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annotate src/Matcher.cpp @ 204:006fd4cb95b3 memory

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Make getRowRange/getColRange operate on first matcher only
author Chris Cannam
date Fri, 27 Feb 2015 12:20:32 +0000
parents 3662865740da
children 010b91e44098
rev   line source
cannam@0 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
cannam@0 2
cannam@0 3 /*
cannam@0 4 Vamp feature extraction plugin using the MATCH audio alignment
cannam@0 5 algorithm.
cannam@0 6
cannam@0 7 Centre for Digital Music, Queen Mary, University of London.
cannam@0 8 This file copyright 2007 Simon Dixon, Chris Cannam and QMUL.
cannam@0 9
cannam@0 10 This program is free software; you can redistribute it and/or
cannam@0 11 modify it under the terms of the GNU General Public License as
cannam@0 12 published by the Free Software Foundation; either version 2 of the
cannam@0 13 License, or (at your option) any later version. See the file
cannam@0 14 COPYING included with this distribution for more information.
cannam@0 15 */
cannam@0 16
cannam@0 17 #include "Matcher.h"
cannam@0 18
cannam@0 19 #include <iostream>
cannam@0 20
cannam@4 21 #include <cstdlib>
Chris@16 22 #include <cassert>
cannam@4 23
Chris@72 24 using namespace std;
Chris@72 25
Chris@10 26 //#define DEBUG_MATCHER 1
Chris@10 27
Chris@143 28 Matcher::Matcher(Parameters parameters, DistanceMetric::Parameters dparams,
Chris@143 29 Matcher *p) :
Chris@43 30 m_params(parameters),
Chris@143 31 m_metric(dparams)
Chris@23 32 {
Chris@23 33 #ifdef DEBUG_MATCHER
Chris@143 34 cerr << "*** Matcher: hopTime = " << parameters.hopTime
Chris@140 35 << ", blockTime = " << parameters.blockTime
Chris@140 36 << ", maxRunCount = " << parameters.maxRunCount
Chris@140 37 << ", diagonalWeight = " << parameters.diagonalWeight << endl;
Chris@23 38 #endif
Chris@140 39
Chris@43 40 m_otherMatcher = p; // the first matcher will need this to be set later
Chris@43 41 m_firstPM = (!p);
Chris@43 42 m_frameCount = 0;
Chris@43 43 m_runCount = 0;
Chris@43 44 m_blockSize = 0;
Chris@202 45 m_distXSize = 0;
cannam@0 46
Chris@180 47 m_blockSize = int(m_params.blockTime / m_params.hopTime + 0.5);
Chris@15 48 #ifdef DEBUG_MATCHER
Chris@43 49 cerr << "Matcher: m_blockSize = " << m_blockSize << endl;
Chris@15 50 #endif
cannam@0 51
Chris@43 52 m_initialised = false;
Chris@23 53 }
cannam@0 54
cannam@0 55 Matcher::~Matcher()
cannam@0 56 {
Chris@10 57 #ifdef DEBUG_MATCHER
Chris@15 58 cerr << "Matcher(" << this << ")::~Matcher()" << endl;
Chris@10 59 #endif
cannam@0 60 }
cannam@0 61
cannam@0 62 void
cannam@0 63 Matcher::init()
cannam@0 64 {
Chris@43 65 if (m_initialised) return;
cannam@0 66
Chris@182 67 m_features = featureseq_t(m_blockSize);
cannam@0 68
Chris@43 69 m_distXSize = m_blockSize * 2;
Chris@45 70
Chris@41 71 size();
