kwin/workspace.cpp
Matthias Ettrich 8460a9ad3e make transients sticky when their main window becomes sticky
svn path=/trunk/kdebase/kwin/; revision=37996
2000-01-10 03:47:30 +00:00

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#include <kconfig.h>
#include <kglobal.h>
#include <kglobalaccel.h>
#include <klocale.h>
#include <stdlib.h>
#include <qwhatsthis.h>
#include <kwin.h>
#include "workspace.h"
#include "client.h"
#include "stdclient.h"
#include "tabbox.h"
#include "atoms.h"
#include "plugins.h"
#include <X11/X.h>
#include <X11/Xos.h>
#include <X11/Xlib.h>
#include <X11/Xutil.h>
#include <X11/Xatom.h>
#include <X11/keysym.h>
#include <X11/keysymdef.h>
#include <X11/extensions/shape.h>
extern Time kwin_time;
// used to store the return values of
// XShapeQueryExtension.
// Necessary since shaped window are an extension to X
static int kwin_has_shape = 0;
static int kwin_shape_event = 0;
static bool block_focus = FALSE;
// does the window w need a shape combine mask around it?
bool Shape::hasShape( WId w){
int xws, yws, xbs, ybs;
unsigned wws, hws, wbs, hbs;
int boundingShaped, clipShaped;
if (!kwin_has_shape)
return FALSE;
XShapeQueryExtents(qt_xdisplay(), w,
&boundingShaped, &xws, &yws, &wws, &hws,
&clipShaped, &xbs, &ybs, &wbs, &hbs);
return boundingShaped != 0;
}
int Shape::shapeEvent()
{
return kwin_shape_event;
}
Client* Workspace::clientFactory( Workspace *ws, WId w )
{
// hack TODO hints
QString s = KWM::title( w );
if ( s == "THE DESKTOP" ) {
XLowerWindow( qt_xdisplay(), w );
Client * c = new NoBorderClient( ws, w);
c->setSticky( TRUE );
ws->setDesktopClient( c );
return c;
}
if ( s == "Kicker" ) {
Client * c = new NoBorderClient( ws, w);
c->setSticky( TRUE );
return c;
}
if ( ( s.right(6) == "[menu]" ) || ( s.right(7) == "[tools]" ) ) {
Client * c = new NoBorderClient( ws, w);
return c;
}
if ( Shape::hasShape( w ) ){
return new NoBorderClient( ws, w );
}
return(mgr.allocateClient(ws, w));
}
Workspace::Workspace()
{
root = qt_xrootwin(); // no MDI for now
(void) QApplication::desktop(); // trigger creation of desktop widget
desktop_widget = new QWidget(0, "desktop_widget", Qt::WType_Desktop | Qt::WPaintUnclipped );
// select windowmanager privileges
XSelectInput(qt_xdisplay(), root,
KeyPressMask |
PropertyChangeMask |
ColormapChangeMask |
SubstructureRedirectMask |
SubstructureNotifyMask
);
int dummy;
kwin_has_shape = XShapeQueryExtension(qt_xdisplay(), &kwin_shape_event, &dummy);
// compatibility
long data = 1;
XChangeProperty(qt_xdisplay(), qt_xrootwin(), atoms->kwm_running, atoms->kwm_running, 32,
PropModeAppend, (unsigned char*) &data, 1);
keys = 0;
grabKey(XK_Tab, Mod1Mask);
grabKey(XK_Tab, Mod1Mask | ShiftMask);
grabKey(XK_Tab, ControlMask);
grabKey(XK_Tab, ControlMask | ShiftMask);
createKeybindings();
init();
control_grab = FALSE;
tab_grab = FALSE;
mouse_emulation = FALSE;
tab_box = new TabBox( this );
}
Workspace::Workspace( WId rootwin )
{
qDebug("create MDI workspace for %d", rootwin );
root = rootwin;
// select windowmanager privileges
XSelectInput(qt_xdisplay(), root,
KeyPressMask |
PropertyChangeMask |
ColormapChangeMask |
SubstructureRedirectMask |
SubstructureNotifyMask
);
control_grab = FALSE;
tab_grab = FALSE;
tab_box = 0;
keys = 0;
init();
}
void Workspace::init()
{
tab_box = 0;
active_client = 0;
should_get_focus = 0;
desktop_client = 0;
current_desktop = 0;
number_of_desktops = 0;
popup = 0;
desk_popup = 0;
popup_client = 0;
KConfig* config = KGlobal::config();
config->setGroup("Desktops");
if (!config->hasKey("NumberOfDesktops"))
config->writeEntry("NumberOfDesktops", 4);
int n = config->readNumEntry("NumberOfDesktops");
setNumberOfDesktops( n );
setCurrentDesktop( 1 );
unsigned int i, nwins;
Window dw1, dw2, *wins;
XWindowAttributes attr;
connect(&mgr, SIGNAL(resetAllClients()), this,
SLOT(slotResetAllClients()));
XGrabServer( qt_xdisplay() );
XQueryTree(qt_xdisplay(), root, &dw1, &dw2, &wins, &nwins);
for (i = 0; i < nwins; i++) {
XGetWindowAttributes(qt_xdisplay(), wins[i], &attr);
if (attr.override_redirect )
continue;
if (attr.map_state != IsUnmapped) {
if ( addDockwin( wins[i] ) )
continue;
Client* c = clientFactory( this, wins[i] );
if ( c != desktop_client ) {
clients.append( c );
stacking_order.append( c );
}
if ( c->wantsTabFocus() )
focus_chain.append( c );
c->manage( TRUE );
if ( c == desktop_client )
setDesktopClient( c );
if ( root != qt_xrootwin() ) {
// TODO may use QWidget:.create
qDebug(" create a mdi client");
XReparentWindow( qt_xdisplay(), c->winId(), root, 0, 0 );
c->move(0,0);
}
}
}
XFree((void *) wins);
XUngrabServer( qt_xdisplay() );
propagateClients();
//CT initialize the cascading info
for( int i = 0; i < numberOfDesktops(); i++) {
CascadingInfo inf;
inf.pos = QPoint(0,0);
inf.col = 0;
inf.row = 0;
cci.append(inf);
}
}
Workspace::~Workspace()
{
if ( desktop_client ) {
WId win = desktop_client->window();
delete desktop_client;
XMapWindow( qt_xdisplay(), win );
XLowerWindow( qt_xdisplay(), win );
}
for ( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) {
WId win = (*it)->window();
delete (*it);
XMapWindow( qt_xdisplay(), win );
}
delete tab_box;
delete popup;
delete keys;
if ( root == qt_xrootwin() )
XDeleteProperty(qt_xdisplay(), qt_xrootwin(), atoms->kwm_running);
KGlobal::config()->sync();
}
/*!
