plasma-framework/containment.cpp
Alexis Ménard 987ca211c7 put the remove of the layout if the applet is removed in destroy function, then if we call
it from other place we will be sure the applet will be remove from the layout

svn path=/trunk/KDE/kdebase/workspace/libs/plasma/; revision=805590
2008-05-08 20:26:56 +00:00

1221 lines
38 KiB
C++

/*
* Copyright 2007 by Aaron Seigo <aseigo@kde.org>
* Copyright 2008 by Ménard Alexis <darktears31@gmail.com>
*
* 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 "containment.h"
#include "containment_p.h"
#include <QAction>
#include <QDesktopWidget>
#include <QFile>
#include <QGraphicsSceneContextMenuEvent>
#include <QGraphicsView>
#include <QMimeData>
#include <QPainter>
#include <QStyleOptionGraphicsItem>
#include <QGraphicsLayout>
#include <QGraphicsLinearLayout>
#include <KApplication>
#include <KAuthorized>
#include <KIcon>
#include <KMenu>
#include <KMimeType>
#include <KRun>
#include <KServiceTypeTrader>
#include <KStandardDirs>
#include <KWindowSystem>
#include "applet_p.h"
#include "applethandle_p.h"
#include "corona.h"
#include "animator.h"
#include "desktoptoolbox_p.h"
#include "paneltoolbox_p.h"
#include "svg.h"
namespace Plasma
{
Containment::StyleOption::StyleOption()
: QStyleOptionGraphicsItem(),
view(0)
{
}
Containment::StyleOption::StyleOption(const Containment::StyleOption & other)
: QStyleOptionGraphicsItem(other),
view(other.view)
{
}
Containment::StyleOption::StyleOption(const QStyleOptionGraphicsItem &other)
: QStyleOptionGraphicsItem(other),
view(0)
{
}
Containment::Containment(QGraphicsItem* parent,
const QString& serviceId,
uint containmentId)
: Applet(parent, serviceId, containmentId),
d(new Private(this))
{
// WARNING: do not access config() OR globalConfig() in this method!
// that requires a scene, which is not available at this point
setPos(0, 0);
setBackgroundHints(NoBackground);
setContainmentType(CustomContainment);
}
Containment::Containment(QObject* parent, const QVariantList& args)
: Applet(parent, args),
d(new Private(this))
{
// WARNING: do not access config() OR globalConfig() in this method!
// that requires a scene, which is not available at this point
setPos(0, 0);
setBackgroundHints(NoBackground);
}
Containment::~Containment()
{
delete d;
}
void Containment::init()
{
setCacheMode(NoCache);
setFlag(QGraphicsItem::ItemIsMovable, false);
setFlag(QGraphicsItem::ItemClipsChildrenToShape, false);
setAcceptDrops(true);
setAcceptsHoverEvents(true);
//TODO: would be nice to not do this on init, as it causes Animator to init
connect(Animator::self(), SIGNAL(animationFinished(QGraphicsItem*,Plasma::Animator::Animation)),
this, SLOT(appletAnimationComplete(QGraphicsItem*,Plasma::Animator::Animation)));
if (d->type == NoContainmentType) {
setContainmentType(DesktopContainment);
}
Applet::init();
}
// helper function for sorting the list of applets
bool appletConfigLessThan(const KConfigGroup &c1, const KConfigGroup &c2)
{
QPointF p1 = c1.readEntry("geometry", QRectF()).topLeft();
QPointF p2 = c2.readEntry("geometry", QRectF()).topLeft();
if (p1.x() != p2.x()) {
return p1.x() < p2.x();
}
return p1.y() < p2.y();
}
void Containment::loadContainment(KConfigGroup* group)
{
/*kDebug() << "!!!!!!!!!!!!initConstraints" << group->name() << containmentType();
kDebug() << " location:" << group->readEntry("location", (int)d->location);
kDebug() << " geom:" << group->readEntry("geometry", geometry());
kDebug() << " formfactor:" << group->readEntry("formfactor", (int)d->formFactor);
kDebug() << " screen:" << group->readEntry("screen", d->screen);*/
QRectF geo = group->readEntry("geometry", geometry());
//override max/min
if (geo.size() != geo.size().boundedTo(maximumSize())) {