cannam@0 72
Chris@43 73 m_frameCount = 0;
Chris@43 74 m_runCount = 0;
Chris@38 75
Chris@43 76 m_initialised = true;
Chris@16 77 }
Chris@16 78
Chris@87 79 bool
Chris@203 80 Matcher::isAvailable(int i, int j)
Chris@154 81 {
Chris@203 82 if (m_firstPM) {
Chris@203 83 if (isInRange(i, j)) {
Chris@203 84 return (m_bestPathCost[i][j - m_first[i]] != InvalidPathCost);
Chris@203 85 } else {
Chris@203 86 return false;
Chris@154 87 }
Chris@203 88 } else {
Chris@203 89 return m_otherMatcher->isAvailable(j, i);
Chris@154 90 }
Chris@154 91 }
Chris@154 92
Chris@154 93 bool
Chris@203 94 Matcher::isRowAvailable(int i)
Chris@154 95 {
Chris@203 96 if (m_firstPM) {
Chris@203 97
Chris@203 98 if (i < 0 || i >= int(m_first.size())) return false;
Chris@203 99 for (auto c: m_bestPathCost[i]) {
Chris@203 100 if (c != InvalidPathCost) return true;
Chris@203 101 }
Chris@203 102 return false;
Chris@203 103
Chris@203 104 } else {
Chris@203 105 return m_otherMatcher->isColAvailable(i);
Chris@203 106 }
Chris@203 107 }
Chris@203 108
Chris@203 109 bool
Chris@203 110 Matcher::isColAvailable(int j)
Chris@203 111 {
Chris@203 112 if (m_firstPM) {
Chris@203 113 for (int i = 0; i < int(m_first.size()); ++i) {
Chris@203 114 if (j >= m_first[i] &&
Chris@203 115 j < int(m_first[i] + m_bestPathCost[i].size())) {//!!! m_last[i]?
Chris@203 116 if (m_bestPathCost[i][j - m_first[i]] != InvalidPathCost) {
Chris@203 117 return true;
Chris@203 118 }
Chris@203 119 }
Chris@203 120 }
Chris@203 121 return false;
Chris@203 122 } else {
Chris@203 123 return m_otherMatcher->isRowAvailable(j);
Chris@203 124 }
Chris@154 125 }
Chris@154 126
Chris@154 127 bool
Chris@87 128 Matcher::isInRange(int i, int j)
Chris@87 129 {
Chris@87 130 if (m_firstPM) {
Chris@87 131 return ((i >= 0) &&
Chris@87 132 (i < int(m_first.size())) &&
Chris@87 133 (j >= m_first[i]) &&
Chris@87 134 (j < int(m_first[i] + m_bestPathCost[i].size())));
Chris@87 135 } else {
Chris@87 136 return m_otherMatcher->isInRange(j, i);
Chris@87 137 }
Chris@87 138 }
Chris@87 139
Chris@87 140 pair<int, int>
Chris@87 141 Matcher::getColRange(int i)
Chris@87 142 {
Chris@204 143 if (m_firstPM) {
Chris@204 144 if (i < 0 || i >= int(m_first.size())) {
Chris@204 145 cerr << "ERROR: Matcher::getColRange(" << i << "): Index out of range"
Chris@204 146 << endl;
Chris@204 147 throw "Index out of range";
Chris@204 148 } else {
Chris@204 149 return pair<int, int>(m_first[i], m_last[i]);
Chris@204 150 }
Chris@87 151 } else {
Chris@204 152 return m_otherMatcher->getRowRange(i);
Chris@87 153 }
Chris@87 154 }
Chris@87 155
Chris@87 156 pair<int, int>
Chris@204 157 Matcher::getRowRange(int j)
Chris@87 158 {
Chris@204 159 if (m_firstPM) {
Chris@204 160
Chris@204 161 //!!! tedious, examine uses (& consider restoring use of
Chris@204 162 //!!! first/last in "other" matcher)
Chris@204 163 int a = -1, b = -1;
