/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Qt Software Information (qt-info@nokia.com) ** ** This file is part of the QtCore module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain ** additional rights. These rights are described in the Nokia Qt LGPL ** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at qt-sales@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ /*! \class QSequentialAnimationGroup \brief The QSequentialAnimationGroup class provides a sequential group of animations. \since 4.6 \ingroup animation QSequentialAnimationGroup is a QAnimationGroup that runs its animations in sequence, i.e., it starts one animation after another has finished playing. The animations are played in the order they are added to the group (using \l{QAnimationGroup::}{addAnimation()} or \l{QAnimationGroup::}{insertAnimationAt()}). The animation group finishes when its last animation has finished. At each moment there is at most one animation that is active in the group; it is returned by currentAnimation(). An empty group has no current animation. A sequential animation group can be treated as any other animation, i.e., it can be started, stopped, and added to other groups. You can also call addPause() or insertPauseAt() to add a pause to a sequential animation group. \code QSequentialAnimationGroup group; group.addAnimation(anim1); group.addAnimation(anim2); group.start(); \endcode In this example, \c anim1 and \c anim2 are two already set up \l{QPropertyAnimation}s. \sa QAnimationGroup, QAbstractAnimation, {The Animation Framework} */ #include "qsequentialanimationgroup.h" #include "qsequentialanimationgroup_p.h" #include "qpauseanimation.h" #include #ifndef QT_NO_ANIMATION QT_BEGIN_NAMESPACE bool QSequentialAnimationGroupPrivate::atEnd() const { // we try to detect if we're at the end of the group //this is true if the following conditions are true: // 1. we're in the last loop // 2. the direction is forward // 3. the current animation is the last one // 4. the current animation has reached its end const int animTotalCurrentTime = QAbstractAnimationPrivate::get(currentAnimation)->totalCurrentTime; return (currentLoop == loopCount - 1 && direction == QAbstractAnimation::Forward && currentAnimation == animations.last() && animTotalCurrentTime == animationActualTotalDuration(currentAnimationIndex)); } int QSequentialAnimationGroupPrivate::animationActualTotalDuration(int index) const { QAbstractAnimation *anim = animations.at(index); int ret = anim->totalDuration(); if (ret == -1 && actualDuration.size() > index) ret = actualDuration.at(index); //we can try the actual duration there return ret; } QSequentialAnimationGroupPrivate::AnimationIndex QSequentialAnimationGroupPrivate::indexForTime(int msecs) const { Q_Q(const QSequentialAnimationGroup); Q_ASSERT(!animations.isEmpty()); AnimationIndex ret; int duration = 0; // in case duration is -1, currentLoop will always be 0 ret.timeOffset = currentLoop * q->duration(); for (int i = 0; i < animations.size(); ++i) { duration = animationActualTotalDuration(i); // 'animation' is the current animation if one of these reasons is true: // 1. it's duration is undefined // 2. it ends after msecs // 3. it is the last animation (this can happen in case there is at least 1 uncontrolled animation) // 4. it ends exactly in msecs and the direction is backwards if (duration == -1 || msecs < (ret.timeOffset + duration) || (msecs == (ret.timeOffset + duration) && direction == QAbstractAnimation::Backward)) { ret.index = i; return ret; } // 'animation' has a non-null defined duration and is not the one at time 'msecs'. ret.timeOffset += duration; } // this can only happen when one of those conditions is true: // 1. the duration of the group is undefined and we passed its actual duration // 2. there are only 0-duration animations in the group ret.timeOffset -= duration; ret.index = animations.size() - 1; return ret; } void QSequentialAnimationGroupPrivate::restart() { // restarting the group by making the first/last animation the current one if (direction == QAbstractAnimation::Forward) { lastLoop = 0; if (currentAnimationIndex == 0) activateCurrentAnimation(); else setCurrentAnimation(0); } else { // direction == QAbstractAnimation::Backward lastLoop = loopCount - 1; int index = animations.size() - 1; if (currentAnimationIndex == index) activateCurrentAnimation(); else setCurrentAnimation(index); } } /*! \internal This manages advancing the execution of a group running forwards (time has gone forward), which is the same behaviour for rewinding the execution of a group running backwards (time has gone backward). */ void QSequentialAnimationGroupPrivate::advanceForwards(const AnimationIndex &newAnimationIndex) { if (lastLoop < currentLoop) { // we need to fast forward to the end for (int i = currentAnimationIndex; i < animations.size(); ++i) { QAbstractAnimation *anim = animations.at(i); setCurrentAnimation(i, true); anim->setCurrentTime(animationActualTotalDuration(i)); } // this will make sure the current animation is reset to the beginning if (animations.size() == 1) // we need to force activation because setCurrentAnimation will have no effect activateCurrentAnimation(); else setCurrentAnimation(0, true); } // and now we need to fast forward from the current position to for (int i = currentAnimationIndex; i < newAnimationIndex.index; ++i) { //### WRONG, QAbstractAnimation *anim = animations.at(i); setCurrentAnimation(i, true); anim->setCurrentTime(animationActualTotalDuration(i)); } // setting the new current animation will happen later } /*! \internal This manages rewinding the execution of a group running forwards (time has gone forward), which is the same behaviour for advancing the execution of a group running backwards (time has gone backward). */ void QSequentialAnimationGroupPrivate::rewindForwards(const AnimationIndex &newAnimationIndex) { if (lastLoop > currentLoop) { // we need to fast rewind to the beginning for (int i = currentAnimationIndex; i >= 0 ; --i) { QAbstractAnimation *anim = animations.at(i); setCurrentAnimation(i, true); anim->setCurrentTime(0); } // this will make sure the current animation is reset to the end if (animations.size() == 1) // we need to force activation because setCurrentAnimation will have no effect activateCurrentAnimation(); else setCurrentAnimation(animations.count() - 1, true); } // and now we need to fast rewind from the current position to for (int i = currentAnimationIndex; i > newAnimationIndex.index; --i) { QAbstractAnimation *anim = animations.at(i); setCurrentAnimation(i, true); anim->setCurrentTime(0); } // setting the new current animation will happen later } /*! \fn QSequentialAnimationGroup::currentAnimationChanged(QAbstractAnimation *current) QSequentialAnimationGroup emits this signal when currentAnimation has been changed. \a current is the current animation. \sa currentAnimation() */ /*! Constructs a QSequentialAnimationGroup. \a parent is passed to QObject's constructor. */ QSequentialAnimationGroup::QSequentialAnimationGroup(QObject *parent) : QAnimationGroup(*new QSequentialAnimationGroupPrivate, parent) { } /*! \internal */ QSequentialAnimationGroup::QSequentialAnimationGroup(QSequentialAnimationGroupPrivate &dd, QObject *parent) : QAnimationGroup(dd, parent) { } /*! Destroys the animation group. It will also destroy all its animations. */ QSequentialAnimationGroup::~QSequentialAnimationGroup() { } /*! Adds a pause of \a msecs to this animation group. The pause is considered as a special type of animation, thus count() will be increased by one. \sa insertPauseAt(), QAnimationGroup::addAnimation() */ QPauseAnimation *QSequentialAnimationGroup::addPause(int msecs) { QPauseAnimation *pause = new QPauseAnimation(msecs); addAnimation(pause); return pause; } /*! Inserts a pause of \a msecs milliseconds at \a index in this animation group. \sa addPause(), QAnimationGroup::insertAnimationAt() */ QPauseAnimation *QSequentialAnimationGroup::insertPauseAt(int index, int msecs) { Q_D(const QSequentialAnimationGroup); if (index < 0 || index > d->animations.size()) { qWarning("QSequentialAnimationGroup::insertPauseAt: index is out of bounds"); return 