annotate data/fft/FFTDataServer.cpp @ 165:5ae5885d6ce3

* Add support for plugin classification using category files. Add separate menus listing plugins by category, maker, and plugin name.
author Chris Cannam
date Thu, 21 Sep 2006 16:43:50 +0000
parents e5879045d22b
children 04baa690f90d
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@148 7 This file copyright 2006 Chris Cannam.
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 "FFTDataServer.h"
Chris@148 17
Chris@148 18 #include "FFTFileCache.h"
Chris@159 19 #include "FFTMemoryCache.h"
Chris@148 20
Chris@148 21 #include "model/DenseTimeValueModel.h"
Chris@148 22
Chris@150 23 #include "system/System.h"
Chris@148 24
Chris@153 25 #define DEBUG_FFT_SERVER 1
Chris@154 26 //#define DEBUG_FFT_SERVER_FILL 1
Chris@148 27
Chris@148 28 #ifdef DEBUG_FFT_SERVER_FILL
Chris@153 29 #ifndef DEBUG_FFT_SERVER
Chris@153 30 #define DEBUG_FFT_SERVER 1
Chris@153 31 #endif
Chris@148 32 #endif
Chris@148 33
Chris@148 34 FFTDataServer::ServerMap FFTDataServer::m_servers;
Chris@148 35 QMutex FFTDataServer::m_serverMapMutex;
Chris@148 36
Chris@148 37 FFTDataServer *
Chris@148 38 FFTDataServer::getInstance(const DenseTimeValueModel *model,
Chris@148 39 int channel,
Chris@148 40 WindowType windowType,
Chris@148 41 size_t windowSize,
Chris@148 42 size_t windowIncrement,
Chris@148 43 size_t fftSize,
Chris@148 44 bool polar,
Chris@148 45 size_t fillFromColumn)
Chris@148 46 {
Chris@148 47 QString n = generateFileBasename(model,
Chris@148 48 channel,
Chris@148 49 windowType,
Chris@148 50 windowSize,
Chris@148 51 windowIncrement,
Chris@148 52 fftSize,
Chris@148 53 polar);
Chris@148 54
Chris@148 55 FFTDataServer *server = 0;
Chris@148 56
Chris@148 57 QMutexLocker locker(&m_serverMapMutex);
Chris@148 58
Chris@148 59 if ((server = findServer(n))) {
Chris@148 60 return server;
Chris@148 61 }
Chris@148 62
Chris@148 63 QString npn = generateFileBasename(model,
Chris@148 64 channel,
Chris@148 65 windowType,
Chris@148 66 windowSize,
Chris@148 67 windowIncrement,
Chris@148 68 fftSize,
Chris@148 69 !polar);
Chris@148 70
Chris@148 71 if ((server = findServer(npn))) {
Chris@148 72 return server;
Chris@148 73 }
Chris@148 74
Chris@148 75 m_servers[n] = ServerCountPair
Chris@148 76 (new FFTDataServer(n,
Chris@148 77 model,
Chris@148 78 channel,
Chris@148 79 windowType,
Chris@148 80 windowSize,
Chris@148 81 windowIncrement,
Chris@148 82 fftSize,
Chris@148 83 polar,
Chris@148 84 fillFromColumn),
Chris@148 85 1);
Chris@148 86
Chris@148 87 return m_servers[n].first;
Chris@148 88 }
Chris@148 89
Chris@148 90 FFTDataServer *
Chris@148 91 FFTDataServer::getFuzzyInstance(const DenseTimeValueModel *model,
Chris@148 92 int channel,
Chris@148 93 WindowType windowType,
Chris@148 94 size_t windowSize,
Chris@148 95 size_t windowIncrement,
Chris@148 96 size_t fftSize,
Chris@148 97 bool polar,
Chris@148 98 size_t fillFromColumn)
Chris@148 99 {
Chris@148 100 // Fuzzy matching:
Chris@148 101 //
Chris@148 102 // -- if we're asked for polar and have non-polar, use it (and
Chris@148 103 // vice versa). This one is vital, and we do it for non-fuzzy as
Chris@148 104 // well (above).
Chris@148 105 //
Chris@148 106 // -- if we're asked for an instance with a given fft size and we
Chris@148 107 // have one already with a multiple of that fft size but the same
Chris@148 108 // window size and type (and model), we can draw the results from
Chris@148 109 // it (e.g. the 1st, 2nd, 3rd etc bins of a 512-sample FFT are the
Chris@148 110 // same as the the 1st, 5th, 9th etc of a 2048-sample FFT of the
Chris@148 111 // same window plus zero padding).
