maximumWidth() ),
// ignore_height? height()-wh+h : (QMIN( QMAX( height() - wh + h, minimumHeight() ),
// maximumHeight() ) ) );
}
/*!
Reimplemented to provide move/resize
*/
void Client::mousePressEvent( QMouseEvent * e)
{
if ( e->button() == LeftButton ) {
if ( options->focusPolicyIsReasonable() )
workspace()->requestFocus( this );
workspace()->raiseClient( this );
mouseMoveEvent( e );
buttonDown = TRUE;
moveOffset = e->pos();
invertedMoveOffset = rect().bottomRight() - e->pos();
}
else if ( !buttonDown && e->button() == RightButton ) {
workspace()->clientPopup( this ) ->popup( e->globalPos() );
}
}
/*!
Reimplemented to provide move/resize
*/
void Client::mouseReleaseEvent( QMouseEvent * e)
{
if ( e->button() == LeftButton ) {
buttonDown = FALSE;
if ( moveResizeMode ) {
clearbound();
if ( ( isMove() && options->moveMode != Options::Opaque )
|| ( isResize() && options->resizeMode != Options::Opaque ) )
XUngrabServer( qt_xdisplay() );
setGeometry( geom );
moveResizeMode = FALSE;
releaseMouse();
}
}
}
/*!
*/
void Client::resizeEvent( QResizeEvent * e)
{
QWidget::resizeEvent( e );
}
/*!
Reimplemented to provide move/resize
*/
void Client::mouseMoveEvent( QMouseEvent * e)
{
if ( !buttonDown ) {
mode = mousePosition( e->pos() );
setMouseCursor( mode );
return;
}
if ( !moveResizeMode )
{
QPoint p( e->pos() - moveOffset );
if ( (QABS( p.x()) >= 4) || (QABS( p.y() ) >= 4 )) {
moveResizeMode = TRUE;
grabMouse( cursor() ); // to keep the right cursor
if ( ( isMove() && options->moveMode != Options::Opaque )
|| ( isResize() && options->resizeMode != Options::Opaque ) )
XGrabServer( qt_xdisplay() );
}
else
return;
}
if ( mode != Center && shaded ) {
wwrap->show();
workspace()->requestFocus( this );
shaded = FALSE;
}
QPoint globalPos = e->globalPos(); // pos() + geometry().topLeft();
QPoint p = globalPos + invertedMoveOffset;
QPoint pp = globalPos - moveOffset;
QSize mpsize( geometry().right() - pp.x() + 1, geometry().bottom() - pp.y() + 1 );
mpsize = adjustedSize( mpsize );
QPoint mp( geometry().right() - mpsize.width() + 1,
geometry().bottom() - mpsize.height() + 1 );
geom = geometry();
switch ( mode ) {
case TopLeft:
geom = QRect( mp, geometry().bottomRight() ) ;
break;
case BottomRight:
geom = QRect( geometry().topLeft(), p ) ;
break;
case BottomLeft:
geom = QRect( QPoint(mp.x(), geometry().y() ), QPoint( geometry().right(), p.y()) ) ;
break;
case TopRight:
geom = QRect( QPoint(geometry().x(), mp.y() ), QPoint( p.x(), geometry().bottom()) ) ;
break;
case Top:
geom = QRect( QPoint( geometry().left(), mp.y() ), geometry().bottomRight() ) ;
break;
case Bottom:
geom = QRect( geometry().topLeft(), QPoint( geometry().right(), p.y() ) ) ;
break;
case Left:
geom = QRect( QPoint( mp.x(), geometry().top() ), geometry().bottomRight() ) ;
break;
case Right:
geom = QRect( geometry().topLeft(), QPoint( p.x(), geometry().bottom() ) ) ;
break;
case Center:
geom.moveTopLeft( pp );
break;
default:
break;
}
if ( isResize() && geom.size() != size() ) {
if (options->resizeMode == Options::Opaque ) {
geom.setSize( adjustedSize( geom.size() ) );
setGeometry( geom );
} else if ( options->resizeMode == Options::Transparent ) {
clearbound();
drawbound( geom );
}
}
else if ( isMove() && geom.topLeft() != geometry().topLeft() ) {
geom.moveTopLeft( workspace()->adjustClientPosition( this, geom.topLeft() ) );
switch ( options->moveMode ) {
case Options::Opaque:
move( geom.topLeft() );
break;
case Options::Transparent:
clearbound();
drawbound( geom );
break;
}
}
}
/*!
