/******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2006 Lubos Lunak Copyright (C) 2010, 2011 Martin Gräßlin 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 . *********************************************************************/ #include "effects.h" #include "deleted.h" #include "client.h" #include "group.h" #include "scene_xrender.h" #include "scene_opengl.h" #include "unmanaged.h" #ifdef KWIN_BUILD_TABBOX #include "tabbox.h" #endif #include "scripting/scriptedeffect.h" #include "thumbnailitem.h" #include "workspace.h" #include "kwinglutils.h" #include #include "kdebug.h" #include "klibrary.h" #include "kdesktopfile.h" #include "kconfiggroup.h" #include "kstandarddirs.h" #include #include #include #include #include namespace KWin { //--------------------- // Static static QByteArray readWindowProperty(Window win, long atom, long type, int format) { int len = 32768; for (;;) { unsigned char* data; Atom rtype; int rformat; unsigned long nitems, after; if (XGetWindowProperty(QX11Info::display(), win, atom, 0, len, False, AnyPropertyType, &rtype, &rformat, &nitems, &after, &data) == Success) { if (after > 0) { XFree(data); len *= 2; continue; } if (long(rtype) == type && rformat == format) { int bytelen = format == 8 ? nitems : format == 16 ? nitems * sizeof(short) : nitems * sizeof(long); QByteArray ret(reinterpret_cast< const char* >(data), bytelen); XFree(data); return ret; } else { // wrong format, type or something XFree(data); return QByteArray(); } } else // XGetWindowProperty() failed return QByteArray(); } } static void deleteWindowProperty(Window win, long int atom) { XDeleteProperty(QX11Info::display(), win, atom); } //--------------------- EffectsHandlerImpl::EffectsHandlerImpl(CompositingType type) : EffectsHandler(type) , keyboard_grab_effect(NULL) , fullscreen_effect(0) , next_window_quad_type(EFFECT_QUAD_TYPE_START) , mouse_poll_ref_count(0) { // init is important, otherwise causes crashes when quads are build before the first painting pass start m_currentBuildQuadsIterator = m_activeEffects.end(); Workspace *ws = Workspace::self(); connect(ws, SIGNAL(currentDesktopChanged(int)), this, SLOT(slotDesktopChanged(int))); connect(ws, SIGNAL(clientAdded(KWin::Client*)), this, SLOT(slotClientAdded(KWin::Client*))); connect(ws, SIGNAL(unmanagedAdded(KWin::Unmanaged*)), this, SLOT(slotUnmanagedAdded(KWin::Unmanaged*))); connect(ws, SIGNAL(clientActivated(KWin::Client*)), this, SLOT(slotClientActivated(KWin::Client*))); connect(ws, SIGNAL(deletedRemoved(KWin::Deleted*)), this, SLOT(slotDeletedRemoved(KWin::Deleted*))); connect(ws, SIGNAL(numberDesktopsChanged(int)), SIGNAL(numberDesktopsChanged(int))); connect(ws, SIGNAL(mouseChanged(QPoint,QPoint,Qt::MouseButtons,Qt::MouseButtons,Qt::KeyboardModifiers,Qt::KeyboardModifiers)), SIGNAL(mouseChanged(QPoint,QPoint,Qt::MouseButtons,Qt::MouseButtons,Qt::KeyboardModifiers,Qt::KeyboardModifiers))); connect(ws, SIGNAL(propertyNotify(long)), this, SLOT(slotPropertyNotify(long))); #ifdef KWIN_BUILD_TABBOX connect(ws->tabBox(), SIGNAL(tabBoxAdded(int)), SIGNAL(tabBoxAdded(int))); connect(ws->tabBox(), SIGNAL(tabBoxUpdated()), SIGNAL(tabBoxUpdated())); connect(ws->tabBox(), SIGNAL(tabBoxClosed()), SIGNAL(tabBoxClosed())); connect(ws->tabBox(), SIGNAL(tabBoxKeyEvent(QKeyEvent*)), SIGNAL(tabBoxKeyEvent(QKeyEvent*))); #endif // connect all clients foreach (Client *c, ws->clientList()) { setupClientConnections(c); } foreach (Unmanaged *u, ws->unmanagedList()) { setupUnmanagedConnections(u); } reconfigure(); } EffectsHandlerImpl::~EffectsHandlerImpl() { if (keyboard_grab_effect != NULL) ungrabKeyboard(); foreach (const EffectPair & ep, loaded_effects) unloadEffect(ep.first); foreach (const InputWindowPair & pos, input_windows) XDestroyWindow(display(), pos.second); } void EffectsHandlerImpl::setupClientConnections(Client* c) { connect(c, SIGNAL(windowClosed(KWin::Toplevel*,KWin::Deleted*)), this, SLOT(slotWindowClosed(KWin::Toplevel*))); connect(c, SIGNAL(clientMaximizedStateChanged(KWin::Client*,KDecorationDefines::MaximizeMode)), this, SLOT(slotClientMaximized(KWin::Client*,KDecorationDefines::MaximizeMode))); connect(c, SIGNAL(clientStartUserMovedResized(KWin::Client*)), this, SLOT(slotClientStartUserMovedResized(KWin::Client*))); connect(c, SIGNAL(clientStepUserMovedResized(KWin::Client*,QRect)), this, SLOT(slotClientStepUserMovedResized(KWin::Client*,QRect))); connect(c, SIGNAL(clientFinishUserMovedResized(KWin::Client*)), this, SLOT(slotClientFinishUserMovedResized(KWin::Client*))); connect(c, SIGNAL(opacityChanged(KWin::Toplevel*,qreal)), this, SLOT(slotOpacityChanged(KWin::Toplevel*,qreal))); connect(c, SIGNAL(clientMinimized(KWin::Client*,bool)), this, SLOT(slotClientMinimized(KWin::Client*,bool))); connect(c, SIGNAL(clientUnminimized(KWin::Client*,bool)), this, SLOT(slotClientUnminimized(KWin::Client*,bool))); connect(c, SIGNAL(geometryShapeChanged(KWin::Toplevel*,QRect)), this, SLOT(slotGeometryShapeChanged(KWin::Toplevel*,QRect))); connect(c, SIGNAL(damaged(KWin::Toplevel*,QRect)), this, SLOT(slotWindowDamaged(KWin::Toplevel*,QRect))); connect(c, SIGNAL(propertyNotify(KWin::Toplevel*,long)), this, SLOT(slotPropertyNotify(KWin::Toplevel*,long))); } void EffectsHandlerImpl::setupUnmanagedConnections(Unmanaged* u) { connect(u, SIGNAL(windowClosed(KWin::Toplevel*,KWin::Deleted*)), this, SLOT(slotWindowClosed(KWin::Toplevel*))); connect(u, SIGNAL(opacityChanged(KWin::Toplevel*,qreal)), this, SLOT(slotOpacityChanged(KWin::Toplevel*,qreal))); connect(u, SIGNAL(geometryShapeChanged(KWin::Toplevel*,QRect)), this, SLOT(slotGeometryShapeChanged(KWin::Toplevel*,QRect))); connect(u, SIGNAL(damaged(KWin::Toplevel*,QRect)), this, SLOT(slotWindowDamaged(KWin::Toplevel*,QRect))); connect(u, SIGNAL(propertyNotify(KWin::Toplevel*,long)), this, SLOT(slotPropertyNotify(KWin::Toplevel*,long))); } void