Chris@148 112 //
Chris@148 113 // -- if we're asked for an instance with a given window type and
Chris@148 114 // size and fft size and we have one already the same but with a
Chris@148 115 // smaller increment, we can draw the results from it (provided
Chris@148 116 // our increment is a multiple of its)
Chris@148 117 //
Chris@152 118 // The FFTModel knows how to interpret these things. In
Chris@148 119 // both cases we require that the larger one is a power-of-two
Chris@148 120 // multiple of the smaller (e.g. even though in principle you can
Chris@148 121 // draw the results at increment 256 from those at increment 768
Chris@152 122 // or 1536, the model doesn't support this).
Chris@148 123
Chris@148 124 {
Chris@148 125 QMutexLocker locker(&m_serverMapMutex);
Chris@148 126
Chris@148 127 ServerMap::iterator best = m_servers.end();
Chris@148 128 int bestdist = -1;
Chris@148 129
Chris@148 130 for (ServerMap::iterator i = m_servers.begin(); i != m_servers.end(); ++i) {
Chris@148 131
Chris@148 132 FFTDataServer *server = i->second.first;
Chris@148 133
Chris@148 134 if (server->getModel() == model &&
Chris@148 135 (server->getChannel() == channel || model->getChannelCount() == 1) &&
Chris@148 136 server->getWindowType() == windowType &&
Chris@148 137 server->getWindowSize() == windowSize &&
Chris@148 138 server->getWindowIncrement() <= windowIncrement &&
Chris@148 139 server->getFFTSize() >= fftSize) {
Chris@148 140
Chris@148 141 if ((windowIncrement % server->getWindowIncrement()) != 0) continue;
Chris@148 142 int ratio = windowIncrement / server->getWindowIncrement();
Chris@148 143 bool poweroftwo = true;
Chris@148 144 while (ratio > 1) {
Chris@148 145 if (ratio & 0x1) {
Chris@148 146 poweroftwo = false;
Chris@148 147 break;
Chris@148 148 }
Chris@148 149 ratio >>= 1;
Chris@148 150 }
Chris@148 151 if (!poweroftwo) continue;
Chris@148 152
Chris@148 153 if ((server->getFFTSize() % fftSize) != 0) continue;
Chris@148 154 ratio = server->getFFTSize() / fftSize;
Chris@148 155 while (ratio > 1) {
Chris@148 156 if (ratio & 0x1) {
Chris@148 157 poweroftwo = false;
Chris@148 158 break;
Chris@148 159 }
Chris@148 160 ratio >>= 1;
Chris@148 161 }
Chris@148 162 if (!poweroftwo) continue;
Chris@148 163
Chris@148 164 int distance = 0;
Chris@148 165
Chris@148 166 if (server->getPolar() != polar) distance += 1;
Chris@148 167
Chris@148 168 distance += ((windowIncrement / server->getWindowIncrement()) - 1) * 15;
Chris@148 169 distance += ((server->getFFTSize() / fftSize) - 1) * 10;
Chris@148 170
Chris@148 171 if (server->getFillCompletion() < 50) distance += 100;
Chris@148 172
Chris@148 173 #ifdef DEBUG_FFT_SERVER
Chris@148 174 std::cerr << "Distance " << distance << ", best is " << bestdist << std::endl;
Chris@148 175 #endif
Chris@148 176
Chris@148 177 if (bestdist == -1 || distance < bestdist) {
Chris@148 178 bestdist = distance;
Chris@148 179 best = i;
Chris@148 180 }
Chris@148 181 }
Chris@148 182 }
Chris@148 183
Chris@148 184 if (bestdist >= 0) {
Chris@148 185 ++best->second.second;
Chris@148 186 return best->second.first;
Chris@148 187 }
Chris@148 188 }
Chris@148 189
Chris@148 190 // Nothing found, make a new one
Chris@148 191
Chris@148 192 return getInstance(model,
Chris@148 193 channel,
Chris@148 194 windowType,
Chris@148 195 windowSize,
Chris@148 196 windowIncrement,
Chris@148 197 fftSize,
Chris@148 198 polar,
Chris@148 199 fillFromColumn);
Chris@148 200 }
Chris@148 201
Chris@148 202 FFTDataServer *
Chris@148 203 FFTDataServer::findServer(QString n)
Chris@148 204 {
Chris@148 205 if (m_servers.find(n) != m_servers.end()) {
Chris@148 206 ++m_servers[n].second;
Chris@148 207 return m_servers[n].first;
Chris@148 208 }
Chris@148 209
Chris@148 210 return 0;
Chris@148 211 }
Chris@148 212
Chris@148 213 void
Chris@152 214 FFTDataServer::claimInstance(FFTDataServer *server)
Chris@152 215 {
