#include "QskPanGestureRecognizer.h" #include "QskGesture.h" #include "QskEvent.h" #include #include #include #include static inline qreal qskDistance( const QPointF& from, const QPointF& to, Qt::Orientations orientations ) { if ( orientations == Qt::Horizontal ) return to.x() - from.x(); if ( orientations == Qt::Vertical ) return to.y() - from.y(); const qreal dx = to.x() - from.x(); const qreal dy = to.y() - from.y(); return qSqrt( dx * dx + dy * dy ); } static inline qreal qskAngle( const QPointF& from, const QPointF& to, Qt::Orientations orientations ) { if ( orientations == Qt::Horizontal ) return ( to.x() >= from.x() ) ? 0.0 : 180.0; if ( orientations == Qt::Vertical ) return ( to.y() >= from.y() ) ? 270.0 : 90.0; return QLineF( from, to ).angle(); } static void qskSendPanGestureEvent( QQuickItem* item, QskGesture::State state, qreal velocity, qreal angle, const QPointF& origin, const QPointF& lastPosition, const QPointF& position ) { QskPanGesture gesture; gesture.setState( state ); gesture.setAngle( angle ); gesture.setVelocity( velocity ); gesture.setOrigin( origin ); gesture.setLastPosition( lastPosition ); gesture.setPosition( position ); QskGestureEvent event( &gesture, false ); QCoreApplication::sendEvent( item, &event ); } namespace { class VelocityTracker { public: VelocityTracker() { reset(); } void record( int elapsed, qreal velocity ) { if ( ( velocity != 0.0 ) && ( m_values[m_pos].velocity != 0.0 ) ) { if ( ( velocity > 0.0 ) != ( m_values[m_pos].velocity > 0.0 ) ) reset(); // direction has changed } m_values[m_pos].elapsed = elapsed; m_values[m_pos].velocity = velocity; m_pos = ( m_pos + 1 ) % Count; } inline void reset() { for ( int i = 0; i < Count; i++ ) { m_values[i].elapsed = -1; m_values[i].velocity = 0; } m_pos = 0; } inline qreal velocity( ulong elapsed ) const { qreal sum = 0; int numVelocities = 0; for ( int i = 0; i < Count; i++ ) { const auto& v = m_values[i]; // only swipe events within the last 500 ms will be considered if ( v.elapsed > 0 && ( elapsed - v.elapsed ) <= 500 ) { sum += v.velocity; numVelocities++; } } return ( numVelocities > 0 ) ? ( sum / numVelocities ) : 0.0; } private: int m_pos; enum { Count = 3 }; struct { int elapsed; qreal velocity; } m_values[ Count ]; }; } class QskPanGestureRecognizer::PrivateData { public: PrivateData(): orientations( Qt::Horizontal | Qt::Vertical ), minDistance( 15 ), timestamp( 0.0 ), angle( 0.0 ) { } Qt::Orientations orientations; int minDistance; ulong timestamp; // timestamp of the last mouse event qreal angle; QPointF origin; QPointF pos; // position of the last mouse event VelocityTracker velocityTracker; }; QskPanGestureRecognizer::QskPanGestureRecognizer(): m_data( new PrivateData() ) { } QskPanGestureRecognizer::~QskPanGestureRecognizer() { } void QskPanGestureRecognizer::setOrientations( Qt::Orientations orientations ) { m_data->orientations = orientations; } Qt::Orientations QskPanGestureRecognizer::orientations() const { return m_data->orientations; } void QskPanGestureRecognizer::setMinDistance( int pixels ) { m_data->minDistance = qMax( pixels, 0 ); } int QskPanGestureRecognizer::minDistance() const { return m_data->minDistance; } void QskPanGestureRecognizer::pressEvent( const QMouseEvent* event ) { m_data->origin = m_data->pos = event->localPos(); m_data->timestamp = timestamp(); m_data->velocityTracker.reset(); } void QskPanGestureRecognizer::moveEvent( const QMouseEvent* event ) { const ulong elapsed = event->timestamp() - m_data->timestamp; const ulong elapsedTotal = event->timestamp() - timestamp(); const QPointF oldPos = m_data->pos; m_data->timestamp = event->timestamp(); m_data->pos = event->localPos(); if ( elapsedTotal > 0 ) // ??? { const qreal dist = qskDistance( oldPos, m_data->pos, m_data->orientations ); const qreal velocity = dist / ( elapsed / 1000.0 ); m_data->velocityTracker.record( elapsedTotal, velocity ); } bool started = false; if ( state() != QskGestureRecognizer::Accepted ) { const qreal dist = qskDistance( m_data->origin, m_data->pos, m_data->orientations ); if ( ( dist >= m_data->minDistance ) || ( -dist >= m_data->minDistance ) ) { accept(); started = true; } } m_data->angle = qskAngle( oldPos, m_data->pos, m_data->orientations ); if ( state() == QskGestureRecognizer::Accepted ) { const qreal velocity = m_data->velocityTracker.velocity( elapsedTotal ); if ( started ) { qskSendPanGestureEvent( watchedItem(), QskGesture::Started, velocity, m_data->angle, m_data->origin, m_data->origin, m_data->pos ); } else { qskSendPanGestureEvent( watchedItem(), QskGesture::Updated, velocity, m_data->angle, m_data->origin, oldPos, m_data->pos ); } } } void QskPanGestureRecognizer::releaseEvent( const QMouseEvent* event ) { if ( state() == QskGestureRecognizer::Accepted ) { const ulong elapsedTotal = event->timestamp() - timestamp(); const qreal velocity = m_data->velocityTracker.velocity( elapsedTotal ); qskSendPanGestureEvent( watchedItem(), QskGesture::Finished, velocity, m_data->angle, m_data->origin, m_data->pos, m_data->pos ); } }