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annotate layer/SpectrogramLayer.cpp @ 327:29fcf125f98b

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* Pass StorageAdviser::Criteria into FFTModel constructor etc
author Chris Cannam
date Sun, 11 Nov 2007 20:31:12 +0000
parents 4f4f38a11cd2
children bbc9666cb961 d2d2521a6c7e
rev   line source
Chris@58 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@0 2
Chris@0 3 /*
Chris@59 4 Sonic Visualiser
Chris@59 5 An audio file viewer and annotation editor.
Chris@59 6 Centre for Digital Music, Queen Mary, University of London.
Chris@182 7 This file copyright 2006 Chris Cannam and QMUL.
Chris@0 8
Chris@59 9 This program is free software; you can redistribute it and/or
Chris@59 10 modify it under the terms of the GNU General Public License as
Chris@59 11 published by the Free Software Foundation; either version 2 of the
Chris@59 12 License, or (at your option) any later version. See the file
Chris@59 13 COPYING included with this distribution for more information.
Chris@0 14 */
Chris@0 15
Chris@0 16 #include "SpectrogramLayer.h"
Chris@0 17
Chris@128 18 #include "view/View.h"
Chris@0 19 #include "base/Profiler.h"
Chris@0 20 #include "base/AudioLevel.h"
Chris@0 21 #include "base/Window.h"
Chris@24 22 #include "base/Pitch.h"
Chris@118 23 #include "base/Preferences.h"
Chris@167 24 #include "base/RangeMapper.h"
Chris@253 25 #include "base/LogRange.h"
Chris@283 26 #include "base/CommandHistory.h"
Chris@285 27 #include "base/ColourMapper.h"
Chris@283 28 #include "ImageRegionFinder.h"
Chris@0 29
Chris@0 30 #include <QPainter>
Chris@0 31 #include <QImage>
Chris@0 32 #include <QPixmap>
Chris@0 33 #include <QRect>
Chris@0 34 #include <QTimer>
Chris@92 35 #include <QApplication>
Chris@178 36 #include <QMessageBox>
Chris@283 37 #include <QMouseEvent>
Chris@316 38 #include <QTextStream>
Chris@0 39
Chris@0 40 #include <iostream>
Chris@0 41
Chris@0 42 #include <cassert>
Chris@0 43 #include <cmath>
Chris@0 44
Chris@174 45 //#define DEBUG_SPECTROGRAM_REPAINT 1
Chris@0 46
Chris@44 47 SpectrogramLayer::SpectrogramLayer(Configuration config) :
Chris@0 48 m_model(0),
Chris@0 49 m_channel(0),
Chris@0 50 m_windowSize(1024),
Chris@0 51 m_windowType(HanningWindow),
Chris@97 52 m_windowHopLevel(2),
Chris@109 53 m_zeroPadLevel(0),
Chris@107 54 m_fftSize(1024),
Chris@0 55 m_gain(1.0),
Chris@215 56 m_initialGain(1.0),
Chris@37 57 m_threshold(0.0),
Chris@215 58 m_initialThreshold(0.0),
Chris@9 59 m_colourRotation(0),
Chris@215 60 m_initialRotation(0),
Chris@119 61 m_minFrequency(10),
Chris@0 62 m_maxFrequency(8000),
Chris@135 63 m_initialMaxFrequency(8000),
Chris@0 64 m_colourScale(dBColourScale),
Chris@197 65 m_colourMap(0),
Chris@0 66 m_frequencyScale(LinearFrequencyScale),
Chris@37 67 m_binDisplay(AllBins),
Chris@36 68 m_normalizeColumns(false),
Chris@120 69 m_normalizeVisibleArea(false),
Chris@133 70 m_lastEmittedZoomStep(-1),
Chris@215 71 m_lastPaintBlockWidth(0),
Chris@0 72 m_updateTimer(0),
Chris@44 73 m_candidateFillStartFrame(0),
Chris@193 74 m_exiting(false),
Chris@193 75 m_sliceableModel(0)
Chris@0 76 {
Chris@215 77 if (config == FullRangeDb) {
Chris@215 78 m_initialMaxFrequency = 0;
Chris@215 79 setMaxFrequency(0);
Chris@215 80 } else if (config == MelodicRange) {
Chris@0 81 setWindowSize(8192);
Chris@97 82 setWindowHopLevel(4);
Chris@215 83 m_initialMaxFrequency = 1500;
Chris@215 84 setMaxFrequency(1500);
Chris@215 85 setMinFrequency(40);
Chris@0 86 setColourScale(LinearColourScale);
Chris@215 87 setColourMap(ColourMapper::Sunset);
Chris@215 88 setFrequencyScale(LogFrequencyScale);
Chris@224 89 // setGain(20);
Chris@37 90 } else if (config == MelodicPeaks) {
Chris@37 91 setWindowSize(4096);
Chris@97 92 setWindowHopLevel(5);
Chris@135 93 m_initialMaxFrequency = 2000;
Chris@40 94 setMaxFrequency(2000);
Chris@37 95 setMinFrequency(40);
Chris@37 96 setFrequencyScale(LogFrequencyScale);
Chris@215 97 setColourScale(LinearColourScale);
Chris@37 98 setBinDisplay(PeakFrequencies);
Chris@37 99 setNormalizeColumns(true);
Chris@0 100 }
Chris@110 101
Chris@122 102 Preferences *prefs = Preferences::getInstance();
Chris@122 103 connect(prefs, SIGNAL(propertyChanged(PropertyContainer::PropertyName)),
Chris@122 104 this, SLOT(preferenceChanged(PropertyContainer::PropertyName)));
Chris@122 105 setWindowType(prefs->getWindowType());
Chris@122 106
Chris@197 107 initialisePalette();
Chris@0 108 }
Chris@0 109
Chris@0 110 SpectrogramLayer::~SpectrogramLayer()
Chris@0 111 {
Chris@0 112 delete m_updateTimer;
Chris@0 113 m_updateTimer = 0;
Chris@0 114
Chris@130 115 invalidateFFTModels();
Chris@0 116 }
Chris@0 117
Chris@0 118 void
Chris@0 119 SpectrogramLayer::setModel(const DenseTimeValueModel *model)
Chris@0 120 {
Chris@101 121 // std::cerr << "SpectrogramLayer(" << this << "): setModel(" << model << ")" << std::endl;
Chris@34 122
Chris@110 123 if (model == m_model) return;
Chris@110 124
Chris@0 125 m_model = model;
Chris@130 126 invalidateFFTModels();
Chris@0 127
Chris@0 128 if (!m_model || !m_model->isOK()) return;
Chris@0 129
Chris@320 130 connectSignals(m_model);
Chris@0 131
Chris@0 132 connect(m_model, SIGNAL(modelChanged()), this, SLOT(cacheInvalid()));
Chris@0 133 connect(m_model, SIGNAL(modelChanged(size_t, size_t)),
Chris@0 134 this, SLOT(cacheInvalid(size_t, size_t)));
Chris@0 135
Chris@0 136 emit modelReplaced();
Chris@110 137 }
Chris@115 138
Chris@0 139 Layer::PropertyList
Chris@0 140 SpectrogramLayer::getProperties() const
Chris@0 141 {
Chris@0 142 PropertyList list;
Chris@87 143 list.push_back("Colour");
Chris@87 144 list.push_back("Colour Scale");
Chris@87 145 list.push_back("Window Size");
Chris@97 146 list.push_back("Window Increment");
Chris@87 147 list.push_back("Normalize Columns");
Chris@120 148 list.push_back("Normalize Visible Area");
Chris@87 149 list.push_back("Bin Display");
Chris@87 150 list.push_back("Threshold");
Chris@87 151 list.push_back("Gain");
Chris@87 152 list.push_back("Colour Rotation");
Chris@153 153 // list.push_back("Min Frequency");
Chris@153 154 // list.push_back("Max Frequency");
Chris@87 155 list.push_back("Frequency Scale");
Chris@153 156 //// list.push_back("Zero Padding");
Chris@0 157 return list;
Chris@0 158 }
Chris@0 159
Chris@87 160 QString
Chris@87 161 SpectrogramLayer::getPropertyLabel(const PropertyName &name) const
Chris@87 162 {
Chris@87 163 if (name == "Colour") return tr("Colour");
Chris@87 164 if (name == "Colour Scale") return tr("Colour Scale");
Chris@87 165 if (name == "Window Size") return tr("Window Size");
Chris@112 166 if (name == "Window Increment") return tr("Window Overlap");
Chris@87 167 if (name == "Normalize Columns") return tr("Normalize Columns");
Chris@120 168 if (name == "Normalize Visible Area") return tr("Normalize Visible Area");
Chris@87 169 if (name == "Bin Display") return tr("Bin Display");
Chris@87 170 if (name == "Threshold") return tr("Threshold");
Chris@87 171 if (name == "Gain") return tr("Gain");
Chris@87 172 if (name == "Colour Rotation") return tr("Colour Rotation");
Chris@87 173 if (name == "Min Frequency") return tr("Min Frequency");
Chris@87 174 if (name == "Max Frequency") return tr("Max Frequency");
Chris@87 175 if (name == "Frequency Scale") return tr("Frequency Scale");
Chris@109 176 if (name == "Zero Padding") return tr("Smoothing");
Chris@87 177 return "";
Chris@87 178 }
Chris@87 179
Chris@0 180 Layer::PropertyType
Chris@0 181 SpectrogramLayer::getPropertyType(const PropertyName &name) const
Chris@0 182 {
Chris@87 183 if (name == "Gain") return RangeProperty;
Chris@87 184 if (name == "Colour Rotation") return RangeProperty;
Chris@87 185 if (name == "Normalize Columns") return ToggleProperty;
Chris@120 186 if (name == "Normalize Visible Area") return ToggleProperty;
Chris@87 187 if (name == "Threshold") return RangeProperty;
Chris@109 188 if (name == "Zero Padding") return ToggleProperty;
Chris@0 189 return ValueProperty;
Chris@0 190 }
Chris@0 191
Chris@0 192 QString
Chris@0 193 SpectrogramLayer::getPropertyGroupName(const PropertyName &name) const
Chris@0 194 {
Chris@153 195 if (name == "Bin Display" ||
Chris@153 196 name == "Frequency Scale") return tr("Bins");
Chris@87 197 if (name == "Window Size" ||
Chris@109 198 name == "Window Increment" ||
Chris@109 199 name == "Zero Padding") return tr("Window");
Chris@87 200 if (name == "Colour" ||
Chris@87 201 name == "Threshold" ||
Chris@87 202 name == "Colour Rotation") return tr("Colour");
Chris@87 203 if (name == "Normalize Columns" ||
Chris@120 204 name == "Normalize Visible Area" ||
Chris@153 205 name == "Gain" ||
Chris@87 206 name == "Colour Scale") return tr("Scale");
Chris@0 207 return QString();
Chris@0 208 }
Chris@0 209
Chris@0 210 int
Chris@0 211 SpectrogramLayer::getPropertyRangeAndValue(const PropertyName &name,
Chris@216 212 int *min, int *max, int *deflt) const
Chris@0 213 {
Chris@216 214 int val = 0;
Chris@216 215
Chris@216 216 int garbage0, garbage1, garbage2;
Chris@55 217 if (!min) min = &garbage0;
Chris@55 218 if (!max) max = &garbage1;
Chris@216 219 if (!deflt) deflt = &garbage2;
Chris@10 220
Chris@87 221 if (name == "Gain") {
Chris@0 222
Chris@0 223 *min = -50;
Chris@0 224 *max = 50;
Chris@0 225
Chris@216 226 *deflt = lrintf(log10(m_initialGain) * 20.0);;
Chris@216 227 if (*deflt < *min) *deflt = *min;
Chris@216 228 if (*deflt > *max) *deflt = *max;
Chris@216 229
Chris@216 230 val = lrintf(log10(m_gain) * 20.0);
Chris@216 231 if (val < *min) val = *min;
Chris@216 232 if (val > *max) val = *max;
Chris@0 233
Chris@87 234 } else if (name == "Threshold") {
Chris@37 235
Chris@37 236 *min = -50;
Chris@37 237 *max = 0;
Chris@37 238
Chris@216 239 *deflt = lrintf(AudioLevel::multiplier_to_dB(m_initialThreshold));
Chris@216 240 if (*deflt < *min) *deflt = *min;
Chris@216 241 if (*deflt > *max) *deflt = *max;
Chris@216 242
Chris@216 243 val = lrintf(AudioLevel::multiplier_to_dB(m_threshold));
Chris@216 244 if (val < *min) val = *min;
Chris@216 245 if (val > *max) val = *max;
Chris@37 246
Chris@87 247 } else if (name == "Colour Rotation") {
Chris@9 248
Chris@9 249 *min = 0;
Chris@9 250 *max = 256;
Chris@216 251 *deflt = m_initialRotation;
Chris@216 252
Chris@216 253 val = m_colourRotation;
Chris@9 254
Chris@87 255 } else if (name == "Colour Scale") {
Chris@0 256
Chris@0 257 *min = 0;
Chris@176 258 *max = 4;
Chris@216 259 *deflt = int(dBColourScale);
Chris@216 260
Chris@216 261 val = (int)m_colourScale;
Chris@0 262
Chris@87 263 } else if (name == "Colour") {
Chris@0 264
Chris@0 265 *min = 0;
Chris@196 266 *max = ColourMapper::getColourMapCount() - 1;
Chris@216 267 *deflt = 0;
Chris@216 268
Chris@216 269 val = m_colourMap;
Chris@0 270
Chris@87 271 } else if (name == "Window Size") {
Chris@0 272
Chris@0 273 *min = 0;
Chris@0 274 *max = 10;
Chris@216 275 *deflt = 5;
Chris@0 276
Chris@216 277 val = 0;
Chris@0 278 int ws = m_windowSize;
Chris@216 279 while (ws > 32) { ws >>= 1; val ++; }
Chris@0 280
Chris@97 281 } else if (name == "Window Increment") {
Chris@0 282
Chris@0 283 *min = 0;
Chris@97 284 *max = 5;
Chris@216 285 *deflt = 2;
Chris@216 286
Chris@216 287 val = m_windowHopLevel;
Chris@0 288
Chris@109 289 } else if (name == "Zero Padding") {
Chris@109 290
Chris@109 291 *min = 0;
Chris@109 292 *max = 1;
Chris@216 293 *deflt = 0;
Chris@109 294
Chris@216 295 val = m_zeroPadLevel > 0 ? 1 : 0;
Chris@109 296
Chris@87 297 } else if (name == "Min Frequency") {
Chris@37 298
Chris@37 299 *min = 0;
Chris@37 300 *max = 9;
Chris@216 301 *deflt = 1;
Chris@37 302
Chris@37 303 switch (m_minFrequency) {
Chris@216 304 case 0: default: val = 0; break;
Chris@216 305 case 10: val = 1; break;
Chris@216 306 case 20: val = 2; break;
Chris@216 307 case 40: val = 3; break;
Chris@216 308 case 100: val = 4; break;
Chris@216 309 case 250: val = 5; break;
Chris@216 310 case 500: val = 6; break;
Chris@216 311 case 1000: val = 7; break;
Chris@216 312 case 4000: val = 8; break;
Chris@216 313 case 10000: val = 9; break;
Chris@37 314 }
Chris@37 315
Chris@87 316 } else if (name == "Max Frequency") {
Chris@0 317
Chris@0 318 *min = 0;
Chris@0 319 *max = 9;
Chris@216 320 *deflt = 6;
Chris@0 321
Chris@0 322 switch (m_maxFrequency) {
Chris@216 323 case 500: val = 0; break;
Chris@216 324 case 1000: val = 1; break;
Chris@216 325 case 1500: val = 2; break;
Chris@216 326 case 2000: val = 3; break;
Chris@216 327 case 4000: val = 4; break;
Chris@216 328 case 6000: val = 5; break;
Chris@216 329 case 8000: val = 6; break;
Chris@216 330 case 12000: val = 7; break;
Chris@216 331 case 16000: val = 8; break;
Chris@216 332 default: val = 9; break;
Chris@0 333 }
Chris@0 334
Chris@87 335 } else if (name == "Frequency Scale") {
Chris@0 336
Chris@0 337 *min = 0;
Chris@0 338 *max = 1;
Chris@216 339 *deflt = int(LinearFrequencyScale);
Chris@216 340 val = (int)m_frequencyScale;
Chris@0 341
Chris@87 342 } else if (name == "Bin Display") {
Chris@35 343
Chris@35 344 *min = 0;
Chris@35 345 *max = 2;
Chris@216 346 *deflt = int(AllBins);
Chris@216 347 val = (int)m_binDisplay;
Chris@35 348
Chris@87 349 } else if (name == "Normalize Columns") {
Chris@36 350
Chris@216 351 *deflt = 0;
Chris@216 352 val = (m_normalizeColumns ? 1 : 0);
Chris@36 353
Chris@120 354 } else if (name == "Normalize Visible Area") {
Chris@120 355
Chris@216 356 *deflt = 0;
Chris@216 357 val = (m_normalizeVisibleArea ? 1 : 0);
Chris@120 358
Chris@0 359 } else {
Chris@216 360 val = Layer::getPropertyRangeAndValue(name, min, max, deflt);
Chris@0 361 }
Chris@0 362
Chris@216 363 return val;
Chris@0 364 }
Chris@0 365
Chris@0 366 QString
Chris@0 367 SpectrogramLayer::getPropertyValueLabel(const PropertyName &name,
Chris@9 368 int value) const
Chris@0 369 {
Chris@87 370 if (name == "Colour") {
Chris@196 371 return ColourMapper::getColourMapName(value);
Chris@0 372 }
Chris@87 373 if (name == "Colour Scale") {
Chris@0 374 switch (value) {
Chris@0 375 default:
Chris@37 376 case 0: return tr("Linear");
Chris@37 377 case 1: return tr("Meter");
Chris@215 378 case 2: return tr("dBV^2");
Chris@215 379 case 3: return tr("dBV");
Chris@119 380 case 4: return tr("Phase");
Chris@0 381 }
Chris@0 382 }
Chris@87 383 if (name == "Window Size") {
Chris@0 384 return QString("%1").arg(32 << value);
Chris@0 385 }
Chris@97 386 if (name == "Window Increment") {
Chris@0 387 switch (value) {
Chris@0 388 default:
Chris@112 389 case 0: return tr("None");
Chris@112 390 case 1: return tr("25 %");
Chris@112 391 case 2: return tr("50 %");
Chris@112 392 case 3: return tr("75 %");
Chris@112 393 case 4: return tr("87.5 %");
Chris@112 394 case 5: return tr("93.75 %");
Chris@0 395 }
Chris@0 396 }
Chris@109 397 if (name == "Zero Padding") {
Chris@109 398 if (value == 0) return tr("None");
Chris@109 399 return QString("%1x").arg(value + 1);
Chris@109 400 }
Chris@87 401 if (name == "Min Frequency") {
Chris@37 402 switch (value) {
Chris@37 403 default:
Chris@38 404 case 0: return tr("No min");
Chris@37 405 case 1: return tr("10 Hz");
Chris@37 406 case 2: return tr("20 Hz");
Chris@37 407 case 3: return tr("40 Hz");
Chris@37 408 case 4: return tr("100 Hz");
Chris@37 409 case 5: return tr("250 Hz");
Chris@37 410 case 6: return tr("500 Hz");
Chris@37 411 case 7: return tr("1 KHz");
Chris@37 412 case 8: return tr("4 KHz");
Chris@37 413 case 9: return tr("10 KHz");
Chris@37 414 }
Chris@37 415 }
Chris@87 416 if (name == "Max Frequency") {
Chris@0 417 switch (value) {
Chris@0 418 default:
Chris@0 419 case 0: return tr("500 Hz");
Chris@0 420 case 1: return tr("1 KHz");
Chris@0 421 case 2: return tr("1.5 KHz");
Chris@0 422 case 3: return tr("2 KHz");
Chris@0 423 case 4: return tr("4 KHz");
Chris@0 424 case 5: return tr("6 KHz");
Chris@0 425 case 6: return tr("8 KHz");
Chris@0 426 case 7: return tr("12 KHz");
Chris@0 427 case 8: return tr("16 KHz");
Chris@38 428 case 9: return tr("No max");
Chris@0 429 }
Chris@0 430 }
Chris@87 431 if (name == "Frequency Scale") {
Chris@0 432 switch (value) {
Chris@0 433 default:
Chris@0 434 case 0: return tr("Linear");
Chris@0 435 case 1: return tr("Log");
Chris@0 436 }
Chris@0 437 }
Chris@87 438 if (name == "Bin Display") {
Chris@35 439 switch (value) {
Chris@35 440 default:
Chris@37 441 case 0: return tr("All Bins");
