Mercurial > hg > svgui
view view/ViewProxy.h @ 1604:5feb1a8318df
Fix compiler warning
| author | Chris Cannam |
|---|---|
| date | Wed, 29 Apr 2020 17:47:55 +0100 |
| parents | 4f8c72adbf43 |
| children |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. 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. See the file COPYING included with this distribution for more information. */ #ifndef VIEW_PROXY_H #define VIEW_PROXY_H #include "layer/LayerGeometryProvider.h" #include "data/model/AlignmentModel.h" class ViewProxy : public LayerGeometryProvider { public: /** * Create a standard ViewProxy for the given view, mapping using * the given scale factor. The scale factor is generally used with * pixel-doubled "retina" Mac displays and is usually 1 elsewhere. */ ViewProxy(View *view, int scaleFactor) : m_view(view), m_scaleFactor(scaleFactor) { } /** * Create a re-aligning ViewProxy for the given view, mapping * using the given scale factor. The scale factor is generally * used with pixel-doubled "retina" Mac displays and is usually 1 * elsewhere. * * Coordinates are mapped through the given alignment model, such * that frame values passed from the caller are mapped "from * reference" by that alignment before being used by the view or * converted to pixel coordinates, and returned values are mapped * back "to reference" before being passed back to the caller. * * This form of proxy may be created specially for rendering a * single layer which comes from a different alignment to that of * the rest of the containing view. */ ViewProxy(View *view, int scaleFactor, ModelId alignment) : m_view(view), m_scaleFactor(scaleFactor), m_alignment(alignment) { } int getId() const override { return m_view->getId(); } sv_frame_t getStartFrame() const override { return alignToReference(m_view->getStartFrame()); } sv_frame_t getCentreFrame() const override { return alignToReference(m_view->getCentreFrame()); } sv_frame_t getEndFrame() const override { return alignToReference(m_view->getEndFrame()); } int getXForFrame(sv_frame_t frame) const override { //!!! not actually correct, if frame lies between view's pixels return m_scaleFactor * m_view->getXForFrame(alignFromReference(frame)); } sv_frame_t getFrameForX(int x) const override { sv_frame_t f0 = m_view->getFrameForX(x / m_scaleFactor); if (m_scaleFactor == 1) return alignToReference(f0); sv_frame_t f1 = m_view->getFrameForX((x / m_scaleFactor) + 1); sv_frame_t f = f0 + ((f1 - f0) * (x % m_scaleFactor)) / m_scaleFactor; return alignToReference(f); } int getXForViewX(int viewx) const override { return viewx * m_scaleFactor; } int getViewXForX(int x) const override { return x / m_scaleFactor; } sv_frame_t getModelsStartFrame() const override { return alignToReference(m_view->getModelsStartFrame()); } sv_frame_t getModelsEndFrame() const override { return alignToReference(m_view->getModelsEndFrame()); } double getYForFrequency(double frequency, double minFreq, double maxFreq, bool logarithmic) const override { return m_scaleFactor * m_view->getYForFrequency(frequency, minFreq, maxFreq, logarithmic); } double getFrequencyForY(double y, double minFreq, double maxFreq, bool logarithmic) const override { return m_view->getFrequencyForY (y / m_scaleFactor, minFreq, maxFreq, logarithmic); } int getTextLabelYCoord(const Layer *layer, QPainter &paint) const override { return m_scaleFactor * m_view->getTextLabelYCoord(layer, paint); } bool getVisibleExtentsForUnit(QString unit, double &min, double &max, bool &log) const override { return m_view->getVisibleExtentsForUnit(unit, min, max, log); } ZoomLevel getZoomLevel() const override { ZoomLevel z = m_view->getZoomLevel(); if (z.zone == ZoomLevel::FramesPerPixel) { z.level /= m_scaleFactor; if (z.level < 1) { z.level = 1; } } else { z.level *= m_scaleFactor; } return z; } QRect getPaintRect() const override { QRect r = m_view->getPaintRect(); return QRect(r.x() * m_scaleFactor, r.y() * m_scaleFactor, r.width() * m_scaleFactor, r.height() * m_scaleFactor); } QSize getPaintSize() const override { return getPaintRect().size(); } int getPaintWidth() const override { return getPaintRect().width(); } int getPaintHeight() const override { return getPaintRect().height(); } bool hasLightBackground() const override { return m_view->hasLightBackground(); } QColor getForeground() const override { return m_view->getForeground(); } QColor getBackground() const override { return m_view->getBackground(); } ViewManager *getViewManager() const override { return m_view->getViewManager(); } bool shouldIlluminateLocalFeatures(const Layer *layer, QPoint &point) const override { QPoint p; bool should = m_view->shouldIlluminateLocalFeatures(layer, p); point = QPoint(p.x() * m_scaleFactor, p.y() * m_scaleFactor); return should; } bool shouldShowFeatureLabels() const override { return m_view->shouldShowFeatureLabels(); } void drawMeasurementRect(QPainter &p, const Layer *layer, QRect rect, bool focus) const override { m_view->drawMeasurementRect(p, layer, rect, focus); } void updatePaintRect(QRect r) override { m_view->update(r.x() / m_scaleFactor, r.y() / m_scaleFactor, r.width() / m_scaleFactor, r.height() / m_scaleFactor); } /** * Scale up a size in pixels for a hi-dpi display without pixel * doubling. This is like ViewManager::scalePixelSize, but taking * and returning floating-point values rather than integer * pixels. It is also a little more conservative - it never * shrinks the size, it can only increase or leave it unchanged. */ double scaleSize(double size) const override { return m_view->scaleSize(size * m_scaleFactor); } /** * Integer version of scaleSize. */ int scalePixelSize(int size) const override { return m_view->scalePixelSize(size * m_scaleFactor); } /** * Scale up pen width for a hi-dpi display without pixel doubling. * This is like scaleSize except that it also scales the * zero-width case. */ double scalePenWidth(double width) const override { if (width <= 0) { // zero-width pen, produce a scaled one-pixel pen width = 1; } width *= sqrt(double(m_scaleFactor)); return m_view->scalePenWidth(width); } /** * Apply scalePenWidth to a pen. */ QPen scalePen(QPen pen) const override { return QPen(pen.color(), scalePenWidth(pen.width())); } View *getView() override { return m_view; } const View *getView() const override { return m_view; } private: View *m_view; int m_scaleFactor; ModelId m_alignment; sv_frame_t alignToReference(sv_frame_t frame) const { if (auto am = ModelById::getAs<AlignmentModel>(m_alignment)) { return am->toReference(frame); } else { return frame; } } sv_frame_t alignFromReference(sv_frame_t frame) const { if (auto am = ModelById::getAs<AlignmentModel>(m_alignment)) { return am->fromReference(frame); } else { return frame; } } }; #endif