annotate data/fileio/MIDIFileReader.cpp @ 742:c10cb8782576 coreaudio_tests

Merge from branch "default"
author Chris Cannam
date Sun, 01 Jul 2012 11:53:00 +0100
parents 1424aa29ae95
children e802e550a1f2
rev   line source
Chris@148 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@148 2
Chris@148 3 /*
Chris@148 4 Sonic Visualiser
Chris@148 5 An audio file viewer and annotation editor.
Chris@148 6 Centre for Digital Music, Queen Mary, University of London.
Chris@148 7
Chris@148 8 This program is free software; you can redistribute it and/or
Chris@148 9 modify it under the terms of the GNU General Public License as
Chris@148 10 published by the Free Software Foundation; either version 2 of the
Chris@148 11 License, or (at your option) any later version. See the file
Chris@148 12 COPYING included with this distribution for more information.
Chris@148 13 */
Chris@148 14
Chris@148 15
Chris@148 16 /*
Chris@148 17 This is a modified version of a source file from the
Chris@148 18 Rosegarden MIDI and audio sequencer and notation editor.
Chris@148 19 This file copyright 2000-2006 Richard Bown and Chris Cannam.
Chris@148 20 */
Chris@148 21
Chris@148 22
Chris@148 23 #include <iostream>
Chris@148 24 #include <fstream>
Chris@148 25 #include <string>
Chris@148 26 #include <cstdio>
Chris@148 27 #include <algorithm>
Chris@148 28
Chris@148 29 #include "MIDIFileReader.h"
Chris@148 30
Chris@560 31 #include "data/midi/MIDIEvent.h"
Chris@301 32
Chris@150 33 #include "model/Model.h"
Chris@148 34 #include "base/Pitch.h"
Chris@148 35 #include "base/RealTime.h"
Chris@148 36 #include "model/NoteModel.h"
Chris@148 37
Chris@148 38 #include <QString>
Chris@148 39
Chris@148 40 #include <sstream>
Chris@148 41
Chris@148 42 using std::string;
Chris@148 43 using std::ifstream;
Chris@148 44 using std::stringstream;
Chris@148 45 using std::cerr;
Chris@148 46 using std::endl;
Chris@148 47 using std::ends;
Chris@148 48 using std::ios;
Chris@148 49 using std::vector;
Chris@148 50 using std::map;
Chris@148 51 using std::set;
Chris@148 52
Chris@301 53 using namespace MIDIConstants;
Chris@301 54
Chris@690 55 //#define MIDI_SVDEBUG 1
Chris@148 56
Chris@148 57
Chris@148 58 MIDIFileReader::MIDIFileReader(QString path,
Chris@392 59 MIDIFileImportPreferenceAcquirer *acquirer,
Chris@148 60 size_t mainModelSampleRate) :
Chris@613 61 m_smpte(false),
Chris@148 62 m_timingDivision(0),
Chris@613 63 m_fps(0),
Chris@613 64 m_subframes(0),
Chris@148 65 m_format(MIDI_FILE_BAD_FORMAT),
Chris@148 66 m_numberOfTracks(0),
Chris@148 67 m_trackByteCount(0),
Chris@148 68 m_decrementCount(false),
Chris@148 69 m_path(path),
Chris@148 70 m_midiFile(0),
Chris@148 71 m_fileSize(0),
Chris@392 72 m_mainModelSampleRate(mainModelSampleRate),
Chris@392 73 m_acquirer(acquirer)
Chris@148 74 {
Chris@148 75 if (parseFile()) {
Chris@148 76 m_error = "";
Chris@148 77 }
Chris@148 78 }
Chris@148 79
Chris@148 80 MIDIFileReader::~MIDIFileReader()
Chris@148 81 {
Chris@148 82 for (MIDIComposition::iterator i = m_midiComposition.begin();
Chris@148 83 i != m_midiComposition.end(); ++i) {
Chris@148 84
Chris@148 85 for (MIDITrack::iterator j = i->second.begin();
Chris@148 86 j != i->second.end(); ++j) {
Chris@148 87 delete *j;
Chris@148 88 }
Chris@148 89
Chris@148 90 i->second.clear();
Chris@148 91 }
Chris@148 92
Chris@148 93 m_midiComposition.clear();
Chris@148 94 }
Chris@148 95
Chris@148 96 bool
Chris@148 97 MIDIFileReader::isOK() const
Chris@148 98 {
Chris@148 99 return (m_error == "");
Chris@148 100 }
Chris@148 101
Chris@148 102 QString
Chris@148 103 MIDIFileReader::getError() const
Chris@148 104 {
Chris@148 105 return m_error;
Chris@148 106 }
Chris@148 107
Chris@148 108 long
Chris@148 109 MIDIFileReader::midiBytesToLong(const string& bytes)
Chris@148 110 {
Chris@148 111 if (bytes.length() != 4) {
Chris@148 112 throw MIDIException(tr("Wrong length for long data in MIDI stream (%1, should be %2)").arg(bytes.length()).arg(4));
Chris@148 113 }
Chris@148 114
Chris@148 115 long longRet = ((long)(((MIDIByte)bytes[0]) << 24)) |
Chris@148 116 ((long)(((MIDIByte)bytes[1]) << 16)) |
Chris@148 117 ((long)(((MIDIByte)bytes[2]) << 8)) |
Chris@148 118 ((long)((MIDIByte)(bytes[3])));
Chris@148 119
Chris@148 120 return longRet;
Chris@148 121 }
Chris@148 122
Chris@148 123 int
Chris@148 124 MIDIFileReader::midiBytesToInt(const string& bytes)
Chris@148 125 {
Chris@148 126 if (bytes.length() != 2) {
Chris@148 127 throw MIDIException(tr("Wrong length for int data in MIDI stream (%1, should be %2)").arg(bytes.length()).arg(2));
Chris@148 128 }
Chris@148 129
Chris@148 130 int intRet = ((int)(((MIDIByte)bytes[0]) << 8)) |
Chris@148 131 ((int)(((MIDIByte)bytes[1])));
Chris@148 132 return(intRet);
Chris@148 133 }
Chris@148 134
Chris@148 135
Chris@148 136 // Gets a single byte from the MIDI byte stream. For each track
Chris@148 137 // section we can read only a specified number of bytes held in
Chris@148 138 // m_trackByteCount.
