Mercurial > hg > svgui
view layer/SpectrumLayer.cpp @ 349:369a197737c7
* Various fixes to object lifetime management, particularly in the spectrum
layer and for notification of main model deletion.
The main purpose of this is to improve the behaviour of the spectrum, but I
think it may also help with #1840922 Various crashes in Layer Summary window.
| author | Chris Cannam |
|---|---|
| date | Wed, 23 Jan 2008 15:43:27 +0000 |
| parents | 8c3fb13ef11c |
| children | 3a55cd576334 |
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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 2006-2007 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 "SpectrumLayer.h" #include "data/model/FFTModel.h" #include "view/View.h" #include "base/AudioLevel.h" #include "base/Preferences.h" #include "base/RangeMapper.h" #include "base/Pitch.h" #include "base/ColourMapper.h" #include <QPainter> #include <QTextStream> SpectrumLayer::SpectrumLayer() : m_originModel(0), m_channel(-1), m_channelSet(false), m_windowSize(4096), m_windowType(HanningWindow), m_windowHopLevel(3), m_showPeaks(false), m_newFFTNeeded(true) { Preferences *prefs = Preferences::getInstance(); connect(prefs, SIGNAL(propertyChanged(PropertyContainer::PropertyName)), this, SLOT(preferenceChanged(PropertyContainer::PropertyName))); setWindowType(prefs->getWindowType()); setBinScale(LogBins); } SpectrumLayer::~SpectrumLayer() { Model *m = const_cast<Model *> (static_cast<const Model *>(m_sliceableModel)); m->aboutToDelete(); m_sliceableModel = 0; delete m; } void SpectrumLayer::setModel(DenseTimeValueModel *model) { std::cerr << "SpectrumLayer::setModel(" << model << ") from " << m_originModel << std::endl; if (m_originModel == model) return; m_originModel = model; m_newFFTNeeded = true; emit layerParametersChanged(); } void SpectrumLayer::setChannel(int channel) { std::cerr << "SpectrumLayer::setChannel(" << channel << ") from " << m_channel << std::endl; m_channelSet = true; if (m_channel == channel) return; m_channel = channel; m_newFFTNeeded = true; emit layerParametersChanged(); } void SpectrumLayer::setupFFT() { if (m_sliceableModel) { Model *m = const_cast<Model *> (static_cast<const Model *>(m_sliceableModel)); m->aboutToDelete(); setSliceableModel(0); delete m; } if (!m_originModel) { return; } FFTModel *newFFT = new FFTModel(m_originModel, m_channel, m_windowType, m_windowSize, getWindowIncrement(), m_windowSize, false, StorageAdviser::Criteria (StorageAdviser::SpeedCritical | StorageAdviser::FrequentLookupLikely)); setSliceableModel(newFFT); m_biasCurve.clear(); for (size_t i = 0; i < m_windowSize; ++i) { m_biasCurve.push_back(1.f / (float(m_windowSize)/2.f)); } newFFT->resume(); m_newFFTNeeded = false; } Layer::PropertyList SpectrumLayer::getProperties() const { PropertyList list = SliceLayer::getProperties(); list.push_back("Window Size"); list.push_back("Window Increment"); list.push_back("Show Peak Frequencies"); return list; } QString SpectrumLayer::getPropertyLabel(const PropertyName &name) const { if (name == "Window Size") return tr("Window Size"); if (name == "Window Increment") return tr("Window Overlap"); if (name == "Show Peak Frequencies") return tr("Show Peak Frequencies"); return SliceLayer::getPropertyLabel(name); } QString SpectrumLayer::getPropertyIconName(const PropertyName &name) const { if (name == "Show Peak Frequencies") return "show-peaks"; return SliceLayer::getPropertyIconName(name); } Layer::PropertyType SpectrumLayer::getPropertyType(const PropertyName &name) const { if (name == "Window Size") return ValueProperty; if (name == "Window Increment") return ValueProperty; if (name == "Show Peak Frequencies") return