My KWIN fork where I work on features like per-output virtual desktops
Find a file
Martin Gräßlin 2eb876743c [screens] Replace DesktopWidgetScreens by XRandRScreens
A new implementation of the Screens interface is added which uses XRandR
directly instead of relying on QDesktopWidget. The implementation is
provided in a new implementation file screens_xrandr.cpp.

XRandRScreens comes with a unit test. Unfortunately it's rather difficult
to provide a proper unit test against XRandR. Xvfb (which is obviously
used on the CI system) doesn't provide the XRandR extension. Also on a
"normal" developer system one would not want to just execute the test as
the results are not predictable (number of available outputs?) and the
test would mess up the setup resulting in nobody wanting to execute the
test.

As a solution to both problems the unit test starts Xephyr as a nested
X server. This allows to have at least some limited tests against XRandR.
Nevertheless there are a few things which I was not able to test:
* multiple outputs
* no output at all

The nested X Server approach makes the interaction rather complex. Qt
opens it's connection against the main X Server thus QX11Info provides
a wrong connection and also KWin::connection() which is heavily used by
xcbutils and thus all the RandR wrappers have the wrong connection. To
circumvent this problem the test is GUILESS. In case it would call into
any code using QX11Info, it would probably either runtime fail or crash.

REVIEW: 117614
2014-11-27 09:00:19 +01:00
autotests [screens] Replace DesktopWidgetScreens by XRandRScreens 2014-11-27 09:00:19 +01:00
clients
cmake/modules
data
doc
effects
kcmkwin
killer
libinput
libkdecorations
libkwineffects
qml
scripting
scripts
shaders
tabbox
tests
.reviewboardrc
16-apps-kwin.png
32-apps-kwin.png
48-apps-kwin.png
activation.cpp
activities.cpp
activities.h
appmenu.cpp
appmenu.h
atoms.cpp
atoms.h
bridge.cpp
bridge.h
client.cpp
client.h
client_machine.cpp
client_machine.h
CMakeLists.txt [screens] Replace DesktopWidgetScreens by XRandRScreens 2014-11-27 09:00:19 +01:00
COMPLIANCE
composite.cpp
composite.h
compositingprefs.cpp
compositingprefs.h
config-kwin.h.cmake
CONFIGURING
COPYING
COPYING.DOC
cursor.cpp
cursor.h
dbusinterface.cpp
dbusinterface.h
decorations.cpp
decorations.h
deleted.cpp
deleted.h
effectloader.cpp
effectloader.h
effects.cpp
effects.h
egl_wayland_backend.cpp
egl_wayland_backend.h
eglonxbackend.cpp
eglonxbackend.h
events.cpp
ExtraDesktop.sh
focuschain.cpp
focuschain.h
geometry.cpp
geometrytip.cpp
geometrytip.h
globalshortcuts.cpp
globalshortcuts.h
glxbackend.cpp
glxbackend.h
group.cpp
group.h
HACKING
input.cpp
input.h
killwindow.cpp
killwindow.h
kwin.kcfg
kwin.notifyrc
kwinbindings.cpp
KWinDBusInterfaceConfig.cmake.in
lanczosfilter.cpp
lanczosfilter.h
layers.cpp
logind.cpp
logind.h
main.cpp
main.h
main_wayland.cpp
main_wayland.h
main_x11.cpp
main_x11.h
Mainpage.dox
manage.cpp
Messages.sh
netinfo.cpp
netinfo.h
options.cpp
options.h
org.freedesktop.ScreenSaver.xml
org.kde.kwin.Compositing.xml
org.kde.kwin.Effects.xml
org.kde.KWin.xml
outline.cpp
outline.h
overlaywindow.cpp
overlaywindow.h
paintredirector.cpp
paintredirector.h
placement.cpp
placement.h
README
resources.qrc
rules.cpp
rules.h
sc-apps-kwin.svgz
scene.cpp
scene.h
scene_opengl.cpp
scene_opengl.h
scene_qpainter.cpp
scene_qpainter.h
scene_xrender.cpp
scene_xrender.h
screenedge.cpp
screenedge.h
screens.cpp [screens] Replace DesktopWidgetScreens by XRandRScreens 2014-11-27 09:00:19 +01:00
screens.h [screens] Replace DesktopWidgetScreens by XRandRScreens 2014-11-27 09:00:19 +01:00
screens_wayland.cpp
screens_wayland.h
screens_xrandr.cpp [screens] Replace DesktopWidgetScreens by XRandRScreens 2014-11-27 09:00:19 +01:00
screens_xrandr.h [screens] Replace DesktopWidgetScreens by XRandRScreens 2014-11-27 09:00:19 +01:00
settings.kcfgc
shadow.cpp
shadow.h
shortcutdialog.ui
sm.cpp
sm.h
tabgroup.cpp
tabgroup.h
thumbnailitem.cpp
thumbnailitem.h
toplevel.cpp
toplevel.h
unmanaged.cpp
unmanaged.h
useractions.cpp
useractions.h
utils.cpp
utils.h
virtualdesktops.cpp
virtualdesktops.h
wayland_backend.cpp
wayland_backend.h
workspace.cpp
workspace.h
x11eventfilter.cpp [screens] Replace DesktopWidgetScreens by XRandRScreens 2014-11-27 09:00:19 +01:00
x11eventfilter.h
xcbutils.cpp
xcbutils.h [screens] Replace DesktopWidgetScreens by XRandRScreens 2014-11-27 09:00:19 +01:00