Chris@152 216
Chris@152 217 QMutexLocker locker(&m_serverMapMutex);
Chris@152 218
Chris@152 219 for (ServerMap::iterator i = m_servers.begin(); i != m_servers.end(); ++i) {
Chris@152 220 if (i->second.first == server) {
Chris@152 221 ++i->second.second;
Chris@152 222 return;
Chris@152 223 }
Chris@152 224 }
Chris@152 225
Chris@152 226 std::cerr << "ERROR: FFTDataServer::claimInstance: instance "
Chris@152 227 << server << " unknown!" << std::endl;
Chris@152 228 }
Chris@152 229
Chris@152 230 void
Chris@148 231 FFTDataServer::releaseInstance(FFTDataServer *server)
Chris@148 232 {
Chris@148 233 #ifdef DEBUG_FFT_SERVER
Chris@148 234 std::cerr << "FFTDataServer::releaseInstance(" << server << ")" << std::endl;
Chris@148 235 #endif
Chris@148 236
Chris@148 237 QMutexLocker locker(&m_serverMapMutex);
Chris@148 238
Chris@148 239 //!!! not a good strategy. Want something like:
Chris@148 240
Chris@148 241 // -- if ref count > 0, decrement and return
Chris@148 242 // -- if the instance hasn't been used at all, delete it immediately
Chris@148 243 // -- if fewer than N instances (N = e.g. 3) remain with zero refcounts,
Chris@148 244 // leave them hanging around
Chris@148 245 // -- if N instances with zero refcounts remain, delete the one that
Chris@148 246 // was last released first
Chris@148 247 // -- if we run out of disk space when allocating an instance, go back
Chris@148 248 // and delete the spare N instances before trying again
Chris@148 249 // -- have an additional method to indicate that a model has been
Chris@148 250 // destroyed, so that we can delete all of its fft server instances
Chris@148 251
Chris@148 252 // also:
Chris@148 253 //
Chris@148 254
Chris@148 255 for (ServerMap::iterator i = m_servers.begin(); i != m_servers.end(); ++i) {
Chris@148 256 if (i->second.first == server) {
Chris@148 257 if (i->second.second == 0) {
Chris@148 258 std::cerr << "ERROR: FFTDataServer::releaseInstance("
Chris@148 259 << server << "): instance not allocated" << std::endl;
Chris@148 260 } else if (--i->second.second == 0) {
Chris@148 261 if (server->m_lastUsedCache == -1) { // never used
Chris@148 262 delete server;
Chris@148 263 m_servers.erase(i);
Chris@148 264 } else {
Chris@148 265 server->suspend();
Chris@148 266 purgeLimbo();
Chris@148 267 }
Chris@148 268 }
Chris@148 269 return;
Chris@148 270 }
Chris@148 271 }
Chris@148 272
Chris@148 273 std::cerr << "ERROR: FFTDataServer::releaseInstance(" << server << "): "
Chris@148 274 << "instance not found" << std::endl;
Chris@148 275 }
Chris@148 276
Chris@148 277 void
Chris@148 278 FFTDataServer::purgeLimbo(int maxSize)
Chris@148 279 {
Chris@148 280 ServerMap::iterator i = m_servers.end();
Chris@148 281
Chris@148 282 int count = 0;
Chris@148 283
Chris@148 284 while (i != m_servers.begin()) {
Chris@148 285 --i;
Chris@148 286 if (i->second.second == 0) {
Chris@148 287 if (++count > maxSize) {
Chris@148 288 delete i->second.first;
Chris@148 289 m_servers.erase(i);
Chris@148 290 return;
Chris@148 291 }
Chris@148 292 }
Chris@148 293 }
Chris@148 294 }
Chris@148 295
Chris@148 296 FFTDataServer::FFTDataServer(QString fileBaseName,
Chris@148 297 const DenseTimeValueModel *model,
Chris@148 298 int channel,
Chris@148 299 WindowType windowType,
Chris@148 300 size_t windowSize,
Chris@148 301 size_t windowIncrement,
Chris@148 302 size_t fftSize,
Chris@148 303 bool polar,
Chris@148 304 size_t fillFromColumn) :
Chris@148 305 m_fileBaseName(fileBaseName),
Chris@148 306 m_model(model),
Chris@148 307 m_channel(channel),
Chris@148 308 m_windower(windowType, windowSize),
Chris@148 309 m_windowSize(windowSize),
Chris@148 310 m_windowIncrement(windowIncrement),
Chris@148 311 m_fftSize(fftSize),
Chris@148 312 m_polar(polar),
Chris@148 313 m_lastUsedCache(-1),
Chris@148 314 m_fftInput(0),
Chris@148 315 m_exiting(false),
Chris@153 316 m_suspended(true), //!!! or false?
