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kwin/events.cpp
Martin Gräßlin 0a7e48f7aa KWin uses kdelibs coding style.
2011-01-31 20:07:03 +01:00

1718 lines
64 KiB
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/********************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 1999, 2000 Matthias Ettrich <ettrich@kde.org>
Copyright (C) 2003 Lubos Lunak <l.lunak@kde.org>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*********************************************************************/
/*
This file contains things relevant to handling incoming events.
*/
#include <config-X11.h>
#include "client.h"
#include "workspace.h"
#include "atoms.h"
#include "tabbox.h"
#include "group.h"
#include "rules.h"
#include "unmanaged.h"
#include "scene.h"
#include "effects.h"
#include <QWhatsThis>
#include <QApplication>
#include <kkeyserver.h>
#include <X11/extensions/shape.h>
#include <X11/Xatom.h>
#include <QX11Info>
#ifdef HAVE_XRANDR
#include <X11/extensions/Xrandr.h>
#endif
#include <kephal/screens.h>
namespace KWin
{
extern int currentRefreshRate();
// ****************************************
// WinInfo
// ****************************************
WinInfo::WinInfo(Client * c, Display * display, Window window,
Window rwin, const unsigned long pr[], int pr_size)
: NETWinInfo2(display, window, rwin, pr, pr_size, NET::WindowManager), m_client(c)
{
}
void WinInfo::changeDesktop(int desktop)
{
m_client->workspace()->sendClientToDesktop(m_client, desktop, true);
}
void WinInfo::changeFullscreenMonitors(NETFullscreenMonitors topology)
{
m_client->updateFullscreenMonitors(topology);
}
void WinInfo::changeState(unsigned long state, unsigned long mask)
{
mask &= ~NET::Sticky; // KWin doesn't support large desktops, ignore
mask &= ~NET::Hidden; // clients are not allowed to change this directly
state &= mask; // for safety, clear all other bits
if ((mask & NET::FullScreen) != 0 && (state & NET::FullScreen) == 0)
m_client->setFullScreen(false, false);
if ((mask & NET::Max) == NET::Max)
m_client->setMaximize(state & NET::MaxVert, state & NET::MaxHoriz);
else if (mask & NET::MaxVert)
m_client->setMaximize(state & NET::MaxVert, m_client->maximizeMode() & Client::MaximizeHorizontal);
else if (mask & NET::MaxHoriz)
m_client->setMaximize(m_client->maximizeMode() & Client::MaximizeVertical, state & NET::MaxHoriz);
if (mask & NET::Shaded)
m_client->setShade(state & NET::Shaded ? ShadeNormal : ShadeNone);
if (mask & NET::KeepAbove)
m_client->setKeepAbove((state & NET::KeepAbove) != 0);
if (mask & NET::KeepBelow)
m_client->setKeepBelow((state & NET::KeepBelow) != 0);
if (mask & NET::SkipTaskbar)
m_client->setSkipTaskbar((state & NET::SkipTaskbar) != 0, true);
if (mask & NET::SkipPager)
m_client->setSkipPager((state & NET::SkipPager) != 0);
if (mask & NET::DemandsAttention)
m_client->demandAttention((state & NET::DemandsAttention) != 0);
if (mask & NET::Modal)
m_client->setModal((state & NET::Modal) != 0);
// unsetting fullscreen first, setting it last (because e.g. maximize works only for !isFullScreen() )
if ((mask & NET::FullScreen) != 0 && (state & NET::FullScreen) != 0)
m_client->setFullScreen(true, false);
}
void WinInfo::disable()
{
m_client = NULL; // only used when the object is passed to Deleted
}
// ****************************************
// RootInfo
// ****************************************
RootInfo::RootInfo(Workspace* ws, Display *dpy, Window w, const char *name, unsigned long pr[], int pr_num, int scr)
: NETRootInfo(dpy, w, name, pr, pr_num, scr)
{
workspace = ws;
}
void RootInfo::changeNumberOfDesktops(int n)
{
workspace->setNumberOfDesktops(n);
}
void RootInfo::changeCurrentDesktop(int d)
{
workspace->setCurrentDesktop(d);
}
void RootInfo::changeActiveWindow(Window w, NET::RequestSource src, Time timestamp, Window active_window)
{
if (Client* c = workspace->findClient(WindowMatchPredicate(w))) {
if (timestamp == CurrentTime)
timestamp = c->userTime();
if (src != NET::FromApplication && src != FromTool)
src = NET::FromTool;
if (src == NET::FromTool)
workspace->activateClient(c, true); // force
else { // NET::FromApplication
Client* c2;
if (workspace->allowClientActivation(c, timestamp, false, true))
workspace->activateClient(c);
// if activation of the requestor's window would be allowed, allow activation too
else if (active_window != None
&& (c2 = workspace->findClient(WindowMatchPredicate(active_window))) != NULL
&& workspace->allowClientActivation(c2,
timestampCompare(timestamp, c2->userTime() > 0 ? timestamp : c2->userTime()), false, true)) {
workspace->activateClient(c);
} else
c->demandAttention();
}
}
}
void RootInfo::restackWindow(Window w, RequestSource src, Window above, int detail, Time timestamp)
{
if (Client* c = workspace->findClient(WindowMatchPredicate(w))) {
if (timestamp == CurrentTime)
timestamp = c->userTime();
if (src != NET::FromApplication && src != FromTool)
src = NET::FromTool;
c->restackWindow(above, detail, src, timestamp, true);
}
}
void RootInfo::gotTakeActivity(Window w, Time timestamp, long flags)
{
if (Client* c = workspace->findClient(WindowMatchPredicate(w)))
workspace->handleTakeActivity(c, timestamp, flags);
}
void RootInfo::closeWindow(Window w)
{
Client* c = workspace->findClient(WindowMatchPredicate(w));
if (c)
c->closeWindow();
}
void RootInfo::moveResize(Window w, int x_root, int y_root, unsigned long direction)
{
Client* c = workspace->findClient(WindowMatchPredicate(w));
if (c) {
updateXTime(); // otherwise grabbing may have old timestamp - this message should include timestamp
c->NETMoveResize(x_root, y_root, (Direction)direction);
}
}
void RootInfo::moveResizeWindow(Window w, int flags, int x, int y, int width, int height)
{
Client* c = workspace->findClient(WindowMatchPredicate(w));
if (c)
c->NETMoveResizeWindow(flags, x, y, width, height);
}
void RootInfo::gotPing(Window w, Time timestamp)
{
if (Client* c = workspace->findClient(WindowMatchPredicate(w)))
c->gotPing(timestamp);
}
void RootInfo::changeShowingDesktop(bool showing)
{
workspace->setShowingDesktop(showing);
}
// ****************************************
// Workspace
// ****************************************
/*!