0; } QPauseAnimation *pause = new QPauseAnimation(msecs); insertAnimationAt(index, pause); return pause; } /*! \property QSequentialAnimationGroup::currentAnimation Returns the animation in the current time. \sa currentAnimationChanged() */ QAbstractAnimation *QSequentialAnimationGroup::currentAnimation() const { Q_D(const QSequentialAnimationGroup); return d->currentAnimation; } /*! \reimp */ int QSequentialAnimationGroup::duration() const { Q_D(const QSequentialAnimationGroup); int ret = 0; for (int i = 0; i < d->animations.size(); ++i) { QAbstractAnimation *animation = d->animations.at(i); const int currentDuration = animation->totalDuration(); if (currentDuration == -1) return -1; // Undetermined length ret += currentDuration; } return ret; } /*! \reimp */ void QSequentialAnimationGroup::updateCurrentTime(int msecs) { Q_D(QSequentialAnimationGroup); if (!d->currentAnimation) return; const QSequentialAnimationGroupPrivate::AnimationIndex newAnimationIndex = d->indexForTime(msecs); // remove unneeded animations from actualDuration list while (newAnimationIndex.index < d->actualDuration.size()) d->actualDuration.removeLast(); // newAnimationIndex.index is the new current animation if (d->lastLoop < d->currentLoop || (d->lastLoop == d->currentLoop && d->currentAnimationIndex < newAnimationIndex.index)) { // advancing with forward direction is the same as rewinding with backwards direction d->advanceForwards(newAnimationIndex); } else if (d->lastLoop > d->currentLoop || (d->lastLoop == d->currentLoop && d->currentAnimationIndex > newAnimationIndex.index)) { // rewinding with forward direction is the same as advancing with backwards direction d->rewindForwards(newAnimationIndex); } d->setCurrentAnimation(newAnimationIndex.index); const int newCurrentTime = msecs - newAnimationIndex.timeOffset; if (d->currentAnimation) { d->currentAnimation->setCurrentTime(newCurrentTime); if (d->atEnd()) { //we make sure that we don't exceed the duration here d->currentTime += QAbstractAnimationPrivate::get(d->currentAnimation)->totalCurrentTime - newCurrentTime; stop(); } } else { //the only case where currentAnimation could be null //is when all animations have been removed Q_ASSERT(d->animations.isEmpty()); d->currentTime = 0; stop(); } d->lastLoop = d->currentLoop; } /*! \reimp */ void QSequentialAnimationGroup::updateState(QAbstractAnimation::State oldState, QAbstractAnimation::State newState) { Q_D(QSequentialAnimationGroup); QAnimationGroup::updateState(oldState, newState); if (!d->currentAnimation) return; switch (newState) { case Stopped: d->currentAnimation->stop(); break; case Paused: if (oldState == d->currentAnimation->state() && oldState == QSequentialAnimationGroup::Running) { d->currentAnimation->pause(); } else d->restart(); break; case Running: if (oldState == d->currentAnimation->state() && oldState == QSequentialAnimationGroup::Paused) d->currentAnimation->start(); else d->restart(); break; } } /*! \reimp */ void QSequentialAnimationGroup::updateDirection(QAbstractAnimation::Direction direction) { Q_D(QSequentialAnimationGroup); // we need to update the direction of the current animation if (state() != Stopped && d->currentAnimation) d->currentAnimation->setDirection(direction); } /*! \reimp */ bool QSequentialAnimationGroup::event(QEvent *event) { return QAnimationGroup::event(event); } void QSequentialAnimationGroupPrivate::setCurrentAnimation(int index, bool intermediate) { Q_Q(QSequentialAnimationGroup); index = qMin(index, animations.count() - 1); if (index == -1) { Q_ASSERT(animations.isEmpty()); currentAnimationIndex = -1; currentAnimation = 0; return; } // need these two checks below because this func can be called after the current animation // has been removed if (index == currentAnimationIndex && animations.at(index) == currentAnimation) return; // stop the old current animation if (currentAnimation) currentAnimation->stop(); currentAnimation = animations.at(index); currentAnimationIndex = index; emit q->currentAnimationChanged(currentAnimation); activateCurrentAnimation(intermediate); } void