vamp-plugin-sdk: vamp-sdk/hostext/PluginInputDomainAdapter.cpp annotate

annotate vamp-sdk/hostext/PluginInputDomainAdapter.cpp @ 88:d17b9ca3b8c9

* add -o <file> option to vamp-simple-host

author	cannam
date	Fri, 12 Oct 2007 09:52:10 +0000
parents	64697dca0d48
children	c94c066a4897

rev	line source
cannam@64	1 /* -- c-basic-offset: 4 indent-tabs-mode: nil -- vi:set ts=8 sts=4 sw=4: */
cannam@64	2
cannam@64	3 /*
cannam@64	4 Vamp
cannam@64	5
cannam@64	6 An API for audio analysis and feature extraction plugins.
cannam@64	7
cannam@64	8 Centre for Digital Music, Queen Mary, University of London.
cannam@71	9 Copyright 2006-2007 Chris Cannam and QMUL.
cannam@64	10
cannam@64	11 Permission is hereby granted, free of charge, to any person
cannam@64	12 obtaining a copy of this software and associated documentation
cannam@64	13 files (the "Software"), to deal in the Software without
cannam@64	14 restriction, including without limitation the rights to use, copy,
cannam@64	15 modify, merge, publish, distribute, sublicense, and/or sell copies
cannam@64	16 of the Software, and to permit persons to whom the Software is
cannam@64	17 furnished to do so, subject to the following conditions:
cannam@64	18
cannam@64	19 The above copyright notice and this permission notice shall be
cannam@64	20 included in all copies or substantial portions of the Software.
cannam@64	21
cannam@64	22 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
cannam@64	23 EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
cannam@64	24 MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
cannam@64	25 NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR
cannam@64	26 ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF
cannam@64	27 CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
cannam@64	28 WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
cannam@64	29
cannam@64	30 Except as contained in this notice, the names of the Centre for
cannam@64	31 Digital Music; Queen Mary, University of London; and Chris Cannam
cannam@64	32 shall not be used in advertising or otherwise to promote the sale,
cannam@64	33 use or other dealings in this Software without prior written
cannam@64	34 authorization.
cannam@64	35 */
cannam@64	36
cannam@64	37 #include "PluginInputDomainAdapter.h"
cannam@64	38
cannam@64	39 #include <cmath>
cannam@64	40
cannam@64	41 namespace Vamp {
cannam@64	42
cannam@64	43 namespace HostExt {
cannam@64	44
cannam@70	45 class PluginInputDomainAdapter::Impl
cannam@70	46 {
cannam@70	47 public:
cannam@70	48 Impl(Plugin *plugin, float inputSampleRate);
cannam@70	49 ~Impl();
cannam@70	50
cannam@70	51 bool initialise(size_t channels, size_t stepSize, size_t blockSize);
cannam@70	52
cannam@70	53 size_t getPreferredStepSize() const;
cannam@70	54 size_t getPreferredBlockSize() const;
cannam@70	55
cannam@70	56 FeatureSet process(const float const inputBuffers, RealTime timestamp);
cannam@70	57
cannam@70	58 protected:
cannam@70	59 Plugin *m_plugin;
cannam@70	60 float m_inputSampleRate;
cannam@70	61 size_t m_channels;
cannam@70	62 size_t m_blockSize;
cannam@70	63 float **m_freqbuf;
cannam@70	64 double *m_ri;
cannam@70	65 double *m_ro;
cannam@70	66 double *m_io;
cannam@70	67
cannam@70	68 void fft(unsigned int n, bool inverse,
cannam@70	69 double ri, double ii, double ro, double io);
cannam@70	70
cannam@70	71 size_t makeBlockSizeAcceptable(size_t) const;
cannam@70	72 };
cannam@70	73
cannam@64	74 PluginInputDomainAdapter::PluginInputDomainAdapter(Plugin *plugin) :
