/***************************************************************** Copyright (c) 2001 Matthias Elter Copyright (c) 2004 Sebastian Wolff Copyright (c) 2005 Aaron Seigo Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ******************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "kickerSettings.h" #include "taskbarsettings.h" #include "taskcontainer.h" #include "taskmanager.h" #include "taskbar.h" #include "taskbar.moc" TaskBar::TaskBar( TQWidget *parent, const char *name ) : Panner( parent, name ), m_showAllWindows(false), m_currentScreen(-1), m_showOnlyCurrentScreen(false), m_sortByDesktop(false), m_showIcon(false), m_showOnlyIconified(false), m_textShadowEngine(0), m_ignoreUpdates(false), m_relayoutTimer(0, "TaskBar::m_relayoutTimer") { arrowType = LeftArrow; blocklayout = true; // init setSizePolicy( TQSizePolicy( TQSizePolicy::Expanding, TQSizePolicy::Expanding ) ); // setup animation frames for (int i = 1; i < 11; i++) { frames.append(new TQPixmap(locate("data", "kicker/pics/disk" + TQString::number(i) + ".png"))); } // configure configure(); connect(&m_relayoutTimer, TQT_SIGNAL(timeout()), this, TQT_SLOT(reLayout())); connect(this, TQT_SIGNAL(contentsMoving(int, int)), TQT_SLOT(setBackground())); // connect manager connect(TaskManager::the(), TQT_SIGNAL(taskAdded(Task::Ptr)), this, TQT_SLOT(add(Task::Ptr))); connect(TaskManager::the(), TQT_SIGNAL(taskRemoved(Task::Ptr)), this, TQT_SLOT(remove(Task::Ptr))); connect(TaskManager::the(), TQT_SIGNAL(startupAdded(Startup::Ptr)), this, TQT_SLOT(add(Startup::Ptr))); connect(TaskManager::the(), TQT_SIGNAL(startupRemoved(Startup::Ptr)), this, TQT_SLOT(remove(Startup::Ptr))); connect(TaskManager::the(), TQT_SIGNAL(desktopChanged(int)), this, TQT_SLOT(desktopChanged(int))); connect(TaskManager::the(), TQT_SIGNAL(windowChanged(Task::Ptr)), this, TQT_SLOT(windowChanged(Task::Ptr))); isGrouping = shouldGroup(); // register existant tasks Task::Dict tasks = TaskManager::the()->tasks(); Task::Dict::iterator taskEnd = tasks.end(); for (Task::Dict::iterator it = tasks.begin(); it != taskEnd; ++it) { add(it.data()); } // register existant startups Startup::List startups = TaskManager::the()->startups(); Startup::List::iterator startupEnd = startups.end(); for (Startup::List::iterator sIt = startups.begin(); sIt != startupEnd; ++sIt) { add((*sIt)); } blocklayout = false; connect(kapp, TQT_SIGNAL(settingsChanged(int)), TQT_SLOT(slotSettingsChanged(int))); keys = new KGlobalAccel( TQT_TQOBJECT(this) ); #include "taskbarbindings.cpp" keys->readSettings(); keys->updateConnections(); reLayout(); } TaskBar::~TaskBar() { for (TaskContainer::Iterator it = m_hiddenContainers.begin(); it != m_hiddenContainers.end(); ++it) { (*it)->deleteLater(); } for (TaskContainer::List::const_iterator it = containers.constBegin(); it != containers.constEnd(); ++it) { (*it)->deleteLater(); } for (PixmapList::const_iterator it = frames.constBegin(); it != frames.constEnd(); ++it) { delete *it; } delete m_textShadowEngine; } KTextShadowEngine *TaskBar::textShadowEngine() { if (!m_textShadowEngine) m_textShadowEngine = new KTextShadowEngine(); return m_textShadowEngine; } TQSize TaskBar::sizeHint() const { // get our minimum height based on the minimum button height or the // height of the font in use, which is largest TQFontMetrics fm(KGlobalSettings::taskbarFont()); int minButtonHeight = fm.height() > TaskBarSettings::minimumButtonHeight() ? fm.height() : TaskBarSettings::minimumButtonHeight(); return TQSize(BUTTON_MIN_WIDTH, minButtonHeight); } TQSize