svcore: data/fft/FFTFileCache.cpp annotate

annotate data/fft/FFTFileCache.cpp @ 392:183ee2a55fc7

* More work to abstract out interactive components used in the data library, so that it does not need to depend on QtGui.

author	Chris Cannam
date	Fri, 14 Mar 2008 17:14:21 +0000
parents	7cc6b7b0d819
children	115f60df1e4d

rev	line source
Chris@148	1 /* -- c-basic-offset: 4 indent-tabs-mode: nil -- vi:set ts=8 sts=4 sw=4: */
Chris@148	2
Chris@148	3 /*
Chris@148	4 Sonic Visualiser
Chris@148	5 An audio file viewer and annotation editor.
Chris@148	6 Centre for Digital Music, Queen Mary, University of London.
Chris@202	7 This file copyright 2006 Chris Cannam and QMUL.
Chris@148	8
Chris@148	9 This program is free software; you can redistribute it and/or
Chris@148	10 modify it under the terms of the GNU General Public License as
Chris@148	11 published by the Free Software Foundation; either version 2 of the
Chris@148	12 License, or (at your option) any later version. See the file
Chris@148	13 COPYING included with this distribution for more information.
Chris@148	14 */
Chris@148	15
Chris@148	16 #include "FFTFileCache.h"
Chris@148	17
Chris@150	18 #include "fileio/MatrixFile.h"
Chris@148	19
Chris@148	20 #include "base/Profiler.h"
Chris@148	21
Chris@148	22 #include <iostream>
Chris@148	23
Chris@148	24 #include <QMutexLocker>
Chris@148	25
Chris@374	26
Chris@148	27 // The underlying matrix has height (m_height * 2 + 1). In each
Chris@148	28 // column we store magnitude at [0], [2] etc and phase at [1], [3]
Chris@148	29 // etc, and then store the normalization factor (maximum magnitude) at
Chris@266	30 // [m_height * 2]. In compact mode, the factor takes two cells.
Chris@148	31
Chris@148	32 FFTFileCache::FFTFileCache(QString fileBase, MatrixFile::Mode mode,
Chris@148	33 StorageType storageType) :
Chris@148	34 m_writebuf(0),
Chris@148	35 m_readbuf(0),
Chris@148	36 m_readbufCol(0),
Chris@148	37 m_readbufWidth(0),
Chris@148	38 m_mfc(new MatrixFile
Chris@148	39 (fileBase, mode,
Chris@148	40 storageType == Compact ? sizeof(uint16_t) : sizeof(float),
Chris@148	41 mode == MatrixFile::ReadOnly)),
Chris@266	42 m_storageType(storageType),
Chris@266	43 m_factorSize(storageType == Compact ? 2 : 1)
Chris@148	44 {
Chris@259	45 // std::cerr << "FFTFileCache: storage type is " << (storageType == Compact ? "Compact" : storageType == Polar ? "Polar" : "Rectangular") << std::endl;
Chris@148	46 }
Chris@148	47
Chris@148	48 FFTFileCache::~FFTFileCache()
Chris@148	49 {
Chris@148	50 if (m_readbuf) delete[] m_readbuf;
Chris@148	51 if (m_writebuf) delete[] m_writebuf;
Chris@148	52 delete m_mfc;
Chris@148	53 }
Chris@148	54
Chris@148	55 size_t
Chris@148	56 FFTFileCache::getWidth() const
Chris@148	57 {
Chris@148	58 return m_mfc->getWidth();
Chris@148	59 }
Chris@148	60
Chris@148	61 size_t
Chris@148	62 FFTFileCache::getHeight() const
Chris@148	63 {
Chris@148	64 size_t mh = m_mfc->getHeight();
Chris@266	65 if (mh > m_factorSize) return (mh - m_factorSize) / 2;
