kwin/options.cpp
Martin Gräßlin be33c59c16 Introduce config option for OpenGLPlatformInterface
A new config option "GLPlatformInterface" is added to the Compositing
settings group. Valid values are "glx" and "egl". This config option is
honored by the Scene to decide which backend to create.

The setting gets sanitized by the operation mode (egl for Wayland),
the environment variable KWIN_OPENGL_INTERFACE and the compile time
support. These switches are removed from the Scene to not have them
duplicated.
2014-05-13 09:23:03 +02:00

1132 lines
38 KiB
C++

/********************************************************************
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>
Copyright (C) 2012 Martin Gräßlin <m.graesslin@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/>.
*********************************************************************/
#include "options.h"
#include "config-kwin.h"
#ifndef KCMRULES
#include <QProcess>
#include "compositingprefs.h"
#include "settings.h"
#include "xcbutils.h"
#include <kwinglplatform.h>
#ifndef KWIN_HAVE_OPENGLES
#ifndef KWIN_NO_XF86VM
#include <X11/extensions/xf86vmode.h>
#endif
#endif
#endif //KCMRULES
namespace KWin
{
#ifndef KCMRULES
int currentRefreshRate()
{
int rate = -1;
if (options->refreshRate() > 0) // use manually configured refresh rate
rate = options->refreshRate();
#ifndef KWIN_HAVE_OPENGLES
else if (GLPlatform::instance()->driver() == Driver_NVidia) {
#ifndef KWIN_NO_XF86VM
int major, event, error;
if (XQueryExtension(display(), "XFree86-VidModeExtension", &major, &event, &error)) {
XF86VidModeModeLine modeline;
int dotclock, vtotal;
if (XF86VidModeGetModeLine(display(), 0, &dotclock, &modeline)) {
vtotal = modeline.vtotal;
if (modeline.flags & 0x0010) // V_INTERLACE
dotclock *= 2;
if (modeline.flags & 0x0020) // V_DBLSCAN
vtotal *= 2;
if (modeline.htotal*vtotal) // BUG 313996
rate = 1000*dotclock/(modeline.htotal*vtotal); // WTF was wikipedia 1998 when I nedded it?
qDebug() << "Vertical Refresh Rate (as detected by XF86VM): " << rate << "Hz";
}
}
if (rate < 1)
#endif
{ // modeline approach failed
QProcess nvidia_settings;
QStringList env = QProcess::systemEnvironment();
env << QStringLiteral("LC_ALL=C");
nvidia_settings.setEnvironment(env);
nvidia_settings.start(QStringLiteral("nvidia-settings"), QStringList() << QStringLiteral("-t") << QStringLiteral("-q") << QStringLiteral("RefreshRate"), QIODevice::ReadOnly);
nvidia_settings.waitForFinished();
if (nvidia_settings.exitStatus() == QProcess::NormalExit) {
QString reply = QString::fromLocal8Bit(nvidia_settings.readAllStandardOutput()).split(QStringLiteral(" ")).first();
bool ok;
float frate = QLocale::c().toFloat(reply, &ok);
if (!ok)
rate = -1;
else
rate = qRound(frate);
qDebug() << "Vertical Refresh Rate (as detected by nvidia-settings): " << rate << "Hz";
}
}
}
#endif
else if (Xcb::Extensions::self()->isRandrAvailable()) {
Xcb::RandR::ScreenInfo screenInfo(rootWindow());
rate = screenInfo->rate;
}
// 0Hz or less is invalid, so we fallback to a default rate
if (rate <= 0)
rate = 60;
// QTimer gives us 1msec (1000Hz) at best, so we ignore anything higher;
// however, additional throttling prevents very high rates from taking place anyway
else if (rate > 1000)
rate = 1000;
qDebug() << "Vertical Refresh rate " << rate << "Hz";
return rate;
}
Options::Options(QObject *parent)
: KDecorationOptions(parent)
, m_settings(new Settings(KSharedConfig::openConfig()))
, m_focusPolicy(ClickToFocus)
, m_nextFocusPrefersMouse(false)
, m_clickRaise(false)
, m_autoRaise(false)
, m_autoRaiseInterval(0)
, m_delayFocusInterval(0)
, m_shadeHover(false)
, m_shadeHoverInterval(0)
, m_separateScreenFocus(false)
, m_placement(Placement::NoPlacement)
, m_borderSnapZone(0)
, m_windowSnapZone(0)
, m_centerSnapZone(0)
, m_snapOnlyWhenOverlapping(false)
, m_showDesktopIsMinimizeAll(false)
, m_rollOverDesktops(false)
, m_focusStealingPreventionLevel(0)
, m_legacyFullscreenSupport(false)
, m_killPingTimeout(0)
, m_hideUtilityWindowsForInactive(false)
, m_inactiveTabsSkipTaskbar(false)
, m_autogroupSimilarWindows(false)
, m_autogroupInForeground(false)
, m_compositingMode(Options::defaultCompositingMode())
, m_useCompositing(Options::defaultUseCompositing())