cannam@70	75 PluginWrapper(plugin)
cannam@70	76 {
cannam@70	77 m_impl = new Impl(plugin, m_inputSampleRate);
cannam@70	78 }
cannam@70	79
cannam@70	80 PluginInputDomainAdapter::~PluginInputDomainAdapter()
cannam@70	81 {
cannam@70	82 delete m_impl;
cannam@70	83 }
cannam@70	84
cannam@70	85 bool
cannam@70	86 PluginInputDomainAdapter::initialise(size_t channels, size_t stepSize, size_t blockSize)
cannam@70	87 {
cannam@70	88 return m_impl->initialise(channels, stepSize, blockSize);
cannam@70	89 }
cannam@70	90
cannam@70	91 Plugin::InputDomain
cannam@70	92 PluginInputDomainAdapter::getInputDomain() const
cannam@70	93 {
cannam@70	94 return TimeDomain;
cannam@70	95 }
cannam@70	96
cannam@70	97 size_t
cannam@70	98 PluginInputDomainAdapter::getPreferredStepSize() const
cannam@70	99 {
cannam@70	100 return m_impl->getPreferredStepSize();
cannam@70	101 }
cannam@70	102
cannam@70	103 size_t
cannam@70	104 PluginInputDomainAdapter::getPreferredBlockSize() const
cannam@70	105 {
cannam@70	106 return m_impl->getPreferredBlockSize();
cannam@70	107 }
cannam@70	108
cannam@70	109 Plugin::FeatureSet
cannam@70	110 PluginInputDomainAdapter::process(const float const inputBuffers, RealTime timestamp)
cannam@70	111 {
cannam@70	112 return m_impl->process(inputBuffers, timestamp);
cannam@70	113 }
cannam@70	114
cannam@70	115 PluginInputDomainAdapter::Impl::Impl(Plugin *plugin, float inputSampleRate) :
cannam@70	116 m_plugin(plugin),
cannam@70	117 m_inputSampleRate(inputSampleRate),
cannam@64	118 m_channels(0),
cannam@64	119 m_blockSize(0),
cannam@64	120 m_freqbuf(0)
cannam@64	121 {
cannam@64	122 }
cannam@64	123
cannam@70	124 PluginInputDomainAdapter::Impl::~Impl()
cannam@64	125 {
cannam@70	126 // the adapter will delete the plugin
cannam@70	127
cannam@70	128 if (m_channels > 0) {
cannam@70	129 for (size_t c = 0; c < m_channels; ++c) {
cannam@70	130 delete[] m_freqbuf[c];
cannam@70	131 }
cannam@70	132 delete[] m_freqbuf;
cannam@70	133 delete[] m_ri;
cannam@70	134 delete[] m_ro;
cannam@70	135 delete[] m_io;
cannam@70	136 }
cannam@64	137 }
cannam@64	138
cannam@64	139 bool
cannam@70	140 PluginInputDomainAdapter::Impl::initialise(size_t channels, size_t stepSize, size_t blockSize)
cannam@64	141 {
cannam@64	142 if (m_plugin->getInputDomain() == TimeDomain) {
cannam@64	143
cannam@64	144 m_blockSize = blockSize;
cannam@64	145 m_channels = channels;
cannam@64	146
cannam@64	147 return m_plugin->initialise(channels, stepSize, blockSize);
cannam@64	148 }
cannam@64	149
cannam@64	150 if (blockSize < 2) {
cannam@70	151 std::cerr << "ERROR: Vamp::HostExt::PluginInputDomainAdapter::Impl::initialise: blocksize < 2 not supported" << std::endl;
cannam@64	152 return false;
cannam@64	153 }
cannam@64	154
cannam@64	155 if (blockSize & (blockSize-1)) {
cannam@70	156 std::cerr << "ERROR: Vamp::HostExt::PluginInputDomainAdapter::Impl::initialise: non-power-of-two\nblocksize " << blockSize << " not supported" << std::endl;
cannam@64	157 return false;
cannam@64	158 }
cannam@64	159
cannam@64	160 if (m_channels > 0) {
cannam@64	161 for (size_t c = 0; c < m_channels; ++c) {
cannam@64	162 delete[] m_freqbuf[c];
cannam@64	163 }
cannam@64	164 delete[] m_freqbuf;
cannam@64	165 delete[] m_ri;
cannam@64	166 delete[] m_ro;
cannam@64	167 delete[] m_io;
cannam@64	168 }
cannam@64	169
cannam@64	170 m_blockSize = blockSize;
cannam@64	171 m_channels = channels;
cannam@64	172
cannam@64	173 m_freqbuf = new float *[m_channels];
cannam@64	174 for (size_t c = 0; c < m_channels; ++c) {