Handles workspace specific XEvents
*/
bool Workspace::workspaceEvent(XEvent * e)
{
if (mouse_emulation && (e->type == ButtonPress || e->type == ButtonRelease)) {
mouse_emulation = false;
ungrabXKeyboard();
}
if (effects && static_cast< EffectsHandlerImpl* >(effects)->hasKeyboardGrab()
&& (e->type == KeyPress || e->type == KeyRelease))
return false; // let Qt process it, it'll be intercepted again in eventFilter()
if (e->type == PropertyNotify || e->type == ClientMessage) {
unsigned long dirty[ NETRootInfo::PROPERTIES_SIZE ];
rootInfo->event(e, dirty, NETRootInfo::PROPERTIES_SIZE);
if (dirty[ NETRootInfo::PROTOCOLS ] & NET::DesktopNames)
saveDesktopSettings();
if (dirty[ NETRootInfo::PROTOCOLS2 ] & NET::WM2DesktopLayout)
updateDesktopLayout();
}
// events that should be handled before Clients can get them
switch(e->type) {
case ButtonPress:
case ButtonRelease:
was_user_interaction = true;
// fallthrough
case MotionNotify:
if (tab_grab || control_grab) {
tab_box->handleMouseEvent(e);
return true;
}
if (effects && static_cast<EffectsHandlerImpl*>(effects)->checkInputWindowEvent(e))
return true;
break;
case KeyPress: {
was_user_interaction = true;
int keyQt;
KKeyServer::xEventToQt(e, &keyQt);
// kDebug(125) << "Workspace::keyPress( " << keyQt << " )";
if (movingClient) {
movingClient->keyPressEvent(keyQt);
return true;
}
if (tab_grab || control_grab) {
tabBoxKeyPress(keyQt);
return true;
}
break;
}
case KeyRelease:
was_user_interaction = true;
if (tab_grab || control_grab) {
tabBoxKeyRelease(e->xkey);
return true;
}
break;
case ConfigureNotify:
if (e->xconfigure.event == rootWindow())
x_stacking_dirty = true;
break;
};
if (Client* c = findClient(WindowMatchPredicate(e->xany.window))) {
if (c->windowEvent(e))
return true;
} else if (Client* c = findClient(WrapperIdMatchPredicate(e->xany.window))) {
if (c->windowEvent(e))
return true;
} else if (Client* c = findClient(FrameIdMatchPredicate(e->xany.window))) {
if (c->windowEvent(e))
return true;
} else if (Unmanaged* c = findUnmanaged(WindowMatchPredicate(e->xany.window))) {
if (c->windowEvent(e))
return true;
} else {
Window special = findSpecialEventWindow(e);
if (special != None)
if (Client* c = findClient(WindowMatchPredicate(special))) {
if (c->windowEvent(e))
return true;
}
// We want to pass root window property events to effects
if (e->type == PropertyNotify && e->xany.window == rootWindow() && effects) {
XPropertyEvent* re = &e->xproperty;
static_cast< EffectsHandlerImpl* >(effects)->propertyNotify(NULL, re->atom);
}
}
if (movingClient != NULL && movingClient->moveResizeGrabWindow() == e->xany.window
&& (e->type == MotionNotify || e->type == ButtonPress || e->type == ButtonRelease)) {
if (movingClient->windowEvent(e))
return true;
}
switch(e->type) {
case CreateNotify:
if (e->xcreatewindow.parent == rootWindow() &&
!QWidget::find(e->xcreatewindow.window) &&
!e->xcreatewindow.override_redirect) {
// see comments for allowClientActivation()
Time t = xTime();
XChangeProperty(display(), e->xcreatewindow.window,
atoms->kde_net_wm_user_creation_time, XA_CARDINAL,
32, PropModeReplace, (unsigned char *)&t, 1);
}
break;
case UnmapNotify: {
return (e->xunmap.event != e->xunmap.window); // hide wm typical event from Qt
}
case ReparentNotify: {
//do not confuse Qt with these events. After all, _we_ are the
//window manager who does the reparenting.
return true;
}
case DestroyNotify: {
return false;
}
case MapRequest: {
updateXTime();
// e->xmaprequest.window is different from e->xany.window
// TODO this shouldn't be necessary now
Client* c = findClient(WindowMatchPredicate(e->xmaprequest.window));
if (!c) {
// don't check for the parent being the root window, this breaks when some app unmaps
// a window, changes something and immediately maps it back, without giving KWin
// a chance to reparent it back to root
// since KWin can get MapRequest only for root window children and
// children of WindowWrapper (=clients), the check is AFAIK useless anyway
// Note: Now the save-set support in Client::mapRequestEvent() actually requires that
// this code doesn't check the parent to be root.
// if ( e->xmaprequest.parent == root ) {
c = createClient(e->xmaprequest.window, false);
if (c == NULL) // refused to manage, simply map it (most probably override redirect)
XMapRaised(display(), e->xmaprequest.window);
return true;
}
if (c) {
c->windowEvent(e);
updateFocusChains(c, FocusChainUpdate);
return true;
}
break;
}
case MapNotify: {
if (e->xmap.override_redirect) {
Unmanaged* c = findUnmanaged(WindowMatchPredicate(e->xmap.window));
if (c == NULL)
c = createUnmanaged(e->xmap.window);
if (c)
return c->windowEvent(e);
}
return (e->xmap.event != e->xmap.window); // hide wm typical event from Qt
}
case EnterNotify: {
if (QWhatsThis::inWhatsThisMode()) {
QWidget* w = QWidget::find(e->xcrossing.window);
if (w)
QWhatsThis::leaveWhatsThisMode();
}
if (electricBorderEvent(e))
return true;
break;
}
case LeaveNotify: {
if (!QWhatsThis::inWhatsThisMode())
break;
// TODO is this cliente ever found, given that client events are searched above?
Client* c = findClient(FrameIdMatchPredicate(e->xcrossing.window));
if (c && e->xcrossing.detail != NotifyInferior)
QWhatsThis::leaveWhatsThisMode();
break;
}
case ConfigureRequest: {
if (e->xconfigurerequest.parent == rootWindow()) {
XWindowChanges wc;
wc.border_width = e->xconfigurerequest.border_width;
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;
unsigned int value_mask = e->xconfigurerequest.value_mask
& (CWX | CWY | CWWidth | CWHeight | CWBorderWidth);
XConfigureWindow(display(), e->xconfigurerequest.window, value_mask, &wc);
return true;
}
break;
}
case KeyPress:
if (mouse_emulation)
return keyPressMouseEmulation(e->xkey);
break;
case KeyRelease:
if (mouse_emulation)
return false;
break;
case FocusIn:
if (e->xfocus.window == rootWindow()
&& (e->xfocus.detail == NotifyDetailNone || e->xfocus.detail == NotifyPointerRoot)) {
updateXTime(); // focusToNull() uses xTime(), which is old now (FocusIn has no timestamp)
Window focus;
int revert;
XGetInputFocus(display(), &focus, &revert);
if (focus == None || focus == PointerRoot) {
//kWarning( 1212 ) << "X focus set to None/PointerRoot, reseting focus" ;
Client *c = mostRecentlyActivatedClient();
if (c != NULL)
requestFocus(c, true);
else if (activateNextClient(NULL))
; // ok, activated
else
focusToNull();
}
}
// fall through
case FocusOut:
return true; // always eat these, they would tell Qt that KWin is the active app
case ClientMessage:
if (electricBorderEvent(e))
return true;
break;
case Expose:
if (compositing()
&& (e->xexpose.window == rootWindow() // root window needs repainting
|| (overlay != None && e->xexpose.window == overlay))) { // overlay needs repainting
addRepaint(e->xexpose.x, e->xexpose.y, e->xexpose.width, e->xexpose.height);
}
break;
case VisibilityNotify:
if (compositing() && overlay != None && e->xvisibility.window == overlay) {
bool was_visible = overlay_visible;
overlay_visible = (e->xvisibility.state != VisibilityFullyObscured);
if (!was_visible && overlay_visible) {
// hack for #154825
addRepaintFull();
QTimer::singleShot(2000, this, SLOT(addRepaintFull()));
}
checkCompositeTimer();
}
break;
default:
if (e->type == Extensions::randrNotifyEvent() && Extensions::randrAvailable()) {
#ifdef HAVE_XRANDR
XRRUpdateConfiguration(e);
#endif
if (compositing()) {
// desktopResized() should take care of when the size or
// shape of the desktop has changed, but we also want to
// catch refresh rate changes
if (xrrRefreshRate != currentRefreshRate())
compositeResetTimer.start(0);
}
} else if (e->type == Extensions::syncAlarmNotifyEvent() && Extensions::syncAvailable()) {
#ifdef HAVE_XSYNC
foreach (Client * c, clients)
c->syncEvent(reinterpret_cast< XSyncAlarmNotifyEvent* >(e));
foreach (Client * c, desktops)
c->syncEvent(reinterpret_cast< XSyncAlarmNotifyEvent* >(e));
#endif
}
break;
}
return false;
}
// Used only to filter events that need to be processed by Qt first
// (e.g. keyboard input to be composed), otherwise events are
// handle by the XEvent filter above
bool Workspace::workspaceEvent(QEvent* e)
{
if ((e->type() == QEvent::KeyPress || e->type() == QEvent::KeyRelease || e->type() == QEvent::ShortcutOverride)
&& effects && static_cast< EffectsHandlerImpl* >(effects)->hasKeyboardGrab()) {
static_cast< EffectsHandlerImpl* >(effects)->grabbedKeyboardEvent(static_cast< QKeyEvent* >(e));
return true;
}
return false;
}
// Some events don't have the actual window which caused the event
// as e->xany.window (e.g. ConfigureRequest), but as some other
// field in the XEvent structure.
