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Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ /*! \class QGraphicsItemAnimation \brief The QGraphicsItemAnimation class provides simple animation support for QGraphicsItem. \since 4.2 \ingroup graphicsview-api \inmodule QtWidgets \deprecated The QGraphicsItemAnimation class animates a QGraphicsItem. You can schedule changes to the item's transformation matrix at specified steps. The QGraphicsItemAnimation class has a current step value. When this value changes the transformations scheduled at that step are performed. The current step of the animation is set with the \c setStep() function. QGraphicsItemAnimation will do a simple linear interpolation between the nearest adjacent scheduled changes to calculate the matrix. For instance, if you set the position of an item at values 0.0 and 1.0, the animation will show the item moving in a straight line between these positions. The same is true for scaling and rotation. It is usual to use the class with a QTimeLine. The timeline's \l{QTimeLine::}{valueChanged()} signal is then connected to the \c setStep() slot. For example, you can set up an item for rotation by calling \c setRotationAt() for different step values. The animations timeline is set with the setTimeLine() function. An example animation with a timeline follows: \snippet timeline/main.cpp 0 Note that steps lie between 0.0 and 1.0. It may be necessary to use \l{QTimeLine::}{setUpdateInterval()}. The default update interval is 40 ms. A scheduled transformation cannot be removed when set, so scheduling several transformations of the same kind (e.g., rotations) at the same step is not recommended. \sa QTimeLine, {Graphics View Framework} */ #include "qgraphicsitemanimation.h" #include "qgraphicsitem.h" #include #include #include #include #include QT_BEGIN_NAMESPACE static inline bool check_step_valid(qreal step, const char *method) { if (!(step >= 0 && step <= 1)) { qWarning("QGraphicsItemAnimation::%s: invalid step = %f", method, step); return false; } return true; } class QGraphicsItemAnimationPrivate { public: inline QGraphicsItemAnimationPrivate() : q(nullptr), timeLine(nullptr), item(nullptr), step(0) { } QGraphicsItemAnimation *q; QPointer timeLine; QGraphicsItem *item; QPointF startPos; QTransform startTransform; qreal step; struct Pair { bool operator <(const Pair &other) const { return step < other.step; } bool operator==(const Pair &other) const { return step == other.step; } qreal step; qreal value; }; QList xPosition; QList yPosition; QList rotation; QList verticalScale; QList horizontalScale; QList verticalShear; QList horizontalShear; QList xTranslation; QList yTranslation; qreal linearValueForStep(qreal step, const QList &source, qreal defaultValue = 0); void insertUniquePair(qreal step, qreal value, QList *binList, const char *method); }; Q_DECLARE_TYPEINFO(QGraphicsItemAnimationPrivate::Pair, Q_PRIMITIVE_TYPE); qreal QGraphicsItemAnimationPrivate::linearValueForStep(qreal step, const QList &source, qreal defaultValue) { if (source.isEmpty()) return defaultValue; step = qMin(qMax(step, 0), 1); if (step == 1) return source.back().value; qreal stepBefore = 0; qreal stepAfter = 1; qreal valueBefore = source.front().step == 0 ? source.front().value : defaultValue; qreal valueAfter = source.back().value; // Find the closest step and value before the given step. for (int i = 0; i < source.size() && step >= source[i].step; ++i) { stepBefore = source[i].step; valueBefore = source[i].value; } // Find the closest step and value after the given step. for (int i = source.size() - 1; i >= 0 && step < source[i].step; --i) { stepAfter = source[i].step; valueAfter = source[i].value; } // Do a simple linear interpolation. return valueBefore + (valueAfter - valueBefore) * ((step - stepBefore) / (stepAfter - stepBefore)); } void QGraphicsItemAnimationPrivate::insertUniquePair(qreal step, qreal value, QList *binList, const char *method) { if (!check_step_valid(step, method)) return; const Pair pair = { step, value }; const QList::iterator result = std::lower_bound(binList->begin(), binList->end(), pair); if (result == binList->end() || pair < *result) binList->insert(result, pair); else result->value = value; } /*! Constructs an animation object with the given \a parent. */ QGraphicsItemAnimation::QGraphicsItemAnimation(QObject *parent) : QObject(parent), d(new QGraphicsItemAnimationPrivate) { d->q = this; } /*! Destroys the animation object. */ QGraphicsItemAnimation::~QGraphicsItemAnimation() { delete d; } /*! Returns the item on which the animation object operates. \sa setItem() */ QGraphicsItem *QGraphicsItemAnimation::item() const { return d->item; } /*! Sets the specified \a item to be used in the animation. \sa item() */ void QGraphicsItemAnimation::setItem(QGraphicsItem *item) { d->item = item; d->startPos = d->item->pos(); } /*! Returns the timeline object used to control the rate at which the animation occurs. \sa setTimeLine() */ QTimeLine *QGraphicsItemAnimation::timeLine() const { return d->timeLine; } /*! Sets the timeline object used to control the rate of animation to the \a timeLine specified. \sa timeLine() */ void QGraphicsItemAnimation::setTimeLine(QTimeLine *timeLine) { if (d->timeLine == timeLine) return; if (d->timeLine) delete d->timeLine; if (!timeLine) return; d->timeLine = timeLine; connect(timeLine, SIGNAL(valueChanged(qreal)), this, SLOT(setStep(qreal))); } /*! Returns the position of the item at the given \a step value. \sa setPosAt() */ QPointF QGraphicsItemAnimation::posAt(qreal step) const { check_step_valid(step, "posAt"); return QPointF(d->linearValueForStep(step, d->xPosition, d->startPos.x()), d->linearValueForStep(step, d->yPosition, d->startPos.y())); } /*! \fn void QGraphicsItemAnimation::setPosAt(qreal step, const QPointF &point) Sets the position of the item at the given \a step value to the \a point specified. \sa posAt() */ void QGraphicsItemAnimation::setPosAt(qreal step, const QPointF &pos) { d->insertUniquePair(step, pos.x(), &d->xPosition, "setPosAt"); d->insertUniquePair(step, pos.y(), &d->yPosition, "setPosAt"); } /*! Returns all explicitly inserted positions. \sa posAt(), setPosAt() */ QList > QGraphicsItemAnimation::posList() const { QList > list; const int xPosCount = d->xPosition.size(); list.reserve(xPosCount); for (int i = 0; i < xPosCount; ++i) list << QPair(d->xPosition.at(i).step, QPointF(d->xPosition.at(i).value, d->yPosition.at(i).value)); return list; } /*! Returns the transform used for the item at the specified \a step value. \since 5.14 */ QTransform QGraphicsItemAnimation::transformAt(qreal step) const { check_step_valid(step, "transformAt"); QTransform transform; if (!d->rotation.isEmpty()) transform.rotate(rotationAt(step)); if (!d->verticalScale.isEmpty()) transform.scale(horizontalScaleAt(step), verticalScaleAt(step)); if (!d->verticalShear.isEmpty()) transform.shear(horizontalShearAt(step), verticalShearAt(step)); if (!d->xTranslation.isEmpty()) transform.translate(xTranslationAt(step), yTranslationAt(step)); return transform; } /*! Returns the angle at which the item is rotated at the specified \a step value. \sa setRotationAt() */ qreal QGraphicsItemAnimation::rotationAt(qreal step) const { check_step_valid(step, "rotationAt"); return d->linearValueForStep(step, d->rotation); } /*! Sets the rotation of the item at the given \a step value to the \a angle specified. \sa rotationAt() */ void QGraphicsItemAnimation::setRotationAt(qreal step, qreal angle) { d->insertUniquePair(step, angle, &d->rotation, "setRotationAt"); } /*! Returns all explicitly inserted rotations. \sa rotationAt(), setRotationAt() */ QList > QGraphicsItemAnimation::rotationList() const { QList > list; const int numRotations = d->rotation.size(); list.reserve(numRotations); for (int i = 0; i < numRotations; ++i) list << QPair(d->rotation.at(i).step, d->rotation.at(i).value); return list; } /*! Returns the horizontal translation of the item at the specified \a step value. \sa setTranslationAt() */ qreal QGraphicsItemAnimation::xTranslationAt(qreal step) const { check_step_valid(step, "xTranslationAt"); return d->linearValueForStep(step, d->xTranslation); } /*! Returns the vertical translation of the item at the specified \a step value. \sa setTranslationAt() */ qreal QGraphicsItemAnimation::yTranslationAt(qreal step) const { check_step_valid(step, "yTranslationAt"); return d->linearValueForStep(step, d->yTranslation); } /*! Sets the translation of the item at the given \a step value using the horizontal and vertical coordinates specified by \a dx and \a dy. \sa xTranslationAt(), yTranslationAt() */ void QGraphicsItemAnimation::setTranslationAt(qreal step, qreal dx, qreal dy) { d->insertUniquePair(step, dx, &d->xTranslation, "setTranslationAt"); d->insertUniquePair(step, dy, &d->yTranslation, "setTranslationAt"); } /*! Returns all explicitly inserted translations. \sa xTranslationAt(), yTranslationAt(), setTranslationAt() */ QList > QGraphicsItemAnimation::translationList() const { QList > list; const int numTranslations = d->xTranslation.size(); list.reserve(numTranslations); for (int i = 0; i < numTranslations; ++i) list << QPair(d->xTranslation.at(i).step, QPointF(d->xTranslation.at(i).value, d->yTranslation.at(i).value)); return list; } /*! Returns the vertical scale for the item at the specified \a step value. \sa setScaleAt() */ qreal QGraphicsItemAnimation::verticalScaleAt(qreal step) const { check_step_valid(step, "verticalScaleAt"); return d->linearValueForStep(step, d->verticalScale, 1); } /*! Returns the horizontal scale for the item at the specified \a step value. \sa setScaleAt() */ qreal QGraphicsItemAnimation::horizontalScaleAt(qreal step) const { check_step_valid(step, "horizontalScaleAt"); return d->linearValueForStep(step, d->horizontalScale, 1); } /*! Sets the scale of the item at the given \a step value using the horizontal and vertical scale factors specified by \a sx and \a sy. \sa verticalScaleAt(), horizontalScaleAt() */ void QGraphicsItemAnimation::setScaleAt(qreal step, qreal sx, qreal sy) { d->insertUniquePair(step, sx, &d->horizontalScale, "setScaleAt"); d->insertUniquePair(step, sy, &d->verticalScale, "setScaleAt"); } /*! Returns all explicitly inserted scales. \sa verticalScaleAt(), horizontalScaleAt(), setScaleAt() */ QList > QGraphicsItemAnimation::scaleList() const { QList > list; const int numScales = d->horizontalScale.size(); list.reserve(numScales); for (int i = 0; i < numScales; ++i) list << QPair(d->horizontalScale.at(i).step, QPointF(d->horizontalScale.at(i).value, d->verticalScale.at(i).value)); return list; } /*! Returns the vertical shear for the item at the specified \a step value. \sa setShearAt() */ qreal QGraphicsItemAnimation::verticalShearAt(qreal step) const { check_step_valid(step, "verticalShearAt"); return d->linearValueForStep(step, d->verticalShear, 0); } /*! Returns the horizontal shear for the item at the specified \a step value. \sa setShearAt() */ qreal QGraphicsItemAnimation::horizontalShearAt(qreal step) const { check_step_valid(step, "horizontalShearAt"); return d->linearValueForStep(step, d->horizontalShear, 0); } /*! Sets the shear of the item at the given \a step value using the horizontal and vertical shear factors specified by \a sh and \a sv. \sa verticalShearAt(), horizontalShearAt() */ void QGraphicsItemAnimation::setShearAt(qreal step, qreal sh, qreal sv) { d->insertUniquePair(step, sh, &d->horizontalShear, "setShearAt"); d->insertUniquePair(step, sv, &d->verticalShear, "setShearAt"); } /*! Returns all explicitly inserted shears. \sa verticalShearAt(), horizontalShearAt(), setShearAt() */ QList > QGraphicsItemAnimation::shearList() const { QList > list; const int numShears = d->horizontalShear.size(); list.reserve(numShears); for (int i = 0; i < numShears; ++i) list << QPair(d->horizontalShear.at(i).step, QPointF(d->horizontalShear.at(i).value, d->verticalShear.at(i).value)); return list; } /*! Clears the scheduled transformations used for the animation, but retains the item and timeline. */ void QGraphicsItemAnimation::clear() { d->xPosition.clear(); d->yPosition.clear(); d->rotation.clear(); d->verticalScale.clear(); d->horizontalScale.clear(); d->verticalShear.clear(); d->horizontalShear.clear(); d->xTranslation.clear(); d->yTranslation.clear(); } /*! \fn void QGraphicsItemAnimation::setStep(qreal step) Sets the current \a step value for the animation, causing the transformations scheduled at this step to be performed. */ void QGraphicsItemAnimation::setStep(qreal step) { if (!check_step_valid(step, "setStep")) return; beforeAnimationStep(step); d->step = step; if (d->item) { if (!d->xPosition.isEmpty() || !d->yPosition.isEmpty()) d->item->setPos(posAt(step)); if (!d->rotation.isEmpty() || !d->verticalScale.isEmpty() || !d->horizontalScale.isEmpty() || !d->verticalShear.isEmpty() || !d->horizontalShear.isEmpty() || !d->xTranslation.isEmpty() || !d->yTranslation.isEmpty()) { d->item->setTransform(d->startTransform * transformAt(step)); } } afterAnimationStep(step); } /*! \fn void QGraphicsItemAnimation::beforeAnimationStep(qreal step) This method is meant to be overridden by subclassed that needs to execute additional code before a new step takes place. The animation \a step is provided for use in cases where the action depends on its value. */ void QGraphicsItemAnimation::beforeAnimationStep(qreal step) { Q_UNUSED(step); } /*! \fn void QGraphicsItemAnimation::afterAnimationStep(qreal step) This method is meant to be overridden in subclasses that need to execute additional code after a new step has taken place. The animation \a step is provided for use in cases where the action depends on its value. */ void QGraphicsItemAnimation::afterAnimationStep(qreal step) { Q_UNUSED(step); } QT_END_NAMESPACE #include "moc_qgraphicsitemanimation.cpp"