Chris@37 442 case 1: return tr("Peak Bins");
Chris@37 443 case 2: return tr("Frequencies");
Chris@35 444 }
Chris@35 445 }
Chris@0 446 return tr("<unknown>");
Chris@0 447 }
Chris@0 448
Chris@167 449 RangeMapper *
Chris@167 450 SpectrogramLayer::getNewPropertyRangeMapper(const PropertyName &name) const
Chris@167 451 {
Chris@167 452 if (name == "Gain") {
Chris@167 453 return new LinearRangeMapper(-50, 50, -25, 25, tr("dB"));
Chris@167 454 }
Chris@167 455 if (name == "Threshold") {
Chris@167 456 return new LinearRangeMapper(-50, 0, -50, 0, tr("dB"));
Chris@167 457 }
Chris@167 458 return 0;
Chris@167 459 }
Chris@167 460
Chris@0 461 void
Chris@0 462 SpectrogramLayer::setProperty(const PropertyName &name, int value)
Chris@0 463 {
Chris@87 464 if (name == "Gain") {
Chris@0 465 setGain(pow(10, float(value)/20.0));
Chris@87 466 } else if (name == "Threshold") {
Chris@37 467 if (value == -50) setThreshold(0.0);
Chris@37 468 else setThreshold(AudioLevel::dB_to_multiplier(value));
Chris@87 469 } else if (name == "Colour Rotation") {
Chris@9 470 setColourRotation(value);
Chris@87 471 } else if (name == "Colour") {
Chris@197 472 setColourMap(value);
Chris@87 473 } else if (name == "Window Size") {
Chris@0 474 setWindowSize(32 << value);
Chris@97 475 } else if (name == "Window Increment") {
Chris@97 476 setWindowHopLevel(value);
Chris@109 477 } else if (name == "Zero Padding") {
Chris@109 478 setZeroPadLevel(value > 0.1 ? 3 : 0);
Chris@87 479 } else if (name == "Min Frequency") {
Chris@37 480 switch (value) {
Chris@37 481 default:
Chris@37 482 case 0: setMinFrequency(0); break;
Chris@37 483 case 1: setMinFrequency(10); break;
Chris@37 484 case 2: setMinFrequency(20); break;
Chris@37 485 case 3: setMinFrequency(40); break;
Chris@37 486 case 4: setMinFrequency(100); break;
Chris@37 487 case 5: setMinFrequency(250); break;
Chris@37 488 case 6: setMinFrequency(500); break;
Chris@37 489 case 7: setMinFrequency(1000); break;
Chris@37 490 case 8: setMinFrequency(4000); break;
Chris@37 491 case 9: setMinFrequency(10000); break;
Chris@37 492 }
Chris@133 493 int vs = getCurrentVerticalZoomStep();
Chris@133 494 if (vs != m_lastEmittedZoomStep) {
Chris@133 495 emit verticalZoomChanged();
Chris@133 496 m_lastEmittedZoomStep = vs;
Chris@133 497 }
Chris@87 498 } else if (name == "Max Frequency") {
Chris@0 499 switch (value) {
Chris@0 500 case 0: setMaxFrequency(500); break;
Chris@0 501 case 1: setMaxFrequency(1000); break;
Chris@0 502 case 2: setMaxFrequency(1500); break;
Chris@0 503 case 3: setMaxFrequency(2000); break;
Chris@0 504 case 4: setMaxFrequency(4000); break;
Chris@0 505 case 5: setMaxFrequency(6000); break;
Chris@0 506 case 6: setMaxFrequency(8000); break;
Chris@0 507 case 7: setMaxFrequency(12000); break;
Chris@0 508 case 8: setMaxFrequency(16000); break;
Chris@0 509 default:
Chris@0 510 case 9: setMaxFrequency(0); break;
Chris@0 511 }
Chris@133 512 int vs = getCurrentVerticalZoomStep();
Chris@133 513 if (vs != m_lastEmittedZoomStep) {
Chris@133 514 emit verticalZoomChanged();
Chris@133 515 m_lastEmittedZoomStep = vs;
Chris@133 516 }
Chris@87 517 } else if (name == "Colour Scale") {
Chris@0 518 switch (value) {
Chris@0 519 default:
Chris@0 520 case 0: setColourScale(LinearColourScale); break;
Chris@0 521 case 1: setColourScale(MeterColourScale); break;
Chris@215 522 case 2: setColourScale(dBSquaredColourScale); break;
Chris@215 523 case 3: setColourScale(dBColourScale); break;
Chris@119 524 case 4: setColourScale(PhaseColourScale); break;
Chris@0 525 }
Chris@87 526 } else if (name == "Frequency Scale") {
Chris@0 527 switch (value) {
Chris@0 528 default:
Chris@0 529 case 0: setFrequencyScale(LinearFrequencyScale); break;
Chris@0 530 case 1: setFrequencyScale(LogFrequencyScale); break;
Chris@0 531 }
Chris@87 532 } else if (name == "Bin Display") {
Chris@35 533 switch (value) {
Chris@35 534 default:
Chris@37 535 case 0: setBinDisplay(AllBins); break;
Chris@37 536 case 1: setBinDisplay(PeakBins); break;
Chris@37 537 case 2: setBinDisplay(PeakFrequencies); break;
Chris@35 538 }
Chris@82 539 } else if (name == "Normalize Columns") {
Chris@36 540 setNormalizeColumns(value ? true : false);
Chris@120 541 } else if (name == "Normalize Visible Area") {
Chris@120 542 setNormalizeVisibleArea(value ? true : false);
Chris@0 543 }
Chris@0 544 }
Chris@0 545
Chris@0 546 void
Chris@95 547 SpectrogramLayer::invalidatePixmapCaches()
Chris@95 548 {
Chris@95 549 for (ViewPixmapCache::iterator i = m_pixmapCaches.begin();
Chris@95 550 i != m_pixmapCaches.end(); ++i) {
Chris@95 551 i->second.validArea = QRect();
Chris@95 552 }
Chris@95 553 }
Chris@95 554
Chris@95 555 void
Chris@95 556 SpectrogramLayer::invalidatePixmapCaches(size_t startFrame, size_t endFrame)
Chris@95 557 {
Chris@95 558 for (ViewPixmapCache::iterator i = m_pixmapCaches.begin();
Chris@95 559 i != m_pixmapCaches.end(); ++i) {
Chris@131 560
Chris@95 561 //!!! when are views removed from the map? on setLayerDormant?
Chris@95 562 const View *v = i->first;
Chris@95 563
Chris@115 564 if (startFrame < v->getEndFrame() && int(endFrame) >= v->getStartFrame()) {
Chris@95 565 i->second.validArea = QRect();
Chris@95 566 }
Chris@95 567 }
Chris@95 568 }
Chris@95 569
Chris@95 570 void
Chris@122 571 SpectrogramLayer::preferenceChanged(PropertyContainer::PropertyName name)
Chris@122 572 {
Chris@122 573 std::cerr << "SpectrogramLayer::preferenceChanged(" << name.toStdString() << ")" << std::endl;
Chris@122 574
Chris@122 575 if (name == "Window Type") {
Chris@122 576 setWindowType(Preferences::getInstance()->getWindowType());
Chris@122 577 return;
Chris@122 578 }
Chris@221 579 if (name == "Spectrogram Smoothing") {
Chris@122 580 invalidatePixmapCaches();
Chris@122 581 invalidateMagnitudes();
Chris@122 582 emit layerParametersChanged();
Chris@122 583 }
Chris@122 584 if (name == "Tuning Frequency") {
Chris@122 585 emit layerParametersChanged();
Chris@122 586 }
Chris@122 587 }
Chris@122 588
Chris@122 589 void
Chris@0 590 SpectrogramLayer::setChannel(int ch)
Chris@0 591 {
Chris@0 592 if (m_channel == ch) return;
Chris@0 593
Chris@95 594 invalidatePixmapCaches();
Chris@0 595 m_channel = ch;
Chris@130 596 invalidateFFTModels();
Chris@9 597
Chris@0 598 emit layerParametersChanged();
Chris@0 599 }
Chris@0 600
Chris@0 601 int
Chris@0 602 SpectrogramLayer::getChannel() const
Chris@0 603 {
Chris@0 604 return m_channel;
Chris@0 605 }
Chris@0 606
Chris@0 607 void
Chris@0 608 SpectrogramLayer::setWindowSize(size_t ws)
Chris@0 609 {
Chris@0 610 if (m_windowSize == ws) return;
Chris@0 611
Chris@95 612 invalidatePixmapCaches();
Chris@0 613
Chris@0 614 m_windowSize = ws;
Chris@109 615 m_fftSize = ws * (m_zeroPadLevel + 1);
Chris@0 616
Chris@130 617 invalidateFFTModels();
Chris@9 618
Chris@9 619 emit layerParametersChanged();
Chris@0 620 }
Chris@0 621
Chris@0 622 size_t
Chris@0 623 SpectrogramLayer::getWindowSize() const
Chris@0 624 {
Chris@0 625 return m_windowSize;
Chris@0 626 }
Chris@0 627
Chris@0 628 void
Chris@97 629 SpectrogramLayer::setWindowHopLevel(size_t v)
Chris@0 630 {
Chris@97 631 if (m_windowHopLevel == v) return;
Chris@0 632
Chris@95 633 invalidatePixmapCaches();
Chris@0 634
Chris@97 635 m_windowHopLevel = v;
Chris@0 636
Chris@130 637 invalidateFFTModels();
Chris@9 638
Chris@9 639 emit layerParametersChanged();
Chris@9 640
Chris@110 641 // fillCache();
Chris@0 642 }
Chris@0 643
Chris@0 644 size_t
Chris@97 645 SpectrogramLayer::getWindowHopLevel() const
Chris@0 646 {
Chris@97 647 return m_windowHopLevel;
Chris@0 648 }
Chris@0 649
Chris@0 650 void
Chris@109 651 SpectrogramLayer::setZeroPadLevel(size_t v)
Chris@109 652 {
Chris@109 653 if (m_zeroPadLevel == v) return;
Chris@109 654
Chris@109 655 invalidatePixmapCaches();
Chris@109 656
Chris@109 657 m_zeroPadLevel = v;
Chris@109 658 m_fftSize = m_windowSize * (v + 1);
Chris@110 659
Chris@130 660 invalidateFFTModels();
Chris@109 661
Chris@109 662 emit layerParametersChanged();
Chris@109 663 }
Chris@109 664
Chris@109 665 size_t
Chris@109 666 SpectrogramLayer::getZeroPadLevel() const
Chris@109 667 {
Chris@109 668 return m_zeroPadLevel;
Chris@109 669 }
Chris@109 670
Chris@109 671 void
Chris@0 672 SpectrogramLayer::setWindowType(WindowType w)
Chris@0 673 {
Chris@0 674 if (m_windowType == w) return;
Chris@0 675
Chris@95 676 invalidatePixmapCaches();
Chris@0 677
Chris@0 678 m_windowType = w;
Chris@110 679
Chris@130 680 invalidateFFTModels();
Chris@9 681
Chris@9 682 emit layerParametersChanged();
Chris@0 683 }
Chris@0 684
Chris@0 685 WindowType
Chris@0 686 SpectrogramLayer::getWindowType() const
Chris@0 687 {
Chris@0 688 return m_windowType;
Chris@0 689 }
Chris@0 690
Chris@0 691 void
Chris@0 692 SpectrogramLayer::setGain(float gain)
Chris@0 693 {
Chris@101 694 // std::cerr << "SpectrogramLayer::setGain(" << gain << ") (my gain is now "
Chris@101 695 // << m_gain << ")" << std::endl;
Chris@55 696
Chris@40 697 if (m_gain == gain) return;
Chris@0 698
Chris@95 699 invalidatePixmapCaches();
Chris@0 700
Chris@0 701 m_gain = gain;
Chris@0 702
Chris@9 703 emit layerParametersChanged();
Chris@0 704 }
Chris@0 705
Chris@0 706 float
Chris@0 707 SpectrogramLayer::getGain() const
Chris@0 708 {
Chris@0 709 return m_gain;
Chris@0 710 }
Chris@0 711
Chris@0 712 void
Chris@37 713 SpectrogramLayer::setThreshold(float threshold)
Chris@37 714 {
Chris@40 715 if (m_threshold == threshold) return;
Chris@37 716
Chris@95 717 invalidatePixmapCaches();
Chris@37 718
Chris@37 719 m_threshold = threshold;
Chris@37 720
Chris@37 721 emit layerParametersChanged();
Chris@37 722 }
Chris@37 723
Chris@37 724 float
Chris@37 725 SpectrogramLayer::getThreshold() const
Chris@37 726 {
Chris@37 727 return m_threshold;
Chris@37 728 }
Chris@37 729
Chris@37 730 void
Chris@37 731 SpectrogramLayer::setMinFrequency(size_t mf)
Chris@37 732 {
Chris@37 733 if (m_minFrequency == mf) return;
Chris@37 734
Chris@248 735 // std::cerr << "SpectrogramLayer::setMinFrequency: " << mf << std::endl;
Chris@187 736
Chris@95 737 invalidatePixmapCaches();
Chris@119 738 invalidateMagnitudes();
Chris@37 739
Chris@37 740 m_minFrequency = mf;
Chris@37 741
Chris@37 742 emit layerParametersChanged();
Chris@37 743 }
Chris@37 744
Chris@37 745 size_t
Chris@37 746 SpectrogramLayer::getMinFrequency() const
Chris@37 747 {
Chris@37 748 return m_minFrequency;
Chris@37 749 }
Chris@37 750
Chris@37 751 void
Chris@0 752 SpectrogramLayer::setMaxFrequency(size_t mf)
Chris@0 753 {
Chris@0 754 if (m_maxFrequency == mf) return;
Chris@0 755
Chris@248 756 // std::cerr << "SpectrogramLayer::setMaxFrequency: " << mf << std::endl;
Chris@187 757
Chris@95 758 invalidatePixmapCaches();
Chris@119 759 invalidateMagnitudes();
Chris@0 760
Chris@0 761 m_maxFrequency = mf;
Chris@0 762
Chris@9 763 emit layerParametersChanged();
Chris@0 764 }
Chris@0 765
Chris@0 766 size_t
Chris@0 767 SpectrogramLayer::getMaxFrequency() const
Chris@0 768 {
Chris@0 769 return m_maxFrequency;
Chris@0 770 }
Chris@0 771
Chris@0 772 void
Chris@9 773 SpectrogramLayer::setColourRotation(int r)
Chris@9 774 {
Chris@95 775 invalidatePixmapCaches();
Chris@9 776
Chris@9 777 if (r < 0) r = 0;
Chris@9 778 if (r > 256) r = 256;
Chris@9 779 int distance = r - m_colourRotation;
Chris@9 780
Chris@9 781 if (distance != 0) {
Chris@197 782 rotatePalette(-distance);
Chris@9 783 m_colourRotation = r;
Chris@9 784 }
Chris@9 785
Chris@9 786 emit layerParametersChanged();
Chris@9 787 }
Chris@9 788
Chris@9 789 void
Chris@0 790 SpectrogramLayer::setColourScale(ColourScale colourScale)
Chris@0 791 {
Chris@0 792 if (m_colourScale == colourScale) return;
Chris@0 793
Chris@95 794 invalidatePixmapCaches();
Chris@0 795
Chris@0 796 m_colourScale = colourScale;
Chris@0 797
Chris@9 798 emit layerParametersChanged();
Chris@0 799 }
Chris@0 800
Chris@0 801 SpectrogramLayer::ColourScale
Chris@0 802 SpectrogramLayer::getColourScale() const
Chris@0 803 {
Chris@0 804 return m_colourScale;
Chris@0 805 }
Chris@0 806
Chris@0 807 void
Chris@197 808 SpectrogramLayer::setColourMap(int map)
Chris@0 809 {
Chris@197 810 if (m_colourMap == map) return;
Chris@0 811
Chris@95 812 invalidatePixmapCaches();
Chris@0 813
Chris@197 814 m_colourMap = map;
Chris@197 815 initialisePalette();
Chris@9 816
Chris@0 817 emit layerParametersChanged();
Chris@0 818 }
Chris@0 819
Chris@196 820 int
Chris@197 821 SpectrogramLayer::getColourMap() const
Chris@0 822 {
Chris@197 823 return m_colourMap;
Chris@0 824 }
Chris@0 825
Chris@0 826 void
Chris@0 827 SpectrogramLayer::setFrequencyScale(FrequencyScale frequencyScale)
Chris@0 828 {
Chris@0 829 if (m_frequencyScale == frequencyScale) return;
Chris@0 830
Chris@95 831 invalidatePixmapCaches();
Chris@0 832 m_frequencyScale = frequencyScale;
Chris@9 833
Chris@9 834 emit layerParametersChanged();
Chris@0 835 }
Chris@0 836
Chris@0 837 SpectrogramLayer::FrequencyScale
Chris@0 838 SpectrogramLayer::getFrequencyScale() const
Chris@0 839 {
Chris@0 840 return m_frequencyScale;
Chris@0 841 }
Chris@0 842
Chris@0 843 void
Chris@37 844 SpectrogramLayer::setBinDisplay(BinDisplay binDisplay)
Chris@35 845 {
Chris@37 846 if (m_binDisplay == binDisplay) return;
Chris@35 847
Chris@95 848 invalidatePixmapCaches();
Chris@37 849 m_binDisplay = binDisplay;
Chris@35 850
Chris@35 851 emit layerParametersChanged();
Chris@35 852 }
Chris@35 853
Chris@37 854 SpectrogramLayer::BinDisplay
Chris@37 855 SpectrogramLayer::getBinDisplay() const
Chris@35 856 {
Chris@37 857 return m_binDisplay;
Chris@35 858 }
Chris@35 859
Chris@35 860 void
Chris@36 861 SpectrogramLayer::setNormalizeColumns(bool n)
Chris@36 862 {
Chris@36 863 if (m_normalizeColumns == n) return;
Chris@36 864
Chris@95 865 invalidatePixmapCaches();
Chris@119 866 invalidateMagnitudes();
Chris@36 867 m_normalizeColumns = n;
Chris@36 868
Chris@36 869 emit layerParametersChanged();
Chris@36 870 }
Chris@36 871
Chris@36 872 bool
Chris@36 873 SpectrogramLayer::getNormalizeColumns() const
Chris@36 874 {
Chris@36 875 return m_normalizeColumns;
Chris@36 876 }
Chris@36 877
Chris@36 878 void
Chris@120 879 SpectrogramLayer::setNormalizeVisibleArea(bool n)
Chris@120 880 {
Chris@327 881 std::cerr << "SpectrogramLayer::setNormalizeVisibleArea(" << n
Chris@327 882 << ") (from " << m_normalizeVisibleArea << ")" << std::endl;
Chris@327 883
Chris@120 884 if (m_normalizeVisibleArea == n) return;
Chris@120 885
Chris@120 886 invalidatePixmapCaches();
Chris@120 887 invalidateMagnitudes();
Chris@120 888 m_normalizeVisibleArea = n;
Chris@120 889
Chris@120 890 emit layerParametersChanged();
Chris@120 891 }
Chris@120 892
Chris@120 893 bool
Chris@120 894 SpectrogramLayer::getNormalizeVisibleArea() const
Chris@120 895 {
Chris@120 896 return m_normalizeVisibleArea;
Chris@120 897 }
Chris@120 898
Chris@120 899 void
Chris@47 900 SpectrogramLayer::setLayerDormant(const View *v, bool dormant)
Chris@29 901 {
Chris@33 902 if (dormant) {
Chris@33 903
Chris@131 904 if (isLayerDormant(v)) {
Chris@131 905 return;
Chris@131 906 }
Chris@131 907
Chris@131 908 Layer::setLayerDormant(v, true);
Chris@33 909
Chris@95 910 invalidatePixmapCaches();
Chris@95 911 m_pixmapCaches.erase(v);
Chris@114 912
Chris@130 913 if (m_fftModels.find(v) != m_fftModels.end()) {
Chris@193 914
Chris@193 915 if (m_sliceableModel == m_fftModels[v].first) {
Chris@193 916 bool replaced = false;
Chris@193 917 for (ViewFFTMap::iterator i = m_fftModels.begin();
Chris@193 918 i != m_fftModels.end(); ++i) {
Chris@193 919 if (i->second.first != m_sliceableModel) {
Chris@193 920 emit sliceableModelReplaced(m_sliceableModel, i->second.first);
Chris@193 921 replaced = true;
Chris@193 922 break;
Chris@193 923 }
Chris@193 924 }
Chris@193 925 if (!replaced) emit sliceableModelReplaced(m_sliceableModel, 0);
Chris@193 926 }
Chris@193 927
Chris@130 928 delete m_fftModels[v].first;
Chris@130 929 m_fftModels.erase(v);
Chris@114 930 }
Chris@33 931
Chris@33 932 } else {
Chris@33 933
Chris@131 934 Layer::setLayerDormant(v, false);
Chris@33 935 }
Chris@29 936 }
Chris@29 937
Chris@29 938 void
Chris@0 939 SpectrogramLayer::cacheInvalid()
Chris@0 940 {
Chris@95 941 invalidatePixmapCaches();
Chris@119 942 invalidateMagnitudes();
Chris@0 943 }
Chris@0 944
Chris@0 945 void
Chris@0 946 SpectrogramLayer::cacheInvalid(size_t, size_t)
Chris@0 947 {
Chris@0 948 // for now (or forever?)
