Mercurial > hg > match-vamp

annotate src/Matcher.cpp @ 208:9a8fc47d4f93 memory

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Make some checks optional
author Chris Cannam
date Fri, 27 Feb 2015 12:59:37 +0000
parents 0159aff8c4c5
children d46be43c0738
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@208 114 if (j >= m_first[i] && j < m_last[i]) {
Chris@203 115 if (m_bestPathCost[i][j - m_first[i]] != InvalidPathCost) {
Chris@203 116 return true;
Chris@203 117 }
Chris@203 118 }
Chris@203 119 }
Chris@203 120 return false;
Chris@203 121 } else {
Chris@203 122 return m_otherMatcher->isRowAvailable(j);
Chris@203 123 }
Chris@154 124 }
Chris@154 125
Chris@154 126 bool
Chris@87 127 Matcher::isInRange(int i, int j)
Chris@87 128 {
Chris@87 129 if (m_firstPM) {
Chris@87 130 return ((i >= 0) &&
Chris@87 131 (i < int(m_first.size())) &&
Chris@87 132 (j >= m_first[i]) &&
Chris@87 133 (j < int(m_first[i] + m_bestPathCost[i].size())));
Chris@87 134 } else {
Chris@87 135 return m_otherMatcher->isInRange(j, i);
Chris@87 136 }
Chris@87 137 }
Chris@87 138
Chris@87 139 pair<int, int>
Chris@205 140 Matcher::getColRangeForRow(int i)
Chris@87 141 {
Chris@204 142 if (m_firstPM) {
Chris@208 143 #ifdef PERFORM_ERROR_CHECKS
Chris@204 144 if (i < 0 || i >= int(m_first.size())) {
Chris@206 145 cerr << "ERROR: Matcher::getColRangeForRow(" << i << "): Index out of range"
Chris@204 146 << endl;
Chris@204 147 throw "Index out of range";
Chris@204 148 }
Chris@208 149 #endif
Chris@208 150 return pair<int, int>(m_first[i], m_last[i]);
Chris@87 151 } else {
Chris@205 152 return m_otherMatcher->getRowRangeForCol(i);
Chris@87 153 }
Chris@87 154 }
Chris@87 155
Chris@87 156 pair<int, int>
Chris@206 157 Matcher::getRowRangeForCol(int i)
Chris@87 158 {
Chris@204 159 if (m_firstPM) {
Chris@208 160 #ifdef PERFORM_ERROR_CHECKS
Chris@206 161 if (i < 0 || i >= int(m_otherMatcher->m_first.size())) {
Chris@206 162 cerr << "ERROR: Matcher::getRowRangeForCol(" << i << "): Index out of range"
Chris@204 163 << endl;
Chris@204 164 throw "Index out of range";
Chris@204 165 }
Chris@208 166 #endif
Chris@208 167 return pair<int, int>(m_otherMatcher->m_first[i],
Chris@208 168 m_otherMatcher->m_last[i]);
Chris@204 169 } else {
Chris@206 170 return m_otherMatcher->getColRangeForRow(i);
Chris@204 171 }
Chris@87 172 }
Chris@87 173
Chris@182 174 distance_t
Chris@87 175 Matcher::getDistance(int i, int j)
Chris@87 176 {
Chris@87 177 if (m_firstPM) {
Chris@208 178 #ifdef PERFORM_ERROR_CHECKS
Chris@87 179 if (!isInRange(i, j)) {
Chris@87 180 cerr << "ERROR: Matcher::getDistance(" << i << ", " << j << "): "
Chris@87 181 << "Location is not in range" << endl;
Chris@87 182 throw "Distance not available";
Chris@87 183 }
Chris@208 184 #endif
Chris@182 185 distance_t dist = m_distance[i][j - m_first[i]];
Chris@208 186 #ifdef PERFORM_ERROR_CHECKS
Chris@183 187 if (dist == InvalidDistance) {
Chris@87 188 cerr << "ERROR: Matcher::getDistance(" << i << ", " << j << "): "
Chris@87 189 << "Location is in range, but distance ("
Chris@191 190 << distance_print_t(dist)
Chris@191 191 << ") is invalid or has not been set" << endl;
Chris@87 192 throw "Distance not available";
Chris@87 193 }
Chris@208 194 #endif
Chris@87 195 return dist;
Chris@87 196 } else {
Chris@87 197 return m_otherMatcher->getDistance(j, i);
Chris@87 198 }
Chris@87 199 }
