Mercurial > hg > svcore
view base/Pitch.h @ 1039:b14064bd1f97 cxx11
This code now compiles. Main problem: sample rate types
author | Chris Cannam |
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date | Tue, 03 Mar 2015 17:09:19 +0000 |
parents | 88b54a185a0a |
children | 48e9f538e6e9 |
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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. */ #ifndef _PITCH_H_ #define _PITCH_H_ #include <QString> class Pitch { public: /** * Return the frequency at the given MIDI pitch plus centsOffset * cents (1/100ths of a semitone). centsOffset does not have to * be in any particular range or sign. * * If concertA is non-zero, use that as the reference frequency * for the A at MIDI pitch 69; otherwise use the tuning frequency * specified in the application preferences (default 440Hz). */ static double getFrequencyForPitch(int midiPitch, double centsOffset = 0, double concertA = 0.0); /** * Return the nearest MIDI pitch to the given frequency. * * If centsOffsetReturn is non-NULL, return in *centsOffsetReturn * the number of cents (1/100ths of a semitone) difference between * the given frequency and that of the returned MIDI pitch. The * cents offset will be in the range [-50,50). * * If concertA is non-zero, use that as the reference frequency * for the A at MIDI pitch 69; otherwise use the tuning frequency * specified in the application preferences (default 440Hz). */ static int getPitchForFrequency(double frequency, double *centsOffsetReturn = 0, double concertA = 0.0); /** * Compatibility version of getPitchForFrequency accepting float * pointer argument. */ static int getPitchForFrequency(double frequency, float *centsOffsetReturn, double concertA = 0.0) { double c; int p = getPitchForFrequency(frequency, &c, concertA); if (centsOffsetReturn) *centsOffsetReturn = float(c); return p; } /** * Return the nearest MIDI pitch range to the given frequency * range, that is, the difference in MIDI pitch values between the * higher and lower frequencies. * * If centsOffsetReturn is non-NULL, return in *centsOffsetReturn * the number of cents (1/100ths of a semitone) difference between * the given frequency difference and the returned MIDI pitch * range. The cents offset will be in the range [-50,50). * * If concertA is non-zero, use that as the reference frequency * for the A at MIDI pitch 69; otherwise use the tuning frequency * specified in the application preferences (default 440Hz). */ static int getPitchForFrequencyDifference(double frequencyA, double frequencyB, double *centsOffsetReturn = 0, double concertA = 0.0); /** * Compatibility version of getPitchForFrequencyDifference * accepting float pointer argument. */ static int getPitchForFrequencyDifference(double frequencyA, double frequencyB, float *centsOffsetReturn, double concertA = 0.0) { double c; int p = getPitchForFrequencyDifference(frequencyA, frequencyB, &c, concertA); if (centsOffsetReturn) *centsOffsetReturn = float(c); return p; } /** * Return the MIDI pitch for the given note number (0-12 where 0 * is C) and octave number. The octave numbering system is based * on the application preferences (default is C4 = middle C, * though in previous SV releases that was C3). */ static int getPitchForNoteAndOctave(int note, int octave); /** * Return the note number (0-12 where 0 is C) and octave number * for the given MIDI pitch. The octave numbering system is based * on the application preferences (default is C4 = middle C, * though in previous SV releases that was C3). */ static void getNoteAndOctaveForPitch(int midiPitch, int ¬e, int &octave); /** * Return a string describing the given MIDI pitch, with optional * cents offset. This consists of the note name, octave number, * and optional cents. The octave numbering system is based on the * application preferences (default is C4 = middle C, though in * previous SV releases that was C3). * * For example, "A#3" (A# in octave 3) or "C2-12c" (C in octave 2, * minus 12 cents). * * If useFlats is true, spell notes with flats instead of sharps, * e.g. Bb3 instead of A#3. */ static QString getPitchLabel(int midiPitch, double centsOffset = 0, bool useFlats = false); /** * Return a string describing the nearest MIDI pitch to the given * frequency, with cents offset. * * If concertA is non-zero, use that as the reference frequency * for the A at MIDI pitch 69; otherwise use the tuning frequency * specified in the application preferences (default 440Hz). * * If useFlats is true, spell notes with flats instead of sharps, * e.g. Bb3 instead of A#3. */ static QString getPitchLabelForFrequency(double frequency, double concertA = 0.0, bool useFlats = false); /** * Return a string describing the given pitch range in octaves, * semitones and cents. This is in the form e.g. "1'2+4c". */ static QString getLabelForPitchRange(int semis, double cents = 0); /** * Return true if the given frequency falls within the range of * MIDI note pitches, plus or minus half a semitone. This is * equivalent to testing whether getPitchForFrequency returns a * pitch in the MIDI range (0 to 127 inclusive) with any cents * offset. * * If concertA is non-zero, use that as the reference frequency * for the A at MIDI pitch 69; otherwise use the tuning frequency * specified in the application preferences (default 440Hz). */ static bool isFrequencyInMidiRange(double frequency, double concertA = 0.0); }; #endif