/* * Copyright 2007 by Aaron Seigo * Copyright 2008 by Marco Martin * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Library General Public License as * published by the Free Software Foundation; either version 2, 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 Library General Public * License along with this program; if not, write to the * Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "internaltoolbox_p.h" #include #include #include #include #include #include #include #include #include #include #include "corona.h" #include "theme.h" #include "widgets/iconwidget.h" namespace Plasma { class InternalToolBoxPrivate { public: InternalToolBoxPrivate(Containment *c) : containment(c), corner(InternalToolBox::TopRight), size(50), iconSize(KIconLoader::SizeMedium, KIconLoader::SizeMedium), hidden(false), showing(false), movable(false), dragging(false), userMoved(false) {} Containment *containment; InternalToolBox::Corner corner; int size; QSize iconSize; QPoint dragStartRelative; QTransform viewTransform; QMultiMap tools; bool hidden : 1; bool showing : 1; bool movable : 1; bool dragging : 1; bool userMoved : 1; }; InternalToolBox::InternalToolBox(Containment *parent) : AbstractToolBox(parent), d(new InternalToolBoxPrivate(parent)) { d->userMoved = false; setAcceptsHoverEvents(true); } InternalToolBox::~InternalToolBox() { delete d; } Containment *InternalToolBox::containment() { return d->containment; } QPoint InternalToolBox::toolPosition(int toolHeight) { switch (corner()) { case TopRight: return QPoint(boundingRect().width(), -toolHeight); case Top: return QPoint((int)boundingRect().center().x() - boundingRect().width(), -toolHeight); case TopLeft: return QPoint(-boundingRect().width(), -toolHeight); case Left: return QPoint(-boundingRect().width(), (int)boundingRect().center().y() - boundingRect().height()); case Right: return QPoint(boundingRect().width(), (int)boundingRect().center().y() - boundingRect().height()); case BottomLeft: return QPoint(-boundingRect().width(), toolHeight); case Bottom: return QPoint((int)boundingRect().center().x() - d->iconSize.width(), toolHeight); case BottomRight: default: return QPoint(boundingRect().width(), toolHeight); } } QMap InternalToolBox::tools() const { return d->tools; } QGraphicsWidget *InternalToolBox::toolParent() { return this; } void InternalToolBox::addTool(QAction *action) { if (!action) { return; } foreach (IconWidget *tool, d->tools) { //kDebug() << "checking tool" << child << child->data(ToolName); if (tool->action() == action) { return; } } Plasma::IconWidget *tool = new Plasma::IconWidget(toolParent()); tool->setTextBackgroundColor(QColor()); tool->setAction(action); tool->setDrawBackground(true); tool->setOrientation(Qt::Horizontal); tool->resize(tool->sizeFromIconSize(KIconLoader::SizeSmallMedium)); tool->hide(); const int height = static_cast(tool->boundingRect().height()); tool->setPos(toolPosition(height)); tool->setZValue(zValue() + 10); tool->setToolTip(action->text()); //make enabled/disabled tools appear/disappear instantly connect(tool, SIGNAL(changed()), this, SLOT(updateToolBox())); connect(action, SIGNAL(triggered(bool)), this, SLOT(toolTriggered(bool))); ToolType type = AbstractToolBox::MiscTool; if (!action->data().isNull() && action->data().type() == QVariant::Int) { int t = action->data().toInt(); if (t >= 0 && t < AbstractToolBox::UserToolType) { type = static_cast(t); } } d->tools.insert(type, tool); //kDebug() << "added tool" << type << action->text(); } void InternalToolBox::updateToolBox() { Plasma::IconWidget *tool = qobject_cast(sender()); if (tool && tool->action() == 0) { tool->deleteLater(); tool = 0; } if (d->showing) { d->showing = false; showToolBox(); } else if (tool && !tool->isEnabled()) { tool->hide(); } } void InternalToolBox::toolTriggered(bool) { } void InternalToolBox::removeTool(QAction *action) { QMutableMapIterator it(d->tools); while (it.hasNext()) { it.next(); IconWidget *tool = it.value(); //kDebug() << "checking tool" << tool if (tool && tool->action() == action) { //kDebug() << "tool found!"; tool->deleteLater(); it.remove(); break; } } } int InternalToolBox::size() const { return d->size; } void InternalToolBox::setSize(const int newSize) { d->size = newSize; } QSize InternalToolBox::iconSize() const { return d->iconSize; } void InternalToolBox::setIconSize(const