Chris@148 139 //
Chris@301 140 MIDIByte
Chris@148 141 MIDIFileReader::getMIDIByte()
Chris@148 142 {
Chris@148 143 if (!m_midiFile) {
Chris@148 144 throw MIDIException(tr("getMIDIByte called but no MIDI file open"));
Chris@148 145 }
Chris@148 146
Chris@148 147 if (m_midiFile->eof()) {
Chris@148 148 throw MIDIException(tr("End of MIDI file encountered while reading"));
Chris@148 149 }
Chris@148 150
Chris@148 151 if (m_decrementCount && m_trackByteCount <= 0) {
Chris@148 152 throw MIDIException(tr("Attempt to get more bytes than expected on Track"));
Chris@148 153 }
Chris@148 154
Chris@148 155 char byte;
Chris@148 156 if (m_midiFile->read(&byte, 1)) {
Chris@148 157 --m_trackByteCount;
Chris@148 158 return (MIDIByte)byte;
Chris@148 159 }
Chris@148 160
Chris@148 161 throw MIDIException(tr("Attempt to read past MIDI file end"));
Chris@148 162 }
Chris@148 163
Chris@148 164
Chris@148 165 // Gets a specified number of bytes from the MIDI byte stream. For
Chris@148 166 // each track section we can read only a specified number of bytes
Chris@148 167 // held in m_trackByteCount.
Chris@148 168 //
Chris@148 169 string
Chris@148 170 MIDIFileReader::getMIDIBytes(unsigned long numberOfBytes)
Chris@148 171 {
Chris@148 172 if (!m_midiFile) {
Chris@148 173 throw MIDIException(tr("getMIDIBytes called but no MIDI file open"));
Chris@148 174 }
Chris@148 175
Chris@148 176 if (m_midiFile->eof()) {
Chris@148 177 throw MIDIException(tr("End of MIDI file encountered while reading"));
Chris@148 178 }
Chris@148 179
Chris@148 180 if (m_decrementCount && (numberOfBytes > (unsigned long)m_trackByteCount)) {
Chris@148 181 throw MIDIException(tr("Attempt to get more bytes than available on Track (%1, only have %2)").arg(numberOfBytes).arg(m_trackByteCount));
Chris@148 182 }
Chris@148 183
Chris@148 184 string stringRet;
Chris@148 185 char fileMIDIByte;
Chris@148 186
Chris@148 187 while (stringRet.length() < numberOfBytes &&
Chris@148 188 m_midiFile->read(&fileMIDIByte, 1)) {
Chris@148 189 stringRet += fileMIDIByte;
Chris@148 190 }
Chris@148 191
Chris@148 192 // if we've reached the end of file without fulfilling the
Chris@148 193 // quota then panic as our parsing has performed incorrectly
Chris@148 194 //
Chris@148 195 if (stringRet.length() < numberOfBytes) {
Chris@148 196 stringRet = "";
Chris@148 197 throw MIDIException(tr("Attempt to read past MIDI file end"));
Chris@148 198 }
Chris@148 199
Chris@148 200 // decrement the byte count
Chris@148 201 if (m_decrementCount)
Chris@148 202 m_trackByteCount -= stringRet.length();
Chris@148 203
Chris@148 204 return stringRet;
Chris@148 205 }
Chris@148 206
Chris@148 207
Chris@148 208 // Get a long number of variable length from the MIDI byte stream.
Chris@148 209 //
Chris@148 210 long
Chris@148 211 MIDIFileReader::getNumberFromMIDIBytes(int firstByte)
Chris@148 212 {
Chris@148 213 if (!m_midiFile) {
Chris@148 214 throw MIDIException(tr("getNumberFromMIDIBytes called but no MIDI file open"));
Chris@148 215 }
Chris@148 216
Chris@148 217 long longRet = 0;
Chris@148 218 MIDIByte midiByte;
Chris@148 219
Chris@148 220 if (firstByte >= 0) {
Chris@148 221 midiByte = (MIDIByte)firstByte;
Chris@148 222 } else if (m_midiFile->eof()) {
Chris@148 223 return longRet;
Chris@148 224 } else {
Chris@148 225 midiByte = getMIDIByte();
Chris@148 226 }
Chris@148 227
Chris@148 228 longRet = midiByte;
Chris@148 229 if (midiByte & 0x80) {
Chris@148 230 longRet &= 0x7F;
Chris@148 231 do {
Chris@148 232 midiByte = getMIDIByte();
Chris@148 233 longRet = (longRet << 7) + (midiByte & 0x7F);
Chris@148 234 } while (!m_midiFile->eof() && (midiByte & 0x80));
Chris@148 235 }
Chris@148 236
Chris@148 237 return longRet;
Chris@148 238 }
Chris@148 239
Chris@148 240
Chris@148 241 // Seek to the next track in the midi file and set the number
Chris@148 242 // of bytes to be read in the counter m_trackByteCount.
Chris@148 243 //
Chris@148 244 bool
Chris@148 245 MIDIFileReader::skipToNextTrack()
Chris@148 246 {
Chris@148 247 if (!m_midiFile) {
Chris@148 248 throw MIDIException(tr("skipToNextTrack called but no MIDI file open"));
Chris@148 249 }
Chris@148 250
Chris@148 251 string buffer, buffer2;
Chris@148 252 m_trackByteCount = -1;
Chris@148 253 m_decrementCount = false;
Chris@148 254
Chris@148 255 while (!m_midiFile->eof() && (m_decrementCount == false)) {
Chris@148 256 buffer = getMIDIBytes(4);
Chris@148 257 if (buffer.compare(0, 4, MIDI_TRACK_HEADER) == 0) {
Chris@148 258 m_trackByteCount = midiBytesToLong(getMIDIBytes(4));
Chris@148 259 m_decrementCount = true;
Chris@148 260 }
Chris@148 261 }
Chris@148 262
Chris@148 263 if (m_trackByteCount == -1) { // we haven't found a track
Chris@148 264 return false;
Chris@148 265 } else {
Chris@148 266 return true;
Chris@148 267 }
Chris@148 268 }
Chris@148 269
Chris@148 270
Chris@148 271 // Read in a MIDI file. The parsing process throws exceptions back up
Chris@148 272 // here if we run into trouble which we can then pass back out to
Chris@148 273 // whoever called us using a nice bool.