Reimplemented to provide move/resize
*/
void Client::enterEvent( QEvent * )
{
}
/*!
Reimplemented to provide move/resize
*/
void Client::leaveEvent( QEvent * )
{
if ( !buttonDown )
setCursor( arrowCursor );
}
/*!
Reimplemented to inform the client about the new window position.
*/
void Client::setGeometry( int x, int y, int w, int h )
{
QWidget::setGeometry(x, y, w, h);
sendSynteticConfigureNotify();
}
/*!
Reimplemented to inform the client about the new window position.
*/
void Client::move( int x, int y )
{
QWidget::move( x, y );
sendSynteticConfigureNotify();
}
/*!\reimp
*/
void Client::showEvent( QShowEvent* )
{
setMappingState( NormalState );
windowWrapper()->show();// ########## hack for qt < 2.1
}
/*!
Reimplemented to hide the window wrapper as well. Also informs the
workspace.
*/
void Client::hideEvent( QHideEvent* )
{
windowWrapper()->hide();// ########## hack for qt < 2.1
workspace()->clientHidden( this );
}
/*!
Late initialialize the client after the window has been managed.
Ensure to call the superclasses init() implementation when subclassing.
*/
void Client::init()
{
}
/*!\fn captionChange( const QString& name )
Indicates that the caption (the window title) changed to \a
name. Subclasses shall then repaint the title string in a clever,
fast mannor. The default implementation calls repaint( FALSE );
*/
void Client::captionChange( const QString& )
{
repaint( FALSE );
}
/*!\fn activeChange( bool act )
Indicates that the activation state changed to \a act. Subclasses
may want to indicate the new state graphically in a clever, fast
mannor. The default implementation calls repaint( FALSE );
*/
void Client::activeChange( bool )
{
repaint( FALSE );
}
/*!
Indicates that the application's icon changed to \a act. Subclasses
may want to indicate the new state graphically in a clever, fast
mannor. The default implementation calls repaint( FALSE );
*/
void Client::iconChange()
{
repaint( FALSE );
}
/*!\fn maximizeChange( bool max )
Indicates that the window was maximized or demaximized. \a max is
set respectively. Subclasses may want to indicate the new state
graphically, for example with a different icon.
*/
void Client::maximizeChange( bool )
{
}
/*!\fn stickyChange( bool sticky )
Indicates that the window was made sticky or unsticky. \a sticky is
set respectively. Subclasses may want to indicate the new state
graphically, for example with a different icon.
*/
void Client::stickyChange( bool )
{
}
/*!
Paints a client window.
The default implementation does nothing. To be implemented by subclasses.
*/
void Client::paintEvent( QPaintEvent * )
{
}
/*!
Releases the window. The client has done its job and the window is still existing.
*/
void Client::releaseWindow()
{
if ( win ) {
gravitate( TRUE );
windowWrapper()->releaseWindow();
win = 0;
}
}
/*!
Invalidates the window to avoid the client accessing it again.
This function is called by the workspace when the window has been
destroyed.
*/
void Client::invalidateWindow()
{
win = 0;
windowWrapper()->invalidateWindow();
}
/*!
Returns the minimum size. This function differs from QWidget::minimumSize()
and is to be preferred
*/
QSize Client::minimumSize() const
{
return QSize( minimumWidth(), minimumHeight() );
}
/*!