Window Workspace::findSpecialEventWindow(XEvent* e)
{
switch(e->type) {
case CreateNotify:
return e->xcreatewindow.window;
case DestroyNotify:
return e->xdestroywindow.window;
case UnmapNotify:
return e->xunmap.window;
case MapNotify:
return e->xmap.window;
case MapRequest:
return e->xmaprequest.window;
case ReparentNotify:
return e->xreparent.window;
case ConfigureNotify:
return e->xconfigure.window;
case GravityNotify:
return e->xgravity.window;
case ConfigureRequest:
return e->xconfigurerequest.window;
case CirculateNotify:
return e->xcirculate.window;
case CirculateRequest:
return e->xcirculaterequest.window;
default:
return None;
};
}
// ****************************************
// Client
// ****************************************
/*!
General handler for XEvents concerning the client window
*/
bool Client::windowEvent(XEvent* e)
{
if (e->xany.window == window()) { // avoid doing stuff on frame or wrapper
unsigned long dirty[ 2 ];
double old_opacity = opacity();
info->event(e, dirty, 2); // pass through the NET stuff
if ((dirty[ WinInfo::PROTOCOLS ] & NET::WMName) != 0)
fetchName();
if ((dirty[ WinInfo::PROTOCOLS ] & NET::WMIconName) != 0)
fetchIconicName();
if ((dirty[ WinInfo::PROTOCOLS ] & NET::WMStrut) != 0
|| (dirty[ WinInfo::PROTOCOLS2 ] & NET::WM2ExtendedStrut) != 0) {
if (isTopMenu()) // the fallback mode of KMenuBar may alter the strut
checkWorkspacePosition(); // restore it
workspace()->updateClientArea();
}
if ((dirty[ WinInfo::PROTOCOLS ] & NET::WMIcon) != 0)
getIcons();
// Note there's a difference between userTime() and info->userTime()
// info->userTime() is the value of the property, userTime() also includes
// updates of the time done by KWin (ButtonPress on windowrapper etc.).
if ((dirty[ WinInfo::PROTOCOLS2 ] & NET::WM2UserTime) != 0) {
workspace()->setWasUserInteraction();
updateUserTime(info->userTime());
}
if ((dirty[ WinInfo::PROTOCOLS2 ] & NET::WM2StartupId) != 0)
startupIdChanged();
if (dirty[ WinInfo::PROTOCOLS ] & NET::WMIconGeometry) {
if (demandAttentionKNotifyTimer != NULL)
demandAttentionKNotify();
}
if (dirty[ WinInfo::PROTOCOLS2 ] & NET::WM2Opacity) {
if (compositing()) {
addRepaintFull();
scene->windowOpacityChanged(this);
if (effects)
static_cast<EffectsHandlerImpl*>(effects)->windowOpacityChanged(effectWindow(), old_opacity);
} else {
// forward to the frame if there's possibly another compositing manager running
NETWinInfo2 i(display(), frameId(), rootWindow(), 0);
i.setOpacity(info->opacity());
}
}
if (dirty[ WinInfo::PROTOCOLS2 ] & NET::WM2FrameOverlap) {
// ### Inform the decoration
}
}
switch(e->type) {
case UnmapNotify:
unmapNotifyEvent(&e->xunmap);
break;
case DestroyNotify:
destroyNotifyEvent(&e->xdestroywindow);
break;
case MapRequest:
// this one may pass the event to workspace
return mapRequestEvent(&e->xmaprequest);
case ConfigureRequest:
configureRequestEvent(&e->xconfigurerequest);
break;
case PropertyNotify:
propertyNotifyEvent(&e->xproperty);
break;
case KeyPress:
updateUserTime();
workspace()->setWasUserInteraction();
break;
case ButtonPress:
updateUserTime();
workspace()->setWasUserInteraction();
buttonPressEvent(e->xbutton.window, e->xbutton.button, e->xbutton.state,
e->xbutton.x, e->xbutton.y, e->xbutton.x_root, e->xbutton.y_root);
break;
case KeyRelease:
// don't update user time on releases
// e.g. if the user presses Alt+F2, the Alt release
// would appear as user input to the currently active window
break;
case ButtonRelease:
// don't update user time on releases
// e.g. if the user presses Alt+F2, the Alt release
// would appear as user input to the currently active window
buttonReleaseEvent(e->xbutton.window, e->xbutton.button, e->xbutton.state,
e->xbutton.x, e->xbutton.y, e->xbutton.x_root, e->xbutton.y_root);
break;
case MotionNotify:
motionNotifyEvent(e->xmotion.window, e->xmotion.state,
e->xmotion.x, e->xmotion.y, e->xmotion.x_root, e->xmotion.y_root);
workspace()->updateFocusMousePosition(QPoint(e->xmotion.x_root, e->xmotion.y_root));
break;
case EnterNotify:
enterNotifyEvent(&e->xcrossing);
// MotionNotify is guaranteed to be generated only if the mouse
// move start and ends in the window; for cases when it only
// starts or only ends there, Enter/LeaveNotify are generated.
