Mercurial > hg > svgui
view layer/TimeValueLayer.cpp @ 31:fc802f7b112e
* Change SpectrogramLayer to use its own cache type instead of a QImage
* Some gcc-4.0 compile fixes
author | Chris Cannam |
---|---|
date | Tue, 14 Feb 2006 17:43:14 +0000 |
parents | 202d1dca67d2 |
children | c43f2c4f66f2 |
line wrap: on
line source
/* -*- c-basic-offset: 4 -*- vi:set ts=8 sts=4 sw=4: */ /* A waveform viewer and audio annotation editor. Chris Cannam, Queen Mary University of London, 2005-2006 This is experimental software. Not for distribution. */ #include "TimeValueLayer.h" #include "base/Model.h" #include "base/RealTime.h" #include "base/Profiler.h" #include "base/View.h" #include "model/SparseTimeValueModel.h" #include <QPainter> #include <QPainterPath> #include <QMouseEvent> #include <iostream> #include <cmath> TimeValueLayer::TimeValueLayer(View *w) : Layer(w), m_model(0), m_editing(false), m_originalPoint(0, 0.0, tr("New Point")), m_editingPoint(0, 0.0, tr("New Point")), m_editingCommand(0), m_colour(Qt::black), m_plotStyle(PlotConnectedPoints) { m_view->addLayer(this); } void TimeValueLayer::setModel(SparseTimeValueModel *model) { if (m_model == model) return; m_model = model; connect(m_model, SIGNAL(modelChanged()), this, SIGNAL(modelChanged())); connect(m_model, SIGNAL(modelChanged(size_t, size_t)), this, SIGNAL(modelChanged(size_t, size_t))); connect(m_model, SIGNAL(completionChanged()), this, SIGNAL(modelCompletionChanged())); std::cerr << "TimeValueLayer::setModel(" << model << ")" << std::endl; emit modelReplaced(); } Layer::PropertyList TimeValueLayer::getProperties() const { PropertyList list; list.push_back(tr("Colour")); list.push_back(tr("Plot Type")); return list; } Layer::PropertyType TimeValueLayer::getPropertyType(const PropertyName &name) const { return ValueProperty; } int TimeValueLayer::getPropertyRangeAndValue(const PropertyName &name, int *min, int *max) const { //!!! factor this colour handling stuff out into a colour manager class int deft = 0; if (name == tr("Colour")) { if (min) *min = 0; if (max) *max = 5; if (m_colour == Qt::black) deft = 0; else if (m_colour == Qt::darkRed) deft = 1; else if (m_colour == Qt::darkBlue) deft = 2; else if (m_colour == Qt::darkGreen) deft = 3; else if (m_colour == QColor(200, 50, 255)) deft = 4; else if (m_colour == QColor(255, 150, 50)) deft = 5; } else if (name == tr("Plot Type")) { if (min) *min = 0; if (max) *max = 5; deft = int(m_plotStyle); } else { deft = Layer::getPropertyRangeAndValue(name, min, max); } return deft; } QString TimeValueLayer::getPropertyValueLabel(const PropertyName &name, int value) const { if (name == tr("Colour")) { switch (value) { default: case 0: return tr("Black"); case 1: return tr("Red"); case 2: return tr("Blue"); case 3: return tr("Green"); case 4: return tr("Purple"); case 5: return tr("Orange"); } } else if (name == tr("Plot Type")) { switch (value) { default: case 0: return tr("Points"); case 1: return tr("Stems"); case 2: return tr("Connected Points"); case 3: return tr("Lines"); case 4: return tr("Curve"); case 5: return tr("Segmentation"); } } return tr("<unknown>"); } void TimeValueLayer::setProperty(const PropertyName &name, int value) { if (name == tr("Colour")) { switch (value) { default: case 0: setBaseColour(Qt::black); break; case 1: setBaseColour(Qt::darkRed); break; case 2: setBaseColour(Qt::darkBlue); break; case 3: setBaseColour(Qt::darkGreen); break; case 4: setBaseColour(QColor(200, 50, 255)); break; case 5: setBaseColour(QColor(255, 150, 50)); break; } } else if (name == tr("Plot Type")) { setPlotStyle(PlotStyle(value)); } } void TimeValueLayer::setBaseColour(QColor colour) { if (m_colour == colour) return; m_colour = colour; emit layerParametersChanged(); } void TimeValueLayer::setPlotStyle(PlotStyle style) { if (m_plotStyle == style) return; m_plotStyle = style; emit