, m_compositingInitialized(Options::defaultCompositingInitialized())
, m_hiddenPreviews(Options::defaultHiddenPreviews())
, m_unredirectFullscreen(Options::defaultUnredirectFullscreen())
, m_glSmoothScale(Options::defaultGlSmoothScale())
, m_colorCorrected(Options::defaultColorCorrected())
, m_xrenderSmoothScale(Options::defaultXrenderSmoothScale())
, m_maxFpsInterval(Options::defaultMaxFpsInterval())
, m_refreshRate(Options::defaultRefreshRate())
, m_vBlankTime(Options::defaultVBlankTime())
, m_glStrictBinding(Options::defaultGlStrictBinding())
, m_glStrictBindingFollowsDriver(Options::defaultGlStrictBindingFollowsDriver())
, m_glCoreProfile(Options::defaultGLCoreProfile())
, m_glPreferBufferSwap(Options::defaultGlPreferBufferSwap())
, m_glPlatformInterface(Options::defaultGlPlatformInterface())
, OpTitlebarDblClick(Options::defaultOperationTitlebarDblClick())
, CmdActiveTitlebar1(Options::defaultCommandActiveTitlebar1())
, CmdActiveTitlebar2(Options::defaultCommandActiveTitlebar2())
, CmdActiveTitlebar3(Options::defaultCommandActiveTitlebar3())
, CmdInactiveTitlebar1(Options::defaultCommandInactiveTitlebar1())
, CmdInactiveTitlebar2(Options::defaultCommandInactiveTitlebar2())
, CmdInactiveTitlebar3(Options::defaultCommandInactiveTitlebar3())
, CmdTitlebarWheel(Options::defaultCommandTitlebarWheel())
, CmdWindow1(Options::defaultCommandWindow1())
, CmdWindow2(Options::defaultCommandWindow2())
, CmdWindow3(Options::defaultCommandWindow3())
, CmdWindowWheel(Options::defaultCommandWindowWheel())
, CmdAll1(Options::defaultCommandAll1())
, CmdAll2(Options::defaultCommandAll2())
, CmdAll3(Options::defaultCommandAll3())
, CmdAllWheel(Options::defaultCommandAllWheel())
, CmdAllModKey(Options::defaultKeyCmdAllModKey())
, electric_border_maximize(false)
, electric_border_tiling(false)
, electric_border_corner_ratio(0.0)
, borderless_maximized_windows(false)
, show_geometry_tip(false)
, condensed_title(false)
, animationSpeed(Options::defaultAnimationSpeed())
{
m_settings->setDefaults();
syncFromKcfgc();
}
Options::~Options()
{
}
void Options::setFocusPolicy(FocusPolicy focusPolicy)
{
if (m_focusPolicy == focusPolicy) {
return;
}
m_focusPolicy = focusPolicy;
emit focusPolicyChanged();
if (m_focusPolicy == ClickToFocus) {
setAutoRaise(false);
setAutoRaiseInterval(0);
setDelayFocusInterval(0);
}
}
void Options::setNextFocusPrefersMouse(bool nextFocusPrefersMouse)
{
if (m_nextFocusPrefersMouse == nextFocusPrefersMouse) {
return;
}
m_nextFocusPrefersMouse = nextFocusPrefersMouse;
emit nextFocusPrefersMouseChanged();
}
void Options::setClickRaise(bool clickRaise)
{
if (m_autoRaise) {
// important: autoRaise implies ClickRaise
clickRaise = true;
}
if (m_clickRaise == clickRaise) {
return;
}
m_clickRaise = clickRaise;
emit clickRaiseChanged();
}
void Options::setAutoRaise(bool autoRaise)
{
if (m_focusPolicy == ClickToFocus) {
autoRaise = false;
}
if (m_autoRaise == autoRaise) {
return;
}
m_autoRaise = autoRaise;
if (m_autoRaise) {
// important: autoRaise implies ClickRaise
setClickRaise(true);
}
emit autoRaiseChanged();
}
void Options::setAutoRaiseInterval(int autoRaiseInterval)
{
if (m_focusPolicy == ClickToFocus) {
autoRaiseInterval = 0;
}
if (m_autoRaiseInterval == autoRaiseInterval) {
return;
}
m_autoRaiseInterval = autoRaiseInterval;
emit autoRaiseIntervalChanged();
}
void Options::setDelayFocusInterval(int delayFocusInterval)
{
if (m_focusPolicy == ClickToFocus) {
delayFocusInterval = 0;
}
if (m_delayFocusInterval == delayFocusInterval) {
return;
}
m_delayFocusInterval = delayFocusInterval;
emit delayFocusIntervalChanged();
}
void Options::setShadeHover(bool shadeHover)
{
if (m_shadeHover == shadeHover) {
return;
}
m_shadeHover = shadeHover;
emit shadeHoverChanged();
}
void Options::setShadeHoverInterval(int shadeHoverInterval)
{
if (m_shadeHoverInterval == shadeHoverInterval) {
return;
}
m_shadeHoverInterval = shadeHoverInterval;
emit shadeHoverIntervalChanged();
}
void Options::setSeparateScreenFocus(bool separateScreenFocus)
{
if (m_separateScreenFocus == separateScreenFocus) {
return;
}
m_separateScreenFocus = separateScreenFocus;
emit separateScreenFocusChanged(m_separateScreenFocus);
}
void Options::setPlacement(int placement)
{