Chris@148 317 m_fillThread(0)
Chris@148 318 {
Chris@148 319 size_t start = m_model->getStartFrame();
Chris@148 320 size_t end = m_model->getEndFrame();
Chris@148 321
Chris@148 322 m_width = (end - start) / m_windowIncrement + 1;
Chris@148 323 m_height = m_fftSize / 2;
Chris@148 324
Chris@148 325 size_t maxCacheSize = 20 * 1024 * 1024;
Chris@148 326 size_t columnSize = m_height * sizeof(fftsample) * 2 + sizeof(fftsample);
Chris@148 327 if (m_width * columnSize < maxCacheSize * 2) m_cacheWidth = m_width;
Chris@148 328 else m_cacheWidth = maxCacheSize / columnSize;
Chris@148 329
Chris@148 330 int bits = 0;
Chris@148 331 while (m_cacheWidth) { m_cacheWidth >>= 1; ++bits; }
Chris@148 332 m_cacheWidth = 2;
Chris@148 333 while (bits) { m_cacheWidth <<= 1; --bits; }
Chris@148 334
Chris@148 335 #ifdef DEBUG_FFT_SERVER
Chris@148 336 std::cerr << "Width " << m_width << ", cache width " << m_cacheWidth << " (size " << m_cacheWidth * columnSize << ")" << std::endl;
Chris@148 337 #endif
Chris@148 338
Chris@148 339 for (size_t i = 0; i <= m_width / m_cacheWidth; ++i) {
Chris@148 340 m_caches.push_back(0);
Chris@148 341 }
Chris@148 342
Chris@148 343 m_fftInput = (fftsample *)
Chris@148 344 fftwf_malloc(fftSize * sizeof(fftsample));
Chris@148 345
Chris@148 346 m_fftOutput = (fftwf_complex *)
Chris@148 347 fftwf_malloc(fftSize * sizeof(fftwf_complex));
Chris@148 348
Chris@148 349 m_workbuffer = (float *)
Chris@148 350 fftwf_malloc(fftSize * sizeof(float));
Chris@148 351
Chris@148 352 m_fftPlan = fftwf_plan_dft_r2c_1d(m_fftSize,
Chris@148 353 m_fftInput,
Chris@148 354 m_fftOutput,
Chris@148 355 FFTW_ESTIMATE);
Chris@148 356
Chris@148 357 if (!m_fftPlan) {
Chris@148 358 std::cerr << "ERROR: fftwf_plan_dft_r2c_1d(" << m_windowSize << ") failed!" << std::endl;
Chris@148 359 throw(0);
Chris@148 360 }
Chris@148 361
Chris@148 362 m_fillThread = new FillThread(*this, fillFromColumn);
Chris@148 363 }
Chris@148 364
Chris@148 365 FFTDataServer::~FFTDataServer()
Chris@148 366 {
Chris@148 367 #ifdef DEBUG_FFT_SERVER
Chris@148 368 std::cerr << "FFTDataServer(" << this << ")::~FFTDataServer()" << std::endl;
Chris@148 369 #endif
Chris@148 370
Chris@155 371 m_suspended = false;
Chris@148 372 m_exiting = true;
Chris@148 373 m_condition.wakeAll();
Chris@148 374 if (m_fillThread) {
Chris@148 375 m_fillThread->wait();
Chris@148 376 delete m_fillThread;
Chris@148 377 }
Chris@148 378
Chris@148 379 QMutexLocker locker(&m_writeMutex);
Chris@148 380
Chris@148 381 for (CacheVector::iterator i = m_caches.begin(); i != m_caches.end(); ++i) {
Chris@148 382 delete *i;
Chris@148 383 }
Chris@148 384
Chris@148 385 deleteProcessingData();
Chris@148 386 }
Chris@148 387
Chris@148 388 void
Chris@148 389 FFTDataServer::deleteProcessingData()
Chris@148 390 {
Chris@148 391 if (m_fftInput) {
Chris@148 392 fftwf_destroy_plan(m_fftPlan);
Chris@148 393 fftwf_free(m_fftInput);
Chris@148 394 fftwf_free(m_fftOutput);
Chris@148 395 fftwf_free(m_workbuffer);
Chris@148 396 }
Chris@148 397 m_fftInput = 0;
Chris@148 398 }
Chris@148 399
Chris@148 400 void
Chris@148 401 FFTDataServer::suspend()
Chris@148 402 {
Chris@148 403 #ifdef DEBUG_FFT_SERVER
Chris@148 404 std::cerr << "FFTDataServer(" << this << "): suspend" << std::endl;
Chris@148 405 #endif
Chris@148 406 QMutexLocker locker(&m_writeMutex);
Chris@148 407 m_suspended = true;