layerParametersChanged(); } bool TimeValueLayer::isLayerScrollable() const { // We don't illuminate sections in the line or curve modes, so // they're always scrollable if (m_plotStyle == PlotLines || m_plotStyle == PlotCurve) return true; QPoint discard; return !m_view->shouldIlluminateLocalFeatures(this, discard); } SparseTimeValueModel::PointList TimeValueLayer::getLocalPoints(int x) const { if (!m_model) return SparseTimeValueModel::PointList(); long frame = getFrameForX(x); SparseTimeValueModel::PointList onPoints = m_model->getPoints(frame); if (!onPoints.empty()) { return onPoints; } SparseTimeValueModel::PointList prevPoints = m_model->getPreviousPoints(frame); SparseTimeValueModel::PointList nextPoints = m_model->getNextPoints(frame); SparseTimeValueModel::PointList usePoints = prevPoints; if (prevPoints.empty()) { usePoints = nextPoints; } else if (prevPoints.begin()->frame < m_view->getStartFrame() && !(nextPoints.begin()->frame > m_view->getEndFrame())) { usePoints = nextPoints; } else if (nextPoints.begin()->frame - frame < frame - prevPoints.begin()->frame) { usePoints = nextPoints; } if (!usePoints.empty()) { int fuzz = 2; int px = getXForFrame(usePoints.begin()->frame); if ((px > x && px - x > fuzz) || (px < x && x - px > fuzz + 1)) { usePoints.clear(); } } return usePoints; } QString TimeValueLayer::getFeatureDescription(QPoint &pos) const { int x = pos.x(); if (!m_model || !m_model->getSampleRate()) return ""; SparseTimeValueModel::PointList points = getLocalPoints(x); if (points.empty()) { if (!m_model->isReady()) { return tr("In progress"); } else { return tr("No local points"); } } long useFrame = points.begin()->frame; RealTime rt = RealTime::frame2RealTime(useFrame, m_model->getSampleRate()); QString text; if (points.begin()->label == "") { text = QString(tr("Time:\t%1\nValue:\t%2\nNo label")) .arg(rt.toText(true).c_str()) .arg(points.begin()->value); } else { text = QString(tr("Time:\t%1\nValue:\t%2\nLabel:\t%3")) .arg(rt.toText(true).c_str()) .arg(points.begin()->value) .arg(points.begin()->label); } pos = QPoint(getXForFrame(useFrame), getYForValue(points.begin()->value)); return text; } bool TimeValueLayer::snapToFeatureFrame(int &frame, size_t &resolution, SnapType snap) const { if (!m_model) { return Layer::snapToFeatureFrame(frame, resolution, snap); } resolution = m_model->getResolution(); SparseTimeValueModel::PointList points; if (snap == SnapNeighbouring) { points = getLocalPoints(getXForFrame(frame)); if (points.empty()) return false; frame = points.begin()->frame; return true; } points = m_model->getPoints(frame, frame); int snapped = frame; bool found = false; for (SparseTimeValueModel::PointList::const_iterator i = points.begin(); i != points.end(); ++i) { if (snap == SnapRight) { if (i->frame > frame) { snapped = i->frame; found = true; break; } } else if (snap == SnapLeft) { if (i->frame <= frame) { snapped = i->frame; found = true; // don't break, as the next may be better } else { break; } } else { // nearest SparseTimeValueModel::PointList::const_iterator j = i; ++j; if (j == points.end()) { snapped = i->frame; found = true; break; } else if (j->frame >= frame) { if (j->frame - frame < frame - i->frame) { snapped = j->frame; } else { snapped = i->frame; } found = true; break; } } } frame = snapped; return found; } int TimeValueLayer::getYForValue(float value) const { float min = m_model->getValueMinimum(); float max = m_model->getValueMaximum(); if (max == min) max = min + 1.0; int h = m_view->height(); return int(h - ((value - min) * h) / (max - min)); } float TimeValueLayer::getValueForY(int y) const { float min = m_model->getValueMinimum(); float max = m_model->getValueMaximum(); if (max == min) max = min + 1.0; int h = m_view->height(); return min + (float(h - y) * float(max - min)) / h; } void TimeValueLayer::paint(QPainter &paint, QRect