Chris@0 949 cacheInvalid();
Chris@0 950 }
Chris@0 951
Chris@0 952 void
Chris@0 953 SpectrogramLayer::fillTimerTimedOut()
Chris@0 954 {
Chris@115 955 if (!m_model) return;
Chris@115 956
Chris@115 957 bool allDone = true;
Chris@115 958
Chris@184 959 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@184 960 std::cerr << "SpectrogramLayer::fillTimerTimedOut: have " << m_fftModels.size() << " FFT models associated with views" << std::endl;
Chris@184 961 #endif
Chris@184 962
Chris@130 963 for (ViewFFTMap::iterator i = m_fftModels.begin();
Chris@130 964 i != m_fftModels.end(); ++i) {
Chris@115 965
Chris@130 966 const FFTModel *model = i->second.first;
Chris@115 967 size_t lastFill = i->second.second;
Chris@115 968
Chris@130 969 if (model) {
Chris@130 970
Chris@130 971 size_t fill = model->getFillExtent();
Chris@115 972
Chris@0 973 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@130 974 std::cerr << "SpectrogramLayer::fillTimerTimedOut: extent for " << model << ": " << fill << ", last " << lastFill << ", total " << m_model->getEndFrame() << std::endl;
Chris@0 975 #endif
Chris@115 976
Chris@115 977 if (fill >= lastFill) {
Chris@115 978 if (fill >= m_model->getEndFrame() && lastFill > 0) {
Chris@0 979 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@115 980 std::cerr << "complete!" << std::endl;
Chris@0 981 #endif
Chris@115 982 invalidatePixmapCaches();
Chris@184 983 i->second.second = -1;
Chris@115 984 emit modelChanged();
Chris@115 985
Chris@115 986 } else if (fill > lastFill) {
Chris@0 987 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@115 988 std::cerr << "SpectrogramLayer: emitting modelChanged("
Chris@115 989 << lastFill << "," << fill << ")" << std::endl;
Chris@0 990 #endif
Chris@115 991 invalidatePixmapCaches(lastFill, fill);
Chris@184 992 i->second.second = fill;
Chris@115 993 emit modelChanged(lastFill, fill);
Chris@115 994 }
Chris@115 995 } else {
Chris@0 996 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@115 997 std::cerr << "SpectrogramLayer: going backwards, emitting modelChanged("
Chris@115 998 << m_model->getStartFrame() << "," << m_model->getEndFrame() << ")" << std::endl;
Chris@0 999 #endif
Chris@115 1000 invalidatePixmapCaches();
Chris@184 1001 i->second.second = fill;
Chris@115 1002 emit modelChanged(m_model->getStartFrame(), m_model->getEndFrame());
Chris@115 1003 }
Chris@115 1004
Chris@115 1005 if (i->second.second >= 0) {
Chris@115 1006 allDone = false;
Chris@115 1007 }
Chris@115 1008 }
Chris@0 1009 }
Chris@115 1010
Chris@115 1011 if (allDone) {
Chris@115 1012 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@115 1013 std::cerr << "SpectrogramLayer: all complete!" << std::endl;
Chris@115 1014 #endif
Chris@115 1015 delete m_updateTimer;
Chris@115 1016 m_updateTimer = 0;
Chris@115 1017 }
Chris@0 1018 }
Chris@0 1019
Chris@224 1020 bool
Chris@224 1021 SpectrogramLayer::hasLightBackground() const
Chris@224 1022 {
Chris@287 1023 return ColourMapper(m_colourMap, 1.f, 255.f).hasLightBackground();
Chris@224 1024 }
Chris@224 1025
Chris@0 1026 void
Chris@197 1027 SpectrogramLayer::initialisePalette()
Chris@0 1028 {
Chris@10 1029 int formerRotation = m_colourRotation;
Chris@10 1030
Chris@197 1031 if (m_colourMap == (int)ColourMapper::BlackOnWhite) {
Chris@197 1032 m_palette.setColour(NO_VALUE, Qt::white);
Chris@38 1033 } else {
Chris@197 1034 m_palette.setColour(NO_VALUE, Qt::black);
Chris@38 1035 }
Chris@0 1036
Chris@197 1037 ColourMapper mapper(m_colourMap, 1.f, 255.f);
Chris@196 1038
Chris@0 1039 for (int pixel = 1; pixel < 256; ++pixel) {
Chris@197 1040 m_palette.setColour(pixel, mapper.map(pixel));
Chris@0 1041 }
Chris@9 1042
Chris@196 1043 m_crosshairColour = mapper.getContrastingColour();
Chris@196 1044
Chris@9 1045 m_colourRotation = 0;
Chris@197 1046 rotatePalette(m_colourRotation - formerRotation);
Chris@10 1047 m_colourRotation = formerRotation;
Chris@9 1048 }
Chris@9 1049
Chris@9 1050 void
Chris@197 1051 SpectrogramLayer::rotatePalette(int distance)
Chris@9 1052 {
Chris@31 1053 QColor newPixels[256];
Chris@9 1054
Chris@197 1055 newPixels[NO_VALUE] = m_palette.getColour(NO_VALUE);
Chris@9 1056
Chris@9 1057 for (int pixel = 1; pixel < 256; ++pixel) {
Chris@9 1058 int target = pixel + distance;
Chris@9 1059 while (target < 1) target += 255;
Chris@9 1060 while (target > 255) target -= 255;
Chris@197 1061 newPixels[target] = m_palette.getColour(pixel);
Chris@9 1062 }
Chris@9 1063
Chris@9 1064 for (int pixel = 0; pixel < 256; ++pixel) {
Chris@197 1065 m_palette.setColour(pixel, newPixels[pixel]);
Chris@9 1066 }
Chris@0 1067 }
Chris@0 1068
Chris@38 1069 unsigned char
Chris@119 1070 SpectrogramLayer::getDisplayValue(View *v, float input) const
Chris@38 1071 {
Chris@38 1072 int value;
Chris@37 1073
Chris@120 1074 float min = 0.f;
Chris@120 1075 float max = 1.f;
Chris@120 1076
Chris@120 1077 if (m_normalizeVisibleArea) {
Chris@120 1078 min = m_viewMags[v].getMin();
Chris@120 1079 max = m_viewMags[v].getMax();
Chris@120 1080 } else if (!m_normalizeColumns) {
Chris@224 1081 if (m_colourScale == LinearColourScale //||
Chris@224 1082 // m_colourScale == MeterColourScale) {
Chris@224 1083 ) {
Chris@224 1084 max = 0.1f;
Chris@120 1085 }
Chris@120 1086 }
Chris@120 1087
Chris@119 1088 float thresh = -80.f;
Chris@119 1089
Chris@119 1090 if (max == 0.f) max = 1.f;
Chris@119 1091 if (max == min) min = max - 0.0001f;
Chris@119 1092
Chris@40 1093 switch (m_colourScale) {
Chris@40 1094
Chris@40 1095 default:
Chris@40 1096 case LinearColourScale:
Chris@119 1097 value = int(((input - min) / (max - min)) * 255.f) + 1;
Chris@40 1098 break;
Chris@40 1099
Chris@40 1100 case MeterColourScale:
Chris@210 1101 value = AudioLevel::multiplier_to_preview
Chris@210 1102 ((input - min) / (max - min), 254) + 1;
Chris@40 1103 break;
Chris@119 1104
Chris@210 1105 case dBSquaredColourScale:
Chris@215 1106 input = ((input - min) * (input - min)) / ((max - min) * (max - min));
Chris@133 1107 if (input > 0.f) {
Chris@133 1108 input = 10.f * log10f(input);
Chris@133 1109 } else {
Chris@133 1110 input = thresh;
Chris@133 1111 }
Chris@119 1112 if (min > 0.f) {
Chris@119 1113 thresh = 10.f * log10f(min * min);
Chris@119 1114 if (thresh < -80.f) thresh = -80.f;
Chris@119 1115 }
Chris@119 1116 input = (input - thresh) / (-thresh);
Chris@119 1117 if (input < 0.f) input = 0.f;
Chris@119 1118 if (input > 1.f) input = 1.f;
Chris@119 1119 value = int(input * 255.f) + 1;
Chris@119 1120 break;
Chris@40 1121
Chris@215 1122 case dBColourScale:
Chris@215 1123 //!!! experiment with normalizing the visible area this way.
Chris@215 1124 //In any case, we need to have some indication of what the dB
Chris@215 1125 //scale is relative to.
Chris@215 1126 input = (input - min) / (max - min);
Chris@215 1127 if (input > 0.f) {
Chris@215 1128 input = 10.f * log10f(input);
Chris@215 1129 } else {
Chris@215 1130 input = thresh;
Chris@215 1131 }
Chris@215 1132 if (min > 0.f) {
Chris@215 1133 thresh = 10.f * log10f(min);
Chris@215 1134 if (thresh < -80.f) thresh = -80.f;
Chris@215 1135 }
Chris@215 1136 input = (input - thresh) / (-thresh);
Chris@215 1137 if (input < 0.f) input = 0.f;
Chris@215 1138 if (input > 1.f) input = 1.f;
Chris@215 1139 value = int(input * 255.f) + 1;
Chris@215 1140 break;
Chris@215 1141
Chris@40 1142 case PhaseColourScale:
Chris@40 1143 value = int((input * 127.0 / M_PI) + 128);
Chris@40 1144 break;
Chris@0 1145 }
Chris@210 1146
Chris@38 1147 if (value > UCHAR_MAX) value = UCHAR_MAX;
Chris@38 1148 if (value < 0) value = 0;
Chris@38 1149 return value;
Chris@0 1150 }
Chris@0 1151
Chris@40 1152 float
Chris@40 1153 SpectrogramLayer::getInputForDisplayValue(unsigned char uc) const
Chris@40 1154 {
Chris@153 1155 //!!! unused
Chris@153 1156
Chris@40 1157 int value = uc;
Chris@40 1158 float input;
Chris@40 1159
Chris@120 1160 //!!! incorrect for normalizing visible area (and also out of date)
Chris@120 1161
Chris@40 1162 switch (m_colourScale) {
Chris@40 1163
Chris@40 1164 default:
Chris@40 1165 case LinearColourScale:
Chris@40 1166 input = float(value - 1) / 255.0 / (m_normalizeColumns ? 1 : 50);
Chris@40 1167 break;
Chris@40 1168
Chris@40 1169 case MeterColourScale:
Chris@40 1170 input = AudioLevel::preview_to_multiplier(value - 1, 255)
Chris@40 1171 / (m_normalizeColumns ? 1.0 : 50.0);
Chris@40 1172 break;
Chris@40 1173
Chris@215 1174 case dBSquaredColourScale:
Chris@40 1175 input = float(value - 1) / 255.0;
Chris@40 1176 input = (input * 80.0) - 80.0;
Chris@40 1177 input = powf(10.0, input) / 20.0;
Chris@40 1178 value = int(input);
Chris@40 1179 break;
Chris@40 1180
Chris@215 1181 case dBColourScale:
Chris@119 1182 input = float(value - 1) / 255.0;
Chris@119 1183 input = (input * 80.0) - 80.0;
Chris@119 1184 input = powf(10.0, input) / 20.0;
Chris@119 1185 value = int(input);
Chris@119 1186 break;
Chris@119 1187
Chris@40 1188 case PhaseColourScale:
Chris@40 1189 input = float(value - 128) * M_PI / 127.0;
Chris@40 1190 break;
Chris@40 1191 }
Chris@40 1192
Chris@40 1193 return input;
Chris@40 1194 }
Chris@40 1195
Chris@40 1196 float
Chris@40 1197 SpectrogramLayer::getEffectiveMinFrequency() const
Chris@40 1198 {
Chris@40 1199 int sr = m_model->getSampleRate();
Chris@107 1200 float minf = float(sr) / m_fftSize;
Chris@40 1201
Chris@40 1202 if (m_minFrequency > 0.0) {
Chris@107 1203 size_t minbin = size_t((double(m_minFrequency) * m_fftSize) / sr + 0.01);
Chris@40 1204 if (minbin < 1) minbin = 1;
Chris@107 1205 minf = minbin * sr / m_fftSize;
Chris@40 1206 }
Chris@40 1207
Chris@40 1208 return minf;
Chris@40 1209 }
Chris@40 1210
Chris@40 1211 float
Chris@40 1212 SpectrogramLayer::getEffectiveMaxFrequency() const
Chris@40 1213 {
Chris@40 1214 int sr = m_model->getSampleRate();
Chris@40 1215 float maxf = float(sr) / 2;
Chris@40 1216
Chris@40 1217 if (m_maxFrequency > 0.0) {
Chris@107 1218 size_t maxbin = size_t((double(m_maxFrequency) * m_fftSize) / sr + 0.1);
Chris@107 1219 if (maxbin > m_fftSize / 2) maxbin = m_fftSize / 2;
Chris@107 1220 maxf = maxbin * sr / m_fftSize;
Chris@40 1221 }
Chris@40 1222
Chris@40 1223 return maxf;
Chris@40 1224 }
Chris@40 1225
Chris@0 1226 bool
Chris@44 1227 SpectrogramLayer::getYBinRange(View *v, int y, float &q0, float &q1) const
Chris@0 1228 {
Chris@44 1229 int h = v->height();
Chris@0 1230 if (y < 0 || y >= h) return false;
Chris@0 1231
Chris@38 1232 int sr = m_model->getSampleRate();
Chris@40 1233 float minf = getEffectiveMinFrequency();
Chris@40 1234 float maxf = getEffectiveMaxFrequency();
Chris@0 1235
Chris@38 1236 bool logarithmic = (m_frequencyScale == LogFrequencyScale);
Chris@38 1237
Chris@130 1238 //!!! wrong for smoothing -- wrong fft size for fft model
Chris@114 1239
Chris@44 1240 q0 = v->getFrequencyForY(y, minf, maxf, logarithmic);
Chris@44 1241 q1 = v->getFrequencyForY(y - 1, minf, maxf, logarithmic);
Chris@38 1242
Chris@38 1243 // Now map these on to actual bins
Chris@38 1244
Chris@107 1245 int b0 = int((q0 * m_fftSize) / sr);
Chris@107 1246 int b1 = int((q1 * m_fftSize) / sr);
Chris@0 1247
Chris@40 1248 //!!! this is supposed to return fractions-of-bins, as it were, hence the floats
Chris@38 1249 q0 = b0;
Chris@38 1250 q1 = b1;
Chris@38 1251
Chris@107 1252 // q0 = (b0 * sr) / m_fftSize;
Chris@107 1253 // q1 = (b1 * sr) / m_fftSize;
Chris@0 1254
Chris@0 1255 return true;
Chris@0 1256 }
Chris@38 1257
Chris@0 1258 bool
Chris@44 1259 SpectrogramLayer::getXBinRange(View *v, int x, float &s0, float &s1) const
Chris@0 1260 {
Chris@21 1261 size_t modelStart = m_model->getStartFrame();
Chris@21 1262 size_t modelEnd = m_model->getEndFrame();
Chris@0 1263
Chris@0 1264 // Each pixel column covers an exact range of sample frames:
Chris@44 1265 int f0 = v->getFrameForX(x) - modelStart;
Chris@44 1266 int f1 = v->getFrameForX(x + 1) - modelStart - 1;
Chris@20 1267
Chris@41 1268 if (f1 < int(modelStart) || f0 > int(modelEnd)) {
Chris@41 1269 return false;
Chris@41 1270 }
Chris@20 1271
Chris@0 1272 // And that range may be drawn from a possibly non-integral
Chris@0 1273 // range of spectrogram windows:
Chris@0 1274
Chris@0 1275 size_t windowIncrement = getWindowIncrement();
Chris@0 1276 s0 = float(f0) / windowIncrement;
Chris@0 1277 s1 = float(f1) / windowIncrement;
Chris@0 1278
Chris@0 1279 return true;
Chris@0 1280 }
Chris@0 1281
Chris@0 1282 bool
Chris@44 1283 SpectrogramLayer::getXBinSourceRange(View *v, int x, RealTime &min, RealTime &max) const
Chris@0 1284 {
Chris@0 1285 float s0 = 0, s1 = 0;
Chris@44 1286 if (!getXBinRange(v, x, s0, s1)) return false;
Chris@0 1287
Chris@0 1288 int s0i = int(s0 + 0.001);
Chris@0 1289 int s1i = int(s1);
Chris@0 1290
Chris@0 1291 int windowIncrement = getWindowIncrement();
Chris@0 1292 int w0 = s0i * windowIncrement - (m_windowSize - windowIncrement)/2;
Chris@0 1293 int w1 = s1i * windowIncrement + windowIncrement +
Chris@0 1294 (m_windowSize - windowIncrement)/2 - 1;
Chris@0 1295
Chris@0 1296 min = RealTime::frame2RealTime(w0, m_model->getSampleRate());
Chris@0 1297 max = RealTime::frame2RealTime(w1, m_model->getSampleRate());
Chris@0 1298 return true;
Chris@0 1299 }
Chris@0 1300
Chris@0 1301 bool
Chris@44 1302 SpectrogramLayer::getYBinSourceRange(View *v, int y, float &freqMin, float &freqMax)
Chris@0 1303 const
Chris@0 1304 {
Chris@0 1305 float q0 = 0, q1 = 0;
Chris@44 1306 if (!getYBinRange(v, y, q0, q1)) return false;
Chris@0 1307
Chris@0 1308 int q0i = int(q0 + 0.001);
Chris@0 1309 int q1i = int(q1);
Chris@0 1310
Chris@0 1311 int sr = m_model->getSampleRate();
Chris@0 1312
Chris@0 1313 for (int q = q0i; q <= q1i; ++q) {
Chris@121 1314 if (q == q0i) freqMin = (sr * q) / m_fftSize;
Chris@121 1315 if (q == q1i) freqMax = (sr * (q+1)) / m_fftSize;
Chris@0 1316 }
Chris@0 1317 return true;
Chris@0 1318 }
Chris@35 1319
Chris@35 1320 bool
Chris@44 1321 SpectrogramLayer::getAdjustedYBinSourceRange(View *v, int x, int y,
Chris@35 1322 float &freqMin, float &freqMax,
Chris@35 1323 float &adjFreqMin, float &adjFreqMax)