Chris@148 274 //
Chris@148 275 bool
Chris@148 276 MIDIFileReader::parseFile()
Chris@148 277 {
Chris@148 278 m_error = "";
Chris@148 279
Chris@148 280 #ifdef MIDI_DEBUG
Chris@690 281 SVDEBUG << "MIDIFileReader::open() : fileName = " << m_fileName.c_str() << endl;
Chris@148 282 #endif
Chris@148 283
Chris@148 284 // Open the file
Chris@148 285 m_midiFile = new ifstream(m_path.toLocal8Bit().data(),
Chris@148 286 ios::in | ios::binary);
Chris@148 287
Chris@148 288 if (!*m_midiFile) {
Chris@148 289 m_error = "File not found or not readable.";
Chris@148 290 m_format = MIDI_FILE_BAD_FORMAT;
Chris@148 291 delete m_midiFile;
Chris@301 292 m_midiFile = 0;
Chris@148 293 return false;
Chris@148 294 }
Chris@148 295
Chris@148 296 bool retval = false;
Chris@148 297
Chris@148 298 try {
Chris@148 299
Chris@148 300 // Set file size so we can count it off
Chris@148 301 //
Chris@148 302 m_midiFile->seekg(0, ios::end);
Chris@148 303 m_fileSize = m_midiFile->tellg();
Chris@148 304 m_midiFile->seekg(0, ios::beg);
Chris@148 305
Chris@148 306 // Parse the MIDI header first. The first 14 bytes of the file.
Chris@148 307 if (!parseHeader(getMIDIBytes(14))) {
Chris@148 308 m_format = MIDI_FILE_BAD_FORMAT;
Chris@148 309 m_error = "Not a MIDI file.";
Chris@148 310 goto done;
Chris@148 311 }
Chris@148 312
Chris@148 313 unsigned int i = 0;
Chris@148 314
Chris@148 315 for (unsigned int j = 0; j < m_numberOfTracks; ++j) {
Chris@148 316
Chris@148 317 #ifdef MIDI_DEBUG
Chris@690 318 SVDEBUG << "Parsing Track " << j << endl;
Chris@148 319 #endif
Chris@148 320
Chris@148 321 if (!skipToNextTrack()) {
Chris@148 322 #ifdef MIDI_DEBUG
Chris@148 323 cerr << "Couldn't find Track " << j << endl;
Chris@148 324 #endif
Chris@148 325 m_error = "File corrupted or in non-standard format?";
Chris@148 326 m_format = MIDI_FILE_BAD_FORMAT;
Chris@148 327 goto done;
Chris@148 328 }
Chris@148 329
Chris@148 330 #ifdef MIDI_DEBUG
Chris@148 331 cerr << "Track has " << m_trackByteCount << " bytes" << endl;
Chris@148 332 #endif
Chris@148 333
Chris@148 334 // Run through the events taking them into our internal
Chris@148 335 // representation.
Chris@148 336 if (!parseTrack(i)) {
Chris@148 337 #ifdef MIDI_DEBUG
Chris@148 338 cerr << "Track " << j << " parsing failed" << endl;
Chris@148 339 #endif
Chris@148 340 m_error = "File corrupted or in non-standard format?";
Chris@148 341 m_format = MIDI_FILE_BAD_FORMAT;
Chris@148 342 goto done;
Chris@148 343 }
Chris@148 344
Chris@148 345 ++i; // j is the source track number, i the destination
Chris@148 346 }
Chris@148 347
Chris@148 348 m_numberOfTracks = i;
Chris@148 349 retval = true;
Chris@148 350
Chris@148 351 } catch (MIDIException e) {
Chris@148 352
Chris@690 353 SVDEBUG << "MIDIFileReader::open() - caught exception - " << e.what() << endl;
Chris@148 354 m_error = e.what();
Chris@148 355 }
Chris@148 356
Chris@148 357 done:
Chris@148 358 m_midiFile->close();
Chris@148 359 delete m_midiFile;
Chris@148 360
Chris@148 361 for (unsigned int track = 0; track < m_numberOfTracks; ++track) {
Chris@148 362
Chris@148 363 // Convert the deltaTime to an absolute time since the track
Chris@148 364 // start. The addTime method returns the sum of the current
Chris@148 365 // MIDI Event delta time plus the argument.
Chris@148 366
Chris@148 367 unsigned long acc = 0;
Chris@148 368
Chris@148 369 for (MIDITrack::iterator i = m_midiComposition[track].begin();
Chris@148 370 i != m_midiComposition[track].end(); ++i) {
Chris@148 371 acc = (*i)->addTime(acc);
Chris@148 372 }
Chris@148 373
Chris@148 374 if (consolidateNoteOffEvents(track)) { // returns true if some notes exist
Chris@148 375 m_loadableTracks.insert(track);
Chris@148 376 }
Chris@148 377 }
Chris@148 378
Chris@148 379 for (unsigned int track = 0; track < m_numberOfTracks; ++track) {
Chris@148 380 updateTempoMap(track);
Chris@148 381 }
Chris@148 382
Chris@148 383 calculateTempoTimestamps();
Chris@148 384
Chris@148 385 return retval;
Chris@148 386 }
Chris@148 387
Chris@148 388 // Parse and ensure the MIDI Header is legitimate
Chris@148 389 //
Chris@148 390 bool
Chris@148 391 MIDIFileReader::parseHeader(const string &midiHeader)
Chris@148 392 {
Chris@148 393 if (midiHeader.size() < 14) {
Chris@148 394 #ifdef MIDI_DEBUG
Chris@690 395 SVDEBUG << "MIDIFileReader::parseHeader() - file header undersized" << endl;
Chris@148 396 #endif
Chris@148 397 return false;
Chris@148 398 }
Chris@148 399
Chris@148 400 if (midiHeader.compare(0, 4, MIDI_FILE_HEADER) != 0) {
Chris@148 401 #ifdef MIDI_DEBUG
Chris@690 402 SVDEBUG << "MIDIFileReader::parseHeader()"
Chris@148 403 << "- file header not found or malformed"
Chris@148 404 << endl;
Chris@148 405 #endif
Chris@148 406 return false;
Chris@148 407 }
Chris@148 408
Chris@148 409 if (midiBytesToLong(midiHeader.substr(4,4)) != 6L) {
Chris@148 410 #ifdef MIDI_DEBUG
Chris@690 411 SVDEBUG << "MIDIFileReader::parseHeader()"
Chris@148 412 << " - header length incorrect"
Chris@148 413 << endl;
Chris@148 414 #endif
Chris@148 415 return false;
Chris@148 416 }
Chris@148 417
Chris@148 418 m_format = (MIDIFileFormatType) midiBytesToInt(midiHeader.substr(8,2));
Chris@148 419 m_numberOfTracks = midiBytesToInt(midiHeader.substr(10,2));
Chris@148 420 m_timingDivision = midiBytesToInt(midiHeader.substr(12,2));
Chris@148 421
Chris@613 422 if (m_timingDivision >= 32768) {
Chris@613 423 m_smpte = true;
Chris@613 424 m_fps = 256 - (m_timingDivision >> 8);
Chris@613 425 m_subframes = (m_timingDivision & 0xff);
Chris@613 426 } else {
Chris@613 427 m_smpte = false;
Chris@148 428 }
Chris@148 429
Chris@148 430 return true;
Chris@148 431 }
Chris@148 432
Chris@148 433 // Extract the contents from a MIDI file track and places it into
Chris@148 434 // our local map of MIDI events.