if (m_placement == static_cast<Placement::Policy>(placement)) {
return;
}
m_placement = static_cast<Placement::Policy>(placement);
emit placementChanged();
}
void Options::setBorderSnapZone(int borderSnapZone)
{
if (m_borderSnapZone == borderSnapZone) {
return;
}
m_borderSnapZone = borderSnapZone;
emit borderSnapZoneChanged();
}
void Options::setWindowSnapZone(int windowSnapZone)
{
if (m_windowSnapZone == windowSnapZone) {
return;
}
m_windowSnapZone = windowSnapZone;
emit windowSnapZoneChanged();
}
void Options::setCenterSnapZone(int centerSnapZone)
{
if (m_centerSnapZone == centerSnapZone) {
return;
}
m_centerSnapZone = centerSnapZone;
emit centerSnapZoneChanged();
}
void Options::setSnapOnlyWhenOverlapping(bool snapOnlyWhenOverlapping)
{
if (m_snapOnlyWhenOverlapping == snapOnlyWhenOverlapping) {
return;
}
m_snapOnlyWhenOverlapping = snapOnlyWhenOverlapping;
emit snapOnlyWhenOverlappingChanged();
}
void Options::setShowDesktopIsMinimizeAll(bool showDesktopIsMinimizeAll)
{
if (m_showDesktopIsMinimizeAll == showDesktopIsMinimizeAll) {
return;
}
m_showDesktopIsMinimizeAll = showDesktopIsMinimizeAll;
emit showDesktopIsMinimizeAllChanged();
}
void Options::setRollOverDesktops(bool rollOverDesktops)
{
if (m_rollOverDesktops == rollOverDesktops) {
return;
}
m_rollOverDesktops = rollOverDesktops;
emit rollOverDesktopsChanged(m_rollOverDesktops);
}
void Options::setFocusStealingPreventionLevel(int focusStealingPreventionLevel)
{
if (!focusPolicyIsReasonable()) {
focusStealingPreventionLevel = 0;
}
if (m_focusStealingPreventionLevel == focusStealingPreventionLevel) {
return;
}
m_focusStealingPreventionLevel = qMax(0, qMin(4, focusStealingPreventionLevel));
emit focusStealingPreventionLevelChanged();
}
void Options::setLegacyFullscreenSupport(bool legacyFullscreenSupport)
{
if (m_legacyFullscreenSupport == legacyFullscreenSupport) {
return;
}
m_legacyFullscreenSupport = legacyFullscreenSupport;
emit legacyFullscreenSupportChanged();
}
void Options::setOperationTitlebarDblClick(WindowOperation operationTitlebarDblClick)
{
if (OpTitlebarDblClick == operationTitlebarDblClick) {
return;
}
OpTitlebarDblClick = operationTitlebarDblClick;
emit operationTitlebarDblClickChanged();
}
void Options::setCommandActiveTitlebar1(MouseCommand commandActiveTitlebar1)
{
if (CmdActiveTitlebar1 == commandActiveTitlebar1) {
return;
}
CmdActiveTitlebar1 = commandActiveTitlebar1;
emit commandActiveTitlebar1Changed();
}
void Options::setCommandActiveTitlebar2(MouseCommand commandActiveTitlebar2)
{
if (CmdActiveTitlebar2 == commandActiveTitlebar2) {
return;
}
CmdActiveTitlebar2 = commandActiveTitlebar2;
emit commandActiveTitlebar2Changed();
}
void Options::setCommandActiveTitlebar3(MouseCommand commandActiveTitlebar3)
{
if (CmdActiveTitlebar3 == commandActiveTitlebar3) {
return;
}
CmdActiveTitlebar3 = commandActiveTitlebar3;
emit commandActiveTitlebar3Changed();
}
void Options::setCommandInactiveTitlebar1(MouseCommand commandInactiveTitlebar1)
{
if (CmdInactiveTitlebar1 == commandInactiveTitlebar1) {
return;
}
CmdInactiveTitlebar1 = commandInactiveTitlebar1;
emit commandInactiveTitlebar1Changed();
}
void Options::setCommandInactiveTitlebar2(MouseCommand commandInactiveTitlebar2)
{
if (CmdInactiveTitlebar2 == commandInactiveTitlebar2) {
return;
}
CmdInactiveTitlebar2 = commandInactiveTitlebar2;
emit commandInactiveTitlebar2Changed();
}
void Options::setCommandInactiveTitlebar3(MouseCommand commandInactiveTitlebar3)
{
if (CmdInactiveTitlebar3 == commandInactiveTitlebar3) {
return;
}
CmdInactiveTitlebar3 = commandInactiveTitlebar3;
emit commandInactiveTitlebar3Changed();
}
void Options::setCommandWindow1(MouseCommand commandWindow1)
{
if (CmdWindow1 == commandWindow1) {
return;
}
CmdWindow1 = commandWindow1;
emit commandWindow1Changed();
}
void Options::setCommandWindow2(MouseCommand commandWindow2)
{
if (CmdWindow2 == commandWindow2) {
return;
}
CmdWindow2 = commandWindow2;
emit commandWindow2Changed();
}
void Options::setCommandWindow3(MouseCommand commandWindow3)
{
if (CmdWindow3 == commandWindow3) {
return;
}
CmdWindow3 = commandWindow3;
emit commandWindow3Changed();
}
void Options::setCommandWindowWheel(MouseCommand commandWindowWheel)
{
if (CmdWindowWheel == commandWindowWheel) {
