// vim: set tabstop=4 shiftwidth=4 expandtab: /* Gwenview: an image viewer Copyright 2011 Aurélien Gâteau This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, 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 General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Cambridge, MA 02110-1301, USA. */ // Self #include "abstractimageview.h" // Local #include "alphabackgrounditem.h" // KF // Qt #include #include #include #include #include #include #include namespace Gwenview { static const int UNIT_STEP = 16; struct AbstractImageViewPrivate { enum Verbosity { Silent, Notify, }; AbstractImageView *q = nullptr; QCursor mZoomCursor; Document::Ptr mDocument; bool mControlKeyIsDown; bool mEnlargeSmallerImages; qreal mZoom; bool mZoomToFit; bool mZoomToFill; QPointF mImageOffset; QPointF mScrollPos; QPointF mLastDragPos; QSizeF mDocumentSize; AlphaBackgroundItem *mBackgroundItem; void adjustImageOffset(Verbosity verbosity = Notify) { QSizeF zoomedDocSize = q->dipDocumentSize() * mZoom; QSizeF viewSize = q->boundingRect().size(); QPointF offset(qMax((viewSize.width() - zoomedDocSize.width()) / 2, qreal(0.)), qMax((viewSize.height() - zoomedDocSize.height()) / 2, qreal(0.))); if (offset != mImageOffset) { mImageOffset = offset; if (verbosity == Notify) { q->onImageOffsetChanged(); } } } void adjustScrollPos(Verbosity verbosity = Notify) { setScrollPos(mScrollPos, verbosity); } void setScrollPos(const QPointF &_newPos, Verbosity verbosity = Notify) { if (!mDocument) { mScrollPos = _newPos; return; } const QSizeF zoomedDocSize = q->dipDocumentSize() * mZoom; const QSizeF viewSize = q->boundingRect().size(); const QPointF newPos(qBound(qreal(0.), _newPos.x(), std::max(0., zoomedDocSize.width() - viewSize.width())), qBound(qreal(0.), _newPos.y(), std::max(0., zoomedDocSize.height() - viewSize.height()))); if (newPos != mScrollPos) { const QPointF oldPos = mScrollPos; mScrollPos = newPos; if (verbosity == Notify) { q->onScrollPosChanged(oldPos); } // No verbosity test: we always notify the outside world about // scrollPos changes Q_EMIT q->scrollPosChanged(); } } void setupZoomCursor() { // We do not use "appdata" here because that does not work when this // code is called from a KPart. const QString path = QStandardPaths::locate(QStandardPaths::GenericDataLocation, QStringLiteral("gwenview/cursors/zoom.png")); QPixmap cursorPixmap = QPixmap(path); mZoomCursor = QCursor(cursorPixmap, 11, 11); } AbstractImageViewPrivate(AbstractImageView *parent) : q(parent) , mBackgroundItem(new AlphaBackgroundItem{q}) { mBackgroundItem->setVisible(false); } void checkAndRequestZoomAction(const QGraphicsSceneMouseEvent *event) { if (event->modifiers() & Qt::ControlModifier) { if (event->button() == Qt::LeftButton) { Q_EMIT q->zoomInRequested(event->pos()); } else if (event->button() == Qt::RightButton) { Q_EMIT q->zoomOutRequested(event->pos()); } } } }; AbstractImageView::AbstractImageView(QGraphicsItem *parent) : QGraphicsWidget(parent) , d(new AbstractImageViewPrivate(this)) { d->mControlKeyIsDown = false; d->mEnlargeSmallerImages = false; d->mZoom = 1; d->mZoomToFit = true; d->mZoomToFill = false; d->mImageOffset = QPointF(0, 0); d->mScrollPos = QPointF(0, 0); setFocusPolicy(Qt::WheelFocus); setFlag(ItemIsSelectable); setFlag(ItemClipsChildrenToShape); setAcceptHoverEvents(true); d->setupZoomCursor(); updateCursor(); } AbstractImageView::~AbstractImageView() { if (d->mDocument) { d->mDocument->stopAnimation(); } delete d; } Document::Ptr AbstractImageView::document() const { return d->mDocument; } void AbstractImageView::setDocument(const Document::Ptr &doc) { if (d->mDocument) { disconnect(d->mDocument.data(), nullptr, this, nullptr); } d->mDocument = doc; if (d->mDocument) { connect(d->mDocument.data(), &Document::imageRectUpdated, this, &AbstractImageView::onImageRectUpdated); } loadFromDocument(); } QSizeF AbstractImageView::documentSize() const { return d->mDocument ? d->mDocument->size() : QSizeF(); } QSizeF AbstractImageView::dipDocumentSize() const { return d->mDocument ? d->mDocument->size() / devicePixelRatio() : QSizeF(); } qreal AbstractImageView::zoom() const { return d->mZoom; } void AbstractImageView::setZoom(qreal zoom, const QPointF &_center, AbstractImageView::UpdateType updateType) { if (!d->mDocument) { d->mZoom = zoom; return; } if (updateType == UpdateIfNecessary && qFuzzyCompare(zoom, d->mZoom) && documentSize() == d->mDocumentSize) { return; } qreal oldZoom = d->mZoom; d->mZoom = zoom; d->mDocumentSize = documentSize(); QPointF center; if (_center == QPointF(-1, -1)) { center = boundingRect().center(); } else { center = _center; } /* We want to keep the point at viewport coordinates "center" at the same position after zooming. The coordinates of this point in image coordinates can be expressed like this: oldScroll + center imagePointAtOldZoom = ------------------ oldZoom scroll + center imagePointAtZoom = --------------- zoom So we want: imagePointAtOldZoom = imagePointAtZoom oldScroll + center scroll + center <=> ------------------ = --------------- oldZoom zoom zoom <=> scroll = ------- (oldScroll + center) - center oldZoom */ /* Compute oldScroll It's useless to take the new offset in consideration because if a direction of the new offset is not 0, we won't be able to center on a specific point in that direction. */ QPointF oldScroll = scrollPos() - imageOffset(); QPointF scroll = (zoom / oldZoom) * (oldScroll + center) - center; d->adjustImageOffset(AbstractImageViewPrivate::Silent); d->setScrollPos(scroll, AbstractImageViewPrivate::Silent); onZoomChanged(); Q_EMIT zoomChanged(d->mZoom); } bool AbstractImageView::zoomToFit() const { return d->mZoomToFit; } bool AbstractImageView::zoomToFill() const { return d->mZoomToFill; } void AbstractImageView::setZoomToFit(bool on) { if (d->mZoomToFit == on) { return; } d->mZoomToFit = on; if (on) { d->mZoomToFill = false; setZoom(computeZoomToFit()); } // We do not set zoom to 1 if zoomToFit is off, this is up to the code // calling us. It may went to zoom to some other level and/or to zoom on // a particular position Q_EMIT zoomToFitChanged(d->mZoomToFit); } void AbstractImageView::setZoomToFill(bool on, const QPointF ¢er) { if (d->mZoomToFill == on) { return; } d->mZoomToFill = on; if (on) { d->mZoomToFit = false; setZoom(computeZoomToFill(), center); } // We do not set zoom to 1 if zoomToFit is off, this is up to the code // calling us. It may went to zoom to some other level and/or to zoom on // a particular position Q_EMIT zoomToFillChanged(d->mZoomToFill); } void AbstractImageView::resizeEvent(QGraphicsSceneResizeEvent *event) { QGraphicsWidget::resizeEvent(event); if (d->mZoomToFit) { // setZoom() calls adjustImageOffset(), but only if the zoom changes. // If the view is resized but does not cause a zoom change, we call // adjustImageOffset() ourself. const qreal newZoom = computeZoomToFit(); if (qFuzzyCompare(zoom(), newZoom)) { d->adjustImageOffset(AbstractImageViewPrivate::Notify); } else { setZoom(newZoom); } } else if (d->mZoomToFill) { const qreal newZoom = computeZoomToFill(); if (qFuzzyCompare(zoom(), newZoom)) { d->adjustImageOffset(AbstractImageViewPrivate::Notify); } else { setZoom(newZoom); } } else { d->adjustImageOffset(); d->adjustScrollPos(); } } void AbstractImageView::focusInEvent(QFocusEvent *event) { QGraphicsWidget::focusInEvent(event); // We might have missed a