setMaximumSize(maximumSize().expandedTo(geo.size()));
}
if (geo.size() != geo.size().expandedTo(minimumSize())) {
setMinimumSize(minimumSize().boundedTo(geo.size()));
}
setGeometry(geo);
setLocation((Plasma::Location)group->readEntry("location", (int)d->location));
setFormFactor((Plasma::FormFactor)group->readEntry("formfactor", (int)d->formFactor));
setScreen(group->readEntry("screen", d->screen));
flushPendingConstraintsEvents();
//kDebug() << "Containment" << id() << "geometry is" << geometry() << "config'd with" << appletConfig.name();
KConfigGroup applets(group, "Applets");
// Sort the applet configs in order of geometry to ensure that applets
// are added from left to right or top to bottom for a panel containment
QList<KConfigGroup> appletConfigs;
foreach (const QString &appletGroup, applets.groupList()) {
//kDebug() << "reading from applet group" << appletGroup;
KConfigGroup appletConfig(&applets, appletGroup);
appletConfigs.append(appletConfig);
}
qSort(appletConfigs.begin(), appletConfigs.end(), appletConfigLessThan);
foreach (KConfigGroup appletConfig, appletConfigs) {
int appId = appletConfig.name().toUInt();
//kDebug() << "the name is" << appletConfig.name();
QString plugin = appletConfig.readEntry("plugin", QString());
if (plugin.isEmpty()) {
continue;
}
Applet *applet = d->addApplet(plugin, QVariantList(), appletConfig.readEntry("geometry", QRectF()), appId, true);
applet->restore(&appletConfig);
}
}
void Containment::saveContainment(KConfigGroup* group) const
{
// locking is saved in Applet::save
group->writeEntry("screen", d->screen);
group->writeEntry("formfactor", (int)d->formFactor);
group->writeEntry("location", (int)d->location);
}
Containment::Type Containment::containmentType() const
{
return d->type;
}
void Containment::setContainmentType(Containment::Type type)
{
d->type = type;
if (isContainment() && type == DesktopContainment) {
if (!d->toolBox) {
QGraphicsWidget *addWidgetTool = addToolBoxTool("addwidgets", "list-add", i18n("Add Widgets"));
connect(addWidgetTool, SIGNAL(clicked()), this, SLOT(triggerShowAddWidgets()));
QGraphicsWidget *zoomInTool = addToolBoxTool("zoomIn", "zoom-in", i18n("Zoom In"));
connect(zoomInTool, SIGNAL(clicked()), this, SLOT(zoomIn()));
QGraphicsWidget *zoomOutTool = addToolBoxTool("zoomOut", "zoom-out", i18n("Zoom Out"));
connect(zoomOutTool, SIGNAL(clicked()), this, SLOT(zoomOut()));
if (immutability() != SystemImmutable) {
QGraphicsWidget *lockTool = addToolBoxTool("lockWidgets", "object-locked",
immutability() == UserImmutable ? i18n("Unlock Widgets") :
i18n("Lock Widgets"));
connect(lockTool, SIGNAL(clicked()), this, SLOT(toggleDesktopImmutability()));
}
QGraphicsWidget *activityTool = addToolBoxTool("addSiblingContainment", "list-add", i18n("Add Activity"));
connect(activityTool, SIGNAL(clicked()), this, SLOT(addSiblingContainment()));
}
} else if (isContainment() && type == PanelContainment) {
if (!d->toolBox) {
d->createToolBox();
d->toolBox->setSize(22);
d->toolBox->setIconSize(QSize(16, 16));
}
} else {
delete d->toolBox;
d->toolBox = 0;
}
}
Corona* Containment::corona() const
{
return dynamic_cast<Corona*>(scene());
}
void Containment::contextMenuEvent(QGraphicsSceneContextMenuEvent* event)
{
//kDebug() << "let's see if we manage to get a context menu here, huh";
if (!isContainment() || !scene() || !KAuthorized::authorizeKAction("desktop_contextmenu")) {
Applet::contextMenuEvent(event);
return;
}
QPointF point = event->scenePos();
QGraphicsItem* item = scene()->itemAt(point);
if (item == this) {
item = 0;
}
Applet* applet = 0;
while (item) {
applet = qgraphicsitem_cast<Applet*>(item);
if (applet && !applet->isContainment()) {
break;
}
// applet may have a value due to finding a containment!