Handles workspace specific XEvents
*/
bool Workspace::workspaceEvent( XEvent * e )
{
if ( mouse_emulation && e->type == ButtonPress || e->type == ButtonRelease ) {
mouse_emulation = FALSE;
XUngrabKeyboard( qt_xdisplay(), kwin_time );
}
Client * c = findClient( e->xany.window );
if ( c )
return c->windowEvent( e );
switch (e->type) {
case ButtonPress:
case ButtonRelease:
break;
case UnmapNotify:
// this is special due to
// SubstructureNotifyMask. e->xany.window is the window the
// event is reported to. Take care not to confuse Qt.
c = findClient( e->xunmap.window );
if ( c )
return c->windowEvent( e );
// check for dock windows
if ( removeDockwin( e->xunmap.window ) )
return TRUE;
if ( e->xunmap.event == root ) {
// keep track of map/unmap for own own windows to avoid
// race conditions
c = findClientWidthId( e->xunmap.window );
if ( c )
return c->windowEvent( e );
}
if ( e->xunmap.event != e->xunmap.window ) // hide wm typical event from Qt
return TRUE;
case MapNotify:
if ( e->xunmap.event == root ) {
// keep track of map/unmap for own own windows to avoid
// race conditions
c = findClientWidthId( e->xmap.window );
if ( c )
return c->windowEvent( e );
}
case ReparentNotify:
c = findClient( e->xreparent.window );
if ( c )
(void) c->windowEvent( e );
//do not confuse Qt with these events. After all, _we_ are the
//window manager who does the reparenting.
return TRUE;
case DestroyNotify:
if ( removeDockwin( e->xdestroywindow.window ) )
return TRUE;
return destroyClient( findClient( e->xdestroywindow.window ) );
case MapRequest:
c = findClient( e->xmaprequest.window );
if ( !c ) {
if ( e->xmaprequest.parent == root ) {
if ( addDockwin( e->xmaprequest.window ) )
return TRUE;
c = clientFactory( this, e->xmaprequest.window );
if ( root != qt_xrootwin() ) {
// TODO may use QWidget:.create
XReparentWindow( qt_xdisplay(), c->winId(), root, 0, 0 );
}
if ( c != desktop_client ) {
if ( c->wantsTabFocus() )
focus_chain.prepend( c );
clients.append( c );
stacking_order.append( c );
}
propagateClients();
}
}
if ( c ) {
bool result = c->windowEvent( e );
if ( c == desktop_client )
setDesktopClient( c );
return result;
}
break;
case EnterNotify:
if ( !QWhatsThis::inWhatsThisMode() )
break;
{
QWidget* w = QWidget::find( e->xcrossing.window );
if ( w && w->inherits("WindowWrapper" ) )
QWhatsThis::leaveWhatsThisMode();
}
break;
case LeaveNotify:
if ( !QWhatsThis::inWhatsThisMode() )
break;
c = findClientWidthId( e->xcrossing.window );
if ( c && e->xcrossing.detail != NotifyInferior )
QWhatsThis::leaveWhatsThisMode();
break;
case ConfigureRequest:
c = findClient( e->xconfigurerequest.window );
if ( c )
return c->windowEvent( e );
else if ( e->xconfigurerequest.parent == root ) {
XWindowChanges wc;
unsigned int value_mask = 0;
wc.border_width = 0;
wc.x = e->xconfigurerequest.x;
wc.y = e->xconfigurerequest.y;
wc.width = e->xconfigurerequest.width;
wc.height = e->xconfigurerequest.height;
wc.sibling = None;
wc.stack_mode = Above;
value_mask = e->xconfigurerequest.value_mask | CWBorderWidth;
XConfigureWindow( qt_xdisplay(), e->xconfigurerequest.window, value_mask, & wc );
return TRUE;
}
break;
case KeyPress:
if ( QWidget::keyboardGrabber() ) {
freeKeyboard( FALSE );
break;
}
if ( mouse_emulation )
return keyPressMouseEmulation( e->xkey );
return keyPress(e->xkey);
case KeyRelease:
if ( QWidget::keyboardGrabber() ) {
freeKeyboard( FALSE );
break;
}
if ( mouse_emulation )
return FALSE;
return keyRelease(e->xkey);
break;
case FocusIn:
break;
case FocusOut:
break;
case ClientMessage:
return clientMessage(e->xclient);
break;
default:
if ( e->type == Shape::shapeEvent() ) {
c = findClient( ((XShapeEvent *)e)->window );
if ( c )
c->updateShape();
}
break;
}
return FALSE;
}
bool Workspace::hasClient(Client* c)
{
for ( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) {
if ( (*it) == c )
return TRUE;
}
return FALSE;
}
/*!
Finds the client that embedds the window \a w
*/
Client* Workspace::findClient( WId w ) const
{
for ( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) {
if ( (*it)->window() == w )
return *it;
}
if ( desktop_client && w == desktop_client->window() )
return desktop_client;
return 0;
}
/*!
Finds the client with window id \a w
*/
Client* Workspace::findClientWidthId( WId w ) const
{
for ( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) {
if ( (*it)->winId() == w )
return *it;
}
return 0;
}
/*!
Returns the workspace's geometry
\sa clientArea()
*/
QRect Workspace::geometry() const
{
if ( root == qt_xrootwin() )
return QRect( QPoint(0, 0), QApplication::desktop()->size() );
else {
// todo caching, keep track of configure notify etc.
QRect r;
XWindowAttributes attr;
if (XGetWindowAttributes(qt_xdisplay(), root, &attr)){
r.setRect(0, 0, attr.width, attr.height );
}
return r;
}
}
/*!
Returns the workspace's client area.
This is the area within the geometry() where clients can be placed,
i.e. the full geometry minus space for desktop panels, taskbars,
etc.
Placement algorithms should refer to clientArea.
\sa geometry()
*/
QRect Workspace::clientArea() const
{
return geometry(); // for now
}
/*
Destroys the client \a c
*/
bool Workspace::destroyClient( Client* c)
{
if ( !c )
return FALSE;
clients.remove( c );
stacking_order.remove( c );
focus_chain.remove( c );
c->invalidateWindow();
delete c;
clientHidden( c );
if ( c == desktop_client )
desktop_client = 0;
propagateClients();
return TRUE;
}
/*!
Auxiliary function to release a passive keyboard grab
*/
void Workspace::freeKeyboard(bool pass){
if (!pass)
XAllowEvents(qt_xdisplay(), AsyncKeyboard, kwin_time);
else
XAllowEvents(qt_xdisplay(), ReplayKeyboard, kwin_time);
QApplication::syncX();
}
/*!