EffectsHandlerImpl::reconfigure() { KSharedConfig::Ptr _config = KGlobal::config(); KConfigGroup conf(_config, "Plugins"); KService::List offers = KServiceTypeTrader::self()->query("KWin/Effect"); QStringList effectsToBeLoaded; QStringList checkDefault; // First unload necessary effects foreach (const KService::Ptr & service, offers) { KPluginInfo plugininfo(service); plugininfo.load(conf); if (plugininfo.isPluginEnabledByDefault()) { const QString key = plugininfo.pluginName() + QString::fromLatin1("Enabled"); if (!conf.hasKey(key)) checkDefault.append(plugininfo.pluginName()); } bool isloaded = isEffectLoaded(plugininfo.pluginName()); bool shouldbeloaded = plugininfo.isPluginEnabled(); if (!shouldbeloaded && isloaded) unloadEffect(plugininfo.pluginName()); if (shouldbeloaded) effectsToBeLoaded.append(plugininfo.pluginName()); } QStringList newLoaded; // Then load those that should be loaded foreach (const QString & effectName, effectsToBeLoaded) { if (!isEffectLoaded(effectName)) { if (loadEffect(effectName, checkDefault.contains(effectName))) newLoaded.append(effectName); } } foreach (const EffectPair & ep, loaded_effects) { if (!newLoaded.contains(ep.first)) // don't reconfigure newly loaded effects ep.second->reconfigure(Effect::ReconfigureAll); } } // the idea is that effects call this function again which calls the next one void EffectsHandlerImpl::prePaintScreen(ScreenPrePaintData& data, int time) { if (m_currentPaintScreenIterator != m_activeEffects.end()) { (*m_currentPaintScreenIterator++)->prePaintScreen(data, time); --m_currentPaintScreenIterator; } // no special final code } void EffectsHandlerImpl::paintScreen(int mask, QRegion region, ScreenPaintData& data) { if (m_currentPaintScreenIterator != m_activeEffects.end()) { (*m_currentPaintScreenIterator++)->paintScreen(mask, region, data); --m_currentPaintScreenIterator; } else scene->finalPaintScreen(mask, region, data); } void EffectsHandlerImpl::postPaintScreen() { if (m_currentPaintScreenIterator != m_activeEffects.end()) { (*m_currentPaintScreenIterator++)->postPaintScreen(); --m_currentPaintScreenIterator; } // no special final code } void EffectsHandlerImpl::prePaintWindow(EffectWindow* w, WindowPrePaintData& data, int time) { if (m_currentPaintWindowIterator != m_activeEffects.end()) { (*m_currentPaintWindowIterator++)->prePaintWindow(w, data, time); --m_currentPaintWindowIterator; } // no special final code } void EffectsHandlerImpl::paintWindow(EffectWindow* w, int mask, QRegion region, WindowPaintData& data) { if (m_currentPaintWindowIterator != m_activeEffects.end()) { (*m_currentPaintWindowIterator++)->paintWindow(w, mask, region, data); --m_currentPaintWindowIterator; } else scene->finalPaintWindow(static_cast(w), mask, region, data); } void EffectsHandlerImpl::paintEffectFrame(EffectFrame* frame, QRegion region, double opacity, double frameOpacity) { if (m_currentPaintEffectFrameIterator != m_activeEffects.end()) { (*m_currentPaintEffectFrameIterator++)->paintEffectFrame(frame, region, opacity, frameOpacity); --m_currentPaintEffectFrameIterator; } else { const EffectFrameImpl* frameImpl = static_cast(frame); frameImpl->finalRender(region, opacity, frameOpacity); } } void EffectsHandlerImpl::postPaintWindow(EffectWindow* w) { if (m_currentPaintWindowIterator != m_activeEffects.end()) { (*m_currentPaintWindowIterator++)->postPaintWindow(w); --m_currentPaintWindowIterator; } // no special final code } bool EffectsHandlerImpl::provides(Effect::Feature ef) { for (int i = 0; i < loaded_effects.size(); ++i) if (loaded_effects.at(i).second->provides(ef)) return true; return false; } void EffectsHandlerImpl::drawWindow(EffectWindow* w, int mask, QRegion region, WindowPaintData& data) { if (m_currentDrawWindowIterator != m_activeEffects.end()) { (*m_currentDrawWindowIterator++)->drawWindow(w, mask, region, data); --m_currentDrawWindowIterator; } else scene->finalDrawWindow(static_cast(w), mask, region, data); } void EffectsHandlerImpl::buildQuads(EffectWindow* w, WindowQuadList& quadList) { if (m_currentBuildQuadsIterator != m_activeEffects.end()) { (*m_currentBuildQuadsIterator++)->buildQuads(w, quadList); --m_currentBuildQuadsIterator; } } bool EffectsHandlerImpl::hasDecorationShadows() const { return Workspace::self()->hasDecorationShadows(); } bool EffectsHandlerImpl::decorationsHaveAlpha() const { return Workspace::self()->decorationHasAlpha(); } bool EffectsHandlerImpl::decorationSupportsBlurBehind() const { return Workspace::self()->decorationSupportsBlurBehind(); } // start another painting pass void EffectsHandlerImpl::startPaint() { m_activeEffects.clear(); for(QVector< KWin::EffectPair >::iterator it = loaded_effects.begin(); it != loaded_effects.end(); ++it) { if (it->second->isActive()) { m_activeEffects << it->second; } } m_currentDrawWindowIterator = m_activeEffects.begin(); m_currentPaintWindowIterator = m_activeEffects.begin(); m_currentPaintScreenIterator = m_activeEffects.begin(); m_currentPaintEffectFrameIterator = m_activeEffects.begin(); m_currentBuildQuadsIterator = m_activeEffects.begin(); } void EffectsHandlerImpl::slotClientMaximized(KWin::Client *c, KDecorationDefines::MaximizeMode maxMode) { bool horizontal = false; bool vertical = false; switch (maxMode) { case KDecorationDefines::MaximizeHorizontal: horizontal = true; break; case KDecorationDefines::MaximizeVertical: vertical = true; break; case KDecorationDefines::MaximizeFull: horizontal = true; vertical = true; break; case KDecorationDefines::MaximizeRestore: // fall through default: // default - nothing to do break; } emit windowMaximizedStateChanged(c->effectWindow(), horizontal, vertical); } void EffectsHandlerImpl::slotClientStartUserMovedResized(Client *c) { emit windowStartUserMovedResized(c->effectWindow()); } void EffectsHandlerImpl::slotClientFinishUserMovedResized(Client *c) { emit windowFinishUserMovedResized(c->effectWindow()); } void EffectsHandlerImpl::slotClientStepUserMovedResized(Client* c, const QRect& geometry) { emit windowStepUserMovedResized(c->effectWindow(), geometry); } void EffectsHandlerImpl::slotOpacityChanged(Toplevel *t, qreal oldOpacity) { if (t->opacity() == oldOpacity || !t->effectWindow()) { return; } emit windowOpacityChanged(t->effectWindow(), oldOpacity, (qreal)t->opacity()); } void EffectsHandlerImpl::slotClientAdded(Client *c) { if (c->readyForPainting()) slotClientShown(c); else connect(c, SIGNAL(windowShown(KWin::Toplevel*)), SLOT(slotClientShown(KWin::Toplevel*))); } void EffectsHandlerImpl::slotUnmanagedAdded(Unmanaged *u) { // regardless, unmanaged windows are -yet?