Mercurial > hg > svgui
view view/View.cpp @ 1376:5a051ca3170e
Merge from branch zoom
author | Chris Cannam |
---|---|
date | Tue, 06 Nov 2018 11:13:13 +0000 |
parents | 694004228ab7 |
children | 28075cc658c9 |
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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 file copyright 2006 Chris Cannam. 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. */ #include "View.h" #include "layer/Layer.h" #include "data/model/Model.h" #include "base/ZoomConstraint.h" #include "base/Profiler.h" #include "base/Pitch.h" #include "base/Preferences.h" #include "base/HitCount.h" #include "ViewProxy.h" #include "layer/TimeRulerLayer.h" #include "layer/SingleColourLayer.h" #include "layer/PaintAssistant.h" #include "data/model/RelativelyFineZoomConstraint.h" #include "data/model/RangeSummarisableTimeValueModel.h" #include "widgets/IconLoader.h" #include <QPainter> #include <QPaintEvent> #include <QRect> #include <QApplication> #include <QProgressDialog> #include <QTextStream> #include <QFont> #include <QMessageBox> #include <QPushButton> #include <QSettings> #include <QSvgGenerator> #include <iostream> #include <cassert> #include <cmath> //#define DEBUG_VIEW 1 //#define DEBUG_VIEW_WIDGET_PAINT 1 View::View(QWidget *w, bool showProgress) : QFrame(w), m_id(getNextId()), m_centreFrame(0), m_zoomLevel(ZoomLevel::FramesPerPixel, 1024), m_followPan(true), m_followZoom(true), m_followPlay(PlaybackScrollPageWithCentre), m_followPlayIsDetached(false), m_playPointerFrame(0), m_showProgress(showProgress), m_cache(0), m_buffer(0), m_cacheValid(false), m_cacheCentreFrame(0), m_cacheZoomLevel(ZoomLevel::FramesPerPixel, 1024), m_selectionCached(false), m_deleting(false), m_haveSelectedLayer(false), m_manager(0), m_propertyContainer(new ViewPropertyContainer(this)) { // cerr << "View::View(" << this << ")" << endl; } View::~View() { // cerr << "View::~View(" << this << ")" << endl; m_deleting = true; delete m_propertyContainer; delete m_cache; delete m_buffer; } PropertyContainer::PropertyList View::getProperties() const { PropertyContainer::PropertyList list; list.push_back("Global Scroll"); list.push_back("Global Zoom"); list.push_back("Follow Playback"); return list; } QString View::getPropertyLabel(const PropertyName &pn) const { if (pn == "Global Scroll") return tr("Global Scroll"); if (pn == "Global Zoom") return tr("Global Zoom"); if (pn == "Follow Playback") return tr("Follow Playback"); return ""; } PropertyContainer::PropertyType View::getPropertyType(const PropertyContainer::PropertyName &name) const { if (name == "Global Scroll") return PropertyContainer::ToggleProperty; if (name == "Global Zoom") return PropertyContainer::ToggleProperty; if (name == "Follow Playback") return PropertyContainer::ValueProperty; return PropertyContainer::InvalidProperty; } int View::getPropertyRangeAndValue(const PropertyContainer::PropertyName &name, int *min, int *max, int *deflt) const { if (deflt) *deflt = 1; if (name == "Global Scroll") return m_followPan; if (name == "Global Zoom") return m_followZoom; if (name == "Follow Playback") { if (min) *min = 0; if (max) *max = 2; if (deflt) *deflt = int(PlaybackScrollPageWithCentre); switch (m_followPlay) { case PlaybackScrollContinuous: return 0; case PlaybackScrollPageWithCentre: case PlaybackScrollPage: return 1; case PlaybackIgnore: return 2; } } if (min) *min = 0; if (max) *max = 0; if (deflt) *deflt = 0; return 0; } QString View::getPropertyValueLabel(const PropertyContainer::PropertyName &name, int value) const { if (name == "Follow Playback") { switch (value) { default: case 0: return tr("Scroll"); case 1: return tr("Page"); case 2: return tr("Off"); } } return tr("<unknown>"); } void View::setProperty(const PropertyContainer::PropertyName &name, int value) { if (name == "Global Scroll") { setFollowGlobalPan(value != 0); } else if (name == "Global Zoom") { setFollowGlobalZoom(value != 0); } else if (name == "Follow Playback") { switch (value) { default: case 0: setPlaybackFollow(PlaybackScrollContinuous); break; case 1: setPlaybackFollow(PlaybackScrollPageWithCentre); break; case 2: setPlaybackFollow(PlaybackIgnore); break; } } } int View::getPropertyContainerCount() const { return int(m_fixedOrderLayers.size()) + 1; // the 1 is for me } const PropertyContainer * View::getPropertyContainer(int i) const { return (const PropertyContainer *)(((View *)this)-> getPropertyContainer(i)); } PropertyContainer * View::getPropertyContainer(int i) { if (i == 0) return m_propertyContainer; return m_fixedOrderLayers[i-1]; } bool View::getValueExtents(QString unit, double &min, double &max, bool &log) const { bool have = false; for (LayerList::const_iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { QString layerUnit; double layerMin = 0.0, layerMax = 0.0; double displayMin = 0.0, displayMax = 0.0; bool layerLog = false; if ((*i)->getValueExtents(layerMin, layerMax, layerLog, layerUnit) && layerUnit.toLower() == unit.toLower()) { if ((*i)->getDisplayExtents(displayMin, displayMax)) { min = displayMin; max = displayMax; log = layerLog; have = true; break; } else { if (!have || layerMin < min) min = layerMin; if (!have || layerMax > max) max = layerMax; if (layerLog) log = true; have = true; } } } return have; } int View::getTextLabelHeight(const Layer *layer, QPainter &paint) const { std::map<int, Layer *> sortedLayers; for (LayerList::const_iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { if ((*i)->needsTextLabelHeight()) { sortedLayers[getObjectExportId(*i)] = *i; } } int y = ViewManager::scalePixelSize(15) + paint.fontMetrics().ascent(); for (std::map<int, Layer *>::const_iterator i = sortedLayers.begin(); i != sortedLayers.end(); ++i) { if (i->second == layer) break; y += paint.fontMetrics().height(); } return y; } void View::propertyContainerSelected(View *client, PropertyContainer *pc) { if (client != this) return; if (pc == m_propertyContainer) { if (m_haveSelectedLayer) { m_haveSelectedLayer = false; update(); } return; } m_cacheValid = false; Layer *selectedLayer = 0; for (LayerList::iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { if (*i == pc) { selectedLayer = *i; m_layerStack.erase(i); break; } } if (selectedLayer) { m_haveSelectedLayer = true; m_layerStack.push_back(selectedLayer); update(); } else { m_haveSelectedLayer = false; } emit propertyContainerSelected(pc); } void View::toolModeChanged() { // SVDEBUG << "View::toolModeChanged(" << m_manager->getToolMode() << ")" << endl; } void View::overlayModeChanged() { m_cacheValid = false; update(); } void View::zoomWheelsEnabledChanged() { // subclass might override this } sv_frame_t View::getStartFrame() const { return getFrameForX(0); } sv_frame_t View::getEndFrame() const { return getFrameForX(width()) - 1; } void View::setStartFrame(sv_frame_t f) { setCentreFrame(f + sv_frame_t(round (m_zoomLevel.pixelsToFrames(width() / 2)))); } bool View::setCentreFrame(sv_frame_t f, bool e) { bool changeVisible = false; #ifdef DEBUG_VIEW SVCERR << "View::setCentreFrame: from " << m_centreFrame << " to " << f << endl; #endif if (m_centreFrame != f) { sv_frame_t formerCentre = m_centreFrame; m_centreFrame = f; if (m_zoomLevel.zone == ZoomLevel::PixelsPerFrame) { #ifdef DEBUG_VIEW SVCERR << "View(" << this << ")::setCentreFrame: in PixelsPerFrame zone, so change must be visible" << endl; #endif update(); changeVisible = true; } else { int formerPixel = int(formerCentre / m_zoomLevel.level); int newPixel = int(m_centreFrame / m_zoomLevel.level); if (newPixel != formerPixel) { #ifdef DEBUG_VIEW SVCERR << "View(" << this << ")::setCentreFrame: newPixel " << newPixel << ", formerPixel " << formerPixel << endl; #endif // ensure the centre frame is a multiple of the zoom level m_centreFrame = sv_frame_t(newPixel) * m_zoomLevel.level; #ifdef DEBUG_VIEW SVCERR << "View(" << this << ")::setCentreFrame: centre frame rounded to " << m_centreFrame << " (zoom level is " << m_zoomLevel.level << ")" << endl; #endif update(); changeVisible = true; } } if (e) { sv_frame_t rf = alignToReference(m_centreFrame); #ifdef DEBUG_VIEW cerr << "View[" << this << "]::setCentreFrame(" << f << "): m_centreFrame = " << m_centreFrame << ", emitting centreFrameChanged with aligned frame " << rf << endl; #endif emit centreFrameChanged(rf, m_followPan, m_followPlay); } } return changeVisible; } int View::getXForFrame(sv_frame_t frame) const { // In FramesPerPixel mode, the pixel should be the one "covering" // the given frame, i.e. to the "left" of it - not necessarily the // nearest boundary. sv_frame_t level = m_zoomLevel.level; sv_frame_t fdiff = frame - getCentreFrame(); int result = 0; bool inRange = false; if (m_zoomLevel.zone == ZoomLevel::FramesPerPixel) { inRange = ((fdiff / level) < sv_frame_t(INT_MAX) && (fdiff / level) > sv_frame_t(INT_MIN)); } else { inRange = (fdiff < sv_frame_t(INT_MAX) / level && fdiff > sv_frame_t(INT_MIN) / level); } if (inRange) { sv_frame_t adjusted; if (m_zoomLevel.zone == ZoomLevel::FramesPerPixel) { adjusted = fdiff / level; if ((fdiff < 0) && ((fdiff % level) != 0)) { --adjusted; // round to the left } } else { adjusted = fdiff * level; } adjusted = adjusted + (width()/2); if (adjusted > INT_MAX || adjusted < INT_MIN) { inRange = false; } else { result = int(adjusted); } } if (!inRange) { SVCERR << "ERROR: Frame " << frame << " is out of range in View::getXForFrame" << endl; SVCERR << "ERROR: (centre frame = " << getCentreFrame() << ", fdiff = " << fdiff << ", zoom level = " << m_zoomLevel << ")" << endl; SVCERR << "ERROR: This is a logic error: getXForFrame should not be " << "called for locations unadjacent to the current view" << endl; return 0; } return result; } sv_frame_t View::getFrameForX(int x) const { // Note, this must always return a value that is on a zoom-level // boundary - regardless of whether the nominal centre frame is on // such a boundary or not. // In PixelsPerFrame mode, the frame should be the one immediately // left of the given pixel, not necessarily the nearest. int diff = x - (width()/2); sv_frame_t level = m_zoomLevel.level; sv_frame_t fdiff, result; if (m_zoomLevel.zone == ZoomLevel::FramesPerPixel) { fdiff = diff * level; result = ((fdiff + m_centreFrame) / level) * level; } else { fdiff = diff / level; if ((diff < 0) && ((diff % level) != 0)) { --fdiff; // round to the left } result = fdiff + m_centreFrame; } #ifdef DEBUG_VIEW_WIDGET_PAINT if (x == 0) { SVCERR << "getFrameForX(" << x << "): diff = " << diff << ", fdiff = " << fdiff << ", m_centreFrame = " << m_centreFrame << ", level = " << m_zoomLevel.level << ", diff % level = " << (diff % m_zoomLevel.level) << ", nominal " << fdiff + m_centreFrame << ", will return " << result << endl; } #endif return result; } double View::getYForFrequency(double frequency, double minf, double maxf, bool logarithmic) const { Profiler profiler("View::getYForFrequency"); int h = height(); if (logarithmic) { static double lastminf = 0.0, lastmaxf = 0.0; static double logminf = 0.0, logmaxf = 0.0; if (lastminf != minf) { lastminf = (minf == 0.0 ? 1.0 : minf); logminf = log10(minf); } if (lastmaxf != maxf) { lastmaxf = (maxf < lastminf ? lastminf : maxf); logmaxf = log10(maxf); } if (logminf == logmaxf) return 0; return h - (h * (log10(frequency) - logminf)) / (logmaxf - logminf); } else { if (minf == maxf) return 0; return h - (h * (frequency - minf)) / (maxf - minf); } } double View::getFrequencyForY(double y, double minf, double maxf, bool logarithmic) const { double h = height(); if (logarithmic) { static double lastminf = 0.0, lastmaxf = 0.0; static double logminf = 0.0, logmaxf = 0.0; if (lastminf != minf) { lastminf = (minf == 0.0 ? 1.0 : minf); logminf = log10(minf); } if (lastmaxf != maxf) { lastmaxf = (maxf < lastminf ? lastminf : maxf); logmaxf = log10(maxf); } if (logminf == logmaxf) return 0; return pow(10.0, logminf + ((logmaxf - logminf) * (h - y)) / h); } else { if (minf == maxf) return 0; return minf + ((h - y) * (maxf - minf)) / h; } } ZoomLevel View::getZoomLevel() const { #ifdef DEBUG_VIEW_WIDGET_PAINT // cout << "zoom level: " << m_zoomLevel << endl; #endif return m_zoomLevel; } int View::effectiveDevicePixelRatio() const { #ifdef Q_OS_MAC int dpratio = devicePixelRatio(); if (dpratio > 1) { QSettings settings; settings.beginGroup("Preferences"); if (!settings.value("scaledHiDpi", true).toBool()) { dpratio = 1; } settings.endGroup(); } return dpratio; #else return 1; #endif } void View::setZoomLevel(ZoomLevel z) { //!!! int dpratio = effectiveDevicePixelRatio(); // if (z < dpratio) return; // if (z < 1) z = 1; if (m_zoomLevel == z) { return; } m_zoomLevel = z; emit zoomLevelChanged(z, m_followZoom); update(); } bool View::hasLightBackground() const { bool darkPalette = false; if (m_manager) darkPalette = m_manager->getGlobalDarkBackground(); Layer::ColourSignificance maxSignificance = Layer::ColourAbsent; bool mostSignificantHasDarkBackground = false; for (LayerList::const_iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { Layer::ColourSignificance s = (*i)->getLayerColourSignificance(); bool light = (*i)->hasLightBackground(); if (int(s) > int(maxSignificance)) { maxSignificance = s; mostSignificantHasDarkBackground = !light; } else if (s == maxSignificance && !light) { mostSignificantHasDarkBackground = true; } } if (int(maxSignificance) >= int(Layer::ColourDistinguishes)) { return !mostSignificantHasDarkBackground; } else { return !darkPalette; } } QColor View::getBackground() const { bool light = hasLightBackground(); QColor widgetbg = palette().window().color(); bool widgetLight = (widgetbg.red() + widgetbg.green() + widgetbg.blue()) > 384; if (widgetLight == light) { if (widgetLight) { return widgetbg.light(); } else { return widgetbg.dark(); } } else if (light) return Qt::white; else return Qt::black; } QColor View::getForeground() const { bool light = hasLightBackground(); QColor widgetfg = palette().text().color(); bool widgetLight = (widgetfg.red() + widgetfg.green() + widgetfg.blue()) > 384; if (widgetLight != light) return widgetfg; else if (light) return Qt::black; else return Qt::white; } void View::addLayer(Layer *layer) { m_cacheValid = false; SingleColourLayer *scl = dynamic_cast<SingleColourLayer *>(layer); if (scl) scl->setDefaultColourFor(this); m_fixedOrderLayers.push_back(layer); m_layerStack.push_back(layer); QProgressBar *pb = new QProgressBar(this); pb->setMinimum(0); pb->setMaximum(0); pb->setFixedWidth(80); pb->setTextVisible(false); QPushButton *cancel = new QPushButton(this); cancel->setIcon(IconLoader().load("cancel")); cancel->setFlat(true); int scaled20 = ViewManager::scalePixelSize(20); cancel->setFixedSize(QSize(scaled20, scaled20)); connect(cancel, SIGNAL(clicked()), this, SLOT(cancelClicked())); ProgressBarRec pbr; pbr.cancel = cancel; pbr.bar = pb; pbr.lastCheck = 0; pbr.checkTimer = new QTimer(); connect(pbr.checkTimer, SIGNAL(timeout()), this, SLOT(progressCheckStalledTimerElapsed())); m_progressBars[layer] = pbr; QFont f(pb->font()); int fs = Preferences::getInstance()->getViewFontSize(); f.setPointSize(std::min(fs, int(ceil(fs * 0.85)))); cancel->hide(); pb->setFont(f); pb->hide(); connect(layer, SIGNAL(layerParametersChanged()), this, SLOT(layerParametersChanged())); connect(layer, SIGNAL(layerParameterRangesChanged()), this, SLOT(layerParameterRangesChanged())); connect(layer, SIGNAL(layerMeasurementRectsChanged()), this, SLOT(layerMeasurementRectsChanged())); connect(layer, SIGNAL(layerNameChanged()), this, SLOT(layerNameChanged())); connect(layer, SIGNAL(modelChanged()), this, SLOT(modelChanged())); connect(layer, SIGNAL(modelCompletionChanged()), this, SLOT(modelCompletionChanged())); connect(layer, SIGNAL(modelAlignmentCompletionChanged()), this, SLOT(modelAlignmentCompletionChanged())); connect(layer, SIGNAL(modelChangedWithin(sv_frame_t, sv_frame_t)), this, SLOT(modelChangedWithin(sv_frame_t, sv_frame_t))); connect(layer, SIGNAL(modelReplaced()), this, SLOT(modelReplaced())); update(); emit propertyContainerAdded(layer); } void