Handles alt-tab / control-tab
*/
bool Workspace::keyPress(XKeyEvent key)
{
if ( root != qt_xrootwin() )
return FALSE;
int kc = XKeycodeToKeysym(qt_xdisplay(), key.keycode, 0);
int km = key.state & (ControlMask | Mod1Mask | ShiftMask);
const bool options_alt_tab_mode_is_CDE_style = FALSE; // TODO
if (!control_grab){
if( (kc == XK_Tab) &&
( km == (Mod1Mask | ShiftMask)
|| km == (Mod1Mask)
)){
if (!tab_grab){
if (options_alt_tab_mode_is_CDE_style ){
// CDE style raise / lower
Client* c = topClientOnDesktop();
Client* nc = c;
if (km & ShiftMask){
do {
nc = previousStaticClient(nc);
} while (nc && nc != c &&
(!nc->isOnDesktop(currentDesktop()) ||
nc->isIconified()));
}
else
do {
nc = nextStaticClient(nc);
} while (nc && nc != c &&
(!nc->isOnDesktop(currentDesktop()) ||
nc->isIconified()));
if (c && c != nc)
;//TODO lowerClient(c);
if (nc)
activateClient( nc );
freeKeyboard(FALSE);
return TRUE;
}
XGrabKeyboard(qt_xdisplay(),
root, FALSE,
GrabModeAsync, GrabModeAsync,
kwin_time);
tab_grab = TRUE;
tab_box->setMode( TabBox::WindowsMode );
tab_box->reset();
}
tab_box->nextPrev( (km & ShiftMask) == 0 );
tab_box->show();
}
}
if (!tab_grab){
if( (kc == XK_Tab) &&
( km == (ControlMask | ShiftMask)
|| km == (ControlMask)
)){
//TODO if (!options.ControlTab){
// freeKeyboard(TRUE);
// return TRUE;
// }
if (!control_grab){
XGrabKeyboard(qt_xdisplay(),
root, FALSE,
GrabModeAsync, GrabModeAsync,
kwin_time);
control_grab = TRUE;
tab_box->setMode( TabBox::DesktopMode );
tab_box->reset();
}
tab_box->nextPrev( (km & ShiftMask) == 0 );
tab_box->show();
}
}
if (control_grab || tab_grab){
if (kc == XK_Escape){
XUngrabKeyboard(qt_xdisplay(), kwin_time);
tab_box->hide();
tab_grab = FALSE;
control_grab = FALSE;
return TRUE;
}
return FALSE;
}
freeKeyboard(FALSE);
return FALSE;
}
/*!
Handles alt-tab / control-tab
*/
bool Workspace::keyRelease(XKeyEvent key)
{
if ( root != qt_xrootwin() )
return FALSE;
int i;
if (tab_grab){
XModifierKeymap* xmk = XGetModifierMapping(qt_xdisplay());
for (i=0; i<xmk->max_keypermod; i++)
if (xmk->modifiermap[xmk->max_keypermod * Mod1MapIndex + i]
== key.keycode){
XUngrabKeyboard(qt_xdisplay(), kwin_time);
tab_box->hide();
tab_grab = false;
if ( tab_box->currentClient() ){
activateClient( tab_box->currentClient() );
}
}
}
if (control_grab){
XModifierKeymap* xmk = XGetModifierMapping(qt_xdisplay());
for (i=0; i<xmk->max_keypermod; i++)
if (xmk->modifiermap[xmk->max_keypermod * ControlMapIndex + i]
== key.keycode){
XUngrabKeyboard(qt_xdisplay(), kwin_time);
tab_box->hide();
control_grab = False;
if ( tab_box->currentDesktop() != -1 )
setCurrentDesktop( tab_box->currentDesktop() );
}
}
return FALSE;
}
/*!
auxiliary functions to travers all clients according the focus
order. Useful for kwm<77>s Alt-tab feature.
*/
Client* Workspace::nextClient( Client* c ) const
{
if ( focus_chain.isEmpty() )
return 0;
ClientList::ConstIterator it = focus_chain.find( c );
if ( it == focus_chain.end() )
return focus_chain.last();
if ( it == focus_chain.begin() )
return focus_chain.last();
--it;
return *it;
}
/*!
auxiliary functions to travers all clients according the focus
order. Useful for kwm<77>s Alt-tab feature.
*/
Client* Workspace::previousClient( Client* c ) const
{
if ( focus_chain.isEmpty() )
return 0;
ClientList::ConstIterator it = focus_chain.find( c );
if ( it == focus_chain.end() )
return focus_chain.first();
++it;
if ( it == focus_chain.end() )
return focus_chain.first();
return *it;
}
/*!
auxiliary functions to travers all clients according the static
order. Useful for the CDE-style Alt-tab feature.
*/
Client* Workspace::nextStaticClient( Client* c ) const
{
if ( clients.isEmpty() )
return 0;
ClientList::ConstIterator it = clients.find( c );
if ( it == clients.end() )
return clients.first();
++it;
if ( it == clients.end() )
return clients.first();
return *it;
}
/*!
auxiliary functions to travers all clients according the static
order. Useful for the CDE-style Alt-tab feature.
*/
Client* Workspace::previousStaticClient( Client* c ) const
{
if ( clients.isEmpty() )
return 0;
ClientList::ConstIterator it = clients.find( c );
if ( it == clients.end() )
return clients.last();
if ( it == clients.begin() )
return clients.last();
--it;
return *it;
}
/*!
Returns topmost visible client within the specified layer range on
the current desktop, or 0 if no clients are visible. \a fromLayer has to
be smaller than \a toLayer.
*/
Client* Workspace::topClientOnDesktop( int fromLayer, int toLayer) const
{
fromLayer = toLayer = 0;
return 0;
}
/*
Grabs the keysymbol \a keysym with the given modifiers \a mod
plus all possibile combinations of Lock and NumLock
*/
void Workspace::grabKey(KeySym keysym, unsigned int mod){
static int NumLockMask = 0;
if (!keysym||!XKeysymToKeycode(qt_xdisplay(), keysym)) return;
if (!NumLockMask){
XModifierKeymap* xmk = XGetModifierMapping(qt_xdisplay());
int i;
for (i=0; i<8; i++){
if (xmk->modifiermap[xmk->max_keypermod * i] ==
XKeysymToKeycode(qt_xdisplay(), XK_Num_Lock))
NumLockMask = (1<<i);
}
}
XGrabKey(qt_xdisplay(),
XKeysymToKeycode(qt_xdisplay(), keysym), mod,
qt_xrootwin(), FALSE,
GrabModeAsync, GrabModeSync);
XGrabKey(qt_xdisplay(),
XKeysymToKeycode(qt_xdisplay(), keysym), mod | LockMask,
qt_xrootwin(), FALSE,
GrabModeAsync, GrabModeSync);
XGrabKey(qt_xdisplay(),
XKeysymToKeycode(qt_xdisplay(), keysym), mod | NumLockMask,
qt_xrootwin(), FALSE,
GrabModeAsync, GrabModeSync);
XGrabKey(qt_xdisplay(),
XKeysymToKeycode(qt_xdisplay(), keysym), mod | LockMask | NumLockMask,
qt_xrootwin(), FALSE,
GrabModeAsync, GrabModeSync);
}
/*!
Informs the workspace about the active client, i.e. the client that
has the focus (or None if no client has the focus). This functions
is called by the client itself that gets focus. It has no other
effect than fixing the focus chain and the return value of
activeClient(). And of course, to propagate the active client to the
world.