Chris@148 435 //
Chris@148 436 bool
Chris@148 437 MIDIFileReader::parseTrack(unsigned int &lastTrackNum)
Chris@148 438 {
Chris@148 439 MIDIByte midiByte, metaEventCode, data1, data2;
Chris@148 440 MIDIByte eventCode = 0x80;
Chris@148 441 string metaMessage;
Chris@148 442 unsigned int messageLength;
Chris@148 443 unsigned long deltaTime;
Chris@148 444 unsigned long accumulatedTime = 0;
Chris@148 445
Chris@148 446 // The trackNum passed in to this method is the default track for
Chris@148 447 // all events provided they're all on the same channel. If we find
Chris@148 448 // events on more than one channel, we increment trackNum and record
Chris@148 449 // the mapping from channel to trackNum in this channelTrackMap.
Chris@148 450 // We then return the new trackNum by reference so the calling
Chris@148 451 // method knows we've got more tracks than expected.
Chris@148 452
Chris@148 453 // This would be a vector<unsigned int> but we need -1 to indicate
Chris@148 454 // "not yet used"
Chris@148 455 vector<int> channelTrackMap(16, -1);
Chris@148 456
Chris@148 457 // This is used to store the last absolute time found on each track,
Chris@148 458 // allowing us to modify delta-times correctly when separating events
Chris@148 459 // out from one to multiple tracks
Chris@148 460 //
Chris@148 461 map<int, unsigned long> trackTimeMap;
Chris@148 462
Chris@148 463 // Meta-events don't have a channel, so we place them in a fixed
Chris@148 464 // track number instead
Chris@148 465 unsigned int metaTrack = lastTrackNum;
Chris@148 466
Chris@148 467 // Remember the last non-meta status byte (-1 if we haven't seen one)
Chris@148 468 int runningStatus = -1;
Chris@148 469
Chris@148 470 bool firstTrack = true;
Chris@148 471
Chris@148 472 while (!m_midiFile->eof() && (m_trackByteCount > 0)) {
Chris@148 473
Chris@148 474 if (eventCode < 0x80) {
Chris@148 475 #ifdef MIDI_DEBUG
Chris@148 476 cerr << "WARNING: Invalid event code " << eventCode
Chris@148 477 << " in MIDI file" << endl;
Chris@148 478 #endif
Chris@148 479 throw MIDIException(tr("Invalid event code %1 found").arg(int(eventCode)));
Chris@148 480 }
Chris@148 481
Chris@148 482 deltaTime = getNumberFromMIDIBytes();
Chris@148 483
Chris@148 484 #ifdef MIDI_DEBUG
Chris@148 485 cerr << "read delta time " << deltaTime << endl;
Chris@148 486 #endif
Chris@148 487
Chris@148 488 // Get a single byte
Chris@148 489 midiByte = getMIDIByte();
Chris@148 490
Chris@148 491 if (!(midiByte & MIDI_STATUS_BYTE_MASK)) {
Chris@148 492
Chris@148 493 if (runningStatus < 0) {
Chris@148 494 throw MIDIException(tr("Running status used for first event in track"));
Chris@148 495 }
Chris@148 496
Chris@148 497 eventCode = (MIDIByte)runningStatus;
Chris@148 498 data1 = midiByte;
Chris@148 499
Chris@148 500 #ifdef MIDI_DEBUG
Chris@690 501 SVDEBUG << "using running status (byte " << int(midiByte) << " found)" << endl;
Chris@148 502 #endif
Chris@148 503 } else {
Chris@148 504 #ifdef MIDI_DEBUG
Chris@148 505 cerr << "have new event code " << int(midiByte) << endl;
Chris@148 506 #endif
Chris@148 507 eventCode = midiByte;
Chris@148 508 data1 = getMIDIByte();
Chris@148 509 }
Chris@148 510
Chris@148 511 if (eventCode == MIDI_FILE_META_EVENT) {
Chris@148 512
Chris@148 513 metaEventCode = data1;
Chris@148 514 messageLength = getNumberFromMIDIBytes();
Chris@148 515
Chris@148 516 //#ifdef MIDI_DEBUG
Chris@148 517 cerr << "Meta event of type " << int(metaEventCode) << " and " << messageLength << " bytes found, putting on track " << metaTrack << endl;
Chris@148 518 //#endif
Chris@148 519 metaMessage = getMIDIBytes(messageLength);
Chris@148 520
Chris@148 521 long gap = accumulatedTime - trackTimeMap[metaTrack];
Chris@148 522 accumulatedTime += deltaTime;
Chris@148 523 deltaTime += gap;
Chris@148 524 trackTimeMap[metaTrack] = accumulatedTime;
Chris@148 525
Chris@148 526 MIDIEvent *e = new MIDIEvent(deltaTime,
Chris@148 527 MIDI_FILE_META_EVENT,
Chris@148 528 metaEventCode,
Chris@148 529 metaMessage);
Chris@148 530
Chris@148 531 m_midiComposition[metaTrack].push_back(e);
Chris@148 532
Chris@148 533 if (metaEventCode == MIDI_TRACK_NAME) {
Chris@148 534 m_trackNames[metaTrack] = metaMessage.c_str();
Chris@148 535 }
Chris@148 536
Chris@148 537 } else { // non-meta events
Chris@148 538
Chris@148 539 runningStatus = eventCode;
Chris@148 540
Chris@148 541 MIDIEvent *midiEvent;
Chris@148 542
Chris@148 543 int channel = (eventCode & MIDI_CHANNEL_NUM_MASK);