- not synced anyway setupUnmanagedConnections(u); emit windowAdded(u->effectWindow()); } void EffectsHandlerImpl::slotClientShown(KWin::Toplevel *t) { Q_ASSERT(dynamic_cast(t)); Client *c = static_cast(t); setupClientConnections(c); if (!c->tabGroup()) // the "window" has already been there emit windowAdded(c->effectWindow()); } void EffectsHandlerImpl::slotDeletedRemoved(KWin::Deleted *d) { emit windowDeleted(d->effectWindow()); elevated_windows.removeAll(d->effectWindow()); } void EffectsHandlerImpl::slotWindowClosed(KWin::Toplevel *c) { emit windowClosed(c->effectWindow()); } void EffectsHandlerImpl::slotClientActivated(KWin::Client *c) { emit windowActivated(c ? c->effectWindow() : NULL); } void EffectsHandlerImpl::slotClientMinimized(Client *c, bool animate) { // TODO: notify effects even if it should not animate? if (animate) { emit windowMinimized(c->effectWindow()); } } void EffectsHandlerImpl::slotClientUnminimized(Client* c, bool animate) { // TODO: notify effects even if it should not animate? if (animate) { emit windowUnminimized(c->effectWindow()); } } void EffectsHandlerImpl::slotCurrentTabAboutToChange(EffectWindow *from, EffectWindow *to) { emit currentTabAboutToChange(from, to); } void EffectsHandlerImpl::slotTabAdded(EffectWindow* w, EffectWindow* to) { emit tabAdded(w, to); } void EffectsHandlerImpl::slotTabRemoved(EffectWindow *w, EffectWindow* leaderOfFormerGroup) { emit tabRemoved(w, leaderOfFormerGroup); } void EffectsHandlerImpl::slotDesktopChanged(int old) { const int newDesktop = Workspace::self()->currentDesktop(); if (old != 0 && newDesktop != old) { emit desktopChanged(old, newDesktop); } } void EffectsHandlerImpl::slotWindowDamaged(Toplevel* t, const QRect& r) { if (!t->effectWindow()) { // can happen during tear down of window return; } emit windowDamaged(t->effectWindow(), r); } void EffectsHandlerImpl::slotGeometryShapeChanged(Toplevel* t, const QRect& old) { // during late cleanup effectWindow() may be already NULL // in some functions that may still call this if (t == NULL || t->effectWindow() == NULL) return; emit windowGeometryShapeChanged(t->effectWindow(), old); } void EffectsHandlerImpl::setActiveFullScreenEffect(Effect* e) { fullscreen_effect = e; Workspace::self()->checkUnredirect(); } Effect* EffectsHandlerImpl::activeFullScreenEffect() const { return fullscreen_effect; } bool EffectsHandlerImpl::borderActivated(ElectricBorder border) { bool ret = false; foreach (const EffectPair & ep, loaded_effects) if (ep.second->borderActivated(border)) ret = true; // bail out or tell all? return ret; } bool EffectsHandlerImpl::grabKeyboard(Effect* effect) { if (keyboard_grab_effect != NULL) return false; bool ret = grabXKeyboard(); if (!ret) return false; keyboard_grab_effect = effect; return true; } void EffectsHandlerImpl::ungrabKeyboard() { assert(keyboard_grab_effect != NULL); ungrabXKeyboard(); keyboard_grab_effect = NULL; } void EffectsHandlerImpl::grabbedKeyboardEvent(QKeyEvent* e) { if (keyboard_grab_effect != NULL) keyboard_grab_effect->grabbedKeyboardEvent(e); } void* EffectsHandlerImpl::getProxy(QString name) { // All effects start with "kwin4_effect_", prepend it to the name name.prepend("kwin4_effect_"); for (QVector< EffectPair >::iterator it = loaded_effects.begin(); it != loaded_effects.end(); ++it) if ((*it).first == name) return (*it).second->proxy(); return NULL; } void EffectsHandlerImpl::startMousePolling() { if (!mouse_poll_ref_count) // Start timer if required Workspace::self()->startMousePolling(); mouse_poll_ref_count++; } void EffectsHandlerImpl::stopMousePolling() { assert(mouse_poll_ref_count); mouse_poll_ref_count--; if (!mouse_poll_ref_count) // Stop timer if required Workspace::self()->stopMousePolling(); } bool EffectsHandlerImpl::hasKeyboardGrab() const { return keyboard_grab_effect != NULL; } void EffectsHandlerImpl::desktopResized(const QSize &size) { scene->screenGeometryChanged(size); emit screenGeometryChanged(size); Workspace::self()->addRepaintFull(); } void EffectsHandlerImpl::slotPropertyNotify(Toplevel* t, long int atom) { if (!registered_atoms.contains(atom)) return; emit propertyNotify(t->effectWindow(), atom); } void EffectsHandlerImpl::slotPropertyNotify(long int atom) { if (!registered_atoms.contains(atom)) return; emit propertyNotify(NULL, atom); } void EffectsHandlerImpl::registerPropertyType(long atom, bool reg) { if (reg) ++registered_atoms[ atom ]; // initialized to 0 if not present yet else { if (--registered_atoms[ atom ] == 0) registered_atoms.remove(atom); } } QByteArray EffectsHandlerImpl::readRootProperty(long atom, long type, int format) const { return readWindowProperty(rootWindow(), atom, type, format); } void EffectsHandlerImpl::deleteRootProperty(long atom) const { deleteWindowProperty(rootWindow(), atom); } void EffectsHandlerImpl::activateWindow(EffectWindow* c) { if (Client* cl = dynamic_cast< Client* >(static_cast(c)->window())) Workspace::self()->activateClient(cl, true); } EffectWindow* EffectsHandlerImpl::activeWindow() const { return Workspace::self()->activeClient() ? Workspace::self()->activeClient()->effectWindow() : NULL; } void EffectsHandlerImpl::moveWindow(EffectWindow* w, const QPoint& pos, bool snap, double snapAdjust) { Client* cl = dynamic_cast< Client* >(static_cast(w)->window()); if (!cl || !cl->isMovable()) return; if (snap) cl->move(Workspace::self()->adjustClientPosition(cl, pos, true, snapAdjust)); else cl->move(pos); } void EffectsHandlerImpl::windowToDesktop(EffectWindow* w, int desktop) { Client* cl = dynamic_cast< Client* >(static_cast(w)->window()); if (cl && !cl->isDesktop() && !cl->isDock()) Workspace::self()->sendClientToDesktop(cl, desktop, true); } void EffectsHandlerImpl::windowToScreen(EffectWindow* w, int screen) { Client* cl = dynamic_cast< Client* >(static_cast(w)->window()); if (cl && !cl->isDesktop() && !cl->isDock()) Workspace::self()->sendClientToScreen(cl, screen); } void EffectsHandlerImpl::setShowingDesktop(bool showing) { Workspace::self()->setShowingDesktop(showing); } QString EffectsHandlerImpl::currentActivity() const { return Workspace::self()->currentActivity(); } int EffectsHandlerImpl::currentDesktop() const { return Workspace::self()->currentDesktop(); } int EffectsHandlerImpl::numberOfDesktops() const { return Workspace::self()->numberOfDesktops(); } void EffectsHandlerImpl::setCurrentDesktop(int desktop) { Workspace::self()->setCurrentDesktop(desktop); } void EffectsHandlerImpl::setNumberOfDesktops(int desktops) { Workspace::self()->setNumberOfDesktops(desktops); } QSize EffectsHandlerImpl::desktopGridSize() const { return Workspace::self()->desktopGridSize(); } int EffectsHandlerImpl::desktopGridWidth() const { return Workspace::self()->desktopGridWidth(); } int EffectsHandlerImpl::desktopGridHeight() const { return Workspace::self()->desktopGridHeight(); } int EffectsHandlerImpl::workspaceWidth() const { return Workspace::self()->workspaceWidth(); } int EffectsHandlerImpl::workspaceHeight() const { return Workspace::self()->workspaceHeight(); } int EffectsHandlerImpl::desktopAtCoords(QPoint coords) const { return Workspace::self()->desktopAtCoords(coords); } QPoint EffectsHandlerImpl::desktopGridCoords(int id) const { return Workspace::self()->desktopGridCoords(id); } QPoint EffectsHandlerImpl::desktopCoords(int id) const { return Workspace::self()->desktopCoords(id); } int EffectsHandlerImpl::desktopAbove(int desktop, bool wrap) const { return Workspace::self()->desktopAbove(desktop, wrap); } int EffectsHandlerImpl::desktopToRight(int desktop, bool wrap) const { return Workspace::self()->desktopToRight(desktop, wrap); } int EffectsHandlerImpl::desktopBelow(int desktop, bool wrap) const { return Workspace::self()->desktopBelow(desktop, wrap); } int EffectsHandlerImpl::desktopToLeft(int desktop, bool wrap) const { return Workspace::self()->desktopToLeft(desktop, wrap); } QString EffectsHandlerImpl::desktopName(int desktop) const { return Workspace::self()->desktopName(desktop); } bool EffectsHandlerImpl::optionRollOverDesktops() const { return options->isRollOverDesktops(); } double EffectsHandlerImpl::animationTimeFactor() const { return options->animationTimeFactor(); } WindowQuadType EffectsHandlerImpl::newWindowQuadType() { return WindowQuadType(next_window_quad_type++); } int EffectsHandlerImpl::displayWidth() const { return KWin::displayWidth(); } int EffectsHandlerImpl::displayHeight() const { return KWin::displayWidth(); } EffectWindow* EffectsHandlerImpl::findWindow(WId id) const { if (Client* w = Workspace::self()->findClient(WindowMatchPredicate(id))) return w->effectWindow(); if (Unmanaged* w = Workspace::self()->findUnmanaged(WindowMatchPredicate(id))) return w->effectWindow(); return NULL; } EffectWindowList EffectsHandlerImpl::stackingOrder() const { ToplevelList list = Workspace::self()->xStackingOrder(); EffectWindowList ret; foreach (Toplevel *w, list) ret.append(effectWindow(w)); return ret; } void EffectsHandlerImpl::setElevatedWindow(EffectWindow* w, bool set) { elevated_windows.removeAll(w); if (set) elevated_windows.append(w); } void EffectsHandlerImpl::setTabBoxWindow(EffectWindow* w) { #ifdef KWIN_BUILD_TABBOX if (Client* c = dynamic_cast< Client* >(static_cast< EffectWindowImpl* >(w)->window())) { if (Workspace::self()->hasTabBox()) { Workspace::self()->tabBox()->setCurrentClient(c); } } #else Q_UNUSED(w) #endif } void EffectsHandlerImpl::setTabBoxDesktop(int desktop) { #ifdef KWIN_BUILD_TABBOX if (Workspace::self()->hasTabBox()) { Workspace::self()->tabBox()->setCurrentDesktop(desktop); } #else Q_UNUSED(desktop) #endif } EffectWindowList EffectsHandlerImpl::currentTabBoxWindowList() const { #ifdef KWIN_BUILD_TABBOX EffectWindowList ret; ClientList clients; if (Workspace::self()->hasTabBox()) { clients = Workspace::self()->tabBox()->currentClientList(); } else { clients = ClientList(); } foreach (Client * c, clients) ret.append(c->effectWindow()); return ret; #else return EffectWindowList(); #endif } void EffectsHandlerImpl::refTabBox() { #ifdef KWIN_BUILD_TABBOX if (Workspace::self()->hasTabBox()) { Workspace::self()->tabBox()->reference(); } #endif } void EffectsHandlerImpl::unrefTabBox() { #ifdef KWIN_BUILD_TABBOX if (Workspace::self()->hasTabBox()) { Workspace::self()->tabBox()->unreference(); } #endif } void EffectsHandlerImpl::closeTabBox() { #ifdef KWIN_BUILD_TABBOX if (Workspace::self()->hasTabBox()) { Workspace::self()->tabBox()->close(); } #endif } QList< int > EffectsHandlerImpl::currentTabBoxDesktopList() const { #ifdef KWIN_BUILD_TABBOX if (Workspace::self()->hasTabBox()) { return Workspace::self()->tabBox()->currentDesktopList(); } #endif return QList< int >(); } int EffectsHandlerImpl::currentTabBoxDesktop() const { #ifdef KWIN_BUILD_TABBOX if (Workspace::self()->hasTabBox()) { return Workspace::self()->tabBox()->currentDesktop(); } #endif return -1; } EffectWindow* EffectsHandlerImpl::currentTabBoxWindow() const { #ifdef KWIN_BUILD_TABBOX if (Workspace::self()->hasTabBox()) { if (Client* c = Workspace::self()->tabBox()->currentClient()) return c->effectWindow(); } #endif return NULL; } void EffectsHandlerImpl::addRepaintFull() { Workspace::self()->addRepaintFull(); } void EffectsHandlerImpl::addRepaint(const QRect& r) { Workspace::self()->addRepaint(r); } void EffectsHandlerImpl::addRepaint(const QRegion& r) { Workspace::self()->addRepaint(r); } void EffectsHandlerImpl::addRepaint(int x, int y, int w, int h) { Workspace::self()->addRepaint(x, y, w, h); } int EffectsHandlerImpl::activeScreen() const { return Workspace::self()->activeScreen(); } int EffectsHandlerImpl::numScreens() const { return Workspace::self()->numScreens(); } int EffectsHandlerImpl::screenNumber(const QPoint& pos) const { return Workspace::self()->screenNumber(pos); } QRect EffectsHandlerImpl::clientArea(clientAreaOption opt, int screen, int desktop) const { return Workspace::self()->clientArea(opt, screen, desktop); } QRect EffectsHandlerImpl::clientArea(clientAreaOption opt, const EffectWindow* c) const { const Toplevel* t = static_cast< const EffectWindowImpl* >(c)->window(); if (const Client* cl = dynamic_cast< const Client* >(t)) return Workspace::self()->clientArea(opt, cl); else return Workspace::self()->clientArea(opt, t->geometry().center(), Workspace::self()->currentDesktop()); } QRect EffectsHandlerImpl::clientArea(clientAreaOption opt, const QPoint& p, int desktop) const { return Workspace::self()->clientArea(opt, p, desktop); } Window EffectsHandlerImpl::createInputWindow(Effect* e, int x, int y, int w, int h, const QCursor& cursor) { XSetWindowAttributes attrs; attrs.override_redirect = True; Window win = XCreateWindow(display(), rootWindow(), x, y, w, h, 0, 0, InputOnly, CopyFromParent, CWOverrideRedirect, &attrs); // TODO keeping on top? // TODO enter/leave notify? XSelectInput(display(), win, ButtonPressMask | ButtonReleaseMask | PointerMotionMask); XDefineCursor(display(), win, cursor.handle()); XMapWindow(display(), win); input_windows.append(qMakePair(e, win)); // Raise electric border windows above the input windows // so they can still be triggered. #ifdef KWIN_BUILD_SCREENEDGES Workspace::self()->screenEdge()->ensureOnTop(); #endif return win; } void EffectsHandlerImpl::destroyInputWindow(Window w) { foreach (const InputWindowPair & pos, input_windows) { if (pos.second == w) { input_windows.removeAll(pos); XDestroyWindow(display(), w); return; } } abort(); } bool EffectsHandlerImpl::checkInputWindowEvent(XEvent* e) { if (e->type != ButtonPress && e->type != ButtonRelease && e->type != MotionNotify) return false; foreach (const InputWindowPair & pos, input_windows) { if (pos.second == e->xany.window) { switch(e->type) { case ButtonPress: { XButtonEvent* e2 = &e->xbutton; Qt::MouseButton button = x11ToQtMouseButton(e2->button); Qt::MouseButtons buttons = x11ToQtMouseButtons(e2->state) | button; QMouseEvent ev(QEvent::MouseButtonPress, QPoint(e2->x, e2->y), QPoint(e2->x_root, e2->y_root), button, buttons, x11ToQtKeyboardModifiers(e2->state)); pos.first->windowInputMouseEvent(pos.second, &ev); break; // ---> } case ButtonRelease: { XButtonEvent* e2 = &e->xbutton; Qt::MouseButton button = x11ToQtMouseButton(e2->button); Qt::MouseButtons buttons = x11ToQtMouseButtons(e2->state) & ~button; QMouseEvent ev(QEvent::MouseButtonRelease, QPoint(e2->x, e2->y), QPoint(e2->x_root, e2->y_root), button, buttons, x11ToQtKeyboardModifiers(e2->state)); pos.first->windowInputMouseEvent(pos.second, &ev); break; // ---> } case MotionNotify: { XMotionEvent* e2 = &e->xmotion; QMouseEvent ev(QEvent::MouseMove, QPoint(e2->x, e2->y), QPoint(e2->x_root, e2->y_root), Qt::NoButton, x11ToQtMouseButtons(e2->state), x11ToQtKeyboardModifiers(e2->state)); pos.first->windowInputMouseEvent(pos.second, &ev); break; // ---> } } return true; // eat event } } return false; } void EffectsHandlerImpl::checkInputWindowStacking() { if (input_windows.count() == 0) return; Window* wins = new Window[ input_windows.count()]; int pos = 0; foreach (const InputWindowPair & it, input_windows) wins[ pos++ ] = it.second; XRaiseWindow(display(), wins[ 0 ]); XRestackWindows(display(), wins, pos); delete[] wins; // Raise electric border windows above the input windows // so they can still be triggered. TODO: Do both at once. #ifdef KWIN_BUILD_SCREENEDGES Workspace::self()->screenEdge()->ensureOnTop(); #endif } QPoint EffectsHandlerImpl::cursorPos() const { return Workspace::self()->cursorPos(); } void EffectsHandlerImpl::checkElectricBorder(const QPoint &pos, Time time) { #ifdef KWIN_BUILD_SCREENEDGES Workspace::self()->screenEdge()->check(pos, time); #else Q_UNUSED(pos) Q_UNUSED(time) #endif } void EffectsHandlerImpl::reserveElectricBorder(ElectricBorder border) { #ifdef KWIN_BUILD_SCREENEDGES Workspace::self()->screenEdge()->reserve(border); #else Q_UNUSED(border) #endif } void EffectsHandlerImpl::unreserveElectricBorder(ElectricBorder border) { #ifdef KWIN_BUILD_SCREENEDGES Workspace::self()->screenEdge()->unreserve(border); #else Q_UNUSED(border) #endif } void EffectsHandlerImpl::reserveElectricBorderSwitching(bool reserve) { #ifdef KWIN_BUILD_SCREENEDGES Workspace::self()->screenEdge()->reserveDesktopSwitching(reserve); #else Q_UNUSED(reserve) #endif } unsigned long EffectsHandlerImpl::xrenderBufferPicture() { #ifdef KWIN_HAVE_XRENDER_COMPOSITING if (SceneXrender* s = dynamic_cast< SceneXrender* >(scene)) return s->bufferPicture(); #endif return None; } KLibrary* EffectsHandlerImpl::findEffectLibrary(KService* service) { QString libname = service->library(); #ifdef KWIN_HAVE_OPENGLES if (libname.startsWith(QLatin1String("kwin4_effect_"))) { libname.replace("kwin4_effect_", "kwin4_effect_gles_"); } #endif KLibrary* library = new KLibrary(libname); if (!library) { kError(1212) << "couldn't open library for effect '" << service->name() << "'" << endl; return 0; } return library; } void EffectsHandlerImpl::toggleEffect(const QString& name) { if (isEffectLoaded(name)) unloadEffect(name); else loadEffect(name); } QStringList EffectsHandlerImpl::loadedEffects() const { QStringList listModules; for (QVector< EffectPair >::const_iterator it = loaded_effects.constBegin(); it != loaded_effects.constEnd(); ++it) { listModules << (*it).first; } return listModules; } QStringList EffectsHandlerImpl::listOfEffects() const { KService::List offers = KServiceTypeTrader::self()->query("KWin/Effect"); QStringList listOfModules; // First unload necessary effects foreach (const KService::Ptr & service, offers) { KPluginInfo plugininfo(service); listOfModules << plugininfo.pluginName(); } return listOfModules; } bool EffectsHandlerImpl::loadEffect(const QString& name, bool checkDefault) { Workspace::self()->addRepaintFull(); if (!name.startsWith(QLatin1String("kwin4_effect_"))) kWarning(1212) << "Effect names usually have kwin4_effect_ prefix" ; // Make sure a single effect won't be loaded multiple times for (QVector< EffectPair >::const_iterator it = loaded_effects.constBegin(); it != loaded_effects.constEnd(); ++it) { if ((*it).first == name) { kDebug(1212) << "EffectsHandler::loadEffect : Effect already loaded : " << name; return true; } } kDebug(1212) << "Trying to load " << name; QString internalname = name.toLower(); QString constraint = QString("[X-KDE-PluginInfo-Name] == '%1'").arg(internalname); KService::List offers = KServiceTypeTrader::self()->query("KWin/Effect", constraint); if (offers.isEmpty()) { kError(1212) << "Couldn't find effect " << name << endl; return false; } KService::Ptr service = offers.first(); if (service->property("X-Plasma-API").toString() == "javascript") { // this is a scripted effect - use different loader return loadScriptedEffect(name, service.data()); } KLibrary* library = findEffectLibrary(service.data()); if (!library) { return false; } QString version_symbol = "effect_version_" + name; KLibrary::void_function_ptr version_func = library->resolveFunction(version_symbol.toAscii()); if (version_func == NULL) { kWarning(1212) << "Effect " << name << " does not provide required API version, ignoring."; delete library; return false; } typedef int (*t_versionfunc)(); int version = reinterpret_cast< t_versionfunc >(version_func)(); // call it // Version must be the same or less, but major must be the same. // With major 0 minor must match exactly. if (version > KWIN_EFFECT_API_VERSION || (version >> 8) != KWIN_EFFECT_API_VERSION_MAJOR || (KWIN_EFFECT_API_VERSION_MAJOR == 0 && version != KWIN_EFFECT_API_VERSION)) { kWarning(1212) << "Effect " << name << " requires unsupported API version " << version; delete library; return false; } const QString enabledByDefault_symbol = "effect_enabledbydefault_" + name; KLibrary::void_function_ptr enabledByDefault_func = library->resolveFunction(enabledByDefault_symbol.toAscii().data()); const QString supported_symbol = "effect_supported_" + name; KLibrary::void_function_ptr supported_func = library->resolveFunction(supported_symbol.toAscii().data()); const QString create_symbol = "effect_create_" + name; KLibrary::void_function_ptr create_func = library->resolveFunction(create_symbol.toAscii().data()); if (supported_func) { typedef bool (*t_supportedfunc)(); t_supportedfunc supported = reinterpret_cast(supported_func); if (!supported()) { kWarning(1212) << "EffectsHandler::loadEffect : Effect " << name << " is not supported" ; library->unload(); return false; } } if (checkDefault && enabledByDefault_func) { typedef bool (*t_enabledByDefaultfunc)(); t_enabledByDefaultfunc enabledByDefault = reinterpret_cast(enabledByDefault_func); if (!enabledByDefault()) { library->unload(); return false; } } if (!create_func) { kError(1212) << "EffectsHandler::loadEffect : effect_create function not found" << endl; library->unload(); return false; } typedef Effect*(*t_createfunc)(); t_createfunc create = reinterpret_cast(create_func); // Make sure all depenedencies have been loaded // TODO: detect circular deps KPluginInfo plugininfo(service); QStringList dependencies = plugininfo.dependencies(); foreach (const QString & depName, dependencies) { if (!loadEffect(depName)) { kError(1212) << "EffectsHandler::loadEffect : Couldn't load dependencies for effect " << name << endl; library->unload(); return false; } } Effect* e = create(); effect_order.insert(service->property("X-KDE-Ordering").toInt(), EffectPair(name, e)); effectsChanged(); effect_libraries[ name ] = library; return true; } bool EffectsHandlerImpl::loadScriptedEffect(const QString& name, KService *service) { const KDesktopFile df("services", service->entryPath()); const QString scriptName = df.desktopGroup().readEntry("X-Plasma-MainScript", ""); if (scriptName.isEmpty()) { kDebug(1212) << "X-Plasma-MainScript not set"; return false; } const QString scriptFile = KStandardDirs::locateLocal("data", "kwin/effects/" + name + '/' + scriptName); if (scriptFile.isNull()) { kDebug(1212) << "Could not locate the effect script"; return false; } ScriptedEffect *effect = ScriptedEffect::create(scriptFile); if (!effect) { return false; } effect_order.insert(service->property("X-KDE-Ordering").toInt(), EffectPair(name, effect)); effectsChanged(); return true; } void EffectsHandlerImpl::unloadEffect(const QString& name) { Workspace::self()->addRepaintFull(); for (QMap< int, EffectPair >::iterator it = effect_order.begin(); it != effect_order.end(); ++it) { if (it.value().first == name) { kDebug(1212) << "EffectsHandler::unloadEffect : Unloading Effect : " << name; if (activeFullScreenEffect() == it.value().second) { setActiveFullScreenEffect(0); } delete it.value().second; effect_order.erase(it); effectsChanged(); if (effect_libraries.contains(name)) { effect_libraries[ name ]->unload(); } return; } } kDebug(1212) << "EffectsHandler::unloadEffect : Effect not loaded : " << name; } void EffectsHandlerImpl::reconfigureEffect(const QString& name) { for (QVector< EffectPair >::iterator it = loaded_effects.begin(); it != loaded_effects.end(); ++it) if ((*it).first == name) { (*it).second->reconfigure(Effect::ReconfigureAll); return; } } bool EffectsHandlerImpl::isEffectLoaded(const QString& name) { for (QVector< EffectPair >::iterator it = loaded_effects.begin(); it != loaded_effects.end(); ++it) if ((*it).first == name) return true; return false; } void EffectsHandlerImpl::reloadEffect(Effect *effect) { QString effectName; for (QVector< EffectPair >::iterator it = loaded_effects.begin(); it != loaded_effects.end(); ++it) { if ((*it).second == effect) { effectName = (*it).first; break; } } if (!effectName.isNull()) { unloadEffect(effectName); loadEffect(effectName); } } void EffectsHandlerImpl::effectsChanged() { loaded_effects.clear(); // kDebug(1212) << "Recreating effects' list:"; foreach (const EffectPair & effect, effect_order) { // kDebug(1212) << effect.first; loaded_effects.append(effect); } } QStringList EffectsHandlerImpl::activeEffects() const { QStringList ret; for(QVector< KWin::EffectPair >::const_iterator it = loaded_effects.constBegin(), end = loaded_effects.constEnd(); it != end; ++it) { if (it->second->isActive()) { ret << it->first; } } return ret; } EffectFrame* EffectsHandlerImpl::effectFrame(EffectFrameStyle style, bool staticSize, const QPoint& position, Qt::Alignment alignment) const { return new EffectFrameImpl(style, staticSize, position, alignment); } QVariant EffectsHandlerImpl::kwinOption(KWinOption kwopt) { switch (kwopt) { case CloseButtonCorner: return Workspace::self()->decorationCloseButtonCorner(); } return QVariant(); // an invalid one } void EffectsHandlerImpl::slotShowOutline(const QRect& geometry) { emit showOutline(geometry); } void EffectsHandlerImpl::slotHideOutline() { emit hideOutline(); } //**************************************** // EffectWindowImpl //**************************************** EffectWindowImpl::EffectWindowImpl(Toplevel *toplevel) : EffectWindow(toplevel) , toplevel(toplevel) , sw(NULL) { } EffectWindowImpl::~EffectWindowImpl() { QVariant cachedTextureVariant = data(LanczosCacheRole); if (cachedTextureVariant.isValid()) { GLTexture *cachedTexture = static_cast< GLTexture*>(cachedTextureVariant.value()); delete cachedTexture; } } bool EffectWindowImpl::isPaintingEnabled() { return sceneWindow()->isPaintingEnabled(); } void EffectWindowImpl::enablePainting(int reason) { sceneWindow()->enablePainting(reason); } void EffectWindowImpl::disablePainting(int reason) { sceneWindow()->disablePainting(reason); } const EffectWindowGroup* EffectWindowImpl::group() const { if (Client* c = dynamic_cast< Client* >(toplevel)) return c->group()->effectGroup(); return NULL; // TODO } void EffectWindowImpl::refWindow() { if (Deleted* d = dynamic_cast< Deleted* >(toplevel)) return d->refWindow(); abort(); // TODO } void EffectWindowImpl::unrefWindow() { if (Deleted* d = dynamic_cast< Deleted* >(toplevel)) return d->unrefWindow(true); // delayed abort(); // TODO } void EffectWindowImpl::setWindow(Toplevel* w) { toplevel = w; setParent(w); } void EffectWindowImpl::setSceneWindow(Scene::Window* w) { sw = w; } QRegion EffectWindowImpl::shape() const { return sw ? sw->shape() : geometry(); } QRect EffectWindowImpl::decorationInnerRect() const { Client *client = dynamic_cast(toplevel); return client ? client->transparentRect() : contentsRect(); } QByteArray EffectWindowImpl::readProperty(long atom, long type, int format) const { return readWindowProperty(window()->window(), atom, type, format); } void EffectWindowImpl::deleteProperty(long int atom) const { deleteWindowProperty(window()->window(), atom); } EffectWindow* EffectWindowImpl::findModal() { if (Client* c = dynamic_cast< Client* >(toplevel)) { if (Client* c2 = c->findModal()) return c2->effectWindow(); } return NULL; } EffectWindowList EffectWindowImpl::mainWindows() const { if (Client* c = dynamic_cast< Client* >(toplevel)) { EffectWindowList ret; ClientList mainclients = c->mainClients(); foreach (Client * tmp, mainclients) ret.append(tmp->effectWindow()); return ret; } return EffectWindowList(); } WindowQuadList EffectWindowImpl::buildQuads(bool force) const { return sceneWindow()->buildQuads(force); } void EffectWindowImpl::setData(int role, const QVariant &data) { if (!data.isNull()) dataMap[ role ] = data; else dataMap.remove(role); } QVariant EffectWindowImpl::data(int role) const { if (!dataMap.contains(role)) return QVariant(); return dataMap[ role ]; } EffectWindow* effectWindow(Toplevel* w) { EffectWindowImpl* ret = w->effectWindow(); return ret; } EffectWindow* effectWindow(Scene::Window* w) { EffectWindowImpl* ret = w->window()->effectWindow(); ret->setSceneWindow(w); return ret; } void EffectWindowImpl::registerThumbnail(ThumbnailItem *item) { insertThumbnail(item); connect(item, SIGNAL(destroyed(QObject*)), SLOT(thumbnailDestroyed(QObject*))); connect(item, SIGNAL(wIdChanged(qulonglong)), SLOT(thumbnailTargetChanged())); } void EffectWindowImpl::thumbnailDestroyed(QObject *object) { // we know it is a ThumbnailItem m_thumbnails.remove(static_cast(object)); } void EffectWindowImpl::thumbnailTargetChanged() { if (ThumbnailItem *item = qobject_cast(sender())) { insertThumbnail(item); } } void EffectWindowImpl::insertThumbnail(ThumbnailItem *item) { EffectWindow *w = effects->findWindow(item->wId()); if (w) { m_thumbnails.insert(item, QWeakPointer(static_cast(w))); } else { m_thumbnails.insert(item, QWeakPointer()); } } //**************************************** // EffectWindowGroupImpl //**************************************** EffectWindowList EffectWindowGroupImpl::members() const { EffectWindowList ret; foreach (Toplevel * c, group->members()) ret.append(c->effectWindow()); return ret; } //**************************************** // EffectFrameImpl //**************************************** EffectFrameImpl::EffectFrameImpl(EffectFrameStyle style, bool staticSize, QPoint position, Qt::Alignment alignment) : QObject(0) , EffectFrame() , m_style(style) , m_static(staticSize) , m_point(position) , m_alignment(alignment) , m_shader(NULL) { if (m_style == EffectFrameStyled) { m_frame.setImagePath("widgets/background"); m_frame.setCacheAllRenderedFrames(true); connect(Plasma::Theme::defaultTheme(), SIGNAL(themeChanged()), this, SLOT(plasmaThemeChanged())); } m_selection.setImagePath("widgets/viewitem"); m_selection.setElementPrefix("hover"); m_selection.setCacheAllRenderedFrames(true); m_selection.setEnabledBorders(Plasma::FrameSvg::AllBorders); if (effects->compositingType() == OpenGLCompositing) { m_sceneFrame = new SceneOpenGL::EffectFrame(this); } else if (effects->compositingType() == XRenderCompositing) { #ifdef KWIN_HAVE_XRENDER_COMPOSITING m_sceneFrame = new SceneXrender::EffectFrame(this); #endif } else { // that should not happen and will definitely crash! m_sceneFrame = NULL; } } EffectFrameImpl::~EffectFrameImpl() { delete m_sceneFrame; } const QFont& EffectFrameImpl::font() const { return m_font; } void EffectFrameImpl::setFont(const QFont& font) { if (m_font == font) { return; } m_font = font; QRect oldGeom = m_geometry; if (!m_text.isEmpty()) { autoResize(); } if (oldGeom == m_geometry) { // Wasn't updated in autoResize() m_sceneFrame->freeTextFrame(); } } void EffectFrameImpl::free() { m_sceneFrame->free(); } const QRect& EffectFrameImpl::geometry() const { return m_geometry; } void EffectFrameImpl::setGeometry(const QRect& geometry, bool force) { QRect oldGeom = m_geometry; m_geometry = geometry; if (m_geometry == oldGeom && !force) { return; } effects->addRepaint(oldGeom); effects->addRepaint(m_geometry); if (m_geometry.size() == oldGeom.size() && !force) { return; } if (m_style == EffectFrameStyled) { qreal left, top, right, bottom; m_frame.getMargins(left, top, right, bottom); // m_geometry is the inner geometry m_frame.resizeFrame(m_geometry.adjusted(-left, -top, right, bottom).size()); } free(); } const QPixmap& EffectFrameImpl::icon() const { return m_icon; } void EffectFrameImpl::setIcon(const QPixmap& icon) { m_icon = icon; if (isCrossFade()) { m_sceneFrame->crossFadeIcon(); } if (m_iconSize.isEmpty()) { // Set a size if we don't already have one setIconSize(m_icon.size()); } m_sceneFrame->freeIconFrame(); } const QSize& EffectFrameImpl::iconSize() const { return m_iconSize; } void EffectFrameImpl::setIconSize(const QSize& size) { if (m_iconSize == size) { return; } m_iconSize = size; autoResize(); m_sceneFrame->freeIconFrame(); } void EffectFrameImpl::plasmaThemeChanged() { free(); } void EffectFrameImpl::render(QRegion region, double opacity, double frameOpacity) { if (m_geometry.isEmpty()) { return; // Nothing to display } m_shader = NULL; effects->paintEffectFrame(this, region, opacity, frameOpacity); } void EffectFrameImpl::finalRender(QRegion region, double opacity, double frameOpacity) const { region = infiniteRegion(); // TODO: Old region doesn't seem to work with OpenGL m_sceneFrame->render(region, opacity, frameOpacity); } Qt::Alignment EffectFrameImpl::alignment() const { return m_alignment; } void EffectFrameImpl::align(QRect &geometry) { if (m_alignment & Qt::AlignLeft) geometry.moveLeft(m_point.x()); else if (m_alignment & Qt::AlignRight) geometry.moveLeft(m_point.x() - geometry.width()); else geometry.moveLeft(m_point.x() - geometry.width() / 2); if (m_alignment & Qt::AlignTop) geometry.moveTop(m_point.y()); else if (m_alignment & Qt::AlignBottom) geometry.moveTop(m_point.y() - geometry.height()); else geometry.moveTop(m_point.y() - geometry.height() / 2); } void EffectFrameImpl::setAlignment(Qt::Alignment alignment) { m_alignment = alignment; align(m_geometry); setGeometry(m_geometry); } void EffectFrameImpl::setPosition(const QPoint& point) { m_point = point; QRect geometry = m_geometry; // this is important, setGeometry need call repaint for old & new geometry align(geometry); setGeometry(geometry); } const QString& EffectFrameImpl::text() const { return m_text; } void EffectFrameImpl::setText(const QString& text) { if (m_text == text) { return; } if (isCrossFade()) { m_sceneFrame->crossFadeText(); } m_text = text; QRect oldGeom = m_geometry; autoResize(); if (oldGeom == m_geometry) { // Wasn't updated in autoResize() m_sceneFrame->freeTextFrame(); } } void EffectFrameImpl::setSelection(const QRect& selection) { if (selection == m_selectionGeometry) { return; } m_selectionGeometry = selection; if (m_selectionGeometry.size() != m_selection.frameSize().toSize()) { m_selection.resizeFrame(m_selectionGeometry.size()); } // TODO; optimize to only recreate when resizing m_sceneFrame->freeSelection(); } void EffectFrameImpl::autoResize() { if (m_static) return; // Not automatically resizing QRect geometry; // Set size if (!m_text.isEmpty()) { QFontMetrics metrics(m_font); geometry.setSize(metrics.size(0, m_text)); } if (!m_icon.isNull() && !m_iconSize.isEmpty()) { geometry.setLeft(-m_iconSize.width()); if (m_iconSize.height() > geometry.height()) geometry.setHeight(m_iconSize.height()); } align(geometry); setGeometry(geometry); } QColor EffectFrameImpl::styledTextColor() { return Plasma::Theme::defaultTheme()->color(Plasma::Theme::TextColor); } } // namespace