Returns the minimum width. This function differs from QWidget::minimumWidth()
and is to be preferred
*/
int Client::minimumWidth() const
{
// if (xSizeHint.flags & PMinSize)
// return QMAX( width() - wwrap->width() + xSizeHint.min_width,
// QWidget::minimumWidth() );
// else
return QWidget::minimumWidth();
}
/*!
Returns the minimum height. This function differs from QWidget::minimumHeight()
and is to be preferred
*/
int Client::minimumHeight() const
{
// if (xSizeHint.flags & PMinSize)
// return QMAX( height() - wwrap->height() + xSizeHint.min_height,
// QWidget::minimumHeight() );
// else
return QWidget::minimumHeight();
}
/*!
Returns the maximum size. This function differs from QWidget::maximumSize()
and is to be preferred
*/
QSize Client::maximumSize() const
{
return QSize( maximumWidth(), maximumHeight() );
}
/*!
Returns the maximum width. This function differs from QWidget::maximumWidth()
and is to be preferred
*/
int Client::maximumWidth() const
{
// if (xSizeHint.flags & PMaxSize)
// return QMIN( width() - wwrap->width() + xSizeHint.max_width,
// QWidget::maximumWidth() );
// else
return QWidget::maximumWidth();
}
/*!
Returns the maximum height. This function differs from QWidget::maximumHeight()
and is to be preferred
*/
int Client::maximumHeight() const
{
// if (xSizeHint.flags & PMaxSize)
// return QMIN( height() - wwrap->height() + xSizeHint.max_height,
// QWidget::maximumHeight() );
// else
return QWidget::maximumHeight();
}
void Client::iconify()
{
if ( workspace()->iconifyMeansWithdraw( this ) ) {
setMappingState( WithdrawnState );
hide();
return;
}
setMappingState( IconicState );
hide();
// TODO animation (virtual function)
workspace()->iconifyOrDeiconifyTransientsOf( this );
}
void Client::closeWindow()
{
if ( Pdeletewindow ){
sendClientMessage( win, atoms->wm_protocols, atoms->wm_delete_window);
}
else {
// client will not react on wm_delete_window. We have not choice
// but destroy his connection to the XServer.
XKillClient(qt_xdisplay(), win );
workspace()->destroyClient( this );
}
}
void Client::maximize( MaximizeMode m)
{
if ( isShade() )
setShade( FALSE );
if ( geom_restore.isNull() ) {
geom_restore = geometry();
switch ( m ) {
case MaximizeVertical:
setGeometry( QRect( QPoint( x(), workspace()->geometry().top() ),
adjustedSize( QSize( width(), workspace()->geometry().height()) ) ) );
break;
case MaximizeHorizontal:
setGeometry( QRect( QPoint( workspace()->geometry().left(), y() ),
adjustedSize( QSize( workspace()->geometry().width(), height() ) ) ) );
break;
default:
setGeometry( QRect( workspace()->geometry().topLeft(), adjustedSize(workspace()->geometry().size()) ) );
}
maximizeChange( TRUE );
}
else {
setGeometry( geom_restore );
QRect invalid;
geom_restore = invalid;
maximizeChange( FALSE );
}
}
void Client::toggleSticky()
{
setSticky( !isSticky() );
}
void Client::maximize()
{
maximize( MaximizeFull );
}
void Client::fullScreen()
{
workspace()->makeFullScreen( this );
}
/*!