QSize newSize) { d->iconSize = newSize; } bool InternalToolBox::isShowing() const { return d->showing; } void InternalToolBox::setShowing(const bool show) { if (show) { showToolBox(); } else { hideToolBox(); } d->showing = show; } void InternalToolBox::mousePressEvent(QGraphicsSceneMouseEvent *event) { if (event->button() == Qt::LeftButton) { event->accept(); // set grab position relative to toolbox d->dragStartRelative = mapToParent(event->pos()).toPoint() - pos().toPoint(); } else { event->ignore(); } } QSize InternalToolBox::cornerSize() const { return boundingRect().size().toSize(); } QSize InternalToolBox::fullWidth() const { return boundingRect().size().toSize(); } QSize InternalToolBox::fullHeight() const { return boundingRect().size().toSize(); } void InternalToolBox::mouseMoveEvent(QGraphicsSceneMouseEvent *event) { if (!d->movable || (!d->dragging && boundingRect().contains(event->pos()))) { return; } d->dragging = true; d->userMoved = true; const QPoint newPos = mapToParent(event->pos()).toPoint(); const QPoint curPos = pos().toPoint(); const QSize cSize = cornerSize(); const QSize fHeight = fullHeight(); const QSize fWidth = fullWidth(); const int h = fHeight.height(); const int w = fWidth.width(); const int areaWidth = parentWidget()->size().width(); const int areaHeight = parentWidget()->size().height(); int x = curPos.x(); int y = curPos.y(); // jump to the nearest desktop border int distanceToLeft = newPos.x() - d->dragStartRelative.x(); int distanceToRight = areaWidth - w - distanceToLeft; int distanceToTop = newPos.y() - d->dragStartRelative.y(); int distanceToBottom = areaHeight - h - distanceToTop; int distancetoHorizontalMiddle = qAbs(newPos.x() - areaWidth/2); int distancetoVerticalMiddle = qAbs(newPos.y() - areaHeight/2); // decide which border is the nearest if (distanceToLeft < distanceToTop && distanceToLeft < distanceToRight && distanceToLeft < distanceToBottom ) { x = 0; y = (newPos.y() - d->dragStartRelative.y()); } else if (distanceToRight < distanceToTop && distanceToRight < distanceToLeft && distanceToRight < distanceToBottom) { x = areaWidth - w; y = (newPos.y() - d->dragStartRelative.y()); } else if (distanceToTop < distanceToLeft && distanceToTop < distanceToRight && distanceToTop < distanceToBottom ) { y = 0; x = (newPos.x() - d->dragStartRelative.x()); } else if (distanceToBottom < distanceToLeft && distanceToBottom < distanceToRight && distanceToBottom < distanceToTop) { y = areaHeight - h; x = (newPos.x() - d->dragStartRelative.x()); } if (distancetoHorizontalMiddle < 10) { x = areaWidth/2 - d->dragStartRelative.x(); } else if (distancetoVerticalMiddle < 10) { y = areaHeight/2 - d->dragStartRelative.y(); } x = qBound(0, x, areaWidth - w); y = qBound(0, y, areaHeight - h); Corner newCorner = corner(); if (x == 0) { if (y == 0) { newCorner = TopLeft; } else if (areaHeight - cSize.height() < newPos.y()) { y = areaHeight - cSize.height(); newCorner = BottomLeft; } else { newCorner = Left; } } else if (y == 0) { if (areaWidth - cSize.width() < newPos.x()) { x = areaWidth - cSize.width(); newCorner = TopRight; } else { newCorner = Top; } } else if (x + w >= areaWidth) { if (areaHeight - cSize.height() < newPos.y()) { y = areaHeight - cSize.height(); x = areaWidth - cSize.width(); newCorner = BottomRight; } else { x = areaWidth - fHeight.width(); newCorner = Right; } } else { y = areaHeight - fWidth.height(); newCorner = Bottom; } if (newCorner != corner()) { prepareGeometryChange(); setCorner(newCorner); } setPos(x, y); } void InternalToolBox::mouseReleaseEvent(QGraphicsSceneMouseEvent *event) { if (event->button() == Qt::LeftButton && !d->dragging && boundingRect().contains(event->pos())) { emit toggled(); return; } d->dragging = false; KConfigGroup cg(d->containment->config()); save(cg); } bool InternalToolBox::isMovable() const { return d->movable; } void InternalToolBox::setIsMovable(bool movable) { d->movable = movable; } void InternalToolBox::setCorner(const Corner corner) { d->corner = corner; } InternalToolBox::Corner InternalToolBox::corner() const { return d->corner; } void InternalToolBox::save(KConfigGroup &cg) const { if (!d->movable) { return; } KConfigGroup group(&cg, "ToolBox"); if (!d->userMoved) { group.deleteGroup(); return; } int offset = 0; if (corner() == InternalToolBox::Left || corner() == InternalToolBox::Right) { offset = y(); } else if (corner() == InternalToolBox::Top || corner() == InternalToolBox::Bottom) { offset = x(); } group.writeEntry("corner", int(corner())); group.writeEntry("offset", offset); } void InternalToolBox::restore(const KConfigGroup &containmentGroup) { if (!d->movable) { return; } KConfigGroup group; if (containmentGroup.isValid()) { group = containmentGroup; } else { group = d->containment->config(); } group = KConfigGroup(&group, "ToolBox"); if (!group.hasKey("corner")) { return; } d->userMoved = true; setCorner(Corner(group.readEntry("corner", int(corner())))); int offset = group.readEntry("offset", 0); switch (corner()) { case InternalToolBox::TopLeft: setPos(0, 0); break; case InternalToolBox::Top: setPos(offset, 0); break; case InternalToolBox::TopRight: setPos(d->containment->size().width() - boundingRect().width(), 0); break; case InternalToolBox::Right: setPos(d->containment->size().width() - boundingRect().width(), offset); break; case InternalToolBox::BottomRight: setPos(d->containment->size().width() - boundingRect().width(), d->containment->size().height() - boundingRect().height()); break; case InternalToolBox::Bottom: setPos(offset, d->containment->size().height() - boundingRect().height()); break; case InternalToolBox::BottomLeft: setPos(0, d->containment->size().height() - boundingRect().height()); break; case InternalToolBox::Left: setPos(0, offset); break; } //kDebug() << "marked as user moved" << pos() // << (d->containment->containmentType() == Containment::PanelContainment); } void InternalToolBox::reposition() { if (d->userMoved) { //FIXME: adjust for situations like changing of the available space restore(); return; } if (d->containment->containmentType() == Containment::PanelContainment || d->containment->containmentType() == Containment::CustomPanelContainment) { QRectF rect = boundingRect(); if (d->containment->formFactor() == Vertical) { setCorner(InternalToolBox::Bottom); setPos(d->containment->geometry().width() / 2 - rect.width() / 2, d->containment->geometry().height() - rect.height()); } else { //defaulting to Horizontal right now if (QApplication::layoutDirection() == Qt::RightToLeft) { setPos(d->containment->geometry().left(), d->containment->geometry().height() / 2 - rect.height() / 2); setCorner(InternalToolBox::Left); } else { setPos(d->containment->geometry().width() - rect.width(), d->containment->geometry().height() / 2 - rect.height() / 2); setCorner(InternalToolBox::Right); } } //kDebug() << "got ourselves a panel containment, moving to" << pos(); } else if (d->containment->corona()) { //kDebug() << "desktop"; int screen = d->containment->screen(); QRectF avail = d->containment->geometry(); QRectF screenGeom = avail; if (screen > -1 && screen < d->containment->corona()->numScreens()) { avail = d->containment->corona()->availableScreenRegion(screen).boundingRect(); screenGeom = d->containment->corona()->screenGeometry(screen); avail.translate(-screenGeom.topLeft()); } // Transform to the containment's coordinate system. screenGeom.moveTo(0, 0); if (!d->containment->view() || !d->containment->view()->transform().isScaling()) { if (QApplication::layoutDirection() == Qt::RightToLeft) { if (avail.top() > screenGeom.top()) { setPos(avail.topLeft() - QPoint(0, avail.top())); setCorner(InternalToolBox::Left); } else if (avail.left() > screenGeom.left()) { setPos(avail.topLeft() - QPoint(boundingRect().width(), 0)); setCorner(InternalToolBox::Top); } else { setPos(avail.topLeft()); setCorner(InternalToolBox::TopLeft); } } else { if (avail.top() > screenGeom.top()) { setPos(avail.topRight() - QPoint(boundingRect().width(), -avail.top())); setCorner(InternalToolBox::Right); } else if (avail.right() < screenGeom.right()) { setPos(avail.topRight() - QPoint(boundingRect().width(), 0)); setCorner(InternalToolBox::Top); } else { setPos(avail.topRight() - QPoint(boundingRect().width(), 0)); setCorner(InternalToolBox::TopRight); } } } else { if (QApplication::layoutDirection() == Qt::RightToLeft) { setPos(d->containment->mapFromScene(QPointF(d->containment->geometry().topLeft()))); setCorner(InternalToolBox::TopLeft); } else { setPos(d->containment->mapFromScene(QPointF(d->containment->geometry().topRight()))); setCorner(InternalToolBox::TopRight); } } } } } // plasma namespace #include "internaltoolbox_p.moc"