Chris@148 408 for (CacheVector::iterator i = m_caches.begin(); i != m_caches.end(); ++i) {
Chris@148 409 if (*i) (*i)->suspend();
Chris@148 410 }
Chris@148 411 }
Chris@148 412
Chris@148 413 void
Chris@155 414 FFTDataServer::suspendWrites()
Chris@155 415 {
Chris@155 416 #ifdef DEBUG_FFT_SERVER
Chris@155 417 std::cerr << "FFTDataServer(" << this << "): suspendWrites" << std::endl;
Chris@155 418 #endif
Chris@155 419 m_suspended = true;
Chris@155 420 }
Chris@155 421
Chris@155 422 void
Chris@148 423 FFTDataServer::resume()
Chris@148 424 {
Chris@154 425 #ifdef DEBUG_FFT_SERVER
Chris@154 426 std::cerr << "FFTDataServer(" << this << "): resume" << std::endl;
Chris@154 427 #endif
Chris@148 428 m_suspended = false;
Chris@157 429 if (m_fillThread) {
Chris@157 430 if (m_fillThread->isFinished()) {
Chris@157 431 delete m_fillThread;
Chris@157 432 m_fillThread = 0;
Chris@157 433 deleteProcessingData();
Chris@157 434 } else {
Chris@157 435 m_condition.wakeAll();
Chris@157 436 }
Chris@157 437 }
Chris@148 438 }
Chris@148 439
Chris@148 440 FFTCache *
Chris@148 441 FFTDataServer::getCacheAux(size_t c)
Chris@148 442 {
Chris@148 443 QMutexLocker locker(&m_writeMutex);
Chris@148 444
Chris@148 445 if (m_lastUsedCache == -1) {
Chris@148 446 m_fillThread->start();
Chris@148 447 }
Chris@148 448
Chris@148 449 if (int(c) != m_lastUsedCache) {
Chris@148 450
Chris@148 451 // std::cerr << "switch from " << m_lastUsedCache << " to " << c << std::endl;
Chris@148 452
Chris@148 453 for (IntQueue::iterator i = m_dormantCaches.begin();
Chris@148 454 i != m_dormantCaches.end(); ++i) {
Chris@148 455 if (*i == c) {
Chris@148 456 m_dormantCaches.erase(i);
Chris@148 457 break;
Chris@148 458 }
Chris@148 459 }
Chris@148 460
Chris@148 461 if (m_lastUsedCache >= 0) {
Chris@148 462 bool inDormant = false;
Chris@148 463 for (size_t i = 0; i < m_dormantCaches.size(); ++i) {
Chris@148 464 if (m_dormantCaches[i] == m_lastUsedCache) {
Chris@148 465 inDormant = true;
Chris@148 466 break;
Chris@148 467 }
Chris@148 468 }
Chris@148 469 if (!inDormant) {
Chris@148 470 m_dormantCaches.push_back(m_lastUsedCache);
Chris@148 471 }
Chris@148 472 while (m_dormantCaches.size() > 4) {
Chris@148 473 int dc = m_dormantCaches.front();
Chris@148 474 m_dormantCaches.pop_front();
Chris@148 475 m_caches[dc]->suspend();
Chris@148 476 }
Chris@148 477 }
Chris@148 478 }
Chris@148 479
Chris@148 480 if (m_caches[c]) {
Chris@148 481 m_lastUsedCache = c;
Chris@148 482 return m_caches[c];
Chris@148 483 }
Chris@148 484
Chris@148 485 QString name = QString("%1-%2").arg(m_fileBaseName).arg(c);
Chris@148 486
Chris@148 487 FFTCache *cache = new FFTFileCache(name, MatrixFile::ReadWrite,
Chris@148 488 m_polar ? FFTFileCache::Polar :
Chris@148 489 FFTFileCache::Rectangular);
Chris@148 490
Chris@159 491 // FFTCache *cache = new FFTMemoryCache();
Chris@159 492
Chris@148 493 size_t width = m_cacheWidth;
Chris@148 494 if (c * m_cacheWidth + width > m_width) {
Chris@148 495 width = m_width - c * m_cacheWidth;
Chris@148 496 }
Chris@148 497
Chris@148 498 cache->resize(width, m_height);
Chris@148 499 cache->reset();
Chris@148 500
Chris@148 501 m_caches[c] = cache;
Chris@148 502 m_lastUsedCache = c;
Chris@148 503
Chris@148 504 return cache;
Chris@148 505 }
Chris@148 506
Chris@148 507 float
Chris@148 508 FFTDataServer::getMagnitudeAt(size_t x, size_t y)
Chris@148 509 {
Chris@148 510 size_t col;