Chris@35 1324 const
Chris@35 1325 {
Chris@277 1326 if (!m_model || !m_model->isOK() || !m_model->isReady()) {
Chris@277 1327 return false;
Chris@277 1328 }
Chris@277 1329
Chris@130 1330 FFTModel *fft = getFFTModel(v);
Chris@114 1331 if (!fft) return false;
Chris@110 1332
Chris@35 1333 float s0 = 0, s1 = 0;
Chris@44 1334 if (!getXBinRange(v, x, s0, s1)) return false;
Chris@35 1335
Chris@35 1336 float q0 = 0, q1 = 0;
Chris@44 1337 if (!getYBinRange(v, y, q0, q1)) return false;
Chris@35 1338
Chris@35 1339 int s0i = int(s0 + 0.001);
Chris@35 1340 int s1i = int(s1);
Chris@35 1341
Chris@35 1342 int q0i = int(q0 + 0.001);
Chris@35 1343 int q1i = int(q1);
Chris@35 1344
Chris@35 1345 int sr = m_model->getSampleRate();
Chris@35 1346
Chris@38 1347 size_t windowSize = m_windowSize;
Chris@38 1348 size_t windowIncrement = getWindowIncrement();
Chris@38 1349
Chris@35 1350 bool haveAdj = false;
Chris@35 1351
Chris@37 1352 bool peaksOnly = (m_binDisplay == PeakBins ||
Chris@37 1353 m_binDisplay == PeakFrequencies);
Chris@37 1354
Chris@35 1355 for (int q = q0i; q <= q1i; ++q) {
Chris@35 1356
Chris@35 1357 for (int s = s0i; s <= s1i; ++s) {
Chris@35 1358
Chris@160 1359 if (!fft->isColumnAvailable(s)) continue;
Chris@117 1360
Chris@35 1361 float binfreq = (sr * q) / m_windowSize;
Chris@35 1362 if (q == q0i) freqMin = binfreq;
Chris@35 1363 if (q == q1i) freqMax = binfreq;
Chris@37 1364
Chris@114 1365 if (peaksOnly && !fft->isLocalPeak(s, q)) continue;
Chris@38 1366
Chris@253 1367 if (!fft->isOverThreshold(s, q, m_threshold * (m_fftSize/2))) continue;
Chris@38 1368
Chris@38 1369 float freq = binfreq;
Chris@38 1370 bool steady = false;
Chris@40 1371
Chris@114 1372 if (s < int(fft->getWidth()) - 1) {
Chris@38 1373
Chris@277 1374 fft->estimateStableFrequency(s, q, freq);
Chris@35 1375
Chris@38 1376 if (!haveAdj || freq < adjFreqMin) adjFreqMin = freq;
Chris@38 1377 if (!haveAdj || freq > adjFreqMax) adjFreqMax = freq;
Chris@35 1378
Chris@35 1379 haveAdj = true;
Chris@35 1380 }
Chris@35 1381 }
Chris@35 1382 }
Chris@35 1383
Chris@35 1384 if (!haveAdj) {
Chris@40 1385 adjFreqMin = adjFreqMax = 0.0;
Chris@35 1386 }
Chris@35 1387
Chris@35 1388 return haveAdj;
Chris@35 1389 }
Chris@0 1390
Chris@0 1391 bool
Chris@44 1392 SpectrogramLayer::getXYBinSourceRange(View *v, int x, int y,
Chris@38 1393 float &min, float &max,
Chris@38 1394 float &phaseMin, float &phaseMax) const
Chris@0 1395 {
Chris@277 1396 if (!m_model || !m_model->isOK() || !m_model->isReady()) {
Chris@277 1397 return false;
Chris@277 1398 }
Chris@277 1399
Chris@0 1400 float q0 = 0, q1 = 0;
Chris@44 1401 if (!getYBinRange(v, y, q0, q1)) return false;
Chris@0 1402
Chris@0 1403 float s0 = 0, s1 = 0;
Chris@44 1404 if (!getXBinRange(v, x, s0, s1)) return false;
Chris@0 1405
Chris@0 1406 int q0i = int(q0 + 0.001);
Chris@0 1407 int q1i = int(q1);
Chris@0 1408
Chris@0 1409 int s0i = int(s0 + 0.001);
Chris@0 1410 int s1i = int(s1);
Chris@0 1411
Chris@37 1412 bool rv = false;
Chris@37 1413
Chris@122 1414 size_t zp = getZeroPadLevel(v);
Chris@122 1415 q0i *= zp + 1;
Chris@122 1416 q1i *= zp + 1;
Chris@122 1417
Chris@130 1418 FFTModel *fft = getFFTModel(v);
Chris@0 1419
Chris@114 1420 if (fft) {
Chris@114 1421
Chris@114 1422 int cw = fft->getWidth();
Chris@114 1423 int ch = fft->getHeight();
Chris@0 1424
Chris@110 1425 min = 0.0;
Chris@110 1426 max = 0.0;
Chris@110 1427 phaseMin = 0.0;
Chris@110 1428 phaseMax = 0.0;
Chris@110 1429 bool have = false;
Chris@0 1430
Chris@110 1431 for (int q = q0i; q <= q1i; ++q) {
Chris@110 1432 for (int s = s0i; s <= s1i; ++s) {
Chris@110 1433 if (s >= 0 && q >= 0 && s < cw && q < ch) {
Chris@117 1434
Chris@160 1435 if (!fft->isColumnAvailable(s)) continue;
Chris@110 1436
Chris@110 1437 float value;
Chris@38 1438
Chris@114 1439 value = fft->getPhaseAt(s, q);
Chris@110 1440 if (!have || value < phaseMin) { phaseMin = value; }
Chris@110 1441 if (!have || value > phaseMax) { phaseMax = value; }
Chris@91 1442
Chris@252 1443 value = fft->getMagnitudeAt(s, q) / (m_fftSize/2);
Chris@110 1444 if (!have || value < min) { min = value; }
Chris@110 1445 if (!have || value > max) { max = value; }
Chris@110 1446
Chris@110 1447 have = true;
Chris@110 1448 }
Chris@110 1449 }
Chris@110 1450 }
Chris@110 1451
Chris@110 1452 if (have) {
Chris@110 1453 rv = true;
Chris@110 1454 }
Chris@0 1455 }
Chris@0 1456
Chris@37 1457 return rv;
Chris@0 1458 }
Chris@0 1459
Chris@114 1460 size_t
Chris@114 1461 SpectrogramLayer::getZeroPadLevel(const View *v) const
Chris@114 1462 {
Chris@114 1463 //!!! tidy all this stuff
Chris@114 1464
Chris@114 1465 if (m_binDisplay != AllBins) return 0;
Chris@221 1466
Chris@221 1467 Preferences::SpectrogramSmoothing smoothing =
Chris@221 1468 Preferences::getInstance()->getSpectrogramSmoothing();
Chris@221 1469
Chris@221 1470 if (smoothing == Preferences::NoSpectrogramSmoothing ||
Chris@221 1471 smoothing == Preferences::SpectrogramInterpolated) return 0;
Chris@221 1472
Chris@114 1473 if (m_frequencyScale == LogFrequencyScale) return 3;
Chris@114 1474
Chris@114 1475 int sr = m_model->getSampleRate();
Chris@114 1476
Chris@184 1477 size_t maxbin = m_fftSize / 2;
Chris@114 1478 if (m_maxFrequency > 0) {
Chris@184 1479 maxbin = int((double(m_maxFrequency) * m_fftSize) / sr + 0.1);
Chris@184 1480 if (maxbin > m_fftSize / 2) maxbin = m_fftSize / 2;
Chris@114 1481 }
Chris@114 1482
Chris@114 1483 size_t minbin = 1;
Chris@114 1484 if (m_minFrequency > 0) {
Chris@114 1485 minbin = int((double(m_minFrequency) * m_fftSize) / sr + 0.1);
Chris@114 1486 if (minbin < 1) minbin = 1;
Chris@184 1487 if (minbin >= maxbin) minbin = maxbin - 1;
Chris@114 1488 }
Chris@114 1489
Chris@118 1490 float perPixel =
Chris@118 1491 float(v->height()) /
Chris@184 1492 float((maxbin - minbin) / (m_zeroPadLevel + 1));
Chris@118 1493
Chris@118 1494 if (perPixel > 2.8) {
Chris@118 1495 return 3; // 4x oversampling
Chris@118 1496 } else if (perPixel > 1.5) {
Chris@118 1497 return 1; // 2x
Chris@114 1498 } else {
Chris@118 1499 return 0; // 1x
Chris@114 1500 }
Chris@114 1501 }
Chris@114 1502
Chris@114 1503 size_t
Chris@114 1504 SpectrogramLayer::getFFTSize(const View *v) const
Chris@114 1505 {
Chris@114 1506 return m_fftSize * (getZeroPadLevel(v) + 1);
Chris@114 1507 }
Chris@114 1508
Chris@130 1509 FFTModel *
Chris@130 1510 SpectrogramLayer::getFFTModel(const View *v) const
Chris@114 1511 {
Chris@114 1512 if (!m_model) return 0;
Chris@114 1513
Chris@114 1514 size_t fftSize = getFFTSize(v);
Chris@114 1515
Chris@130 1516 if (m_fftModels.find(v) != m_fftModels.end()) {
Chris@184 1517 if (m_fftModels[v].first == 0) {
Chris@184 1518 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@184 1519 std::cerr << "SpectrogramLayer::getFFTModel(" << v << "): Found null model" << std::endl;
Chris@184 1520 #endif
Chris@184 1521 return 0;
Chris@184 1522 }
Chris@184 1523 if (m_fftModels[v].first->getHeight() != fftSize / 2 + 1) {
Chris@184 1524 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@184 1525 std::cerr << "SpectrogramLayer::getFFTModel(" << v << "): Found a model with the wrong height (" << m_fftModels[v].first->getHeight() << ", wanted " << (fftSize / 2 + 1) << ")" << std::endl;
Chris@184 1526 #endif
Chris@130 1527 delete m_fftModels[v].first;
Chris@130 1528 m_fftModels.erase(v);
Chris@184 1529 } else {
Chris@184 1530 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@187 1531 std::cerr << "SpectrogramLayer::getFFTModel(" << v << "): Found a good model of height " << m_fftModels[v].first->getHeight() << std::endl;
Chris@184 1532 #endif
Chris@184 1533 return m_fftModels[v].first;
Chris@114 1534 }
Chris@114 1535 }
Chris@114 1536
Chris@130 1537 if (m_fftModels.find(v) == m_fftModels.end()) {
Chris@169 1538
Chris@169 1539 FFTModel *model = new FFTModel(m_model,
Chris@169 1540 m_channel,
Chris@169 1541 m_windowType,
Chris@169 1542 m_windowSize,
Chris@169 1543 getWindowIncrement(),
Chris@169 1544 fftSize,
Chris@327 1545 true,
Chris@327 1546 StorageAdviser::SpeedCritical,
Chris@169 1547 m_candidateFillStartFrame);
Chris@169 1548
Chris@178 1549 if (!model->isOK()) {
Chris@178 1550 QMessageBox::critical
Chris@178 1551 (0, tr("FFT cache failed"),
Chris@178 1552 tr("Failed to create the FFT model for this spectrogram.\n"
Chris@178 1553 "There may be insufficient memory or disc space to continue."));
Chris@178 1554 delete model;
Chris@178 1555 m_fftModels[v] = FFTFillPair(0, 0);
Chris@178 1556 return 0;
Chris@178 1557 }
Chris@178 1558
Chris@193 1559 if (!m_sliceableModel) {
Chris@248 1560 #ifdef DEBUG_SPECTROGRAM
Chris@193 1561 std::cerr << "SpectrogramLayer: emitting sliceableModelReplaced(0, " << model << ")" << std::endl;
Chris@248 1562 #endif
Chris@193 1563 ((SpectrogramLayer *)this)->sliceableModelReplaced(0, model);
Chris@193 1564 m_sliceableModel = model;
Chris@193 1565 }
Chris@193 1566
Chris@169 1567 m_fftModels[v] = FFTFillPair(model, 0);
Chris@169 1568
Chris@169 1569 model->resume();
Chris@114 1570
Chris@114 1571 delete m_updateTimer;
Chris@114 1572 m_updateTimer = new QTimer((SpectrogramLayer *)this);
Chris@114 1573 connect(m_updateTimer, SIGNAL(timeout()),
Chris@114 1574 this, SLOT(fillTimerTimedOut()));
Chris@114 1575 m_updateTimer->start(200);
Chris@114 1576 }
Chris@114 1577
Chris@130 1578 return m_fftModels[v].first;
Chris@114 1579 }
Chris@114 1580
Chris@193 1581 const Model *
Chris@193 1582 SpectrogramLayer::getSliceableModel() const
Chris@193 1583 {
Chris@193 1584 if (m_sliceableModel) return m_sliceableModel;
Chris@193 1585 if (m_fftModels.empty()) return 0;
Chris@193 1586 m_sliceableModel = m_fftModels.begin()->second.first;
Chris@193 1587 return m_sliceableModel;
Chris@193 1588 }
Chris@193 1589
Chris@114 1590 void
Chris@130 1591 SpectrogramLayer::invalidateFFTModels()
Chris@114 1592 {
Chris@130 1593 for (ViewFFTMap::iterator i = m_fftModels.begin();
Chris@130 1594 i != m_fftModels.end(); ++i) {
Chris@115 1595 delete i->second.first;
Chris@114 1596 }
Chris@114 1597
Chris@130 1598 m_fftModels.clear();
Chris@193 1599
Chris@193 1600 if (m_sliceableModel) {
Chris@193 1601 std::cerr << "SpectrogramLayer: emitting sliceableModelReplaced(" << m_sliceableModel << ", 0)" << std::endl;
Chris@193 1602 emit sliceableModelReplaced(m_sliceableModel, 0);
Chris@193 1603 m_sliceableModel = 0;
Chris@193 1604 }
Chris@114 1605 }
Chris@114 1606
Chris@0 1607 void
Chris@119 1608 SpectrogramLayer::invalidateMagnitudes()
Chris@119 1609 {
Chris@119 1610 m_viewMags.clear();
Chris@119 1611 for (std::vector<MagnitudeRange>::iterator i = m_columnMags.begin();
Chris@119 1612 i != m_columnMags.end(); ++i) {
Chris@119 1613 *i = MagnitudeRange();
Chris@119 1614 }
Chris@119 1615 }
Chris@119 1616
Chris@119 1617 bool
Chris@119 1618 SpectrogramLayer::updateViewMagnitudes(View *v) const
Chris@119 1619 {
Chris@119 1620 MagnitudeRange mag;
Chris@119 1621
Chris@119 1622 int x0 = 0, x1 = v->width();
Chris@119 1623 float s00 = 0, s01 = 0, s10 = 0, s11 = 0;
Chris@119 1624
Chris@203 1625 if (!getXBinRange(v, x0, s00, s01)) {
Chris@203 1626 s00 = s01 = m_model->getStartFrame() / getWindowIncrement();
Chris@203 1627 }
Chris@203 1628
Chris@203 1629 if (!getXBinRange(v, x1, s10, s11)) {
Chris@203 1630 s10 = s11 = m_model->getEndFrame() / getWindowIncrement();
Chris@203 1631 }
Chris@119 1632
Chris@119 1633 int s0 = int(std::min(s00, s10) + 0.0001);
Chris@203 1634 int s1 = int(std::max(s01, s11) + 0.0001);
Chris@203 1635
Chris@203 1636 // std::cerr << "SpectrogramLayer::updateViewMagnitudes: x0 = " << x0 << ", x1 = " << x1 << ", s00 = " << s00 << ", s11 = " << s11 << " s0 = " << s0 << ", s1 = " << s1 << std::endl;
Chris@119 1637
Chris@248 1638 if (int(m_columnMags.size()) <= s1) {
Chris@119 1639 m_columnMags.resize(s1 + 1);
Chris@119 1640 }
Chris@119 1641
Chris@119 1642 for (int s = s0; s <= s1; ++s) {
Chris@119 1643 if (m_columnMags[s].isSet()) {
Chris@119 1644 mag.sample(m_columnMags[s]);
Chris@119 1645 }
Chris@119 1646 }
Chris@119 1647
Chris@184 1648 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@119 1649 std::cerr << "SpectrogramLayer::updateViewMagnitudes returning from cols "
Chris@119 1650 << s0 << " -> " << s1 << " inclusive" << std::endl;
Chris@184 1651 #endif
Chris@119 1652
Chris@119 1653 if (!mag.isSet()) return false;
Chris@119 1654 if (mag == m_viewMags[v]) return false;
Chris@119 1655 m_viewMags[v] = mag;
Chris@119 1656 return true;
Chris@119 1657 }
Chris@119 1658
Chris@119 1659 void
Chris@44 1660 SpectrogramLayer::paint(View *v, QPainter &paint, QRect rect) const
Chris@0 1661 {
Chris@253 1662 // What a lovely, old-fashioned function this is.
Chris@253 1663 // It's practically FORTRAN 77 in its clarity and linearity.
Chris@253 1664
Chris@161 1665 Profiler profiler("SpectrogramLayer::paint", true);
Chris@0 1666 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@95 1667 std::cerr << "SpectrogramLayer::paint(): m_model is " << m_model << ", zoom level is " << v->getZoomLevel() << ", m_updateTimer " << m_updateTimer << std::endl;
Chris@95 1668
Chris@95 1669 std::cerr << "rect is " << rect.x() << "," << rect.y() << " " << rect.width() << "x" << rect.height() << std::endl;
Chris@0 1670 #endif
Chris@95 1671
Chris@133 1672 long startFrame = v->getStartFrame();
Chris@133 1673 if (startFrame < 0) m_candidateFillStartFrame = 0;
Chris@133 1674 else m_candidateFillStartFrame = startFrame;
Chris@44 1675
Chris@0 1676 if (!m_model || !m_model->isOK() || !m_model->isReady()) {
Chris@0 1677 return;
Chris@0 1678 }
Chris@0 1679
Chris@47 1680 if (isLayerDormant(v)) {
Chris@48 1681 std::cerr << "SpectrogramLayer::paint(): Layer is dormant, making it undormant again" << std::endl;
Chris@29 1682 }
Chris@29 1683
Chris@48 1684 // Need to do this even if !isLayerDormant, as that could mean v
Chris@48 1685 // is not in the dormancy map at all -- we need it to be present
Chris@48 1686 // and accountable for when determining whether we need the cache
Chris@48 1687 // in the cache-fill thread above.
