Mercurial > hg > svgui
view view/AlignmentView.cpp @ 1550:e95cefd4aa81
Further replacements of QRect::right() with the right (arf) calculation
author | Chris Cannam |
---|---|
date | Thu, 31 Oct 2019 15:32:13 +0000 |
parents | 8145a9c4c253 |
children | 911330a28a7c |
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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 2006-2014 Chris Cannam and QMUL. 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 "AlignmentView.h" #include <QPainter> #include "data/model/SparseOneDimensionalModel.h" #include "layer/TimeInstantLayer.h" //#define DEBUG_ALIGNMENT_VIEW 1 using std::vector; using std::set; AlignmentView::AlignmentView(QWidget *w) : View(w, false), m_above(nullptr), m_below(nullptr) { setObjectName(tr("AlignmentView")); } void AlignmentView::keyFramesChanged() { #ifdef DEBUG_ALIGNMENT_VIEW SVCERR << "AlignmentView " << getId() << "::keyFramesChanged" << endl; #endif // This is just a notification that we need to rebuild it - so all // we do here is clear it, and it'll be rebuilt on demand later QMutexLocker locker(&m_keyFrameMutex); m_keyFrameMap.clear(); } void AlignmentView::globalCentreFrameChanged(sv_frame_t f) { View::globalCentreFrameChanged(f); update(); } void AlignmentView::viewCentreFrameChanged(View *v, sv_frame_t f) { View::viewCentreFrameChanged(v, f); if (v == m_above) { m_centreFrame = f; update(); } else if (v == m_below) { update(); } } void AlignmentView::viewManagerPlaybackFrameChanged(sv_frame_t) { update(); } void AlignmentView::viewAboveZoomLevelChanged(ZoomLevel level, bool) { m_zoomLevel = level; update(); } void AlignmentView::viewBelowZoomLevelChanged(ZoomLevel, bool) { update(); } void AlignmentView::setViewAbove(View *v) { if (m_above) { disconnect(m_above, nullptr, this, nullptr); } m_above = v; if (m_above) { connect(m_above, SIGNAL(zoomLevelChanged(ZoomLevel, bool)), this, SLOT(viewAboveZoomLevelChanged(ZoomLevel, bool))); connect(m_above, SIGNAL(propertyContainerAdded(PropertyContainer *)), this, SLOT(keyFramesChanged())); connect(m_above, SIGNAL(layerModelChanged()), this, SLOT(keyFramesChanged())); } keyFramesChanged(); } void AlignmentView::setViewBelow(View *v) { if (m_below) { disconnect(m_below, nullptr, this, nullptr); } m_below = v; if (m_below) { connect(m_below, SIGNAL(zoomLevelChanged(ZoomLevel, bool)), this, SLOT(viewBelowZoomLevelChanged(ZoomLevel, bool))); connect(m_below, SIGNAL(propertyContainerAdded(PropertyContainer *)), this, SLOT(keyFramesChanged())); connect(m_below, SIGNAL(layerModelChanged()), this, SLOT(keyFramesChanged())); } keyFramesChanged(); } void AlignmentView::paintEvent(QPaintEvent *) { if (m_above == nullptr || m_below == nullptr || !m_manager) return; #ifdef DEBUG_ALIGNMENT_VIEW SVCERR << "AlignmentView " << getId() << "::paintEvent" << endl; #endif bool darkPalette = false; if (m_manager) darkPalette = m_manager->getGlobalDarkBackground(); QColor fg, bg; if (darkPalette) { fg = Qt::gray; bg = Qt::black; } else { fg = Qt::black; bg = Qt::gray; } QPainter paint(this); paint.setPen(QPen(fg, 2)); paint.setBrush(Qt::NoBrush); paint.setRenderHint(QPainter::Antialiasing, true); paint.fillRect(rect(), bg); QMutexLocker locker(&m_keyFrameMutex); if (m_keyFrameMap.empty()) { reconnectModels(); buildKeyFrameMap(); } #ifdef DEBUG_ALIGNMENT_VIEW SVCERR << "AlignmentView " << getId() << "::paintEvent: painting " << m_keyFrameMap.size() << " mappings" << endl; #endif