return;
}
CmdWindowWheel = commandWindowWheel;
emit commandWindowWheelChanged();
}
void Options::setCommandAll1(MouseCommand commandAll1)
{
if (CmdAll1 == commandAll1) {
return;
}
CmdAll1 = commandAll1;
emit commandAll1Changed();
}
void Options::setCommandAll2(MouseCommand commandAll2)
{
if (CmdAll2 == commandAll2) {
return;
}
CmdAll2 = commandAll2;
emit commandAll2Changed();
}
void Options::setCommandAll3(MouseCommand commandAll3)
{
if (CmdAll3 == commandAll3) {
return;
}
CmdAll3 = commandAll3;
emit commandAll3Changed();
}
void Options::setKeyCmdAllModKey(uint keyCmdAllModKey)
{
if (CmdAllModKey == keyCmdAllModKey) {
return;
}
CmdAllModKey = keyCmdAllModKey;
emit keyCmdAllModKeyChanged();
}
void Options::setShowGeometryTip(bool showGeometryTip)
{
if (show_geometry_tip == showGeometryTip) {
return;
}
show_geometry_tip = showGeometryTip;
emit showGeometryTipChanged();
}
void Options::setCondensedTitle(bool condensedTitle)
{
if (condensed_title == condensedTitle) {
return;
}
condensed_title = condensedTitle;
emit condensedTitleChanged();
}
void Options::setElectricBorderMaximize(bool electricBorderMaximize)
{
if (electric_border_maximize == electricBorderMaximize) {
return;
}
electric_border_maximize = electricBorderMaximize;
emit electricBorderMaximizeChanged();
}
void Options::setElectricBorderTiling(bool electricBorderTiling)
{
if (electric_border_tiling == electricBorderTiling) {
return;
}
electric_border_tiling = electricBorderTiling;
emit electricBorderTilingChanged();
}
void Options::setElectricBorderCornerRatio(float electricBorderCornerRatio)
{
if (electric_border_corner_ratio == electricBorderCornerRatio) {
return;
}
electric_border_corner_ratio = electricBorderCornerRatio;
emit electricBorderCornerRatioChanged();
}
void Options::setBorderlessMaximizedWindows(bool borderlessMaximizedWindows)
{
if (borderless_maximized_windows == borderlessMaximizedWindows) {
return;
}
borderless_maximized_windows = borderlessMaximizedWindows;
emit borderlessMaximizedWindowsChanged();
}
void Options::setKillPingTimeout(int killPingTimeout)
{
if (m_killPingTimeout == killPingTimeout) {
return;
}
m_killPingTimeout = killPingTimeout;
emit killPingTimeoutChanged();
}
void Options::setHideUtilityWindowsForInactive(bool hideUtilityWindowsForInactive)
{
if (m_hideUtilityWindowsForInactive == hideUtilityWindowsForInactive) {
return;
}
m_hideUtilityWindowsForInactive = hideUtilityWindowsForInactive;
emit hideUtilityWindowsForInactiveChanged();
}
void Options::setInactiveTabsSkipTaskbar(bool inactiveTabsSkipTaskbar)
{
if (m_inactiveTabsSkipTaskbar == inactiveTabsSkipTaskbar) {
return;
}
m_inactiveTabsSkipTaskbar = inactiveTabsSkipTaskbar;
emit inactiveTabsSkipTaskbarChanged();
}
void Options::setAutogroupSimilarWindows(bool autogroupSimilarWindows)
{
if (m_autogroupSimilarWindows == autogroupSimilarWindows) {
return;
}
m_autogroupSimilarWindows = autogroupSimilarWindows;
emit autogroupSimilarWindowsChanged();
}
void Options::setAutogroupInForeground(bool autogroupInForeground)
{
if (m_autogroupInForeground == autogroupInForeground) {
return;
}
m_autogroupInForeground = autogroupInForeground;
emit autogroupInForegroundChanged();
}
void Options::setCompositingMode(int compositingMode)
{
if (m_compositingMode == static_cast<CompositingType>(compositingMode)) {
return;
}
m_compositingMode = static_cast<CompositingType>(compositingMode);
emit compositingModeChanged();
}
void Options::setUseCompositing(bool useCompositing)
{
if (m_useCompositing == useCompositing) {
return;
}
m_useCompositing = useCompositing;
emit useCompositingChanged();
}
void Options::setCompositingInitialized(bool compositingInitialized)
{
if (m_compositingInitialized == compositingInitialized) {
return;
}
m_compositingInitialized = compositingInitialized;
emit compositingInitializedChanged();
}
void Options::setHiddenPreviews(int hiddenPreviews)
{
if (m_hiddenPreviews == static_cast<HiddenPreviews>(hiddenPreviews)) {
return;
}
m_hiddenPreviews = static_cast<HiddenPreviews>(hiddenPreviews);
emit hiddenPreviewsChanged();
}
void Options::setUnredirectFullscreen(bool unredirectFullscreen)
{
if (GLPlatform::instance()->driver() == Driver_Intel)
unredirectFullscreen = false; // bug #252817