Chris@131 1688 //!!! no longer use cache-fill thread
Chris@131 1689 const_cast<SpectrogramLayer *>(this)->Layer::setLayerDormant(v, false);
Chris@48 1690
Chris@114 1691 size_t fftSize = getFFTSize(v);
Chris@130 1692 FFTModel *fft = getFFTModel(v);
Chris@114 1693 if (!fft) {
Chris@130 1694 std::cerr << "ERROR: SpectrogramLayer::paint(): No FFT model, returning" << std::endl;
Chris@0 1695 return;
Chris@0 1696 }
Chris@0 1697
Chris@95 1698 PixmapCache &cache = m_pixmapCaches[v];
Chris@95 1699
Chris@95 1700 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@95 1701 std::cerr << "SpectrogramLayer::paint(): pixmap cache valid area " << cache.validArea.x() << ", " << cache.validArea.y() << ", " << cache.validArea.width() << "x" << cache.validArea.height() << std::endl;
Chris@95 1702 #endif
Chris@95 1703
Chris@248 1704 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@0 1705 bool stillCacheing = (m_updateTimer != 0);
Chris@0 1706 std::cerr << "SpectrogramLayer::paint(): Still cacheing = " << stillCacheing << std::endl;
Chris@0 1707 #endif
Chris@0 1708
Chris@44 1709 int zoomLevel = v->getZoomLevel();
Chris@0 1710
Chris@0 1711 int x0 = 0;
Chris@44 1712 int x1 = v->width();
Chris@0 1713
Chris@0 1714 bool recreateWholePixmapCache = true;
Chris@0 1715
Chris@95 1716 x0 = rect.left();
Chris@95 1717 x1 = rect.right() + 1;
Chris@95 1718
Chris@95 1719 if (cache.validArea.width() > 0) {
Chris@95 1720
Chris@95 1721 if (int(cache.zoomLevel) == zoomLevel &&
Chris@95 1722 cache.pixmap.width() == v->width() &&
Chris@95 1723 cache.pixmap.height() == v->height()) {
Chris@95 1724
Chris@95 1725 if (v->getXForFrame(cache.startFrame) ==
Chris@95 1726 v->getXForFrame(startFrame) &&
Chris@95 1727 cache.validArea.x() <= x0 &&
Chris@95 1728 cache.validArea.x() + cache.validArea.width() >= x1) {
Chris@0 1729
Chris@0 1730 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@0 1731 std::cerr << "SpectrogramLayer: pixmap cache good" << std::endl;
Chris@0 1732 #endif
Chris@0 1733
Chris@95 1734 paint.drawPixmap(rect, cache.pixmap, rect);
Chris@121 1735 illuminateLocalFeatures(v, paint);
Chris@0 1736 return;
Chris@0 1737
Chris@0 1738 } else {
Chris@0 1739
Chris@0 1740 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@0 1741 std::cerr << "SpectrogramLayer: pixmap cache partially OK" << std::endl;
Chris@0 1742 #endif
Chris@0 1743
Chris@0 1744 recreateWholePixmapCache = false;
Chris@0 1745
Chris@95 1746 int dx = v->getXForFrame(cache.startFrame) -
Chris@44 1747 v->getXForFrame(startFrame);
Chris@0 1748
Chris@0 1749 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@95 1750 std::cerr << "SpectrogramLayer: dx = " << dx << " (pixmap cache " << cache.pixmap.width() << "x" << cache.pixmap.height() << ")" << std::endl;
Chris@0 1751 #endif
Chris@0 1752
Chris@95 1753 if (dx != 0 &&
Chris@95 1754 dx > -cache.pixmap.width() &&
Chris@95 1755 dx < cache.pixmap.width()) {
Chris@0 1756
Chris@0 1757 #if defined(Q_WS_WIN32) || defined(Q_WS_MAC)
Chris@0 1758 // Copying a pixmap to itself doesn't work
Chris@0 1759 // properly on Windows or Mac (it only works when
Chris@0 1760 // moving in one direction).
Chris@0 1761
Chris@0 1762 //!!! Need a utility function for this
Chris@0 1763
Chris@0 1764 static QPixmap *tmpPixmap = 0;
Chris@0 1765 if (!tmpPixmap ||
Chris@95 1766 tmpPixmap->width() != cache.pixmap.width() ||
Chris@95 1767 tmpPixmap->height() != cache.pixmap.height()) {
Chris@0 1768 delete tmpPixmap;
Chris@95 1769 tmpPixmap = new QPixmap(cache.pixmap.width(),
Chris@95 1770 cache.pixmap.height());
Chris@0 1771 }
Chris@0 1772 QPainter cachePainter;
Chris@0 1773 cachePainter.begin(tmpPixmap);
Chris@95 1774 cachePainter.drawPixmap(0, 0, cache.pixmap);
Chris@0 1775 cachePainter.end();
Chris@95 1776 cachePainter.begin(&cache.pixmap);
Chris@0 1777 cachePainter.drawPixmap(dx, 0, *tmpPixmap);
Chris@0 1778 cachePainter.end();
Chris@0 1779 #else
Chris@95 1780 QPainter cachePainter(&cache.pixmap);
Chris@95 1781 cachePainter.drawPixmap(dx, 0, cache.pixmap);
Chris@0 1782 cachePainter.end();
Chris@0 1783 #endif
Chris@0 1784
Chris@95 1785 int px = cache.validArea.x();
Chris@95 1786 int pw = cache.validArea.width();
Chris@0 1787
Chris@0 1788 if (dx < 0) {
Chris@95 1789 x0 = cache.pixmap.width() + dx;
Chris@95 1790 x1 = cache.pixmap.width();
Chris@95 1791 px += dx;
Chris@95 1792 if (px < 0) {
Chris@95 1793 pw += px;
Chris@95 1794 px = 0;
Chris@95 1795 if (pw < 0) pw = 0;
Chris@95 1796 }
Chris@0 1797 } else {
Chris@0 1798 x0 = 0;
Chris@0 1799 x1 = dx;
Chris@95 1800 px += dx;
Chris@95 1801 if (px + pw > cache.pixmap.width()) {
Chris@95 1802 pw = int(cache.pixmap.width()) - px;
Chris@95 1803 if (pw < 0) pw = 0;
Chris@95 1804 }
Chris@0 1805 }
Chris@95 1806
Chris@95 1807 cache.validArea =
Chris@95 1808 QRect(px, cache.validArea.y(),
Chris@95 1809 pw, cache.validArea.height());
Chris@95 1810
Chris@95 1811 paint.drawPixmap(rect & cache.validArea,
Chris@95 1812 cache.pixmap,
Chris@95 1813 rect & cache.validArea);
Chris@0 1814 }
Chris@0 1815 }
Chris@0 1816 } else {
Chris@0 1817 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@0 1818 std::cerr << "SpectrogramLayer: pixmap cache useless" << std::endl;
Chris@224 1819 if (int(cache.zoomLevel) != zoomLevel) {
Chris@224 1820 std::cerr << "(cache zoomLevel " << cache.zoomLevel
Chris@224 1821 << " != " << zoomLevel << ")" << std::endl;
Chris@224 1822 }
Chris@224 1823 if (cache.pixmap.width() != v->width()) {
Chris@224 1824 std::cerr << "(cache width " << cache.pixmap.width()
Chris@224 1825 << " != " << v->width();
Chris@224 1826 }
Chris@224 1827 if (cache.pixmap.height() != v->height()) {
Chris@224 1828 std::cerr << "(cache height " << cache.pixmap.height()
Chris@224 1829 << " != " << v->height();
Chris@224 1830 }
Chris@0 1831 #endif
Chris@95 1832 cache.validArea = QRect();
Chris@0 1833 }
Chris@0 1834 }
Chris@95 1835
Chris@133 1836 if (updateViewMagnitudes(v)) {
Chris@184 1837 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@133 1838 std::cerr << "SpectrogramLayer: magnitude range changed to [" << m_viewMags[v].getMin() << "->" << m_viewMags[v].getMax() << "]" << std::endl;
Chris@184 1839 #endif
Chris@133 1840 recreateWholePixmapCache = true;
Chris@133 1841 } else {
Chris@184 1842 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@133 1843 std::cerr << "No change in magnitude range [" << m_viewMags[v].getMin() << "->" << m_viewMags[v].getMax() << "]" << std::endl;
Chris@184 1844 #endif
Chris@133 1845 }
Chris@133 1846
Chris@95 1847 if (recreateWholePixmapCache) {
Chris@95 1848 x0 = 0;
Chris@95 1849 x1 = v->width();
Chris@95 1850 }
Chris@95 1851
Chris@215 1852 struct timeval tv;
Chris@215 1853 (void)gettimeofday(&tv, 0);
Chris@215 1854 RealTime mainPaintStart = RealTime::fromTimeval(tv);
Chris@215 1855
Chris@215 1856 int paintBlockWidth = m_lastPaintBlockWidth;
Chris@215 1857
Chris@215 1858 if (paintBlockWidth == 0) {
Chris@215 1859 paintBlockWidth = (300000 / zoomLevel);
Chris@215 1860 } else {
Chris@215 1861 RealTime lastTime = m_lastPaintTime;
Chris@215 1862 while (lastTime > RealTime::fromMilliseconds(200) &&
Chris@215 1863 paintBlockWidth > 50) {
Chris@215 1864 paintBlockWidth /= 2;
Chris@215 1865 lastTime = lastTime / 2;
Chris@215 1866 }
Chris@215 1867 while (lastTime < RealTime::fromMilliseconds(90) &&
Chris@215 1868 paintBlockWidth < 1500) {
Chris@215 1869 paintBlockWidth *= 2;
Chris@215 1870 lastTime = lastTime * 2;
Chris@215 1871 }
Chris@215 1872 }
Chris@215 1873
Chris@96 1874 if (paintBlockWidth < 20) paintBlockWidth = 20;
Chris@96 1875
Chris@224 1876 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@215 1877 std::cerr << "[" << this << "]: last paint width: " << m_lastPaintBlockWidth << ", last paint time: " << m_lastPaintTime << ", new paint width: " << paintBlockWidth << std::endl;
Chris@224 1878 #endif
Chris@224 1879
Chris@224 1880 // We always paint the full height when refreshing the cache.
Chris@224 1881 // Smaller heights can be used when painting direct from cache
Chris@224 1882 // (further up in this function), but we want to ensure the cache
Chris@224 1883 // is coherent without having to worry about vertical matching of
Chris@224 1884 // required and valid areas as well as horizontal.
Chris@224 1885
Chris@224 1886 int h = v->height();
Chris@215 1887
Chris@96 1888 if (cache.validArea.width() > 0) {
Chris@96 1889
Chris@96 1890 int vx0 = 0, vx1 = 0;
Chris@96 1891 vx0 = cache.validArea.x();
Chris@96 1892 vx1 = cache.validArea.x() + cache.validArea.width();
Chris@96 1893
Chris@96 1894 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@96 1895 std::cerr << "x0 " << x0 << ", x1 " << x1 << ", vx0 " << vx0 << ", vx1 " << vx1 << ", paintBlockWidth " << paintBlockWidth << std::endl;
Chris@96 1896 #endif
Chris@96 1897 if (x0 < vx0) {
Chris@96 1898 if (x0 + paintBlockWidth < vx0) {
Chris@96 1899 x0 = vx0 - paintBlockWidth;
Chris@96 1900 } else {
Chris@96 1901 x0 = 0;
Chris@96 1902 }
Chris@96 1903 } else if (x0 > vx1) {
Chris@96 1904 x0 = vx1;
Chris@96 1905 }
Chris@95 1906
Chris@96 1907 if (x1 < vx0) {
Chris@96 1908 x1 = vx0;
Chris@96 1909 } else if (x1 > vx1) {
Chris@96 1910 if (vx1 + paintBlockWidth < x1) {
Chris@96 1911 x1 = vx1 + paintBlockWidth;
Chris@96 1912 } else {
Chris@96 1913 x1 = v->width();
Chris@95 1914 }
Chris@96 1915 }
Chris@95 1916
Chris@96 1917 cache.validArea = QRect
Chris@96 1918 (std::min(vx0, x0), cache.validArea.y(),
Chris@96 1919 std::max(vx1 - std::min(vx0, x0),
Chris@96 1920 x1 - std::min(vx0, x0)),
Chris@96 1921 cache.validArea.height());
Chris@95 1922
Chris@96 1923 } else {
Chris@96 1924 if (x1 > x0 + paintBlockWidth) {
Chris@133 1925 int sfx = x1;
Chris@133 1926 if (startFrame < 0) sfx = v->getXForFrame(0);
Chris@133 1927 if (sfx >= x0 && sfx + paintBlockWidth <= x1) {
Chris@133 1928 x0 = sfx;
Chris@133 1929 x1 = x0 + paintBlockWidth;
Chris@133 1930 } else {
Chris@133 1931 int mid = (x1 + x0) / 2;
Chris@133 1932 x0 = mid - paintBlockWidth/2;
Chris@133 1933 x1 = x0 + paintBlockWidth;
Chris@133 1934 }
Chris@95 1935 }
Chris@224 1936 cache.validArea = QRect(x0, 0, x1 - x0, h);
Chris@95 1937 }
Chris@95 1938
Chris@0 1939 int w = x1 - x0;
Chris@0 1940
Chris@95 1941 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@95 1942 std::cerr << "x0 " << x0 << ", x1 " << x1 << ", w " << w << ", h " << h << std::endl;
Chris@95 1943 #endif
Chris@95 1944
Chris@95 1945 if (m_drawBuffer.width() < w || m_drawBuffer.height() < h) {
Chris@95 1946 m_drawBuffer = QImage(w, h, QImage::Format_RGB32);
Chris@95 1947 }
Chris@95 1948
Chris@197 1949 m_drawBuffer.fill(m_palette.getColour(0).rgb());
Chris@35 1950
Chris@37 1951 int sr = m_model->getSampleRate();
Chris@122 1952
Chris@122 1953 // Set minFreq and maxFreq to the frequency extents of the possibly
Chris@122 1954 // zero-padded visible bin range, and displayMinFreq and displayMaxFreq
Chris@122 1955 // to the actual scale frequency extents (presumably not zero padded).
Chris@253 1956
Chris@253 1957 // If we are zero padding, we want to use the zero-padded
Chris@253 1958 // equivalents of the bins that we would be using if not zero
Chris@253 1959 // padded, to avoid spaces at the top and bottom of the display.
Chris@253 1960
Chris@253 1961 // Note fftSize is the actual zero-padded fft size, m_fftSize the
Chris@253 1962 // nominal fft size.
Chris@35 1963
Chris@253 1964 size_t maxbin = m_fftSize / 2;
Chris@35 1965 if (m_maxFrequency > 0) {
Chris@253 1966 maxbin = int((double(m_maxFrequency) * m_fftSize) / sr + 0.001);
Chris@253 1967 if (maxbin > m_fftSize / 2) maxbin = m_fftSize / 2;
Chris@35 1968 }
Chris@111 1969
Chris@40 1970 size_t minbin = 1;
Chris@37 1971 if (m_minFrequency > 0) {
Chris@253 1972 minbin = int((double(m_minFrequency) * m_fftSize) / sr + 0.001);
Chris@253 1973 // std::cerr << "m_minFrequency = " << m_minFrequency << " -> minbin = " << minbin << std::endl;
Chris@40 1974 if (minbin < 1) minbin = 1;
Chris@184 1975 if (minbin >= maxbin) minbin = maxbin - 1;
Chris@37 1976 }
Chris@37 1977
Chris@253 1978 int zpl = getZeroPadLevel(v) + 1;
Chris@253 1979 minbin = minbin * zpl;
Chris@253 1980 maxbin = (maxbin + 1) * zpl - 1;
Chris@253 1981
Chris@114 1982 float minFreq = (float(minbin) * sr) / fftSize;
Chris@184 1983 float maxFreq = (float(maxbin) * sr) / fftSize;
Chris@0 1984
Chris@122 1985 float displayMinFreq = minFreq;
Chris@122 1986 float displayMaxFreq = maxFreq;
Chris@122 1987
Chris@122 1988 if (fftSize != m_fftSize) {
Chris@122 1989 displayMinFreq = getEffectiveMinFrequency();
Chris@122 1990 displayMaxFreq = getEffectiveMaxFrequency();
Chris@122 1991 }
Chris@122 1992
Chris@253 1993 // std::cerr << "(giving actual minFreq " << minFreq << " and display minFreq " << displayMinFreq << ")" << std::endl;
Chris@253 1994
Chris@92 1995 float ymag[h];
Chris@92 1996 float ydiv[h];
Chris@184 1997 float yval[maxbin + 1]; //!!! cache this?