applet = 0;
item = item->parentItem();
}
KMenu desktopMenu;
//kDebug() << "context menu event " << (QObject*)applet;
if (applet) {
bool hasEntries = false;
QList<QAction*> actions = applet->contextualActions();
if (!actions.isEmpty()) {
foreach(QAction* action, actions) {
desktopMenu.addAction(action);
}
hasEntries = true;
}
if (applet->hasConfigurationInterface()) {
QAction* configureApplet = new QAction(i18n("%1 Settings", applet->name()), &desktopMenu);
configureApplet->setIcon(KIcon("configure"));
connect(configureApplet, SIGNAL(triggered(bool)),
applet, SLOT(showConfigurationInterface()));
desktopMenu.addAction(configureApplet);
hasEntries = true;
}
QList<QAction*> containmentActions = contextualActions();
if (!containmentActions.isEmpty()) {
if (hasEntries) {
desktopMenu.addSeparator();
}
hasEntries = true;
QMenu *containmentActionMenu = &desktopMenu;
if (!actions.isEmpty() && containmentActions.count() > 2) {
containmentActionMenu = new KMenu(i18n("%1 Options", name()), &desktopMenu);
desktopMenu.addMenu(containmentActionMenu);
}
foreach(QAction* action, containmentActions) {
containmentActionMenu->addAction(action);
}
}
if (scene() && !static_cast<Corona*>(scene())->immutability() != Mutable) {
if (hasEntries) {
desktopMenu.addSeparator();
}
QAction* closeApplet = new QAction(i18n("Remove this %1", applet->name()), &desktopMenu);
QVariant appletV;
appletV.setValue((QObject*)applet);
closeApplet->setData(appletV);
closeApplet->setIcon(KIcon("edit-delete"));
connect(closeApplet, SIGNAL(triggered(bool)), this, SLOT(destroyApplet()));
desktopMenu.addAction(closeApplet);
hasEntries = true;
}
if (!hasEntries) {
Applet::contextMenuEvent(event);
kDebug() << "no entries";
return;
}
} else {
if (!scene() || (static_cast<Corona*>(scene())->immutability() != Mutable && !KAuthorized::authorizeKAction("unlock_desktop"))) {
//kDebug() << "immutability";
Applet::contextMenuEvent(event);
return;
}
QList<QAction*> actions = contextualActions();
if (actions.count() < 1) {
//kDebug() << "no applet, but no actions";
Applet::contextMenuEvent(event);
return;
}
foreach(QAction* action, actions) {
desktopMenu.addAction(action);
}
}
event->accept();
//kDebug() << "executing at" << event->screenPos();
desktopMenu.exec(event->screenPos());
}
void Containment::setFormFactor(FormFactor formFactor)
{
if (d->formFactor == formFactor && layout()) {
return;
}
//kDebug() << "switching FF to " << formFactor;
FormFactor was = d->formFactor;
d->formFactor = formFactor;
if (isContainment() && containmentType() == PanelContainment && was != formFactor) {
// we are a panel and we have chaged our orientation
d->positionPanel(true);
}
updateConstraints(Plasma::FormFactorConstraint);
}
void Containment::setLocation(Location location)
{
if (d->location == location) {
return;
}
bool emitGeomChange = false;
if ((location == TopEdge || location == BottomEdge) &&
(d->location == TopEdge || d->location == BottomEdge)) {
emitGeomChange = true;
}
if ((location == RightEdge || location == LeftEdge) &&
(d->location == RightEdge || d->location == LeftEdge)) {
emitGeomChange = true;
}
d->location = location;
foreach (Applet* applet, d->applets) {
applet->updateConstraints(Plasma::LocationConstraint);
}
if (emitGeomChange) {
// our geometry on the scene will not actually change,
// but for the purposes of views it has
emit geometryChanged();
}
updateConstraints(Plasma::LocationConstraint);
}
void Containment::addSiblingContainment()
{
emit addSiblingContainment(this);
}
void Containment::clearApplets()
{
qDeleteAll(d->applets);
d->applets.clear();
}
Applet* Containment::addApplet(const QString& name, const QVariantList& args, const QRectF &appletGeometry)
{
return d->addApplet(name, args, appletGeometry);
}
//pos must be relative to the containment already. use mapfromscene.
//what we're trying to do here for panels is make the applet go to the requested position,
//or somewhere close to it, and get integrated properly into the containment as if it were created
//there.
