/* KWin - the KDE window manager This file is part of the KDE project. SPDX-FileCopyrightText: 1999, 2000 Matthias Ettrich SPDX-FileCopyrightText: 2003 Lubos Lunak SPDX-FileCopyrightText: 2012 Martin Gräßlin SPDX-License-Identifier: GPL-2.0-or-later */ #include "options.h" #include "config-kwin.h" #include "utils.h" #include "platform.h" #ifndef KCMRULES #include #include "screens.h" #include "settings.h" #include #include #endif //KCMRULES namespace KWin { #ifndef KCMRULES int currentRefreshRate() { return Options::currentRefreshRate(); } int Options::currentRefreshRate() { int rate = -1; QString syncScreenName(QLatin1String("primary screen")); if (options->refreshRate() > 0) { // use manually configured refresh rate rate = options->refreshRate(); } else if (Screens::self()->count() > 0) { // prefer the refreshrate calculated from the screens mode information // at least the nvidia driver reports 50Hz BS ... *again*! int syncScreen = 0; if (Screens::self()->count() > 1) { const QByteArray syncDisplayDevice(qgetenv("__GL_SYNC_DISPLAY_DEVICE")); // if __GL_SYNC_DISPLAY_DEVICE is exported, the GPU shall sync to that device // so we try to use its refresh rate if (!syncDisplayDevice.isEmpty()) { for (int i = 0; i < Screens::self()->count(); ++i) { if (Screens::self()->name(i) == syncDisplayDevice) { syncScreenName = Screens::self()->name(i); syncScreen = i; break; } } } } rate = qRound(Screens::self()->refreshRate(syncScreen)); // TODO forward float precision? } // 0Hz or less is invalid, so we fallback to a default rate if (rate <= 0) rate = 60; // and not shitty 50Hz for sure! *grrr* // 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; qCDebug(KWIN_CORE) << "Vertical Refresh rate " << rate << "Hz (" << syncScreenName << ")"; return rate; } Options::Options(QObject *parent) : QObject(parent) , m_settings(new Settings(kwinApp()->config())) , 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_rollOverDesktops(false) , m_focusStealingPreventionLevel(0) , m_killPingTimeout(0) , m_hideUtilityWindowsForInactive(false) , m_xwaylandCrashPolicy(Options::defaultXwaylandCrashPolicy()) , m_xwaylandMaxCrashCount(Options::defaultXwaylandMaxCrashCount()) , m_compositingMode(Options::defaultCompositingMode()) , m_useCompositing(Options::defaultUseCompositing()) , m_hiddenPreviews(Options::defaultHiddenPreviews()) , m_glSmoothScale(Options::defaultGlSmoothScale()) , 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()) , m_windowsBlockCompositing(true) , 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) { m_settings->setDefaults(); syncFromKcfgc(); m_configWatcher = KConfigWatcher::create(m_settings->sharedConfig()); connect(m_configWatcher.data(), &KConfigWatcher::configChanged, this, [this](const KConfigGroup &group, const QByteArrayList &names) { if (group.name() == QLatin1String("KDE") && names.contains(QByteArrayLiteral("AnimationDurationFactor"))) { emit animationSpeedChanged(); } }); } 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::setXwaylandCrashPolicy(XwaylandCrashPolicy crashPolicy) { if (m_xwaylandCrashPolicy == crashPolicy) { return; } m_xwaylandCrashPolicy = crashPolicy; emit xwaylandCrashPolicyChanged(); } void Options::setXwaylandMaxCrashCount(int maxCrashCount) { if (m_xwaylandMaxCrashCount == maxCrashCount) { return; } m_xwaylandMaxCrashCount = maxCrashCount; emit xwaylandMaxCrashCountChanged(); } 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)) { return; } m_placement = static_cast(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::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::setOperationTitlebarDblClick(WindowOperation operationTitlebarDblClick) { if (OpTitlebarDblClick == operationTitlebarDblClick) { return; } OpTitlebarDblClick = operationTitlebarDblClick; emit operationTitlebarDblClickChanged(); } void Options::setOperationMaxButtonLeftClick(WindowOperation op) { if (opMaxButtonLeftClick == op) { return; } opMaxButtonLeftClick = op; emit operationMaxButtonLeftClickChanged(); } void Options::setOperationMaxButtonRightClick(WindowOperation op) { if (opMaxButtonRightClick == op) { return; } opMaxButtonRightClick = op; emit operationMaxButtonRightClickChanged(); } void Options::setOperationMaxButtonMiddleClick(WindowOperation op) { if (opMaxButtonMiddleClick == op) { return; } opMaxButtonMiddleClick = op; emit operationMaxButtonMiddleClickChanged(); } 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::setCompositingMode(int compositingMode) { if (m_compositingMode == static_cast(compositingMode)) { return; } m_compositingMode = static_cast(compositingMode); emit compositingModeChanged(); } void Options::setUseCompositing(bool useCompositing) { if (m_useCompositing == useCompositing) { return; } m_useCompositing = useCompositing; emit useCompositingChanged(); } void Options::setHiddenPreviews(int hiddenPreviews) { if (m_hiddenPreviews == static_cast(hiddenPreviews)) { return; } m_hiddenPreviews = static_cast(hiddenPreviews); emit hiddenPreviewsChanged(); } void Options::setGlSmoothScale(int glSmoothScale) { if (m_glSmoothScale == glSmoothScale) { return; } m_glSmoothScale = glSmoothScale; emit glSmoothScaleChanged(); } 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::setWindowsBlockCompositing(bool value) { if (m_windowsBlockCompositing == value) { return; } m_windowsBlockCompositing = value; emit windowsBlockCompositingChanged(); } void Options::setGlPreferBufferSwap(char glPreferBufferSwap) { if (glPreferBufferSwap == 'a') { // buffer copying is very fast with the nvidia blob // but due to restrictions in DRI2 *incredibly* slow for all MESA drivers // see https://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) { qCDebug(KWIN_CORE) << "Forcing EGL native interface through environment variable"; interface = EglPlatformInterface; } else if (qstrcmp(envOpenGLInterface, "glx") == 0) { qCDebug(KWIN_CORE) << "Forcing GLX native interface through environment variable"; interface = GlxPlatformInterface; } } if (kwinApp()->shouldUseWaylandForCompositing() && interface == GlxPlatformInterface) { // Glx is impossible on Wayland, enforce egl qCDebug(KWIN_CORE) << "Forcing EGL native interface for Wayland mode"; interface = EglPlatformInterface; } #if !HAVE_EPOXY_GLX qCDebug(KWIN_CORE) << "Forcing EGL native interface as compiled without GLX support"; interface = EglPlatformInterface; #endif if (QOpenGLContext::openGLModuleType() == QOpenGLContext::LibGLES) { qCDebug(KWIN_CORE) << "Forcing EGL native interface as Qt uses OpenGL ES"; interface = EglPlatformInterface; } else if (qstrcmp(qgetenv("KWIN_COMPOSE"), "O2ES") == 0) { qCDebug(KWIN_CORE) << "Forcing EGL native interface as OpenGL ES requested through KWIN_COMPOSE environment variable."; interface = EglPlatformInterface; } 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 reloadCompositingSettings(); emit configChanged(); } void Options::loadConfig() { m_settings->load(); syncFromKcfgc(); // Electric borders KConfigGroup config(m_settings->config(), "Windows"); OpTitlebarDblClick = windowOperation(config.readEntry("TitlebarDoubleClickCommand", "Maximize"), true); setOperationMaxButtonLeftClick(windowOperation(config.readEntry("MaximizeButtonLeftClickCommand", "Maximize"), true)); setOperationMaxButtonMiddleClick(windowOperation(config.readEntry("MaximizeButtonMiddleClickCommand", "Maximize (vertical only)"), true)); setOperationMaxButtonRightClick(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", "Nothing")); CmdAllModKey = (config.readEntry("CommandAllKey", "Meta") == 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", "Nothing"), true)); setCommandActiveTitlebar3(mouseCommand(config.readEntry("CommandActiveTitlebar3", "Operations menu"), true)); setCommandInactiveTitlebar1(mouseCommand(config.readEntry("CommandInactiveTitlebar1", "Activate and raise"), true)); setCommandInactiveTitlebar2(mouseCommand(config.readEntry("CommandInactiveTitlebar2", "Nothing"), 