TaskBar::sizeHint( KPanelExtension::Position p, TQSize maxSize) const { // get our minimum height based on the minimum button height or the // height of the font in use, which is largest TQFontMetrics fm(KGlobalSettings::taskbarFont()); int minButtonHeight = fm.height() > TaskBarSettings::minimumButtonHeight() ? fm.height() : TaskBarSettings::minimumButtonHeight(); if ( p == KPanelExtension::Left || p == KPanelExtension::Right ) { int actualMax = minButtonHeight * containerCount(); if (containerCount() == 0) { actualMax = minButtonHeight; } if (actualMax > maxSize.height()) { return maxSize; } return TQSize( maxSize.width(), actualMax ); } else { int rows = KickerSettings::conserveSpace() ? contentsRect().height() / minButtonHeight : 1; if ( rows < 1 ) { rows = 1; } int maxWidth = TaskBarSettings::maximumButtonWidth(); if (maxWidth == 0) { maxWidth = BUTTON_MAX_WIDTH; } int actualMax = maxWidth * (containerCount() / rows); if (containerCount() % rows > 0) { actualMax += maxWidth; } if (containerCount() == 0) { actualMax = maxWidth; } if (actualMax > maxSize.width()) { return maxSize; } return TQSize( actualMax, maxSize.height() ); } } void TaskBar::configure() { bool wasShowWindows = m_showAllWindows; bool wasSortByDesktop = m_sortByDesktop; bool wasShowIcon = m_showIcon; bool wasShowOnlyIconified = m_showOnlyIconified; m_showAllWindows = TaskBarSettings::showAllWindows(); m_sortByDesktop = m_showAllWindows && TaskBarSettings::sortByDesktop(); m_showIcon = TaskBarSettings::showIcon(); m_showOnlyIconified = TaskBarSettings::showOnlyIconified(); m_currentScreen = -1; // Show all screens or re-get our screen m_showOnlyCurrentScreen = (TaskBarSettings::showCurrentScreenOnly() && TQApplication::desktop()->isVirtualDesktop() && TQApplication::desktop()->numScreens() > 1) || (TQApplication::desktop()->numScreens() < 2); // we need to watch geometry issues if we aren't showing windows when we // are paying attention to the current Xinerama screen if (m_showOnlyCurrentScreen) { // disconnect first in case we've been here before // to avoid multiple connections disconnect(TaskManager::the(), TQT_SIGNAL(windowChangedGeometry(Task::Ptr)), this, TQT_SLOT(windowChangedGeometry(Task::Ptr))); connect(TaskManager::the(), TQT_SIGNAL(windowChangedGeometry(Task::Ptr)), this, TQT_SLOT(windowChangedGeometry(Task::Ptr))); } TaskManager::the()->trackGeometry(m_showOnlyCurrentScreen); if (wasShowWindows != m_showAllWindows || wasSortByDesktop != m_sortByDesktop || wasShowIcon != m_showIcon || wasShowOnlyIconified != m_showOnlyIconified) { // relevant settings changed, update our task containers for (TaskContainer::Iterator it = containers.begin(); it != containers.end(); ++it) { (*it)->settingsChanged(); } } TaskManager::the()->setXCompositeEnabled(TaskBarSettings::showThumbnails()); reLayoutEventually(); } void TaskBar::setOrientation( Orientation o ) { Panner::setOrientation( o ); reLayoutEventually(); } void TaskBar::moveEvent( TQMoveEvent* e ) { Panner::moveEvent(e); setViewportBackground(); } void TaskBar::resizeEvent( TQResizeEvent* e ) { if (m_showOnlyCurrentScreen) { TQPoint topLeft = mapToGlobal(this->geometry().topLeft()); if (m_currentScreen != TQApplication::desktop()->screenNumber(topLeft)) { // we have been moved to another screen! m_currentScreen = -1; reGroup(); } } Panner::resizeEvent(e); reLayoutEventually(); setViewportBackground(); } void TaskBar::add(Task::Ptr task) { if (!task || (m_showOnlyCurrentScreen && !TaskManager::isOnScreen(showScreen(), task->window()))) { return; } // try