Catch events of the WindowWrapper
*/
bool Client::eventFilter( QObject *o, QEvent * e)
{
if ( o != wwrap )
return FALSE;
switch ( e->type() ) {
case QEvent::MouseButtonPress:
if ( options->focusPolicyIsReasonable() )
workspace()->requestFocus( this );
workspace()->raiseClient( this );
break;
case QEvent::MouseButtonRelease:
break;
case QEvent::Show:
windowWrapperShowEvent( (QShowEvent*)e );
break;
case QEvent::Hide:
windowWrapperHideEvent( (QHideEvent*)e );
break;
default:
break;
}
return FALSE;
}
void Client::gravitate( bool invert ){
int gravity, dx, dy;
dx = dy = 0;
gravity = NorthWestGravity;
if ( xSizeHint.flags & PWinGravity)
gravity = xSizeHint.win_gravity;
switch (gravity) {
case NorthWestGravity:
dx = 0;
dy = 0;
break;
case NorthGravity:
dx = -windowWrapper()->x();
dy = 0;
break;
case NorthEastGravity:
dx = -( width() - windowWrapper()->width() );
dy = 0;
break;
case WestGravity:
dx = 0;
dy = -windowWrapper()->y();
break;
case CenterGravity:
case StaticGravity:
dx = -windowWrapper()->x();
dy = -windowWrapper()->y();
break;
case EastGravity:
dx = -( width() - windowWrapper()->width() );
dy = -windowWrapper()->y();
break;
case SouthWestGravity:
dx = 0;
dy = -( height() - windowWrapper()->height() );
break;
case SouthGravity:
dx = -windowWrapper()->x();
dy = -( height() - windowWrapper()->height() );
break;
case SouthEastGravity:
dx = -( width() - windowWrapper()->width() - 1 );
dy = -( height() - windowWrapper()->height() - 1 );
break;
}
if (invert)
move( x() - dx, y() - dy );
else
move( x() + dx, y() + dy );
}
/*!
Reimplement to handle crossing events (qt should provide xroot, yroot)
*/
bool Client::x11Event( XEvent * e)
{
if ( e->type == EnterNotify ) {
if ( options->focusPolicy != Options::ClickToFocus )
workspace()->requestFocus( this );
return TRUE;
}
if ( e->type == LeaveNotify ) {
if ( !buttonDown )
setCursor( arrowCursor );
if ( options->focusPolicy == Options::FocusStricklyUnderMouse ) {
if ( isActive() && !rect().contains( QPoint( e->xcrossing.x, e->xcrossing.y ) ) )
workspace()->requestFocus( 0 ) ;
}
return TRUE;
}
return FALSE;
}
/*!
Returns a logical mouse position for the cursor position \a
p. Possible positions are: Nowhere, TopLeft , BottomRight,
BottomLeft, TopRight, Top, Bottom, Left, Right, Center
*/
Client::MousePosition Client::mousePosition( const QPoint& p ) const
{
const int range = 16;
const int border = 4;
MousePosition m = Nowhere;
if ( ( p.x() > border && p.x() < width() - border )
&& ( p.y() > border && p.y() < height() - border ) )
return Center;
if ( p.y() <= range && p.x() <= range)
m = TopLeft;
else if ( p.y() >= height()-range && p.x() >= width()-range)
m = BottomRight;
else if ( p.y() >= height()-range && p.x() <= range)
m = BottomLeft;
else if ( p.y() <= range && p.x() >= width()-range)
m = TopRight;
else if ( p.y() <= border )
m = Top;
else if ( p.y() >= height()-border )
m = Bottom;
else if ( p.x() <= border )
m = Left;
else if ( p.x() >= width()-border )
m = Right;
else
m = Center;
return m;
}
/*!