cannam@64	175 m_freqbuf[c] = new float[m_blockSize + 2];
cannam@64	176 }
cannam@64	177 m_ri = new double[m_blockSize];
cannam@64	178 m_ro = new double[m_blockSize];
cannam@64	179 m_io = new double[m_blockSize];
cannam@64	180
cannam@64	181 return m_plugin->initialise(channels, stepSize, blockSize);
cannam@64	182 }
cannam@64	183
cannam@64	184 size_t
cannam@70	185 PluginInputDomainAdapter::Impl::getPreferredStepSize() const
cannam@64	186 {
cannam@64	187 size_t step = m_plugin->getPreferredStepSize();
cannam@64	188
cannam@64	189 if (step == 0 && (m_plugin->getInputDomain() == FrequencyDomain)) {
cannam@64	190 step = getPreferredBlockSize() / 2;
cannam@64	191 }
cannam@64	192
cannam@64	193 return step;
cannam@64	194 }
cannam@64	195
cannam@64	196 size_t
cannam@70	197 PluginInputDomainAdapter::Impl::getPreferredBlockSize() const
cannam@64	198 {
cannam@64	199 size_t block = m_plugin->getPreferredBlockSize();
cannam@64	200
cannam@64	201 if (m_plugin->getInputDomain() == FrequencyDomain) {
cannam@64	202 if (block == 0) {
cannam@64	203 block = 1024;
cannam@64	204 } else {
cannam@64	205 block = makeBlockSizeAcceptable(block);
cannam@64	206 }
cannam@64	207 }
cannam@64	208
cannam@64	209 return block;
cannam@64	210 }
cannam@64	211
cannam@64	212 size_t
cannam@70	213 PluginInputDomainAdapter::Impl::makeBlockSizeAcceptable(size_t blockSize) const
cannam@64	214 {
cannam@64	215 if (blockSize < 2) {
cannam@64	216
cannam@70	217 std::cerr << "WARNING: Vamp::HostExt::PluginInputDomainAdapter::Impl::initialise: blocksize < 2 not" << std::endl
cannam@64	218 << "supported, increasing from " << blockSize << " to 2" << std::endl;
cannam@64	219 blockSize = 2;
cannam@64	220
cannam@64	221 } else if (blockSize & (blockSize-1)) {
cannam@64	222
cannam@64	223 // not a power of two, can't handle that with our current fft
cannam@64	224 // implementation
cannam@64	225
cannam@64	226 size_t nearest = blockSize;
cannam@64	227 size_t power = 0;
cannam@64	228 while (nearest > 1) {
cannam@64	229 nearest >>= 1;
cannam@64	230 ++power;
cannam@64	231 }
cannam@64	232 nearest = 1;
cannam@64	233 while (power) {
cannam@64	234 nearest <<= 1;
cannam@64	235 --power;
cannam@64	236 }
cannam@64	237
cannam@64	238 if (blockSize - nearest > (nearest*2) - blockSize) {
cannam@64	239 nearest = nearest*2;
cannam@64	240 }
cannam@64	241
cannam@70	242 std::cerr << "WARNING: Vamp::HostExt::PluginInputDomainAdapter::Impl::initialise: non-power-of-two\nblocksize " << blockSize << " not supported, using blocksize " << nearest << " instead" << std::endl;
cannam@64	243 blockSize = nearest;
cannam@64	244 }
cannam@64	245
cannam@64	246 return blockSize;
cannam@64	247 }
cannam@64	248
cannam@68	249 // for some visual studii apparently
cannam@68	250 #ifndef M_PI
cannam@68	251 #define M_PI 3.14159265358979232846
cannam@68	252 #endif
cannam@68	253
cannam@64	254 Plugin::FeatureSet
cannam@70	255 PluginInputDomainAdapter::Impl::process(const float const inputBuffers,
cannam@70	256 RealTime timestamp)
cannam@64	257 {
cannam@64	258 if (m_plugin->getInputDomain() == TimeDomain) {
cannam@64	259 return m_plugin->process(inputBuffers, timestamp);
cannam@64	260 }
cannam@64	261
cannam@64	262 // The timestamp supplied should be (according to the Vamp::Plugin
cannam@64	263 // spec) the time of the start of the time-domain input block.
cannam@64	264 // However, we want to pass to the plugin an FFT output calculated
cannam@64	265 // from the block of samples _centred_ on that timestamp.