// Fake a MotionEvent in such cases to make handle of mouse
// events simpler (Qt does that too).
motionNotifyEvent(e->xcrossing.window, e->xcrossing.state,
e->xcrossing.x, e->xcrossing.y, e->xcrossing.x_root, e->xcrossing.y_root);
workspace()->updateFocusMousePosition(QPoint(e->xcrossing.x_root, e->xcrossing.y_root));
break;
case LeaveNotify:
motionNotifyEvent(e->xcrossing.window, e->xcrossing.state,
e->xcrossing.x, e->xcrossing.y, e->xcrossing.x_root, e->xcrossing.y_root);
leaveNotifyEvent(&e->xcrossing);
// not here, it'd break following enter notify handling
// workspace()->updateFocusMousePosition( QPoint( e->xcrossing.x_root, e->xcrossing.y_root ));
break;
case FocusIn:
focusInEvent(&e->xfocus);
break;
case FocusOut:
focusOutEvent(&e->xfocus);
break;
case ReparentNotify:
break;
case ClientMessage:
clientMessageEvent(&e->xclient);
break;
case ColormapChangeMask:
if (e->xany.window == window()) {
cmap = e->xcolormap.colormap;
if (isActive())
workspace()->updateColormap();
}
break;
default:
if (e->xany.window == window()) {
if (e->type == Extensions::shapeNotifyEvent()) {
detectShape(window()); // workaround for #19644
updateShape();
}
}
if (e->xany.window == frameId()) {
#ifdef HAVE_XDAMAGE
if (e->type == Extensions::damageNotifyEvent())
damageNotifyEvent(reinterpret_cast< XDamageNotifyEvent* >(e));
#endif
}
break;
}
return true; // eat all events
}
/*!
Handles map requests of the client window
*/
bool Client::mapRequestEvent(XMapRequestEvent* e)
{
if (e->window != window()) {
// Special support for the save-set feature, which is a bit broken.
// If there's a window from one client embedded in another one,
// e.g. using XEMBED, and the embedder suddenly loses its X connection,
// save-set will reparent the embedded window to its closest ancestor
// that will remains. Unfortunately, with reparenting window managers,
// this is not the root window, but the frame (or in KWin's case,
// it's the wrapper for the client window). In this case,
// the wrapper will get ReparentNotify for a window it won't know,
// which will be ignored, and then it gets MapRequest, as save-set
// always maps. Returning true here means that Workspace::workspaceEvent()
// will handle this MapRequest and manage this window (i.e. act as if
// it was reparented to root window).
if (e->parent == wrapperId())
return false;
return true; // no messing with frame etc.
}
if (isTopMenu() && workspace()->managingTopMenus())
return true; // kwin controls these
// also copied in clientMessage()
if (isMinimized())
unminimize();
if (isShade())
setShade(ShadeNone);
if (!isOnCurrentDesktop()) {
if (workspace()->allowClientActivation(this))
workspace()->activateClient(this);
else
demandAttention();
}
return true;
}
/*!
Handles unmap notify events of the client window
*/
void Client::unmapNotifyEvent(XUnmapEvent* e)
{
if (e->window != window())
return;
if (e->event != wrapperId()) {
// most probably event from root window when initially reparenting
bool ignore = true;
if (e->event == rootWindow() && e->send_event)
ignore = false; // XWithdrawWindow()
if (ignore)
return;
}
releaseWindow();
}
void Client::destroyNotifyEvent(XDestroyWindowEvent* e)
{
if (e->window != window())
return;
destroyClient();
}
/*!
Handles client messages for the client window
*/
void Client::clientMessageEvent(XClientMessageEvent* e)
{
if (e->window != window())
return; // ignore frame/wrapper
// WM_STATE
if (e->message_type == atoms->kde_wm_change_state) {
if (isTopMenu() && workspace()->managingTopMenus())
return; // kwin controls these
bool avoid_animation = (e->data.l[ 1 ]);
if (e->data.l[ 0 ] == IconicState)
minimize();
else if (e->data.l[ 0 ] == NormalState) {
// copied from mapRequest()
if (isMinimized())
unminimize(avoid_animation);
if (isShade())
setShade(ShadeNone);
if (!isOnCurrentDesktop()) {
if (workspace()->allowClientActivation(this))
workspace()->activateClient(this);
else
demandAttention();
}
}
} else if (e->message_type == atoms->wm_change_state) {
if (isTopMenu() && workspace()->managingTopMenus())
return; // kwin controls these
if (e->data.l[0] == IconicState)
minimize();
return;
}
}
/*!
Handles configure requests of the client window
*/
void Client::configureRequestEvent(XConfigureRequestEvent* e)
{
if (e->window != window())
return; // ignore frame/wrapper
if (isResize() || isMove())
return; // we have better things to do right now
if (fullscreen_mode == FullScreenNormal) { // refuse resizing of fullscreen windows
// but allow resizing fullscreen hacks in order to let them cancel fullscreen mode
sendSyntheticConfigureNotify();
return;
}
if (isSplash() // no manipulations with splashscreens either
|| isTopMenu()) { // topmenus neither
sendSyntheticConfigureNotify();
return;
}
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(display(), window(), value_mask, & wc);
}
if (e->value_mask & (CWX | CWY | CWHeight | CWWidth))
configureRequest(e->value_mask, e->x, e->y, e->width, e->height, 0, false);
if (e->value_mask & CWStackMode)
restackWindow(e->above, e->detail, NET::FromApplication, userTime(), false);
// Sending a synthetic configure notify always is fine, even in cases where
// the ICCCM doesn't require this - it can be though of as 'the WM decided to move
// the window later'. The client should not cause that many configure request,
// so this should not have any significant impact. With user moving/resizing
// the it should be optimized though (see also Client::setGeometry()/plainResize()/move()).
sendSyntheticConfigureNotify();
// SELI TODO accept configure requests for isDesktop windows (because kdesktop
// may get XRANDR resize event before kwin), but check it's still at the bottom?
}
/*!