if (m_unredirectFullscreen == unredirectFullscreen) {
return;
}
if (GLPlatform::instance()->driver() == Driver_Intel) { // write back the value
KConfigGroup(m_settings->config(), "Compositing").writeEntry("UnredirectFullscreen", false);
}
m_unredirectFullscreen = unredirectFullscreen;
emit unredirectFullscreenChanged();
}
void Options::setGlSmoothScale(int glSmoothScale)
{
if (m_glSmoothScale == glSmoothScale) {
return;
}
m_glSmoothScale = glSmoothScale;
emit glSmoothScaleChanged();
}
void Options::setColorCorrected(bool colorCorrected)
{
if (m_colorCorrected == colorCorrected) {
return;
}
m_colorCorrected = colorCorrected;
emit colorCorrectedChanged();
}
void Options::setXrenderSmoothScale(bool xrenderSmoothScale)
{
if (m_xrenderSmoothScale == xrenderSmoothScale) {
return;
}
m_xrenderSmoothScale = xrenderSmoothScale;
emit xrenderSmoothScaleChanged();
}
void Options::setMaxFpsInterval(qint64 maxFpsInterval)
{
if (m_maxFpsInterval == maxFpsInterval) {
return;
}
m_maxFpsInterval = maxFpsInterval;
emit maxFpsIntervalChanged();
}
void Options::setRefreshRate(uint refreshRate)
{
if (m_refreshRate == refreshRate) {
return;
}
m_refreshRate = refreshRate;
emit refreshRateChanged();
}
void Options::setVBlankTime(qint64 vBlankTime)
{
if (m_vBlankTime == vBlankTime) {
return;
}
m_vBlankTime = vBlankTime;
emit vBlankTimeChanged();
}
void Options::setGlStrictBinding(bool glStrictBinding)
{
if (m_glStrictBinding == glStrictBinding) {
return;
}
m_glStrictBinding = glStrictBinding;
emit glStrictBindingChanged();
}
void Options::setGlStrictBindingFollowsDriver(bool glStrictBindingFollowsDriver)
{
if (m_glStrictBindingFollowsDriver == glStrictBindingFollowsDriver) {
return;
}
m_glStrictBindingFollowsDriver = glStrictBindingFollowsDriver;
emit glStrictBindingFollowsDriverChanged();
}
void Options::setGLCoreProfile(bool value)
{
if (m_glCoreProfile == value) {
return;
}
m_glCoreProfile = value;
emit glCoreProfileChanged();
}
void Options::setGlPreferBufferSwap(char glPreferBufferSwap)
{
if (glPreferBufferSwap == 'a') {
// buffer cpying is very fast with the nvidia blob
// but due to restrictions in DRI2 *incredibly* slow for all MESA drivers
// see http://www.x.org/releases/X11R7.7/doc/dri2proto/dri2proto.txt, item 2.5
if (GLPlatform::instance()->driver() == Driver_NVidia)
glPreferBufferSwap = CopyFrontBuffer;
else if (GLPlatform::instance()->driver() != Driver_Unknown) // undetected, finally resolved when context is initialized
glPreferBufferSwap = ExtendDamage;
}
if (m_glPreferBufferSwap == (GlSwapStrategy)glPreferBufferSwap) {
return;
}
m_glPreferBufferSwap = (GlSwapStrategy)glPreferBufferSwap;
emit glPreferBufferSwapChanged();
}
void Options::setGlPlatformInterface(OpenGLPlatformInterface interface)
{
// check environment variable
const QByteArray envOpenGLInterface(qgetenv("KWIN_OPENGL_INTERFACE"));
if (!envOpenGLInterface.isEmpty()) {
if (qstrcmp(envOpenGLInterface, "egl") == 0) {
qDebug() << "Forcing EGL native interface through environment variable";
interface = EglPlatformInterface;
} else if (qstrcmp(envOpenGLInterface, "glx") == 0) {
qDebug() << "Forcing GLX native interface through environment variable";
interface = GlxPlatformInterface;
}
}
if (kwinApp()->shouldUseWaylandForCompositing() && interface == GlxPlatformInterface) {
// Glx is impossible on Wayland, enforce egl
qDebug() << "Forcing EGL native interface for Wayland mode";
interface = EglPlatformInterface;
}
#ifdef KWIN_HAVE_OPENGLES
qDebug() << "Forcing EGL native interface as compiled against OpenGL ES";
interface = EglPlatformInterface;
#else
#ifndef KWIN_HAVE_EGL
qDebug() << "Forcing GLX native interface as compiled without EGL support";
interface = GlxPlatformInterface;
#endif
#endif
if (m_glPlatformInterface == interface) {
return;
}
m_glPlatformInterface = interface;
emit glPlatformInterfaceChanged();
}
void Options::reparseConfiguration()
{
m_settings->config()->reparseConfiguration();
}
void Options::updateSettings()
{
loadConfig();
// Read button tooltip animation effect from kdeglobals
// Since we want to allow users to enable window decoration tooltips
// and not kstyle tooltips and vise-versa, we don't read the
// "EffectNoTooltip" setting from kdeglobals.