- A collection of various documents and links related to KWin is at http://techbase.kde.org/Projects/KWin .


- The mailing list for KWin is kwin@kde.org (https://mail.kde.org/mailman/listinfo/kwin).

- If you want to develop KWin, see file HACKING.

- If you want to check KWin's compliance with specifications, see file COMPLIANCE.

- File CONFIGURATION includes some details on configuring KWin.

- Below is some info for application developers about application interaction
  with the window manager, but it'd need some cleanup.








 This README is meant as an explanation of various window manager related
mechanisms that application developers need to be aware of. As some of these
concepts may be difficult to understand for people not having the required
background knowledge (since sometimes it's difficult even for people who
do have the knowledge), the mechanisms are first briefly explained, and
then an example of fixing the various problems is given.

 For comments, questions, suggestions and whatever use the kwin@kde.org
mailing list.


Table of contents:
==================

- Window relations
    - how to make the window manager know which windows belong together
- Focus stealing prevention
    - how to solve cases where focus stealing prevention doesn't work
      properly automatically



Window relations:
=================

(For now, this explanation of window relations is mainly meant for
focus stealing prevention. To be extended later.)

 All windows created by an application should be organized in a tree
with the root being the application's main window. Note that this is about
toplevel windows, not widgets inside the windows. For example, if you
have KWrite running, with a torn-off toolbar (i.e. a standalone toolbar),
a file save dialog open, and the file save dialog showing a dialog
for creating a directory, the window hiearchy should look like this:


             KWrite mainwindow
              /             \
             /               \
      file save dialog      torn-off toolbar
            \
             \
          create directory dialog

 Each subwindow (i.e. all except for the KWrite mainwindow) points to its
main window (which in turn may have another main window, as in the case
of the file save dialog). When the window manager knows these relations,
it can better arrange the windows (keeping subwindows above their
main windows, preventing activation of a main window of a modal dialog,
and similar). Failing to provide this information to the window manager
may have various results, for example having dialogs positioned below
the main window,

The window property used by subwindows to point to their mainwindows is
called WM_TRANSIENT_FOR. It can be seen by running
'xprop | grep WM_TRANSIENT_FOR' and clicking on a window. If the property
is not present, the window does not (claim to) have any mainwindow.
If the property is present, it's value is the window id of its main window;
window id of any window can be found out by running 'xwininfo'. A window
having WM_TRANSIENT_FOR poiting to another window is said to be transient
for that window.

 In some cases, the WM_TRANSIENT_FOR property may not point to any other
existing window, having value of 0, or pointing to the screen number
('xwininfo -root'). These special values mean that the window is transient
for all other windows in its window group. This should be used only
in rare cases, everytime a specific main window is known, WM_TRANSIENT_FOR
should be pointing to it instead of using one of these special values.
(The explanation why is beyond the scope of this document - just accept it
as a fact.)

 With Qt, the WM_TRANSIENT_FOR property is set by Qt automatically, based
on the toplevel widget's parent. If the toplevel widget is of a normal
type (i.e. not a dialog, toolbar, etc.), Qt doesn't set WM_TRANSIENT_FOR
on it. For special widgets, such as dialogs, WM_TRANSIENT_FOR is set
to point to the widget's parent, if it has a specific parent, otherwise
WM_TRANSIENT_FOR points to the root window.

 As already said above, WM_TRANSIENT_FOR poiting to the root window should
be usually avoided, so everytime the widget's main widget is known, the widget
should get it passed as a parent in its constructor.
(TODO KDialog etc. classes should not have a default argument for the parent
argument, and comments like 'just pass 0 as the parent' should go.)



