Mercurial > hg > svgui
view widgets/UnitConverter.cpp @ 1386:fc3d89f88690 spectrogramparam
Use log-frequency rather than log-bin for calculating x coord in spectrum. This has the advantage that frequency positions don't move when we change the window size or oversampling ratio, but it does give us an unhelpfully large amount of space for very low frequencies - to be considered
author | Chris Cannam |
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date | Mon, 12 Nov 2018 11:34:34 +0000 |
parents | a34a2a25907c |
children |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #include "UnitConverter.h" #include <QSpinBox> #include <QComboBox> #include <QDoubleSpinBox> #include <QLabel> #include <QDialogButtonBox> #include <QGridLayout> #include <QTabWidget> #include "base/Debug.h" #include "base/Pitch.h" #include "base/Preferences.h" using namespace std; static QString pianoNotes[] = { "C", "C# / Db", "D", "D# / Eb", "E", "F", "F# / Gb", "G", "G# / Ab", "A", "A# / Bb", "B" }; UnitConverter::UnitConverter(QWidget *parent) : QDialog(parent) { QGridLayout *maingrid = new QGridLayout; setLayout(maingrid); QTabWidget *tabs = new QTabWidget; maingrid->addWidget(tabs, 0, 0); QDialogButtonBox *bb = new QDialogButtonBox(QDialogButtonBox::Close); maingrid->addWidget(bb, 1, 0); connect(bb, SIGNAL(rejected()), this, SLOT(close())); QFrame *frame = new QFrame; tabs->addTab(frame, tr("Pitch")); QGridLayout *grid = new QGridLayout; frame->setLayout(grid); m_freq = new QDoubleSpinBox; m_freq->setSuffix(QString(" Hz")); m_freq->setDecimals(6); m_freq->setMinimum(1e-3); m_freq->setMaximum(1e6); m_freq->setValue(440); connect(m_freq, SIGNAL(valueChanged(double)), this, SLOT(freqChanged())); // The min and max range values for all the remaining controls are // determined by the min and max Hz above m_midi = new QSpinBox; m_midi->setMinimum(-156); m_midi->setMaximum(203); connect(m_midi, SIGNAL(valueChanged(int)), this, SLOT(midiChanged())); m_note = new QComboBox; for (int i = 0; i < 12; ++i) { m_note->addItem(pianoNotes[i]); } connect(m_note, SIGNAL(currentIndexChanged(int)), this, SLOT(noteChanged())); m_octave = new QSpinBox; m_octave->setMinimum(-14); m_octave->setMaximum(15); connect(m_octave, SIGNAL(valueChanged(int)), this, SLOT(octaveChanged())); m_cents = new QDoubleSpinBox; m_cents->setSuffix(tr(" cents")); m_cents->setDecimals(4); m_cents->setMinimum(-50); m_cents->setMaximum(50); connect(m_cents, SIGNAL(valueChanged(double)), this, SLOT(centsChanged())); int row = 0; grid->addWidget(new QLabel(tr("In 12-tone Equal Temperament:")), row, 0, 1, 9); ++row; grid->setRowMinimumHeight(row, 8); ++row; grid->addWidget(m_freq, row, 0, 2, 1, Qt::AlignRight | Qt::AlignVCenter); grid->addWidget(new QLabel(tr("=")), row, 1, 2, 1, Qt::AlignHCenter | Qt::AlignVCenter); grid->addWidget(new QLabel(tr("+")), row, 7, 2, 1, Qt::AlignHCenter | Qt::AlignVCenter); grid->addWidget(m_cents, row, 8, 2, 1, Qt::AlignLeft | Qt::AlignVCenter); grid->addWidget(new QLabel(tr("Piano note")), row, 2, 1, 2); grid->addWidget(m_note, row, 4); grid->addWidget(new QLabel(tr("in octave")), row, 5); grid->addWidget(m_octave, row, 6); ++row; grid->addWidget(new QLabel(tr("MIDI pitch")), row, 2, 1, 2); grid->addWidget(m_midi, row, 4); ++row; grid->setRowStretch(row, 20); grid->setRowMinimumHeight(row, 8); ++row; m_pitchPrefsLabel = new QLabel; grid->addWidget(m_pitchPrefsLabel, row, 0, 1, 9); ++row; grid->addWidget (new QLabel(tr("Note that only pitches in the range 0 to 127 are valid " "in the MIDI protocol.")), row, 0, 1, 9); ++row; frame = new QFrame; tabs->addTab(frame, tr("Tempo")); grid = new QGridLayout; frame->setLayout(grid); m_samples = new QDoubleSpinBox; m_samples->setSuffix(QString(" samples")); m_samples->setDecimals(2); m_samples->setMinimum(1); m_samples->setMaximum(1e8); m_samples->setValue(22050); connect(m_samples, SIGNAL(valueChanged(double)), this, SLOT(samplesChanged())); m_period = new QDoubleSpinBox; m_period->setSuffix(QString(" ms")); m_period->setDecimals(4); m_period->setMinimum(1e-3); m_period->setMaximum(100000); m_period->setValue(500); connect(m_period, SIGNAL(valueChanged(double)), this, SLOT(periodChanged())); m_bpm = new QDoubleSpinBox; m_bpm->setSuffix(QString(" bpm")); m_bpm->setDecimals(4); m_bpm->setMinimum(0.1); m_bpm->setMaximum(1e6); m_bpm->setValue(120); connect(m_bpm, SIGNAL(valueChanged(double)), this, SLOT(bpmChanged())); m_tempofreq = new QDoubleSpinBox; m_tempofreq->setSuffix(QString(" beats/sec")); m_tempofreq->setDecimals(4); m_tempofreq->setMinimum(1e-3); m_tempofreq->setMaximum(1e5); m_tempofreq->setValue(0.5); connect(m_tempofreq, SIGNAL(valueChanged(double)), this, SLOT(tempofreqChanged())); m_samplerate = new QComboBox; QList<int> rates; rates << 8000; for (int i = 1; i <= 16; i *= 2) { rates << 11025 * i << 12000 * i; } foreach (int r, rates) { m_samplerate->addItem(QString("%1 Hz").arg(r)); } connect(m_samplerate, SIGNAL(currentIndexChanged(int)), this, SLOT(samplerateChanged())); m_samplerate->setCurrentText("44100 Hz"); connect(Preferences::getInstance(), SIGNAL(propertyChanged(PropertyContainer::PropertyName)), this, SLOT(preferenceChanged(PropertyContainer::PropertyName))); row = 0; grid->setRowStretch(row, 20); grid->setRowMinimumHeight(row, 8); ++row; grid->addWidget(new QLabel(tr("Beat period")), row, 0, 2, 1, Qt::AlignVCenter); grid->addWidget(m_period, row, 1); grid->addWidget(new QLabel(tr("=")), row, 2, 2, 1, Qt::AlignVCenter); grid->addWidget(m_tempofreq, row, 3); grid->addWidget(new QLabel(tr("at")), row, 4, 2, 1, Qt::AlignVCenter); grid->addWidget(m_samplerate, row, 5, 2, 1, Qt::AlignVCenter); ++row; grid->addWidget(m_samples, row, 1); grid->addWidget(m_bpm, row, 3); ++row; grid->setRowStretch(row, 20); grid->setRowMinimumHeight(row, 8); updatePitchesFromFreq(); updatePitchPrefsLabel(); updateTempiFromSamples(); } UnitConverter::~UnitConverter() { } void UnitConverter::setTo(QSpinBox *box, int value) { box->blockSignals(true); if (value < box->minimum() || value > box->maximum()) { QPalette p; p.setColor(QPalette::Text, Qt::red); box->setPalette(p); } else { box->setPalette(QPalette()); } box->setValue(value); box->blockSignals(false); } void UnitConverter::setTo(QDoubleSpinBox *box, double value) { box->blockSignals(true); if (value < box->minimum() || value > box->maximum()) { QPalette p; p.setColor(QPalette::Text, Qt::red); box->setPalette(p); } else { box->setPalette(QPalette()); } box->setValue(value); box->blockSignals(false); } void UnitConverter::preferenceChanged(PropertyContainer::PropertyName) { updatePitchesFromFreq(); updatePitchPrefsLabel(); } void UnitConverter::updatePitchPrefsLabel() { m_pitchPrefsLabel->setText (tr("With concert-A tuning frequency at %1 Hz, and " "middle C residing in octave %2.\n" "(These can be changed in the application preferences.)") .arg(Preferences::getInstance()->getTuningFrequency()) .arg(Preferences::getInstance()->getOctaveOfMiddleC())); } void UnitConverter::freqChanged() { updatePitchesFromFreq(); } void UnitConverter::midiChanged() { double freq = Pitch::getFrequencyForPitch(m_midi->value(), m_cents->value()); m_freq->setValue(freq); } void UnitConverter::noteChanged() { int pitch = Pitch::getPitchForNoteAndOctave(m_note->currentIndex(), m_octave->value()); double freq = Pitch::getFrequencyForPitch(pitch, m_cents->value()); m_freq->setValue(freq); } void UnitConverter::octaveChanged() { int pitch = Pitch::getPitchForNoteAndOctave(m_note->currentIndex(), m_octave->value()); double freq = Pitch::getFrequencyForPitch(pitch, m_cents->value()); m_freq->setValue(freq); } void UnitConverter::centsChanged() { double freq = Pitch::getFrequencyForPitch(m_midi->value(), m_cents->value()); m_freq->setValue(freq); } void UnitConverter::updatePitchesFromFreq() { double cents = 0; int pitch = Pitch::getPitchForFrequency(m_freq->value(), ¢s); int note, octave; Pitch::getNoteAndOctaveForPitch(pitch, note, octave); // cerr << "pitch " << pitch << " note " << note << " octave " << octave << " cents " << cents << endl; setTo(m_midi, pitch); setTo(m_cents, cents); setTo(m_octave, octave); m_note->blockSignals(true); m_note->setCurrentIndex(note); m_note->blockSignals(false); } void UnitConverter::samplesChanged() { updateTempiFromSamples(); } void UnitConverter::periodChanged() { double rate = getSampleRate(); double sec = m_period->value() / 1000.0; double samples = rate * sec; m_samples->setValue(samples); } void UnitConverter::bpmChanged() { double rate = getSampleRate(); double sec = 60.0 / m_bpm->value(); double samples = rate * sec; m_samples->setValue(samples); } void UnitConverter::tempofreqChanged() { double rate = getSampleRate(); double samples = rate / m_tempofreq->value(); m_samples->setValue(samples); } void UnitConverter::samplerateChanged() { // Preserve the beat period in seconds, here, not in samples periodChanged(); } double UnitConverter::getSampleRate() { return double(atoi(m_samplerate->currentText().toLocal8Bit().data())); } void UnitConverter::updateTempiFromSamples() { double samples = m_samples->value(); double rate = getSampleRate(); // cerr << samples << " samples at rate " << rate << endl; double sec = samples / rate; double hz = rate / samples; double bpm = 60.0 / sec; setTo(m_bpm, bpm); setTo(m_period, sec * 1000.0); setTo(m_tempofreq, hz); }