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annotate data/model/FFTModel.h @ 1200:825d0d7641ba spectrogram-minor-refactor

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Restore phase display
author Chris Cannam
date Thu, 04 Aug 2016 14:02:56 +0100
parents 6d09ad2ab21f
children bac86d3fc6c9
rev   line source
Chris@152 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@152 2
Chris@152 3 /*
Chris@152 4 Sonic Visualiser
Chris@152 5 An audio file viewer and annotation editor.
Chris@152 6 Centre for Digital Music, Queen Mary, University of London.
Chris@152 7 This file copyright 2006 Chris Cannam.
Chris@152 8
Chris@152 9 This program is free software; you can redistribute it and/or
Chris@152 10 modify it under the terms of the GNU General Public License as
Chris@152 11 published by the Free Software Foundation; either version 2 of the
Chris@152 12 License, or (at your option) any later version. See the file
Chris@152 13 COPYING included with this distribution for more information.
Chris@152 14 */
Chris@152 15
Chris@1086 16 #ifndef FFT_MODEL_H
Chris@1086 17 #define FFT_MODEL_H
Chris@152 18
Chris@152 19 #include "DenseThreeDimensionalModel.h"
Chris@1090 20 #include "DenseTimeValueModel.h"
Chris@1090 21
Chris@1090 22 #include "base/Window.h"
Chris@152 23
Chris@1091 24 #include "data/fft/FFTapi.h"
Chris@1091 25
Chris@275 26 #include <set>
Chris@1091 27 #include <vector>
Chris@1091 28 #include <complex>
Chris@1093 29 #include <deque>
Chris@275 30
Chris@254 31 /**
Chris@254 32 * An implementation of DenseThreeDimensionalModel that makes FFT data
Chris@387 33 * derived from a DenseTimeValueModel available as a generic data
Chris@1090 34 * grid.
Chris@254 35 */
Chris@152 36 class FFTModel : public DenseThreeDimensionalModel
Chris@152 37 {
Chris@247 38 Q_OBJECT
Chris@247 39
Chris@1092 40 //!!! threading requirements?
Chris@1092 41 //!!! doubles? since we're not caching much
Chris@1092 42
Chris@152 43 public:
Chris@254 44 /**
Chris@254 45 * Construct an FFT model derived from the given
Chris@254 46 * DenseTimeValueModel, with the given window parameters and FFT
Chris@254 47 * size (which may exceed the window size, for zero-padded FFTs).
Chris@254 48 *
Chris@254 49 * If the model has multiple channels use only the given channel,
Chris@254 50 * unless the channel is -1 in which case merge all available
Chris@254 51 * channels.
Chris@254 52 */
Chris@152 53 FFTModel(const DenseTimeValueModel *model,
Chris@152 54 int channel,
Chris@152 55 WindowType windowType,
Chris@929 56 int windowSize,
Chris@929 57 int windowIncrement,
Chris@1090 58 int fftSize);
Chris@152 59 ~FFTModel();
Chris@152 60
Chris@152 61 // DenseThreeDimensionalModel and Model methods:
Chris@152 62 //
Chris@1090 63 virtual int getWidth() const;
Chris@1090 64 virtual int getHeight() const;
Chris@1090 65 virtual float getValueAt(int x, int y) const { return getMagnitudeAt(x, y); }
Chris@1090 66 virtual bool isOK() const { return m_model && m_model->isOK(); }
Chris@1090 67 virtual sv_frame_t getStartFrame() const { return 0; }
Chris@1038 68 virtual sv_frame_t getEndFrame() const {
Chris@1038 69 return sv_frame_t(getWidth()) * getResolution() + getResolution();
Chris@152 70 }
Chris@1090 71 virtual sv_samplerate_t getSampleRate() const {
Chris@1090 72 return isOK() ? m_model->getSampleRate() : 0;
Chris@152 73 }
Chris@1090 74 virtual int getResolution() const { return m_windowIncrement; }
Chris@1090 75 virtual int getYBinCount() const { return getHeight(); }
Chris@1090 76 virtual float getMinimumLevel() const { return 0.f; } // Can't provide
Chris@1090 77 virtual float getMaximumLevel() const { return 1.f; } // Can't provide
Chris@1090 78 virtual Column getColumn(int x) const; // magnitudes
Chris@1200 79 virtual Column getPhases(int x) const;
Chris@1090 80 virtual QString getBinName(int n) const;
Chris@1090 81 virtual bool shouldUseLogValueScale() const { return true; }
Chris@1090 82 virtual int getCompletion() const {
Chris@1090 83 int c = 100;
Chris@1093 84 if (m_model) {
Chris@1093 85 if (m_model->isReady(&c)) return 100;
Chris@1093 86 }
Chris@1090 87 return c;
Chris@152 88 }
Chris@1090 89 virtual QString getError() const { return ""; } //!!!???