Focus stealing prevention:
==========================

 Since KDE3.2 KWin has a feature called focus stealing prevention. As the name
suggests, it prevents unexpected changes of focus. With older versions of KWin,
if any application opened a new dialog, it became active, and
if the application's main window was on another virtual desktop, also
the virtual desktop was changed. This was annoying, and also sometimes led
to dialogs mistakenly being closed because they received keyboard input that
was meant for the previously active window.

 The basic principle of focus stealing prevention is that the window with most
recent user activity wins. Any window of an application will become active
when being shown only if this application was the most recently used one.
KWin itself, and some of the related kdecore classes should take care
of the common cases, so usually there's no need for any special handling
in applications. Qt/KDE applications, that is. Applications using other
toolkits should in most cases work fine too. If they don't support
the window property _NET_WM_USER_TIME, the window manager may fail to detect
the user timestamp properly, resulting either in other windows becoming active
while the user works with this application, or this application may sometimes
steal focus (this second case should be very rare though).

 There are also cases where KDE applications needs special handling. The two
most common cases are when windows relations are not setup properly to make
KWin realize that they belong to the same application, and when the user
activity is not represented by manipulating with the application windows
themselves.

 Also note that focus stealing prevention implemented in the window manager
can only help with focus stealing between different applications.
If an application itself suddenly pops up a dialog, KWin cannot do anything about
it, and its the application's job to handle this case.


Window relations:
-----------------

 The common case here is when a dialog is shown for an application, but this
dialog is not provided by the application itself, but by some other process.
For example, dialogs with warnings about accepted cookies are provided
by KCookieJar, instead of being shown by Konqueror. In the normal case,
from KWin's point of view the cookie dialog would be an attempt of another
application to show a dialog, and KWin wouldn't allow activation of this
window.

 The solution is to tell the window manager about the relation between
the Konqueror main window and the cookie dialog, by making the dialog
point to the mainwindow. Note that this is not special to focus stealing
prevention, subwindows such as dialogs, toolbars and similar should always
point to their mainwindow. See the section on window relations for full
description.

 The WM_TRANSIENT_FOR property that's set on dialogs to point to their
mainwindow should in the cookie dialog case point to the Konqueror window
for which it has been shown. This is solved in kcookiejar by including
the window id in the DCOP call. When the cookie dialog is shown, its
WM_TRANSIENT_FOR property is manually set using the XSetTransientForHint()
call (see kdelibs/kioslave/http/kcookiejar/kcookiewin.cpp). The arguments
to XSetTransientForHint() call are the X display (i.e. QX11Info::display()),
the window id on which the WM_TRANSIENT_FOR property is to be set
(i.e. use QWidget::winId()), and the window id of the mainwindow.


  Simple short HOWTO:
  
 To put it simply: Let's say you have a daemon application that has
DCOP call "showDialog( QString text )", and when this is called, it shows
a dialog with the given text. This won't work properly with focus stealing
prevention. The DCOP call should be changed to
"showDialog( QString text, long id )". The caller should pass something like
myMainWindow->winId() as the second argument. In the daemon, before
the dialog is shown, a call to XSetTransientHint() should be added:

 XSetTransientForHint( QX11Info::display(), dialog->winId(), id_of_mainwindow );
 
 That's it.

Non-standard user activity:
---------------------------

 The most common case in KDE will be DCOP calls. For example, KDesktop's DCOP
call "KDesktopIface popupExecuteCommand". Executing this DCOP call e.g.
from Konsole as 'dcop kdesktop KDesktopIface popupExecuteCommand" will lead
to showing the minicli, but the last user activity timestamp gained from events
sent by X server will be older than user activity timestamp of Konsole, and
would normally result in minicli not being active. Therefore, before showing
the minicli, kdesktop needs to call KApplication::updateUserTimestamp().

 However, this shouldn't be done with all DCOP calls. If a DCOP call is not
a result of direct user action, calling KApplication::updateUserTimestamp()
would lead to focus stealing. For example, let's assume for a moment
that KMail would use this DCOP call in case it detects the modem is not
connected, allowing to you to start KPPP or whatever tool you use. If KMail
would be configured to check mail every 10 minutes, this would lead to minicli
possibly suddenly showing up at every check. Basically, doing the above change
to kdesktop's minicli means that the popupExecuteCommand() DCOP call is only
for user scripting. (TODO write about focus transferring?)

 Simply said, KApplication::updateUserTimestamp() should be called only
as a result of user action. Unfortunately, I'm not aware of any universal
way how to handle this, so every case will have to be considered separately.