plasma-framework/phase.cpp

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/*
* Copyright (C) 2007 Aaron Seigo <aseigo@kde.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU Library General Public License version 2 as
* published by the Free Software Foundation
*
* 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 "phase.h"
#include <QGraphicsItem>
#include <QTimeLine>
#include <KConfig>
#include <KConfigGroup>
#include <KService>
#include <KServiceTypeTrader>
#include "animator.h"
namespace Plasma
{
struct AnimationState
{
QGraphicsItem* item;
Phase::Animation animation;
int frames;
};
struct ElementAnimationState
{
QGraphicsItem* item;
QTimeLine* timeline;
Phase::ElementAnimation animation;
int frames;
int currentFrame;
int id;
QPixmap pixmap;
};
class Phase::Private
{
public:
Private()
: animator(0),
animId(0)
{
}
~Private()
{
// delete animator; Animator is a QObject
// TimeLine's are parented to us, and we don't own the items
}
Animator* animator;
int animId;
//TODO: eventually perhaps we should allow multiple animations simulataneously
// which would imply changing this to a QMap<QGraphicsItem*, QList<QTimeLine*> >
// and really making the code fun ;)
QMap<QGraphicsItem*, QTimeLine*> theAnimated;
QMap<QTimeLine*, AnimationState> animations;
QMap<Phase::AnimId, ElementAnimationState> theAnimatedElements;
QMap<QTimeLine*, Phase::AnimId> elementAnimations;
};
class PhaseSingleton
{
public:
Phase self;
};
K_GLOBAL_STATIC( PhaseSingleton, privateSelf )
Phase* Phase::self()
{
return &privateSelf->self;
}
Phase::Phase(QObject * parent)
: QObject(parent),
d(new Private)
{
init();
}
Phase::~Phase()
{
delete d;
}
void Phase::appletDestroyed(QObject* o)
{
QGraphicsItem* item = dynamic_cast<QGraphicsItem*>(o);
if (!item) {
return;
}
QMap<QGraphicsItem*, QTimeLine*>::iterator it = d->theAnimated.find(item);
if (it == d->theAnimated.end()) {
return;
}
d->animations.erase(d->animations.find(it.value()));
d->theAnimated.erase(it);
delete it.value();
}
void Phase::animate(QGraphicsItem* item, Animation animation)
{
QMap<QGraphicsItem*, QTimeLine*>::iterator it = d->theAnimated.find(item);
if (it != d->theAnimated.end()) {
delete it.value();
d->animations.erase(d->animations.find(it.value()));
}
//TODO: allow the animator to define this?
QTimeLine::CurveShape curveShape = QTimeLine::EaseInOutCurve;
int frames = d->animator->frameCount(animation);
if (frames < 1) {
return;
}
AnimationState state;
state.item = item;
state.animation = animation;
//TODO: variance in times based on the value of animation
state.frames = frames / 3;
//TODO: variance in times based on the value of animation
QTimeLine* timeLine = new QTimeLine(333, this);
timeLine->setFrameRange(0, state.frames);
timeLine->setCurveShape(curveShape);
d->animations[timeLine] = state;
d->theAnimated[item] = timeLine;
connect(timeLine, SIGNAL(frameChanged(int)), this, SLOT(advanceFrame(int)));
connect(timeLine, SIGNAL(finished()), this, SLOT(animationComplete()));
timeLine->start();
advanceFrame(0, timeLine);
}
void Phase::advanceFrame(int frame)
{
QTimeLine* timeLine = dynamic_cast<QTimeLine*>(sender());
if (!timeLine) {
//kDebug() << "Phase::advanceFrame found no timeLine!" << endl;
return;
}
advanceFrame(frame, timeLine);
}
void Phase::advanceFrame(int frame, QTimeLine* timeLine)
{
QMap<QTimeLine*, AnimationState>::iterator it = d->animations.find(timeLine);
if (it == d->animations.end()) {
//kDebug() << "Phase::advanceFrame found no entry in animations!" << endl;
return;
}
AnimationState state = it.value();
qreal progress = state.frames;
progress = frame / progress;
switch (state.animation) {
case Appear:
d->animator->appear(progress, state.item);
break;
case Disappear:
d->animator->disappear(progress, state.item);
break;
case Activate:
d->animator->activate(progress, state.item);
break;
case FrameAppear:
d->animator->frameAppear(progress, state.item, QRegion()); //FIXME: what -is- the frame region?
break;
}
}
void Phase::animationComplete()
{
QTimeLine* tl = dynamic_cast<QTimeLine*>(sender());
if (!tl) {
return;
}
QMap<QTimeLine*, AnimationState>::iterator it = d->animations.find(tl);
if (it == d->animations.end()) {
return;
}
AnimationState state = it.value();
switch (state.animation) {
case Appear:
d->animator->appearCompleted(state.item);
break;
case Disappear:
d->animator->disappearCompleted(state.item);
break;
case Activate:
d->animator->activateCompleted(state.item);
break;
case FrameAppear:
d->animator->frameAppearCompleted(state.item, QRegion()); //FIXME: what -is- the frame region?
break;
}
QMap<QGraphicsItem*, QTimeLine*>::iterator animIt = d->theAnimated.find(state.item);
if (animIt != d->theAnimated.end()) {
d->theAnimated.erase(animIt);
}
d->animations.erase(it);
tl->deleteLater();
}
void Phase::render(QGraphicsItem* item, QImage& image, RenderOp op)
{
Q_UNUSED(item);
switch (op) {
case RenderBackground:
d->animator->renderBackground(image);
break;
}
}
Phase::AnimId Phase::startElementAnimation(QGraphicsItem *item, ElementAnimation animation)
{
//kDebug() << "startElementAnimation(AnimId " << animation << ")" << endl;
//TODO: allow the animator to define this?