// QToolTip::setGloballyEnabled( d->show_tooltips );
// KDE4 this probably needs to be done manually in clients
// Driver-specific config detection
setCompositingInitialized(false);
reloadCompositingSettings();
emit configChanged();
}
void Options::loadConfig()
{
m_settings->load();
KDecorationOptions::updateSettings(m_settings->config()); // read decoration settings
syncFromKcfgc();
// Electric borders
KConfigGroup config(m_settings->config(), "Windows");
OpTitlebarDblClick = windowOperation(config.readEntry("TitlebarDoubleClickCommand", "Maximize"), true);
setOpMaxButtonLeftClick(windowOperation(config.readEntry("MaximizeButtonLeftClickCommand", "Maximize"), true));
setOpMaxButtonMiddleClick(windowOperation(config.readEntry("MaximizeButtonMiddleClickCommand", "Maximize (vertical only)"), true));
setOpMaxButtonRightClick(windowOperation(config.readEntry("MaximizeButtonRightClickCommand", "Maximize (horizontal only)"), true));
// Mouse bindings
config = KConfigGroup(m_settings->config(), "MouseBindings");
// TODO: add properties for missing options
CmdTitlebarWheel = mouseWheelCommand(config.readEntry("CommandTitlebarWheel", "Switch to Window Tab to the Left/Right"));
CmdAllModKey = (config.readEntry("CommandAllKey", "Alt") == QStringLiteral("Meta")) ? Qt::Key_Meta : Qt::Key_Alt;
CmdAllWheel = mouseWheelCommand(config.readEntry("CommandAllWheel", "Nothing"));
setCommandActiveTitlebar1(mouseCommand(config.readEntry("CommandActiveTitlebar1", "Raise"), true));
setCommandActiveTitlebar2(mouseCommand(config.readEntry("CommandActiveTitlebar2", "Start Window Tab Drag"), true));
setCommandActiveTitlebar3(mouseCommand(config.readEntry("CommandActiveTitlebar3", "Operations menu"), true));
setCommandInactiveTitlebar1(mouseCommand(config.readEntry("CommandInactiveTitlebar1", "Activate and raise"), true));
setCommandInactiveTitlebar2(mouseCommand(config.readEntry("CommandInactiveTitlebar2", "Start Window Tab Drag"), true));
setCommandInactiveTitlebar3(mouseCommand(config.readEntry("CommandInactiveTitlebar3", "Operations menu"), true));
setCommandWindow1(mouseCommand(config.readEntry("CommandWindow1", "Activate, raise and pass click"), false));
setCommandWindow2(mouseCommand(config.readEntry("CommandWindow2", "Activate and pass click"), false));
setCommandWindow3(mouseCommand(config.readEntry("CommandWindow3", "Activate and pass click"), false));
setCommandWindowWheel(mouseCommand(config.readEntry("CommandWindowWheel", "Scroll"), false));
setCommandAll1(mouseCommand(config.readEntry("CommandAll1", "Move"), false));
setCommandAll2(mouseCommand(config.readEntry("CommandAll2", "Toggle raise and lower"), false));
setCommandAll3(mouseCommand(config.readEntry("CommandAll3", "Resize"), false));
// TODO: should they be moved into reloadCompositingSettings?
config = KConfigGroup(m_settings->config(), "Compositing");
setMaxFpsInterval(1 * 1000 * 1000 * 1000 / config.readEntry("MaxFPS", Options::defaultMaxFps()));
setRefreshRate(config.readEntry("RefreshRate", Options::defaultRefreshRate()));
setVBlankTime(config.readEntry("VBlankTime", Options::defaultVBlankTime()) * 1000); // config in micro, value in nano resolution
}
void Options::syncFromKcfgc()
{
setShowGeometryTip(m_settings->geometryTip());
setCondensedTitle(m_settings->condensedTitle());
setFocusPolicy(m_settings->focusPolicy());
setNextFocusPrefersMouse(m_settings->nextFocusPrefersMouse());
setSeparateScreenFocus(m_settings->separateScreenFocus());
setRollOverDesktops(m_settings->rollOverDesktops());
setLegacyFullscreenSupport(m_settings->legacyFullscreenSupport());
setFocusStealingPreventionLevel(m_settings->focusStealingPreventionLevel());
#ifdef KWIN_BUILD_DECORATIONS
setPlacement(m_settings->placement());
#else
setPlacement(Placement::Maximizing);
#endif
setAutoRaise(m_settings->autoRaise());
setAutoRaiseInterval(m_settings->autoRaiseInterval());
setDelayFocusInterval(m_settings->delayFocusInterval());
setShadeHover(m_settings->shadeHover());
setShadeHoverInterval(m_settings->shadeHoverInterval());
setClickRaise(m_settings->clickRaise());
setBorderSnapZone(m_settings->borderSnapZone());
setWindowSnapZone(m_settings->windowSnapZone());
setCenterSnapZone(m_settings->centerSnapZone());
setSnapOnlyWhenOverlapping(m_settings->snapOnlyWhenOverlapping());
setKillPingTimeout(m_settings->killPingTimeout());
setHideUtilityWindowsForInactive(m_settings->hideUtilityWindowsForInactive());
setInactiveTabsSkipTaskbar(m_settings->inactiveTabsSkipTaskbar());
setAutogroupSimilarWindows(m_settings->autogroupSimilarWindows());
setAutogroupInForeground(m_settings->autogroupInForeground());
setShowDesktopIsMinimizeAll(m_settings->showDesktopIsMinimizeAll());