Chris@204 164 for (int i = 0; i < int(m_first.size()); ++i) {
Chris@204 165 if (j >= m_first[i] && j < m_last[i]) {
Chris@204 166 if (a == -1) a = i;
Chris@204 167 b = i;
Chris@204 168 }
Chris@204 169 }
Chris@204 170 if (a == -1) {
Chris@204 171 cerr << "ERROR: Matcher::getRowRange(" << j << "): Index out of range"
Chris@204 172 << endl;
Chris@204 173 throw "Index out of range";
Chris@204 174 } else {
Chris@204 175 return pair<int, int>(a, b + 1);
Chris@204 176 }
Chris@204 177
Chris@204 178 } else {
Chris@204 179 return m_otherMatcher->getColRange(j);
Chris@204 180 }
Chris@87 181 }
Chris@87 182
Chris@182 183 distance_t
Chris@87 184 Matcher::getDistance(int i, int j)
Chris@87 185 {
Chris@87 186 if (m_firstPM) {
Chris@87 187 if (!isInRange(i, j)) {
Chris@87 188 cerr << "ERROR: Matcher::getDistance(" << i << ", " << j << "): "
Chris@87 189 << "Location is not in range" << endl;
Chris@87 190 throw "Distance not available";
Chris@87 191 }
Chris@182 192 distance_t dist = m_distance[i][j - m_first[i]];
Chris@183 193 if (dist == InvalidDistance) {
Chris@87 194 cerr << "ERROR: Matcher::getDistance(" << i << ", " << j << "): "
Chris@87 195 << "Location is in range, but distance ("
Chris@191 196 << distance_print_t(dist)
Chris@191 197 << ") is invalid or has not been set" << endl;
Chris@87 198 throw "Distance not available";
Chris@87 199 }
Chris@87 200 return dist;
Chris@87 201 } else {
Chris@87 202 return m_otherMatcher->getDistance(j, i);
Chris@87 203 }
Chris@87 204 }
Chris@87 205
Chris@87 206 void
Chris@182 207 Matcher::setDistance(int i, int j, distance_t distance)
Chris@87 208 {
Chris@87 209 if (m_firstPM) {
Chris@87 210 if (!isInRange(i, j)) {
Chris@87 211 cerr << "ERROR: Matcher::setDistance(" << i << ", " << j << ", "
Chris@191 212 << distance_print_t(distance)
Chris@191 213 << "): Location is out of range" << endl;
Chris@87 214 throw "Indices out of range";
Chris@87 215 }
Chris@87 216 m_distance[i][j - m_first[i]] = distance;
Chris@87 217 } else {
Chris@87 218 m_otherMatcher->setDistance(j, i, distance);
Chris@87 219 }
Chris@87 220 }
Chris@87 221
Chris@191 222 normpathcost_t
Chris@135 223 Matcher::getNormalisedPathCost(int i, int j)
Chris@135 224 {
Chris@135 225 // normalised for path length. 1+ prevents division by zero here
Chris@191 226 return normpathcost_t(getPathCost(i, j)) / normpathcost_t(1 + i + j);
Chris@135 227 }
Chris@135 228
Chris@182 229 pathcost_t
Chris@87 230 Matcher::getPathCost(int i, int j)
Chris@87 231 {
Chris@87 232 if (m_firstPM) {
Chris@203 233 #ifdef PERFORM_ERROR_CHECKS
Chris@87 234 if (!isAvailable(i, j)) {
Chris@87 235 if (!isInRange(i, j)) {
Chris@87 236 cerr << "ERROR: Matcher::getPathCost(" << i << ", " << j << "): "
Chris@87 237 << "Location is not in range" << endl;
Chris@87 238 } else {
Chris@87 239 cerr << "ERROR: Matcher::getPathCost(" << i << ", " << j << "): "