Chris@92 1998
Chris@38 1999 size_t increment = getWindowIncrement();
Chris@40 2000
Chris@40 2001 bool logarithmic = (m_frequencyScale == LogFrequencyScale);
Chris@38 2002
Chris@184 2003 for (size_t q = minbin; q <= maxbin; ++q) {
Chris@114 2004 float f0 = (float(q) * sr) / fftSize;
Chris@122 2005 yval[q] = v->getYForFrequency(f0, displayMinFreq, displayMaxFreq,
Chris@122 2006 logarithmic);
Chris@122 2007 // std::cerr << "min: " << minFreq << ", max: " << maxFreq << ", yval[" << q << "]: " << yval[q] << std::endl;
Chris@92 2008 }
Chris@92 2009
Chris@119 2010 MagnitudeRange overallMag = m_viewMags[v];
Chris@119 2011 bool overallMagChanged = false;
Chris@119 2012
Chris@162 2013 bool fftSuspended = false;
Chris@131 2014
Chris@221 2015 bool interpolate = false;
Chris@221 2016 Preferences::SpectrogramSmoothing smoothing =
Chris@221 2017 Preferences::getInstance()->getSpectrogramSmoothing();
Chris@221 2018 if (smoothing == Preferences::SpectrogramInterpolated ||
Chris@221 2019 smoothing == Preferences::SpectrogramZeroPaddedAndInterpolated) {
Chris@222 2020 if (m_binDisplay != PeakBins &&
Chris@222 2021 m_binDisplay != PeakFrequencies) {
Chris@222 2022 interpolate = true;
Chris@222 2023 }
Chris@221 2024 }
Chris@221 2025
Chris@137 2026 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@224 2027 std::cerr << ((float(v->getFrameForX(1) - v->getFrameForX(0))) / increment) << " bin(s) per pixel" << std::endl;
Chris@137 2028 #endif
Chris@137 2029
Chris@224 2030 bool runOutOfData = false;
Chris@224 2031
Chris@35 2032 for (int x = 0; x < w; ++x) {
Chris@35 2033
Chris@224 2034 if (runOutOfData) break;
Chris@224 2035
Chris@35 2036 for (int y = 0; y < h; ++y) {
Chris@134 2037 ymag[y] = 0.f;
Chris@134 2038 ydiv[y] = 0.f;
Chris@35 2039 }
Chris@35 2040
Chris@35 2041 float s0 = 0, s1 = 0;
Chris@35 2042
Chris@44 2043 if (!getXBinRange(v, x0 + x, s0, s1)) {
Chris@95 2044 assert(x <= m_drawBuffer.width());
Chris@35 2045 continue;
Chris@35 2046 }
Chris@35 2047
Chris@35 2048 int s0i = int(s0 + 0.001);
Chris@35 2049 int s1i = int(s1);
Chris@35 2050
Chris@248 2051 if (s1i >= int(fft->getWidth())) {
Chris@248 2052 if (s0i >= int(fft->getWidth())) {
Chris@45 2053 continue;
Chris@45 2054 } else {
Chris@45 2055 s1i = s0i;
Chris@45 2056 }
Chris@45 2057 }
Chris@92 2058
Chris@92 2059 for (int s = s0i; s <= s1i; ++s) {
Chris@92 2060
Chris@224 2061 if (!fft->isColumnAvailable(s)) {
Chris@224 2062 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@224 2063 std::cerr << "Met unavailable column at col " << s << std::endl;
Chris@224 2064 #endif
Chris@224 2065 // continue;
Chris@224 2066 runOutOfData = true;
Chris@224 2067 break;
Chris@224 2068 }
Chris@162 2069
Chris@162 2070 if (!fftSuspended) {
Chris@162 2071 fft->suspendWrites();
Chris@162 2072 fftSuspended = true;
Chris@162 2073 }
Chris@162 2074
Chris@119 2075 MagnitudeRange mag;
Chris@92 2076
Chris@280 2077 FFTModel::PeakSet peaks;
Chris@280 2078 if (m_binDisplay == PeakFrequencies &&
Chris@280 2079 s < int(fft->getWidth()) - 1) {
Chris@280 2080 peaks = fft->getPeakFrequencies(FFTModel::AllPeaks,
Chris@280 2081 s,
Chris@280 2082 minbin, maxbin - 1);
Chris@280 2083 }
Chris@280 2084
Chris@184 2085 for (size_t q = minbin; q < maxbin; ++q) {
Chris@92 2086
Chris@92 2087 float y0 = yval[q + 1];
Chris@92 2088 float y1 = yval[q];
Chris@92 2089
Chris@280 2090 if (m_binDisplay == PeakBins) {
Chris@114 2091 if (!fft->isLocalPeak(s, q)) continue;
Chris@40 2092 }
Chris@280 2093 if (m_binDisplay == PeakFrequencies) {
Chris@280 2094 if (peaks.find(q) == peaks.end()) continue;
Chris@280 2095 }
Chris@114 2096
Chris@114 2097 if (m_threshold != 0.f &&
Chris@253 2098 !fft->isOverThreshold(s, q, m_threshold * (m_fftSize/2))) {
Chris@114 2099 continue;
Chris@114 2100 }
Chris@40 2101
Chris@35 2102 float sprop = 1.0;
Chris@35 2103 if (s == s0i) sprop *= (s + 1) - s0;
Chris@35 2104 if (s == s1i) sprop *= s1 - s;
Chris@35 2105
Chris@280 2106 if (m_binDisplay == PeakFrequencies) {
Chris@44 2107 y0 = y1 = v->getYForFrequency
Chris@280 2108 (peaks[q], displayMinFreq, displayMaxFreq, logarithmic);
Chris@35 2109 }
Chris@38 2110
Chris@35 2111 int y0i = int(y0 + 0.001);
Chris@35 2112 int y1i = int(y1);
Chris@35 2113
Chris@92 2114 float value;
Chris@92 2115
Chris@92 2116 if (m_colourScale == PhaseColourScale) {
Chris@114 2117 value = fft->getPhaseAt(s, q);
Chris@92 2118 } else if (m_normalizeColumns) {
Chris@119 2119 value = fft->getNormalizedMagnitudeAt(s, q);
Chris@119 2120 mag.sample(value);
Chris@119 2121 value *= m_gain;
Chris@92 2122 } else {
Chris@252 2123 value = fft->getMagnitudeAt(s, q) / (m_fftSize/2);
Chris@119 2124 mag.sample(value);
Chris@119 2125 value *= m_gain;
Chris@92 2126 }
Chris@92 2127
Chris@221 2128 if (interpolate) {
Chris@221 2129
Chris@221 2130 int ypi = y0i;
Chris@221 2131 if (q < maxbin - 1) ypi = int(yval[q + 2]);
Chris@221 2132
Chris@221 2133 for (int y = ypi; y <= y1i; ++y) {
Chris@221 2134
Chris@221 2135 if (y < 0 || y >= h) continue;
Chris@221 2136
Chris@221 2137 float yprop = sprop;
Chris@221 2138 float iprop = yprop;
Chris@221 2139
Chris@221 2140 if (ypi < y0i && y <= y0i) {
Chris@221 2141
Chris@221 2142 float half = float(y0i - ypi) / 2;
Chris@221 2143 float dist = y - (ypi + half);
Chris@221 2144
Chris@221 2145 if (dist >= 0) {
Chris@221 2146 iprop = (iprop * dist) / half;
Chris@221 2147 ymag[y] += iprop * value;
Chris@221 2148 }
Chris@221 2149 } else {
Chris@221 2150 if (y1i > y0i) {
Chris@221 2151
Chris@221 2152 float half = float(y1i - y0i) / 2;
Chris@221 2153 float dist = y - (y0i + half);
Chris@221 2154
Chris@221 2155 if (dist >= 0) {
Chris@221 2156 iprop = (iprop * (half - dist)) / half;
Chris@221 2157 }
Chris@221 2158 }
Chris@221 2159
Chris@221 2160 ymag[y] += iprop * value;
Chris@221 2161 ydiv[y] += yprop;
Chris@221 2162 }
Chris@221 2163 }
Chris@221 2164
Chris@221 2165 } else {
Chris@221 2166
Chris@221 2167 for (int y = y0i; y <= y1i; ++y) {
Chris@221 2168
Chris@221 2169 if (y < 0 || y >= h) continue;
Chris@221 2170
Chris@221 2171 float yprop = sprop;
Chris@221 2172 if (y == y0i) yprop *= (y + 1) - y0;
Chris@221 2173 if (y == y1i) yprop *= y1 - y;
Chris@221 2174
Chris@221 2175 for (int y = y0i; y <= y1i; ++y) {
Chris@35 2176
Chris@221 2177 if (y < 0 || y >= h) continue;
Chris@221 2178
Chris@221 2179 float yprop = sprop;
Chris@221 2180 if (y == y0i) yprop *= (y + 1) - y0;
Chris@221 2181 if (y == y1i) yprop *= y1 - y;
Chris@221 2182 ymag[y] += yprop * value;
Chris@221 2183 ydiv[y] += yprop;
Chris@221 2184 }
Chris@221 2185 }
Chris@221 2186 }
Chris@35 2187 }
Chris@119 2188
Chris@119 2189 if (mag.isSet()) {
Chris@119 2190
Chris@248 2191 if (s >= int(m_columnMags.size())) {
Chris@203 2192 std::cerr << "INTERNAL ERROR: " << s << " >= "
Chris@203 2193 << m_columnMags.size() << " at SpectrogramLayer.cpp:2087" << std::endl;
Chris@203 2194 }
Chris@203 2195
Chris@119 2196 m_columnMags[s].sample(mag);
Chris@119 2197
Chris@119 2198 if (overallMag.sample(mag)) {
Chris@119 2199 //!!! scaling would change here
Chris@119 2200 overallMagChanged = true;
Chris@209 2201 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@119 2202 std::cerr << "Overall mag changed (again?) at column " << s << ", to [" << overallMag.getMin() << "->" << overallMag.getMax() << "]" << std::endl;
Chris@209 2203 #endif
Chris@119 2204 }
Chris@119 2205 }
Chris@35 2206 }
Chris@35 2207
Chris@35 2208 for (int y = 0; y < h; ++y) {
Chris@35 2209
Chris@35 2210 if (ydiv[y] > 0.0) {
Chris@40 2211
Chris@40 2212 unsigned char pixel = 0;
Chris@40 2213
Chris@38 2214 float avg = ymag[y] / ydiv[y];
Chris@138 2215 pixel = getDisplayValue(v, avg);
Chris@40 2216
Chris@95 2217 assert(x <= m_drawBuffer.width());
Chris@197 2218 QColor c = m_palette.getColour(pixel);
Chris@95 2219 m_drawBuffer.setPixel(x, y,
Chris@95 2220 qRgb(c.red(), c.green(), c.blue()));
Chris@35 2221 }
Chris@35 2222 }
Chris@35 2223 }
Chris@35 2224
Chris@119 2225 if (overallMagChanged) {
Chris@119 2226 m_viewMags[v] = overallMag;
Chris@209 2227 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@119 2228 std::cerr << "Overall mag is now [" << m_viewMags[v].getMin() << "->" << m_viewMags[v].getMax() << "] - will be updating" << std::endl;
Chris@209 2229 #endif
Chris@119 2230 } else {
Chris@209 2231 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@119 2232 std::cerr << "Overall mag unchanged at [" << m_viewMags[v].getMin() << "->" << m_viewMags[v].getMax() << "]" << std::endl;
Chris@209 2233 #endif
Chris@119 2234 }
Chris@119 2235
Chris@161 2236 Profiler profiler2("SpectrogramLayer::paint: draw image", true);
Chris@137 2237
Chris@224 2238 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@224 2239 std::cerr << "Painting " << w << "x" << rect.height()
Chris@224 2240 << " from draw buffer at " << 0 << "," << rect.y()
Chris@224 2241 << " to window at " << x0 << "," << rect.y() << std::endl;
Chris@224 2242 #endif
Chris@224 2243
Chris@224 2244 paint.drawImage(x0, rect.y(), m_drawBuffer, 0, rect.y(), w, rect.height());
Chris@0 2245
Chris@0 2246 if (recreateWholePixmapCache) {
Chris@224 2247 cache.pixmap = QPixmap(v->width(), h);
Chris@0 2248 }
Chris@0 2249
Chris@224 2250 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@224 2251 std::cerr << "Painting " << w << "x" << h
Chris@224 2252 << " from draw buffer at " << 0 << "," << 0
Chris@224 2253 << " to cache at " << x0 << "," << 0 << std::endl;
Chris@224 2254 #endif
Chris@224 2255
Chris@95 2256 QPainter cachePainter(&cache.pixmap);
Chris@224 2257 cachePainter.drawImage(x0, 0, m_drawBuffer, 0, 0, w, h);
Chris@0 2258 cachePainter.end();
Chris@119 2259
Chris@120 2260 if (!m_normalizeVisibleArea || !overallMagChanged) {
Chris@0 2261
Chris@119 2262 cache.startFrame = startFrame;
Chris@119 2263 cache.zoomLevel = zoomLevel;
Chris@119 2264
Chris@119 2265 if (cache.validArea.x() > 0) {
Chris@95 2266 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@158 2267 std::cerr << "SpectrogramLayer::paint() updating left (0, "
Chris@158 2268 << cache.validArea.x() << ")" << std::endl;
Chris@95 2269 #endif
Chris@224 2270 v->update(0, 0, cache.validArea.x(), h);
Chris@119 2271 }
Chris@119 2272
Chris@119 2273 if (cache.validArea.x() + cache.validArea.width() <
Chris@119 2274 cache.pixmap.width()) {
Chris@95 2275 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@119 2276 std::cerr << "SpectrogramLayer::paint() updating right ("
Chris@119 2277 << cache.validArea.x() + cache.validArea.width()
Chris@119 2278 << ", "
Chris@119 2279 << cache.pixmap.width() - (cache.validArea.x() +
Chris@119 2280 cache.validArea.width())
Chris@119 2281 << ")" << std::endl;
Chris@95 2282 #endif
Chris@119 2283 v->update(cache.validArea.x() + cache.validArea.width(),
Chris@119 2284 0,
Chris@119 2285 cache.pixmap.width() - (cache.validArea.x() +
Chris@119 2286 cache.validArea.width()),
Chris@224 2287 h);
Chris@119 2288 }
Chris@119 2289 } else {
Chris@119 2290 // overallMagChanged
Chris@119 2291 cache.validArea = QRect();
Chris@119 2292 v->update();
Chris@95 2293 }
Chris@0 2294
Chris@121 2295 illuminateLocalFeatures(v, paint);
Chris@120 2296
Chris@0 2297 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@0 2298 std::cerr << "SpectrogramLayer::paint() returning" << std::endl;
Chris@0 2299 #endif
Chris@131 2300
Chris@215 2301 m_lastPaintBlockWidth = paintBlockWidth;
Chris@215 2302 (void)gettimeofday(&tv, 0);
Chris@215 2303 m_lastPaintTime = RealTime::fromTimeval(tv) - mainPaintStart;
Chris@215 2304
Chris@162 2305 if (fftSuspended) fft->resume();
Chris@0 2306 }
Chris@0 2307
Chris@121 2308 void
Chris@121 2309 SpectrogramLayer::illuminateLocalFeatures(View *v, QPainter &paint) const
Chris@121 2310 {
Chris@121 2311 QPoint localPos;
Chris@121 2312 if (!v->shouldIlluminateLocalFeatures(this, localPos) || !m_model) {
Chris@121 2313 return;
Chris@121 2314 }
Chris@121 2315
Chris@180 2316 // std::cerr << "SpectrogramLayer: illuminateLocalFeatures("
Chris@180 2317 // << localPos.x() << "," << localPos.y() << ")" << std::endl;
Chris@121 2318
Chris@121 2319 float s0, s1;
Chris@121 2320 float f0, f1;
Chris@121 2321
Chris@121 2322 if (getXBinRange(v, localPos.x(), s0, s1) &&
Chris@121 2323 getYBinSourceRange(v, localPos.y(), f0, f1)) {
Chris@121 2324
Chris@121 2325 int s0i = int(s0 + 0.001);
Chris@121 2326 int s1i = int(s1);
Chris@121 2327
Chris@121 2328 int x0 = v->getXForFrame(s0i * getWindowIncrement());
Chris@121 2329 int x1 = v->getXForFrame((s1i + 1) * getWindowIncrement());
Chris@121 2330
Chris@248 2331 int y1 = int(getYForFrequency(v, f1));
Chris@248 2332 int y0 = int(getYForFrequency(v, f0));
Chris@121 2333
Chris@180 2334 // std::cerr << "SpectrogramLayer: illuminate "
Chris@180 2335 // << x0 << "," << y1 << " -> " << x1 << "," << y0 << std::endl;
Chris@121 2336
Chris@287 2337 paint.setPen(v->getForeground());
Chris@133 2338
Chris@133 2339 //!!! should we be using paintCrosshairs for this?
Chris@133 2340
Chris@121 2341 paint.drawRect(x0, y1, x1 - x0 + 1, y0 - y1 + 1);
Chris@121 2342 }
Chris@121 2343 }
Chris@121 2344
Chris@42 2345 float
Chris@267 2346 SpectrogramLayer::getYForFrequency(const View *v, float frequency) const
Chris@42 2347 {
Chris@44 2348 return v->getYForFrequency(frequency,
Chris@44 2349 getEffectiveMinFrequency(),
Chris@44 2350 getEffectiveMaxFrequency(),
Chris@44 2351 m_frequencyScale == LogFrequencyScale);
Chris@42 2352 }
Chris@42 2353
Chris@42 2354 float
Chris@267 2355 SpectrogramLayer::getFrequencyForY(const View *v, int y) const
Chris@42 2356 {
Chris@44 2357 return v->getFrequencyForY(y,
Chris@44 2358 getEffectiveMinFrequency(),
Chris@44 2359 getEffectiveMaxFrequency(),
Chris@44 2360 m_frequencyScale == LogFrequencyScale);
Chris@42 2361 }
Chris@42 2362
Chris@0 2363 int
Chris@115 2364 SpectrogramLayer::getCompletion(View *v) const
Chris@0 2365 {
Chris@115 2366 if (m_updateTimer == 0) return 100;
Chris@130 2367 if (m_fftModels.find(v) == m_fftModels.end()) return 100;
Chris@130 2368
Chris@130 2369 size_t completion = m_fftModels[v].first->getCompletion();
Chris@224 2370 #ifdef DEBUG_SPECTROGRAM_REPAINT
Chris@115 2371 std::cerr << "SpectrogramLayer::getCompletion: completion = " << completion << std::endl;
Chris@224 2372 #endif
Chris@0 2373 return completion;
Chris@0 2374 }
Chris@0 2375
Chris@28 2376 bool
Chris@101 2377 SpectrogramLayer::getValueExtents(float &min, float &max,
Chris@101 2378 bool &logarithmic, QString &unit) const
Chris@79 2379 {
Chris@133 2380 if (!m_model) return false;
Chris@133 2381
Chris@133 2382 int sr = m_model->getSampleRate();
Chris@133 2383 min = float(sr) / m_fftSize;
Chris@133 2384 max = float(sr) / 2;
Chris@133 2385
Chris@101 2386 logarithmic = (m_frequencyScale == LogFrequencyScale);
Chris@79 2387 unit = "Hz";
Chris@79 2388 return true;
Chris@79 2389 }
Chris@79 2390
Chris@79 2391 bool
Chris@101 2392 SpectrogramLayer::getDisplayExtents(float &min, float &max) const
Chris@101 2393 {
Chris@101 2394 min = getEffectiveMinFrequency();
Chris@101 2395 max = getEffectiveMaxFrequency();
Chris@253 2396
Chris@248 2397 // std::cerr << "SpectrogramLayer::getDisplayExtents: " << min << "->" << max << std::endl;
Chris@101 2398 return true;
Chris@101 2399 }
Chris@101 2400
Chris@101 2401 bool
Chris@120 2402 SpectrogramLayer::setDisplayExtents(float min, float max)
Chris@120 2403 {
Chris@120 2404 if (!m_model) return false;
Chris@187 2405
Chris@253 2406 // std::cerr << "SpectrogramLayer::setDisplayExtents: " << min << "->" << max << std::endl;
Chris@187 2407
Chris@120 2408 if (min < 0) min = 0;
Chris@120 2409 if (max > m_model->getSampleRate()/2) max = m_model->getSampleRate()/2;
Chris@120 2410
Chris@120 2411 size_t minf = lrintf(min);
Chris@120 2412 size_t maxf = lrintf(max);
Chris@120 2413
Chris@120 2414 if (m_minFrequency == minf && m_maxFrequency == maxf) return true;
Chris@120 2415
Chris@120 2416 invalidatePixmapCaches();
Chris@120 2417 invalidateMagnitudes();
Chris@120 2418
Chris@120 2419 m_minFrequency = minf;
Chris@120 2420 m_maxFrequency = maxf;
Chris@120 2421
Chris@120 2422 emit layerParametersChanged();
Chris@120 2423
Chris@133 2424 int vs = getCurrentVerticalZoomStep();
Chris@133 2425 if (vs != m_lastEmittedZoomStep) {
Chris@133 2426 emit verticalZoomChanged();
Chris@133 2427 m_lastEmittedZoomStep = vs;
Chris@133 2428 }
Chris@133 2429
Chris@120 2430 return true;
Chris@120 2431 }
Chris@120 2432
Chris@120 2433 bool
Chris@267 2434 SpectrogramLayer::getYScaleValue(const View *v, int y,
Chris@261 2435 float &value, QString &unit) const
Chris@261 2436 {
Chris@261 2437 value = getFrequencyForY(v, y);
Chris@261 2438 unit = "Hz";
Chris@261 2439 return true;
Chris@261 2440 }
Chris@261 2441
Chris@261 2442 bool
Chris@248 2443 SpectrogramLayer::snapToFeatureFrame(View *, int &frame,
Chris@28 2444 size_t &resolution,
Chris@28 2445 SnapType snap) const
Chris@13 2446 {
Chris@13 2447 resolution = getWindowIncrement();
Chris@28 2448 int left = (frame / resolution) * resolution;
Chris@28 2449 int right = left + resolution;
Chris@28 2450
Chris@28 2451 switch (snap) {
Chris@28 2452 case SnapLeft: frame = left; break;
Chris@28 2453 case SnapRight: frame = right; break;
Chris@28 2454 case SnapNearest:
Chris@28 2455 case SnapNeighbouring:
Chris@28 2456 if (frame - left > right - frame) frame = right;
Chris@28 2457 else frame = left;
Chris@28 2458 break;
Chris@28 2459 }
Chris@28 2460
Chris@28 2461 return true;
Chris@28 2462 }
Chris@13 2463
Chris@283 2464 void
Chris@283 2465 SpectrogramLayer::measureDoubleClick(View *v, QMouseEvent *e)
Chris@283 2466 {
Chris@283 2467 PixmapCache &cache = m_pixmapCaches[v];
Chris@283 2468
Chris@283 2469 std::cerr << "cache width: " << cache.pixmap.width() << ", height: "
Chris@283 2470 << cache.pixmap.height() << std::endl;
Chris@283 2471
Chris@283 2472 QImage image = cache.pixmap.toImage();
Chris@283 2473
Chris@283 2474 ImageRegionFinder finder;
Chris@283 2475 QRect rect = finder.findRegionExtents(&image, e->pos());
Chris@283 2476 if (rect.isValid()) {
Chris@283 2477 MeasureRect mr;
Chris@283 2478 setMeasureRectFromPixrect(v, mr, rect);
Chris@283 2479 CommandHistory::getInstance()->addCommand
Chris@283 2480 (new AddMeasurementRectCommand(this, mr));
Chris@283 2481 }
Chris@283 2482 }
Chris@283 2483