setBorderlessMaximizedWindows(m_settings->borderlessMaximizedWindows());
setElectricBorderMaximize(m_settings->electricBorderMaximize());
setElectricBorderTiling(m_settings->electricBorderTiling());
setElectricBorderCornerRatio(m_settings->electricBorderCornerRatio());
}
bool Options::loadCompositingConfig (bool force)
{
KConfigGroup config(m_settings->config(), "Compositing");
bool useCompositing = false;
CompositingType compositingMode = NoCompositing;
QString compositingBackend = config.readEntry("Backend", "OpenGL");
if (compositingBackend == QStringLiteral("XRender"))
compositingMode = XRenderCompositing;
else if (compositingBackend == "QPainter")
compositingMode = QPainterCompositing;
else
compositingMode = OpenGLCompositing;
if (const char *c = getenv("KWIN_COMPOSE")) {
switch(c[0]) {
case 'O':
qDebug() << "Compositing forced to OpenGL mode by environment variable";
compositingMode = OpenGLCompositing;
useCompositing = true;
break;
case 'X':
qDebug() << "Compositing forced to XRender mode by environment variable";
compositingMode = XRenderCompositing;
useCompositing = true;
break;
case 'Q':
qDebug() << "Compositing forced to QPainter mode by environment variable";
compositingMode = QPainterCompositing;
useCompositing = true;
break;
case 'N':
if (getenv("KDE_FAILSAFE"))
qDebug() << "Compositing disabled forcefully by KDE failsafe mode";
else
qDebug() << "Compositing disabled forcefully by environment variable";
compositingMode = NoCompositing;
break;
default:
qDebug() << "Unknown KWIN_COMPOSE mode set, ignoring";
break;
}
}
setCompositingMode(compositingMode);
if (m_compositingMode == NoCompositing) {
setUseCompositing(false);
return false; // do not even detect compositing preferences if explicitly disabled
}
// it's either enforced by env or by initial resume from "suspend" or we check the settings
setUseCompositing(useCompositing || force || config.readEntry("Enabled", Options::defaultUseCompositing()));
if (!m_useCompositing)
return false; // not enforced or necessary and not "enabled" by settings
return true;
}
void Options::reloadCompositingSettings(bool force)
{
if (!loadCompositingConfig(force)) {
return;
}
// from now on we've an initial setup and don't have to reload settings on compositing activation
// see Workspace::setupCompositing(), composite.cpp
setCompositingInitialized(true);
// Compositing settings
KConfigGroup config(m_settings->config(), "Compositing");
setGlSmoothScale(qBound(-1, config.readEntry("GLTextureFilter", Options::defaultGlSmoothScale()), 2));
setGlStrictBindingFollowsDriver(!config.hasKey("GLStrictBinding"));
if (!isGlStrictBindingFollowsDriver()) {
setGlStrictBinding(config.readEntry("GLStrictBinding", Options::defaultGlStrictBinding()));
}
setGLCoreProfile(config.readEntry("GLCore", Options::defaultGLCoreProfile()));
char c = 0;
const QString s = config.readEntry("GLPreferBufferSwap", QString(Options::defaultGlPreferBufferSwap()));
if (!s.isEmpty())
c = s.at(0).toAscii();
if (c != 'a' && c != 'c' && c != 'p' && c != 'e')
c = 0;
setGlPreferBufferSwap(c);
setColorCorrected(config.readEntry("GLColorCorrection", Options::defaultColorCorrected()));
m_xrenderSmoothScale = config.readEntry("XRenderSmoothScale", false);
HiddenPreviews previews = Options::defaultHiddenPreviews();
// 4 - off, 5 - shown, 6 - always, other are old values
int hps = config.readEntry("HiddenPreviews", 5);
if (hps == 4)
previews = HiddenPreviewsNever;
else if (hps == 5)
previews = HiddenPreviewsShown;
else if (hps == 6)
previews = HiddenPreviewsAlways;
setHiddenPreviews(previews);
setUnredirectFullscreen(config.readEntry("UnredirectFullscreen", Options::defaultUnredirectFullscreen()));
// TOOD: add setter
animationSpeed = qBound(0, config.readEntry("AnimationSpeed", Options::defaultAnimationSpeed()), 6);
auto interfaceToKey = [](OpenGLPlatformInterface interface) {
switch (interface) {
case GlxPlatformInterface:
return QStringLiteral("glx");
case EglPlatformInterface:
return QStringLiteral("egl");
default:
return QString();
}
};
auto keyToInterface = [](const QString &key) {
if (key == QStringLiteral("glx")) {
return GlxPlatformInterface;
} else if (key == QStringLiteral("egl")) {
return EglPlatformInterface;
}
return defaultGlPlatformInterface();
};
setGlPlatformInterface(keyToInterface(config.readEntry("GLPlatformInterface", interfaceToKey(m_glPlatformInterface))));
}
// restricted should be true for operations that the user may not be able to repeat
// if the window is moved out of the workspace (e.g. if the user moves a window
// by the titlebar, and moves it too high beneath Kicker at the top edge, they
// may not be able to move it back, unless they know about Alt+LMB)