Handles property changes of the client window
*/
void Client::propertyNotifyEvent(XPropertyEvent* e)
{
Toplevel::propertyNotifyEvent(e);
if (e->window != window())
return; // ignore frame/wrapper
switch(e->atom) {
case XA_WM_NORMAL_HINTS:
getWmNormalHints();
break;
case XA_WM_NAME:
fetchName();
break;
case XA_WM_ICON_NAME:
fetchIconicName();
break;
case XA_WM_TRANSIENT_FOR:
readTransient();
break;
case XA_WM_HINTS:
getWMHints();
getIcons(); // because KWin::icon() uses WMHints as fallback
break;
default:
if (e->atom == atoms->wm_protocols)
getWindowProtocols();
else if (e->atom == atoms->motif_wm_hints)
getMotifHints();
else if (e->atom == atoms->net_wm_sync_request_counter)
getSyncCounter();
else if (e->atom == atoms->activities)
checkActivities();
break;
}
}
void Client::enterNotifyEvent(XCrossingEvent* e)
{
if (e->window != frameId())
return; // care only about entering the whole frame
if (e->mode == NotifyNormal ||
(!options->focusPolicyIsReasonable() &&
e->mode == NotifyUngrab)) {
if (options->shadeHover) {
cancelShadeHoverTimer();
if (isShade()) {
shadeHoverTimer = new QTimer(this);
connect(shadeHoverTimer, SIGNAL(timeout()), this, SLOT(shadeHover()));
shadeHoverTimer->setSingleShot(true);
shadeHoverTimer->start(options->shadeHoverInterval);
}
}
if (options->focusPolicy == Options::ClickToFocus)
return;
if (options->autoRaise && !isDesktop() &&
!isDock() && !isTopMenu() && workspace()->focusChangeEnabled() &&
workspace()->topClientOnDesktop(workspace()->currentDesktop(),
options->separateScreenFocus ? screen() : -1) != this) {
delete autoRaiseTimer;
autoRaiseTimer = new QTimer(this);
connect(autoRaiseTimer, SIGNAL(timeout()), this, SLOT(autoRaise()));
autoRaiseTimer->setSingleShot(true);
autoRaiseTimer->start(options->autoRaiseInterval);
}
QPoint currentPos(e->x_root, e->y_root);
if (options->focusPolicy != Options::FocusStrictlyUnderMouse && (isDesktop() || isDock() || isTopMenu()))
return;
// for FocusFollowsMouse, change focus only if the mouse has actually been moved, not if the focus
// change came because of window changes (e.g. closing a window) - #92290
if (options->focusPolicy != Options::FocusFollowsMouse
|| currentPos != workspace()->focusMousePosition()) {
if (options->delayFocus)
workspace()->requestDelayFocus(this);
else
workspace()->requestFocus(this);
}
return;
}
}
void Client::leaveNotifyEvent(XCrossingEvent* e)
{
if (e->window != frameId())
return; // care only about leaving the whole frame
if (e->mode == NotifyNormal) {
if (!buttonDown) {
mode = PositionCenter;
updateCursor();
}
bool lostMouse = !rect().contains(QPoint(e->x, e->y));
// 'lostMouse' wouldn't work with e.g. B2 or Keramik, which have non-rectangular decorations
// (i.e. the LeaveNotify event comes before leaving the rect and no LeaveNotify event
// comes after leaving the rect) - so lets check if the pointer is really outside the window
// TODO this still sucks if a window appears above this one - it should lose the mouse
// if this window is another client, but not if it's a popup ... maybe after KDE3.1 :(
// (repeat after me 'AARGHL!')
if (!lostMouse && e->detail != NotifyInferior) {
int d1, d2, d3, d4;
unsigned int d5;
Window w, child;
if (XQueryPointer(display(), frameId(), &w, &child, &d1, &d2, &d3, &d4, &d5) == False
|| child == None)
lostMouse = true; // really lost the mouse
}
if (lostMouse) {
cancelAutoRaise();
workspace()->cancelDelayFocus();
cancelShadeHoverTimer();
if (shade_mode == ShadeHover && !moveResizeMode && !buttonDown) {
shadeHoverTimer = new QTimer(this);
connect(shadeHoverTimer, SIGNAL(timeout()), this, SLOT(shadeUnhover()));
shadeHoverTimer->setSingleShot(true);
shadeHoverTimer->start(options->shadeHoverInterval);
}
}
if (options->focusPolicy == Options::FocusStrictlyUnderMouse)
if (isActive() && lostMouse)
workspace()->requestFocus(0) ;
return;
}
}
#define XCapL KKeyServer::modXLock()
#define XNumL KKeyServer::modXNumLock()
#define XScrL KKeyServer::modXScrollLock()
void Client::grabButton(int modifier)
{
unsigned int mods[ 8 ] = {
0, XCapL, XNumL, XNumL | XCapL,
XScrL, XScrL | XCapL,
XScrL | XNumL, XScrL | XNumL | XCapL
};
for (int i = 0;
i < 8;
++i)
XGrabButton(display(), AnyButton,
modifier | mods[ i ],
wrapperId(), false, ButtonPressMask,
GrabModeSync, GrabModeAsync, None, None);
}
void Client::ungrabButton(int modifier)
{
unsigned int mods[ 8 ] = {
0, XCapL, XNumL, XNumL | XCapL,
XScrL, XScrL | XCapL,
XScrL | XNumL, XScrL | XNumL | XCapL
};
for (int i = 0;
i < 8;
++i)
XUngrabButton(display(), AnyButton,
modifier | mods[ i ], wrapperId());
}
#undef XCapL
#undef XNumL
#undef XScrL
/*
Releases the passive grab for some modifier combinations when a
window becomes active. This helps broken X programs that
missinterpret LeaveNotify events in grab mode to work properly
(Motif, AWT, Tk, ...)
*/
void Client::updateMouseGrab()
{
if (workspace()->globalShortcutsDisabled()) {
XUngrabButton(display(), AnyButton, AnyModifier, wrapperId());
// keep grab for the simple click without modifiers if needed (see below)
bool not_obscured = workspace()->topClientOnDesktop(workspace()->currentDesktop(), -1, true, false) == this;
if (!(!options->clickRaise || not_obscured))
grabButton(None);
return;
}
if (isActive() && !workspace()->forcedGlobalMouseGrab()) { // see Workspace::establishTabBoxGrab()
// first grab all modifier combinations
XGrabButton(display(), AnyButton, AnyModifier, wrapperId(), false,
ButtonPressMask,
GrabModeSync, GrabModeAsync,
None, None);
// remove the grab for no modifiers only if the window
// is unobscured or if the user doesn't want click raise
// (it is unobscured if it the topmost in the unconstrained stacking order, i.e. it is
// the most recently raised window)
bool not_obscured = workspace()->topClientOnDesktop(workspace()->currentDesktop(), -1, true, false) == this;
if (!options->clickRaise || not_obscured)
ungrabButton(None);
else
grabButton(None);
ungrabButton(ShiftMask);
ungrabButton(ControlMask);
ungrabButton(ControlMask | ShiftMask);
} else {
XUngrabButton(display(), AnyButton, AnyModifier, wrapperId());
// simply grab all modifier combinations
XGrabButton(display(), AnyButton, AnyModifier, wrapperId(), false,
ButtonPressMask,
GrabModeSync, GrabModeAsync,
None, None);
}
}
// Qt propagates mouse events up the widget hierachy, which means events
// for the decoration window cannot be (easily) intercepted as X11 events
bool Client::eventFilter(QObject* o, QEvent* e)
{
if (decoration == NULL
|| o != decoration->widget())
return false;
if (e->type() == QEvent::MouseButtonPress) {
QMouseEvent* ev = static_cast< QMouseEvent* >(e);
return buttonPressEvent(decorationId(), qtToX11Button(ev->button()), qtToX11State(ev->buttons(), ev->modifiers()),
ev->x(), ev->y(), ev->globalX(), ev->globalY());
}
if (e->type() == QEvent::MouseButtonRelease) {
QMouseEvent* ev = static_cast< QMouseEvent* >(e);
return buttonReleaseEvent(decorationId(), qtToX11Button(ev->button()), qtToX11State(ev->buttons(), ev->modifiers()),
ev->x(), ev->y(), ev->globalX(), ev->globalY());
}
if (e->type() == QEvent::MouseMove) { // FRAME i fake z enter/leave?