Chris@148	66 else return 0;
Chris@148	67 }
Chris@148	68
Chris@148	69 void
Chris@148	70 FFTFileCache::resize(size_t width, size_t height)
Chris@148	71 {
Chris@148	72 QMutexLocker locker(&m_writeMutex);
Chris@148	73
Chris@266	74 m_mfc->resize(width, height * 2 + m_factorSize);
Chris@148	75 if (m_readbuf) {
Chris@148	76 delete[] m_readbuf;
Chris@148	77 m_readbuf = 0;
Chris@148	78 }
Chris@148	79 if (m_writebuf) {
Chris@148	80 delete[] m_writebuf;
Chris@148	81 }
Chris@266	82 m_writebuf = new char[(height * 2 + m_factorSize) * m_mfc->getCellSize()];
Chris@148	83 }
Chris@148	84
Chris@148	85 void
Chris@148	86 FFTFileCache::reset()
Chris@148	87 {
Chris@148	88 m_mfc->reset();
Chris@148	89 }
Chris@148	90
Chris@148	91 float
Chris@148	92 FFTFileCache::getMagnitudeAt(size_t x, size_t y) const
Chris@148	93 {
Chris@183	94 Profiler profiler("FFTFileCache::getMagnitudeAt", false);
Chris@183	95
Chris@148	96 float value = 0.f;
Chris@148	97
Chris@148	98 switch (m_storageType) {
Chris@148	99
Chris@148	100 case Compact:
Chris@148	101 value = (getFromReadBufCompactUnsigned(x, y * 2) / 65535.0)
Chris@148	102 * getNormalizationFactor(x);
Chris@148	103 break;
Chris@148	104
Chris@148	105 case Rectangular:
Chris@148	106 {
Chris@148	107 float real, imag;
Chris@148	108 getValuesAt(x, y, real, imag);
Chris@148	109 value = sqrtf(real * real + imag * imag);
Chris@148	110 break;
Chris@148	111 }
Chris@148	112
Chris@148	113 case Polar:
Chris@148	114 value = getFromReadBufStandard(x, y * 2);
Chris@148	115 break;
Chris@148	116 }
Chris@148	117
Chris@148	118 return value;
Chris@148	119 }
Chris@148	120
Chris@148	121 float
Chris@148	122 FFTFileCache::getNormalizedMagnitudeAt(size_t x, size_t y) const
Chris@148	123 {
Chris@148	124 float value = 0.f;
Chris@148	125
Chris@148	126 switch (m_storageType) {
Chris@148	127
Chris@148	128 case Compact:
Chris@148	129 value = getFromReadBufCompactUnsigned(x, y * 2) / 65535.0;
Chris@148	130 break;
Chris@148	131
Chris@148	132 default:
Chris@148	133 {
Chris@148	134 float mag = getMagnitudeAt(x, y);
Chris@148	135 float factor = getNormalizationFactor(x);
Chris@148	136 if (factor != 0) value = mag / factor;
Chris@148	137 else value = 0.f;
Chris@148	138 break;
Chris@148	139 }
Chris@148	140 }
Chris@148	141
Chris@148	142 return value;
Chris@148	143 }
Chris@148	144
Chris@148	145 float
Chris@148	146 FFTFileCache::getMaximumMagnitudeAt(size_t x) const
Chris@148	147 {
Chris@148	148 return getNormalizationFactor(x);
Chris@148	149 }
Chris@148	150
Chris@148	151 float
Chris@148	152 FFTFileCache::getPhaseAt(size_t x, size_t y) const
Chris@148	153 {
Chris@148	154 float value = 0.f;
Chris@148	155
Chris@148	156 switch (m_storageType) {
Chris@148	157
Chris@148	158 case Compact:
Chris@148	159 value = (getFromReadBufCompactSigned(x, y * 2 + 1) / 32767.0) * M_PI;
Chris@148	160 break;
Chris@148	161
Chris@148	162 case Rectangular:
Chris@148	163 {
Chris@148	164 float real, imag;
Chris@148	165 getValuesAt(x, y, real, imag);