*/
void Workspace::setActiveClient( Client* c )
{
if ( active_client == c )
return;
if ( active_client )
active_client->setActive( FALSE );
active_client = c;
if ( active_client ) {
focus_chain.remove( c );
if ( c->wantsTabFocus() )
focus_chain.append( c );
}
WId w = active_client? active_client->window() : 0;
XChangeProperty(qt_xdisplay(), qt_xrootwin(),
atoms->net_active_window, XA_WINDOW, 32,
PropModeReplace, (unsigned char *)&w, 1);
}
/*!
Tries to activate the client \a c. This function performs what you
expect when clicking the respective entry in a taskbar: showing and
raising the client (this may imply switching to the another virtual
desktop) and putting the focus onto it. Once X really gave focus to
the client window as requested, the client itself will call
setActiveClient() and the operation is complete. This may not happen
with certain focus policies, though.
\sa setActiveClient(), requestFocus()
*/
void Workspace::activateClient( Client* c)
{
if (!c->isOnDesktop(currentDesktop()) ) {
setCurrentDesktop( c->desktop() );
}
raiseClient( c );
c->show();
iconifyOrDeiconifyTransientsOf( c );
if ( options->focusPolicyIsReasonable() )
requestFocus( c );
}
void Workspace::iconifyOrDeiconifyTransientsOf( Client* c )
{
if ( c->isIconified() || c->isShade() ) {
for ( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) {
if ( (*it)->transientFor() == c->window()
&& !(*it)->isIconified()
&& !(*it)->isShade() ) {
(*it)->setMappingState( IconicState );
(*it)->hide();
iconifyOrDeiconifyTransientsOf( (*it) );
}
}
} else {
for ( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) {
if ( (*it)->transientFor() == c->window() && !(*it)->isVisible() ) {
(*it)->show();
iconifyOrDeiconifyTransientsOf( (*it) );
}
}
}
}
/*!
Sets the client \a c's transient windows' sticky property to \a sticky.
*/
void Workspace::setStickyTransientsOf( Client* c, bool sticky )
{
for ( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) {
if ( (*it)->transientFor() == c->window() && (*it)->isSticky() != sticky )
(*it)->setSticky( sticky );
}
}
/*!
Returns whether a client with the specified \a caption exists, or not.
*/
bool Workspace::hasCaption( const QString& caption )
{
for ( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) {
if ( (*it)->caption() == caption )
return TRUE;
}
return FALSE;
}
/*!
Tries to activate the client by asking X for the input focus. This
function does not perform any show, raise or desktop switching. See
Workspace::activateClient() instead.
\sa Workspace::activateClient()
*/
void Workspace::requestFocus( Client* c)
{
//TODO will be different for non-root clients. (subclassing?)
if ( !c ) {
focusToNull();
return;
}
if ( !popup || !popup->isVisible() )
popup_client = c;
if ( c->isVisible() && !c->isShade() ) {
c->takeFocus();
should_get_focus = c;
focus_chain.remove( c );
if ( c->wantsTabFocus() )
focus_chain.append( c );
} else if ( c->isShade() ) {
// client cannot accept focus, but at least the window should be active (window menu, et. al. )
focusToNull();
c->setActive( TRUE );
}
}
/*!
Informs the workspace that the client \a c has been hidden. If it
was the active client, the workspace activates another one.
\a c may already be destroyed
*/
void Workspace::clientHidden( Client* c )
{
if ( c == active_client || ( !active_client && c == should_get_focus ) ) {
active_client = 0;
should_get_focus = 0;
if ( clients.contains( c ) ) {
focus_chain.remove( c );
focus_chain.prepend( c );
}
if ( !block_focus && options->focusPolicyIsReasonable() ) {
for ( ClientList::ConstIterator it = focus_chain.fromLast(); it != focus_chain.begin(); --it) {
if ( (*it)->isVisible() ) {
requestFocus( *it );
break;
}
}
}
}
}
QPopupMenu* Workspace::clientPopup( Client* c )
{
popup_client = c;
if ( !popup ) {
popup = new QPopupMenu;
popup->setCheckable( TRUE );
connect( popup, SIGNAL( aboutToShow() ), this, SLOT( clientPopupAboutToShow() ) );
connect( popup, SIGNAL( activated(int) ), this, SLOT( clientPopupActivated(int) ) );
PluginMenu *deco = new PluginMenu(&mgr, popup);
desk_popup = new QPopupMenu( popup );
desk_popup->setCheckable( TRUE );
connect( desk_popup, SIGNAL( activated(int) ), this, SLOT( sendToDesktop(int) ) );
connect( desk_popup, SIGNAL( aboutToShow() ), this, SLOT( desktopPopupAboutToShow() ) );
popup->insertItem( i18n("&Move"), Options::MoveOp );
popup->insertItem( i18n("&Size"), Options::ResizeOp );
popup->insertItem( i18n("Mi&nimize"), Options::IconifyOp );
popup->insertItem( i18n("Ma&ximize"), Options::MaximizeOp );
popup->insertItem( i18n("Sh&ade"), Options::ShadeOp );
popup->insertSeparator();
popup->insertItem(i18n("&Decoration"), deco );
popup->insertItem(i18n("&To desktop"), desk_popup );
popup->insertSeparator();
QString k = KAccel::keyToString( keys->currentKey( "Window close" ), true );
popup->insertItem(i18n("&Close")+'\t'+k, Options::CloseOp );
}
return popup;
}
void Workspace::performWindowOperation( Client* c, Options::WindowOperation op ) {
if ( !c )
return;
switch ( op ) {
case Options::MoveOp:
c->performMouseCommand( Options::MouseMove, QCursor::pos() );
break;
case Options::ResizeOp:
c->performMouseCommand( Options::MouseResize, QCursor::pos() );
break;
case Options::CloseOp:
c->closeWindow();
break;
case Options::MaximizeOp:
c->maximize();
break;
case Options::IconifyOp:
c->iconify();
break;
case Options::ShadeOp:
c->setShade( !c->isShade() );
break;
default:
break;
}
}
void Workspace::clientPopupActivated( int id )
{
performWindowOperation( popup_client, (Options::WindowOperation) id );
}
/*!
Places the client \a c according to the workspace's layout policy
*/
void Workspace::doPlacement( Client* c )
{
if (options->placement == Options::Random)
randomPlacement( c );
else if (options->placement == Options::Smart)
smartPlacement( c );
else if (options->placement == Options::Cascade)
cascadePlacement( c );
}
/*!
Place the client \a c according to a simply "random" placement algorithm.
*/
void Workspace::randomPlacement(Client* c){
const int step = 24;
static int px = step;
static int py = 2 * step;
int tx,ty;
QRect maxRect = clientArea();
if (px < maxRect.x())
px = maxRect.x();
if (py < maxRect.y())
py = maxRect.y();
px += step;
py += 2*step;
if (px > maxRect.width()/2)
px = maxRect.x() + step;
if (py > maxRect.height()/2)
py = maxRect.y() + step;
tx = px;
ty = py;
if (tx + c->width() > maxRect.right()){
tx = maxRect.right() - c->width();
if (tx < 0)
tx = 0;
px = maxRect.x();
}
if (ty + c->height() > maxRect.bottom()){
ty = maxRect.bottom() - c->height();
if (ty < 0)
ty = 0;
py = maxRect.y();
}
c->move( tx, ty );
}
/*!