Chris@148 544 if (channelTrackMap[channel] == -1) {
Chris@148 545 if (!firstTrack) ++lastTrackNum;
Chris@148 546 else firstTrack = false;
Chris@148 547 channelTrackMap[channel] = lastTrackNum;
Chris@148 548 }
Chris@148 549
Chris@148 550 unsigned int trackNum = channelTrackMap[channel];
Chris@148 551
Chris@148 552 // accumulatedTime is abs time of last event on any track;
Chris@148 553 // trackTimeMap[trackNum] is that of last event on this track
Chris@148 554
Chris@148 555 long gap = accumulatedTime - trackTimeMap[trackNum];
Chris@148 556 accumulatedTime += deltaTime;
Chris@148 557 deltaTime += gap;
Chris@148 558 trackTimeMap[trackNum] = accumulatedTime;
Chris@148 559
Chris@148 560 switch (eventCode & MIDI_MESSAGE_TYPE_MASK) {
Chris@148 561
Chris@148 562 case MIDI_NOTE_ON:
Chris@148 563 case MIDI_NOTE_OFF:
Chris@148 564 case MIDI_POLY_AFTERTOUCH:
Chris@148 565 case MIDI_CTRL_CHANGE:
Chris@148 566 data2 = getMIDIByte();
Chris@148 567
Chris@148 568 // create and store our event
Chris@148 569 midiEvent = new MIDIEvent(deltaTime, eventCode, data1, data2);
Chris@148 570
Chris@148 571 /*
Chris@148 572 cerr << "MIDI event for channel " << channel << " (track "
Chris@148 573 << trackNum << ")" << endl;
Chris@148 574 midiEvent->print();
Chris@148 575 */
Chris@148 576
Chris@148 577
Chris@148 578 m_midiComposition[trackNum].push_back(midiEvent);
Chris@148 579
Chris@148 580 if (midiEvent->getChannelNumber() == MIDI_PERCUSSION_CHANNEL) {
Chris@148 581 m_percussionTracks.insert(trackNum);
Chris@148 582 }
Chris@148 583
Chris@148 584 break;
Chris@148 585
Chris@148 586 case MIDI_PITCH_BEND:
Chris@148 587 data2 = getMIDIByte();
Chris@148 588
Chris@148 589 // create and store our event
Chris@148 590 midiEvent = new MIDIEvent(deltaTime, eventCode, data1, data2);
Chris@148 591 m_midiComposition[trackNum].push_back(midiEvent);
Chris@148 592 break;
Chris@148 593
Chris@148 594 case MIDI_PROG_CHANGE:
Chris@148 595 case MIDI_CHNL_AFTERTOUCH:
Chris@148 596 // create and store our event
Chris@148 597 midiEvent = new MIDIEvent(deltaTime, eventCode, data1);
Chris@148 598 m_midiComposition[trackNum].push_back(midiEvent);
Chris@148 599 break;
Chris@148 600
Chris@148 601 case MIDI_SYSTEM_EXCLUSIVE:
Chris@148 602 messageLength = getNumberFromMIDIBytes(data1);
Chris@148 603
Chris@148 604 #ifdef MIDI_DEBUG
Chris@148 605 cerr << "SysEx of " << messageLength << " bytes found" << endl;
Chris@148 606 #endif
Chris@148 607
Chris@148 608 metaMessage= getMIDIBytes(messageLength);
Chris@148 609
Chris@148 610 if (MIDIByte(metaMessage[metaMessage.length() - 1]) !=
Chris@148 611 MIDI_END_OF_EXCLUSIVE)
Chris@148 612 {
Chris@148 613 #ifdef MIDI_DEBUG
Chris@690 614 SVDEBUG << "MIDIFileReader::parseTrack() - "
Chris@148 615 << "malformed or unsupported SysEx type"
Chris@148 616 << endl;
Chris@148 617 #endif
Chris@148 618 continue;
Chris@148 619 }
Chris@148 620
Chris@148 621 // chop off the EOX
Chris@148 622 // length fixed by Pedro Lopez-Cabanillas (20030523)
Chris@148 623 //
Chris@148 624 metaMessage = metaMessage.substr(0, metaMessage.length()-1);
Chris@148 625
Chris@148 626 midiEvent = new MIDIEvent(deltaTime,
Chris@148 627 MIDI_SYSTEM_EXCLUSIVE,
Chris@148 628 metaMessage);
Chris@148 629 m_midiComposition[trackNum].push_back(midiEvent);
Chris@148 630 break;
Chris@148 631
Chris@148 632 case MIDI_END_OF_EXCLUSIVE:
Chris@148 633 #ifdef MIDI_DEBUG
Chris@690 634 SVDEBUG << "MIDIFileReader::parseTrack() - "
Chris@148 635 << "Found a stray MIDI_END_OF_EXCLUSIVE" << endl;
Chris@148 636 #endif
Chris@148 637 break;
Chris@148 638
Chris@148 639 default:
Chris@148 640 #ifdef MIDI_DEBUG
Chris@690 641 SVDEBUG << "MIDIFileReader::parseTrack()"
Chris@148 642 << " - Unsupported MIDI Event Code: "
Chris@148 643 << (int)eventCode << endl;
Chris@148 644 #endif
Chris@148 645 break;
Chris@148 646 }
Chris@148 647 }
Chris@148 648 }
Chris@148 649
Chris@148 650 if (lastTrackNum > metaTrack) {
Chris@148 651 for (unsigned int track = metaTrack + 1; track <= lastTrackNum; ++track) {
Chris@148 652 m_trackNames[track] = QString("%1 <%2>")
Chris@148 653 .arg(m_trackNames[metaTrack]).arg(track - metaTrack + 1);
Chris@148 654 }
Chris@148 655 }
Chris@148 656
Chris@148 657 return true;
Chris@148 658 }
Chris@148 659
Chris@148 660 // Delete dead NOTE OFF and NOTE ON/Zero Velocity Events after
Chris@148 661 // reading them and modifying their relevant NOTE ONs. Return true
Chris@148 662 // if there are some notes in this track.