Chris@87 240 << "Location is in range, but pathCost ("
Chris@87 241 << m_bestPathCost[i][j - m_first[i]]
Chris@87 242 << ") is invalid or has not been set" << endl;
Chris@87 243 }
Chris@87 244 throw "Path cost not available";
Chris@87 245 }
Chris@203 246 #endif
Chris@87 247 return m_bestPathCost[i][j - m_first[i]];
Chris@87 248 } else {
Chris@87 249 return m_otherMatcher->getPathCost(j, i);
Chris@87 250 }
Chris@87 251 }
Chris@87 252
Chris@87 253 void
Chris@182 254 Matcher::setPathCost(int i, int j, advance_t dir, pathcost_t pathCost)
Chris@87 255 {
Chris@87 256 if (m_firstPM) {
Chris@87 257 if (!isInRange(i, j)) {
Chris@87 258 cerr << "ERROR: Matcher::setPathCost(" << i << ", " << j << ", "
Chris@87 259 << dir << ", " << pathCost
Chris@87 260 << "): Location is out of range" << endl;
Chris@87 261 throw "Indices out of range";
Chris@87 262 }
Chris@87 263 m_advance[i][j - m_first[i]] = dir;
Chris@87 264 m_bestPathCost[i][j - m_first[i]] = pathCost;
Chris@87 265 } else {
Chris@87 266 if (dir == AdvanceThis) {
Chris@87 267 dir = AdvanceOther;
Chris@87 268 } else if (dir == AdvanceOther) {
Chris@87 269 dir = AdvanceThis;
Chris@87 270 }
Chris@87 271 m_otherMatcher->setPathCost(j, i, dir, pathCost);
Chris@87 272 }
Chris@87 273 }
Chris@87 274
cannam@0 275 void
Chris@41 276 Matcher::size()
cannam@0 277 {
Chris@43 278 int distSize = (m_params.maxRunCount + 1) * m_blockSize;
Chris@183 279 m_bestPathCost.resize(m_distXSize, pathcostvec_t(distSize, InvalidPathCost));
Chris@183 280 m_distance.resize(m_distXSize, distancevec_t(distSize, InvalidDistance));
Chris@182 281 m_advance.resize(m_distXSize, advancevec_t(distSize, AdvanceNone));
Chris@43 282 m_first.resize(m_distXSize, 0);
Chris@43 283 m_last.resize(m_distXSize, 0);
Chris@38 284 }
cannam@0 285
Chris@23 286 void
Chris@182 287 Matcher::consumeFeatureVector(const feature_t &feature)
Chris@23 288 {
Chris@43 289 if (!m_initialised) init();
Chris@43 290 int frameIndex = m_frameCount % m_blockSize;
Chris@182 291 m_features[frameIndex] = feature;
Chris@23 292 calcAdvance();
Chris@21 293 }
Chris@21 294
Chris@21 295 void
Chris@21 296 Matcher::calcAdvance()
Chris@21 297 {
Chris@43 298 int frameIndex = m_frameCount % m_blockSize;
Chris@21 299
Chris@43 300 if (m_frameCount >= m_distXSize) {
Chris@43 301 m_distXSize *= 2;
Chris@41 302 size();
cannam@0 303 }
cannam@0 304
Chris@43 305 if (m_firstPM && (m_frameCount >= m_blockSize)) {
cannam@0 306
Chris@43 307 int len = m_last[m_frameCount - m_blockSize] -
Chris@43 308 m_first[m_frameCount - m_blockSize];
cannam@0 309
Chris@43 310 // We need to copy distance[m_frameCount-m_blockSize] to
Chris@43 311 // distance[m_frameCount], and then truncate
Chris@43 312 // distance[m_frameCount-m_blockSize] to its first len elements.
cannam@0 313 // Same for bestPathCost.