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 // Modifier Only Shortcuts config = KConfigGroup(m_settings->config(), "ModifierOnlyShortcuts"); m_modifierOnlyShortcuts.clear(); if (config.hasKey("Shift")) { m_modifierOnlyShortcuts.insert(Qt::ShiftModifier, config.readEntry("Shift", QStringList())); } if (config.hasKey("Control")) { m_modifierOnlyShortcuts.insert(Qt::ControlModifier, config.readEntry("Control", QStringList())); } if (config.hasKey("Alt")) { m_modifierOnlyShortcuts.insert(Qt::AltModifier, config.readEntry("Alt", QStringList())); } m_modifierOnlyShortcuts.insert(Qt::MetaModifier, config.readEntry("Meta", QStringList{QStringLiteral("org.kde.plasmashell"), QStringLiteral("/PlasmaShell"), QStringLiteral("org.kde.PlasmaShell"), QStringLiteral("activateLauncherMenu")})); } 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()); setFocusStealingPreventionLevel(m_settings->focusStealingPreventionLevel()); setXwaylandCrashPolicy(m_settings->xwaylandCrashPolicy()); setXwaylandMaxCrashCount(m_settings->xwaylandMaxCrashCount()); #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()); setBorderlessMaximizedWindows(m_settings->borderlessMaximizedWindows()); setElectricBorderMaximize(m_settings->electricBorderMaximize()); setElectricBorderTiling(m_settings->electricBorderTiling()); setElectricBorderCornerRatio(m_settings->electricBorderCornerRatio()); setWindowsBlockCompositing(m_settings->windowsBlockCompositing()); } 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': qCDebug(KWIN_CORE) << "Compositing forced to OpenGL mode by environment variable"; compositingMode = OpenGLCompositing; useCompositing = true; break; case 'X': qCDebug(KWIN_CORE) << "Compositing forced to XRender mode by environment variable"; compositingMode = XRenderCompositing; useCompositing = true; break; case 'Q': qCDebug(KWIN_CORE) << "Compositing forced to QPainter mode by environment variable"; compositingMode = QPainterCompositing; useCompositing = true; break; case 'N': if (getenv("KDE_FAILSAFE")) qCDebug(KWIN_CORE) << "Compositing disabled forcefully by KDE failsafe mode"; else qCDebug(KWIN_CORE) << "Compositing disabled forcefully by environment variable"; compositingMode = NoCompositing; break; default: qCDebug(KWIN_CORE) << "Unknown KWIN_COMPOSE mode set, ignoring"; break; } } setCompositingMode(compositingMode); const bool platformSupportsNoCompositing = kwinApp()->platform()->supportedCompositors().contains(NoCompositing); if (m_compositingMode == NoCompositing && platformSupportsNoCompositing) { 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() || !platformSupportsNoCompositing)); 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; } m_settings->load(); syncFromKcfgc(); // 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).toLatin1(); if (c != 'a' && c != 'c' && c != 'p' && c != 'e') c = 0; setGlPreferBufferSwap(c); 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); 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 Meta+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("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("nothing")) return MouseWheelNothing; return MouseWheelNothing; } 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; default: return MouseNothing; } } #endif double Options::animationTimeFactor() const { #ifndef KCMRULES return m_settings->animationDurationFactor(); #else return 0; #endif } Options::WindowOperation Options::operationMaxButtonClick(Qt::MouseButtons button) const { return button == Qt::RightButton ? opMaxButtonRightClick : button == Qt::MiddleButton ? opMaxButtonMiddleClick : opMaxButtonLeftClick; } QStringList Options::modifierOnlyDBusShortcut(Qt::KeyboardModifier mod) const { return m_modifierOnlyShortcuts.value(mod); } bool Options::isUseCompositing() const { return m_useCompositing || kwinApp()->platform()->requiresCompositing(); } } // namespace