Chris@148 663 //
Chris@148 664 bool
Chris@148 665 MIDIFileReader::consolidateNoteOffEvents(unsigned int track)
Chris@148 666 {
Chris@148 667 bool notesOnTrack = false;
Chris@148 668 bool noteOffFound;
Chris@148 669
Chris@148 670 for (MIDITrack::iterator i = m_midiComposition[track].begin();
Chris@148 671 i != m_midiComposition[track].end(); i++) {
Chris@148 672
Chris@148 673 if ((*i)->getMessageType() == MIDI_NOTE_ON && (*i)->getVelocity() > 0) {
Chris@148 674
Chris@148 675 notesOnTrack = true;
Chris@148 676 noteOffFound = false;
Chris@148 677
Chris@148 678 for (MIDITrack::iterator j = i;
Chris@148 679 j != m_midiComposition[track].end(); j++) {
Chris@148 680
Chris@148 681 if (((*j)->getChannelNumber() == (*i)->getChannelNumber()) &&
Chris@148 682 ((*j)->getPitch() == (*i)->getPitch()) &&
Chris@148 683 ((*j)->getMessageType() == MIDI_NOTE_OFF ||
Chris@148 684 ((*j)->getMessageType() == MIDI_NOTE_ON &&
Chris@148 685 (*j)->getVelocity() == 0x00))) {
Chris@148 686
Chris@148 687 (*i)->setDuration((*j)->getTime() - (*i)->getTime());
Chris@148 688
Chris@148 689 delete *j;
Chris@148 690 m_midiComposition[track].erase(j);
Chris@148 691
Chris@148 692 noteOffFound = true;
Chris@148 693 break;
Chris@148 694 }
Chris@148 695 }
Chris@148 696
Chris@148 697 // If no matching NOTE OFF has been found then set
Chris@148 698 // Event duration to length of track
Chris@148 699 //
Chris@148 700 if (!noteOffFound) {
Chris@148 701 MIDITrack::iterator j = m_midiComposition[track].end();
Chris@148 702 --j;
Chris@613 703 (*i)->setDuration((*j)->getTime() - (*i)->getTime());
Chris@148 704 }
Chris@148 705 }
Chris@148 706 }
Chris@148 707
Chris@148 708 return notesOnTrack;
Chris@148 709 }
Chris@148 710
Chris@148 711 // Add any tempo events found in the given track to the global tempo map.
Chris@148 712 //
Chris@148 713 void
Chris@148 714 MIDIFileReader::updateTempoMap(unsigned int track)
Chris@148 715 {
Chris@148 716 std::cerr << "updateTempoMap for track " << track << " (" << m_midiComposition[track].size() << " events)" << std::endl;
Chris@148 717
Chris@148 718 for (MIDITrack::iterator i = m_midiComposition[track].begin();
Chris@148 719 i != m_midiComposition[track].end(); ++i) {
Chris@148 720
Chris@148 721 if ((*i)->isMeta() &&
Chris@148 722 (*i)->getMetaEventCode() == MIDI_SET_TEMPO) {
Chris@148 723
Chris@148 724 MIDIByte m0 = (*i)->getMetaMessage()[0];
Chris@148 725 MIDIByte m1 = (*i)->getMetaMessage()[1];
Chris@148 726 MIDIByte m2 = (*i)->getMetaMessage()[2];
Chris@148 727
Chris@148 728 long tempo = (((m0 << 8) + m1) << 8) + m2;
Chris@148 729
Chris@148 730 std::cerr << "updateTempoMap: have tempo, it's " << tempo << " at " << (*i)->getTime() << std::endl;
Chris@148 731
Chris@148 732 if (tempo != 0) {
Chris@148 733 double qpm = 60000000.0 / double(tempo);
Chris@148 734 m_tempoMap[(*i)->getTime()] =
Chris@148 735 TempoChange(RealTime::zeroTime, qpm);
Chris@148 736 }
Chris@148 737 }
Chris@148 738 }
Chris@148 739 }
Chris@148 740
Chris@148 741 void
Chris@148 742 MIDIFileReader::calculateTempoTimestamps()
Chris@148 743 {
Chris@148 744 unsigned long lastMIDITime = 0;
Chris@148 745 RealTime lastRealTime = RealTime::zeroTime;
Chris@148 746 double tempo = 120.0;
Chris@148 747 int td = m_timingDivision;
Chris@148 748 if (td == 0) td = 96;
Chris@148 749
Chris@148 750 for (TempoMap::iterator i = m_tempoMap.begin(); i != m_tempoMap.end(); ++i) {
Chris@148 751
Chris@148 752 unsigned long mtime = i->first;
Chris@148 753 unsigned long melapsed = mtime - lastMIDITime;
Chris@148 754 double quarters = double(melapsed) / double(td);
Chris@148 755 double seconds = (60.0 * quarters) / tempo;
Chris@148 756
Chris@148 757 RealTime t = lastRealTime + RealTime::fromSeconds(seconds);
Chris@148 758
Chris@148 759 i->second.first = t;
Chris@148 760
Chris@148 761 lastRealTime = t;
Chris@148 762 lastMIDITime = mtime;
Chris@148 763 tempo = i->second.second;
Chris@148 764 }
Chris@148 765 }
Chris@148 766
Chris@148 767 RealTime
Chris@148 768 MIDIFileReader::getTimeForMIDITime(unsigned long midiTime) const
Chris@148 769 {
Chris@148 770 unsigned long tempoMIDITime = 0;
Chris@148 771 RealTime tempoRealTime = RealTime::zeroTime;
Chris@148 772 double tempo = 120.0;
Chris@148 773
Chris@148 774 TempoMap::const_iterator i = m_tempoMap.lower_bound(midiTime);
Chris@148 775 if (i != m_tempoMap.begin()) {
Chris@148 776 --i;
Chris@148 777 tempoMIDITime = i->first;
Chris@148 778 tempoRealTime = i->second.first;
Chris@148 779 tempo = i->second.second;
Chris@148 780 }
Chris@148 781
Chris@148 782 int td = m_timingDivision;
Chris@148 783 if (td == 0) td = 96;
Chris@148 784
Chris@148 785 unsigned long melapsed = midiTime - tempoMIDITime;
Chris@148 786 double quarters = double(melapsed) / double(td);
Chris@148 787 double seconds = (60.0 * quarters) / tempo;
Chris@148 788
Chris@148 789 /*
Chris@690 790 SVDEBUG << "MIDIFileReader::getTimeForMIDITime(" << midiTime << ")"
Chris@687 791 << endl;
Chris@690 792 SVDEBUG << "timing division = " << td << endl;