Place the client \a c according to a really smart placement algorithm :-)
*/
void Workspace::smartPlacement(Client* c){
/*
* SmartPlacement by Cristian Tibirna (tibirna@kde.org)
* adapted for kwm (16-19jan98) and for kwin (16Nov1999) using (with
* permission) ideas from fvwm, authored by
* Anthony Martin (amartin@engr.csulb.edu).
*/
const int none = 0, h_wrong = -1, w_wrong = -2; // overlap types
long int overlap, min_overlap;
int x_optimal, y_optimal;
int possible;
int cxl, cxr, cyt, cyb; //temp coords
int xl, xr, yt, yb; //temp coords
// get the maximum allowed windows space
QRect maxRect = clientArea();
int x = maxRect.left(), y = maxRect.top();
x_optimal = x; y_optimal = y;
//client gabarit
int ch = c->height(), cw = c->width();
bool first_pass = true; //CT lame flag. Don't like it. What else would do?
//loop over possible positions
do {
//test if enough room in x and y directions
if ( y + ch > maxRect.bottom() )
overlap = h_wrong; // this throws the algorithm to an exit
else if( x + cw > maxRect.right() )
overlap = w_wrong;
else {
overlap = none; //initialize
cxl = x; cxr = x + cw;
cyt = y; cyb = y + ch;
QValueList<Client*>::ConstIterator l;
for(l = clients.begin(); l != clients.end() ; ++l ) {
if((*l)->isOnDesktop(currentDesktop()) && (*l) != desktop_client &&
!(*l)->isIconified() && (*l) != c ) {
xl = (*l)->x(); yt = (*l)->y();
xr = xl + (*l)->width(); yb = yt + (*l)->height();
//if windows overlap, calc the overall overlapping
if((cxl < xr) && (cxr > xl) &&
(cyt < yb) && (cyb > yt)) {
xl = QMAX(cxl, xl); xr = QMIN(cxr, xr);
yt = QMAX(cyt, yt); yb = QMIN(cyb, yb);
overlap += (xr - xl) * (yb - yt);
}
}
}
}
//CT first time we get no overlap we stop.
if (overlap == none) {
x_optimal = x;
y_optimal = y;
break;
}
if (first_pass) {
first_pass = false;
min_overlap = overlap;
}
//CT save the best position and the minimum overlap up to now
else if ( overlap >= none && overlap < min_overlap) {
min_overlap = overlap;
x_optimal = x;
y_optimal = y;
}
// really need to loop? test if there's any overlap
if ( overlap > none ) {
possible = maxRect.right();
if ( possible - cw > x) possible -= cw;
// compare to the position of each client on the current desk
QValueList<Client*>::ConstIterator l;
for(l = clients.begin(); l != clients.end() ; ++l) {
if ( (*l)->isOnDesktop(currentDesktop()) && (*l) != desktop_client &&
!(*l)->isIconified() && (*l) != c ) {
xl = (*l)->x(); yt = (*l)->y();
xr = xl + (*l)->width(); yb = yt + (*l)->height();
// if not enough room above or under the current tested client
// determine the first non-overlapped x position
if( ( y < yb ) && ( yt < ch + y ) ) {
if( xr > x )
possible = possible < xr ? possible : xr;
if( xl - cw > x )
possible = possible < xl - cw ? possible : xl - cw;
}
}
}
x = possible;
}
// ... else ==> not enough x dimension (overlap was wrong on horizontal)
else if ( overlap == w_wrong ) {
x = maxRect.left();
possible = maxRect.bottom();
if ( possible - ch > y ) possible -= ch;
//test the position of each window on current desk
QValueList<Client*>::ConstIterator l;
for( l = clients.begin(); l != clients.end() ; ++l ) {
if( (*l)->isOnDesktop( currentDesktop() ) && (*l) != desktop_client &&
(*l) != c && !c->isIconified() ) {
xl = (*l)->x(); yt = (*l)->y();
xr = xl + (*l)->width(); yb = yt + (*l)->height();
if( yb > y)
possible = possible < yb ? possible : yb;
if( yt - ch > y )
possible = possible < yt - ch ? possible : yt - ch;
}
}
y = possible;
}
}
while( overlap != none && overlap != h_wrong );
// place the window
c->move( x_optimal, y_optimal );
}
/*!
Place windows in a cascading order, remembering positions for each desktop
*/
void Workspace::cascadePlacement (Client* c, bool re_init) {
/* cascadePlacement by Cristian Tibirna (tibirna@kde.org) (30Jan98)
*/
// work coords
int xp, yp;
//CT how do I get from the 'Client' class the size that NW squarish "handle"
int delta_x = 24;
int delta_y = 24;
int d = currentDesktop() - 1;
// get the maximum allowed windows space and desk's origin
// (CT 20Nov1999 - is this common to all desktops?)
QRect maxRect = clientArea();
// initialize often used vars: width and height of c; we gain speed
int ch = c->height();
int cw = c->width();
int H = maxRect.bottom();
int W = maxRect.right();
int X = maxRect.left();
int Y = maxRect.top();
//initialize if needed
if (re_init) {
cci[d].pos = QPoint(X, Y);
cci[d].col = cci[d].row = 0;
}
xp = cci[d].pos.x();
yp = cci[d].pos.y();
//here to touch in case people vote for resize on placement
if ((yp + ch ) > H) yp = Y;
if ((xp + cw ) > W)
if (!yp) {
smartPlacement(c);
return;
}
else xp = X;
//if this isn't the first window
if ( cci[d].pos.x() != X && cci[d].pos.y() != Y ) {
/* The following statements cause an internal compiler error with
* egcs-2.91.66 on SuSE Linux 6.3. The equivalent forms compile fine.
* 22-Dec-1999 CS
*
* if ( xp != X && yp == Y ) xp = delta_x * (++(cci[d].col));
* if ( yp != Y && xp == X ) yp = delta_y * (++(cci[d].row));
*/
if ( xp != X && yp == Y )
{
++(cci[d].col);
xp = delta_x * cci[d].col;
}
if ( yp != Y && xp == X )
{
++(cci[d].row);
yp = delta_y * cci[d].row;
}
// last resort: if still doesn't fit, smart place it
if ( ((xp + cw) > W - X) || ((yp + ch) > H - Y) ) {
smartPlacement(c);
return;
}
}
// place the window
c->move( QPoint( xp, yp ) );
// new position
cci[d].pos = QPoint( xp + delta_x, yp + delta_y );
}
void Workspace::deskCleanup(CleanupType ct)
{
QValueList<Client *>::Iterator it(clients.fromLast());
for (; it != clients.begin(); --it) {
QString s = KWM::title( (*it)->window() );
if (s == "Kicker" ||
s == "THE DESKTOP")
continue;
if((!(*it)->isOnDesktop(currentDesktop())) ||
((*it)->isIconified()) ||
((*it)->isSticky()) )
continue;
else {
if (ct == Cascade)
cascadePlacement(*it);
else if (ct == Unclutter)
smartPlacement(*it);
}
}
}
/*!