Chris@87 200
Chris@87 201 void
Chris@182 202 Matcher::setDistance(int i, int j, distance_t distance)
Chris@87 203 {
Chris@87 204 if (m_firstPM) {
Chris@208 205 #ifdef PERFORM_ERROR_CHECKS
Chris@87 206 if (!isInRange(i, j)) {
Chris@87 207 cerr << "ERROR: Matcher::setDistance(" << i << ", " << j << ", "
Chris@191 208 << distance_print_t(distance)
Chris@191 209 << "): Location is out of range" << endl;
Chris@87 210 throw "Indices out of range";
Chris@87 211 }
Chris@208 212 #endif
Chris@87 213 m_distance[i][j - m_first[i]] = distance;
Chris@87 214 } else {
Chris@87 215 m_otherMatcher->setDistance(j, i, distance);
Chris@87 216 }
Chris@87 217 }
Chris@87 218
Chris@191 219 normpathcost_t
Chris@135 220 Matcher::getNormalisedPathCost(int i, int j)
Chris@135 221 {
Chris@135 222 // normalised for path length. 1+ prevents division by zero here
Chris@191 223 return normpathcost_t(getPathCost(i, j)) / normpathcost_t(1 + i + j);
Chris@135 224 }
Chris@135 225
Chris@182 226 pathcost_t
Chris@87 227 Matcher::getPathCost(int i, int j)
Chris@87 228 {
Chris@87 229 if (m_firstPM) {
Chris@203 230 #ifdef PERFORM_ERROR_CHECKS
Chris@87 231 if (!isAvailable(i, j)) {
Chris@87 232 if (!isInRange(i, j)) {
Chris@87 233 cerr << "ERROR: Matcher::getPathCost(" << i << ", " << j << "): "
Chris@87 234 << "Location is not in range" << endl;
Chris@87 235 } else {
Chris@87 236 cerr << "ERROR: Matcher::getPathCost(" << i << ", " << j << "): "
Chris@87 237 << "Location is in range, but pathCost ("
Chris@87 238 << m_bestPathCost[i][j - m_first[i]]
Chris@87 239 << ") is invalid or has not been set" << endl;
Chris@87 240 }
Chris@87 241 throw "Path cost not available";
Chris@87 242 }
Chris@203 243 #endif
Chris@87 244 return m_bestPathCost[i][j - m_first[i]];
Chris@87 245 } else {
Chris@87 246 return m_otherMatcher->getPathCost(j, i);
Chris@87 247 }
Chris@87 248 }
Chris@87 249
Chris@87 250 void
Chris@182 251 Matcher::setPathCost(int i, int j, advance_t dir, pathcost_t pathCost)
Chris@87 252 {
Chris@87 253 if (m_firstPM) {
Chris@208 254 #ifdef PERFORM_ERROR_CHECKS
Chris@87 255 if (!isInRange(i, j)) {
Chris@87 256 cerr << "ERROR: Matcher::setPathCost(" << i << ", " << j << ", "
Chris@87 257 << dir << ", " << pathCost
Chris@87 258 << "): Location is out of range" << endl;
Chris@87 259 throw "Indices out of range";
Chris@87 260 }
Chris@208 261 #endif
Chris@87 262 m_advance[i][j - m_first[i]] = dir;
Chris@87 263 m_bestPathCost[i][j - m_first[i]] = pathCost;
Chris@87 264 } else {
Chris@87 265 if (dir == AdvanceThis) {
Chris@87 266 dir = AdvanceOther;
Chris@87 267 } else if (dir == AdvanceOther) {
Chris@87 268 dir = AdvanceThis;
Chris@87 269 }
Chris@87 270 m_otherMatcher->setPathCost(j, i, dir, pathCost);
Chris@87 271 }
Chris@87 272 }
Chris@87 273
cannam@0 274 void
Chris@41 275 Matcher::size()
cannam@0 276 {
Chris@43 277 m_first.resize(m_distXSize, 0);
Chris@43 278 m_last.resize(m_distXSize, 0);
Chris@206 279
Chris@206 280 if (m_firstPM) {
Chris@206 281 int distSize = (m_params.maxRunCount + 1) * m_blockSize;
Chris@206 282 m_bestPathCost.resize(m_distXSize, pathcostvec_t(distSize, InvalidPathCost));
Chris@206 283 m_distance.resize(m_distXSize, distancevec_t(distSize, InvalidDistance));
Chris@206 284 m_advance.resize(m_distXSize, advancevec_t(distSize, AdvanceNone));
Chris@206 285 }
Chris@38 286 }
cannam@0 287
Chris@23 288 void