QTimeLine::CurveShape curveShape = QTimeLine::EaseInOutCurve;
ElementAnimationState state;
state.item = item;
state.animation = animation;
//TODO: variance in times based on the value of animation
state.frames = d->animator->elementFrameCount(animation) / 3;
state.currentFrame = 0;
state.id = ++d->animId;
if (state.frames < 1) {
state.frames = 1;
state.currentFrame = 1;
state.timeline = 0;
} else {
//TODO: variance in times based on the value of animation
state.timeline = new QTimeLine(200, this);
state.timeline->setFrameRange(0, state.frames);
state.timeline->setCurveShape(curveShape);
connect(state.timeline, SIGNAL(frameChanged(int)), this, SLOT(advanceElementFrame(int)));
connect(state.timeline, SIGNAL(finished()), this, SLOT(elementAnimationComplete()));
state.timeline->start();
}
d->elementAnimations[state.timeline] = state.id;
d->theAnimatedElements[state.id] = state;
//TODO: this is a bit wasteful; perhaps we should pass in state itself?
advanceElementFrame(0, state.id);
//kDebug() << "startElementAnimation(AnimId " << animation << ") returning " << state.id << endl;
return state.id;
}
void Phase::stopElementAnimation(AnimId id)
{
//kDebug() << "stopElementAnimation(AnimId " << id << ")" << endl;
QMap<AnimId, ElementAnimationState>::iterator it = d->theAnimatedElements.find(id);
if (it == d->theAnimatedElements.end()) {
return;
}
if (it.value().timeline) {
d->elementAnimations.erase(d->elementAnimations.find(it.value().timeline));
//delete it.value().timeline;
it.value().timeline = 0;
}
d->theAnimatedElements.erase(it);
//kDebug() << "stopElementAnimation(AnimId " << id << ") done" << endl;
}
void Phase::setAnimationPixmap(AnimId id, const QPixmap &pixmap)
{
QMap<AnimId, ElementAnimationState>::iterator it = d->theAnimatedElements.find(id);
if (it == d->theAnimatedElements.end()) {
kDebug() << "Phase::setAnimationPixmap(" << id << ") found no entry for it!" << endl;
return;
}
it.value().pixmap = pixmap;
}
QPixmap Phase::animationResult(AnimId id)
{
QMap<AnimId, ElementAnimationState>::const_iterator it = d->theAnimatedElements.find(id);
if (it == d->theAnimatedElements.constEnd()) {
kDebug() << "Phase::animationResult(" << id << ") found no entry for it!" << endl;
return QPixmap();
}
qreal progress = it.value().frames;
//kDebug() << "Phase::animationResult(" << id << " at " << progress << endl;
progress = it.value().currentFrame / progress;
//kDebug() << "Phase::animationResult(" << id << " at " << progress << endl;
switch (it.value().animation) {
case ElementAppear:
return d->animator->elementAppear(progress, it.value().pixmap);
break;
case ElementDisappear:
return d->animator->elementDisappear(progress, it.value().pixmap);
break;
}
return it.value().pixmap;
}
void Phase::advanceElementFrame(int frame)
{
QTimeLine* timeline = dynamic_cast<QTimeLine*>(sender());
if (!timeline) {
kDebug() << "Phase::advanceElementFrame found no timeLine!" << endl;
return;
}
QMap<QTimeLine*, Phase::AnimId>::const_iterator it = d->elementAnimations.find(timeline);
if (it == d->elementAnimations.constEnd()) {
kDebug() << "Phase::advanceElementFrame found no entry in animations!" << endl;
return;
}
advanceElementFrame(frame, it.value());
}
void Phase::advanceElementFrame(int frame, AnimId id)
{
QMap<Phase::AnimId, ElementAnimationState>::iterator it2 = d->theAnimatedElements.find(id);
if (it2 == d->theAnimatedElements.end()) {
kDebug() << "Phase::advanceElementFrame found no entry in animations!" << endl;
return;
}
it2.value().currentFrame = frame;
it2.value().item->update();
}
void Phase::elementAnimationComplete()
{
QTimeLine* tl = dynamic_cast<QTimeLine*>(sender());
if (!tl) {
return;
}
QMap<QTimeLine*, Phase::AnimId>::iterator it = d->elementAnimations.find(tl);
if (it == d->elementAnimations.end()) {
return;
}
//kDebug() << "elementAnimationComplete() " << it.value() << endl;
QMap<Phase::AnimId, ElementAnimationState>::iterator it2 = d->theAnimatedElements.find(it.value());
if (it2 != d->theAnimatedElements.end()) {
it2.value().timeline = 0;
it2.value().currentFrame = it2.value().frames;
it2.value().item->update();
}
d->elementAnimations.erase(it);
tl->deleteLater();
}
void Phase::init()
{
KConfig c("plasmarc");
KConfigGroup cg(&c, "Phase");
QString pluginName = cg.readEntry("animator", "default");
if (!pluginName.isEmpty()) {
QString constraint = QString("[X-KDE-PluginInfo-Name] == '%1'").arg(pluginName);
KService::List offers = KServiceTypeTrader::self()->query("Plasma/Animator", constraint);
if (!offers.isEmpty()) {
d->animator = KService::createInstance<Plasma::Animator>(offers.first(), 0, QStringList());
}
}
if (!d->animator) {
d->animator = new Animator(this);
}
}
} // namespace Plasma
#include <phase.moc>