cannam@0 314
Chris@182 315 distancevec_t dOld(m_distance[m_frameCount - m_blockSize]);
Chris@183 316 distancevec_t dNew(len, InvalidDistance);
cannam@0 317
Chris@182 318 pathcostvec_t bpcOld(m_bestPathCost[m_frameCount - m_blockSize]);
Chris@183 319 pathcostvec_t bpcNew(len, InvalidPathCost);
Chris@69 320
Chris@182 321 advancevec_t adOld(m_advance[m_frameCount - m_blockSize]);
Chris@182 322 advancevec_t adNew(len, AdvanceNone);
Chris@69 323
Chris@69 324 for (int i = 0; i < len; ++i) {
Chris@69 325 dNew[i] = dOld[i];
Chris@69 326 bpcNew[i] = bpcOld[i];
Chris@69 327 adNew[i] = adOld[i];
Chris@69 328 }
Chris@45 329
Chris@69 330 m_distance[m_frameCount] = dOld;
Chris@69 331 m_distance[m_frameCount - m_blockSize] = dNew;
Chris@69 332
Chris@69 333 m_bestPathCost[m_frameCount] = bpcOld;
Chris@69 334 m_bestPathCost[m_frameCount - m_blockSize] = bpcNew;
Chris@69 335
Chris@69 336 m_advance[m_frameCount] = adOld;
Chris@69 337 m_advance[m_frameCount - m_blockSize] = adNew;
cannam@0 338 }
cannam@0 339
Chris@43 340 int stop = m_otherMatcher->m_frameCount;
Chris@43 341 int index = stop - m_blockSize;
Chris@86 342 if (index < 0) index = 0;
Chris@86 343
Chris@43 344 m_first[m_frameCount] = index;
Chris@43 345 m_last[m_frameCount] = stop;
cannam@0 346
cannam@0 347 for ( ; index < stop; index++) {
Chris@26 348
Chris@188 349 distance_t distance = m_metric.calcDistance
Chris@182 350 (m_features[frameIndex],
Chris@182 351 m_otherMatcher->m_features[index % m_blockSize]);
Chris@26 352
Chris@188 353 pathcost_t straightIncrement(distance);
Chris@188 354 pathcost_t diagIncrement = pathcost_t(distance * m_params.diagonalWeight);
Chris@89 355
Chris@86 356 if ((m_frameCount == 0) && (index == 0)) { // first element
Chris@86 357
Chris@86 358 updateValue(0, 0, AdvanceNone,
Chris@86 359 0,
Chris@86 360 distance);
Chris@86 361
Chris@86 362 } else if (m_frameCount == 0) { // first row
Chris@86 363
Chris@71 364 updateValue(0, index, AdvanceOther,
Chris@86 365 getPathCost(0, index-1),
Chris@86 366 distance);
Chris@86 367
Chris@86 368 } else if (index == 0) { // first column
Chris@86 369
Chris@71 370 updateValue(m_frameCount, index, AdvanceThis,
Chris@86 371 getPathCost(m_frameCount - 1, 0),
Chris@86 372 distance);
Chris@86 373
Chris@86 374 } else if (index == m_otherMatcher->m_frameCount - m_blockSize) {
Chris@86 375
cannam@0 376 // missing value(s) due to cutoff
cannam@0 377 // - no previous value in current row (resp. column)
cannam@0 378 // - no diagonal value if prev. dir. == curr. dirn
Chris@86 379
Chris@182 380 pathcost_t min2 = getPathCost(m_frameCount - 1, index);
Chris@86 381
Chris@91 382 // cerr << "NOTE: missing value at i = " << m_frameCount << ", j = "
Chris@91 383 // << index << " (first = " << m_firstPM << ")" << endl;
Chris@86 384
Chris@43 385 // if ((m_firstPM && (first[m_frameCount - 1] == index)) ||
Chris@43 386 // (!m_firstPM && (m_last[index-1] < m_frameCount)))
Chris@86 387 if (m_first[m_frameCount - 1] == index) {
Chris@86 388
Chris@86 389 updateValue(m_frameCount, index, AdvanceThis,
Chris@86 390 min2, distance);
Chris@86 391
Chris@86 392 } else {
Chris@86 393
Chris@182 394 pathcost_t min1 = getPathCost(m_frameCount - 1, index - 1);
Chris@188 395 if (min1 + diagIncrement <= min2 + straightIncrement) {
Chris@86 396 updateValue(m_frameCount, index, AdvanceBoth,
Chris@86 397 min1, distance);
Chris@86 398 } else {