cannam@64	266 //
cannam@64	267 // We have two options:
cannam@64	268 //
cannam@64	269 // 1. Buffer the input, calculating the fft of the values at the
cannam@64	270 // passed-in block minus blockSize/2 rather than starting at the
cannam@64	271 // passed-in block. So each time we call process on the plugin,
cannam@64	272 // we are passing in the same timestamp as was passed to our own
cannam@64	273 // process plugin, but not (the frequency domain representation
cannam@64	274 // of) the same set of samples. Advantages: avoids confusion in
cannam@64	275 // the host by ensuring the returned values have timestamps
cannam@64	276 // comparable with that passed in to this function (in fact this
cannam@64	277 // is pretty much essential for one-value-per-block outputs);
cannam@64	278 // consistent with hosts such as SV that deal with the
cannam@64	279 // frequency-domain transform themselves. Disadvantages: means
cannam@64	280 // making the not necessarily correct assumption that the samples
cannam@64	281 // preceding the first official block are all zero (or some other
cannam@64	282 // known value).
cannam@64	283 //
cannam@64	284 // 2. Increase the passed-in timestamps by half the blocksize. So
cannam@64	285 // when we call process, we are passing in the frequency domain
cannam@64	286 // representation of the same set of samples as passed to us, but
cannam@64	287 // with a different timestamp. Advantages: simplicity; avoids
cannam@64	288 // iffy assumption mentioned above. Disadvantages: inconsistency
cannam@64	289 // with SV in cases where stepSize != blockSize/2; potential
cannam@64	290 // confusion arising from returned timestamps being calculated
cannam@64	291 // from the adjusted input timestamps rather than the original
cannam@64	292 // ones (and inaccuracy where the returned timestamp is implied,
cannam@64	293 // as in one-value-per-block).
cannam@64	294 //
cannam@64	295 // Neither way is ideal, but I don't think either is strictly
cannam@64	296 // incorrect either. I think this is just a case where the same
cannam@64	297 // plugin can legitimately produce differing results from the same
cannam@64	298 // input data, depending on how that data is packaged.
cannam@64	299 //
cannam@64	300 // We'll go for option 2, adjusting the timestamps. Note in
cannam@64	301 // particular that this means some results can differ from those
cannam@64	302 // produced by SV.
cannam@64	303
cannam@65	304 // std::cerr << "PluginInputDomainAdapter: sampleRate " << m_inputSampleRate << ", blocksize " << m_blockSize << ", adjusting time from " << timestamp;
cannam@64	305
cannam@68	306 timestamp = timestamp + RealTime::frame2RealTime
cannam@68	307 (m_blockSize/2, int(m_inputSampleRate + 0.5));
cannam@64	308
cannam@65	309 // std::cerr << " to " << timestamp << std::endl;
cannam@64	310
cannam@64	311 for (size_t c = 0; c < m_channels; ++c) {
cannam@64	312
cannam@64	313 for (size_t i = 0; i < m_blockSize; ++i) {
cannam@64	314 // Hanning window
cannam@64	315 m_ri[i] = double(inputBuffers[c][i])
cannam@64	316 * (0.50 - 0.50 * cos((2 * M_PI * i)
cannam@64	317 / m_blockSize));
cannam@64	318 }
cannam@64	319
cannam@64	320 for (size_t i = 0; i < m_blockSize/2; ++i) {
cannam@64	321 // FFT shift
cannam@64	322 double value = m_ri[i];
cannam@64	323 m_ri[i] = m_ri[i + m_blockSize/2];
cannam@64	324 m_ri[i + m_blockSize/2] = value;
cannam@64	325 }
cannam@64	326
cannam@64	327 fft(m_blockSize, false, m_ri, 0, m_ro, m_io);
cannam@64	328
cannam@64	329 for (size_t i = 0; i <= m_blockSize/2; ++i) {
cannam@64	330 m_freqbuf[c][i * 2] = m_ro[i];
cannam@64	331 m_freqbuf[c][i * 2 + 1] = m_io[i];