void Containment::addApplet(Applet *applet, const QPointF &pos, bool delayInit)
{
if (!delayInit && immutability() != Mutable) {
return;
}
if (!applet) {
kDebug() << "adding null applet!?!";
return;
}
Containment *currentContainment = applet->containment();
if (containmentType() == PanelContainment) {
//panels don't want backgrounds, which is important when setting geometry
setBackgroundHints(NoBackground);
}
if (currentContainment && currentContainment != this) {
applet->removeSceneEventFilter(currentContainment);
KConfigGroup oldConfig = applet->config();
currentContainment->d->applets.removeAll(applet);
applet->setParentItem(this);
// now move the old config to the new location
KConfigGroup c = config().group("Applets").group(QString::number(applet->id()));
oldConfig.reparent(&c);
applet->d->resetConfigurationObject();
} else {
applet->setParentItem(this);
}
d->applets << applet;
connect(applet, SIGNAL(destroyed(QObject*)), this, SLOT(appletDestroyed(QObject*)));
if (pos != QPointF(-1, -1)) {
applet->setPos(pos);
}
if (delayInit) {
if (containmentType() == DesktopContainment) {
applet->installSceneEventFilter(this);
}
} else {
applet->init();
Animator::self()->animateItem(applet, Animator::AppearAnimation);
}
applet->updateConstraints(Plasma::AllConstraints | Plasma::StartupCompletedConstraint);
if (!delayInit) {
applet->flushPendingConstraintsEvents();
emit configNeedsSaving();
}
emit appletAdded(applet, pos);
}
Applet::List Containment::applets() const
{
return d->applets;
}
void Containment::setScreen(int screen)
{
// screen of -1 means no associated screen.
if (containmentType() == DesktopContainment || containmentType() >= CustomContainment) {
#ifndef Q_OS_WIN
// we want to listen to changes in work area if our screen changes
if (d->screen < 0 && screen > -1) {
connect(KWindowSystem::self(), SIGNAL(workAreaChanged()), this, SLOT(positionToolBox()));
} else if (screen < 0) {
disconnect(KWindowSystem::self(), SIGNAL(workAreaChanged()), this, SLOT(positionToolBox()));
}
#endif
if (screen > -1 && corona()) {
// sanity check to make sure someone else doesn't have this screen already!
Containment* currently = corona()->containmentForScreen(screen);
if (currently && currently != this) {
//kDebug() << "currently is on screen" << currently->screen() << "and is" << currently->name() << (QObject*)currently << (QObject*)this;
currently->setScreen(-1);
}
}
}
//kDebug() << "setting screen to" << screen << "and we are a" << containmentType();
QDesktopWidget *desktop = QApplication::desktop();
int numScreens = desktop->numScreens();
if (screen < -1) {
screen = -1;
}
//kDebug() << "setting screen to " << screen << "and type is" << containmentType();
if (screen < numScreens && screen > -1) {
if (containmentType() == DesktopContainment ||
containmentType() >= CustomContainment) {
resize(desktop->screenGeometry(screen).size());
}
}
int oldScreen = d->screen;
d->screen = screen;
updateConstraints(Plasma::ScreenConstraint);
if (oldScreen != screen) {
emit screenChanged(oldScreen, screen, this);
}
}
int Containment::screen() const
{
return d->screen;
}
QPoint Containment::effectiveScreenPos() const
{
if (d->screen < 0) {
return QPoint();
}
QRect r = QApplication::desktop()->screenGeometry(d->screen);
if (containmentType() == PanelContainment) {
QRectF p = geometry();
switch (d->location) {
case TopEdge:
return QPoint(r.left() + p.x(), r.top());
break;
case BottomEdge:
return QPoint(r.left() + p.x(), r.bottom() - p.height());
break;
case LeftEdge:
return QPoint(r.left(), r.top() + (p.bottom() + INTER_CONTAINMENT_MARGIN));
break;
case RightEdge:
return QPoint(r.right() - p.width(), r.top() + (p.bottom() + INTER_CONTAINMENT_MARGIN));
break;
default:
//FIXME: implement properly for Floating!