View::removeLayer(Layer *layer) { if (m_deleting) { return; } m_cacheValid = false; for (LayerList::iterator i = m_fixedOrderLayers.begin(); i != m_fixedOrderLayers.end(); ++i) { if (*i == layer) { m_fixedOrderLayers.erase(i); break; } } for (LayerList::iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { if (*i == layer) { m_layerStack.erase(i); if (m_progressBars.find(layer) != m_progressBars.end()) { delete m_progressBars[layer].bar; delete m_progressBars[layer].cancel; delete m_progressBars[layer].checkTimer; m_progressBars.erase(layer); } break; } } disconnect(layer, SIGNAL(layerParametersChanged()), this, SLOT(layerParametersChanged())); disconnect(layer, SIGNAL(layerParameterRangesChanged()), this, SLOT(layerParameterRangesChanged())); disconnect(layer, SIGNAL(layerNameChanged()), this, SLOT(layerNameChanged())); disconnect(layer, SIGNAL(modelChanged()), this, SLOT(modelChanged())); disconnect(layer, SIGNAL(modelCompletionChanged()), this, SLOT(modelCompletionChanged())); disconnect(layer, SIGNAL(modelAlignmentCompletionChanged()), this, SLOT(modelAlignmentCompletionChanged())); disconnect(layer, SIGNAL(modelChangedWithin(sv_frame_t, sv_frame_t)), this, SLOT(modelChangedWithin(sv_frame_t, sv_frame_t))); disconnect(layer, SIGNAL(modelReplaced()), this, SLOT(modelReplaced())); update(); emit propertyContainerRemoved(layer); } Layer * View::getInteractionLayer() { Layer *sl = getSelectedLayer(); if (sl && !(sl->isLayerDormant(this))) { return sl; } if (!m_layerStack.empty()) { int n = getLayerCount(); while (n > 0) { --n; Layer *layer = getLayer(n); if (!(layer->isLayerDormant(this))) { return layer; } } } return 0; } const Layer * View::getInteractionLayer() const { return const_cast<const Layer *>(const_cast<View *>(this)->getInteractionLayer()); } Layer * View::getSelectedLayer() { if (m_haveSelectedLayer && !m_layerStack.empty()) { return getLayer(getLayerCount() - 1); } else { return 0; } } const Layer * View::getSelectedLayer() const { return const_cast<const Layer *>(const_cast<View *>(this)->getSelectedLayer()); } void View::setViewManager(ViewManager *manager) { if (m_manager) { m_manager->disconnect(this, SLOT(globalCentreFrameChanged(sv_frame_t))); m_manager->disconnect(this, SLOT(viewCentreFrameChanged(View *, sv_frame_t))); m_manager->disconnect(this, SLOT(viewManagerPlaybackFrameChanged(sv_frame_t))); m_manager->disconnect(this, SLOT(viewZoomLevelChanged(View *, ZoomLevel, bool))); m_manager->disconnect(this, SLOT(toolModeChanged())); m_manager->disconnect(this, SLOT(selectionChanged())); m_manager->disconnect(this, SLOT(overlayModeChanged())); m_manager->disconnect(this, SLOT(zoomWheelsEnabledChanged())); disconnect(m_manager, SLOT(viewCentreFrameChanged(sv_frame_t, bool, PlaybackFollowMode))); disconnect(m_manager, SLOT(zoomLevelChanged(ZoomLevel, bool))); } m_manager = manager; connect(m_manager, SIGNAL(globalCentreFrameChanged(sv_frame_t)), this, SLOT(globalCentreFrameChanged(sv_frame_t))); connect(m_manager, SIGNAL(viewCentreFrameChanged(View *, sv_frame_t)), this, SLOT(viewCentreFrameChanged(View *, sv_frame_t))); connect(m_manager, SIGNAL(playbackFrameChanged(sv_frame_t)), this, SLOT(viewManagerPlaybackFrameChanged(sv_frame_t))); connect(m_manager, SIGNAL(viewZoomLevelChanged(View *, ZoomLevel, bool)), this, SLOT(viewZoomLevelChanged(View *, ZoomLevel, bool))); connect(m_manager, SIGNAL(toolModeChanged()), this, SLOT(toolModeChanged())); connect(m_manager, SIGNAL(selectionChanged()), this, SLOT(selectionChanged())); connect(m_manager, SIGNAL(inProgressSelectionChanged()), this, SLOT(selectionChanged())); connect(m_manager, SIGNAL(overlayModeChanged()), this, SLOT(overlayModeChanged())); connect(m_manager, SIGNAL(showCentreLineChanged()), this, SLOT(overlayModeChanged())); connect(m_manager, SIGNAL(zoomWheelsEnabledChanged()), this, SLOT(zoomWheelsEnabledChanged())); connect(this, SIGNAL(centreFrameChanged(sv_frame_t, bool, PlaybackFollowMode)), m_manager, SLOT(viewCentreFrameChanged(sv_frame_t, bool, PlaybackFollowMode))); connect(this, SIGNAL(zoomLevelChanged(ZoomLevel, bool)), m_manager, SLOT(viewZoomLevelChanged(ZoomLevel, bool))); switch (m_followPlay) { case PlaybackScrollPage: case PlaybackScrollPageWithCentre: setCentreFrame(m_manager->getGlobalCentreFrame(), false); break; case PlaybackScrollContinuous: setCentreFrame(m_manager->getPlaybackFrame(), false); break; case PlaybackIgnore: if (m_followPan) { setCentreFrame(m_manager->getGlobalCentreFrame(), false); } break; } if (m_followZoom) setZoomLevel(m_manager->getGlobalZoom()); movePlayPointer(getAlignedPlaybackFrame()); toolModeChanged(); } void View::setViewManager(ViewManager *vm, sv_frame_t initialCentreFrame) { setViewManager(vm); setCentreFrame(initialCentreFrame, false); } void View::setFollowGlobalPan(bool f) { m_followPan = f; emit propertyContainerPropertyChanged(m_propertyContainer); } void View::setFollowGlobalZoom(bool f) { m_followZoom = f; emit propertyContainerPropertyChanged(m_propertyContainer); } void View::setPlaybackFollow(PlaybackFollowMode m) { m_followPlay = m; emit propertyContainerPropertyChanged(m_propertyContainer); } void View::modelChanged() { QObject *obj = sender(); #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View(" << this << ")::modelChanged()" << endl; #endif // If the model that has changed is not used by any of the cached // layers, we won't need to recreate the cache bool recreate = false; bool discard; LayerList scrollables = getScrollableBackLayers(false, discard); for (LayerList::const_iterator i = scrollables.begin(); i != scrollables.end(); ++i) { if (*i == obj || (*i)->getModel() == obj) { recreate = true; break; } } if (recreate) { m_cacheValid = false; } emit layerModelChanged(); checkProgress(obj); update(); } void View::modelChangedWithin(sv_frame_t startFrame, sv_frame_t endFrame) { QObject *obj = sender(); sv_frame_t myStartFrame = getStartFrame(); sv_frame_t myEndFrame = getEndFrame(); #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View(" << this << ")::modelChangedWithin(" << startFrame << "," << endFrame << ") [me " << myStartFrame << "," << myEndFrame << "]" << endl; #endif if (myStartFrame > 0 && endFrame < myStartFrame) { checkProgress(obj); return; } if (startFrame > myEndFrame) { checkProgress(obj); return; } // If the model that has changed is not used by any of the cached // layers, we won't need to recreate the cache bool recreate = false; bool discard; LayerList scrollables = getScrollableBackLayers(false, discard); for (LayerList::const_iterator i = scrollables.begin(); i != scrollables.end(); ++i) { if (*i == obj || (*i)->getModel() == obj) { recreate = true; break; } } if (recreate) { m_cacheValid = false; } if (startFrame < myStartFrame) startFrame = myStartFrame; if (endFrame > myEndFrame) endFrame = myEndFrame; checkProgress(obj); update(); } void View::modelCompletionChanged() { // cerr << "View(" << this << ")::modelCompletionChanged()" << endl; QObject *obj = sender(); checkProgress(obj); } void View::modelAlignmentCompletionChanged() { // cerr << "View(" << this << ")::modelAlignmentCompletionChanged()" << endl; QObject *obj = sender(); checkProgress(obj); } void View::modelReplaced() { #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View(" << this << ")::modelReplaced()" << endl; #endif m_cacheValid = false; update(); } void View::layerParametersChanged() { Layer *layer = dynamic_cast<Layer *>(sender()); #ifdef DEBUG_VIEW_WIDGET_PAINT SVDEBUG << "View::layerParametersChanged()" << endl; #endif m_cacheValid = false; update(); if (layer) { emit propertyContainerPropertyChanged(layer); } } void View::layerParameterRangesChanged() { Layer *layer = dynamic_cast<Layer *>(sender()); if (layer) emit propertyContainerPropertyRangeChanged(layer); } void View::layerMeasurementRectsChanged() { Layer *layer = dynamic_cast<Layer *>(sender()); if (layer) update(); } void View::layerNameChanged() { Layer *layer = dynamic_cast<Layer *>(sender()); if (layer) emit propertyContainerNameChanged(layer); } void