Chris@148 511 FFTCache *cache = getCache(x, col);
Chris@148 512
Chris@148 513 if (!cache->haveSetColumnAt(col)) {
Chris@148 514 fillColumn(x);
Chris@148 515 }
Chris@148 516 return cache->getMagnitudeAt(col, y);
Chris@148 517 }
Chris@148 518
Chris@148 519 float
Chris@148 520 FFTDataServer::getNormalizedMagnitudeAt(size_t x, size_t y)
Chris@148 521 {
Chris@148 522 size_t col;
Chris@148 523 FFTCache *cache = getCache(x, col);
Chris@148 524
Chris@148 525 if (!cache->haveSetColumnAt(col)) {
Chris@148 526 fillColumn(x);
Chris@148 527 }
Chris@148 528 return cache->getNormalizedMagnitudeAt(col, y);
Chris@148 529 }
Chris@148 530
Chris@148 531 float
Chris@148 532 FFTDataServer::getMaximumMagnitudeAt(size_t x)
Chris@148 533 {
Chris@148 534 size_t col;
Chris@148 535 FFTCache *cache = getCache(x, col);
Chris@148 536
Chris@148 537 if (!cache->haveSetColumnAt(col)) {
Chris@148 538 fillColumn(x);
Chris@148 539 }
Chris@148 540 return cache->getMaximumMagnitudeAt(col);
Chris@148 541 }
Chris@148 542
Chris@148 543 float
Chris@148 544 FFTDataServer::getPhaseAt(size_t x, size_t y)
Chris@148 545 {
Chris@148 546 size_t col;
Chris@148 547 FFTCache *cache = getCache(x, col);
Chris@148 548
Chris@148 549 if (!cache->haveSetColumnAt(col)) {
Chris@148 550 fillColumn(x);
Chris@148 551 }
Chris@148 552 return cache->getPhaseAt(col, y);
Chris@148 553 }
Chris@148 554
Chris@148 555 void
Chris@148 556 FFTDataServer::getValuesAt(size_t x, size_t y, float &real, float &imaginary)
Chris@148 557 {
Chris@148 558 size_t col;
Chris@148 559 FFTCache *cache = getCache(x, col);
Chris@148 560
Chris@148 561 if (!cache->haveSetColumnAt(col)) {
Chris@148 562 #ifdef DEBUG_FFT_SERVER
Chris@148 563 std::cerr << "FFTDataServer::getValuesAt(" << x << ", " << y << "): filling" << std::endl;
Chris@148 564 #endif
Chris@148 565 fillColumn(x);
Chris@148 566 }
Chris@148 567 float magnitude = cache->getMagnitudeAt(col, y);
Chris@148 568 float phase = cache->getPhaseAt(col, y);
Chris@148 569 real = magnitude * cosf(phase);
Chris@148 570 imaginary = magnitude * sinf(phase);
Chris@148 571 }
Chris@148 572
Chris@148 573 bool
Chris@148 574 FFTDataServer::isColumnReady(size_t x)
Chris@148 575 {
Chris@148 576 if (!haveCache(x)) {
Chris@148 577 if (m_lastUsedCache == -1) {
Chris@154 578 if (m_suspended) resume();
Chris@148 579 m_fillThread->start();
Chris@148 580 }
Chris@148 581 return false;
Chris@148 582 }
Chris@148 583
Chris@148 584 size_t col;
Chris@148 585 FFTCache *cache = getCache(x, col);
Chris@148 586
Chris@148 587 return cache->haveSetColumnAt(col);
Chris@148 588 }
Chris@148 589
Chris@148 590 void
Chris@148 591 FFTDataServer::fillColumn(size_t x)
Chris@148 592 {
Chris@148 593 size_t col;
Chris@148 594 #ifdef DEBUG_FFT_SERVER_FILL
Chris@148 595 std::cout << "FFTDataServer::fillColumn(" << x << ")" << std::endl;
Chris@148 596 #endif
Chris@148 597 FFTCache *cache = getCache(x, col);
Chris@148 598
Chris@148 599 QMutexLocker locker(&m_writeMutex);
Chris@148 600
Chris@148 601 if (cache->haveSetColumnAt(col)) return;
Chris@148 602
Chris@148 603 int startFrame = m_windowIncrement * x;
Chris@148 604 int endFrame = startFrame + m_windowSize;
Chris@148 605
Chris@148 606 startFrame -= int(m_windowSize - m_windowIncrement) / 2;
Chris@148 607 endFrame -= int(m_windowSize - m_windowIncrement) / 2;
Chris@148 608 size_t pfx = 0;
Chris@148 609