return p.topLeft().toPoint();
break;
}
} else {
//NOTE: if we ever support non-origin'd desktop containments
// this assumption here will have to change
return r.topLeft();
}
}
KPluginInfo::List Containment::listContainments(const QString &category,
const QString &parentApp)
{
QString constraint;
if (parentApp.isEmpty()) {
constraint.append("not exist [X-KDE-ParentApp]");
} else {
constraint.append("[X-KDE-ParentApp] == '").append(parentApp).append("'");
}
if (!category.isEmpty()) {
if (!constraint.isEmpty()) {
constraint.append(" and ");
}
constraint.append("[X-KDE-PluginInfo-Category] == '").append(category).append("'");
if (category == "Miscellaneous") {
constraint.append(" or (not exist [X-KDE-PluginInfo-Category] or [X-KDE-PluginInfo-Category] == '')");
}
}
KService::List offers = KServiceTypeTrader::self()->query("Plasma/Containment", constraint);
//kDebug() << "constraint was" << constraint << "which got us" << offers.count() << "matches";
return KPluginInfo::fromServices(offers);
}
KPluginInfo::List Containment::listContainmentsForMimetype(const QString &mimetype)
{
QString constraint = QString("'%1' in MimeTypes").arg(mimetype);
//kDebug() << mimetype << constraint;
KService::List offers = KServiceTypeTrader::self()->query("Plasma/Containment", constraint);
return KPluginInfo::fromServices(offers);
}
void Containment::dropEvent(QGraphicsSceneDragDropEvent *event)
{
//kDebug() << event->mimeData()->text();
QString mimetype(static_cast<Corona*>(scene())->appletMimeType());
if (event->mimeData()->hasFormat(mimetype) && scene()) {
QString plasmoidName;
plasmoidName = event->mimeData()->data(mimetype);
QRectF geom(mapFromScene(event->scenePos()), QSize(0, 0));
addApplet(plasmoidName, QVariantList(), geom);
event->acceptProposedAction();
} else if (KUrl::List::canDecode(event->mimeData())) {
//TODO: collect the mimetypes of available script engines and offer
// to create widgets out of the matching URLs, if any
KUrl::List urls = KUrl::List::fromMimeData(event->mimeData());
foreach (const KUrl& url, urls) {
KMimeType::Ptr mime = KMimeType::findByUrl(url);
QString mimeName = mime->name();
QRectF geom(event->scenePos(), QSize(0, 0));
QVariantList args;
args << url.url();
// kDebug() << mimeName;
KPluginInfo::List appletList = Applet::listAppletInfoForMimetype(mimeName);
if (appletList.isEmpty()) {
// no special applet associated with this mimetype, let's
addApplet("icon", args, geom);
} else {
//TODO: should we show a dialog here to choose which plasmoid load if
//!appletList.isEmpty()
addApplet(appletList.first().pluginName(), args, geom);
}
}
event->acceptProposedAction();
}
}
void Containment::hoverEnterEvent(QGraphicsSceneHoverEvent *event)
{
//FIXME Qt4.4 check to see if this is still necessary to avoid unecessary repaints
// check with QT_FLUSH_PAINT=1 and mouse through applets that accept hover,
// applets that don't and system windows
if (event->spontaneous()) {
Applet::hoverEnterEvent(event);
}
Q_UNUSED(event)
}
void Containment::hoverLeaveEvent(QGraphicsSceneHoverEvent *event)
{
//FIXME Qt4.4 check to see if this is still necessary to avoid unecessary repaints
// check with QT_FLUSH_PAINT=1 and mouse through applets that accept hover,
// applets that don't and system windows
// Applet::hoverLeaveEvent(event);
Q_UNUSED(event)
}
void Containment::keyPressEvent(QKeyEvent *event)
{
kDebug() << "keyPressEvent with" << event->key() << "and hoping and wishing for a" << Qt::Key_Tab;
if (event->key() == Qt::Key_Tab) { // && event->modifiers() == 0) {
kDebug() << "let's give focus to...." << (QObject*)d->applets.first();
if (!d->applets.isEmpty()) {
d->applets.first()->setFocus(Qt::TabFocusReason);
}
}
}
bool Containment::sceneEventFilter(QGraphicsItem *watched, QEvent *event)
{
Applet *applet = qgraphicsitem_cast<Applet*>(watched);
// Otherwise we're watching something we shouldn't be...