Raises the client \a c taking layers, transient windows and window
groups into account.
*/
void Workspace::raiseClient( Client* c )
{
if ( !c )
return;
if ( c == desktop_client )
return; // deny
stacking_order.remove( c );
stacking_order.append( c );
ClientList saveset;
if ( c->transientFor() ) {
saveset.append( c );
Client* t = findClient( c->transientFor() );
Client* tmp;
while ( t && !saveset.contains( t ) && t->transientFor() ) {
tmp = findClient( t->transientFor() );
if ( !tmp )
break;
saveset.append( t );
t = tmp;
}
if ( t && !saveset.contains( t ) && t != desktop_client ) {
raiseClient( t );
return;
}
}
saveset.clear();
saveset.append( c );
raiseTransientsOf(saveset, c );
Window* new_stack = new Window[ stacking_order.count()+1];
int i = 0;
for ( ClientList::ConstIterator it = stacking_order.fromLast(); it != stacking_order.end(); --it) {
new_stack[i++] = (*it)->winId();
}
XRaiseWindow(qt_xdisplay(), new_stack[0]);
XRestackWindows(qt_xdisplay(), new_stack, i);
delete [] new_stack;
propagateClients( TRUE );
}
/*!
Private auxiliary function used in raiseClient()
*/
void Workspace::raiseTransientsOf( ClientList& safeset, Client* c )
{
ClientList local = stacking_order;
for ( ClientList::ConstIterator it = local.begin(); it != local.end(); ++it) {
if ( (*it)->transientFor() == c->window() && !safeset.contains( *it ) ) {
safeset.append( *it );
stacking_order.remove( *it );
stacking_order.append( *it );
raiseTransientsOf( safeset, *it );
}
}
}
/*!
Puts the focus on a dummy winodw
*/
void Workspace::focusToNull(){
static Window w = 0;
int mask;
XSetWindowAttributes attr;
if (w == 0) {
mask = CWOverrideRedirect;
attr.override_redirect = 1;
w = XCreateWindow(qt_xdisplay(), qt_xrootwin(), 0, 0, 1, 1, 0, CopyFromParent,
InputOnly, CopyFromParent, mask, &attr);
XMapWindow(qt_xdisplay(), w);
}
XSetInputFocus(qt_xdisplay(), w, RevertToPointerRoot, kwin_time );
//colormapFocus(0); TODO
}
void Workspace::setDesktopClient( Client* c)
{
desktop_client = c;
if ( desktop_client ) {
desktop_client->lower();
desktop_client->setGeometry( geometry() );
}
}
/*!
Sets the current desktop to \a new_desktop
Shows/Hides windows according to the stacking order and finally
propages the new desktop to the world
*/
void Workspace::setCurrentDesktop( int new_desktop ){
if (new_desktop == current_desktop || new_desktop < 1 || new_desktop > number_of_desktops )
return;
active_client = 0;
block_focus = TRUE;
/*
optimized Desktop switching: unmapping done from back to front
mapping done from front to back => less exposure events
*/
for ( ClientList::ConstIterator it = stacking_order.fromLast(); it != stacking_order.end(); --it) {
if ( (*it)->isVisible() && !(*it)->isOnDesktop( new_desktop ) ) {
(*it)->hide();
}
}
for ( ClientList::ConstIterator it = stacking_order.begin(); it != stacking_order.end(); ++it) {
if ( (*it)->isOnDesktop( new_desktop ) && !(*it)->isIconified() ) {
(*it)->show();
}
}
current_desktop = new_desktop;
XChangeProperty(qt_xdisplay(), qt_xrootwin(),
atoms->net_current_desktop, XA_CARDINAL, 32,
PropModeReplace, (unsigned char *)&current_desktop, 1);
// restore the focus on this desktop
block_focus = FALSE;
Client* c = active_client?active_client:previousClient(0);
Client* stop = c;
while ( c && !c->isVisible() ) {
c = previousClient( c );
if ( c == stop )
break;
}
if ( !c || !c->isVisible() ) {
// there's no suitable client in the focus chain. Try to find any other client then.
for ( ClientList::ConstIterator it = stacking_order.begin(); it != stacking_order.end(); ++it) {
if ( (*it)->isVisible() ) {
c = *it;
break;
}
}
}
if ( c && c->isVisible() )
requestFocus( c );
QApplication::syncX();
KWM::switchToDesktop( current_desktop ); // ### compatibility
}
QWidget* Workspace::desktopWidget()
{
return desktop_widget;
}
/*!
Sets the number of virtual desktops to \a n
*/
void Workspace::setNumberOfDesktops( int n )
{
if ( n == number_of_desktops )
return;
number_of_desktops = n;
XChangeProperty(qt_xdisplay(), qt_xrootwin(),
atoms->net_number_of_desktops, XA_CARDINAL, 32,
PropModeReplace, (unsigned char *)&number_of_desktops, 1);
}
/*!
Handles client messages sent to the workspace
*/
bool Workspace::clientMessage( XClientMessageEvent msg )
{
if ( msg.message_type == atoms->net_current_desktop ) {
setCurrentDesktop( msg.data.l[0] );
return TRUE;
}
if (msg.message_type == atoms->kwm_command) {
char c[21];
int i;
for (i=0;i<20;i++)
c[i] = msg.data.b[i];
c[i] = '\0';
QString com = c;
if (com == "deskUnclutter") {
deskCleanup(Unclutter);
} else if (com == "deskCascade") {
deskCleanup(Cascade);
}
return TRUE;
}
return FALSE;
}
/*!
Propagates the managed clients to the world
*/
void Workspace::propagateClients( bool onlyStacking )
{
WId* cl;
int i;
if ( !onlyStacking ) {
cl = new WId[ clients.count()];
i = 0;
for ( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it ) {
cl[i++] = (*it)->window();
}
XChangeProperty(qt_xdisplay(), qt_xrootwin(),
atoms->net_client_list, XA_WINDOW, 32,
PropModeReplace, (unsigned char *)cl, clients.count());
delete [] cl;
}
cl = new WId[ stacking_order.count()];
i = 0;
for ( ClientList::ConstIterator it = stacking_order.begin(); it != stacking_order.end(); ++it) {
cl[i++] = (*it)->window();
}
XChangeProperty(qt_xdisplay(), qt_xrootwin(),
atoms->net_client_list_stacking, XA_WINDOW, 32,
PropModeReplace, (unsigned char *)cl, stacking_order.count());
delete [] cl;
}
/*!
Check whether \a w is a dock window. If so, add it to the respective
datastructures and propagate it to the world.
*/
bool Workspace::addDockwin( WId w )
{
WId dockFor = 0;
if ( !KWin::isDockWindow( w, &dockFor ) )
return FALSE;
dockwins.append( DockWindow( w, dockFor ) );
XSelectInput( qt_xdisplay(), w,
StructureNotifyMask
);
propagateDockwins();
return TRUE;
}
/*!