View::globalCentreFrameChanged(sv_frame_t rf) { if (m_followPan) { sv_frame_t f = alignFromReference(rf); #ifdef DEBUG_VIEW cerr << "View[" << this << "]::globalCentreFrameChanged(" << rf << "): setting centre frame to " << f << endl; #endif setCentreFrame(f, false); } } void View::viewCentreFrameChanged(View *, sv_frame_t ) { // We do nothing with this, but a subclass might } void View::viewManagerPlaybackFrameChanged(sv_frame_t f) { if (m_manager) { if (sender() != m_manager) return; } #ifdef DEBUG_VIEW cerr << "View::viewManagerPlaybackFrameChanged(" << f << ")" << endl; #endif f = getAlignedPlaybackFrame(); #ifdef DEBUG_VIEW cerr << " -> aligned frame = " << f << endl; #endif movePlayPointer(f); } void View::movePlayPointer(sv_frame_t newFrame) { #ifdef DEBUG_VIEW cerr << "View(" << this << ")::movePlayPointer(" << newFrame << ")" << endl; #endif if (m_playPointerFrame == newFrame) return; bool visibleChange = (getXForFrame(m_playPointerFrame) != getXForFrame(newFrame)); sv_frame_t oldPlayPointerFrame = m_playPointerFrame; m_playPointerFrame = newFrame; if (!visibleChange) return; bool somethingGoingOn = ((QApplication::mouseButtons() != Qt::NoButton) || (QApplication::keyboardModifiers() & Qt::AltModifier)); bool pointerInVisibleArea = long(m_playPointerFrame) >= getStartFrame() && (m_playPointerFrame < getEndFrame() || // include old pointer location so we know to refresh when moving out oldPlayPointerFrame < getEndFrame()); switch (m_followPlay) { case PlaybackScrollContinuous: if (!somethingGoingOn) { setCentreFrame(m_playPointerFrame, false); } break; case PlaybackScrollPage: case PlaybackScrollPageWithCentre: if (!pointerInVisibleArea && somethingGoingOn) { m_followPlayIsDetached = true; } else if (!pointerInVisibleArea && m_followPlayIsDetached) { // do nothing; we aren't tracking until the pointer comes back in } else { int xold = getXForFrame(oldPlayPointerFrame); update(xold - 4, 0, 9, height()); sv_frame_t w = getEndFrame() - getStartFrame(); w -= w/5; sv_frame_t sf = (m_playPointerFrame / w) * w - w/8; if (m_manager && m_manager->isPlaying() && m_manager->getPlaySelectionMode()) { MultiSelection::SelectionList selections = m_manager->getSelections(); if (!selections.empty()) { sv_frame_t selectionStart = selections.begin()->getStartFrame(); if (sf < selectionStart - w / 10) { sf = selectionStart - w / 10; } } } #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "PlaybackScrollPage: f = " << m_playPointerFrame << ", sf = " << sf << ", start frame " << getStartFrame() << endl; #endif // We don't consider scrolling unless the pointer is outside // the central visible range already int xnew = getXForFrame(m_playPointerFrame); #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "xnew = " << xnew << ", width = " << width() << endl; #endif bool shouldScroll = (xnew > (width() * 7) / 8); if (!m_followPlayIsDetached && (xnew < width() / 8)) { shouldScroll = true; } if (xnew > width() / 8) { m_followPlayIsDetached = false; } else if (somethingGoingOn) { m_followPlayIsDetached = true; } if (!somethingGoingOn && shouldScroll) { sv_frame_t offset = getFrameForX(width()/2) - getStartFrame(); sv_frame_t newCentre = sf + offset; bool changed = setCentreFrame(newCentre, false); if (changed) { xold = getXForFrame(oldPlayPointerFrame); update(xold - 4, 0, 9, height()); } } update(xnew - 4, 0, 9, height()); } break; case PlaybackIgnore: if (m_playPointerFrame >= getStartFrame() && m_playPointerFrame < getEndFrame()) { update(); } break; } } void View::viewZoomLevelChanged(View *p, ZoomLevel z, bool locked) { #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View[" << this << "]: viewZoomLevelChanged(" << p << ", " << z << ", " << locked << ")" << endl; #endif if (m_followZoom && p != this && locked) { setZoomLevel(z); } } void View::selectionChanged() { if (m_selectionCached) { m_cacheValid = false; m_selectionCached = false; } update(); } sv_frame_t View::getFirstVisibleFrame() const { sv_frame_t f0 = getStartFrame(); sv_frame_t f = getModelsStartFrame(); if (f0 < 0 || f0 < f) return f; return f0; } sv_frame_t View::getLastVisibleFrame() const { sv_frame_t f0 = getEndFrame(); sv_frame_t f = getModelsEndFrame(); if (f0 > f) return f; return f0; } sv_frame_t View::getModelsStartFrame() const { bool first = true; sv_frame_t startFrame = 0; for (LayerList::const_iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { if ((*i)->getModel() && (*i)->getModel()->isOK()) { sv_frame_t thisStartFrame = (*i)->getModel()->getStartFrame(); if (first || thisStartFrame < startFrame) { startFrame = thisStartFrame; } first = false; } } return startFrame; } sv_frame_t View::getModelsEndFrame() const { bool first = true; sv_frame_t endFrame = 0; for (LayerList::const_iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { if ((*i)->getModel() && (*i)->getModel()->isOK()) { sv_frame_t thisEndFrame = (*i)->getModel()->getEndFrame(); if (first || thisEndFrame > endFrame) { endFrame = thisEndFrame; } first = false; } } if (first) return getModelsStartFrame(); return endFrame; } sv_samplerate_t View::getModelsSampleRate() const { //!!! Just go for the first, for now. If we were supporting // multiple samplerates, we'd probably want to do frame/time // conversion in the model //!!! nah, this wants to always return the sr of the main model! for (LayerList::const_iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { if ((*i)->getModel() && (*i)->getModel()->isOK()) { return (*i)->getModel()->getSampleRate(); } } return 0; } View::ModelSet View::getModels() { ModelSet models; for (int i = 0; i < getLayerCount(); ++i) { Layer *layer = getLayer(i); if (dynamic_cast<TimeRulerLayer *>(layer)) { continue; } if (layer && layer->getModel()) { Model *model = layer->getModel(); models.insert(model); } } return models; } Model * View::getAligningModel() const { if (!m_manager || !m_manager->getAlignMode() || !m_manager->getPlaybackModel()) { return 0; } Model *anyModel = 0; Model *alignedModel = 0; Model *goodModel = 0; for (LayerList::const_iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { Layer *layer = *i; if (!layer) continue; if (dynamic_cast<TimeRulerLayer *>(layer)) continue; Model *model = (*i)->getModel(); if (!model) continue; anyModel = model; if (model->getAlignmentReference()) { alignedModel = model; if (layer->isLayerOpaque() || dynamic_cast<RangeSummarisableTimeValueModel *>(model)) { goodModel = model; } } } if (goodModel) return goodModel; else if (alignedModel) return alignedModel; else return anyModel; } sv_frame_t View::alignFromReference(sv_frame_t f) const { if (!m_manager || !m_manager->getAlignMode()) return f; Model *aligningModel = getAligningModel(); if (!aligningModel) return f; return aligningModel->alignFromReference(f); } sv_frame_t View::alignToReference(sv_frame_t f) const { if (!m_manager->getAlignMode()) return f; Model *aligningModel = getAligningModel(); if (!aligningModel) return f; return aligningModel->alignToReference(f); } sv_frame_t View::getAlignedPlaybackFrame() const { if (!m_manager) return 0; sv_frame_t pf = m_manager->getPlaybackFrame(); if (!m_manager->getAlignMode()) return pf; Model *aligningModel = getAligningModel(); if (!aligningModel) return pf; sv_frame_t af = aligningModel->alignFromReference(pf); return af; } bool View::areLayersScrollable() const { // True iff all views are scrollable for (LayerList::const_iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { if (!