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annotate data/model/FFTModel.h @ 558:1d7ebc05157e

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* Some fairly simplistic code to set up layer type properties based on RDF data about feature types (both when running transforms and when importing features from RDF files).
author Chris Cannam
date Thu, 12 Feb 2009 15:26:43 +0000
parents 53e5dc8439e7
children 948271d124ac
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@152 16 #ifndef _FFT_MODEL_H_
Chris@152 17 #define _FFT_MODEL_H_
Chris@152 18
Chris@152 19 #include "data/fft/FFTDataServer.h"
Chris@152 20 #include "DenseThreeDimensionalModel.h"
Chris@152 21
Chris@275 22 #include <set>
Chris@275 23 #include <map>
Chris@275 24
Chris@254 25 /**
Chris@254 26 * An implementation of DenseThreeDimensionalModel that makes FFT data
Chris@387 27 * derived from a DenseTimeValueModel available as a generic data
Chris@387 28 * grid. The FFT data is acquired using FFTDataServer. Note that any
Chris@387 29 * of the accessor functions may throw AllocationFailed if a cache
Chris@387 30 * resize fails.
Chris@254 31 */
Chris@254 32
Chris@152 33 class FFTModel : public DenseThreeDimensionalModel
Chris@152 34 {
Chris@247 35 Q_OBJECT
Chris@247 36
Chris@152 37 public:
Chris@254 38 /**
Chris@254 39 * Construct an FFT model derived from the given
Chris@254 40 * DenseTimeValueModel, with the given window parameters and FFT
Chris@254 41 * size (which may exceed the window size, for zero-padded FFTs).
Chris@254 42 *
Chris@254 43 * If the model has multiple channels use only the given channel,
Chris@254 44 * unless the channel is -1 in which case merge all available
Chris@254 45 * channels.
Chris@254 46 *
Chris@254 47 * If polar is true, the data will normally be retrieved from the
Chris@254 48 * FFT model in magnitude/phase form; otherwise it will normally
Chris@254 49 * be retrieved in "cartesian" real/imaginary form. The results
Chris@254 50 * should be the same either way, but a "polar" model addressed in
Chris@254 51 * "cartesian" form or vice versa may suffer a performance
Chris@254 52 * penalty.
Chris@254 53 *
Chris@254 54 * The fillFromColumn argument gives a hint that the FFT data
Chris@254 55 * server should aim to start calculating FFT data at that column
Chris@254 56 * number if possible, as that is likely to be requested first.
Chris@254 57 */
Chris@152 58 FFTModel(const DenseTimeValueModel *model,
Chris@152 59 int channel,
Chris@152 60 WindowType windowType,
Chris@152 61 size_t windowSize,
Chris@152 62 size_t windowIncrement,
Chris@152 63 size_t fftSize,
Chris@152 64 bool polar,
Chris@334 65 StorageAdviser::Criteria criteria = StorageAdviser::NoCriteria,
Chris@152 66 size_t fillFromColumn = 0);
Chris@152 67 ~FFTModel();
Chris@152 68
Chris@497 69 inline float getMagnitudeAt(size_t x, size_t y) {
Chris@152 70 return m_server->getMagnitudeAt(x << m_xshift, y << m_yshift);
Chris@152 71 }
Chris@497 72 inline float getNormalizedMagnitudeAt(size_t x, size_t y) {
Chris@152 73 return m_server->getNormalizedMagnitudeAt(x << m_xshift, y << m_yshift);
Chris@152 74 }
Chris@497 75 inline float getMaximumMagnitudeAt(size_t x) {
Chris@152 76 return m_server->getMaximumMagnitudeAt(x << m_xshift);
Chris@152 77 }
Chris@497 78 inline float getPhaseAt(size_t x, size_t y) {
Chris@152 79 return m_server->getPhaseAt(x << m_xshift, y << m_yshift);
Chris@152 80 }
Chris@497 81 inline void getValuesAt(size_t x, size_t y, float &real, float &imaginary) {
Chris@152 82 m_server->getValuesAt(x << m_xshift, y << m_yshift, real, imaginary);
Chris@152 83 }
Chris@497 84 inline bool isColumnAvailable(size_t x) const {
Chris@152 85 return m_server->isColumnReady(x << m_xshift);
Chris@152 86 }
Chris@152 87
Chris@551 88 inline bool getMagnitudesAt(size_t x, float *values, size_t minbin = 0, size_t count = 0) {
Chris@408 89 return m_server->getMagnitudesAt(x << m_xshift, values, minbin << m_yshift, count, getYRatio());
Chris@408 90 }
Chris@551 91 inline bool getNormalizedMagnitudesAt(size_t x, float *values, size_t minbin = 0, size_t count = 0) {
Chris@408 92 return m_server->getNormalizedMagnitudesAt(x << m_xshift, values, minbin << m_yshift, count, getYRatio());
Chris@408 93 }
Chris@551 94 inline bool getPhasesAt(size_t x, float *values, size_t minbin = 0, size_t count = 0) {
Chris@408 95 return m_server->getPhasesAt(x << m_xshift, values, minbin << m_yshift, count, getYRatio());
Chris@408 96 }
Chris@556 97 inline bool getValuesAt(size_t x, float *reals, float *imaginaries, size_t minbin = 0, size_t count = 0) {
Chris@556 98 return m_server->getValuesAt(x << m_xshift, reals, imaginaries, minbin << m_yshift, count, getYRatio());
Chris@556 99 }
Chris@408 100
Chris@497 101 inline size_t getFillExtent() const { return m_server->getFillExtent(); }
Chris@152 102
Chris@152 103 // DenseThreeDimensionalModel and Model methods:
Chris@152 104 //
Chris@497 105 inline virtual size_t getWidth() const {
Chris@182 106 return m_server->getWidth() >> m_xshift;
Chris@182 107 }
Chris@497 108 inline virtual size_t getHeight() const {
Chris@212 109 // If there is no y-shift, the server's height (based on its
Chris@212 110 // fftsize/2 + 1) is correct. If there is a shift, then the
Chris@212 111 // server is using a larger fft size than we want, so we shift
Chris@212 112 // it right as many times as necessary, but then we need to
Chris@212 113 // re-add the "+1" part (because ((fftsize*2)/2 + 1) / 2 !=
Chris@212 114 // fftsize/2 + 1).