QSequentialAnimationGroupPrivate::activateCurrentAnimation(bool intermediate) { Q_Q(QSequentialAnimationGroup); if (!currentAnimation) return; if (state == QSequentialAnimationGroup::Stopped) return; currentAnimation->stop(); // we ensure the direction is consistent with the group's direction currentAnimation->setDirection(direction); // connects to the finish signal of uncontrolled animations if (currentAnimation->totalDuration() == -1) QObject::connect(currentAnimation, SIGNAL(finished()), q, SLOT(_q_uncontrolledAnimationFinished())); currentAnimation->start(); if (!intermediate && state == QSequentialAnimationGroup::Paused) currentAnimation->pause(); } void QSequentialAnimationGroupPrivate::_q_uncontrolledAnimationFinished() { Q_Q(QSequentialAnimationGroup); Q_ASSERT(qobject_cast(q->sender()) == currentAnimation); // we trust the duration returned by the animation while (actualDuration.size() < (currentAnimationIndex + 1)) actualDuration.append(-1); actualDuration[currentAnimationIndex] = currentAnimation->currentTime(); QObject::disconnect(currentAnimation, SIGNAL(finished()), q, SLOT(_q_uncontrolledAnimationFinished())); if ((direction == QAbstractAnimation::Forward && currentAnimation == animations.last()) || (direction == QAbstractAnimation::Backward && currentAnimationIndex == 0)) { // we don't handle looping of a group with undefined duration q->stop(); } else if (direction == QAbstractAnimation::Forward) { // set the current animation to be the next one setCurrentAnimation(currentAnimationIndex + 1); } else { // set the current animation to be the previous one setCurrentAnimation(currentAnimationIndex - 1); } } /*! \internal This method is called whenever an animation is added to the group at index \a index. Note: We only support insertion after the current animation */ void QSequentialAnimationGroupPrivate::animationInsertedAt(int index) { if (currentAnimation == 0) setCurrentAnimation(0); // initialize the current animation if (currentAnimationIndex == index && currentAnimation->currentTime() == 0 && currentAnimation->currentLoop() == 0) { //in this case we simply insert an animation before the current one has actually started setCurrentAnimation(index); } //we update currentAnimationIndex in case it has changed (the animation pointer is still valid) currentAnimationIndex = animations.indexOf(currentAnimation); if (index < currentAnimationIndex || currentLoop != 0) { qWarning("QSequentialGroup::insertAnimationAt only supports to add animations after the current one."); return; //we're not affected because it is added after the current one } } /*! \internal This method is called whenever an animation is removed from the group at index \a index. The animation is no more listed when this method is called. */ void QSequentialAnimationGroupPrivate::animationRemovedAt(int index) { Q_Q(QSequentialAnimationGroup); QAnimationGroupPrivate::animationRemovedAt(index); Q_ASSERT(currentAnimation); // currentAnimation should always be set if (actualDuration.size() > index) actualDuration.removeAt(index); const int currentIndex = animations.indexOf(currentAnimation); if (currentIndex == -1) { //we're removing the current animation, let's update it to another one if (index < animations.count()) setCurrentAnimation(index); //let's try to take the next one else if (index > 0) setCurrentAnimation(index - 1); else// case all animations were removed setCurrentAnimation(-1); } else if (currentAnimationIndex > index) { currentAnimationIndex--; } // duration of the previous animations up to the current animation currentTime = 0; for (int i = 0; i < currentAnimationIndex; ++i) { const int current = animationActualTotalDuration(i); currentTime += current; } if (currentIndex != -1) { //the current animation is not the one being removed //so we add its current time to the current time of this group currentTime += QAbstractAnimationPrivate::get(currentAnimation)->totalCurrentTime; } //let's also update the total current time totalCurrentTime = currentTime + loopCount * q->duration(); } QT_END_NAMESPACE #include "moc_qsequentialanimationgroup.cpp" #endif //QT_NO_ANIMATION