Chris@148	166 value = princargf(atan2f(imag, real));
Chris@148	167 break;
Chris@148	168 }
Chris@148	169
Chris@148	170 case Polar:
Chris@148	171 value = getFromReadBufStandard(x, y * 2 + 1);
Chris@148	172 break;
Chris@148	173 }
Chris@148	174
Chris@148	175 return value;
Chris@148	176 }
Chris@148	177
Chris@148	178 void
Chris@148	179 FFTFileCache::getValuesAt(size_t x, size_t y, float &real, float &imag) const
Chris@148	180 {
Chris@148	181 switch (m_storageType) {
Chris@148	182
Chris@148	183 case Rectangular:
Chris@148	184 real = getFromReadBufStandard(x, y * 2);
Chris@148	185 imag = getFromReadBufStandard(x, y * 2 + 1);
Chris@148	186 return;
Chris@148	187
Chris@148	188 default:
Chris@148	189 float mag = getMagnitudeAt(x, y);
Chris@148	190 float phase = getPhaseAt(x, y);
Chris@148	191 real = mag * cosf(phase);
Chris@148	192 imag = mag * sinf(phase);
Chris@148	193 return;
Chris@148	194 }
Chris@148	195 }
Chris@148	196
Chris@148	197 bool
Chris@148	198 FFTFileCache::haveSetColumnAt(size_t x) const
Chris@148	199 {
Chris@148	200 return m_mfc->haveSetColumnAt(x);
Chris@148	201 }
Chris@148	202
Chris@148	203 void
Chris@148	204 FFTFileCache::setColumnAt(size_t x, float mags, float phases, float factor)
Chris@148	205 {
Chris@148	206 QMutexLocker locker(&m_writeMutex);
Chris@148	207
Chris@148	208 size_t h = getHeight();
Chris@148	209
Chris@148	210 switch (m_storageType) {
Chris@148	211
Chris@148	212 case Compact:
Chris@148	213 for (size_t y = 0; y < h; ++y) {
Chris@148	214 ((uint16_t )m_writebuf)[y 2] = uint16_t((mags[y] / factor) * 65535.0);
Chris@148	215 ((uint16_t )m_writebuf)[y 2 + 1] = uint16_t(int16_t((phases[y] * 32767) / M_PI));
Chris@148	216 }
Chris@148	217 break;
Chris@148	218
Chris@148	219 case Rectangular:
Chris@148	220 for (size_t y = 0; y < h; ++y) {
Chris@148	221 ((float )m_writebuf)[y 2] = mags[y] * cosf(phases[y]);
Chris@148	222 ((float )m_writebuf)[y 2 + 1] = mags[y] * sinf(phases[y]);
Chris@148	223 }
Chris@148	224 break;
Chris@148	225
Chris@148	226 case Polar:
Chris@148	227 for (size_t y = 0; y < h; ++y) {
Chris@148	228 ((float )m_writebuf)[y 2] = mags[y];
Chris@148	229 ((float )m_writebuf)[y 2 + 1] = phases[y];
Chris@148	230 }
Chris@148	231 break;
Chris@148	232 }
Chris@148	233
Chris@266	234 // static float maxFactor = 0;
Chris@266	235 // if (factor > maxFactor) maxFactor = factor;
Chris@266	236 // std::cerr << "Column " << x << ": normalization factor: " << factor << ", max " << maxFactor << " (height " << getHeight() << ")" << std::endl;
Chris@148	237
Chris@266	238 setNormalizationFactorToWritebuf(factor);
Chris@266	239
Chris@148	240 m_mfc->setColumnAt(x, m_writebuf);
Chris@148	241 }
Chris@148	242
Chris@148	243 void
Chris@148	244 FFTFileCache::setColumnAt(size_t x, float real, float imag)
Chris@148	245 {
Chris@148	246 QMutexLocker locker(&m_writeMutex);
Chris@148	247
Chris@148	248 size_t h = getHeight();
Chris@148	249
Chris@266	250 float factor = 0.0f;
Chris@148	251
Chris@148	252 switch (m_storageType) {
Chris@148	253