cannam@64	332 }
cannam@64	333 }
cannam@64	334
cannam@64	335 return m_plugin->process(m_freqbuf, timestamp);
cannam@64	336 }
cannam@64	337
cannam@64	338 void
cannam@70	339 PluginInputDomainAdapter::Impl::fft(unsigned int n, bool inverse,
cannam@70	340 double ri, double ii, double ro, double io)
cannam@64	341 {
cannam@64	342 if (!ri \|\| !ro \|\| !io) return;
cannam@64	343
cannam@64	344 unsigned int bits;
cannam@64	345 unsigned int i, j, k, m;
cannam@64	346 unsigned int blockSize, blockEnd;
cannam@64	347
cannam@64	348 double tr, ti;
cannam@64	349
cannam@64	350 if (n < 2) return;
cannam@64	351 if (n & (n-1)) return;
cannam@64	352
cannam@64	353 double angle = 2.0 * M_PI;
cannam@64	354 if (inverse) angle = -angle;
cannam@64	355
cannam@64	356 for (i = 0; ; ++i) {
cannam@64	357 if (n & (1 << i)) {
cannam@64	358 bits = i;
cannam@64	359 break;
cannam@64	360 }
cannam@64	361 }
cannam@64	362
cannam@64	363 static unsigned int tableSize = 0;
cannam@64	364 static int *table = 0;
cannam@64	365
cannam@64	366 if (tableSize != n) {
cannam@64	367
cannam@64	368 delete[] table;
cannam@64	369
cannam@64	370 table = new int[n];
cannam@64	371
cannam@64	372 for (i = 0; i < n; ++i) {
cannam@64	373
cannam@64	374 m = i;
cannam@64	375
cannam@64	376 for (j = k = 0; j < bits; ++j) {
cannam@64	377 k = (k << 1) \| (m & 1);
cannam@64	378 m >>= 1;
cannam@64	379 }
cannam@64	380
cannam@64	381 table[i] = k;
cannam@64	382 }
cannam@64	383
cannam@64	384 tableSize = n;
cannam@64	385 }
cannam@64	386
cannam@64	387 if (ii) {
cannam@64	388 for (i = 0; i < n; ++i) {
cannam@64	389 ro[table[i]] = ri[i];
cannam@64	390 io[table[i]] = ii[i];
cannam@64	391 }
cannam@64	392 } else {
cannam@64	393 for (i = 0; i < n; ++i) {
cannam@64	394 ro[table[i]] = ri[i];
cannam@64	395 io[table[i]] = 0.0;
cannam@64	396 }
cannam@64	397 }
cannam@64	398
cannam@64	399 blockEnd = 1;
cannam@64	400
cannam@64	401 for (blockSize = 2; blockSize <= n; blockSize <<= 1) {
cannam@64	402
cannam@64	403 double delta = angle / (double)blockSize;
cannam@64	404 double sm2 = -sin(-2 * delta);
cannam@64	405 double sm1 = -sin(-delta);
cannam@64	406 double cm2 = cos(-2 * delta);
cannam@64	407 double cm1 = cos(-delta);
cannam@64	408 double w = 2 * cm1;
cannam@64	409 double ar[3], ai[3];
cannam@64	410
cannam@64	411 for (i = 0; i < n; i += blockSize) {
cannam@64	412
cannam@64	413 ar[2] = cm2;
cannam@64	414 ar[1] = cm1;
cannam@64	415
cannam@64	416 ai[2] = sm2;
cannam@64	417 ai[1] = sm1;
cannam@64	418
cannam@64	419 for (j = i, m = 0; m < blockEnd; j++, m++) {
cannam@64	420
cannam@64	421 ar[0] = w * ar[1] - ar[2];
cannam@64	422 ar[2] = ar[1];
cannam@64	423 ar[1] = ar[0];
cannam@64	424
cannam@64	425 ai[0] = w * ai[1] - ai[2];
cannam@64	426 ai[2] = ai[1];
cannam@64	427 ai[1] = ai[0];
cannam@64	428
cannam@64	429 k = j + blockEnd;
cannam@64	430 tr = ar[0] * ro[k] - ai[0] * io[k];
cannam@64	431 ti = ar[0] * io[k] + ai[0] * ro[k];
cannam@64	432
cannam@64	433 ro[k] = ro[j] - tr;
cannam@64	434 io[k] = io[j] - ti;
cannam@64	435
cannam@64	436 ro[j] += tr;
cannam@64	437 io[j] += ti;
cannam@64	438 }
cannam@64	439 }
cannam@64	440
cannam@64	441 blockEnd = blockSize;
cannam@64	442 }
cannam@64	443
cannam@64	444 if (inverse) {
cannam@64	445
cannam@64	446 double denom = (double)n;
cannam@64	447
cannam@64	448 for (i = 0; i < n; i++) {
cannam@64	449 ro[i] /= denom;
cannam@64	450 io[i] /= denom;
cannam@64	451 }
cannam@64	452 }
cannam@64	453 }
cannam@64	454
cannam@64	455 }
cannam@64	456
cannam@64	457 }
cannam@64	458

Mercurial > hg > vamp-plugin-sdk

annotate vamp-sdk/hostext/PluginInputDomainAdapter.cpp @ 88:d17b9ca3b8c9