ToggleProperty; return SliceLayer::getPropertyType(name); } QString SpectrumLayer::getPropertyGroupName(const PropertyName &name) const { if (name == "Window Size" || name == "Window Increment") return tr("Window"); if (name == "Show Peak Frequencies") return tr("Plot Type"); return SliceLayer::getPropertyGroupName(name); } int SpectrumLayer::getPropertyRangeAndValue(const PropertyName &name, int *min, int *max, int *deflt) const { int val = 0; int garbage0, garbage1, garbage2; if (!min) min = &garbage0; if (!max) max = &garbage1; if (!deflt) deflt = &garbage2; if (name == "Window Size") { *min = 0; *max = 15; *deflt = 5; val = 0; int ws = m_windowSize; while (ws > 32) { ws >>= 1; val ++; } } else if (name == "Window Increment") { *min = 0; *max = 5; *deflt = 2; val = m_windowHopLevel; } else if (name == "Show Peak Frequencies") { return m_showPeaks ? 1 : 0; } else { val = SliceLayer::getPropertyRangeAndValue(name, min, max, deflt); } return val; } QString SpectrumLayer::getPropertyValueLabel(const PropertyName &name, int value) const { if (name == "Window Size") { return QString("%1").arg(32 << value); } if (name == "Window Increment") { switch (value) { default: case 0: return tr("None"); case 1: return tr("25 %"); case 2: return tr("50 %"); case 3: return tr("75 %"); case 4: return tr("87.5 %"); case 5: return tr("93.75 %"); } } return SliceLayer::getPropertyValueLabel(name, value); } RangeMapper * SpectrumLayer::getNewPropertyRangeMapper(const PropertyName &name) const { return SliceLayer::getNewPropertyRangeMapper(name); } void SpectrumLayer::setProperty(const PropertyName &name, int value) { if (name == "Window Size") { setWindowSize(32 << value); } else if (name == "Window Increment") { setWindowHopLevel(value); } else if (name == "Show Peak Frequencies") { setShowPeaks(value ? true : false); } else { SliceLayer::setProperty(name, value); } } void SpectrumLayer::setWindowSize(size_t ws) { if (m_windowSize == ws) return; m_windowSize = ws; m_newFFTNeeded = true; emit layerParametersChanged(); } void SpectrumLayer::setWindowHopLevel(size_t v) { if (m_windowHopLevel == v) return; m_windowHopLevel = v; m_newFFTNeeded = true; emit layerParametersChanged(); } void SpectrumLayer::setWindowType(WindowType w) { if (m_windowType == w) return; m_windowType = w; m_newFFTNeeded = true; emit layerParametersChanged(); } void SpectrumLayer::setShowPeaks(bool show) { if (m_showPeaks == show) return; m_showPeaks = show; emit layerParametersChanged(); } void SpectrumLayer::preferenceChanged(PropertyContainer::PropertyName name) { if (name == "Window Type") { setWindowType(Preferences::getInstance()->getWindowType()); return; } } bool SpectrumLayer::getValueExtents(float &, float &, bool &, QString &) const { return false; } float SpectrumLayer::getXForBin(int bin, int totalBins, float w) const { if (!m_sliceableModel) return SliceLayer::getXForBin(bin, totalBins, w); float sampleRate = m_sliceableModel->getSampleRate(); float binfreq = (sampleRate * bin) / (totalBins * 2); return getXForFrequency(binfreq, w); } int SpectrumLayer::getBinForX(float x, int totalBins, float w) const { if (!m_sliceableModel) return SliceLayer::getBinForX(x, totalBins, w); float sampleRate = m_sliceableModel->getSampleRate(); float binfreq = getFrequencyForX(x, w); return int((binfreq * totalBins * 2) / sampleRate); } float SpectrumLayer::getFrequencyForX(float x, float w) const { float freq = 0; if (!m_sliceableModel) return 0; int sampleRate = m_sliceableModel->getSampleRate(); float maxfreq = float(sampleRate) / 2; switch (m_binScale) { case LinearBins: freq = ((x * maxfreq) / w); break; case LogBins: freq = powf(10.f, (x * log10f(maxfreq)) / w); break; case