Chris@77 2484 bool
Chris@264 2485 SpectrogramLayer::getCrosshairExtents(View *v, QPainter &paint,
Chris@77 2486 QPoint cursorPos,
Chris@77 2487 std::vector<QRect> &extents) const
Chris@77 2488 {
Chris@77 2489 QRect vertical(cursorPos.x() - 12, 0, 12, v->height());
Chris@77 2490 extents.push_back(vertical);
Chris@77 2491
Chris@77 2492 QRect horizontal(0, cursorPos.y(), cursorPos.x(), 1);
Chris@77 2493 extents.push_back(horizontal);
Chris@77 2494
Chris@264 2495 int sw = getVerticalScaleWidth(v, paint);
Chris@264 2496
Chris@280 2497 QRect freq(sw, cursorPos.y() - paint.fontMetrics().ascent() - 2,
Chris@280 2498 paint.fontMetrics().width("123456 Hz") + 2,
Chris@280 2499 paint.fontMetrics().height());
Chris@280 2500 extents.push_back(freq);
Chris@264 2501
Chris@279 2502 QRect pitch(sw, cursorPos.y() + 2,
Chris@279 2503 paint.fontMetrics().width("C#10+50c") + 2,
Chris@279 2504 paint.fontMetrics().height());
Chris@279 2505 extents.push_back(pitch);
Chris@279 2506
Chris@280 2507 QRect rt(cursorPos.x(),
Chris@280 2508 v->height() - paint.fontMetrics().height() - 2,
Chris@280 2509 paint.fontMetrics().width("1234.567 s"),
Chris@280 2510 paint.fontMetrics().height());
Chris@280 2511 extents.push_back(rt);
Chris@280 2512
Chris@280 2513 int w(paint.fontMetrics().width("1234567890") + 2);
Chris@280 2514 QRect frame(cursorPos.x() - w - 2,
Chris@280 2515 v->height() - paint.fontMetrics().height() - 2,
Chris@280 2516 w,
Chris@280 2517 paint.fontMetrics().height());
Chris@280 2518 extents.push_back(frame);
Chris@280 2519
Chris@77 2520 return true;
Chris@77 2521 }
Chris@77 2522
Chris@77 2523 void
Chris@77 2524 SpectrogramLayer::paintCrosshairs(View *v, QPainter &paint,
Chris@77 2525 QPoint cursorPos) const
Chris@77 2526 {
Chris@77 2527 paint.save();
Chris@283 2528
Chris@283 2529 int sw = getVerticalScaleWidth(v, paint);
Chris@283 2530
Chris@282 2531 QFont fn = paint.font();
Chris@282 2532 if (fn.pointSize() > 8) {
Chris@282 2533 fn.setPointSize(fn.pointSize() - 1);
Chris@282 2534 paint.setFont(fn);
Chris@282 2535 }
Chris@77 2536 paint.setPen(m_crosshairColour);
Chris@77 2537
Chris@77 2538 paint.drawLine(0, cursorPos.y(), cursorPos.x() - 1, cursorPos.y());
Chris@77 2539 paint.drawLine(cursorPos.x(), 0, cursorPos.x(), v->height());
Chris@77 2540
Chris@77 2541 float fundamental = getFrequencyForY(v, cursorPos.y());
Chris@77 2542
Chris@278 2543 v->drawVisibleText(paint,
Chris@278 2544 sw + 2,
Chris@278 2545 cursorPos.y() - 2,
Chris@278 2546 QString("%1 Hz").arg(fundamental),
Chris@278 2547 View::OutlinedText);
Chris@278 2548
Chris@279 2549 if (Pitch::isFrequencyInMidiRange(fundamental)) {
Chris@279 2550 QString pitchLabel = Pitch::getPitchLabelForFrequency(fundamental);
Chris@279 2551 v->drawVisibleText(paint,
Chris@279 2552 sw + 2,
Chris@279 2553 cursorPos.y() + paint.fontMetrics().ascent() + 2,
Chris@279 2554 pitchLabel,
Chris@279 2555 View::OutlinedText);
Chris@279 2556 }
Chris@279 2557
Chris@280 2558 long frame = v->getFrameForX(cursorPos.x());
Chris@279 2559 RealTime rt = RealTime::frame2RealTime(frame, m_model->getSampleRate());
Chris@280 2560 QString rtLabel = QString("%1 s").arg(rt.toText(true).c_str());
Chris@280 2561 QString frameLabel = QString("%1").arg(frame);
Chris@280 2562 v->drawVisibleText(paint,
Chris@280 2563 cursorPos.x() - paint.fontMetrics().width(frameLabel) - 2,
Chris@280 2564 v->height() - 2,
Chris@280 2565 frameLabel,
Chris@280 2566 View::OutlinedText);
Chris@280 2567 v->drawVisibleText(paint,
Chris@280 2568 cursorPos.x() + 2,
Chris@280 2569 v->height() - 2,
Chris@280 2570 rtLabel,
Chris@280 2571 View::OutlinedText);
Chris@264 2572
Chris@77 2573 int harmonic = 2;
Chris@77 2574
Chris@77 2575 while (harmonic < 100) {
Chris@77 2576
Chris@77 2577 float hy = lrintf(getYForFrequency(v, fundamental * harmonic));
Chris@77 2578 if (hy < 0 || hy > v->height()) break;
Chris@77 2579
Chris@77 2580 int len = 7;
Chris@77 2581
Chris@77 2582 if (harmonic % 2 == 0) {
Chris@77 2583 if (harmonic % 4 == 0) {
Chris@77 2584 len = 12;
Chris@77 2585 } else {
Chris@77 2586 len = 10;
Chris@77 2587 }
Chris@77 2588 }
Chris@77 2589
Chris@77 2590 paint.drawLine(cursorPos.x() - len,
Chris@248 2591 int(hy),
Chris@77 2592 cursorPos.x(),
Chris@248 2593 int(hy));
Chris@77 2594
Chris@77 2595 ++harmonic;
Chris@77 2596 }
Chris@77 2597
Chris@77 2598 paint.restore();
Chris@77 2599 }
Chris@77 2600
Chris@25 2601 QString
Chris@44 2602 SpectrogramLayer::getFeatureDescription(View *v, QPoint &pos) const
Chris@25 2603 {
Chris@25 2604 int x = pos.x();
Chris@25 2605 int y = pos.y();
Chris@0 2606
Chris@25 2607 if (!m_model || !m_model->isOK()) return "";
Chris@0 2608
Chris@38 2609 float magMin = 0, magMax = 0;
Chris@38 2610 float phaseMin = 0, phaseMax = 0;
Chris@0 2611 float freqMin = 0, freqMax = 0;
Chris@35 2612 float adjFreqMin = 0, adjFreqMax = 0;
Chris@25 2613 QString pitchMin, pitchMax;
Chris@0 2614 RealTime rtMin, rtMax;
Chris@0 2615
Chris@38 2616 bool haveValues = false;
Chris@0 2617
Chris@44 2618 if (!getXBinSourceRange(v, x, rtMin, rtMax)) {
Chris@38 2619 return "";
Chris@38 2620 }
Chris@44 2621 if (getXYBinSourceRange(v, x, y, magMin, magMax, phaseMin, phaseMax)) {
Chris@38 2622 haveValues = true;
Chris@38 2623 }
Chris@0 2624
Chris@35 2625 QString adjFreqText = "", adjPitchText = "";
Chris@35 2626
Chris@38 2627 if (m_binDisplay == PeakFrequencies) {
Chris@35 2628
Chris@44 2629 if (!getAdjustedYBinSourceRange(v, x, y, freqMin, freqMax,
Chris@38 2630 adjFreqMin, adjFreqMax)) {
Chris@38 2631 return "";
Chris@38 2632 }
Chris@35 2633
Chris@35 2634 if (adjFreqMin != adjFreqMax) {
Chris@65 2635 adjFreqText = tr("Peak Frequency:\t%1 - %2 Hz\n")
Chris@35 2636 .arg(adjFreqMin).arg(adjFreqMax);
Chris@35 2637 } else {
Chris@65 2638 adjFreqText = tr("Peak Frequency:\t%1 Hz\n")
Chris@35 2639 .arg(adjFreqMin);
Chris@38 2640 }
Chris@38 2641
Chris@38 2642 QString pmin = Pitch::getPitchLabelForFrequency(adjFreqMin);
Chris@38 2643 QString pmax = Pitch::getPitchLabelForFrequency(adjFreqMax);
Chris@38 2644
Chris@38 2645 if (pmin != pmax) {
Chris@65 2646 adjPitchText = tr("Peak Pitch:\t%3 - %4\n").arg(pmin).arg(pmax);
Chris@38 2647 } else {
Chris@65 2648 adjPitchText = tr("Peak Pitch:\t%2\n").arg(pmin);
Chris@35 2649 }
Chris@35 2650
Chris@35 2651 } else {
Chris@35 2652
Chris@44 2653 if (!getYBinSourceRange(v, y, freqMin, freqMax)) return "";
Chris@35 2654 }
Chris@35 2655
Chris@25 2656 QString text;
Chris@25 2657
Chris@25 2658 if (rtMin != rtMax) {
Chris@25 2659 text += tr("Time:\t%1 - %2\n")
Chris@25 2660 .arg(rtMin.toText(true).c_str())
Chris@25 2661 .arg(rtMax.toText(true).c_str());
Chris@25 2662 } else {
Chris@25 2663 text += tr("Time:\t%1\n")
Chris@25 2664 .arg(rtMin.toText(true).c_str());
Chris@0 2665 }
Chris@0 2666
Chris@25 2667 if (freqMin != freqMax) {
Chris@65 2668 text += tr("%1Bin Frequency:\t%2 - %3 Hz\n%4Bin Pitch:\t%5 - %6\n")
Chris@65 2669 .arg(adjFreqText)
Chris@25 2670 .arg(freqMin)
Chris@25 2671 .arg(freqMax)
Chris@65 2672 .arg(adjPitchText)
Chris@65 2673 .arg(Pitch::getPitchLabelForFrequency(freqMin))
Chris@65 2674 .arg(Pitch::getPitchLabelForFrequency(freqMax));
Chris@65 2675 } else {
Chris@65 2676 text += tr("%1Bin Frequency:\t%2 Hz\n%3Bin Pitch:\t%4\n")
Chris@35 2677 .arg(adjFreqText)
Chris@25 2678 .arg(freqMin)
Chris@65 2679 .arg(adjPitchText)
Chris@65 2680 .arg(Pitch::getPitchLabelForFrequency(freqMin));
Chris@25 2681 }
Chris@25 2682
Chris@38 2683 if (haveValues) {
Chris@38 2684 float dbMin = AudioLevel::multiplier_to_dB(magMin);
Chris@38 2685 float dbMax = AudioLevel::multiplier_to_dB(magMax);
Chris@43 2686 QString dbMinString;
Chris@43 2687 QString dbMaxString;
Chris@43 2688 if (dbMin == AudioLevel::DB_FLOOR) {
Chris@43 2689 dbMinString = tr("-Inf");
Chris@43 2690 } else {
Chris@43 2691 dbMinString = QString("%1").arg(lrintf(dbMin));
Chris@43 2692 }
Chris@43 2693 if (dbMax == AudioLevel::DB_FLOOR) {
Chris@43 2694 dbMaxString = tr("-Inf");
Chris@43 2695 } else {
Chris@43 2696 dbMaxString = QString("%1").arg(lrintf(dbMax));
Chris@43 2697 }
Chris@25 2698 if (lrintf(dbMin) != lrintf(dbMax)) {
Chris@199 2699 text += tr("dB:\t%1 - %2").arg(dbMinString).arg(dbMaxString);
Chris@25 2700 } else {
Chris@199 2701 text += tr("dB:\t%1").arg(dbMinString);
Chris@25 2702 }
Chris@38 2703 if (phaseMin != phaseMax) {
Chris@38 2704 text += tr("\nPhase:\t%1 - %2").arg(phaseMin).arg(phaseMax);
Chris@38 2705 } else {
Chris@38 2706 text += tr("\nPhase:\t%1").arg(phaseMin);
Chris@38 2707 }
Chris@25 2708 }
Chris@25 2709
Chris@25 2710 return text;
Chris@0 2711 }
Chris@25 2712
Chris@0 2713 int
Chris@40 2714 SpectrogramLayer::getColourScaleWidth(QPainter &paint) const
Chris@40 2715 {
Chris@40 2716 int cw;
Chris@40 2717
Chris@119 2718 cw = paint.fontMetrics().width("-80dB");
Chris@119 2719
Chris@40 2720 return cw;
Chris@40 2721 }
Chris@40 2722
Chris@40 2723 int
Chris@248 2724 SpectrogramLayer::getVerticalScaleWidth(View *, QPainter &paint) const
Chris@0 2725 {
Chris@0 2726 if (!m_model || !m_model->isOK()) return 0;
Chris@0 2727
Chris@40 2728 int cw = getColourScaleWidth(paint);
Chris@40 2729
Chris@0 2730 int tw = paint.fontMetrics().width(QString("%1")
Chris@0 2731 .arg(m_maxFrequency > 0 ?
Chris@0 2732 m_maxFrequency - 1 :
Chris@0 2733 m_model->getSampleRate() / 2));
Chris@0 2734
Chris@234 2735 int fw = paint.fontMetrics().width(tr("43Hz"));
Chris@0 2736 if (tw < fw) tw = fw;
Chris@40 2737
Chris@40 2738 int tickw = (m_frequencyScale == LogFrequencyScale ? 10 : 4);
Chris@0 2739
Chris@40 2740 return cw + tickw + tw + 13;
Chris@0 2741 }
Chris@0 2742
Chris@0 2743 void
Chris@44 2744 SpectrogramLayer::paintVerticalScale(View *v, QPainter &paint, QRect rect) const
Chris@0 2745 {
Chris@0 2746 if (!m_model || !m_model->isOK()) {
Chris@0 2747 return;
Chris@0 2748 }
Chris@0 2749
Chris@161 2750 Profiler profiler("SpectrogramLayer::paintVerticalScale", true);
Chris@122 2751
Chris@120 2752 //!!! cache this?
Chris@120 2753
Chris@0 2754 int h = rect.height(), w = rect.width();
Chris@0 2755
Chris@40 2756 int tickw = (m_frequencyScale == LogFrequencyScale ? 10 : 4);
Chris@40 2757 int pkw = (m_frequencyScale == LogFrequencyScale ? 10 : 0);
Chris@40 2758
Chris@107 2759 size_t bins = m_fftSize / 2;
Chris@0 2760 int sr = m_model->getSampleRate();
Chris@0 2761
Chris@0 2762 if (m_maxFrequency > 0) {
Chris@107 2763 bins = int((double(m_maxFrequency) * m_fftSize) / sr + 0.1);
Chris@107 2764 if (bins > m_fftSize / 2) bins = m_fftSize / 2;
Chris@0 2765 }
Chris@0 2766
Chris@40 2767 int cw = getColourScaleWidth(paint);
Chris@119 2768 int cbw = paint.fontMetrics().width("dB");
Chris@40 2769
Chris@0 2770 int py = -1;
Chris@0 2771 int textHeight = paint.fontMetrics().height();
Chris@0 2772 int toff = -textHeight + paint.fontMetrics().ascent() + 2;
Chris@0 2773
Chris@119 2774 if (h > textHeight * 3 + 10) {
Chris@119 2775
Chris@119 2776 int topLines = 2;
Chris@119 2777 if (m_colourScale == PhaseColourScale) topLines = 1;
Chris@119 2778
Chris@119 2779 int ch = h - textHeight * (topLines + 1) - 8;
Chris@119 2780 // paint.drawRect(4, textHeight + 4, cw - 1, ch + 1);
Chris@119 2781 paint.drawRect(4 + cw - cbw, textHeight * topLines + 4, cbw - 1, ch + 1);
Chris@40 2782
Chris@40 2783 QString top, bottom;
Chris@119 2784 float min = m_viewMags[v].getMin();
Chris@119 2785 float max = m_viewMags[v].getMax();
Chris@119 2786
Chris@119 2787 float dBmin = AudioLevel::multiplier_to_dB(min);
Chris@119 2788 float dBmax = AudioLevel::multiplier_to_dB(max);
Chris@119 2789
Chris@120 2790 if (dBmax < -60.f) dBmax = -60.f;
Chris@120 2791 else top = QString("%1").arg(lrintf(dBmax));
Chris@120 2792
Chris@120 2793 if (dBmin < dBmax - 60.f) dBmin = dBmax - 60.f;
Chris@119 2794 bottom = QString("%1").arg(lrintf(dBmin));
Chris@119 2795
Chris@119 2796 //!!! & phase etc
Chris@119 2797
Chris@119 2798 if (m_colourScale != PhaseColourScale) {
Chris@119 2799 paint.drawText((cw + 6 - paint.fontMetrics().width("dBFS")) / 2,
Chris@119 2800 2 + textHeight + toff, "dBFS");
Chris@119 2801 }
Chris@119 2802
Chris@119 2803 // paint.drawText((cw + 6 - paint.fontMetrics().width(top)) / 2,
Chris@119 2804 paint.drawText(3 + cw - cbw - paint.fontMetrics().width(top),
Chris@119 2805 2 + textHeight * topLines + toff + textHeight/2, top);
Chris@119 2806
Chris@119 2807 paint.drawText(3 + cw - cbw - paint.fontMetrics().width(bottom),
Chris@119 2808 h + toff - 3 - textHeight/2, bottom);
Chris@40 2809
Chris@40 2810 paint.save();
Chris@40 2811 paint.setBrush(Qt::NoBrush);
Chris@119 2812
Chris@119 2813 int lasty = 0;
Chris@119 2814 int lastdb = 0;
Chris@119 2815
Chris@40 2816 for (int i = 0; i < ch; ++i) {
Chris@119 2817
Chris@119 2818 float dBval = dBmin + (((dBmax - dBmin) * i) / (ch - 1));
Chris@119 2819 int idb = int(dBval);
Chris@119 2820
Chris@119 2821 float value = AudioLevel::dB_to_multiplier(dBval);
Chris@119 2822 int colour = getDisplayValue(v, value * m_gain);
Chris@210 2823
Chris@197 2824 paint.setPen(m_palette.getColour(colour));
Chris@119 2825
Chris@119 2826 int y = textHeight * topLines + 4 + ch - i;
Chris@119 2827
Chris@119 2828 paint.drawLine(5 + cw - cbw, y, cw + 2, y);
Chris@119 2829
Chris@119 2830 if (i == 0) {
Chris@119 2831 lasty = y;
Chris@119 2832 lastdb = idb;
Chris@119 2833 } else if (i < ch - paint.fontMetrics().ascent() &&
Chris@120 2834 idb != lastdb &&
Chris@119 2835 ((abs(y - lasty) > textHeight &&
Chris@119 2836 idb % 10 == 0) ||
Chris@119 2837 (abs(y - lasty) > paint.fontMetrics().ascent() &&
Chris@119 2838 idb % 5 == 0))) {
Chris@287 2839 paint.setPen(v->getBackground());
Chris@119 2840 QString text = QString("%1").arg(idb);
Chris@119 2841 paint.drawText(3 + cw - cbw - paint.fontMetrics().width(text),
Chris@119 2842 y + toff + textHeight/2, text);
Chris@287 2843 paint.setPen(v->getForeground());
Chris@119 2844 paint.drawLine(5 + cw - cbw, y, 8 + cw - cbw, y);
Chris@119 2845 lasty = y;
Chris@119 2846 lastdb = idb;
Chris@119 2847 }
Chris@40 2848 }
Chris@40 2849 paint.restore();
Chris@40 2850 }
Chris@40 2851
Chris@40 2852 paint.drawLine(cw + 7, 0, cw + 7, h);
Chris@40 2853
Chris@0 2854 int bin = -1;
Chris@0 2855
Chris@44 2856 for (int y = 0; y < v->height(); ++y) {
Chris@0 2857
Chris@0 2858 float q0, q1;
Chris@44 2859 if (!getYBinRange(v, v->height() - y, q0, q1)) continue;
Chris@0 2860
Chris@0 2861 int vy;
Chris@0 2862
Chris@0 2863 if (int(q0) > bin) {
Chris@0 2864 vy = y;
Chris@0 2865 bin = int(q0);
Chris@0 2866 } else {
Chris@0 2867 continue;
Chris@0 2868 }
Chris@0 2869
Chris@107 2870 int freq = (sr * bin) / m_fftSize;
Chris@0 2871
Chris@0 2872 if (py >= 0 && (vy - py) < textHeight - 1) {
Chris@40 2873 if (m_frequencyScale == LinearFrequencyScale) {
Chris@40 2874 paint.drawLine(w - tickw, h - vy, w, h - vy);
Chris@40 2875 }
Chris@0 2876 continue;
Chris@0 2877 }
Chris@0 2878
Chris@0 2879 QString text = QString("%1").arg(freq);
Chris@234 2880 if (bin == 1) text = tr("%1Hz").arg(freq); // bin 0 is DC
Chris@40 2881 paint.drawLine(cw + 7, h - vy, w - pkw - 1, h - vy);
Chris@0 2882
Chris@0 2883 if (h - vy - textHeight >= -2) {
Chris@40 2884 int tx = w - 3 - paint.fontMetrics().width(text) - std::max(tickw, pkw);
Chris@0 2885 paint.drawText(tx, h - vy + toff, text);
Chris@0 2886 }
Chris@0 2887
Chris@0 2888 py = vy;
Chris@0 2889 }
Chris@40 2890
Chris@40 2891 if (m_frequencyScale == LogFrequencyScale) {
Chris@40 2892
Chris@277 2893 // piano keyboard
Chris@277 2894
Chris@40 2895 paint.drawLine(w - pkw - 1, 0, w - pkw - 1, h);
Chris@40 2896
Chris@40 2897 float minf = getEffectiveMinFrequency();
Chris@40 2898 float maxf = getEffectiveMaxFrequency();
Chris@40 2899
Chris@122 2900 int py = h, ppy = h;
Chris@40 2901 paint.setBrush(paint.pen().color());
Chris@40 2902
Chris@40 2903 for (int i = 0; i < 128; ++i) {
Chris@40 2904
Chris@40 2905 float f = Pitch::getFrequencyForPitch(i);
Chris@44 2906 int y = lrintf(v->getYForFrequency(f, minf, maxf, true));
Chris@122 2907
Chris@122 2908 if (y < -2) break;
Chris@122 2909 if (y > h + 2) {
Chris@122 2910 continue;
Chris@122 2911 }
Chris@122 2912
Chris@40 2913 int n = (i % 12);
Chris@122 2914
Chris@122 2915 if (n == 1) {
Chris@122 2916 // C# -- fill the C from here
Chris@284 2917 QColor col = Qt::gray;
Chris@284 2918 if (i == 61) { // filling middle C
Chris@284 2919 col = Qt::blue;
Chris@284 2920 col = col.light(150);
Chris@284 2921 }
Chris@122 2922 if (ppy - y > 2) {
Chris@122 2923 paint.fillRect(w - pkw,
Chris@122 2924 y,
Chris@122 2925 pkw,
Chris@122 2926 (py + ppy) / 2 - y,
Chris@284 2927 col);
Chris@122 2928 }
Chris@122 2929 }
Chris@122 2930
Chris@40 2931 if (n == 1 || n == 3 || n == 6 || n == 8 || n == 10) {
Chris@40 2932 // black notes
Chris@40 2933 paint.drawLine(w - pkw, y, w, y);
Chris@41 2934 int rh = ((py - y) / 4) * 2;
Chris@41 2935 if (rh < 2) rh = 2;
Chris@41 2936 paint.drawRect(w - pkw, y - (py-y)/4, pkw/2, rh);
Chris@40 2937 } else if (n == 0 || n == 5) {
Chris@122 2938 // C, F
Chris@40 2939 if (py < h) {
Chris@40 2940 paint.drawLine(w - pkw, (y + py) / 2, w, (y + py) / 2);
Chris@40 2941 }
Chris@40 2942 }
Chris@40 2943
Chris@122 2944 ppy = py;
Chris@40 2945 py = y;
Chris@40 2946 }
Chris@40 2947 }
Chris@0 2948 }
Chris@0 2949
Chris@187 2950 class SpectrogramRangeMapper : public RangeMapper
Chris@187 2951 {
Chris@187 2952 public:
Chris@248 2953 SpectrogramRangeMapper(int sr, int /* fftsize */) :
Chris@187 2954 m_dist(float(sr) / 2),
Chris@187 2955 m_s2(sqrtf(sqrtf(2))) { }
Chris@187 2956 ~SpectrogramRangeMapper() { }
Chris@187 2957
Chris@187 2958 virtual int getPositionForValue(float value) const {
Chris@187 2959
Chris@187 2960 float dist = m_dist;
Chris@187 2961
Chris@187 2962 int n = 0;
Chris@187 2963
Chris@187 2964 while (dist > (value + 0.00001) && dist > 0.1f) {
Chris@187 2965 dist /= m_s2;
Chris@187 2966 ++n;
Chris@187 2967 }
Chris@187 2968
Chris@187 2969 return n;
Chris@187 2970 }
Chris@187 2971
Chris@187 2972 virtual float getValueForPosition(int position) const {
Chris@187 2973
Chris@187 2974 // Vertical zoom step 0 shows the entire range from DC ->
Chris@187 2975 // Nyquist frequency. Step 1 shows 2^(1/4) of the range of
Chris@187 2976 // step 0, and so on until the visible range is smaller than
Chris@187 2977 // the frequency step between bins at the current fft size.