//kDebug() << "got sceneEvent";
Q_ASSERT(applet!=0);
if (!d->applets.contains(applet)) {
return false;
}
switch (event->type()) {
case QEvent::GraphicsSceneHoverEnter:
//kDebug() << "got hoverenterEvent" << immutability() << " " << applet->immutability();
if (immutability() == Mutable && applet->immutability() == Mutable) {
if (d->handles.contains(applet)) {
d->handles[applet]->startFading(AppletHandle::FadeIn);
} else {
//kDebug() << "generated applet handle";
//TODO: there should be a small delay on showing these. they pop up too quickly/easily
// right now
AppletHandle *handle = new AppletHandle(this, applet);
d->handles[applet] = handle;
connect(handle, SIGNAL(disappearDone(AppletHandle*)),
this, SLOT(handleDisappeared(AppletHandle*)));
connect(applet, SIGNAL(geometryChanged()),
handle, SLOT(appletResized()));
}
}
break;
case QEvent::GraphicsSceneHoverLeave:
//kDebug() << "got hoverLeaveEvent";
if (d->handles.contains(applet)) {
QGraphicsSceneHoverEvent *he = static_cast<QGraphicsSceneHoverEvent *>(event);
if (!d->handles[applet]->boundingRect().contains(d->handles[applet]->mapFromScene(he->scenePos()))) {
d->handles[applet]->startFading(AppletHandle::FadeOut);
}
}
default:
break;
}
return false;
}
QVariant Containment::itemChange(GraphicsItemChange change, const QVariant &value)
{
Q_UNUSED(value)
if (isContainment() &&
(change == QGraphicsItem::ItemSceneHasChanged || change == QGraphicsItem::ItemPositionHasChanged) &&
!d->positioning) {
switch (containmentType()) {
case PanelContainment:
d->positionPanel();
break;
default:
d->positionContainment();
break;
}
}
return Applet::itemChange(change, value);
}
QGraphicsWidget * Containment::addToolBoxTool(const QString& toolName, const QString& iconName, const QString& iconText)
{
Plasma::Icon *tool = new Plasma::Icon(this);
tool->setDrawBackground(true);
tool->setIcon(KIcon(iconName));
tool->setText(iconText);
tool->setOrientation(Qt::Horizontal);
QSizeF iconSize = tool->sizeFromIconSize(22);
tool->setMinimumSize(iconSize);
tool->setMaximumSize(iconSize);
tool->resize(tool->size());
d->createToolBox()->addTool(tool, toolName);
return tool;
}
void Containment::enableToolBoxTool(const QString &toolname, bool enable)
{
if (d->toolBox) {
d->toolBox->enableTool(toolname, enable);
}
}
bool Containment::isToolBoxToolEnabled(const QString &toolname) const
{
if (d->toolBox) {
return d->toolBox->isToolEnabled(toolname);
}
return false;
}
void Containment::setToolBoxOpen(bool open)
{
if (open) {
openToolBox();
} else {
closeToolBox();
}
}
void Containment::openToolBox()
{
if (d->toolBox) {
d->toolBox->showToolbox();
}
}
void Containment::closeToolBox()
{
if (d->toolBox) {
d->toolBox->hideToolbox();
}
}
// Private class implementation
void Containment::Private::toggleDesktopImmutability()
{
if (q->corona()) {
if (q->corona()->immutability() == Mutable) {
q->corona()->setImmutability(UserImmutable);
} else if (q->corona()->immutability() == UserImmutable) {
q->corona()->setImmutability(Mutable);
}
} else {
if (q->immutability() == Mutable) {
q->setImmutability(UserImmutable);
} else if (q->immutability() == UserImmutable) {
q->setImmutability(Mutable);
}
}
setLockToolText();
}
void Containment::Private::zoomIn()
{
emit q->zoomRequested(q, Plasma::ZoomIn);
}
void Containment::Private::zoomOut()
{
emit q->zoomRequested(q, Plasma::ZoomOut);
}
Toolbox* Containment::Private::createToolBox()
{
if (!toolBox) {
switch (type) {
case PanelContainment:
toolBox = new PanelToolbox(q);
break;
//defaults to DesktopContainment right now
default:
toolBox = new DesktopToolbox(q);
break;
}
positionToolBox();
connect(toolBox, SIGNAL(toggled()), q, SIGNAL(toolBoxToggled()));
}
return toolBox;
}
void Containment::Private::positionToolBox()
{
if (!toolBox) {
return;
}
QRectF r;
if (screen < 0) {
r = q->geometry();
} else {
QDesktopWidget *desktop = QApplication::desktop();
r = desktop->availableGeometry(screen);
}
toolBox->setPos(QPointF(r.right(), r.y()));
}
void Containment::Private::triggerShowAddWidgets()
{
emit q->showAddWidgetsInterface(QPointF());
}
void Containment::Private::handleDisappeared(AppletHandle *handle)
{
handles.remove(handle->applet());
handle->deleteLater();
}
void Containment::Private::setLockToolText()
{
if (!toolBox) {
return;
}
Icon *icon = dynamic_cast<Plasma::Icon*>(toolBox->tool("lockWidgets"));
if (icon) {
// we know it's an icon becase we made it
icon->setText(q->immutability() != Mutable ? i18n("Unlock Widgets") :
i18n("Lock Widgets"));
QSizeF iconSize = icon->sizeFromIconSize(22);
icon->setMinimumSize(iconSize);
icon->setMaximumSize(iconSize);
icon->resize(icon->size());
}
}
void Containment::Private::containmentConstraintsEvent(Plasma::Constraints constraints)
