Mercurial > hg > svcore
view base/FFTCache.h @ 116:a08718723b20
* Add units repository, and unit property on time-value and note layers.
author | Chris Cannam |
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date | Thu, 11 May 2006 15:02:14 +0000 |
parents | 534373d65f39 |
children | f47f4c7c158c |
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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 _FFT_CACHE_H_ #define _FFT_CACHE_H_ #include <cstdlib> #include <cmath> #include <stdint.h> class FFTCacheBase { public: virtual ~FFTCacheBase() { } virtual size_t getWidth() const = 0; virtual size_t getHeight() const = 0; virtual void resize(size_t width, size_t height) = 0; virtual void reset() = 0; // zero-fill or 1-fill as appropriate without changing size virtual float getMagnitudeAt(size_t x, size_t y) const = 0; virtual float getNormalizedMagnitudeAt(size_t x, size_t y) const = 0; virtual float getPhaseAt(size_t x, size_t y) const = 0; virtual bool haveSetColumnAt(size_t x) const = 0; virtual void setColumnAt(size_t x, float *mags, float *phases, float factor) = 0; bool isLocalPeak(size_t x, size_t y) const { float mag = getMagnitudeAt(x, y); if (y > 0 && mag < getMagnitudeAt(x, y - 1)) return false; if (y < getHeight()-1 && mag < getMagnitudeAt(x, y + 1)) return false; return true; } bool isOverThreshold(size_t x, size_t y, float threshold) const { return getMagnitudeAt(x, y) > threshold; } protected: FFTCacheBase() { } }; /** * For the in-memory FFT cache, we would like to cache magnitude with * enough resolution to have gain applied afterwards and determine * whether something is a peak or not, and also cache phase rather * than only phase-adjusted frequency so that we don't have to * recalculate if switching between phase and magnitude displays. At * the same time, we don't want to take up too much memory. It's not * expected to be accurate enough to be used as input for DSP or * resynthesis code. * * This implies probably 16 bits for a normalized magnitude and at * most 16 bits for phase. * * Each column's magnitudes are expected to be stored normalized * to [0,1] with respect to the column, so the normalization * factor should be calculated before all values in a column, and * set appropriately. */ class FFTMemoryCache : public FFTCacheBase { public: FFTMemoryCache(); // of size zero, call resize() before using virtual ~FFTMemoryCache(); virtual size_t getWidth() const { return m_width; } virtual size_t getHeight() const { return m_height; } virtual void resize(size_t width, size_t height); virtual void reset(); // zero-fill or 1-fill as appropriate without changing size virtual float getMagnitudeAt(size_t x, size_t y) const { return getNormalizedMagnitudeAt(x, y) * m_factor[x]; } virtual float getNormalizedMagnitudeAt(size_t x, size_t y) const { return float(m_magnitude[x][y]) / 65535.0; } virtual float getPhaseAt(size_t x, size_t y) const { int16_t i = (int16_t)m_phase[x][y]; return (float(i) / 32767.0) * M_PI; } virtual void setNormalizationFactor(size_t x, float factor) { if (x < m_width) m_factor[x] = factor; } virtual void setMagnitudeAt(size_t x, size_t y, float mag) { // norm factor must already be set setNormalizedMagnitudeAt(x, y, mag / m_factor[x]); } virtual void setNormalizedMagnitudeAt(size_t x, size_t y, float norm) { if (x < m_width && y < m_height) { m_magnitude[x][y] = uint16_t(norm * 65535.0); } } virtual void setPhaseAt(size_t x, size_t y, float phase) { // phase in range -pi -> pi if (x < m_width && y < m_height) { m_phase[x][y] = uint16_t(int16_t((phase * 32767) / M_PI)); } } virtual bool haveSetColumnAt(size_t x) const { return true; } virtual void setColumnAt(size_t x, float *mags, float *phases, float factor) { setNormalizationFactor(x, factor); for (size_t y = 0; y < m_height; ++y) { setMagnitudeAt(x, y, mags[y]); setPhaseAt(x, y, phases[y]); } } private: size_t m_width; size_t m_height; uint16_t **m_magnitude; uint16_t **m_phase; float *m_factor; void resize(uint16_t **&, size_t, size_t); }; #endif