to group if (isGrouping) { for (TaskContainer::Iterator it = containers.begin(); it != containers.end(); ++it) { TaskContainer* c = *it; if (idMatch(task->classClass(), c->id())) { c->add(task); reLayoutEventually(); return; } } } // create new container TaskContainer *container = new TaskContainer(task, this, viewport()); m_hiddenContainers.append(container); // even though there is a signal to listen to, we have to add this // immediately to ensure grouping doesn't break (primarily on startup) // we still add the container to m_hiddenContainers in case the event // loop gets re-entered here and something bizarre happens. call it // insurance =) showTaskContainer(container); } void TaskBar::add(Startup::Ptr startup) { if (!startup) { return; } for (TaskContainer::Iterator it = containers.begin(); it != containers.end(); ++it) { if ((*it)->contains(startup)) { return; } } // create new container TaskContainer *container = new TaskContainer(startup, frames, this, viewport()); m_hiddenContainers.append(container); connect(container, TQT_SIGNAL(showMe(TaskContainer*)), this, TQT_SLOT(showTaskContainer(TaskContainer*))); } void TaskBar::showTaskContainer(TaskContainer* container) { TaskContainer::List::iterator it = m_hiddenContainers.find(container); if (it != m_hiddenContainers.end()) { m_hiddenContainers.erase(it); } if (container->isEmpty()) { return; } // try to place the container after one of the same app if (TaskBarSettings::sortByApp()) { TaskContainer::Iterator it = containers.begin(); for (; it != containers.end(); ++it) { TaskContainer* c = *it; if (container->id().lower() == c->id().lower()) { // search for the last occurrence of this app for (; it != containers.end(); ++it) { c = *it; if (container->id().lower() != c->id().lower()) { break; } } break; } } if (it != containers.end()) { containers.insert(it, container); } else { containers.append(container); } } else { containers.append(container); } addChild(container); reLayoutEventually(); emit containerCountChanged(); } void TaskBar::remove(Task::Ptr task, TaskContainer* container) { for (TaskContainer::Iterator it = m_hiddenContainers.begin(); it != m_hiddenContainers.end(); ++it) { if ((*it)->contains(task)) { (*it)->finish(); m_deletableContainers.append(*it); m_hiddenContainers.erase(it); break; } } if (!container) { for (TaskContainer::Iterator it = containers.begin(); it != containers.end(); ++it) { if ((*it)->contains(task)) { container = *it; break; } } if (!container) { return; } } container->remove(task); if (container->isEmpty()) { TaskContainer::List::iterator it = containers.find(container); if (it != containers.end()) { containers.erase(it); } removeChild(container); container->finish(); m_deletableContainers.append(container); reLayoutEventually(); emit containerCountChanged(); } else if (container->filteredTaskCount() < 1) { reLayoutEventually(); emit containerCountChanged(); } } void TaskBar::remove(Startup::Ptr startup, TaskContainer* container) { for (TaskContainer::Iterator it = m_hiddenContainers.begin(); it != m_hiddenContainers.end(); ++it) { if ((*it)->contains(startup)) { (*it)->remove(startup); if ((*it)->isEmpty()) { (*it)->finish(); m_deletableContainers.append(*it); m_hiddenContainers.erase(it); } break; } } if (!container) { for (TaskContainer::Iterator it = containers.begin(); it != containers.end(); ++it) { if ((*it)->contains(startup)) { container = *it; break; } } if (!container) { return; } } container->remove(startup); if (!container->isEmpty()) { return; } TaskContainer::List::iterator it = containers.find(container); if (it != containers.end()) { containers.erase(it); } // startup containers only ever contain that one item. so // just delete the poor bastard. container->finish(); m_deletableContainers.append(container); reLayoutEventually(); emit containerCountChanged(); } void TaskBar::desktopChanged(int desktop) { if (m_showAllWindows) { return; } m_relayoutTimer.stop(); m_ignoreUpdates = true; for (TaskContainer::Iterator it = containers.begin(); it != containers.end(); ++it) { (*it)->desktopChanged(desktop); } m_ignoreUpdates = false; reLayout(); emit containerCountChanged(); } void TaskBar::windowChanged(Task::Ptr task) { if (m_showOnlyCurrentScreen && !TaskManager::isOnScreen(showScreen(), task->window())) { return; // we don't care about this window } TaskContainer* container = 0; for (TaskContainer::List::const_iterator it = containers.constBegin(); it != containers.constEnd(); ++it) { TaskContainer* c = *it; if (c->contains(task)) { container = c; break; } } // if we don't have a container or we're showing only windows on this // desktop and the container is neither on the desktop nor currently visible // just skip it if (!container || (!m_showAllWindows && !container->onCurrentDesktop() && !container->isVisibleTo(this))) { return; } container->windowChanged(task); if (!m_showAllWindows || m_showOnlyIconified) { emit containerCountChanged(); } reLayoutEventually(); } void TaskBar::windowChangedGeometry(Task::Ptr task) { //TODO: this gets called every time a window's geom changes // when we are in "show only on the same Xinerama screen" // mode it would be Good(tm) to compress these events so this // gets run less often, but always when needed TaskContainer* container = 0; for (TaskContainer::Iterator it = containers.begin(); it != containers.end(); ++it) { TaskContainer* c = *it; if (c->contains(task)) { container = c; break; } } if ((!!container) == TaskManager::isOnScreen(showScreen(), task->window())) { // we have this window covered, so we don't need to do anything return; } if (container) { remove(task, container); } else { add(task); } } void TaskBar::reLayoutEventually() { m_relayoutTimer.stop(); if (!blocklayout && !m_ignoreUpdates) { m_relayoutTimer.start(25, true); } } void TaskBar::reLayout() { // Because TQPopupMenu::exec() creates its own event loop, deferred deletes // via TQObject::deleteLater() may be prematurely executed when a container's // popup menu is visible. // // To get around this, we collect the containers and delete them manually // when doing a relayout. (kling) if (!m_deletableContainers.isEmpty()) { TaskContainer::List::iterator it = m_deletableContainers.begin(); for (; it != m_deletableContainers.end(); ++it) delete *it; m_deletableContainers.clear(); } // filter task container list TaskContainer::List list = filteredContainers(); if (list.count() < 1) { resizeContents(contentsRect().width(), contentsRect().height()); return; } if (isGrouping != shouldGroup()) { reGroup(); return; } // sort container list by desktop if (m_sortByDesktop) { sortContainersByDesktop(list); } // needed because Panner doesn't know how big it's contents are so it's // up to us to initialize it. =( resizeContents(contentsRect().width(), contentsRect().height()); // number of rows simply depends on our height which is either the // minimum button height or the height of the font in use, whichever is // largest TQFontMetrics fm(KGlobalSettings::taskbarFont()); int minButtonHeight = fm.height() > TaskBarSettings::minimumButtonHeight() ? fm.height() : TaskBarSettings::minimumButtonHeight(); // horizontal layout if (orientation() == Qt::Horizontal) { int bwidth = BUTTON_MIN_WIDTH; int rows = contentsRect().height() / minButtonHeight; if ( rows < 1 ) { rows = 1; } // actual button height int bheight = contentsRect().height() / rows; // avoid zero devision later if (bheight < 1) { bheight = 1; } // buttons per row int bpr = (int)ceil( (double)list.count() / rows); // adjust content size if ( contentsRect().width() < bpr * BUTTON_MIN_WIDTH ) { resizeContents( bpr * BUTTON_MIN_WIDTH, contentsRect().height() ); } // maximum number of buttons per row int mbpr = contentsRect().width() / BUTTON_MIN_WIDTH; // expand button width if space permits if (mbpr > bpr) { bwidth = contentsRect().width() / bpr; int maxWidth = TaskBarSettings::maximumButtonWidth(); if (maxWidth > 0 && bwidth > maxWidth) { bwidth = maxWidth; } } // layout containers // for taskbars at the bottom, we need to ensure that the bottom // buttons touch the bottom of the screen. since we layout from // top to bottom this means seeing if we have any padding and // popping it on the top. this preserves Fitt's Law behaviour // for taskbars on the bottom int topPadding = 0; if (arrowType == UpArrow) { topPadding = contentsRect().height() % (rows * bheight); } int i = 0; bool reverseLayout = TQApplication::reverseLayout(); for (TaskContainer::Iterator it = list.begin(); it != list.end(); ++it, i++) { TaskContainer* c = *it; int row = i % rows; int x = ( i / rows ) * bwidth; if (reverseLayout) { x = contentsRect().width() - x - bwidth; } int y = (row * bheight) + topPadding; c->setArrowType(arrowType); if (childX(c) != x || childY(c) != y) moveChild(c, x, y); if (c->width() != bwidth || c->height() != bheight) c->resize( bwidth, bheight ); c->setBackground(); } } else // vertical layout { // adjust content size if (contentsRect().height() < (int)list.count() * minButtonHeight) { resizeContents(contentsRect().width(), list.count() * minButtonHeight); } // layout containers int i = 0; for (TaskContainer::Iterator it = list.begin(); it != list.end(); ++it) { TaskContainer* c = *it; c->setArrowType(arrowType); if (c->width() != contentsRect().width() || c->height() != minButtonHeight) c->resize(contentsRect().width(), minButtonHeight); if (childX(c) != 0 || childY(c) != (i * minButtonHeight)) moveChild(c, 0, i * minButtonHeight); c->setBackground(); i++; } } TQTimer::singleShot(100, this, TQT_SLOT(publishIconGeometry())); } void TaskBar::setViewportBackground() { const TQPixmap *bg = parentWidget()->backgroundPixmap(); if (bg) { TQPixmap pm(parentWidget()->size()); pm.fill(parentWidget(), pos() + viewport()->pos()); viewport()->setPaletteBackgroundPixmap(pm); viewport()->setBackgroundOrigin(WidgetOrigin); } else viewport()->setPaletteBackgroundColor(paletteBackgroundColor()); } void TaskBar::setBackground() { setViewportBackground(); TaskContainer::List list = filteredContainers(); for (TaskContainer::Iterator it = list.begin(); it != list.end(); ++it) { TaskContainer* c = *it; c->setBackground(); } } void TaskBar::setArrowType(TQt::ArrowType at) { if (arrowType == at) { return; } arrowType = at; for (TaskContainer::Iterator it = containers.begin(); it != containers.end(); ++it) { (*it)->setArrowType(arrowType); } } void TaskBar::publishIconGeometry() { TQPoint p = mapToGlobal(TQPoint(0,0)); // roundtrip, don't do that too often for (TaskContainer::Iterator it = containers.begin(); it != containers.end(); ++it) { (*it)->publishIconGeometry(p); } } void TaskBar::viewportMousePressEvent( TQMouseEvent* e ) { propagateMouseEvent( e ); } void TaskBar::viewportMouseReleaseEvent( TQMouseEvent* e ) { propagateMouseEvent( e ); } void TaskBar::viewportMouseDoubleClickEvent( TQMouseEvent* e ) { propagateMouseEvent( e ); } void TaskBar::viewportMouseMoveEvent( TQMouseEvent* e ) { propagateMouseEvent( e ); } void TaskBar::propagateMouseEvent( TQMouseEvent* e ) { if ( !isTopLevel() ) { TQMouseEvent me( e->type(), mapTo( topLevelWidget(), e->pos() ), e->globalPos(), e->button(), e->state() ); TQApplication::sendEvent( topLevelWidget(), &me ); } } bool TaskBar::idMatch( const TQString& id1, const TQString& id2 ) { if ( id1.isEmpty() || id2.isEmpty() ) return false; return id1.lower() == id2.lower(); } int TaskBar::containerCount() const { int i = 0; for (TaskContainer::List::const_iterator it = containers.constBegin(); it != containers.constEnd(); ++it) { if ((m_showAllWindows || (*it)->onCurrentDesktop()) && ((showScreen() == -1) || ((*it)->isOnScreen()))) { i++; } } return i; } int TaskBar::taskCount() const { int i = 0; for (TaskContainer::List::const_iterator it = containers.constBegin(); it != containers.constEnd(); ++it) { if ((m_showAllWindows || (*it)->onCurrentDesktop()) && ((showScreen() == -1) || ((*it)->isOnScreen()))) { i += (*it)->filteredTaskCount(); } } return i; } int TaskBar::maximumButtonsWithoutShrinking() const { TQFontMetrics fm(KGlobalSettings::taskbarFont()); int minButtonHeight = fm.height() > TaskBarSettings::minimumButtonHeight() ? fm.height() : TaskBarSettings::minimumButtonHeight(); int rows = contentsRect().height() / minButtonHeight; if (rows < 1) { rows = 1; } if ( orientation() == Qt::Horizontal ) { // maxWidth of 0 means no max width, drop back to default int maxWidth = TaskBarSettings::maximumButtonWidth(); if (maxWidth == 0) { maxWidth = BUTTON_MAX_WIDTH; } // They squash a bit before they pop, hence the 2 return rows * (contentsRect().width() / maxWidth) + 2; } else { // Overlap slightly and ugly arrows appear, hence -1 return rows - 1; } } bool TaskBar::shouldGroup() const { return TaskBarSettings::groupTasks() == TaskBarSettings::GroupAlways || (TaskBarSettings::groupTasks() == TaskBarSettings::GroupWhenFull && taskCount() > maximumButtonsWithoutShrinking()); } void TaskBar::reGroup() { isGrouping = shouldGroup(); blocklayout = true; TaskContainer::Iterator lastContainer = m_hiddenContainers.end(); for (TaskContainer::Iterator it = m_hiddenContainers.begin(); it != lastContainer; ++it) { (*it)->finish(); m_deletableContainers.append(*it); } m_hiddenContainers.clear(); for (TaskContainer::List::const_iterator it = containers.constBegin(); it != containers.constEnd(); ++it) { (*it)->finish(); m_deletableContainers.append(*it); } containers.clear(); Task::Dict tasks = TaskManager::the()->tasks(); Task::Dict::iterator lastTask = tasks.end(); for (Task::Dict::iterator it = tasks.begin(); it != lastTask; ++it) { Task::Ptr task = it.data(); if (showScreen() == -1 || task->isOnScreen(showScreen())) { add(task); } } Startup::List startups = TaskManager::the()->startups(); Startup::List::iterator itEnd = startups.end(); for (Startup::List::iterator sIt = startups.begin(); sIt != itEnd; ++sIt) { add(*sIt); } blocklayout = false; reLayoutEventually(); } TaskContainer::List TaskBar::filteredContainers() { // filter task container list TaskContainer::List list; for (TaskContainer::List::const_iterator it = containers.constBegin(); it != containers.constEnd(); ++it) { TaskContainer* c = *it; if ((m_showAllWindows || c->onCurrentDesktop()) && (!m_showOnlyIconified || c->isIconified()) && ((showScreen() == -1) || c->isOnScreen())) { list.append(c); c->show(); } else { c->hide(); } } return list; } void TaskBar::activateNextTask(bool forward) { bool forcenext = false; TaskContainer::List list = filteredContainers(); // this is necessary here, because 'containers' is unsorted and // we want to iterate over the _shown_ task containers in a linear way if (m_sortByDesktop) { sortContainersByDesktop(list); } int numContainers = list.count(); TaskContainer::List::iterator it; for (int i = 0; i < numContainers; ++i) { it = forward ? list.tqat(i) : list.tqat(numContainers - i - 1); if (it != list.end() && (*it)->activateNextTask(forward, forcenext)) { return; } } if (forcenext) { // moving forward from the last, or backward from the first, loop around for (int i = 0; i < numContainers; ++i) { it = forward ? list.tqat(i) : list.tqat(numContainers - i - 1); if (it != list.end() && (*it)->activateNextTask(forward, forcenext)) { return; } } return; } forcenext = true; // select first for (int i = 0; i < numContainers; ++i) { it = forward ? list.tqat(i) : list.tqat(numContainers - i - 1); if (it == list.end()) { break; } TaskContainer* c = *it; if (m_sortByDesktop) { if (forward ? c->desktop() < TaskManager::the()->currentDesktop() : c->desktop() > TaskManager::the()->currentDesktop()) { continue; } } if (c->activateNextTask(forward, forcenext)) { return; } } } void TaskBar::wheelEvent(TQWheelEvent* e) { if (e->delta() > 0) { // scroll away from user, previous task activateNextTask(false); } else { // scroll towards user, next task activateNextTask(true); } } void TaskBar::slotActivateNextTask() { activateNextTask( true ); } void TaskBar::slotActivatePreviousTask() { activateNextTask( false ); } void TaskBar::slotSettingsChanged( int category ) { if( category == (int) KApplication::SETTINGS_SHORTCUTS ) { keys->readSettings(); keys->updateConnections(); } } int TaskBar::showScreen() const { if (m_showOnlyCurrentScreen && m_currentScreen == -1) { const_cast(this)->m_currentScreen = TQApplication::desktop()->screenNumber(mapToGlobal(this->geometry().topLeft())); } return m_currentScreen; } TQImage* TaskBar::blendGradient(const TQSize& size) { if (m_blendGradient.isNull() || m_blendGradient.size() != size) { TQPixmap bgpm(size); TQPainter bgp(&bgpm); bgpm.fill(black); if (TQApplication::reverseLayout()) { TQImage gradient = KImageEffect::gradient( TQSize(30, size.height()), TQColor(255,255,255), TQColor(0,0,0), KImageEffect::HorizontalGradient); bgp.drawImage(0, 0, gradient); } else { TQImage gradient = KImageEffect::gradient( TQSize(30, size.height()), TQColor(0,0,0), TQColor(255,255,255), KImageEffect::HorizontalGradient); bgp.drawImage(size.width() - 30, 0, gradient); } m_blendGradient = bgpm.convertToImage(); } return &m_blendGradient; } void TaskBar::sortContainersByDesktop(TaskContainer::List& list) { typedef TQValueVector > > SortVector; SortVector sorted; sorted.resize(list.count()); int i = 0; TaskContainer::List::ConstIterator lastUnsorted(list.constEnd()); for (TaskContainer::List::ConstIterator it = list.constBegin(); it != lastUnsorted; ++it) { sorted[i] = qMakePair((*it)->desktop(), qMakePair(i, *it)); ++i; } qHeapSort(sorted); list.clear(); SortVector::const_iterator lastSorted(sorted.constEnd()); for (SortVector::const_iterator it = sorted.constBegin(); it != lastSorted; ++it) { list.append((*it).second.second); } }