Sets an appropriate cursor shape for the logical mouse position \a m
\sa QWidget::setCursor()
*/
void Client::setMouseCursor( MousePosition m )
{
switch ( m ) {
case TopLeft:
case BottomRight:
setCursor( sizeFDiagCursor );
break;
case BottomLeft:
case TopRight:
setCursor( sizeBDiagCursor );
break;
case Top:
case Bottom:
setCursor( sizeVerCursor );
break;
case Left:
case Right:
setCursor( sizeHorCursor );
break;
default:
setCursor( arrowCursor );
break;
}
}
bool Client::isShade() const
{
return shaded;
}
void Client::setShade( bool s )
{
if ( shaded == s )
return;
shaded = s;
int as = options->animateShade()? options->animSteps() : 1;
if (shaded ) {
int h = height();
QSize s( sizeForWindowSize( QSize( windowWrapper()->width(), 0), TRUE ) );
windowWrapper()->hide();
repaint( FALSE ); // force direct repaint
setWFlags( WNorthWestGravity );
int step = QMAX( 15, QABS( h - s.height() ) / as )+1;
do {
h -= step;
resize ( s.width(), h );
QApplication::syncX();
} while ( h > s.height() + step );
clearWFlags( WNorthWestGravity );
resize (s );
} else {
int h = height();
QSize s( sizeForWindowSize( windowWrapper()->size(), TRUE ) );
setWFlags( WNorthWestGravity );
int step = QMAX( 15, QABS( h - s.height() ) / as )+1;
do {
h += step;
resize ( s.width(), h );
// assume a border
// we do not have time to wait for X to send us paint events
repaint( 0, h - step-5, width(), step+5, TRUE);
QApplication::syncX();
} while ( h < s.height() - step );
clearWFlags( WNorthWestGravity );
resize ( s );
windowWrapper()->show();
layout()->activate();
repaint();
if ( isActive() )
workspace()->requestFocus( this );
}
}
/*!
Sets the client's active state to \a act.
This function does only change the visual appearance of the client,
it does not change the focus setting. Use
Workspace::activateClient() or Workspace::requestFocus() instead.
If a client receives or looses the focus, it calls setActive() on
its own.
*/
void Client::setActive( bool act)
{
if ( active == act )
return;
active = act;
if ( active )
workspace()->setActiveClient( this );
activeChange( active );
}
/*!
Sets the window's sticky property to b
*/
void Client::setSticky( bool b )
{
if ( is_sticky == b )
return;
is_sticky = b;
if ( !is_sticky )
setDesktop( workspace()->currentDesktop() );
stickyChange( is_sticky );
}
void Client::setDesktop( int desktop)
{
if ( isOnDesktop( desktop ) )
return;
desk = desktop;
KWM::moveToDesktop( win, desk );//##### compatibility
}
void Client::getWMHints()
{
icon_pix = KWM::icon( win, 32, 32 ); // TODO sizes from workspace
miniicon_pix = KWM::miniIcon( win, 16, 16 );
if ( !isWithdrawn() )
iconChange();
input = TRUE;
XWMHints *hints = XGetWMHints(qt_xdisplay(), win );
if ( hints ) {
if ( hints->flags & InputHint )
input = hints->input;
XFree((char*)hints);
}
}
void Client::getWindowProtocols(){
Atom *p;
int i,n;
Pdeletewindow = 0;
Ptakefocus = 0;
if (XGetWMProtocols(qt_xdisplay(), win, &p, &n)){
for (i = 0; i < n; i++)
if (p[i] == atoms->wm_delete_window)
Pdeletewindow = 1;
else if (p[i] == atoms->wm_take_focus)
Ptakefocus = 1;
if (n>0)
XFree(p);
}
}
/*!
Puts the focus on this window. Clients should never calls this
themselves, instead they should use Workspace::requestFocus().
*/
void Client::takeFocus()
{
if ( input )
XSetInputFocus( qt_xdisplay(), win, RevertToPointerRoot, CurrentTime );
if ( Ptakefocus )
sendClientMessage(win, atoms->wm_protocols, atoms->wm_take_focus);
}
/*!\reimp
*/
void Client::setMask( const QRegion & reg)
{
mask = reg;
QWidget::setMask( reg );
}
/*!
Returns the main client. For normal windows, this is the window
itself. For transient windows, it is the parent.
*/
Client* Client::mainClient()
{
if ( !isTransient() )
return this;
ClientList saveset;
Client* c = this;
do {
saveset.append( c );
c = workspace()->findClient( c->transientFor() );
} while ( c && c->isTransient() && !saveset.contains( c ) );
return c?c:this;
}
NoBorderClient::NoBorderClient( Workspace *ws, WId w, QWidget *parent, const char *name )
: Client( ws, w, parent, name )
{
QHBoxLayout* h = new QHBoxLayout( this );
h->addWidget( windowWrapper() );
}
NoBorderClient::~NoBorderClient()
{
}