Chris@148 793 std::cerr << "nearest tempo event (of " << m_tempoMap.size() << ") is at " << tempoMIDITime << " ("
Chris@148 794 << tempoRealTime << ")" << std::endl;
Chris@148 795 std::cerr << "quarters since then = " << quarters << std::endl;
Chris@148 796 std::cerr << "tempo = " << tempo << " quarters per minute" << std::endl;
Chris@148 797 std::cerr << "seconds since then = " << seconds << std::endl;
Chris@690 798 SVDEBUG << "resulting time = " << (tempoRealTime + RealTime::fromSeconds(seconds)) << endl;
Chris@148 799 */
Chris@148 800
Chris@148 801 return tempoRealTime + RealTime::fromSeconds(seconds);
Chris@148 802 }
Chris@148 803
Chris@148 804 Model *
Chris@148 805 MIDIFileReader::load() const
Chris@148 806 {
Chris@148 807 if (!isOK()) return 0;
Chris@148 808
Chris@148 809 if (m_loadableTracks.empty()) {
Chris@392 810 if (m_acquirer) {
Chris@392 811 m_acquirer->showError
Chris@392 812 (tr("MIDI file \"%1\" has no notes in any track").arg(m_path));
Chris@392 813 }
Chris@148 814 return 0;
Chris@148 815 }
Chris@148 816
Chris@148 817 std::set<unsigned int> tracksToLoad;
Chris@148 818
Chris@148 819 if (m_loadableTracks.size() == 1) {
Chris@148 820
Chris@148 821 tracksToLoad.insert(*m_loadableTracks.begin());
Chris@148 822
Chris@148 823 } else {
Chris@148 824
Chris@392 825 QStringList displayNames;
Chris@148 826
Chris@148 827 for (set<unsigned int>::iterator i = m_loadableTracks.begin();
Chris@148 828 i != m_loadableTracks.end(); ++i) {
Chris@148 829
Chris@148 830 unsigned int trackNo = *i;
Chris@148 831 QString label;
Chris@148 832
Chris@148 833 QString perc;
Chris@148 834 if (m_percussionTracks.find(trackNo) != m_percussionTracks.end()) {
Chris@148 835 perc = tr(" - uses GM percussion channel");
Chris@148 836 }
Chris@148 837
Chris@148 838 if (m_trackNames.find(trackNo) != m_trackNames.end()) {
Chris@148 839 label = tr("Track %1 (%2)%3")
Chris@148 840 .arg(trackNo).arg(m_trackNames.find(trackNo)->second)
Chris@148 841 .arg(perc);
Chris@148 842 } else {
Chris@148 843 label = tr("Track %1 (untitled)%3").arg(trackNo).arg(perc);
Chris@148 844 }
Chris@392 845
Chris@392 846 displayNames << label;
Chris@148 847 }
Chris@148 848
Chris@392 849 QString singleTrack;
Chris@148 850
Chris@392 851 bool haveSomePercussion =
Chris@392 852 (!m_percussionTracks.empty() &&
Chris@392 853 (m_percussionTracks.size() < m_loadableTracks.size()));
Chris@148 854
Chris@392 855 MIDIFileImportPreferenceAcquirer::TrackPreference pref;
Chris@392 856
Chris@392 857 if (m_acquirer) {
Chris@392 858 pref = m_acquirer->getTrackImportPreference(displayNames,
Chris@392 859 haveSomePercussion,
Chris@392 860 singleTrack);
Chris@392 861 } else {
Chris@392 862 pref = MIDIFileImportPreferenceAcquirer::MergeAllTracks;
Chris@392 863 }
Chris@392 864
Chris@392 865 if (pref == MIDIFileImportPreferenceAcquirer::ImportNothing) return 0;
Chris@392 866
Chris@392 867 if (pref == MIDIFileImportPreferenceAcquirer::MergeAllTracks ||
Chris@392 868 pref == MIDIFileImportPreferenceAcquirer::MergeAllNonPercussionTracks) {
Chris@392 869
Chris@392 870 for (set<unsigned int>::iterator i = m_loadableTracks.begin();
Chris@392 871 i != m_loadableTracks.end(); ++i) {
Chris@392 872
Chris@392 873 if (pref == MIDIFileImportPreferenceAcquirer::MergeAllTracks ||
Chris@148 874 m_percussionTracks.find(*i) == m_percussionTracks.end()) {
Chris@392 875
Chris@148 876 tracksToLoad.insert(*i);
Chris@148 877 }
Chris@148 878 }
Chris@148 879
Chris@148 880 } else {
Chris@148 881
Chris@392 882 int j = 0;
Chris@148 883
Chris@148 884 for (set<unsigned int>::iterator i = m_loadableTracks.begin();
Chris@148 885 i != m_loadableTracks.end(); ++i) {
Chris@148 886
Chris@392 887 if (singleTrack == displayNames[j]) {
Chris@148 888 tracksToLoad.insert(*i);
Chris@148 889 break;
Chris@148 890 }
Chris@148 891
Chris@148 892 ++j;
Chris@148 893 }
Chris@148 894 }
Chris@148 895 }
Chris@148 896
Chris@148 897 if (tracksToLoad.empty()) return 0;
Chris@148 898
Chris@148 899 size_t n = tracksToLoad.size(), count = 0;
Chris@148 900 Model *model = 0;
Chris@148 901
Chris@148 902 for (std::set<unsigned int>::iterator i = tracksToLoad.begin();
Chris@148 903 i != tracksToLoad.end(); ++i) {
Chris@148 904
Chris@148 905 int minProgress = (100 * count) / n;
Chris@148 906 int progressAmount = 100 / n;
Chris@148 907
Chris@148 908 model = loadTrack(*i, model, minProgress, progressAmount);
Chris@148 909
Chris@148 910 ++count;
Chris@148 911 }
Chris@148 912
Chris@148 913 if (dynamic_cast<NoteModel *>(model)) {
Chris@148 914 dynamic_cast<NoteModel *>(model)->setCompletion(100);
Chris@148 915 }
Chris@148 916
Chris@148 917 return model;
Chris@148 918 }
Chris@148 919
Chris@148 920 Model *
Chris@148 921 MIDIFileReader::loadTrack(unsigned int trackToLoad,
Chris@148 922 Model *existingModel,
Chris@148 923 int minProgress,
Chris@148 924 int progressAmount) const
Chris@148 925 {
Chris@148 926 if (m_midiComposition.find(trackToLoad) == m_midiComposition.end()) {