QMouseEvent* ev = static_cast< QMouseEvent* >(e);
return motionNotifyEvent(decorationId(), qtToX11State(ev->buttons(), ev->modifiers()),
ev->x(), ev->y(), ev->globalX(), ev->globalY());
}
if (e->type() == QEvent::Wheel) {
QWheelEvent* ev = static_cast< QWheelEvent* >(e);
bool r = buttonPressEvent(decorationId(), ev->delta() > 0 ? Button4 : Button5, qtToX11State(ev->buttons(), ev->modifiers()),
ev->x(), ev->y(), ev->globalX(), ev->globalY());
r = r || buttonReleaseEvent(decorationId(), ev->delta() > 0 ? Button4 : Button5, qtToX11State(ev->buttons(), ev->modifiers()),
ev->x(), ev->y(), ev->globalX(), ev->globalY());
return r;
}
if (e->type() == QEvent::Resize) {
QResizeEvent* ev = static_cast< QResizeEvent* >(e);
// Filter out resize events that inform about size different than frame size.
// This will ensure that decoration->width() etc. and decoration->widget()->width() will be in sync.
// These events only seem to be delayed events from initial resizing before show() was called
// on the decoration widget.
if (ev->size() != (size() + QSize(padding_left + padding_right, padding_top + padding_bottom)))
return true;
// HACK: Avoid decoration redraw delays. On resize Qt sets WA_WStateConfigPending
// which delays all painting until a matching ConfigureNotify event comes.
// But this process itself is the window manager, so it's not needed
// to wait for that event, the geometry is known.
// Note that if Qt in the future changes how this flag is handled and what it
// triggers then this may potentionally break things. See mainly QETWidget::translateConfigEvent().
decoration->widget()->setAttribute(Qt::WA_WState_ConfigPending, false);
decoration->widget()->update();
return false;
}
return false;
}
// return value matters only when filtering events before decoration gets them
bool Client::buttonPressEvent(Window w, int button, int state, int x, int y, int x_root, int y_root)
{
if (buttonDown) {
if (w == wrapperId())
XAllowEvents(display(), SyncPointer, CurrentTime); //xTime());
return true;
}
if (w == wrapperId() || w == frameId() || w == decorationId()) {
// FRAME neco s tohohle by se melo zpracovat, nez to dostane dekorace
updateUserTime();
workspace()->setWasUserInteraction();
uint keyModX = (options->keyCmdAllModKey() == Qt::Key_Meta) ?
KKeyServer::modXMeta() :
KKeyServer::modXAlt();
bool bModKeyHeld = keyModX != 0 && (state & KKeyServer::accelModMaskX()) == keyModX;
if (isSplash()
&& button == Button1 && !bModKeyHeld) {
// hide splashwindow if the user clicks on it
hideClient(true);
if (w == wrapperId())
XAllowEvents(display(), SyncPointer, CurrentTime); //xTime());
return true;
}
Options::MouseCommand com = Options::MouseNothing;
bool was_action = false;
bool perform_handled = false;
if (bModKeyHeld) {
was_action = true;
switch(button) {
case Button1:
com = options->commandAll1();
break;
case Button2:
com = options->commandAll2();
break;
case Button3:
com = options->commandAll3();
break;
case Button4:
case Button5:
com = options->operationWindowMouseWheel(button == Button4 ? 120 : -120);
break;
}
} else {
// inactive inner window
if (!isActive() && w == wrapperId() && button < 6) {
was_action = true;
perform_handled = true;
switch(button) {
case Button1:
com = options->commandWindow1();
break;
case Button2:
com = options->commandWindow2();
break;
case Button3:
com = options->commandWindow3();
break;
case Button4:
case Button5:
com = options->commandWindowWheel();
break;
}
}
// active inner window
if (isActive() && w == wrapperId()
&& options->clickRaise && button < 4) { // exclude wheel
com = Options::MouseActivateRaiseAndPassClick;
was_action = true;
perform_handled = true;
}
}
if (was_action) {
bool replay = performMouseCommand(com, QPoint(x_root, y_root), perform_handled);
if (isSpecialWindow())
replay = true;
if (w == wrapperId()) // these can come only from a grab
XAllowEvents(display(), replay ? ReplayPointer : SyncPointer, CurrentTime); //xTime());
return true;
}
}
if (w == wrapperId()) { // these can come only from a grab
XAllowEvents(display(), ReplayPointer, CurrentTime); //xTime());
return true;
}
if (w == decorationId()) {
if (dynamic_cast<KDecorationUnstable*>(decoration))
// New API processes core events FIRST and only passes unused ones to the decoration
return processDecorationButtonPress(button, state, x, y, x_root, y_root, true);
else
return false; // Don't eat old API decoration events
}
if (w == frameId())
processDecorationButtonPress(button, state, x, y, x_root, y_root);
return true;
}
// this function processes button press events only after decoration decides not to handle them,
// unlike buttonPressEvent(), which (when the window is decoration) filters events before decoration gets them
bool Client::processDecorationButtonPress(int button, int /*state*/, int x, int y, int x_root, int y_root,
bool ignoreMenu)
{
Options::MouseCommand com = Options::MouseNothing;
bool active = isActive();
if (!wantsInput()) // we cannot be active, use it anyway
active = true;
if (button == Button1)
com = active ? options->commandActiveTitlebar1() : options->commandInactiveTitlebar1();
else if (button == Button2)
com = active ? options->commandActiveTitlebar2() : options->commandInactiveTitlebar2();
else if (button == Button3)
com = active ? options->commandActiveTitlebar3() : options->commandInactiveTitlebar3();
if (button == Button1
&& com != Options::MouseOperationsMenu // actions where it's not possible to get the matching
&& com != Options::MouseMinimize // mouse release event
&& com != Options::MouseClientGroupDrag) {
mode = mousePosition(QPoint(x, y));
buttonDown = true;
moveOffset = QPoint(x - padding_left, y - padding_top);
invertedMoveOffset = rect().bottomRight() - moveOffset;
unrestrictedMoveResize = false;
startDelayedMoveResize();
updateCursor();
}
// In the new API the decoration may process the menu action to display an inactive tab's menu.
// If the event is unhandled then the core will create one for the active window in the group.
if (!ignoreMenu || com != Options::MouseOperationsMenu)
performMouseCommand(com, QPoint(x_root, y_root));
return !( // Return events that should be passed to the decoration in the new API
com == Options::MouseRaise ||
com == Options::MouseOperationsMenu ||
com == Options::MouseActivateAndRaise ||
com == Options::MouseActivate ||
com == Options::MouseActivateRaiseAndPassClick ||
com == Options::MouseActivateAndPassClick ||
com == Options::MouseClientGroupDrag ||
com == Options::MouseNothing);
}
// called from decoration
void Client::processMousePressEvent(QMouseEvent* e)
{
if (e->type() != QEvent::MouseButtonPress) {
kWarning(1212) << "processMousePressEvent()" ;
return;
}
int button;
switch(e->button()) {
case Qt::LeftButton:
button = Button1;
break;
case Qt::MidButton:
button = Button2;
break;
case Qt::RightButton:
button = Button3;
break;
default:
return;
}
processDecorationButtonPress(button, e->buttons(), e->x(), e->y(), e->globalX(), e->globalY());
}
// return value matters only when filtering events before decoration gets them
bool Client::buttonReleaseEvent(Window w, int /*button*/, int state, int x, int y, int x_root, int y_root)
{
if (w == decorationId() && !buttonDown)
return false;
if (w == wrapperId()) {
XAllowEvents(display(), SyncPointer, CurrentTime); //xTime());
return true;
}
if (w != frameId() && w != decorationId() && w != moveResizeGrabWindow())
return true;
x = this->x(); // translate from grab window to local coords
y = this->y();
if ((state & (Button1Mask & Button2Mask & Button3Mask)) == 0) {
buttonDown = false;
stopDelayedMoveResize();
if (moveResizeMode) {
finishMoveResize(false);
// mouse position is still relative to old Client position, adjust it
QPoint mousepos(x_root - x + padding_left, y_root - y + padding_top);
mode = mousePosition(mousepos);
} else if (workspace()->decorationSupportsClientGrouping())
return false;
updateCursor();
}
return true;
}
static bool was_motion = false;
static Time next_motion_time = CurrentTime;
// Check whole incoming X queue for MotionNotify events
// checking whole queue is done by always returning False in the predicate.