(*i)->isLayerScrollable(this)) return false; } return true; } View::LayerList View::getScrollableBackLayers(bool testChanged, bool &changed) const { changed = false; // We want a list of all the scrollable layers that are behind the // backmost non-scrollable layer. LayerList scrollables; bool metUnscrollable = false; for (LayerList::const_iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { // SVDEBUG << "View::getScrollableBackLayers: calling isLayerDormant on layer " << *i << endl; // cerr << "(name is " << (*i)->objectName() << ")" // << endl; // SVDEBUG << "View::getScrollableBackLayers: I am " << this << endl; if ((*i)->isLayerDormant(this)) continue; if ((*i)->isLayerOpaque()) { // You can't see anything behind an opaque layer! scrollables.clear(); if (metUnscrollable) break; } if (!metUnscrollable && (*i)->isLayerScrollable(this)) { scrollables.push_back(*i); } else { metUnscrollable = true; } } if (testChanged && scrollables != m_lastScrollableBackLayers) { m_lastScrollableBackLayers = scrollables; changed = true; } return scrollables; } View::LayerList View::getNonScrollableFrontLayers(bool testChanged, bool &changed) const { changed = false; LayerList nonScrollables; // Everything in front of the first non-scrollable from the back // should also be considered non-scrollable bool started = false; for (LayerList::const_iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { if ((*i)->isLayerDormant(this)) continue; if (!started && (*i)->isLayerScrollable(this)) { continue; } started = true; if ((*i)->isLayerOpaque()) { // You can't see anything behind an opaque layer! nonScrollables.clear(); } nonScrollables.push_back(*i); } if (testChanged && nonScrollables != m_lastNonScrollableBackLayers) { m_lastNonScrollableBackLayers = nonScrollables; changed = true; } return nonScrollables; } ZoomLevel View::getZoomConstraintLevel(ZoomLevel zoomLevel, ZoomConstraint::RoundingDirection dir) const { using namespace std::rel_ops; ZoomLevel candidate = RelativelyFineZoomConstraint().getNearestZoomLevel(zoomLevel, dir); for (auto i : m_layerStack) { if (i->supportsOtherZoomLevels() || !(i->getZoomConstraint())) { continue; } ZoomLevel thisLevel = i->getZoomConstraint()->getNearestZoomLevel(zoomLevel, dir); // Go for the block size that's furthest from the one // passed in. Most of the time, that's what we want. if ((thisLevel > zoomLevel && thisLevel > candidate) || (thisLevel < zoomLevel && thisLevel < candidate)) { candidate = thisLevel; } } return candidate; } int View::countZoomLevels() const { int n = 0; ZoomLevel min = ZoomConstraint().getMinZoomLevel(); ZoomLevel max = ZoomConstraint().getMaxZoomLevel(); ZoomLevel level = min; while (true) { ++n; if (level == max) { break; } level = getZoomConstraintLevel (level.incremented(), ZoomConstraint::RoundUp); } // cerr << "View::countZoomLevels: " << n << endl; return n; } ZoomLevel View::getZoomLevelByIndex(int ix) const { int n = 0; ZoomLevel min = ZoomConstraint().getMinZoomLevel(); ZoomLevel max = ZoomConstraint().getMaxZoomLevel(); ZoomLevel level = min; while (true) { if (n == ix) { // cerr << "View::getZoomLevelByIndex: " << ix << " -> " << level // << endl; return level; } ++n; if (level == max) { break; } level = getZoomConstraintLevel (level.incremented(), ZoomConstraint::RoundUp); } // cerr << "View::getZoomLevelByIndex: " << ix << " -> " << max << " (max)" // << endl; return max; } int View::getZoomLevelIndex(ZoomLevel z) const { int n = 0; ZoomLevel min = ZoomConstraint().getMinZoomLevel(); ZoomLevel max = ZoomConstraint().getMaxZoomLevel(); ZoomLevel level = min; while (true) { if (z == level) { // cerr << "View::getZoomLevelIndex: " << z << " -> " << n // << endl; return n; } ++n; if (level == max) { break; } level = getZoomConstraintLevel (level.incremented(), ZoomConstraint::RoundUp); } // cerr << "View::getZoomLevelIndex: " << z << " -> " << n << " (max)" // << endl; return n; } bool View::areLayerColoursSignificant() const { for (LayerList::const_iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { if ((*i)->getLayerColourSignificance() == Layer::ColourHasMeaningfulValue) return true; if ((*i)->isLayerOpaque()) break; } return false; } bool View::hasTopLayerTimeXAxis() const { LayerList::const_iterator i = m_layerStack.end(); if (i == m_layerStack.begin()) return false; --i; return (*i)->hasTimeXAxis(); } void View::zoom(bool in) { ZoomLevel newZoomLevel = m_zoomLevel; if (in) { newZoomLevel = getZoomConstraintLevel(m_zoomLevel.decremented(), ZoomConstraint::RoundDown); } else { newZoomLevel = getZoomConstraintLevel(m_zoomLevel.incremented(), ZoomConstraint::RoundUp); } using namespace std::rel_ops; if (newZoomLevel != m_zoomLevel) { setZoomLevel(newZoomLevel); } } void View::scroll(bool right, bool lots, bool e) { sv_frame_t delta; if (lots) { delta = (getEndFrame() - getStartFrame()) / 2; } else { delta = (getEndFrame() - getStartFrame()) / 20; } if (right) delta = -delta; #ifdef DEBUG_VIEW SVCERR << "View::scroll(" << right << ", " << lots << ", " << e << "): " << "delta = " << delta << ", m_centreFrame = " << m_centreFrame << endl; #endif if (m_centreFrame < delta) { setCentreFrame(0, e); } else if (m_centreFrame - delta >= getModelsEndFrame()) { setCentreFrame(getModelsEndFrame(), e); } else { setCentreFrame(m_centreFrame - delta, e); } } void View::cancelClicked() { QPushButton *cancel = qobject_cast<QPushButton *>(sender()); if (!cancel) return; for (ProgressMap::iterator i = m_progressBars.begin(); i != m_progressBars.end(); ++i) { if (i->second.cancel == cancel) { Layer *layer = i->first; Model *model = layer->getModel(); if (model) model->abandon(); } } } void View::checkProgress(void *object) { if (!m_showProgress) return; int ph = height(); for (ProgressMap::iterator i = m_progressBars.begin(); i != m_progressBars.end(); ++i) { QProgressBar *pb = i->second.bar; QPushButton *cancel = i->second.cancel; if (i->first == object) { // The timer is used to test for stalls. If the progress // bar does not get updated for some length of time, the // timer prompts it to go back into "indeterminate" mode QTimer *timer = i->second.checkTimer; int completion = i->first->getCompletion(this); QString text = i->first->getPropertyContainerName(); QString error = i->first->getError(this); if (error != "" && error != m_lastError) { QMessageBox::critical(this, tr("Layer rendering error"), error); m_lastError = error; } Model *model = i->first->getModel(); RangeSummarisableTimeValueModel *wfm = dynamic_cast<RangeSummarisableTimeValueModel *>(model); if (completion > 0) { pb->setMaximum(100); // was 0, for indeterminate start } if (completion >= 100) { //!!! if (wfm || (model && (wfm = dynamic_cast<RangeSummarisableTimeValueModel *> (model->getSourceModel())))) { completion = wfm->getAlignmentCompletion(); // SVDEBUG << "View::checkProgress: Alignment completion = " << completion << endl; if (completion < 100) { text = tr("Alignment"); } } } else if (wfm) { update(); // ensure duration &c gets updated } if (completion >= 100) { pb->hide(); cancel->hide(); timer->stop(); } else { // cerr << "progress = " << completion << endl; if (!pb->isVisible()) { i->second.lastCheck = 0; timer->setInterval(2000); timer->start(); } int scaled20 = ViewManager::scalePixelSize(20); cancel->move(0, ph - pb->height()/2 - scaled20/2); cancel->show(); pb->setValue(completion); pb->move(scaled20, ph - pb->height()); pb->show(); pb->update(); ph -= pb->height(); } } else { if (pb->isVisible()) { ph -= pb->height(); } } } } void View::progressCheckStalledTimerElapsed() { QObject *s = sender(); QTimer *t = qobject_cast<QTimer *>(s); if (!t) return; for (ProgressMap::iterator i = m_progressBars.begin(); i != m_progressBars.end(); ++i) { if (i->second.checkTimer == t) { int value = i->second.bar->value(); if (value > 0 && value == i->second.lastCheck) { i->second.bar->setMaximum(0); // indeterminate } i->second.lastCheck = value; return; } } } int View::getProgressBarWidth() const { for (ProgressMap::const_iterator i = m_progressBars.begin(); i != m_progressBars.end(); ++i) { if (i->second.bar && i->second.bar->isVisible()) { return i->second.bar->width(); } } return 0; } void View::setPaintFont(QPainter &paint) { int scaleFactor = 1; int dpratio = effectiveDevicePixelRatio(); if (dpratio > 1) { QPaintDevice *dev = paint.device(); if (dynamic_cast<QPixmap *>(dev) || dynamic_cast<QImage *>(dev)) { scaleFactor = dpratio; } } QFont font(paint.font()); font.setPointSize(Preferences::getInstance()->getViewFontSize() * scaleFactor); paint.setFont(font); } QRect View::getPaintRect() const { return rect(); } void View::paintEvent(QPaintEvent *e) { // Profiler prof("View::paintEvent", false); // cerr << "View::paintEvent: centre frame is " << m_centreFrame << endl; if (m_layerStack.empty()) { QFrame::paintEvent(e); return; } // ensure our constraints are met m_zoomLevel = getZoomConstraintLevel (m_zoomLevel, ZoomConstraint::RoundNearest); // We have a cache, which retains the state of scrollable (back) // layers from one paint to the next, and a buffer, which we paint // onto before copying directly to the widget. Both are at scaled // resolution (e.g. 2x on a pixel-doubled display), whereas the // paint event always comes in at formal (1x) resolution. // If we touch the cache, we always leave it in a valid state // across its whole extent. When another method invalidates the // cache, it does so by setting m_cacheValid false, so if that // flag is true on entry, then the cache is valid across its whole // extent - although it may be valid for a different centre frame, // zoom level, or view size from those now in effect. // Our process goes: // // 1. Check whether we have any scrollable (cacheable) layers. If // we don't, then invalidate and ignore the cache and go to // step 5. Otherwise: // // 2. Check the cache, scroll as necessary, identify any area that // needs to be refreshed (this might be the whole cache). // // 3. Paint to cache the area that needs to be refreshed, from the // stack of scrollable layers. // // 4. Paint to buffer from cache: if there are no non-cached areas // or selections and the cache has not scrolled, then paint the // union of the area of cache that has changed and the area // that the paint event reported as exposed; otherwise paint // the whole. // // 5. Paint the exposed area to the buffer from the cache plus all // the layers that haven't been cached, plus selections etc. // // 6. Paint the exposed rect from the buffer. // // Note that all rects except the target for the final step are at // cache (scaled, 2x as applicable) resolution. int dpratio = effectiveDevicePixelRatio(); QRect requestedPaintArea(scaledRect(rect(), dpratio)); if (e) { // cut down to only the area actually exposed requestedPaintArea &= scaledRect(e->rect(), dpratio); } // If not all layers are scrollable, but some of the back layers // are, we should store only those in the cache. bool layersChanged = false; LayerList scrollables = getScrollableBackLayers(true, layersChanged); LayerList nonScrollables = getNonScrollableFrontLayers(true, layersChanged); #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View(" << this << ")::paintEvent: have " << scrollables.size() << " scrollable back layers and " << nonScrollables.size() << " non-scrollable front layers" << endl; #endif if (layersChanged || scrollables.empty()) { m_cacheValid = false; } QRect wholeArea(scaledRect(rect(), dpratio)); QSize wholeSize(scaledSize(size(), dpratio)); if (!m_buffer || wholeSize != m_buffer->size()) { delete m_buffer; m_buffer = new QPixmap(wholeSize); } bool shouldUseCache = false; bool shouldRepaintCache = false; QRect cacheAreaToRepaint; static HitCount count("View cache"); if (!scrollables.empty()) { shouldUseCache = true; shouldRepaintCache = true; cacheAreaToRepaint = wholeArea; #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View(" << this << "): cache " << m_cache << ", cache zoom " << m_cacheZoomLevel << ", zoom " << m_zoomLevel << endl; #endif using namespace std::rel_ops; if (!m_cacheValid || !m_cache || m_cacheZoomLevel != m_zoomLevel || m_cache->size() != wholeSize) { // cache is not valid at all if (requestedPaintArea.width() < wholeSize.width() / 10) { m_cacheValid = false; shouldUseCache = false; shouldRepaintCache = false; #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View(" << this << ")::paintEvent: cache is invalid but only small area requested, will repaint directly instead" << endl; #endif } else { if (!m_cache || m_cache->size() != wholeSize) { delete m_cache; m_cache = new QPixmap(wholeSize); } #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View(" << this << ")::paintEvent: cache is invalid, will repaint whole" << endl; #endif } count.miss(); } else if (m_cacheCentreFrame != m_centreFrame) { int dx = dpratio * (getXForFrame(m_cacheCentreFrame) - getXForFrame(m_centreFrame)); if (dx > -m_cache->width() && dx < m_cache->width()) { m_cache->scroll(dx, 0, m_cache->rect(), 0); if (dx < 0) { cacheAreaToRepaint = QRect(m_cache->width() + dx, 0, -dx, m_cache->height()); } else { cacheAreaToRepaint = QRect(0, 0, dx, m_cache->height()); } count.partial(); #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View(" << this << ")::paintEvent: scrolled cache by " << dx << endl; #endif } else { count.miss(); #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View(" << this << ")::paintEvent: scrolling too far" << endl; #endif } } else { #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View(" << this << ")::paintEvent: cache is good" << endl; #endif count.hit(); shouldRepaintCache = false; } } #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "View(" << this << ")::paintEvent: m_cacheValid = " << m_cacheValid << ", shouldUseCache = " << shouldUseCache << ", shouldRepaintCache = " << shouldRepaintCache << ", cacheAreaToRepaint = " << cacheAreaToRepaint.x() << "," << cacheAreaToRepaint.y() << " " << cacheAreaToRepaint.width() << "x" << cacheAreaToRepaint.height() << endl; #endif if (shouldRepaintCache && !shouldUseCache) { // If we are repainting the cache, then we paint the // scrollables only to the cache, not to the buffer. So if // shouldUseCache is also false, then the scrollables can't // appear because they will only be on the cache throw std::logic_error("ERROR: shouldRepaintCache is true, but shouldUseCache is false: this can't lead to the correct result"); } // Scrollable (cacheable) items first. If we are repainting the // cache, then we paint these to the cache; otherwise straight to // the buffer. ViewProxy proxy(this, dpratio); QRect areaToPaint; QPainter paint; if (shouldRepaintCache) { paint.begin(m_cache); areaToPaint = cacheAreaToRepaint; } else { paint.begin(m_buffer); areaToPaint = requestedPaintArea; } setPaintFont(paint); paint.setClipRect(areaToPaint); paint.setPen(getBackground()); paint.setBrush(getBackground()); paint.drawRect(areaToPaint); paint.setPen(getForeground()); paint.setBrush(Qt::NoBrush); for (LayerList::iterator i = scrollables.begin(); i != scrollables.end(); ++i) { paint.setRenderHint(QPainter::Antialiasing, false); paint.save(); #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "Painting scrollable layer " << *i << " using proxy with shouldRepaintCache = " << shouldRepaintCache << ", dpratio = " << dpratio << ", areaToPaint = " << areaToPaint.x() << "," << areaToPaint.y() << " " << areaToPaint.width() << "x" << areaToPaint.height() << endl; #endif (*i)->paint(&proxy, paint, areaToPaint); paint.restore(); } paint.end(); if (shouldRepaintCache) { // and now we have m_cacheValid = true; m_cacheCentreFrame = m_centreFrame; m_cacheZoomLevel = m_zoomLevel; } if (shouldUseCache) { paint.begin(m_buffer); paint.drawPixmap(requestedPaintArea, *m_cache, requestedPaintArea); paint.end(); } // Now non-cacheable items. paint.begin(m_buffer); paint.setClipRect(requestedPaintArea); setPaintFont(paint); if (scrollables.empty()) { paint.setPen(getBackground()); paint.setBrush(getBackground()); paint.drawRect(requestedPaintArea); } paint.setPen(getForeground()); paint.setBrush(Qt::NoBrush); for (LayerList::iterator i = nonScrollables.begin(); i != nonScrollables.end(); ++i) { // Profiler profiler2("View::paintEvent non-cacheable"); #ifdef DEBUG_VIEW_WIDGET_PAINT cerr << "Painting non-scrollable layer " << *i << " without proxy with shouldRepaintCache = " << shouldRepaintCache << ", dpratio = " << dpratio << ", requestedPaintArea = " << requestedPaintArea.x() << "," << requestedPaintArea.y() << " " << requestedPaintArea.width() << "x" << requestedPaintArea.height() << endl; #endif (*i)->paint(&proxy, paint, requestedPaintArea); } paint.end(); // Now paint to widget from buffer: target rects from here on, // unlike all the preceding, are at formal (1x) resolution paint.begin(this); setPaintFont(paint); if (e) paint.setClipRect(e->rect()); QRect finalPaintRect = e ? e->rect() : rect(); paint.drawPixmap(finalPaintRect, *m_buffer, scaledRect(finalPaintRect, dpratio)); drawSelections(paint); drawPlayPointer(paint); paint.end(); QFrame::paintEvent(e); } void View::drawSelections(QPainter &paint) { if (!hasTopLayerTimeXAxis()) return; MultiSelection::SelectionList selections; if (m_manager) { selections = m_manager->getSelections(); if (m_manager->haveInProgressSelection()) { bool exclusive; Selection inProgressSelection = m_manager->getInProgressSelection(exclusive); if (exclusive) selections.clear(); selections.insert(inProgressSelection); } } paint.save(); bool translucent = !areLayerColoursSignificant(); if (translucent) { paint.setBrush(QColor(150, 150, 255, 80)); } else { paint.setBrush(Qt::NoBrush); } sv_samplerate_t sampleRate = getModelsSampleRate(); QPoint localPos; sv_frame_t illuminateFrame = -1; bool closeToLeft, closeToRight; if (shouldIlluminateLocalSelection(localPos, closeToLeft, closeToRight)) { illuminateFrame = getFrameForX(localPos.x()); } const QFontMetrics &metrics = paint.fontMetrics(); for (MultiSelection::SelectionList::iterator i = selections.begin(); i != selections.end(); ++i) { int p0 = getXForFrame(alignFromReference(i->getStartFrame())); int p1 = getXForFrame(alignFromReference(i->getEndFrame())); if (p1 < 0 || p0 > width()) continue; #ifdef DEBUG_VIEW_WIDGET_PAINT SVDEBUG << "View::drawSelections: " << p0 << ",-1 [" << (p1-p0) << "x" << (height()+1) << "]" << endl; #endif bool illuminateThis = (illuminateFrame >= 0 && i->contains(illuminateFrame)); double h = height(); double penWidth = PaintAssistant::scalePenWidth(1.0); double half = penWidth/2.0; paint.setPen(QPen(QColor(150, 150, 255), penWidth)); if (translucent && shouldLabelSelections()) { paint.drawRect(QRectF(p0, -penWidth, p1 - p0, h + 2*penWidth)); } else { // Make the top & bottom lines of the box visible if we // are lacking some of the other visual cues. There's no // particular logic to this, it's just a question of what // I happen to think looks nice. paint.drawRect(QRectF(p0, half, p1 - p0, h - penWidth)); } if (illuminateThis) { paint.save(); penWidth = PaintAssistant::scalePenWidth(2.0); half = penWidth/2.0; paint.setPen(QPen(getForeground(), penWidth)); if (closeToLeft) { paint.drawLine(QLineF(p0, half, p1, half)); paint.drawLine(QLineF(p0, half, p0, h - half)); paint.drawLine(QLineF(p0, h - half, p1, h - half)); } else if (closeToRight) { paint.drawLine(QLineF(p0, half, p1, half)); paint.drawLine(QLineF(p1, half, p1, h - half)); paint.drawLine(QLineF(p0, h - half, p1, h - half)); } else { paint.setBrush(Qt::NoBrush); paint.drawRect(QRectF(p0, half, p1 - p0, h - penWidth)); } paint.restore(); } if (sampleRate && shouldLabelSelections() && m_manager && m_manager->shouldShowSelectionExtents()) { QString startText = QString("%1 / %2") .arg(QString::fromStdString (RealTime::frame2RealTime (i->getStartFrame(), sampleRate).toText(true))) .arg(i->getStartFrame()); QString endText = QString(" %1 / %2") .arg(QString::fromStdString (RealTime::frame2RealTime (i->getEndFrame(), sampleRate).toText(true))) .arg(i->getEndFrame()); QString durationText = QString("(%1 / %2) ") .arg(QString::fromStdString (RealTime::frame2RealTime (i->getEndFrame() - i->getStartFrame(), sampleRate) .toText(true))) .arg(i->getEndFrame() - i->getStartFrame()); int sw = metrics.width(startText), ew = metrics.width(endText), dw = metrics.width(durationText); int sy = metrics.ascent() + metrics.height() + 4; int ey = sy; int dy = sy + metrics.height(); int sx = p0 + 2; int ex = sx; int dx = sx; bool durationBothEnds = true; if (sw + ew > (p1 - p0)) { ey += metrics.height(); dy += metrics.height(); durationBothEnds = false; } if (ew < (p1 - p0)) { ex = p1 - 2 - ew; } if (dw < (p1 - p0)) { dx = p1 - 2 - dw; } PaintAssistant::drawVisibleText(this, paint, sx, sy, startText, PaintAssistant::OutlinedText); PaintAssistant::drawVisibleText(this, paint, ex, ey, endText, PaintAssistant::OutlinedText); PaintAssistant::drawVisibleText(this, paint, dx, dy, durationText, PaintAssistant::OutlinedText); if (durationBothEnds) { PaintAssistant::drawVisibleText(this, paint, sx, dy, durationText, PaintAssistant::OutlinedText); } } } paint.restore(); } void View::drawPlayPointer(QPainter &paint) { bool showPlayPointer = true; if (m_followPlay == PlaybackScrollContinuous) { showPlayPointer = false; } else if (m_playPointerFrame <= getStartFrame() || m_playPointerFrame >= getEndFrame()) { showPlayPointer = false; } else if (m_manager && !m_manager->isPlaying()) { if (m_playPointerFrame == getCentreFrame() && m_manager->shouldShowCentreLine() && m_followPlay != PlaybackIgnore) { // Don't show the play pointer when it is redundant with // the centre line showPlayPointer = false; } } if (showPlayPointer) { int playx = getXForFrame(m_playPointerFrame); paint.setPen(getForeground()); paint.drawLine(playx - 1, 0, playx - 1, height() - 1); paint.drawLine(playx + 1, 0, playx + 1, height() - 1); paint.drawPoint(playx, 0); paint.drawPoint(playx, height() - 1); paint.setPen(getBackground()); paint.drawLine(playx, 1, playx, height() - 2); } } void View::drawMeasurementRect(QPainter &paint, const Layer *topLayer, QRect r, bool focus) const { // SVDEBUG << "View::drawMeasurementRect(" << r.x() << "," << r.y() << " " // << r.width() << "x" << r.height() << ")" << endl; if (r.x() + r.width() < 0 || r.x() >= width()) return; if (r.width() != 0 || r.height() != 0) { paint.save(); if (focus) { paint.setPen(Qt::NoPen); QColor brushColour(Qt::black); brushColour.setAlpha(hasLightBackground() ? 15 : 40); paint.setBrush(brushColour); if (r.x() > 0) { paint.drawRect(0, 0, r.x(), height()); } if (r.x() + r.width() < width()) { paint.drawRect(r.x() + r.width(), 0, width()-r.x()-r.width(), height()); } if (r.y() > 0) { paint.drawRect(r.x(), 0, r.width(), r.y()); } if (r.y() + r.height() < height()) { paint.drawRect(r.x(), r.y() + r.height(), r.width(), height()-r.y()-r.height()); } paint.setBrush(Qt::NoBrush); } paint.setPen(Qt::green); paint.drawRect(r); paint.restore(); } else { paint.save(); paint.setPen(Qt::green); paint.drawPoint(r.x(), r.y()); paint.restore(); } if (!focus) return; paint.save(); QFont fn = paint.font(); if (fn.pointSize() > 8) { fn.setPointSize(fn.pointSize() - 1); paint.setFont(fn); } int fontHeight = paint.fontMetrics().height(); int fontAscent = paint.fontMetrics().ascent(); double v0, v1; QString u0, u1; bool b0 = false, b1 = false; QString axs, ays, bxs, bys, dxs, dys; int axx, axy, bxx, bxy, dxx, dxy; int aw = 0, bw = 0, dw = 0; int labelCount = 0; // top-left point, x-coord if ((b0 = topLayer->getXScaleValue(this, r.x(), v0, u0))) { axs = QString("%1 %2").arg(v0).arg(u0); if (u0 == "Hz" && Pitch::isFrequencyInMidiRange(v0)) { axs = QString("%1 (%2)").arg(axs) .arg(Pitch::getPitchLabelForFrequency(v0)); } aw = paint.fontMetrics().width(axs); ++labelCount; } // bottom-right point, x-coord if (r.width() > 0) { if ((b1 = topLayer->getXScaleValue(this, r.x() + r.width(), v1, u1))) { bxs = QString("%1 %2").arg(v1).arg(u1); if (u1 == "Hz" && Pitch::isFrequencyInMidiRange(v1)) { bxs = QString("%1 (%2)").arg(bxs) .arg(Pitch::getPitchLabelForFrequency(v1)); } bw = paint.fontMetrics().width(bxs); } } // dimension, width if (b0 && b1 && v1 != v0 && u0 == u1) { dxs = QString("[%1 %2]").arg(fabs(v1 - v0)).arg(u1); dw = paint.fontMetrics().width(dxs); } b0 = false; b1 = false; // top-left point, y-coord if ((b0 = topLayer->getYScaleValue(this, r.y(), v0, u0))) { ays = QString("%1 %2").arg(v0).arg(u0); if (u0 == "Hz" && Pitch::isFrequencyInMidiRange(v0)) { ays = QString("%1 (%2)").arg(ays) .arg(Pitch::getPitchLabelForFrequency(v0)); } aw = std::max(aw, paint.fontMetrics().width(ays)); ++labelCount; } // bottom-right