Options::WindowOperation Options::windowOperation(const QString &name, bool restricted)
{
if (name == QStringLiteral("Move"))
return restricted ? MoveOp : UnrestrictedMoveOp;
else if (name == QStringLiteral("Resize"))
return restricted ? ResizeOp : UnrestrictedResizeOp;
else if (name == QStringLiteral("Maximize"))
return MaximizeOp;
else if (name == QStringLiteral("Minimize"))
return MinimizeOp;
else if (name == QStringLiteral("Close"))
return CloseOp;
else if (name == QStringLiteral("OnAllDesktops"))
return OnAllDesktopsOp;
else if (name == QStringLiteral("Shade"))
return ShadeOp;
else if (name == QStringLiteral("Operations"))
return OperationsOp;
else if (name == QStringLiteral("Maximize (vertical only)"))
return VMaximizeOp;
else if (name == QStringLiteral("Maximize (horizontal only)"))
return HMaximizeOp;
else if (name == QStringLiteral("Lower"))
return LowerOp;
return NoOp;
}
Options::MouseCommand Options::mouseCommand(const QString &name, bool restricted)
{
QString lowerName = name.toLower();
if (lowerName == QStringLiteral("raise")) return MouseRaise;
if (lowerName == QStringLiteral("lower")) return MouseLower;
if (lowerName == QStringLiteral("operations menu")) return MouseOperationsMenu;
if (lowerName == QStringLiteral("toggle raise and lower")) return MouseToggleRaiseAndLower;
if (lowerName == QStringLiteral("activate and raise")) return MouseActivateAndRaise;
if (lowerName == QStringLiteral("activate and lower")) return MouseActivateAndLower;
if (lowerName == QStringLiteral("activate")) return MouseActivate;
if (lowerName == QStringLiteral("activate, raise and pass click")) return MouseActivateRaiseAndPassClick;
if (lowerName == QStringLiteral("activate and pass click")) return MouseActivateAndPassClick;
if (lowerName == QStringLiteral("scroll")) return MouseNothing;
if (lowerName == QStringLiteral("activate and scroll")) return MouseActivateAndPassClick;
if (lowerName == QStringLiteral("activate, raise and scroll")) return MouseActivateRaiseAndPassClick;
if (lowerName == QStringLiteral("activate, raise and move"))
return restricted ? MouseActivateRaiseAndMove : MouseActivateRaiseAndUnrestrictedMove;
if (lowerName == QStringLiteral("move")) return restricted ? MouseMove : MouseUnrestrictedMove;
if (lowerName == QStringLiteral("resize")) return restricted ? MouseResize : MouseUnrestrictedResize;
if (lowerName == QStringLiteral("shade")) return MouseShade;
if (lowerName == QStringLiteral("minimize")) return MouseMinimize;
if (lowerName == QStringLiteral("start window tab drag")) return MouseDragTab;
if (lowerName == QStringLiteral("close")) return MouseClose;
if (lowerName == QStringLiteral("increase opacity")) return MouseOpacityMore;
if (lowerName == QStringLiteral("decrease opacity")) return MouseOpacityLess;
if (lowerName == QStringLiteral("nothing")) return MouseNothing;
return MouseNothing;
}
Options::MouseWheelCommand Options::mouseWheelCommand(const QString &name)
{
QString lowerName = name.toLower();
if (lowerName == QStringLiteral("raise/lower")) return MouseWheelRaiseLower;
if (lowerName == QStringLiteral("shade/unshade")) return MouseWheelShadeUnshade;
if (lowerName == QStringLiteral("maximize/restore")) return MouseWheelMaximizeRestore;
if (lowerName == QStringLiteral("above/below")) return MouseWheelAboveBelow;
if (lowerName == QStringLiteral("previous/next desktop")) return MouseWheelPreviousNextDesktop;
if (lowerName == QStringLiteral("change opacity")) return MouseWheelChangeOpacity;
if (lowerName == QStringLiteral("switch to window tab to the left/right")) return MouseWheelChangeCurrentTab;
if (lowerName == QStringLiteral("nothing")) return MouseWheelNothing;
return MouseWheelChangeCurrentTab;
}
bool Options::showGeometryTip() const
{
return show_geometry_tip;
}
bool Options::condensedTitle() const
{
return condensed_title;
}
Options::MouseCommand Options::wheelToMouseCommand(MouseWheelCommand com, int delta) const
{
switch(com) {
case MouseWheelRaiseLower:
return delta > 0 ? MouseRaise : MouseLower;
case MouseWheelShadeUnshade:
return delta > 0 ? MouseSetShade : MouseUnsetShade;
case MouseWheelMaximizeRestore:
return delta > 0 ? MouseMaximize : MouseRestore;
case MouseWheelAboveBelow:
return delta > 0 ? MouseAbove : MouseBelow;
case MouseWheelPreviousNextDesktop:
return delta > 0 ? MousePreviousDesktop : MouseNextDesktop;
case MouseWheelChangeOpacity:
return delta > 0 ? MouseOpacityMore : MouseOpacityLess;
case MouseWheelChangeCurrentTab:
return delta > 0 ? MousePreviousTab : MouseNextTab;
default:
return MouseNothing;
}
}
#endif
double Options::animationTimeFactor() const
{
const double factors[] = { 0, 0.2, 0.5, 1, 2, 4, 20 };
return factors[ animationSpeed ];
}
} // namespace