rect) const { if (!m_model || !m_model->isOK()) return; int sampleRate = m_model->getSampleRate(); if (!sampleRate) return; // Profiler profiler("TimeValueLayer::paint", true); int x0 = rect.left(), x1 = rect.right(); long frame0 = getFrameForX(x0); long frame1 = getFrameForX(x1); SparseTimeValueModel::PointList points(m_model->getPoints (frame0, frame1)); if (points.empty()) return; paint.setPen(m_colour); QColor brushColour(m_colour); brushColour.setAlpha(80); paint.setBrush(brushColour); // std::cerr << "TimeValueLayer::paint: resolution is " // << m_model->getResolution() << " frames" << std::endl; float min = m_model->getValueMinimum(); float max = m_model->getValueMaximum(); if (max == min) max = min + 1.0; int origin = int(nearbyint(m_view->height() - (-min * m_view->height()) / (max - min))); QPoint localPos; long illuminateFrame = -1; if (m_view->shouldIlluminateLocalFeatures(this, localPos)) { SparseTimeValueModel::PointList localPoints = getLocalPoints(localPos.x()); if (!localPoints.empty()) illuminateFrame = localPoints.begin()->frame; } int w = getXForFrame(frame0 + m_model->getResolution()) - getXForFrame(frame0); paint.save(); if (w > 1 && (m_plotStyle == PlotLines || m_plotStyle == PlotCurve)) { paint.setRenderHint(QPainter::Antialiasing, true); } QPainterPath path; for (SparseTimeValueModel::PointList::const_iterator i = points.begin(); i != points.end(); ++i) { const SparseTimeValueModel::Point &p(*i); int x = getXForFrame(p.frame); int y = getYForValue(p.value); if (w < 1) w = 1; paint.setPen(m_colour); if (m_plotStyle == PlotSegmentation) { int value = ((p.value - min) / (max - min)) * 255.999; QColor colour = QColor::fromHsv(256 - value, value / 2 + 128, value); paint.setBrush(QColor(colour.red(), colour.green(), colour.blue(), 120)); } else if (m_plotStyle == PlotLines || m_plotStyle == PlotCurve) { paint.setBrush(Qt::NoBrush); } else { paint.setBrush(brushColour); } if (m_plotStyle == PlotStems) { paint.setPen(brushColour); if (y < origin - 1) { paint.drawRect(x + w/2, y + 1, 1, origin - y); } else if (y > origin + 1) { paint.drawRect(x + w/2, origin, 1, y - origin - 1); } paint.setPen(m_colour); } if (illuminateFrame == p.frame) { //!!! aside from the problem of choosing a colour, it'd be //better to save the highlighted rects and draw them at //the end perhaps //!!! not equipped to illuminate the right section in line //or curve mode if (m_plotStyle != PlotCurve && m_plotStyle != PlotLines) { paint.setPen(Qt::black);//!!! if (m_plotStyle != PlotSegmentation) { paint.setBrush(Qt::black);//!!! } } } if (m_plotStyle != PlotLines && m_plotStyle != PlotCurve && m_plotStyle != PlotSegmentation) { paint.drawRect(x, y - 1, w, 2); } if (m_plotStyle == PlotConnectedPoints || m_plotStyle == PlotLines || m_plotStyle == PlotCurve) { SparseTimeValueModel::PointList::const_iterator j = i; ++j; if (j != points.end()) { const SparseTimeValueModel::Point &q(*j); int nx = getXForFrame(q.frame); int ny = getYForValue(q.value); if (m_plotStyle == PlotConnectedPoints) { paint.setPen(brushColour); paint.drawLine(x + w, y, nx, ny); } else if (m_plotStyle == PlotLines) { paint.drawLine(x + w/2, y, nx + w/2, ny); } else { if (path.isEmpty()) { path.moveTo(x + w/2, y); } if (nx - x > 5) { path.cubicTo(x + w, y, nx, ny, nx + w/2, ny); } else { path.lineTo(nx + w/2, ny); } } } } if (m_plotStyle == PlotSegmentation) { SparseTimeValueModel::PointList::const_iterator j = i; ++j; int nx; if (j != points.end()) { const SparseTimeValueModel::Point &q(*j); nx = getXForFrame(q.frame); } else { nx = getXForFrame(m_model->getEndFrame()); } if (nx <= x) continue; if (illuminateFrame != p.frame && (nx < x + 5 || x >= m_view->width() - 1)) { paint.setPen(Qt::NoPen); } paint.drawRect(x, -1, nx - x, m_view->height() + 1); } /// if (p.label != "") { /// paint.drawText(x + 5, y - paint.fontMetrics().height() + paint.fontMetrics().ascent(), p.label); /// } } if (m_plotStyle == PlotCurve && !path.isEmpty()) { paint.drawPath(path); } paint.restore(); // looks like save/restore doesn't deal with this: paint.setRenderHint(QPainter::Antialiasing, false); } void TimeValueLayer::drawStart(QMouseEvent *e) { std::cerr << "TimeValueLayer::drawStart(" << e->x() << "," << e->y() << ")" << std::endl; if (!m_model) return; long frame = getFrameForX(e->x()); if (frame < 0) frame = 0; frame = frame / m_model->getResolution() * m_model->getResolution(); float value = getValueForY(e->y()); m_editingPoint = SparseTimeValueModel::Point(frame, value, tr("New Point")); m_originalPoint = m_editingPoint; if (m_editingCommand) m_editingCommand->finish(); m_editingCommand = new SparseTimeValueModel::EditCommand(m_model, tr("Draw Point")); m_editingCommand->addPoint(m_editingPoint); m_editing = true; } void TimeValueLayer::drawDrag(QMouseEvent *e) { std::cerr << "TimeValueLayer::drawDrag(" << e->x() << "," << e->y() << ")" << std::endl; if (!m_model || !m_editing) return; long frame = getFrameForX(e->x()); if (frame < 0) frame = 0; frame = frame / m_model->getResolution() * m_model->getResolution(); float value = getValueForY(e->y()); m_editingCommand->deletePoint(m_editingPoint); m_editingPoint.frame = frame; m_editingPoint.value = value; m_editingCommand->addPoint(m_editingPoint); } void TimeValueLayer::drawEnd(QMouseEvent *e) { std::cerr << "TimeValueLayer::drawEnd(" << e->x() << "," << e->y() << ")" << std::endl; if (!m_model || !m_editing) return; m_editingCommand->finish(); m_editingCommand = 0; m_editing = false; } void TimeValueLayer::editStart(QMouseEvent *e) { std::cerr << "TimeValueLayer::editStart(" << e->x() << "," << e->y() << ")" << std::endl; if (!m_model) return; SparseTimeValueModel::PointList points = getLocalPoints(e->x()); if (points.empty()) return; m_editingPoint = *points.begin(); m_originalPoint = m_editingPoint; if (m_editingCommand) { m_editingCommand->finish(); m_editingCommand = 0; } m_editing = true; } void TimeValueLayer::editDrag(QMouseEvent *e) { std::cerr << "TimeValueLayer::editDrag(" << e->x() << "," << e->y() << ")" << std::endl; if (!m_model || !m_editing) return; long frame = getFrameForX(e->x()); if (frame < 0) frame = 0; frame = frame / m_model->getResolution() * m_model->getResolution(); float value = getValueForY(e->y()); if (!m_editingCommand) { m_editingCommand = new SparseTimeValueModel::EditCommand(m_model, tr("Drag Point")); } m_editingCommand->deletePoint(m_editingPoint); m_editingPoint.frame = frame; m_editingPoint.value = value; m_editingCommand->addPoint(m_editingPoint); } void TimeValueLayer::editEnd(QMouseEvent *e) { std::cerr << "TimeValueLayer::editEnd(" << e->x() << "," << e->y() << ")" << std::endl; if (!m_model || !m_editing) return; if (m_editingCommand) { QString newName = m_editingCommand->getName(); if (m_editingPoint.frame != m_originalPoint.frame) { if (m_editingPoint.value != m_originalPoint.value) { newName = tr("Edit Point"); } else { newName = tr("Relocate Point"); } } else { newName = tr("Change Point Value"); } m_editingCommand->setName(newName); m_editingCommand->finish(); } m_editingCommand = 0; m_editing = false; } QString TimeValueLayer::toXmlString(QString indent, QString extraAttributes) const { return Layer::toXmlString(indent, extraAttributes + QString(" colour=\"%1\" plotStyle=\"%2\"") .arg(encodeColour(m_colour)).arg(m_plotStyle)); } void TimeValueLayer::setProperties(const QXmlAttributes &attributes) { QString colourSpec = attributes.value("colour"); if (colourSpec != "") { QColor colour(colourSpec); if (colour.isValid()) { setBaseColour(QColor(colourSpec)); } } bool ok; PlotStyle style = (PlotStyle) attributes.value("plotStyle").toInt(&ok); if (ok) setPlotStyle(style); } #ifdef INCLUDE_MOCFILES #include "TimeValueLayer.moc.cpp" #endif