Chris@148 610 size_t off = (m_fftSize - m_windowSize) / 2;
Chris@148 611
Chris@148 612 for (size_t i = 0; i < off; ++i) {
Chris@148 613 m_fftInput[i] = 0.0;
Chris@148 614 m_fftInput[m_fftSize - i - 1] = 0.0;
Chris@148 615 }
Chris@148 616
Chris@148 617 if (startFrame < 0) {
Chris@148 618 pfx = size_t(-startFrame);
Chris@148 619 for (size_t i = 0; i < pfx; ++i) {
Chris@148 620 m_fftInput[off + i] = 0.0;
Chris@148 621 }
Chris@148 622 }
Chris@148 623
Chris@148 624 size_t got = m_model->getValues(m_channel, startFrame + pfx,
Chris@148 625 endFrame, m_fftInput + off + pfx);
Chris@148 626
Chris@148 627 while (got + pfx < m_windowSize) {
Chris@148 628 m_fftInput[off + got + pfx] = 0.0;
Chris@148 629 ++got;
Chris@148 630 }
Chris@148 631
Chris@148 632 if (m_channel == -1) {
Chris@148 633 int channels = m_model->getChannelCount();
Chris@148 634 if (channels > 1) {
Chris@148 635 for (size_t i = 0; i < m_windowSize; ++i) {
Chris@148 636 m_fftInput[off + i] /= channels;
Chris@148 637 }
Chris@148 638 }
Chris@148 639 }
Chris@148 640
Chris@148 641 m_windower.cut(m_fftInput + off);
Chris@148 642
Chris@148 643 for (size_t i = 0; i < m_fftSize/2; ++i) {
Chris@148 644 fftsample temp = m_fftInput[i];
Chris@148 645 m_fftInput[i] = m_fftInput[i + m_fftSize/2];
Chris@148 646 m_fftInput[i + m_fftSize/2] = temp;
Chris@148 647 }
Chris@148 648
Chris@148 649 fftwf_execute(m_fftPlan);
Chris@148 650
Chris@148 651 fftsample factor = 0.0;
Chris@148 652
Chris@148 653 for (size_t i = 0; i < m_fftSize/2; ++i) {
Chris@148 654
Chris@148 655 fftsample mag = sqrtf(m_fftOutput[i][0] * m_fftOutput[i][0] +
Chris@148 656 m_fftOutput[i][1] * m_fftOutput[i][1]);
Chris@148 657 mag /= m_windowSize / 2;
Chris@148 658
Chris@148 659 if (mag > factor) factor = mag;
Chris@148 660
Chris@148 661 fftsample phase = atan2f(m_fftOutput[i][1], m_fftOutput[i][0]);
Chris@148 662 phase = princargf(phase);
Chris@148 663
Chris@148 664 m_workbuffer[i] = mag;
Chris@148 665 m_workbuffer[i + m_fftSize/2] = phase;
Chris@148 666 }
Chris@148 667
Chris@148 668 cache->setColumnAt(col,
Chris@148 669 m_workbuffer,
Chris@148 670 m_workbuffer + m_fftSize/2,
Chris@148 671 factor);
Chris@154 672
Chris@154 673 if (m_suspended) resume();
Chris@148 674 }
Chris@148 675
Chris@148 676 size_t
Chris@148 677 FFTDataServer::getFillCompletion() const
Chris@148 678 {
Chris@148 679 if (m_fillThread) return m_fillThread->getCompletion();
Chris@148 680 else return 100;
Chris@148 681 }
Chris@148 682
Chris@148 683 size_t
Chris@148 684 FFTDataServer::getFillExtent() const
Chris@148 685 {
Chris@148 686 if (m_fillThread) return m_fillThread->getExtent();
Chris@148 687 else return m_model->getEndFrame();
Chris@148 688 }
Chris@148 689
Chris@148 690 QString
Chris@148 691 FFTDataServer::generateFileBasename() const
Chris@148 692 {
Chris@148 693 return generateFileBasename(m_model, m_channel, m_windower.getType(),
Chris@148 694 m_windowSize, m_windowIncrement, m_fftSize,
Chris@148 695 m_polar);
Chris@148 696 }
Chris@148 697
Chris@148 698 QString
Chris@148 699 FFTDataServer::generateFileBasename(const DenseTimeValueModel *model,
Chris@148 700 int channel,
Chris@148 701 WindowType windowType,
Chris@148 702 size_t windowSize,
Chris@148 703 size_t windowIncrement,
Chris@148 704 size_t fftSize,
Chris@148 705 bool polar)
Chris@148 706 {
Chris@148 707 char buffer[200];
Chris@148 708
Chris@148 709 sprintf(buffer, "%u-%u-%u-%u-%u-%u%s",