Chris@212 115 return (m_server->getHeight() >> m_yshift) + (m_yshift > 0 ? 1 : 0);
Chris@182 116 }
Chris@182 117 virtual float getValueAt(size_t x, size_t y) const {
Chris@182 118 return const_cast<FFTModel *>(this)->getMagnitudeAt(x, y);
Chris@182 119 }
Chris@152 120 virtual bool isOK() const {
Chris@152 121 return m_server && m_server->getModel();
Chris@152 122 }
Chris@152 123 virtual size_t getStartFrame() const {
Chris@152 124 return 0;
Chris@152 125 }
Chris@152 126 virtual size_t getEndFrame() const {
Chris@152 127 return getWidth() * getResolution() + getResolution();
Chris@152 128 }
Chris@152 129 virtual size_t getSampleRate() const;
Chris@152 130 virtual size_t getResolution() const {
Chris@152 131 return m_server->getWindowIncrement() << m_xshift;
Chris@152 132 }
Chris@152 133 virtual size_t getYBinCount() const {
Chris@152 134 return getHeight();
Chris@152 135 }
Chris@152 136 virtual float getMinimumLevel() const {
Chris@152 137 return 0.f; // Can't provide
Chris@152 138 }
Chris@152 139 virtual float getMaximumLevel() const {
Chris@152 140 return 1.f; // Can't provide
Chris@152 141 }
Chris@533 142 virtual Column getColumn(size_t x) const;
Chris@152 143 virtual QString getBinName(size_t n) const;
Chris@152 144
Chris@478 145 virtual bool shouldUseLogValueScale() const {
Chris@478 146 return true; // Although obviously it's up to the user...
Chris@478 147 }
Chris@478 148
Chris@275 149 /**
Chris@275 150 * Calculate an estimated frequency for a stable signal in this
Chris@275 151 * bin, using phase unwrapping. This will be completely wrong if
Chris@275 152 * the signal is not stable here.
Chris@275 153 */
Chris@275 154 virtual bool estimateStableFrequency(size_t x, size_t y, float &frequency);
Chris@275 155
Chris@275 156 enum PeakPickType
Chris@275 157 {
Chris@275 158 AllPeaks, /// Any bin exceeding its immediate neighbours
Chris@275 159 MajorPeaks, /// Peaks picked using sliding median window
Chris@275 160 MajorPitchAdaptivePeaks /// Bigger window for higher frequencies
Chris@275 161 };
Chris@275 162
Chris@551 163 typedef std::set<size_t> PeakLocationSet; // bin
Chris@551 164 typedef std::map<size_t, float> PeakSet; // bin -> freq
Chris@275 165
Chris@275 166 /**
Chris@275 167 * Return locations of peak bins in the range [ymin,ymax]. If
Chris@275 168 * ymax is zero, getHeight()-1 will be used.
Chris@275 169 */
Chris@275 170 virtual PeakLocationSet getPeaks(PeakPickType type, size_t x,
Chris@275 171 size_t ymin = 0, size_t ymax = 0);
Chris@275 172
Chris@275 173 /**
Chris@275 174 * Return locations and estimated stable frequencies of peak bins.
Chris@275 175 */
Chris@275 176 virtual PeakSet getPeakFrequencies(PeakPickType type, size_t x,
Chris@275 177 size_t ymin = 0, size_t ymax = 0);
Chris@273 178
Chris@152 179 virtual int getCompletion() const { return m_server->getFillCompletion(); }
Chris@152 180
Chris@152 181 virtual Model *clone() const;
Chris@152 182
Chris@154 183 virtual void suspend() { m_server->suspend(); }
Chris@155 184 virtual void suspendWrites() { m_server->suspendWrites(); }
Chris@154 185 virtual void resume() { m_server->resume(); }
Chris@154 186
Chris@345 187 QString getTypeName() const { return tr("FFT"); }
Chris@345 188
Chris@360 189 public slots:
Chris@360 190 void sourceModelAboutToBeDeleted();
Chris@360 191
Chris@152 192 private:
Chris@297 193 FFTModel(const FFTModel &); // not implemented
Chris@152 194 FFTModel &operator=(const FFTModel &); // not implemented
Chris@152 195
Chris@152 196 FFTDataServer *m_server;
Chris@152 197 int m_xshift;
Chris@152 198 int m_yshift;
Chris@275 199
Chris@297 200 FFTDataServer *getServer(const DenseTimeValueModel *,
Chris@297 201 int, WindowType, size_t, size_t, size_t,
Chris@334 202 bool, StorageAdviser::Criteria, size_t);
Chris@297 203
Chris@280 204 size_t getPeakPickWindowSize(PeakPickType type, size_t sampleRate,
Chris@280 205 size_t bin, float &percentile) const;
Chris@408 206
Chris@408 207 size_t getYRatio() {
Chris@408 208 size_t ys = m_yshift;
Chris@408 209 size_t r = 1;
Chris@408 210 while (ys) { --ys; r <<= 1; }
Chris@408 211 return r;
Chris@408 212 }
Chris@152 213 };
Chris@152 214
Chris@152 215 #endif