Chris@182 289 Matcher::consumeFeatureVector(const feature_t &feature)
Chris@23 290 {
Chris@43 291 if (!m_initialised) init();
Chris@43 292 int frameIndex = m_frameCount % m_blockSize;
Chris@182 293 m_features[frameIndex] = feature;
Chris@23 294 calcAdvance();
Chris@21 295 }
Chris@21 296
Chris@21 297 void
Chris@21 298 Matcher::calcAdvance()
Chris@21 299 {
Chris@43 300 int frameIndex = m_frameCount % m_blockSize;
Chris@21 301
Chris@43 302 if (m_frameCount >= m_distXSize) {
Chris@43 303 m_distXSize *= 2;
Chris@41 304 size();
cannam@0 305 }
Chris@207 306
Chris@43 307 if (m_firstPM && (m_frameCount >= m_blockSize)) {
Chris@207 308 // Memory reduction for old rows
Chris@207 309 int oldidx = m_frameCount - m_blockSize;
Chris@207 310 int len = m_last[oldidx] - m_first[oldidx];
Chris@207 311 m_distance[oldidx].resize(len);
Chris@207 312 m_bestPathCost[oldidx].resize(len);
Chris@207 313 m_advance[oldidx].resize(len);
cannam@0 314 }
cannam@0 315
Chris@43 316 int stop = m_otherMatcher->m_frameCount;
Chris@43 317 int index = stop - m_blockSize;
Chris@86 318 if (index < 0) index = 0;
Chris@86 319
Chris@43 320 m_first[m_frameCount] = index;
Chris@43 321 m_last[m_frameCount] = stop;
cannam@0 322
cannam@0 323 for ( ; index < stop; index++) {
Chris@26 324
Chris@188 325 distance_t distance = m_metric.calcDistance
Chris@182 326 (m_features[frameIndex],
Chris@182 327 m_otherMatcher->m_features[index % m_blockSize]);
Chris@26 328
Chris@188 329 pathcost_t straightIncrement(distance);
Chris@188 330 pathcost_t diagIncrement = pathcost_t(distance * m_params.diagonalWeight);
Chris@89 331
Chris@86 332 if ((m_frameCount == 0) && (index == 0)) { // first element
Chris@86 333
Chris@86 334 updateValue(0, 0, AdvanceNone,
Chris@86 335 0,
Chris@86 336 distance);
Chris@86 337
Chris@86 338 } else if (m_frameCount == 0) { // first row
Chris@86 339
Chris@71 340 updateValue(0, index, AdvanceOther,
Chris@86 341 getPathCost(0, index-1),
Chris@86 342 distance);
Chris@86 343
Chris@86 344 } else if (index == 0) { // first column
Chris@86 345
Chris@71 346 updateValue(m_frameCount, index, AdvanceThis,
Chris@86 347 getPathCost(m_frameCount - 1, 0),
Chris@86 348 distance);
Chris@86 349
Chris@86 350 } else if (index == m_otherMatcher->m_frameCount - m_blockSize) {
Chris@86 351
cannam@0 352 // missing value(s) due to cutoff
cannam@0 353 // - no previous value in current row (resp. column)
cannam@0 354 // - no diagonal value if prev. dir. == curr. dirn
Chris@86 355
Chris@182 356 pathcost_t min2 = getPathCost(m_frameCount - 1, index);
Chris@86 357
Chris@91 358 // cerr << "NOTE: missing value at i = " << m_frameCount << ", j = "
Chris@91 359 // << index << " (first = " << m_firstPM << ")" << endl;
Chris@86 360
Chris@43 361 // if ((m_firstPM && (first[m_frameCount - 1] == index)) ||
Chris@43 362 // (!m_firstPM && (m_last[index-1] < m_frameCount)))
Chris@86 363 if (m_first[m_frameCount - 1] == index) {
Chris@86 364
Chris@86 365 updateValue(m_frameCount, index, AdvanceThis,
Chris@86 366 min2, distance);
Chris@86 367
Chris@86 368 } else {
Chris@86 369
Chris@182 370 pathcost_t min1 = getPathCost(m_frameCount - 1, index - 1);
Chris@188 371 if (min1 + diagIncrement <= min2 + straightIncrement) {
Chris@86 372 updateValue(m_frameCount, index, AdvanceBoth,
Chris@86 373 min1, distance);
Chris@86 374 } else {