InvertedLogBins: freq = maxfreq - powf(10.f, ((w - x) * log10f(maxfreq)) / w); break; } return freq; } float SpectrumLayer::getXForFrequency(float freq, float w) const { float x = 0; if (!m_sliceableModel) return x; int sampleRate = m_sliceableModel->getSampleRate(); float maxfreq = float(sampleRate) / 2; switch (m_binScale) { case LinearBins: x = (freq * w) / maxfreq; break; case LogBins: x = (log10f(freq) * w) / log10f(maxfreq); break; case InvertedLogBins: if (maxfreq == freq) x = w; else x = w - (log10f(maxfreq - freq) * w) / log10f(maxfreq); break; } return x; } bool SpectrumLayer::getXScaleValue(const View *v, int x, float &value, QString &unit) const { if (m_xorigins.find(v) == m_xorigins.end()) return false; int xorigin = m_xorigins.find(v)->second; value = getFrequencyForX(x - xorigin, v->width() - xorigin - 1); unit = "Hz"; return true; } bool SpectrumLayer::getYScaleValue(const View *v, int y, float &value, QString &unit) const { value = getValueForY(y, v); if (m_energyScale == dBScale || m_energyScale == MeterScale) { if (value > 0.f) { value = 10.f * log10f(value); if (value < m_threshold) value = m_threshold; } else value = m_threshold; unit = "dBV"; } else { unit = "V"; } return true; } bool SpectrumLayer::getYScaleDifference(const View *v, int y0, int y1, float &diff, QString &unit) const { bool rv = SliceLayer::getYScaleDifference(v, y0, y1, diff, unit); if (rv && (unit == "dBV")) unit = "dB"; return rv; } bool SpectrumLayer::getCrosshairExtents(View *v, QPainter &paint, QPoint cursorPos, std::vector<QRect> &extents) const { QRect vertical(cursorPos.x(), cursorPos.y(), 1, v->height() - cursorPos.y()); extents.push_back(vertical); QRect horizontal(0, cursorPos.y(), v->width(), 12); extents.push_back(horizontal); int hoffset = 2; if (m_binScale == LogBins) hoffset = 13; int sw = getVerticalScaleWidth(v, paint); QRect value(sw, cursorPos.y() - paint.fontMetrics().ascent() - 2, paint.fontMetrics().width("0.0000001 V") + 2, paint.fontMetrics().height()); extents.push_back(value); QRect log(sw, cursorPos.y() + 2, paint.fontMetrics().width("-80.000 dBV") + 2, paint.fontMetrics().height()); extents.push_back(log); QRect freq(cursorPos.x(), v->height() - paint.fontMetrics().height() - hoffset, paint.fontMetrics().width("123456 Hz") + 2, paint.fontMetrics().height()); extents.push_back(freq); int w(paint.fontMetrics().width("C#10+50c") + 2); QRect pitch(cursorPos.x() - w, v->height() - paint.fontMetrics().height() - hoffset, w, paint.fontMetrics().height()); extents.push_back(pitch); return true; } void SpectrumLayer::paintCrosshairs(View *v, QPainter &paint, QPoint cursorPos) const { if (!m_sliceableModel) return; paint.save(); QFont fn = paint.font(); if (fn.pointSize() > 8) { fn.setPointSize(fn.pointSize() - 1); paint.setFont(fn); } ColourMapper mapper(m_colourMap, 0, 1); paint.setPen(mapper.getContrastingColour()); int xorigin = m_xorigins[v]; int w = v->width() - xorigin - 1; paint.drawLine(xorigin, cursorPos.y(), v->width(), cursorPos.y()); paint.drawLine(cursorPos.x(), cursorPos.y(), cursorPos.x(), v->height()); float fundamental = getFrequencyForX(cursorPos.x() - xorigin, w); int hoffset = 2; if (m_binScale == LogBins) hoffset = 13; v->drawVisibleText(paint, cursorPos.x() + 2, v->height() - 2 - hoffset, QString("%1 Hz").arg(fundamental), View::OutlinedText); if (Pitch::isFrequencyInMidiRange(fundamental)) { QString pitchLabel = Pitch::getPitchLabelForFrequency(fundamental); v->drawVisibleText(paint, cursorPos.x() - paint.fontMetrics().width(pitchLabel) - 2, v->height() - 2 - hoffset, pitchLabel, View::OutlinedText); } float value = getValueForY(cursorPos.y(), v); float thresh = m_threshold; float