Chris@148 710 (unsigned int)XmlExportable::getObjectExportId(model),
Chris@148 711 (unsigned int)(channel + 1),
Chris@148 712 (unsigned int)windowType,
Chris@148 713 (unsigned int)windowSize,
Chris@148 714 (unsigned int)windowIncrement,
Chris@148 715 (unsigned int)fftSize,
Chris@148 716 polar ? "-p" : "-r");
Chris@148 717
Chris@148 718 return buffer;
Chris@148 719 }
Chris@148 720
Chris@148 721 void
Chris@148 722 FFTDataServer::FillThread::run()
Chris@148 723 {
Chris@148 724 m_extent = 0;
Chris@148 725 m_completion = 0;
Chris@148 726
Chris@148 727 size_t start = m_server.m_model->getStartFrame();
Chris@148 728 size_t end = m_server.m_model->getEndFrame();
Chris@148 729 size_t remainingEnd = end;
Chris@148 730
Chris@148 731 int counter = 0;
Chris@148 732 int updateAt = (end / m_server.m_windowIncrement) / 20;
Chris@148 733 if (updateAt < 100) updateAt = 100;
Chris@148 734
Chris@148 735 if (m_fillFrom > start) {
Chris@148 736
Chris@148 737 for (size_t f = m_fillFrom; f < end; f += m_server.m_windowIncrement) {
Chris@148 738
Chris@148 739 m_server.fillColumn(int((f - start) / m_server.m_windowIncrement));
Chris@148 740
Chris@148 741 if (m_server.m_exiting) return;
Chris@148 742
Chris@148 743 while (m_server.m_suspended) {
Chris@148 744 #ifdef DEBUG_FFT_SERVER
Chris@148 745 std::cerr << "FFTDataServer(" << this << "): suspended, waiting..." << std::endl;
Chris@148 746 #endif
Chris@148 747 m_server.m_writeMutex.lock();
Chris@148 748 m_server.m_condition.wait(&m_server.m_writeMutex, 10000);
Chris@148 749 m_server.m_writeMutex.unlock();
Chris@159 750 #ifdef DEBUG_FFT_SERVER
Chris@159 751 std::cerr << "FFTDataServer(" << this << "): waited" << std::endl;
Chris@159 752 #endif
Chris@148 753 if (m_server.m_exiting) return;
Chris@148 754 }
Chris@148 755
Chris@148 756 if (++counter == updateAt) {
Chris@148 757 m_extent = f;
Chris@148 758 m_completion = size_t(100 * fabsf(float(f - m_fillFrom) /
Chris@148 759 float(end - start)));
Chris@148 760 counter = 0;
Chris@148 761 }
Chris@148 762 }
Chris@148 763
Chris@148 764 remainingEnd = m_fillFrom;
Chris@148 765 if (remainingEnd > start) --remainingEnd;
Chris@148 766 else remainingEnd = start;
Chris@148 767 }
Chris@148 768
Chris@148 769 size_t baseCompletion = m_completion;
Chris@148 770
Chris@148 771 for (size_t f = start; f < remainingEnd; f += m_server.m_windowIncrement) {
Chris@148 772
Chris@148 773 m_server.fillColumn(int((f - start) / m_server.m_windowIncrement));
Chris@148 774
Chris@148 775 if (m_server.m_exiting) return;
Chris@148 776
Chris@148 777 while (m_server.m_suspended) {
Chris@148 778 #ifdef DEBUG_FFT_SERVER
Chris@148 779 std::cerr << "FFTDataServer(" << this << "): suspended, waiting..." << std::endl;
Chris@148 780 #endif
Chris@148 781 m_server.m_writeMutex.lock();
Chris@148 782 m_server.m_condition.wait(&m_server.m_writeMutex, 10000);
Chris@148 783 m_server.m_writeMutex.unlock();
Chris@148 784 if (m_server.m_exiting) return;
Chris@148 785 }
Chris@148 786
Chris@148 787 if (++counter == updateAt) {
Chris@148 788 m_extent = f;
Chris@148 789 m_completion = baseCompletion +
Chris@148 790 size_t(100 * fabsf(float(f - start) /
Chris@148 791 float(end - start)));
Chris@148 792 counter = 0;
Chris@148 793 }
Chris@148 794 }
Chris@148 795
Chris@148 796 m_completion = 100;
Chris@148 797 m_extent = end;
Chris@148 798 }
Chris@148 799