{
if (!q->isContainment()) {
return;
}
//kDebug() << "got containmentConstraintsEvent" << constraints << (QObject*)toolBox;
if (constraints & Plasma::ImmutableConstraint) {
setLockToolText();
// tell the applets too
foreach (Applet *a, applets) {
a->updateConstraints(ImmutableConstraint);
}
}
if ((constraints & Plasma::SizeConstraint || constraints & Plasma::ScreenConstraint) &&
toolBox) {
//The placement assumes that the geometry width/height is no more than the screen
if (type == PanelContainment) {
if (q->formFactor() == Vertical) {
toolBox->setOrientation(Qt::Vertical);
toolBox->setPos(q->geometry().width()/2 - toolBox->boundingRect().width()/2, q->geometry().height());
//defaulting to Horizontal right now
} else {
toolBox->setOrientation(Qt::Horizontal);
toolBox->setPos(q->geometry().width(), q->geometry().height()/2 - toolBox->boundingRect().height()/2);
}
} else {
toolBox->setPos(q->geometry().right() - qAbs(toolBox->boundingRect().width()), 0);
}
toolBox->enableTool("addwidgets", q->immutability() == Mutable);
}
if (constraints & Plasma::FormFactorConstraint) {
if (toolBox) {
if (q->formFactor() == Vertical) {
toolBox->setOrientation(Qt::Vertical);
//defaults to horizontal
} else {
toolBox->setOrientation(Qt::Horizontal);
}
}
foreach (Applet *applet, applets) {
applet->updateConstraints(Plasma::FormFactorConstraint);
}
}
if (constraints & Plasma::SizeConstraint) {
switch (q->containmentType()) {
case PanelContainment:
positionPanel();
break;
default:
positionContainment();
break;
}
}
}
void Containment::Private::destroyApplet()
{
QAction *action = qobject_cast<QAction*>(q->sender());
if (!action) {
return;
}
Applet *applet = qobject_cast<Applet*>(action->data().value<QObject*>());
Animator::self()->animateItem(applet, Animator::DisappearAnimation);
}
Applet* Containment::Private::addApplet(const QString& name, const QVariantList& args,
const QRectF& appletGeometry, uint id, bool delayInit)
{
if (!delayInit && q->immutability() != Mutable) {
kDebug() << "addApplet for" << name << "requested, but we're currently immutable!";
return 0;
}
QGraphicsView *v = q->view();
if (v) {
v->setCursor(Qt::BusyCursor);
}
Applet* applet = Applet::load(name, id, args);
if (v) {
v->unsetCursor();
}
if (!applet) {
kDebug() << "Applet" << name << "could not be loaded.";
applet = new Applet;
}
//kDebug() << applet->name() << "sizehint:" << applet->sizeHint() << "geometry:" << applet->geometry();
connect(applet, SIGNAL(configNeedsSaving()), q, SIGNAL(configNeedsSaving()));
connect(applet, SIGNAL(releaseVisualFocus()), q, SIGNAL(releaseVisualFocus()));
q->addApplet(applet, appletGeometry.topLeft(), delayInit);
return applet;
}
bool Containment::Private::regionIsEmpty(const QRectF &region, Applet *ignoredApplet) const
{
foreach (Applet *applet, applets) {
if (applet != ignoredApplet && applet->geometry().intersects(region)) {
return false;
}
}
return true;
}
void Containment::Private::appletDestroyed(QObject* object)
{
// we do a static_cast here since it really isn't an Applet by this
// point anymore since we are in the qobject dtor. we don't actually
// try and do anything with it, we just need the value of the pointer
// so this unsafe looking code is actually just fine.
Applet* applet = static_cast<Plasma::Applet*>(object);
applets.removeAll(applet);
emit q->appletRemoved(applet);
emit q->configNeedsSaving();
}
void Containment::Private::appletAnimationComplete(QGraphicsItem *item, Plasma::Animator::Animation anim)
{
if (anim == Animator::DisappearAnimation) {
QGraphicsItem *parent = item->parentItem();
while (parent) {
if (parent == q) {
Applet *applet = qgraphicsitem_cast<Applet*>(item);
applet->destroy();
break;
}
parent = parent->parentItem();
}
} else if (anim == Animator::AppearAnimation) {
if (q->containmentType() == DesktopContainment &&
item->parentItem() == q &&
qgraphicsitem_cast<Applet*>(item)) {
item->installSceneEventFilter(q);
}
}
}
void Containment::Private::positionContainment()
{
Corona *c = q->corona();
if (!c) {
return;
}
QList<Containment*> containments = c->containments();
QMutableListIterator<Containment*> it(containments);
while (it.hasNext()) {
Containment *containment = it.next();
if (containment == q ||
containment->containmentType() == PanelContainment) {
// weed out all containments we don't care about at all
// e.g. Panels and ourself
it.remove();
continue;
}
if (q->collidesWithItem(containment)) {
break;
}
}
if (!it.hasNext()) {
// we made it all the way through the list, we have no
// collisions
return;
}
// we need to find how many screens are to our top and left
// to calculate the proper offsets for the margins.