Check whether \a w is a dock window. If so, remove it from the
respective datastructures and propagate this to the world.
*/
bool Workspace::removeDockwin( WId w )
{
if ( !dockwins.contains( w ) )
return FALSE;
dockwins.remove( w );
propagateDockwins();
return TRUE;
}
/*!
Returns whether iconify means actually withdraw for client \a. This
is TRUE for clients that have a docking window. In that case the
docking window will serve as icon replacement.
*/
bool Workspace::iconifyMeansWithdraw( Client* c)
{
for ( DockWindowList::ConstIterator it = dockwins.begin(); it != dockwins.end(); ++it ) {
if ( (*it).dockFor == c->window() )
return TRUE;
}
return FALSE;
}
/*!
Propagates the dockwins to the world
*/
void Workspace::propagateDockwins()
{
WId* cl = new WId[ dockwins.count()];
int i = 0;
for ( DockWindowList::ConstIterator it = dockwins.begin(); it != dockwins.end(); ++it ) {
cl[i++] = (*it).dockWin;
}
XChangeProperty(qt_xdisplay(), qt_xrootwin(),
atoms->net_kde_docking_windows, XA_WINDOW, 32,
PropModeReplace, (unsigned char *)cl, dockwins.count());
delete [] cl;
}
/*!
Create the global accel object \c keys.
*/
void Workspace::createKeybindings(){
keys = new KGlobalAccel();
#include "kwinbindings.cpp"
keys->connectItem( "Switch to desktop 1", this, SLOT( slotSwitchDesktop1() ));
keys->connectItem( "Switch to desktop 2", this, SLOT( slotSwitchDesktop2() ));
keys->connectItem( "Switch to desktop 3", this, SLOT( slotSwitchDesktop3() ));
keys->connectItem( "Switch to desktop 4", this, SLOT( slotSwitchDesktop4() ));
keys->connectItem( "Switch to desktop 5", this, SLOT( slotSwitchDesktop5() ));
keys->connectItem( "Switch to desktop 6", this, SLOT( slotSwitchDesktop6() ));
keys->connectItem( "Switch to desktop 7", this, SLOT( slotSwitchDesktop7() ));
keys->connectItem( "Switch to desktop 8", this, SLOT( slotSwitchDesktop8() ));
keys->connectItem( "Pop-up window operations menu", this, SLOT( slotWindowOperations() ) );
keys->connectItem( "Window close", this, SLOT( slotWindowClose() ) );
keys->connectItem( "Window maximize", this, SLOT( slotWindowMaximize() ) );
keys->connectItem( "Window maximize horizontal", this, SLOT( slotWindowMaximizeHorizontal() ) );
keys->connectItem( "Window maximize vertical", this, SLOT( slotWindowMaximizeVertical() ) );
keys->connectItem( "Window iconify", this, SLOT( slotWindowIconify() ) );
keys->connectItem( "Window shade", this, SLOT( slotWindowShade() ) );
keys->connectItem( "Window move", this, SLOT( slotWindowMove() ) );
keys->connectItem( "Window resize", this, SLOT( slotWindowResize() ) );
keys->connectItem( "Mouse emulation", this, SLOT( slotMouseEmulation() ) );
keys->readSettings();
}
void Workspace::slotSwitchDesktop1(){
setCurrentDesktop(1);
}
void Workspace::slotSwitchDesktop2(){
setCurrentDesktop(2);
}
void Workspace::slotSwitchDesktop3(){
setCurrentDesktop(3);
}
void Workspace::slotSwitchDesktop4(){
setCurrentDesktop(4);
}
void Workspace::slotSwitchDesktop5(){
setCurrentDesktop(5);
}
void Workspace::slotSwitchDesktop6(){
setCurrentDesktop(6);
}
void Workspace::slotSwitchDesktop7(){
setCurrentDesktop(7);
}
void Workspace::slotSwitchDesktop8(){
setCurrentDesktop(8);
}
/*!
Maximizes the popup client
*/
void Workspace::slotWindowMaximize()
{
if ( popup_client )
popup_client->maximize( Client::MaximizeFull );
}
/*!
Maximizes the popup client vertically
*/
void Workspace::slotWindowMaximizeVertical()
{
if ( popup_client )
popup_client->maximize( Client::MaximizeVertical );
}
/*!
Maximizes the popup client horiozontally
*/
void Workspace::slotWindowMaximizeHorizontal()
{
if ( popup_client )
popup_client->maximize( Client::MaximizeHorizontal );
}
/*!
Iconifies the popup client
*/
void Workspace::slotWindowIconify()
{
performWindowOperation( popup_client, Options::IconifyOp );
}
/*!
Shades/unshades the popup client respectively
*/
void Workspace::slotWindowShade()
{
performWindowOperation( popup_client, Options::ShadeOp );
}
/*!
Invokes keyboard mouse emulation
*/
void Workspace::slotMouseEmulation()
{
if ( XGrabKeyboard(qt_xdisplay(),
root, FALSE,
GrabModeAsync, GrabModeAsync,
kwin_time) == GrabSuccess ) {
mouse_emulation = TRUE;
}
}
/*!
Adjusts the desktop popup to the current values and the location of
the popup client.
*/
void Workspace::desktopPopupAboutToShow()
{
if ( !desk_popup )
return;
desk_popup->clear();
desk_popup->insertItem( i18n("&All desktops"), 0 );
if ( popup_client->isSticky() )
desk_popup->setItemChecked( 0, TRUE );
int id;
for ( int i = 1; i <= numberOfDesktops(); i++ ) {
id = desk_popup->insertItem( QString("&")+QString::number(i ), i );
if ( popup_client && !popup_client->isSticky() && popup_client->desktop() == i )
desk_popup->setItemChecked( id, TRUE );
}
}
/*!
The client popup menu will become visible soon.
Adjust the items according to the respective popup client.
*/
void Workspace::clientPopupAboutToShow()
{
if ( !popup_client || !popup )
return;
popup->setItemChecked( Options::MaximizeOp, popup_client->isMaximized() );
popup->setItemChecked( Options::ShadeOp, popup_client->isShade() );
}
/*!
Sends the activeClient() to desktop \a desk
*/
void Workspace::sendToDesktop( int desk )
{
if ( !popup_client )
return;
if ( desk == 0 ) {
popup_client->setSticky( !popup_client->isSticky() );
return;
}
if ( popup_client->isSticky() )
popup_client->setSticky( FALSE );
if ( popup_client->isOnDesktop( desk ) )
return;
popup_client->setDesktop( desk );
popup_client->hide();
Client* old = popup_client;
for ( ClientList::ConstIterator it = clients.begin(); it != clients.end(); ++it) {
if ( (*it)->transientFor() == popup_client->window() ) {
popup_client = *it;
sendToDesktop( desk );
popup_client = old;
}
}
}
/*!
Shows the window operations popup menu for the activeClient()
*/
void Workspace::slotWindowOperations()
{
if ( !active_client )
return;
QPopupMenu* p = clientPopup( active_client );
p->popup( active_client->mapToGlobal( active_client->windowWrapper()->geometry().topLeft() ) );
}
/*!