Chris@86 375 updateValue(m_frameCount, index, AdvanceThis,
Chris@86 376 min2, distance);
Chris@86 377 }
cannam@0 378 }
Chris@86 379
cannam@0 380 } else {
Chris@86 381
Chris@182 382 pathcost_t min1 = getPathCost(m_frameCount, index - 1);
Chris@182 383 pathcost_t min2 = getPathCost(m_frameCount - 1, index);
Chris@182 384 pathcost_t min3 = getPathCost(m_frameCount - 1, index - 1);
Chris@87 385
Chris@188 386 pathcost_t cost1 = min1 + straightIncrement;
Chris@188 387 pathcost_t cost2 = min2 + straightIncrement;
Chris@188 388 pathcost_t cost3 = min3 + diagIncrement;
Chris@93 389
Chris@93 390 // Choosing is easy if there is a strict cheapest of the
Chris@93 391 // three. If two or more share the lowest cost, we choose
Chris@93 392 // in order of preference: cost3 (AdvanceBoth), cost2
Chris@94 393 // (AdvanceThis), cost1 (AdvanceOther) if we are the first
Chris@94 394 // matcher; and cost3 (AdvanceBoth), cost1 (AdvanceOther),
Chris@94 395 // cost2 (AdvanceThis) if we are the second matcher. That
Chris@94 396 // is, we always prioritise the diagonal followed by the
Chris@94 397 // first matcher.
Chris@94 398
Chris@94 399 if (( m_firstPM && (cost1 < cost2)) ||
Chris@94 400 (!m_firstPM && (cost1 <= cost2))) {
Chris@89 401 if (cost3 <= cost1) {
Chris@86 402 updateValue(m_frameCount, index, AdvanceBoth,
Chris@86 403 min3, distance);
Chris@86 404 } else {
Chris@86 405 updateValue(m_frameCount, index, AdvanceOther,
Chris@86 406 min1, distance);
Chris@86 407 }
cannam@0 408 } else {
Chris@89 409 if (cost3 <= cost2) {
Chris@86 410 updateValue(m_frameCount, index, AdvanceBoth,
Chris@86 411 min3, distance);
Chris@86 412 } else {
Chris@86 413 updateValue(m_frameCount, index, AdvanceThis,
Chris@86 414 min2, distance);
Chris@86 415 }
cannam@0 416 }
cannam@0 417 }
Chris@86 418
Chris@43 419 m_otherMatcher->m_last[index]++;
cannam@0 420 } // loop for row (resp. column)
cannam@0 421
Chris@43 422 m_frameCount++;
Chris@43 423 m_runCount++;
cannam@0 424
Chris@43 425 m_otherMatcher->m_runCount = 0;
Chris@21 426 }
cannam@0 427
cannam@0 428 void
Chris@182 429 Matcher::updateValue(int i, int j, advance_t dir, pathcost_t value, distance_t distance)
cannam@0 430 {
Chris@188 431 pathcost_t increment = distance;
Chris@83 432 if (dir == AdvanceBoth) {
Chris@188 433 increment = pathcost_t(increment * m_params.diagonalWeight);
Chris@188 434 }
Chris@188 435
Chris@188 436 pathcost_t newValue = value + increment;
Chris@188 437 if (MaxPathCost - increment < value) {
Chris@188 438 cerr << "ERROR: Path cost overflow at i=" << i << ", j=" << j << ": "
Chris@188 439 << value << " + " << increment << " > " << MaxPathCost << endl;
Chris@188 440 newValue = MaxPathCost;
Chris@83 441 }
Chris@83 442
Chris@43 443 if (m_firstPM) {
Chris@45 444
Chris@96 445 setDistance(i, j, distance);
Chris@188 446 setPathCost(i, j, dir, newValue);
Chris@45 447
cannam@0 448 } else {
Chris@45 449
Chris@86 450 if (dir == AdvanceThis) dir = AdvanceOther;
Chris@86 451 else if (dir == AdvanceOther) dir = AdvanceThis;
Chris@84 452
Chris@43 453 int idx = i - m_otherMatcher->m_first[j];
Chris@45 454
Chris@188 455 if (idx < 0 || size_t(idx) == m_otherMatcher->m_distance[j].size()) {
cannam@0 456 // This should never happen, but if we allow arbitrary
cannam@0 457 // pauses in either direction, and arbitrary lengths at
cannam@0 458 // end, it is better than a segmentation fault.