Chris@86 399 updateValue(m_frameCount, index, AdvanceThis,
Chris@86 400 min2, distance);
Chris@86 401 }
cannam@0 402 }
Chris@86 403
cannam@0 404 } else {
Chris@86 405
Chris@182 406 pathcost_t min1 = getPathCost(m_frameCount, index - 1);
Chris@182 407 pathcost_t min2 = getPathCost(m_frameCount - 1, index);
Chris@182 408 pathcost_t min3 = getPathCost(m_frameCount - 1, index - 1);
Chris@87 409
Chris@188 410 pathcost_t cost1 = min1 + straightIncrement;
Chris@188 411 pathcost_t cost2 = min2 + straightIncrement;
Chris@188 412 pathcost_t cost3 = min3 + diagIncrement;
Chris@93 413
Chris@93 414 // Choosing is easy if there is a strict cheapest of the
Chris@93 415 // three. If two or more share the lowest cost, we choose
Chris@93 416 // in order of preference: cost3 (AdvanceBoth), cost2
Chris@94 417 // (AdvanceThis), cost1 (AdvanceOther) if we are the first
Chris@94 418 // matcher; and cost3 (AdvanceBoth), cost1 (AdvanceOther),
Chris@94 419 // cost2 (AdvanceThis) if we are the second matcher. That
Chris@94 420 // is, we always prioritise the diagonal followed by the
Chris@94 421 // first matcher.
Chris@94 422
Chris@94 423 if (( m_firstPM && (cost1 < cost2)) ||
Chris@94 424 (!m_firstPM && (cost1 <= cost2))) {
Chris@89 425 if (cost3 <= cost1) {
Chris@86 426 updateValue(m_frameCount, index, AdvanceBoth,
Chris@86 427 min3, distance);
Chris@86 428 } else {
Chris@86 429 updateValue(m_frameCount, index, AdvanceOther,
Chris@86 430 min1, distance);
Chris@86 431 }
cannam@0 432 } else {
Chris@89 433 if (cost3 <= cost2) {
Chris@86 434 updateValue(m_frameCount, index, AdvanceBoth,
Chris@86 435 min3, distance);
Chris@86 436 } else {
Chris@86 437 updateValue(m_frameCount, index, AdvanceThis,
Chris@86 438 min2, distance);
Chris@86 439 }
cannam@0 440 }
cannam@0 441 }
Chris@86 442
Chris@43 443 m_otherMatcher->m_last[index]++;
cannam@0 444 } // loop for row (resp. column)
cannam@0 445
Chris@43 446 m_frameCount++;
Chris@43 447 m_runCount++;
cannam@0 448
Chris@43 449 m_otherMatcher->m_runCount = 0;
Chris@21 450 }
cannam@0 451
cannam@0 452 void
Chris@182 453 Matcher::updateValue(int i, int j, advance_t dir, pathcost_t value, distance_t distance)
cannam@0 454 {
Chris@188 455 pathcost_t increment = distance;
Chris@83 456 if (dir == AdvanceBoth) {
Chris@188 457 increment = pathcost_t(increment * m_params.diagonalWeight);
Chris@188 458 }
Chris@188 459
Chris@188 460 pathcost_t newValue = value + increment;
Chris@188 461 if (MaxPathCost - increment < value) {
Chris@188 462 cerr << "ERROR: Path cost overflow at i=" << i << ", j=" << j << ": "
Chris@188 463 << value << " + " << increment << " > " << MaxPathCost << endl;
Chris@188 464 newValue = MaxPathCost;
Chris@83 465 }
Chris@83 466
Chris@43 467 if (m_firstPM) {
Chris@45 468
Chris@96 469 setDistance(i, j, distance);
Chris@188 470 setPathCost(i, j, dir, newValue);
Chris@45 471
cannam@0 472 } else {
Chris@45 473
Chris@86 474 if (dir == AdvanceThis) dir = AdvanceOther;
Chris@86 475 else if (dir == AdvanceOther) dir = AdvanceThis;
Chris@84 476
Chris@43 477 int idx = i - m_otherMatcher->m_first[j];
Chris@45 478
Chris@188 479 if (idx < 0 || size_t(idx) == m_otherMatcher->m_distance[j].size()) {
cannam@0 480 // This should never happen, but if we allow arbitrary
cannam@0 481 // pauses in either direction, and arbitrary lengths at
cannam@0 482 // end, it is better than a segmentation fault.