// If there are more MotionNotify events in the queue, all until the last
// one may be safely discarded (if a ButtonRelease event comes, a MotionNotify
// will be faked from it, so there's no need to check other events).
// This helps avoiding being overloaded by being flooded from many events
// from the XServer.
static Bool motion_predicate(Display*, XEvent* ev, XPointer)
{
if (ev->type == MotionNotify) {
was_motion = true;
next_motion_time = ev->xmotion.time; // for setting time
}
return False;
}
static bool waitingMotionEvent()
{
// The queue doesn't need to be checked until the X timestamp
// of processes events reaches the timestamp of the last suitable
// MotionNotify event in the queue.
if (next_motion_time != CurrentTime
&& timestampCompare(xTime(), next_motion_time) < 0)
return true;
was_motion = false;
XSync(display(), False); // this helps to discard more MotionNotify events
XEvent dummy;
XCheckIfEvent(display(), &dummy, motion_predicate, NULL);
return was_motion;
}
// Checks if the mouse cursor is near the edge of the screen and if so activates quick tiling or maximization
void Client::checkQuickTilingMaximizationZones(int xroot, int yroot)
{
foreach (Kephal::Screen * screen, Kephal::Screens::self()->screens()) {
if (screen->geom().contains(QPoint(xroot, yroot))) {
if (options->electricBorderTiling() &&
xroot <= screen->geom().x() + 20 &&
yroot > screen->geom().y() + screen->geom().height() / 4 &&
yroot < screen->geom().y() + screen->geom().height() - screen->geom().height() / 4) {
setElectricBorderMode(ElectricLeftMode);
setElectricBorderMaximizing(true);
return;
} else if (options->electricBorderTiling() &&
xroot <= screen->geom().x() + 20 &&
yroot <= screen->geom().y() + screen->geom().height() / 4) {
setElectricBorderMode(ElectricTopLeftMode);
setElectricBorderMaximizing(true);
return;
} else if (options->electricBorderTiling() &&
xroot <= screen->geom().x() + 20 &&
yroot >= screen->geom().y() + screen->geom().height() - screen->geom().height() / 4) {
setElectricBorderMode(ElectricBottomLeftMode);
setElectricBorderMaximizing(true);
return;
} else if (options->electricBorderTiling() &&
xroot >= screen->geom().x() + screen->geom().width() - 20 &&
yroot > screen->geom().y() + screen->geom().height() / 4 &&
yroot < screen->geom().y() + screen->geom().height() - screen->geom().height() / 4) {
setElectricBorderMode(ElectricRightMode);
setElectricBorderMaximizing(true);
return;
} else if (options->electricBorderTiling() &&
xroot >= screen->geom().x() + screen->geom().width() - 20 &&
yroot <= screen->geom().y() + screen->geom().height() / 4) {
setElectricBorderMode(ElectricTopRightMode);
setElectricBorderMaximizing(true);
return;
} else if (options->electricBorderTiling() &&
xroot >= screen->geom().x() + screen->geom().width() - 20 &&
yroot >= screen->geom().y() + screen->geom().height() - screen->geom().height() / 4) {
setElectricBorderMode(ElectricBottomRightMode);
setElectricBorderMaximizing(true);
return;
} else if (options->electricBorderMaximize() &&
yroot <= screen->geom().y() + 5 && isMaximizable()) {
setElectricBorderMode(ElectricMaximizeMode);
setElectricBorderMaximizing(true);
return;
}
}
}
setElectricBorderMaximizing(false);
}
// return value matters only when filtering events before decoration gets them
bool Client::motionNotifyEvent(Window w, int /*state*/, int x, int y, int x_root, int y_root)
{
if (w != frameId() && w != decorationId() && w != moveResizeGrabWindow())
return true; // care only about the whole frame
if (!buttonDown) {
QPoint mousePos(x, y);
if (w == frameId())
mousePos += QPoint(padding_left, padding_top);
Position newmode = mousePosition(mousePos);
if (newmode != mode) {
mode = newmode;
updateCursor();
}
// reset the timestamp for the optimization, otherwise with long passivity
// the option in waitingMotionEvent() may be always true
next_motion_time = CurrentTime;
return false;
}
if (w == moveResizeGrabWindow()) {
x = this->x(); // translate from grab window to local coords
y = this->y();
}
if (!waitingMotionEvent()) {
handleMoveResize(x, y, x_root, y_root);
if (isMove() && isResizable())
checkQuickTilingMaximizationZones(x_root, y_root);
}
return true;
}
void Client::focusInEvent(XFocusInEvent* e)
{
if (e->window != window())
return; // only window gets focus
if (e->mode == NotifyUngrab)
return; // we don't care
if (e->detail == NotifyPointer)
return; // we don't care
if (!isShown(false) || !isOnCurrentDesktop()) // we unmapped it, but it got focus meanwhile ->
return; // activateNextClient() already transferred focus elsewhere
// check if this client is in should_get_focus list or if activation is allowed
bool activate = workspace()->allowClientActivation(this, -1U, true);
workspace()->gotFocusIn(this); // remove from should_get_focus list
if (activate)
setActive(true);
else {
workspace()->restoreFocus();
demandAttention();
}
}
// When a client loses focus, FocusOut events are usually immediatelly
// followed by FocusIn events for another client that gains the focus
// (unless the focus goes to another screen, or to the nofocus widget).
// Without this check, the former focused client would have to be
// deactivated, and after that, the new one would be activated, with
// a short time when there would be no active client. This can cause
// flicker sometimes, e.g. when a fullscreen is shown, and focus is transferred
// from it to its transient, the fullscreen would be kept in the Active layer
// at the beginning and at the end, but not in the middle, when the active
// client would be temporarily none (see Client::belongToLayer() ).
// Therefore, the events queue is checked, whether it contains the matching
// FocusIn event, and if yes, deactivation of the previous client will
// be skipped, as activation of the new one will automatically deactivate
// previously active client.
static bool follows_focusin = false;
static bool follows_focusin_failed = false;
static Bool predicate_follows_focusin(Display*, XEvent* e, XPointer arg)
{
if (follows_focusin || follows_focusin_failed)
return False;
Client* c = (Client*) arg;
if (e->type == FocusIn && c->workspace()->findClient(WindowMatchPredicate(e->xfocus.window))) {
// found FocusIn
follows_focusin = true;
return False;
}
// events that may be in the queue before the FocusIn event that's being
// searched for
if (e->type == FocusIn || e->type == FocusOut || e->type == KeymapNotify)
return False;
follows_focusin_failed = true; // a different event - stop search
return False;
}
static bool check_follows_focusin(Client* c)
{
follows_focusin = follows_focusin_failed = false;
XEvent dummy;
// XCheckIfEvent() is used to make the search non-blocking, the predicate
// always returns False, so nothing is removed from the events queue.