Chris@148 927 return 0;
Chris@148 928 }
Chris@148 929
Chris@148 930 NoteModel *model = 0;
Chris@148 931
Chris@148 932 if (existingModel) {
Chris@148 933 model = dynamic_cast<NoteModel *>(existingModel);
Chris@148 934 if (!model) {
Chris@148 935 std::cerr << "WARNING: MIDIFileReader::loadTrack: Existing model given, but it isn't a NoteModel -- ignoring it" << std::endl;
Chris@148 936 }
Chris@148 937 }
Chris@148 938
Chris@148 939 if (!model) {
Chris@148 940 model = new NoteModel(m_mainModelSampleRate, 1, 0.0, 0.0, false);
Chris@148 941 model->setValueQuantization(1.0);
Chris@148 942 }
Chris@148 943
Chris@148 944 const MIDITrack &track = m_midiComposition.find(trackToLoad)->second;
Chris@148 945
Chris@148 946 size_t totalEvents = track.size();
Chris@148 947 size_t count = 0;
Chris@148 948
Chris@148 949 bool minorKey = false;
Chris@148 950 bool sharpKey = true;
Chris@148 951
Chris@148 952 for (MIDITrack::const_iterator i = track.begin(); i != track.end(); ++i) {
Chris@148 953
Chris@613 954 RealTime rt;
Chris@613 955 unsigned long midiTime = (*i)->getTime();
Chris@613 956
Chris@613 957 if (m_smpte) {
Chris@613 958 rt = RealTime::frame2RealTime(midiTime, m_fps * m_subframes);
Chris@613 959 } else {
Chris@613 960 rt = getTimeForMIDITime(midiTime);
Chris@613 961 }
Chris@148 962
Chris@148 963 // We ignore most of these event types for now, though in
Chris@148 964 // theory some of the text ones could usefully be incorporated
Chris@148 965
Chris@148 966 if ((*i)->isMeta()) {
Chris@148 967
Chris@148 968 switch((*i)->getMetaEventCode()) {
Chris@148 969
Chris@148 970 case MIDI_KEY_SIGNATURE:
Chris@148 971 minorKey = (int((*i)->getMetaMessage()[1]) != 0);
Chris@148 972 sharpKey = (int((*i)->getMetaMessage()[0]) >= 0);
Chris@148 973 break;
Chris@148 974
Chris@148 975 case MIDI_TEXT_EVENT:
Chris@148 976 case MIDI_LYRIC:
Chris@148 977 case MIDI_TEXT_MARKER:
Chris@148 978 case MIDI_COPYRIGHT_NOTICE:
Chris@148 979 case MIDI_TRACK_NAME:
Chris@148 980 // The text events that we could potentially use
Chris@148 981 break;
Chris@148 982
Chris@148 983 case MIDI_SET_TEMPO:
Chris@148 984 // Already dealt with in a separate pass previously
Chris@148 985 break;
Chris@148 986
Chris@148 987 case MIDI_TIME_SIGNATURE:
Chris@148 988 // Not yet!
Chris@148 989 break;
Chris@148 990
Chris@148 991 case MIDI_SEQUENCE_NUMBER:
Chris@148 992 case MIDI_CHANNEL_PREFIX_OR_PORT:
Chris@148 993 case MIDI_INSTRUMENT_NAME:
Chris@148 994 case MIDI_CUE_POINT:
Chris@148 995 case MIDI_CHANNEL_PREFIX:
Chris@148 996 case MIDI_SEQUENCER_SPECIFIC:
Chris@148 997 case MIDI_SMPTE_OFFSET:
Chris@148 998 default:
Chris@148 999 break;
Chris@148 1000 }
Chris@148 1001
Chris@148 1002 } else {
Chris@148 1003
Chris@148 1004 switch ((*i)->getMessageType()) {
Chris@148 1005
Chris@148 1006 case MIDI_NOTE_ON:
Chris@148 1007
Chris@148 1008 if ((*i)->getVelocity() == 0) break; // effective note-off
Chris@148 1009 else {
Chris@613 1010 RealTime endRT;
Chris@613 1011 unsigned long endMidiTime = (*i)->getTime() + (*i)->getDuration();
Chris@613 1012 if (m_smpte) {
Chris@613 1013 endRT = RealTime::frame2RealTime(endMidiTime, m_fps * m_subframes);
Chris@613 1014 } else {
Chris@613 1015 endRT = getTimeForMIDITime(endMidiTime);
Chris@613 1016 }
Chris@148 1017
Chris@148 1018 long startFrame = RealTime::realTime2Frame
Chris@148 1019 (rt, model->getSampleRate());
Chris@148 1020
Chris@148 1021 long endFrame = RealTime::realTime2Frame
Chris@148 1022 (endRT, model->getSampleRate());
Chris@148 1023
Chris@148 1024 QString pitchLabel = Pitch::getPitchLabel((*i)->getPitch(),
Chris@148 1025 0,
Chris@148 1026 !sharpKey);
Chris@148 1027
Chris@148 1028 QString noteLabel = tr("%1 - vel %2")
Chris@148 1029 .arg(pitchLabel).arg(int((*i)->getVelocity()));
Chris@148 1030
Chris@340 1031 float level = float((*i)->getVelocity()) / 128.f;
Chris@340 1032
Chris@148 1033 Note note(startFrame, (*i)->getPitch(),
Chris@340 1034 endFrame - startFrame, level, noteLabel);
Chris@148 1035
Chris@690 1036 // SVDEBUG << "Adding note " << startFrame << "," << (endFrame-startFrame) << " : " << int((*i)->getPitch()) << endl;
Chris@148 1037
Chris@148 1038 model->addPoint(note);
Chris@148 1039 break;
Chris@148 1040 }
Chris@148 1041
Chris@148 1042 case MIDI_PITCH_BEND:
Chris@148 1043 // I guess we could make some use of this...
Chris@148 1044 break;
Chris@148 1045
Chris@148 1046 case MIDI_NOTE_OFF:
Chris@148 1047 case MIDI_PROG_CHANGE:
Chris@148 1048 case MIDI_CTRL_CHANGE:
Chris@148 1049 case MIDI_SYSTEM_EXCLUSIVE:
Chris@148 1050 case MIDI_POLY_AFTERTOUCH:
Chris@148 1051 case MIDI_CHNL_AFTERTOUCH:
Chris@148 1052 break;
Chris@148 1053
Chris@148 1054 default:
Chris@148 1055 break;
Chris@148 1056 }
Chris@148 1057 }
Chris@148 1058
Chris@148 1059 model->setCompletion(minProgress +
Chris@148 1060 (count * progressAmount) / totalEvents);
Chris@148 1061 ++count;
Chris@148 1062 }
Chris@148 1063
Chris@148 1064 return model;
Chris@148 1065 }
Chris@148 1066
Chris@148 1067