Chris@1090 90 virtual sv_frame_t getFillExtent() const { return getEndFrame(); }
Chris@152 91
Chris@1090 92 // FFTModel methods:
Chris@1090 93 //
Chris@1090 94 int getChannel() const { return m_channel; }
Chris@1090 95 WindowType getWindowType() const { return m_windowType; }
Chris@1090 96 int getWindowSize() const { return m_windowSize; }
Chris@1090 97 int getWindowIncrement() const { return m_windowIncrement; }
Chris@1090 98 int getFFTSize() const { return m_fftSize; }
Chris@1200 99
Chris@1200 100 //!!! review which of these are ever actually called
Chris@1090 101
Chris@1090 102 float getMagnitudeAt(int x, int y) const;
Chris@1090 103 float getMaximumMagnitudeAt(int x) const;
Chris@1090 104 float getPhaseAt(int x, int y) const;
Chris@1090 105 void getValuesAt(int x, int y, float &real, float &imaginary) const;
Chris@1090 106 bool getMagnitudesAt(int x, float *values, int minbin = 0, int count = 0) const;
Chris@1090 107 bool getPhasesAt(int x, float *values, int minbin = 0, int count = 0) const;
Chris@1090 108 bool getValuesAt(int x, float *reals, float *imaginaries, int minbin = 0, int count = 0) const;
Chris@478 109
Chris@275 110 /**
Chris@275 111 * Calculate an estimated frequency for a stable signal in this
Chris@275 112 * bin, using phase unwrapping. This will be completely wrong if
Chris@275 113 * the signal is not stable here.
Chris@275 114 */
Chris@1045 115 virtual bool estimateStableFrequency(int x, int y, double &frequency);
Chris@275 116
Chris@275 117 enum PeakPickType
Chris@275 118 {
Chris@275 119 AllPeaks, /// Any bin exceeding its immediate neighbours
Chris@275 120 MajorPeaks, /// Peaks picked using sliding median window
Chris@275 121 MajorPitchAdaptivePeaks /// Bigger window for higher frequencies
Chris@275 122 };
Chris@275 123
Chris@929 124 typedef std::set<int> PeakLocationSet; // bin
Chris@1045 125 typedef std::map<int, double> PeakSet; // bin -> freq
Chris@275 126
Chris@275 127 /**
Chris@275 128 * Return locations of peak bins in the range [ymin,ymax]. If
Chris@275 129 * ymax is zero, getHeight()-1 will be used.
Chris@275 130 */
Chris@929 131 virtual PeakLocationSet getPeaks(PeakPickType type, int x,
Chris@1191 132 int ymin = 0, int ymax = 0) const;
Chris@275 133
Chris@275 134 /**
Chris@275 135 * Return locations and estimated stable frequencies of peak bins.
Chris@275 136 */
Chris@929 137 virtual PeakSet getPeakFrequencies(PeakPickType type, int x,
Chris@1191 138 int ymin = 0, int ymax = 0) const;
Chris@273 139
Chris@345 140 QString getTypeName() const { return tr("FFT"); }
Chris@345 141
Chris@360 142 public slots:
Chris@360 143 void sourceModelAboutToBeDeleted();
Chris@360 144
Chris@152 145 private:
Chris@297 146 FFTModel(const FFTModel &); // not implemented
Chris@152 147 FFTModel &operator=(const FFTModel &); // not implemented
Chris@152 148
Chris@1090 149 const DenseTimeValueModel *m_model;
Chris@1090 150 int m_channel;
Chris@1090 151 WindowType m_windowType;
Chris@1090 152 int m_windowSize;
Chris@1090 153 int m_windowIncrement;
Chris@1090 154 int m_fftSize;
Chris@1090 155 Window<float> m_windower;
Chris@1091 156 FFTForward m_fft;
Chris@1090 157
Chris@1040 158 int getPeakPickWindowSize(PeakPickType type, sv_samplerate_t sampleRate,
Chris@1040 159 int bin, float &percentile) const;
Chris@1091 160
Chris@1091 161 std::pair<sv_frame_t, sv_frame_t> getSourceSampleRange(int column) const {
Chris@1091 162 sv_frame_t startFrame = m_windowIncrement * sv_frame_t(column);
Chris@1091 163 sv_frame_t endFrame = startFrame + m_windowSize;
Chris@1091 164 // Cols are centred on the audio sample (e.g. col 0 is centred at sample 0)
Chris@1091 165 startFrame -= m_windowSize / 2;
Chris@1091 166 endFrame -= m_windowSize / 2;
Chris@1091 167 return { startFrame, endFrame };
Chris@1091 168 }
Chris@1091 169
Chris@1091 170 std::vector<std::complex<float> > getFFTColumn(int column) const;
Chris@1091 171 std::vector<float> getSourceSamples(int column) const;
Chris@1094 172 std::vector<float> getSourceData(std::pair<sv_frame_t, sv_frame_t>) const;
Chris@1095 173 std::vector<float> getSourceDataUncached(std::pair<sv_frame_t, sv_frame_t>) const;
Chris@1093 174
Chris@1094 175 struct SavedSourceData {
Chris@1094 176 std::pair<sv_frame_t, sv_frame_t> range;
Chris@1094 177 std::vector<float> data;
Chris@1094 178 };
Chris@1094 179 mutable SavedSourceData m_savedData;
Chris@1094 180
Chris@1093 181 struct SavedColumn {
Chris@1093 182 int n;
Chris@1093 183 std::vector<std::complex<float> > col;
Chris@1093 184 };
Chris@1093 185 mutable std::deque<SavedColumn> m_cached;
Chris@1093 186 size_t m_cacheSize;
Chris@152 187 };
Chris@152 188
Chris@152 189 #endif