// XPeekIfEvent() would block.
XCheckIfEvent(display(), &dummy, predicate_follows_focusin, (XPointer)c);
return follows_focusin;
}
void Client::focusOutEvent(XFocusOutEvent* e)
{
if (e->window != window())
return; // only window gets focus
if (e->mode == NotifyGrab)
return; // we don't care
if (isShade())
return; // here neither
if (e->detail != NotifyNonlinear
&& e->detail != NotifyNonlinearVirtual)
// SELI check all this
return; // hack for motif apps like netscape
if (QApplication::activePopupWidget())
return;
if (!check_follows_focusin(this))
setActive(false);
}
// performs _NET_WM_MOVERESIZE
void Client::NETMoveResize(int x_root, int y_root, NET::Direction direction)
{
if (direction == NET::Move)
performMouseCommand(Options::MouseMove, QPoint(x_root, y_root));
else if (moveResizeMode && direction == NET::MoveResizeCancel) {
finishMoveResize(true);
buttonDown = false;
updateCursor();
} else if (direction >= NET::TopLeft && direction <= NET::Left) {
static const Position convert[] = {
PositionTopLeft,
PositionTop,
PositionTopRight,
PositionRight,
PositionBottomRight,
PositionBottom,
PositionBottomLeft,
PositionLeft
};
if (!isResizable() || isShade())
return;
if (moveResizeMode)
finishMoveResize(false);
buttonDown = true;
moveOffset = QPoint(x_root - x(), y_root - y()); // map from global
invertedMoveOffset = rect().bottomRight() - moveOffset;
unrestrictedMoveResize = false;
mode = convert[ direction ];
if (!startMoveResize())
buttonDown = false;
updateCursor();
} else if (direction == NET::KeyboardMove) {
// ignore mouse coordinates given in the message, mouse position is used by the moving algorithm
QCursor::setPos(geometry().center());
performMouseCommand(Options::MouseUnrestrictedMove, geometry().center());
} else if (direction == NET::KeyboardSize) {
// ignore mouse coordinates given in the message, mouse position is used by the resizing algorithm
QCursor::setPos(geometry().bottomRight());
performMouseCommand(Options::MouseUnrestrictedResize, geometry().bottomRight());
}
}
void Client::keyPressEvent(uint key_code)
{
updateUserTime();
if (!isMove() && !isResize())
return;
bool is_control = key_code & Qt::CTRL;
bool is_alt = key_code & Qt::ALT;
key_code = key_code & ~Qt::KeyboardModifierMask;
int delta = is_control ? 1 : is_alt ? 32 : 8;
QPoint pos = cursorPos();
switch(key_code) {
case Qt::Key_Left:
pos.rx() -= delta;
break;
case Qt::Key_Right:
pos.rx() += delta;
break;
case Qt::Key_Up:
pos.ry() -= delta;
break;
case Qt::Key_Down:
pos.ry() += delta;
break;
case Qt::Key_Space:
case Qt::Key_Return:
case Qt::Key_Enter:
finishMoveResize(false);
buttonDown = false;
updateCursor();
break;
case Qt::Key_Escape:
finishMoveResize(true);
buttonDown = false;
updateCursor();
break;
default:
return;
}
QCursor::setPos(pos);
}
#ifdef HAVE_XSYNC
void Client::syncEvent(XSyncAlarmNotifyEvent* e)
{
if (e->alarm == sync_alarm && XSyncValueEqual(e->counter_value, sync_counter_value)) {
ready_for_painting = true;
if (isResize()) {
delete sync_timeout;
sync_timeout = NULL;
if (sync_resize_pending)
performMoveResize();
sync_resize_pending = false;
}
}
}
#endif
// ****************************************
// Unmanaged
// ****************************************
bool Unmanaged::windowEvent(XEvent* e)
{
double old_opacity = opacity();
unsigned long dirty[ 2 ];
info->event(e, dirty, 2); // pass through the NET stuff
if (dirty[ NETWinInfo::PROTOCOLS2 ] & NET::WM2Opacity) {
if (compositing()) {
addRepaintFull();
scene->windowOpacityChanged(this);
if (effects)
static_cast<EffectsHandlerImpl*>(effects)->windowOpacityChanged(effectWindow(), old_opacity);
}
}
switch(e->type) {
case UnmapNotify:
unmapNotifyEvent(&e->xunmap);
break;
case MapNotify:
mapNotifyEvent(&e->xmap);
break;
case ConfigureNotify:
configureNotifyEvent(&e->xconfigure);
break;
case PropertyNotify:
propertyNotifyEvent(&e->xproperty);
break;
default: {
if (e->type == Extensions::shapeNotifyEvent()) {
detectShape(window());
addRepaintFull();
addWorkspaceRepaint(geometry()); // in case shape change removes part of this window
if (scene != NULL)
scene->windowGeometryShapeChanged(this);
if (effects != NULL)
static_cast<EffectsHandlerImpl*>(effects)->windowGeometryShapeChanged(effectWindow(), geometry());
}
#ifdef HAVE_XDAMAGE
if (e->type == Extensions::damageNotifyEvent())
damageNotifyEvent(reinterpret_cast< XDamageNotifyEvent* >(e));
#endif
break;
}
}
return false; // don't eat events, even our own unmanaged widgets are tracked
}
void Unmanaged::mapNotifyEvent(XMapEvent*)
{
}
void Unmanaged::unmapNotifyEvent(XUnmapEvent*)
{
release();
}
void Unmanaged::configureNotifyEvent(XConfigureEvent* e)
{
if (effects)
static_cast<EffectsHandlerImpl*>(effects)->checkInputWindowStacking(); // keep them on top
QRect newgeom(e->x, e->y, e->width, e->height);
if (newgeom != geom) {
addWorkspaceRepaint(geometry()); // damage old area
QRect old = geom;
geom = newgeom;
addRepaintFull();
if (old.size() != geom.size())
discardWindowPixmap();
if (scene != NULL)
scene->windowGeometryShapeChanged(this);
if (effects != NULL)
static_cast<EffectsHandlerImpl*>(effects)->windowGeometryShapeChanged(effectWindow(), old);
}
}
// ****************************************
// Toplevel
// ****************************************
void Toplevel::propertyNotifyEvent(XPropertyEvent* e)
{
if (e->window != window())
return; // ignore frame/wrapper
switch(e->atom) {
default:
if (e->atom == atoms->wm_client_leader)
getWmClientLeader();
else if (e->atom == atoms->wm_window_role)
getWindowRole();
break;
}
if (effects)
static_cast< EffectsHandlerImpl* >(effects)->propertyNotify(effectWindow(), e->atom);
}
// ****************************************
// Group
// ****************************************
bool Group::groupEvent(XEvent* e)
{
unsigned long dirty[ 2 ];
leader_info->event(e, dirty, 2); // pass through the NET stuff
if ((dirty[ WinInfo::PROTOCOLS ] & NET::WMIcon) != 0)
getIcons();
if ((dirty[ WinInfo::PROTOCOLS2 ] & NET::WM2StartupId) != 0)
startupIdChanged();
return false;
}
} // namespace
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