point, y-coord if (r.height() > 0) { if ((b1 = topLayer->getYScaleValue(this, r.y() + r.height(), v1, u1))) { bys = QString("%1 %2").arg(v1).arg(u1); if (u1 == "Hz" && Pitch::isFrequencyInMidiRange(v1)) { bys = QString("%1 (%2)").arg(bys) .arg(Pitch::getPitchLabelForFrequency(v1)); } bw = std::max(bw, paint.fontMetrics().width(bys)); } } bool bd = false; double dy = 0.f; QString du; // dimension, height if ((bd = topLayer->getYScaleDifference(this, r.y(), r.y() + r.height(), dy, du)) && dy != 0) { if (du != "") { if (du == "Hz") { int semis; double cents; semis = Pitch::getPitchForFrequencyDifference(v0, v1, ¢s); dys = QString("[%1 %2 (%3)]") .arg(dy).arg(du) .arg(Pitch::getLabelForPitchRange(semis, cents)); } else { dys = QString("[%1 %2]").arg(dy).arg(du); } } else { dys = QString("[%1]").arg(dy); } dw = std::max(dw, paint.fontMetrics().width(dys)); } int mw = r.width(); int mh = r.height(); bool edgeLabelsInside = false; bool sizeLabelsInside = false; if (mw < std::max(aw, std::max(bw, dw)) + 4) { // defaults stand } else if (mw < aw + bw + 4) { if (mh > fontHeight * labelCount * 3 + 4) { edgeLabelsInside = true; sizeLabelsInside = true; } else if (mh > fontHeight * labelCount * 2 + 4) { edgeLabelsInside = true; } } else if (mw < aw + bw + dw + 4) { if (mh > fontHeight * labelCount * 3 + 4) { edgeLabelsInside = true; sizeLabelsInside = true; } else if (mh > fontHeight * labelCount + 4) { edgeLabelsInside = true; } } else { if (mh > fontHeight * labelCount + 4) { edgeLabelsInside = true; sizeLabelsInside = true; } } if (edgeLabelsInside) { axx = r.x() + 2; axy = r.y() + fontAscent + 2; bxx = r.x() + r.width() - bw - 2; bxy = r.y() + r.height() - (labelCount-1) * fontHeight - 2; } else { axx = r.x() - aw - 2; axy = r.y() + fontAscent; bxx = r.x() + r.width() + 2; bxy = r.y() + r.height() - (labelCount-1) * fontHeight; } dxx = r.width()/2 + r.x() - dw/2; if (sizeLabelsInside) { dxy = r.height()/2 + r.y() - (labelCount * fontHeight)/2 + fontAscent; } else { dxy = r.y() + r.height() + fontAscent + 2; } if (axs != "") { PaintAssistant::drawVisibleText(this, paint, axx, axy, axs, PaintAssistant::OutlinedText); axy += fontHeight; } if (ays != "") { PaintAssistant::drawVisibleText(this, paint, axx, axy, ays, PaintAssistant::OutlinedText); axy += fontHeight; } if (bxs != "") { PaintAssistant::drawVisibleText(this, paint, bxx, bxy, bxs, PaintAssistant::OutlinedText); bxy += fontHeight; } if (bys != "") { PaintAssistant::drawVisibleText(this, paint, bxx, bxy, bys, PaintAssistant::OutlinedText); bxy += fontHeight; } if (dxs != "") { PaintAssistant::drawVisibleText(this, paint, dxx, dxy, dxs, PaintAssistant::OutlinedText); dxy += fontHeight; } if (dys != "") { PaintAssistant::drawVisibleText(this, paint, dxx, dxy, dys, PaintAssistant::OutlinedText); dxy += fontHeight; } paint.restore(); } bool View::render(QPainter &paint, int xorigin, sv_frame_t f0, sv_frame_t f1) { int x0 = int(round(m_zoomLevel.framesToPixels(double(f0)))); int x1 = int(round(m_zoomLevel.framesToPixels(double(f1)))); int w = x1 - x0; sv_frame_t origCentreFrame = m_centreFrame; bool someLayersIncomplete = false; for (LayerList::iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { int c = (*i)->getCompletion(this); if (c < 100) { someLayersIncomplete = true; break; } } if (someLayersIncomplete) { QProgressDialog progress(tr("Waiting for layers to be ready..."), tr("Cancel"), 0, 100, this); int layerCompletion = 0; while (layerCompletion < 100) { for (LayerList::iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { int c = (*i)->getCompletion(this); if (i == m_layerStack.begin() || c < layerCompletion) { layerCompletion = c; } } if (layerCompletion >= 100) break; progress.setValue(layerCompletion); qApp->processEvents(); if (progress.wasCanceled()) { update(); return false; } usleep(50000); } } QProgressDialog progress(tr("Rendering image..."), tr("Cancel"), 0, w / width(), this); for (int x = 0; x < w; x += width()) { progress.setValue(x / width()); qApp->processEvents(); if (progress.wasCanceled()) { m_centreFrame = origCentreFrame; update(); return false; } m_centreFrame = f0 + sv_frame_t(round(m_zoomLevel.pixelsToFrames (x + width()/2))); QRect chunk(0, 0, width(), height()); paint.setPen(getBackground()); paint.setBrush(getBackground()); paint.drawRect(QRect(xorigin + x, 0, width(), height())); paint.setPen(getForeground()); paint.setBrush(Qt::NoBrush); for (LayerList::iterator i = m_layerStack.begin(); i != m_layerStack.end(); ++i) { if (!((*i)->isLayerDormant(this))){ paint.setRenderHint(QPainter::Antialiasing, false); paint.save(); paint.translate(xorigin + x, 0); cerr << "Centre frame now: " << m_centreFrame << " drawing to " << chunk.x() + x + xorigin << ", " << chunk.width() << endl; (*i)->setSynchronousPainting(true); (*i)->paint(this, paint, chunk); (*i)->setSynchronousPainting(false); paint.restore(); } } } m_centreFrame = origCentreFrame; update(); return true; } QImage * View::renderToNewImage() { sv_frame_t f0 = getModelsStartFrame(); sv_frame_t f1 = getModelsEndFrame(); return renderPartToNewImage(f0, f1); } QImage * View::renderPartToNewImage(sv_frame_t f0, sv_frame_t f1) { int x0 = int(round(getZoomLevel().framesToPixels(double(f0)))); int x1 = int(round(getZoomLevel().framesToPixels(double(f1)))); QImage *image = new QImage(x1 - x0, height(), QImage::Format_RGB32); QPainter *paint = new QPainter(image); if (!render(*paint, 0, f0, f1)) { delete paint; delete image; return 0; } else { delete paint; return image; } } QSize View::getRenderedImageSize() { sv_frame_t f0 = getModelsStartFrame(); sv_frame_t f1 = getModelsEndFrame(); return getRenderedPartImageSize(f0, f1); } QSize View::getRenderedPartImageSize(sv_frame_t f0, sv_frame_t f1) { int x0 = int(round(getZoomLevel().framesToPixels(double(f0)))); int x1 = int(round(getZoomLevel().framesToPixels(double(f1)))); return QSize(x1 - x0, height()); } bool View::renderToSvgFile(QString filename) { sv_frame_t f0 = getModelsStartFrame(); sv_frame_t f1 = getModelsEndFrame(); return renderPartToSvgFile(filename, f0, f1); } bool View::renderPartToSvgFile(QString filename, sv_frame_t f0, sv_frame_t f1) { int x0 = int(round(getZoomLevel().framesToPixels(double(f0)))); int x1 = int(round(getZoomLevel().framesToPixels(double(f1)))); QSvgGenerator generator; generator.setFileName(filename); generator.setSize(QSize(x1 - x0, height())); generator.setViewBox(QRect(0, 0, x1 - x0, height())); generator.setTitle(tr("Exported image from %1") .arg(QApplication::applicationName())); QPainter paint; paint.begin(&generator); bool result = render(paint, 0, f0, f1); paint.end(); return result; } void View::toXml(QTextStream &stream, QString indent, QString extraAttributes) const { stream << indent; int classicZoomValue, deepZoomValue; if (m_zoomLevel.zone == ZoomLevel::FramesPerPixel) { classicZoomValue = m_zoomLevel.level; deepZoomValue = 1; } else { classicZoomValue = 1; deepZoomValue = m_zoomLevel.level; } stream << QString("<view " "centre=\"%1\" " "zoom=\"%2\" " "deepZoom=\"%3\" " "followPan=\"%4\" " "followZoom=\"%5\" " "tracking=\"%6\" " " %7>\n") .arg(m_centreFrame) .arg(classicZoomValue) .arg(deepZoomValue) .arg(m_followPan) .arg(m_followZoom) .arg(m_followPlay == PlaybackScrollContinuous ? "scroll" : m_followPlay == PlaybackScrollPageWithCentre ? "page" : m_followPlay == PlaybackScrollPage ? "daw" : "ignore") .arg(extraAttributes); for (int i = 0; i < (int)m_fixedOrderLayers.size(); ++i) { bool visible = !m_fixedOrderLayers[i]->isLayerDormant(this); m_fixedOrderLayers[i]->toBriefXml(stream, indent + " ", QString("visible=\"%1\"") .arg(visible ? "true" : "false")); } stream << indent + "</view>\n"; } ViewPropertyContainer::ViewPropertyContainer(View *v) : m_v(v) { // cerr << "ViewPropertyContainer: " << this << " is owned by View " << v << endl; connect(m_v, SIGNAL(propertyChanged(PropertyContainer::PropertyName)), this, SIGNAL(propertyChanged(PropertyContainer::PropertyName))); } ViewPropertyContainer::~ViewPropertyContainer() { }