keyReleaseEvent for the control key, e.g. for Ctrl+O const bool controlKeyIsCurrentlyDown = QGuiApplication::queryKeyboardModifiers() & Qt::ControlModifier; if (d->mControlKeyIsDown != controlKeyIsCurrentlyDown) { d->mControlKeyIsDown = controlKeyIsCurrentlyDown; updateCursor(); } } qreal AbstractImageView::computeZoomToFit() const { const QSizeF docSize = dipDocumentSize(); if (docSize.isEmpty()) { return 1; } const QSizeF viewSize = boundingRect().size(); const qreal fitWidth = viewSize.width() / docSize.width(); const qreal fitHeight = viewSize.height() / docSize.height(); qreal fit = qMin(fitWidth, fitHeight); if (!d->mEnlargeSmallerImages) { fit = qMin(fit, qreal(1.)); } return fit; } qreal AbstractImageView::computeZoomToFill() const { const QSizeF docSize = dipDocumentSize(); if (docSize.isEmpty()) { return 1; } const QSizeF viewSize = boundingRect().size(); const qreal fitWidth = viewSize.width() / docSize.width(); const qreal fitHeight = viewSize.height() / docSize.height(); qreal fill = qMax(fitWidth, fitHeight); if (!d->mEnlargeSmallerImages) { fill = qMin(fill, qreal(1.)); } return fill; } void AbstractImageView::mousePressEvent(QGraphicsSceneMouseEvent *event) { QGraphicsItem::mousePressEvent(event); d->checkAndRequestZoomAction(event); // Prepare for panning or dragging if (event->button() == Qt::LeftButton) { d->mLastDragPos = event->pos(); updateCursor(); } } void AbstractImageView::mouseMoveEvent(QGraphicsSceneMouseEvent *event) { QGraphicsItem::mouseMoveEvent(event); QPointF mousePos = event->pos(); QPointF newScrollPos = d->mScrollPos + d->mLastDragPos - mousePos; #if 0 // commented out due to mouse pointer warping around, bug in Qt? // Wrap mouse pos qreal maxWidth = boundingRect().width(); qreal maxHeight = boundingRect().height(); // We need a margin because if the window is maximized, the mouse may not // be able to go past the bounding rect. // The mouse get placed 1 pixel before/after the margin to avoid getting // considered as needing to wrap the other way in next mouseMoveEvent // (because we don't check the move vector) const int margin = 5; if (mousePos.x() <= margin) { mousePos.setX(maxWidth - margin - 1); } else if (mousePos.x() >= maxWidth - margin) { mousePos.setX(margin + 1); } if (mousePos.y() <= margin) { mousePos.setY(maxHeight - margin - 1); } else if (mousePos.y() >= maxHeight - margin) { mousePos.setY(margin + 1); } // Set mouse pos (Hackish translation to screen coords!) QPointF screenDelta = event->screenPos() - event->pos(); QCursor::setPos((mousePos + screenDelta).toPoint()); #endif d->mLastDragPos = mousePos; d->setScrollPos(newScrollPos); } void AbstractImageView::mouseReleaseEvent(QGraphicsSceneMouseEvent *event) { QGraphicsItem::mouseReleaseEvent(event); if (!d->mLastDragPos.isNull()) { d->mLastDragPos = QPointF(); } updateCursor(); } void AbstractImageView::keyPressEvent(QKeyEvent *event) { if (event->key() == Qt::Key_Control) { d->mControlKeyIsDown = true; updateCursor(); return; } if (zoomToFit() || qFuzzyCompare(computeZoomToFit(), zoom())) { if (event->modifiers() != Qt::NoModifier) { return; } switch (event->key()) { case Qt::Key_Left: if (QApplication::isRightToLeft()) { Q_EMIT nextImageRequested(); } else { Q_EMIT previousImageRequested(); } break; case Qt::Key_Up: Q_EMIT previousImageRequested(); break; case Qt::Key_Right: if (QApplication::isRightToLeft()) { Q_EMIT previousImageRequested(); } else { Q_EMIT nextImageRequested(); } break; case Qt::Key_Down: Q_EMIT nextImageRequested(); break; default: break; } return; } QPointF delta(0, 0); const qreal pageStep = boundingRect().height(); qreal unitStep; if (event->modifiers() & Qt::ShiftModifier) { unitStep = pageStep / 2; } else { unitStep = UNIT_STEP; } switch (event->key()) { case Qt::Key_Left: delta.setX(-unitStep); break; case Qt::Key_Right: delta.setX(unitStep); break; case Qt::Key_Up: delta.setY(-unitStep); break; case Qt::Key_Down: delta.setY(unitStep); break; case Qt::Key_PageUp: delta.setY(-pageStep); break; case Qt::Key_PageDown: delta.setY(pageStep); break; case Qt::Key_Home: d->setScrollPos(QPointF(d->mScrollPos.x(), 0)); return; case Qt::Key_End: d->setScrollPos(QPointF(d->mScrollPos.x(), dipDocumentSize().height() * zoom())); return; default: return; } d->setScrollPos(d->mScrollPos + delta); } void AbstractImageView::keyReleaseEvent(QKeyEvent *event) { if (event->key() == Qt::Key_Control) { d->mControlKeyIsDown = false; updateCursor(); } } void AbstractImageView::mouseDoubleClickEvent(QGraphicsSceneMouseEvent *event) { if (event->modifiers() == Qt::NoModifier && event->button() == Qt::LeftButton) { Q_EMIT toggleFullScreenRequested(); } d->checkAndRequestZoomAction(event); } QPointF AbstractImageView::imageOffset() const { return d->mImageOffset; } QPointF AbstractImageView::scrollPos() const { return d->mScrollPos; } void AbstractImageView::setScrollPos(const QPointF &pos) { d->setScrollPos(pos); } qreal AbstractImageView::devicePixelRatio() const { if (!scene()->views().isEmpty()) { return scene()->views().constFirst()->devicePixelRatio(); } else { return qApp->devicePixelRatio(); } } QPointF AbstractImageView::mapToView(const QPointF &imagePos) const { return imagePos / devicePixelRatio() * d->mZoom + d->mImageOffset - d->mScrollPos; } QPoint AbstractImageView::mapToView(const QPoint &imagePos) const { return mapToView(QPointF(imagePos)).toPoint(); } QRectF AbstractImageView::mapToView(const QRectF &imageRect) const { return QRectF(mapToView(imageRect.topLeft()), imageRect.size() * zoom() / devicePixelRatio()); } QRect AbstractImageView::mapToView(const QRect &imageRect) const { return QRect(mapToView(imageRect.topLeft()), imageRect.size() * zoom() / devicePixelRatio()); } QPointF AbstractImageView::mapToImage(const QPointF &viewPos) const { return (viewPos - d->mImageOffset + d->mScrollPos) / d->mZoom * devicePixelRatio(); } QPoint AbstractImageView::mapToImage(const QPoint &viewPos) const { return mapToImage(QPointF(viewPos)).toPoint(); } QRectF AbstractImageView::mapToImage(const QRectF &viewRect) const { return QRectF(mapToImage(viewRect.topLeft()), viewRect.size() / zoom() * devicePixelRatio()); } QRect AbstractImageView::mapToImage(const QRect &viewRect) const { return QRect(mapToImage(viewRect.topLeft()), viewRect.size() / zoom() * devicePixelRatio()); } void AbstractImageView::setEnlargeSmallerImages(bool value) { d->mEnlargeSmallerImages = value; if (zoomToFit()) { setZoom(computeZoomToFit()); } } void AbstractImageView::updateCursor() { if (d->mControlKeyIsDown) { setCursor(d->mZoomCursor); } else { if (d->mLastDragPos.isNull()) { setCursor(Qt::OpenHandCursor); } else { setCursor(Qt::ClosedHandCursor); } } } QSizeF AbstractImageView::visibleImageSize() const { if (!document()) { return QSizeF(); } QSizeF size = dipDocumentSize() * zoom(); return size.boundedTo(boundingRect().size()); } void AbstractImageView::applyPendingScrollPos() { d->adjustImageOffset(); d->adjustScrollPos(); } void AbstractImageView::resetDragCursor() { d->mLastDragPos = QPointF(); updateCursor(); } AlphaBackgroundItem *AbstractImageView::backgroundItem() const { return d->mBackgroundItem; } void AbstractImageView::onImageRectUpdated() { if (zoomToFit()) { setZoom(computeZoomToFit()); } else if (zoomToFill()) { setZoom(computeZoomToFill()); } else { applyPendingScrollPos(); } update(); } } // namespace #include "moc_abstractimageview.cpp"