Chris@72 459 cerr << "Emergency resize: " << idx << " -> " << idx * 2 << endl;
Chris@183 460 m_otherMatcher->m_bestPathCost[j].resize(idx * 2, InvalidPathCost);
Chris@183 461 m_otherMatcher->m_distance[j].resize(idx * 2, InvalidDistance);
Chris@46 462 m_otherMatcher->m_advance[j].resize(idx * 2, AdvanceNone);
cannam@0 463 }
Chris@45 464
Chris@96 465 m_otherMatcher->setDistance(j, i, distance);
Chris@188 466 m_otherMatcher->setPathCost(j, i, dir, newValue);
cannam@0 467 }
Chris@71 468 }
cannam@0 469
Chris@181 470 advance_t
Chris@72 471 Matcher::getAdvance(int i, int j)
Chris@72 472 {
Chris@72 473 if (m_firstPM) {
Chris@208 474 #ifdef PERFORM_ERROR_CHECKS
Chris@72 475 if (!isInRange(i, j)) {
Chris@72 476 cerr << "ERROR: Matcher::getAdvance(" << i << ", " << j << "): "
Chris@72 477 << "Location is not in range" << endl;
Chris@72 478 throw "Advance not available";
Chris@72 479 }
Chris@208 480 #endif
Chris@72 481 return m_advance[i][j - m_first[i]];
Chris@72 482 } else {
Chris@72 483 return m_otherMatcher->getAdvance(j, i);
Chris@72 484 }
Chris@72 485 }
Chris@202 486
Chris@202 487 static double k(size_t sz)
Chris@202 488 {
Chris@202 489 return double(sz) / 1024.0;
Chris@202 490 }
Chris@202 491
Chris@202 492 void
Chris@202 493 Matcher::printStats()
Chris@202 494 {
Chris@202 495 if (m_firstPM) cerr << endl;
Chris@202 496
Chris@202 497 cerr << "Matcher[" << this << "] (" << (m_firstPM ? "first" : "second") << "):" << endl;
Chris@202 498 cerr << "- block size " << m_blockSize << ", frame count " << m_frameCount << ", dist x size " << m_distXSize << ", initialised " << m_initialised << endl;
Chris@202 499
Chris@202 500 if (m_features.empty()) {
Chris@202 501 cerr << "- have no features yet" << endl;
Chris@202 502 } else {
Chris@202 503 cerr << "- have " << m_features.size() << " features of " << m_features[0].size() << " bins each (= "
Chris@202 504 << k(m_features.size() * m_features[0].size() * sizeof(featurebin_t)) << "K)" << endl;
Chris@202 505 }
Chris@202 506
Chris@202 507 size_t cells = 0;
Chris@202 508 for (const auto &d: m_distance) {
Chris@202 509 cells += d.size();
Chris@202 510 }
Chris@202 511 if (m_distance.empty()) {
Chris@202 512 cerr << "- have no cells in matrix" << endl;
Chris@202 513 } else {
Chris@202 514 cerr << "- have " << m_distance.size() << " cols in matrix with avg "
Chris@203 515 << double(cells) / double(m_distance.size()) << " rows, total "
Chris@202 516 << cells << " cells" << endl;
Chris@202 517 cerr << "- path costs " << k(cells * sizeof(pathcost_t))
Chris@202 518 << "K, distances " << k(cells * sizeof(distance_t))
Chris@202 519 << "K, advances " << k(cells * sizeof(advance_t)) << "K" << endl;
Chris@202 520 }
Chris@202 521
Chris@202 522 if (m_firstPM && m_otherMatcher) {
Chris@202 523 m_otherMatcher->printStats();
Chris@202 524 cerr << endl;
Chris@202 525 }
Chris@202 526 }
Chris@202 527