Chris@187 2978
Chris@187 2979 float dist = m_dist;
Chris@187 2980
Chris@187 2981 int n = 0;
Chris@187 2982 while (n < position) {
Chris@187 2983 dist /= m_s2;
Chris@187 2984 ++n;
Chris@187 2985 }
Chris@187 2986
Chris@187 2987 return dist;
Chris@187 2988 }
Chris@187 2989
Chris@187 2990 virtual QString getUnit() const { return "Hz"; }
Chris@187 2991
Chris@187 2992 protected:
Chris@187 2993 float m_dist;
Chris@187 2994 float m_s2;
Chris@187 2995 };
Chris@187 2996
Chris@133 2997 int
Chris@133 2998 SpectrogramLayer::getVerticalZoomSteps(int &defaultStep) const
Chris@133 2999 {
Chris@135 3000 if (!m_model) return 0;
Chris@187 3001
Chris@187 3002 int sr = m_model->getSampleRate();
Chris@187 3003
Chris@187 3004 SpectrogramRangeMapper mapper(sr, m_fftSize);
Chris@187 3005
Chris@187 3006 // int maxStep = mapper.getPositionForValue((float(sr) / m_fftSize) + 0.001);
Chris@187 3007 int maxStep = mapper.getPositionForValue(0);
Chris@187 3008 int minStep = mapper.getPositionForValue(float(sr) / 2);
Chris@250 3009
Chris@250 3010 size_t initialMax = m_initialMaxFrequency;
Chris@250 3011 if (initialMax == 0) initialMax = sr / 2;
Chris@250 3012
Chris@250 3013 defaultStep = mapper.getPositionForValue(initialMax) - minStep;
Chris@250 3014
Chris@250 3015 // std::cerr << "SpectrogramLayer::getVerticalZoomSteps: " << maxStep - minStep << " (" << maxStep <<"-" << minStep << "), default is " << defaultStep << " (from initial max freq " << initialMax << ")" << std::endl;
Chris@187 3016
Chris@187 3017 return maxStep - minStep;
Chris@133 3018 }
Chris@133 3019
Chris@133 3020 int
Chris@133 3021 SpectrogramLayer::getCurrentVerticalZoomStep() const
Chris@133 3022 {
Chris@133 3023 if (!m_model) return 0;
Chris@133 3024
Chris@133 3025 float dmin, dmax;
Chris@133 3026 getDisplayExtents(dmin, dmax);
Chris@133 3027
Chris@187 3028 SpectrogramRangeMapper mapper(m_model->getSampleRate(), m_fftSize);
Chris@187 3029 int n = mapper.getPositionForValue(dmax - dmin);
Chris@248 3030 // std::cerr << "SpectrogramLayer::getCurrentVerticalZoomStep: " << n << std::endl;
Chris@133 3031 return n;
Chris@133 3032 }
Chris@133 3033
Chris@133 3034 void
Chris@133 3035 SpectrogramLayer::setVerticalZoomStep(int step)
Chris@133 3036 {
Chris@187 3037 if (!m_model) return;
Chris@187 3038
Chris@253 3039 float dmin = m_minFrequency, dmax = m_maxFrequency;
Chris@253 3040 // getDisplayExtents(dmin, dmax);
Chris@253 3041
Chris@253 3042 // std::cerr << "current range " << dmin << " -> " << dmax << ", range " << dmax-dmin << ", mid " << (dmax + dmin)/2 << std::endl;
Chris@133 3043
Chris@133 3044 int sr = m_model->getSampleRate();
Chris@187 3045 SpectrogramRangeMapper mapper(sr, m_fftSize);
Chris@253 3046 float newdist = mapper.getValueForPosition(step);
Chris@253 3047
Chris@253 3048 float newmin, newmax;
Chris@253 3049
Chris@253 3050 if (m_frequencyScale == LogFrequencyScale) {
Chris@253 3051
Chris@253 3052 // need to pick newmin and newmax such that
Chris@253 3053 //
Chris@253 3054 // (log(newmin) + log(newmax)) / 2 == logmid
Chris@253 3055 // and
Chris@253 3056 // newmax - newmin = newdist
Chris@253 3057 //
Chris@253 3058 // so log(newmax - newdist) + log(newmax) == 2logmid
Chris@253 3059 // log(newmax(newmax - newdist)) == 2logmid
Chris@253 3060 // newmax.newmax - newmax.newdist == exp(2logmid)
Chris@253 3061 // newmax^2 + (-newdist)newmax + -exp(2logmid) == 0
Chris@253 3062 // quadratic with a = 1, b = -newdist, c = -exp(2logmid), all known
Chris@253 3063 //
Chris@253 3064 // positive root
Chris@253 3065 // newmax = (newdist + sqrt(newdist^2 + 4exp(2logmid))) / 2
Chris@253 3066 //
Chris@253 3067 // but logmid = (log(dmin) + log(dmax)) / 2
Chris@253 3068 // so exp(2logmid) = exp(log(dmin) + log(dmax))
Chris@253 3069 // = exp(log(dmin.dmax))
Chris@253 3070 // = dmin.dmax
Chris@253 3071 // so newmax = (newdist + sqrtf(newdist^2 + 4dmin.dmax)) / 2
Chris@253 3072
Chris@253 3073 newmax = (newdist + sqrtf(newdist*newdist + 4*dmin*dmax)) / 2;
Chris@253 3074 newmin = newmax - newdist;
Chris@253 3075
Chris@253 3076 // std::cerr << "newmin = " << newmin << ", newmax = " << newmax << std::endl;
Chris@253 3077
Chris@253 3078 } else {
Chris@253 3079 float dmid = (dmax + dmin) / 2;
Chris@253 3080 newmin = dmid - newdist / 2;
Chris@253 3081 newmax = dmid + newdist / 2;
Chris@253 3082 }
Chris@187 3083
Chris@187 3084 float mmin, mmax;
Chris@187 3085 mmin = 0;
Chris@187 3086 mmax = float(sr) / 2;
Chris@133 3087
Chris@187 3088 if (newmin < mmin) {
Chris@187 3089 newmax += (mmin - newmin);
Chris@187 3090 newmin = mmin;
Chris@187 3091 }
Chris@187 3092 if (newmax > mmax) {
Chris@187 3093 newmax = mmax;
Chris@187 3094 }
Chris@133 3095
Chris@253 3096 // std::cerr << "SpectrogramLayer::setVerticalZoomStep: " << step << ": " << newmin << " -> " << newmax << " (range " << newdist << ")" << std::endl;
Chris@253 3097
Chris@253 3098 setMinFrequency(lrintf(newmin));
Chris@253 3099 setMaxFrequency(lrintf(newmax));
Chris@187 3100 }
Chris@187 3101
Chris@187 3102 RangeMapper *
Chris@187 3103 SpectrogramLayer::getNewVerticalZoomRangeMapper() const
Chris@187 3104 {
Chris@187 3105 if (!m_model) return 0;
Chris@187 3106 return new SpectrogramRangeMapper(m_model->getSampleRate(), m_fftSize);
Chris@133 3107 }
Chris@133 3108
Chris@273 3109 void
Chris@273 3110 SpectrogramLayer::updateMeasureRectYCoords(View *v, const MeasureRect &r) const
Chris@273 3111 {
Chris@273 3112 int y0 = 0;
Chris@273 3113 if (r.startY > 0.0) y0 = getYForFrequency(v, r.startY);
Chris@273 3114
Chris@273 3115 int y1 = y0;
Chris@273 3116 if (r.endY > 0.0) y1 = getYForFrequency(v, r.endY);
Chris@273 3117
Chris@273 3118 // std::cerr << "SpectrogramLayer::updateMeasureRectYCoords: start " << r.startY << " -> " << y0 << ", end " << r.endY << " -> " << y1 << std::endl;
Chris@273 3119
Chris@273 3120 r.pixrect = QRect(r.pixrect.x(), y0, r.pixrect.width(), y1 - y0);
Chris@273 3121 }
Chris@273 3122
Chris@273 3123 void
Chris@273 3124 SpectrogramLayer::setMeasureRectYCoord(View *v, MeasureRect &r, bool start, int y) const
Chris@273 3125 {
Chris@273 3126 if (start) {
Chris@273 3127 r.startY = getFrequencyForY(v, y);
Chris@273 3128 r.endY = r.startY;
Chris@273 3129 } else {
Chris@273 3130 r.endY = getFrequencyForY(v, y);
Chris@273 3131 }
Chris@273 3132 // std::cerr << "SpectrogramLayer::setMeasureRectYCoord: start " << r.startY << " <- " << y << ", end " << r.endY << " <- " << y << std::endl;
Chris@273 3133
Chris@273 3134 }
Chris@273 3135
Chris@316 3136 void
Chris@316 3137 SpectrogramLayer::toXml(QTextStream &stream,
Chris@316 3138 QString indent, QString extraAttributes) const
Chris@6 3139 {
Chris@6 3140 QString s;
Chris@6 3141
Chris@6 3142 s += QString("channel=\"%1\" "
Chris@6 3143 "windowSize=\"%2\" "
Chris@153 3144 "windowHopLevel=\"%3\" "
Chris@153 3145 "gain=\"%4\" "
Chris@153 3146 "threshold=\"%5\" ")
Chris@6 3147 .arg(m_channel)
Chris@6 3148 .arg(m_windowSize)
Chris@97 3149 .arg(m_windowHopLevel)
Chris@37 3150 .arg(m_gain)
Chris@37 3151 .arg(m_threshold);
Chris@37 3152
Chris@37 3153 s += QString("minFrequency=\"%1\" "
Chris@37 3154 "maxFrequency=\"%2\" "
Chris@37 3155 "colourScale=\"%3\" "
Chris@37 3156 "colourScheme=\"%4\" "
Chris@37 3157 "colourRotation=\"%5\" "
Chris@37 3158 "frequencyScale=\"%6\" "
Chris@37 3159 "binDisplay=\"%7\" "
Chris@153 3160 "normalizeColumns=\"%8\" "
Chris@153 3161 "normalizeVisibleArea=\"%9\"")
Chris@37 3162 .arg(m_minFrequency)
Chris@6 3163 .arg(m_maxFrequency)
Chris@6 3164 .arg(m_colourScale)
Chris@197 3165 .arg(m_colourMap)
Chris@37 3166 .arg(m_colourRotation)
Chris@35 3167 .arg(m_frequencyScale)
Chris@37 3168 .arg(m_binDisplay)
Chris@153 3169 .arg(m_normalizeColumns ? "true" : "false")
Chris@153 3170 .arg(m_normalizeVisibleArea ? "true" : "false");
Chris@6 3171
Chris@316 3172 Layer::toXml(stream, indent, extraAttributes + " " + s);
Chris@6 3173 }
Chris@6 3174
Chris@11 3175 void
Chris@11 3176 SpectrogramLayer::setProperties(const QXmlAttributes &attributes)
Chris@11 3177 {
Chris@11 3178 bool ok = false;
Chris@11 3179
Chris@11 3180 int channel = attributes.value("channel").toInt(&ok);
Chris@11 3181 if (ok) setChannel(channel);
Chris@11 3182
Chris@11 3183 size_t windowSize = attributes.value("windowSize").toUInt(&ok);
Chris@11 3184 if (ok) setWindowSize(windowSize);
Chris@11 3185
Chris@97 3186 size_t windowHopLevel = attributes.value("windowHopLevel").toUInt(&ok);
Chris@97 3187 if (ok) setWindowHopLevel(windowHopLevel);
Chris@97 3188 else {
Chris@97 3189 size_t windowOverlap = attributes.value("windowOverlap").toUInt(&ok);
Chris@97 3190 // a percentage value
Chris@97 3191 if (ok) {
Chris@97 3192 if (windowOverlap == 0) setWindowHopLevel(0);
Chris@97 3193 else if (windowOverlap == 25) setWindowHopLevel(1);
Chris@97 3194 else if (windowOverlap == 50) setWindowHopLevel(2);
Chris@97 3195 else if (windowOverlap == 75) setWindowHopLevel(3);
Chris@97 3196 else if (windowOverlap == 90) setWindowHopLevel(4);
Chris@97 3197 }
Chris@97 3198 }
Chris@11 3199
Chris@11 3200 float gain = attributes.value("gain").toFloat(&ok);
Chris@11 3201 if (ok) setGain(gain);
Chris@11 3202
Chris@37 3203 float threshold = attributes.value("threshold").toFloat(&ok);
Chris@37 3204 if (ok) setThreshold(threshold);
Chris@37 3205
Chris@37 3206 size_t minFrequency = attributes.value("minFrequency").toUInt(&ok);
Chris@187 3207 if (ok) {
Chris@187 3208 std::cerr << "SpectrogramLayer::setProperties: setting min freq to " << minFrequency << std::endl;
Chris@187 3209 setMinFrequency(minFrequency);
Chris@187 3210 }
Chris@37 3211
Chris@11 3212 size_t maxFrequency = attributes.value("maxFrequency").toUInt(&ok);
Chris@187 3213 if (ok) {
Chris@187 3214 std::cerr << "SpectrogramLayer::setProperties: setting max freq to " << maxFrequency << std::endl;
Chris@187 3215 setMaxFrequency(maxFrequency);
Chris@187 3216 }
Chris@11 3217
Chris@11 3218 ColourScale colourScale = (ColourScale)
Chris@11 3219 attributes.value("colourScale").toInt(&ok);
Chris@11 3220 if (ok) setColourScale(colourScale);
Chris@11 3221
Chris@197 3222 int colourMap = attributes.value("colourScheme").toInt(&ok);
Chris@197 3223 if (ok) setColourMap(colourMap);
Chris@11 3224
Chris@37 3225 int colourRotation = attributes.value("colourRotation").toInt(&ok);
Chris@37 3226 if (ok) setColourRotation(colourRotation);
Chris@37 3227
Chris@11 3228 FrequencyScale frequencyScale = (FrequencyScale)
Chris@11 3229 attributes.value("frequencyScale").toInt(&ok);
Chris@11 3230 if (ok) setFrequencyScale(frequencyScale);
Chris@35 3231
Chris@37 3232 BinDisplay binDisplay = (BinDisplay)
Chris@37 3233 attributes.value("binDisplay").toInt(&ok);
Chris@37 3234 if (ok) setBinDisplay(binDisplay);
Chris@36 3235
Chris@36 3236 bool normalizeColumns =
Chris@36 3237 (attributes.value("normalizeColumns").trimmed() == "true");
Chris@36 3238 setNormalizeColumns(normalizeColumns);
Chris@153 3239
Chris@153 3240 bool normalizeVisibleArea =
Chris@153 3241 (attributes.value("normalizeVisibleArea").trimmed() == "true");
Chris@153 3242 setNormalizeVisibleArea(normalizeVisibleArea);
Chris@11 3243 }
Chris@11 3244