int width = 0;
int height = 0;
QDesktopWidget *desktop = QApplication::desktop();
int numScreens = desktop->numScreens();
for (int i = 0; i < numScreens; ++i) {
QRect otherScreen = desktop->screenGeometry(i);
if (width < otherScreen.width()) {
width = otherScreen.width();
}
if (height < otherScreen.height()) {
height = otherScreen.height();
}
}
//this magic number (4) is the number of columns to try before going to the next row
width = (width + INTER_CONTAINMENT_MARGIN) * 4;
height += INTER_CONTAINMENT_MARGIN;
// a mildly naive "find the first slot" approach
QRectF r = q->boundingRect();
QPointF topLeft(0, 0);
q->setPos(topLeft);
positioning = true;
while (true) {
it.toFront();
while (it.hasNext()) {
Containment *containment = it.next();
if (q->collidesWithItem(containment)) {
break;
}
QPointF pos = containment->pos();
if (pos.x() <= topLeft.x() && pos.y() <= topLeft.y()) {
// we don't colid with this containment, and it's above
// and to the left of us, so let's not bother checking
// it again if we go through this loop again
it.remove();
}
}
if (!it.hasNext()) {
// success! no collisions!
break;
}
if (topLeft.x() + (r.width() * 2) + INTER_CONTAINMENT_MARGIN > width) {
// we ran out of width room, try another row
topLeft = QPoint(0, topLeft.y() + height);
} else {
topLeft.setX(topLeft.x() + r.width() + INTER_CONTAINMENT_MARGIN);
}
kDebug() << "trying at" << topLeft;
q->setPos(topLeft);
//kDebug() << collidingItems().count() << collidingItems()[0] << (QGraphicsItem*)this;
}
positioning = false;
}
void Containment::Private::positionPanel(bool force)
{
if (!q->scene()) {
kDebug() << "no scene yet";
return;
}
// we position panels in negative coordinates, and stack all horizontal
// and all vertical panels with each other.
const QPointF p = q->pos();
if (!force &&
p.y() + q->size().height() < -INTER_CONTAINMENT_MARGIN &&
q->scene()->collidingItems(q).isEmpty()) {
// already positioned and not running into any other panels
return;
}
//TODO: research how non-Horizontal, non-Vertical (e.g. Planar) panels behave here
bool horiz = q->formFactor() == Plasma::Horizontal;
qreal bottom = horiz ? 0 : VERTICAL_STACKING_OFFSET;
qreal lastHeight = 0;
// this should be ok for small numbers of panels, but we ever end
// up managing hundreds of them, this simplistic alogrithm will
// likely be too slow.
foreach (const Containment* other, q->corona()->containments()) {
if (other == q ||
other->containmentType() != PanelContainment ||
horiz != (other->formFactor() == Plasma::Horizontal)) {
// only line up with panels of the same orientation
continue;
}
if (horiz) {
qreal y = other->pos().y();
if (y < bottom) {
lastHeight = other->size().height();
bottom = y;
}
} else {
qreal width = other->size().width();
qreal x = other->pos().x() + width;
if (x > bottom) {
lastHeight = width;
bottom = x + lastHeight;
}
}
}
kDebug() << "positioning" << (horiz ? "" : "non-") << "horizontal panel; forced?" << force;
// give a space equal to the height again of the last item so there is
// room to grow.
QPointF newPos;
if (horiz) {
bottom -= lastHeight + INTER_CONTAINMENT_MARGIN;
//TODO: fix x position for non-flush-left panels
kDebug() << "moved to" << QPointF(0, bottom - q->size().height());
newPos = QPointF(0, bottom - q->size().height());
} else {
bottom += lastHeight + INTER_CONTAINMENT_MARGIN;
//TODO: fix y position for non-flush-top panels
kDebug() << "moved to" << QPointF(bottom + q->size().width(), -INTER_CONTAINMENT_MARGIN - q->size().height());
newPos = QPointF(bottom + q->size().width(), -INTER_CONTAINMENT_MARGIN - q->size().height());
}
positioning = true;
if (p != newPos) {
q->setPos(newPos);
emit q->geometryChanged();
}
positioning = false;
}
} // Plasma namespace
#include "containment.moc"