for (const auto &km: m_keyFrameMap) { sv_frame_t af = km.first; sv_frame_t bf = km.second; int ax = m_above->getXForFrame(af); int bx = m_below->getXForFrame(bf); if (ax >= 0 || ax < width() || bx >= 0 || bx < width()) { paint.drawLine(ax, 0, bx, height()); } } paint.end(); } void AlignmentView::reconnectModels() { vector<ModelId> toConnect { getSalientModel(m_above), getSalientModel(m_below) }; for (auto modelId: toConnect) { if (auto model = ModelById::get(modelId)) { auto referenceId = model->getAlignmentReference(); if (!referenceId.isNone()) { toConnect.push_back(referenceId); } } } for (auto modelId: toConnect) { if (auto model = ModelById::get(modelId)) { auto ptr = model.get(); disconnect(ptr, 0, this, 0); connect(ptr, SIGNAL(modelChanged(ModelId)), this, SLOT(keyFramesChanged())); connect(ptr, SIGNAL(completionChanged(ModelId)), this, SLOT(keyFramesChanged())); connect(ptr, SIGNAL(alignmentCompletionChanged(ModelId)), this, SLOT(keyFramesChanged())); } } } void AlignmentView::buildKeyFrameMap() { #ifdef DEBUG_ALIGNMENT_VIEW SVCERR << "AlignmentView " << getId() << "::buildKeyFrameMap" << endl; #endif sv_frame_t resolution = 1; set<sv_frame_t> keyFramesBelow; for (auto f: getKeyFrames(m_below, resolution)) { keyFramesBelow.insert(f); } vector<sv_frame_t> keyFrames = getKeyFrames(m_above, resolution); foreach (sv_frame_t f, keyFrames) { sv_frame_t rf = m_above->alignToReference(f); sv_frame_t bf = m_below->alignFromReference(rf); bool mappedSomething = false; if (resolution > 1) { if (keyFramesBelow.find(bf) == keyFramesBelow.end()) { sv_frame_t f1 = f + resolution; sv_frame_t rf1 = m_above->alignToReference(f1); sv_frame_t bf1 = m_below->alignFromReference(rf1); for (sv_frame_t probe = bf + 1; probe <= bf1; ++probe) { if (keyFramesBelow.find(probe) != keyFramesBelow.end()) { m_keyFrameMap.insert({ f, probe }); mappedSomething = true; } } } } if (!mappedSomething) { m_keyFrameMap.insert({ f, bf }); } } #ifdef DEBUG_ALIGNMENT_VIEW SVCERR << "AlignmentView " << getId() << "::buildKeyFrameMap: have " << m_keyFrameMap.size() << " mappings" << endl; #endif } vector<sv_frame_t> AlignmentView::getKeyFrames(View *view, sv_frame_t &resolution) { resolution = 1; if (!view) { return getDefaultKeyFrames(); } ModelId m = getSalientModel(view); auto model = ModelById::getAs<SparseOneDimensionalModel>(m); if (!model) { return getDefaultKeyFrames(); } resolution = model->getResolution(); vector<sv_frame_t> keyFrames; EventVector pp = model->getAllEvents(); for (EventVector::const_iterator pi = pp.begin(); pi != pp.end(); ++pi) { keyFrames.push_back(pi->getFrame()); } return keyFrames; } vector<sv_frame_t> AlignmentView::getDefaultKeyFrames() { vector<sv_frame_t> keyFrames; return keyFrames; #ifdef NOT_REALLY if (!m_above || !m_manager) return keyFrames; sv_samplerate_t rate = m_manager->getMainModelSampleRate(); if (rate == 0) return keyFrames; for (sv_frame_t f = m_above->getModelsStartFrame(); f <= m_above->getModelsEndFrame(); f += sv_frame_t(rate * 5 + 0.5)) { keyFrames.push_back(f); } return keyFrames; #endif } ModelId AlignmentView::getSalientModel(View *view) { ModelId m; // get the topmost such for (int i = 0; i < view->getLayerCount(); ++i) { if (qobject_cast<TimeInstantLayer *>(view->getLayer(i))) { ModelId mm = view->getLayer(i)->getModel(); if (ModelById::isa<SparseOneDimensionalModel>(mm)) { m = mm; } } } return m; }