db = thresh; if (value > 0.f) db = 10.f * log10f(value); if (db < thresh) db = thresh; v->drawVisibleText(paint, xorigin + 2, cursorPos.y() - 2, QString("%1 V").arg(value), View::OutlinedText); v->drawVisibleText(paint, xorigin + 2, cursorPos.y() + 2 + paint.fontMetrics().ascent(), QString("%1 dBV").arg(db), View::OutlinedText); int harmonic = 2; while (harmonic < 100) { float hx = lrintf(getXForFrequency(fundamental * harmonic, w)); hx += xorigin; if (hx < xorigin || hx > v->width()) break; int len = 7; if (harmonic % 2 == 0) { if (harmonic % 4 == 0) { len = 12; } else { len = 10; } } paint.drawLine(int(hx), cursorPos.y(), int(hx), cursorPos.y() + len); ++harmonic; } paint.restore(); } QString SpectrumLayer::getFeatureDescription(View *v, QPoint &p) const { if (!m_sliceableModel) return ""; int minbin = 0, maxbin = 0, range = 0; QString genericDesc = SliceLayer::getFeatureDescription (v, p, false, minbin, maxbin, range); if (genericDesc == "") return ""; float minvalue = 0.f; if (minbin < int(m_values.size())) minvalue = m_values[minbin]; float maxvalue = minvalue; if (maxbin < int(m_values.size())) maxvalue = m_values[maxbin]; if (minvalue > maxvalue) std::swap(minvalue, maxvalue); QString binstr; QString hzstr; int minfreq = lrintf((minbin * m_sliceableModel->getSampleRate()) / m_windowSize); int maxfreq = lrintf((std::max(maxbin, minbin+1) * m_sliceableModel->getSampleRate()) / m_windowSize); if (maxbin != minbin) { binstr = tr("%1 - %2").arg(minbin+1).arg(maxbin+1); } else { binstr = QString("%1").arg(minbin+1); } if (minfreq != maxfreq) { hzstr = tr("%1 - %2 Hz").arg(minfreq).arg(maxfreq); } else { hzstr = tr("%1 Hz").arg(minfreq); } QString valuestr; if (maxvalue != minvalue) { valuestr = tr("%1 - %2").arg(minvalue).arg(maxvalue); } else { valuestr = QString("%1").arg(minvalue); } QString dbstr; float mindb = AudioLevel::multiplier_to_dB(minvalue); float maxdb = AudioLevel::multiplier_to_dB(maxvalue); QString mindbstr; QString maxdbstr; if (mindb == AudioLevel::DB_FLOOR) { mindbstr = tr("-Inf"); } else { mindbstr = QString("%1").arg(lrintf(mindb)); } if (maxdb == AudioLevel::DB_FLOOR) { maxdbstr = tr("-Inf"); } else { maxdbstr = QString("%1").arg(lrintf(maxdb)); } if (lrintf(mindb) != lrintf(maxdb)) { dbstr = tr("%1 - %2").arg(mindbstr).arg(maxdbstr); } else { dbstr = tr("%1").arg(mindbstr); } QString description; if (range > int(m_sliceableModel->getResolution())) { description = tr("%1\nBin:\t%2 (%3)\n%4 value:\t%5\ndB:\t%6") .arg(genericDesc) .arg(binstr) .arg(hzstr) .arg(m_samplingMode == NearestSample ? tr("First") : m_samplingMode == SampleMean ? tr("Mean") : tr("Peak")) .arg(valuestr) .arg(dbstr); } else { description = tr("%1\nBin:\t%2 (%3)\nValue:\t%4\ndB:\t%5") .arg(genericDesc) .arg(binstr) .arg(hzstr) .arg(valuestr) .arg(dbstr); } return description; } void SpectrumLayer::paint(View *v, QPainter &paint, QRect rect) const { if (!m_originModel || !m_originModel->isOK() || !m_originModel->isReady()) { std::cerr << "SpectrumLayer::paint: no origin model" << std::endl; return; } if (m_newFFTNeeded) { std::cerr << "SpectrumLayer::paint: new FFT needed, calling setupFFT" << std::endl; const_cast<SpectrumLayer *>(this)->setupFFT(); //ugh } FFTModel *fft = dynamic_cast<FFTModel *> (const_cast<DenseThreeDimensionalModel *>(m_sliceableModel)); float thresh = (powf(10, -6) / m_gain) * (m_windowSize / 2.f); // -60dB adj int xorigin = getVerticalScaleWidth(v, paint) + 1; int w = v->width() - xorigin - 1; int pkh = 0; //!!! if (m_binScale == LogBins) { pkh = 10; //!!! } paint.save(); if (fft && m_showPeaks) { // draw peak lines size_t col = v->getCentreFrame() / fft->getResolution(); paint.save(); paint.setRenderHint(QPainter::Antialiasing, false); paint.setPen(QColor(160, 160, 160)); //!!! int peakminbin = 0; int peakmaxbin = fft->getHeight() - 1; float peakmaxfreq = Pitch::getFrequencyForPitch(128); peakmaxbin = ((peakmaxfreq * fft->getHeight() * 2) / fft->getSampleRate()); FFTModel::PeakSet peaks = fft->getPeakFrequencies (FFTModel::MajorPitchAdaptivePeaks, col, peakminbin, peakmaxbin); ColourMapper mapper(ColourMapper::BlackOnWhite, 0, 1); BiasCurve curve; getBiasCurve(curve); size_t cs = curve.size(); std::vector<float> values; for (size_t bin = 0; bin < fft->getHeight(); ++bin) { float value = m_sliceableModel->getValueAt(col, bin); if (bin < cs) value *= curve[bin]; values.push_back(value); } for (FFTModel::PeakSet::iterator i = peaks.begin(); i != peaks.end(); ++i) { size_t bin = i->first; // std::cerr << "bin = " << bin << ", thresh = " << thresh << ", value = " << fft->getMagnitudeAt(col, bin) << std::endl; if (!fft->isOverThreshold(col, bin, thresh)) continue; float freq = i->second; int x = lrintf(getXForFrequency(freq, w)); float norm = 0.f; float y = getYForValue(values[bin], v, norm); // don't need y, need norm paint.setPen(mapper.map(norm)); paint.drawLine(xorigin + x, 0, xorigin + x, v->height() - pkh - 1); } paint.restore(); } SliceLayer::paint(v, paint, rect); //!!! All of this stuff relating to depicting frequencies //(keyboard, crosshairs etc) should be applicable to any slice //layer whose model has a vertical scale unit of Hz. However, the //dense 3d model at the moment doesn't record its vertical scale //unit -- we need to fix that and hoist this code as appropriate. //Same really goes for any code in SpectrogramLayer that could be //relevant to Colour3DPlotLayer with unit Hz, but that's a bigger //proposition. // if (m_binScale == LogBins) { // int pkh = 10; int h = v->height(); // piano keyboard //!!! should be in a new paintHorizontalScale()? // nice to have a piano keyboard class, of course paint.drawLine(xorigin, h - pkh - 1, w + xorigin, h - pkh - 1); int px = xorigin, ppx = xorigin; paint.setBrush(paint.pen().color()); for (int i = 0; i < 128; ++i) { float f = Pitch::getFrequencyForPitch(i); int x = lrintf(getXForFrequency(f, w)); x += xorigin; if (i == 0) { px = ppx = x; } if (i == 1) { ppx = px - (x - px); } if (x < xorigin) { ppx = px; px = x; continue; } if (x > w) { break; } int n = (i % 12); if (n == 1) { // C# -- fill the C from here QColor col = Qt::gray; if (i == 61) { // filling middle C col = Qt::blue; col = col.light(150); } if (x - ppx > 2) { paint.fillRect((px + ppx) / 2 + 1, h - pkh, x - (px + ppx) / 2 - 1, pkh, col); } } if (n == 1 || n == 3 || n == 6 || n == 8 || n == 10) { // black notes paint.drawLine(x, h - pkh, x, h); int rw = lrintf(float(x - px) / 4) * 2; if (rw < 2) rw = 2; paint.drawRect(x - rw/2, h - pkh, rw, pkh/2); } else if (n == 0 || n == 5) { // C, F if (px < w) { paint.drawLine((x + px) / 2, h - pkh, (x + px) / 2, h); } } ppx = px; px = x; } // } paint.restore(); } void SpectrumLayer::getBiasCurve(BiasCurve &curve) const { curve = m_biasCurve; } void SpectrumLayer::toXml(QTextStream &stream, QString indent, QString extraAttributes) const { QString s = QString("windowSize=\"%1\" " "windowHopLevel=\"%2\"") .arg(m_windowSize) .arg(m_windowHopLevel); SliceLayer::toXml(stream, indent, extraAttributes + " " + s); } void SpectrumLayer::setProperties(const QXmlAttributes &attributes) { SliceLayer::setProperties(attributes); bool ok = false; size_t windowSize = attributes.value("windowSize").toUInt(&ok); if (ok) setWindowSize(windowSize); size_t windowHopLevel = attributes.value("windowHopLevel").toUInt(&ok); if (ok) setWindowHopLevel(windowHopLevel); }