Closes the popup client
*/
void Workspace::slotWindowClose()
{
performWindowOperation( popup_client, Options::CloseOp );
}
/*!
Starts keyboard move mode for the popup client
*/
void Workspace::slotWindowMove()
{
performWindowOperation( popup_client, Options::MoveOp );
}
/*!
Starts keyboard resize mode for the popup client
*/
void Workspace::slotWindowResize()
{
performWindowOperation( popup_client, Options::ResizeOp );
}
/*!
Client \a c is moved around to position \a pos. This gives the
workspace the opportunity to interveniate and to implement
snap-to-windows functionality.
*/
QPoint Workspace::adjustClientPosition( Client* c, QPoint pos )
{
//CT 16mar98, 27May98 - magics: BorderSnapZone, WindowSnapZone
//CT adapted for kwin on 25Nov1999
if (options->windowSnapZone() || options->borderSnapZone()) {
int snap; //snap trigger
QRect maxRect = clientArea();
int xmin = maxRect.left();
int xmax = maxRect.right(); //desk size
int ymin = maxRect.top();
int ymax = maxRect.bottom();
int cx, cy, rx, ry, cw, ch; //these don't change
int nx, ny; //buffers
int deltaX = xmax, deltaY = ymax; //minimum distance to other clients
int lx, ly, lrx, lry; //coords and size for the comparison client, l
nx = cx = pos.x();
ny = cy = pos.y();
rx = cx + (cw = c->width());
ry = cy + (ch = c->height());
// border snap
snap = options->borderSnapZone();
if (snap) {
if ( QABS(cx-xmin) < snap ){
deltaX = QABS(cx - xmin);
nx = xmin;
}
if ((QABS(xmax-rx) < snap) && (QABS(xmax-rx) < deltaX)) {
deltaX = abs(xmax-rx);
nx = xmax - cw;
}
if ( QABS(cy-ymin) < snap ){
deltaY = QABS(cy-ymin);
ny = ymin;
}
if ((QABS(ymax-ry) < snap) && (QABS(ymax-ry) < deltaY)) {
deltaY = QABS(ymax-ry);
ny = ymax - ch;
}
}
// windows snap
snap = options->windowSnapZone();
if (snap) {
QValueList<Client *>::ConstIterator l;
for (l = clients.begin();l != clients.end();++l ) {
if((*l)->isOnDesktop(currentDesktop()) && (*l) != desktop_client &&
!(*l)->isIconified() && (*l)->transientFor() == None &&
(*l) != c ) {
lx = (*l)->x();
ly = (*l)->y();
lrx = lx + (*l)->width();
lry = ly + (*l)->height();
if( ( ( cy <= lry ) && ( cy >= ly ) ) ||
( ( ry >= ly ) && ( ry <= lry ) ) ||
( ( ly >= cy ) && ( lry <= ry ) ) ) {
if ( ( QABS( lrx - cx ) < snap ) &&
( QABS( lrx -cx ) < deltaX ) ) {
deltaX = QABS( lrx - cx );
nx = lrx;
}
if ( ( QABS( rx - lx ) < snap ) &&
( QABS( rx - lx ) < deltaX ) ) {
deltaX = abs(rx - lx);
nx = lx - cw;
}
}
if( ( ( cx <= lrx ) && ( cx >= lx ) ) ||
( ( rx >= lx ) && ( rx <= lrx ) ) ||
( ( lx >= cx ) && ( lrx <= rx ) ) ) {
if ( ( QABS( lry - cy ) < snap ) &&
( QABS( lry -cy ) < deltaY ) ) {
deltaY = QABS( lry - cy );
ny = lry;
}
if ( ( QABS( ry-ly ) < snap ) &&
( QABS( ry - ly ) < deltaY ) ) {
deltaY = QABS( ry - ly );
ny = ly - ch;
}
}
}
}
}
pos = QPoint(nx, ny);
}
return pos;
}
/*!
Handles keypress event during mouse emulation
*/
bool Workspace::keyPressMouseEmulation( XKeyEvent key )
{
if ( root != qt_xrootwin() )
return FALSE;
int kc = XKeycodeToKeysym(qt_xdisplay(), key.keycode, 0);
int km = key.state & (ControlMask | Mod1Mask | ShiftMask);
bool is_control = km & ControlMask;
bool is_alt = km & Mod1Mask;
int delta = is_control?1:is_alt?32:8;
QPoint pos = QCursor::pos();
switch ( kc ) {
case XK_Left:
case XK_KP_Left:
pos.rx() -= delta;
break;
case XK_Right:
case XK_KP_Right:
pos.rx() += delta;
break;
case XK_Up:
case XK_KP_Up:
pos.ry() -= delta;
break;
case XK_Down:
case XK_KP_Down:
pos.ry() += delta;
break;
case XK_Return:
case XK_space:
case XK_KP_Enter:
case XK_KP_Space:
{
Window root;
Window child = qt_xrootwin();
int root_x, root_y, lx, ly;
uint state;
Window w;
Client * c = 0;
do {
w = child;
if (!c)
c = findClientWidthId( w );
XQueryPointer( qt_xdisplay(), w, &root, &child,
&root_x, &root_y, &lx, &ly, &state );
} while ( child != None && child != w );
if ( c && !c->isActive() )
activateClient( c );
QWidget* widget = QWidget::find( w );
if ( (!widget || widget->inherits("QToolButton") ) && !findClient( w ) ) {
XButtonEvent e;
e.type = ButtonPress;
e.window = w;
e.root = qt_xrootwin();
e.subwindow = w;
e.time = kwin_time;
e.x = lx;
e.y = ly;
e.x_root = root_x;
e.y_root = root_y;
e.state = key.state;
e.button = Button1;
XSendEvent( qt_xdisplay(), w, TRUE, ButtonPressMask, (XEvent*)&e );
e.type = ButtonRelease;
e.state = key.state & Button1Mask;
XSendEvent( qt_xdisplay(), w, TRUE, ButtonReleaseMask, (XEvent*)&e );
}
}
// fall through
case XK_Escape:
XUngrabKeyboard(qt_xdisplay(), kwin_time);
mouse_emulation = FALSE;
return TRUE;
default:
return FALSE;
}
QCursor::setPos( pos );
return TRUE;
}
void Workspace::slotResetAllClients()
{
for (ClientList::Iterator it = clients.begin(); it != clients.end(); ++it) {
Client *oldClient = (*it);
WId w = oldClient->window();
bool mapped = oldClient->isVisible();
oldClient->hide();
oldClient->releaseWindow();
// Replace oldClient with newClient in all lists
Client *newClient = clientFactory (this, w);
(*it) = newClient;
ClientList::Iterator jt = stacking_order.find (oldClient);
//assert (jt != stacking_order.end());
(*jt) = newClient;
jt = focus_chain.find (oldClient);
//assert (jt != focus_chain.end());
(*jt) = newClient;
// Delete the old, display the new
delete oldClient;
newClient->manage (mapped);
}
}