Chris@72 483 cerr << "Emergency resize: " << idx << " -> " << idx * 2 << endl;
Chris@183 484 m_otherMatcher->m_bestPathCost[j].resize(idx * 2, InvalidPathCost);
Chris@183 485 m_otherMatcher->m_distance[j].resize(idx * 2, InvalidDistance);
Chris@46 486 m_otherMatcher->m_advance[j].resize(idx * 2, AdvanceNone);
cannam@0 487 }
Chris@45 488
Chris@96 489 m_otherMatcher->setDistance(j, i, distance);
Chris@188 490 m_otherMatcher->setPathCost(j, i, dir, newValue);
cannam@0 491 }
Chris@71 492 }
cannam@0 493
Chris@181 494 advance_t
Chris@72 495 Matcher::getAdvance(int i, int j)
Chris@72 496 {
Chris@72 497 if (m_firstPM) {
Chris@72 498 if (!isInRange(i, j)) {
Chris@72 499 cerr << "ERROR: Matcher::getAdvance(" << i << ", " << j << "): "
Chris@72 500 << "Location is not in range" << endl;
Chris@72 501 throw "Advance not available";
Chris@72 502 }
Chris@72 503 return m_advance[i][j - m_first[i]];
Chris@72 504 } else {
Chris@72 505 return m_otherMatcher->getAdvance(j, i);
Chris@72 506 }
Chris@72 507 }
Chris@202 508
Chris@202 509 static double k(size_t sz)
Chris@202 510 {
Chris@202 511 return double(sz) / 1024.0;
Chris@202 512 }
Chris@202 513
Chris@202 514 void
Chris@202 515 Matcher::printStats()
Chris@202 516 {
Chris@202 517 if (m_firstPM) cerr << endl;
Chris@202 518
Chris@202 519 cerr << "Matcher[" << this << "] (" << (m_firstPM ? "first" : "second") << "):" << endl;
Chris@202 520 cerr << "- block size " << m_blockSize << ", frame count " << m_frameCount << ", dist x size " << m_distXSize << ", initialised " << m_initialised << endl;
Chris@202 521
Chris@202 522 if (m_features.empty()) {
Chris@202 523 cerr << "- have no features yet" << endl;
Chris@202 524 } else {
Chris@202 525 cerr << "- have " << m_features.size() << " features of " << m_features[0].size() << " bins each (= "
Chris@202 526 << k(m_features.size() * m_features[0].size() * sizeof(featurebin_t)) << "K)" << endl;
Chris@202 527 }
Chris@202 528
Chris@202 529 size_t cells = 0;
Chris@202 530 for (const auto &d: m_distance) {
Chris@202 531 cells += d.size();
Chris@202 532 }
Chris@202 533 if (m_distance.empty()) {
Chris@202 534 cerr << "- have no cells in matrix" << endl;
Chris@202 535 } else {
Chris@202 536 cerr << "- have " << m_distance.size() << " cols in matrix with avg "
Chris@203 537 << double(cells) / double(m_distance.size()) << " rows, total "
Chris@202 538 << cells << " cells" << endl;
Chris@202 539 cerr << "- path costs " << k(cells * sizeof(pathcost_t))
Chris@202 540 << "K, distances " << k(cells * sizeof(distance_t))
Chris@202 541 << "K, advances " << k(cells * sizeof(advance_t)) << "K" << endl;
Chris@202 542 }
Chris@202 543
Chris@202 544 if (m_firstPM && m_otherMatcher) {
Chris@202 545 m_otherMatcher->printStats();
Chris@202 546 cerr << endl;
Chris@202 547 }
Chris@202 548 }
Chris@202 549