Chris@148	254 case Compact:
Chris@148	255 for (size_t y = 0; y < h; ++y) {
Chris@148	256 float mag = sqrtf(real[y] * real[y] + imag[y] * imag[y]);
Chris@266	257 if (mag > factor) factor = mag;
Chris@148	258 }
Chris@148	259 for (size_t y = 0; y < h; ++y) {
Chris@148	260 float mag = sqrtf(real[y] * real[y] + imag[y] * imag[y]);
Chris@148	261 float phase = princargf(atan2f(imag[y], real[y]));
Chris@266	262 ((uint16_t )m_writebuf)[y 2] = uint16_t((mag / factor) * 65535.0);
Chris@148	263 ((uint16_t )m_writebuf)[y 2 + 1] = uint16_t(int16_t((phase * 32767) / M_PI));
Chris@148	264 }
Chris@148	265 break;
Chris@148	266
Chris@148	267 case Rectangular:
Chris@148	268 for (size_t y = 0; y < h; ++y) {
Chris@148	269 ((float )m_writebuf)[y 2] = real[y];
Chris@148	270 ((float )m_writebuf)[y 2 + 1] = imag[y];
Chris@148	271 float mag = sqrtf(real[y] * real[y] + imag[y] * imag[y]);
Chris@266	272 if (mag > factor) factor = mag;
Chris@148	273 }
Chris@148	274 break;
Chris@148	275
Chris@148	276 case Polar:
Chris@148	277 for (size_t y = 0; y < h; ++y) {
Chris@148	278 float mag = sqrtf(real[y] * real[y] + imag[y] * imag[y]);
Chris@266	279 if (mag > factor) factor = mag;
Chris@148	280 ((float )m_writebuf)[y 2] = mag;
Chris@290	281 float phase = princargf(atan2f(imag[y], real[y]));
Chris@290	282 ((float )m_writebuf)[y 2 + 1] = phase;
Chris@148	283 }
Chris@148	284 break;
Chris@148	285 }
Chris@148	286
Chris@266	287 // static float maxFactor = 0;
Chris@266	288 // if (factor > maxFactor) maxFactor = factor;
Chris@266	289 // std::cerr << "[RI] Column " << x << ": normalization factor: " << factor << ", max " << maxFactor << " (height " << getHeight() << ")" << std::endl;
Chris@266	290
Chris@266	291 setNormalizationFactorToWritebuf(factor);
Chris@266	292
Chris@148	293 m_mfc->setColumnAt(x, m_writebuf);
Chris@148	294 }
Chris@148	295
Chris@170	296 size_t
Chris@170	297 FFTFileCache::getCacheSize(size_t width, size_t height, StorageType type)
Chris@170	298 {
Chris@266	299 return (height * 2 + (type == Compact ? 2 : 1)) * width *
Chris@170	300 (type == Compact ? sizeof(uint16_t) : sizeof(float)) +
Chris@170	301 2 * sizeof(size_t); // matrix file header size
Chris@170	302 }
Chris@170	303
Chris@183	304 void
Chris@183	305 FFTFileCache::populateReadBuf(size_t x) const
Chris@183	306 {
Chris@183	307 Profiler profiler("FFTFileCache::populateReadBuf", false);
Chris@183	308
Chris@183	309 if (!m_readbuf) {
Chris@183	310 m_readbuf = new char[m_mfc->getHeight() * 2 * m_mfc->getCellSize()];
Chris@183	311 }
Chris@183	312 m_mfc->getColumnAt(x, m_readbuf);
Chris@183	313 if (m_mfc->haveSetColumnAt(x + 1)) {
Chris@183	314 m_mfc->getColumnAt
Chris@183	315 (x + 1, m_readbuf + m_mfc->getCellSize() * m_mfc->getHeight());
Chris@183	316 m_readbufWidth = 2;
Chris@183	317 } else {
Chris@183	318 m_readbufWidth = 1;
Chris@183	319 }
Chris@183	320 m_readbufCol = x;
Chris@183	321 }
Chris@183	322

Mercurial > hg > svcore

annotate data/fft/FFTFileCache.cpp @ 392:183ee2a55fc7