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annotate Source/TouchKeys/MidiInputController.cpp @ 56:b4a2d2ae43cf tip

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author Andrew McPherson <andrewm@eecs.qmul.ac.uk>
date Fri, 23 Nov 2018 15:48:14 +0000
parents 90ce403d0dc5
children
rev   line source
andrewm@0 1 /*
andrewm@0 2 TouchKeys: multi-touch musical keyboard control software
andrewm@0 3 Copyright (c) 2013 Andrew McPherson
andrewm@0 4
andrewm@0 5 This program is free software: you can redistribute it and/or modify
andrewm@0 6 it under the terms of the GNU General Public License as published by
andrewm@0 7 the Free Software Foundation, either version 3 of the License, or
andrewm@0 8 (at your option) any later version.
andrewm@0 9
andrewm@0 10 This program is distributed in the hope that it will be useful,
andrewm@0 11 but WITHOUT ANY WARRANTY; without even the implied warranty of
andrewm@0 12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
andrewm@0 13 GNU General Public License for more details.
andrewm@0 14
andrewm@0 15 You should have received a copy of the GNU General Public License
andrewm@0 16 along with this program. If not, see <http://www.gnu.org/licenses/>.
andrewm@0 17
andrewm@0 18 =====================================================================
andrewm@0 19
andrewm@0 20 MidiInputController.cpp: handles incoming MIDI data and manages input
andrewm@0 21 ports. Detailed processing is broken down by keyboard segment; see
andrewm@0 22 MidiKeyboardSegment.h/cpp for more.
andrewm@0 23 */
andrewm@0 24
andrewm@0 25
andrewm@0 26 #include "MidiInputController.h"
andrewm@0 27 #include "MidiOutputController.h"
andrewm@0 28 #include "../Mappings/MappingFactory.h"
andrewm@0 29
andrewm@33 30 #undef DEBUG_MIDI_INPUT_CONTROLLER
andrewm@0 31 #undef MIDI_INPUT_CONTROLLER_DEBUG_RAW
andrewm@0 32
andrewm@0 33 // Constructor
andrewm@0 34
andrewm@0 35 MidiInputController::MidiInputController(PianoKeyboard& keyboard)
andrewm@31 36 : keyboard_(keyboard), midiOutputController_(0), primaryActivePort_(-1),
andrewm@31 37 segmentUniqueIdentifier_(0)
andrewm@0 38 {
andrewm@0 39 logFileCreated = false;
andrewm@0 40 loggingActive = false;
andrewm@0 41
andrewm@0 42 }
andrewm@0 43
andrewm@0 44 void MidiInputController::setMidiOutputController(MidiOutputController* ct) {
andrewm@0 45 midiOutputController_ = ct;
andrewm@0 46
andrewm@0 47 // Propagate the change to the keyboard segments
andrewm@0 48 ScopedLock sl(segmentsMutex_);
andrewm@0 49 for(int i = 0; i < segments_.size(); i++) {
andrewm@0 50 segments_[i]->setMidiOutputController(ct);
andrewm@0 51 }
andrewm@0 52 }
andrewm@0 53
andrewm@0 54 // ------------------------------------------------------
andrewm@0 55 // create a new MIDI log file, ready to have data written to it
andrewm@0 56 void MidiInputController::createLogFile(string midiLog_filename, string path)
andrewm@0 57 {
andrewm@0 58 // indicate that we have created a log file (so we can close it later)
andrewm@0 59 logFileCreated = true;
andrewm@0 60
andrewm@0 61 if (path.compare("") != 0)
andrewm@0 62 {
andrewm@0 63 path = path + "/";
andrewm@0 64 }
andrewm@0 65
andrewm@0 66 midiLog_filename = path + midiLog_filename;
andrewm@0 67
andrewm@0 68 char *fileName = (char*)midiLog_filename.c_str();
andrewm@0 69
andrewm@0 70 // create output file
andrewm@0 71 midiLog.open (fileName, ios::out | ios::binary);
andrewm@0 72 midiLog.seekp(0);
andrewm@0 73 }
andrewm@0 74
andrewm@0 75 // ------------------------------------------------------
andrewm@0 76 // close the existing log file
andrewm@0 77 void MidiInputController::closeLogFile()
andrewm@0 78 {
andrewm@0 79 if (logFileCreated)
andrewm@0 80 {
andrewm@0 81 midiLog.close();
andrewm@0 82 logFileCreated = false;
andrewm@0 83 }
andrewm@0 84 }
andrewm@0 85
andrewm@0 86 // ------------------------------------------------------
andrewm@0 87 // start logging midi data
andrewm@0 88 void MidiInputController::startLogging()
andrewm@0 89 {
andrewm@0 90 loggingActive = true;
andrewm@0 91 }
andrewm@0 92
andrewm@0 93 // ------------------------------------------------------
andrewm@0 94 // stop logging midi data
andrewm@0 95 void MidiInputController::stopLogging()
andrewm@0 96 {
andrewm@0 97 loggingActive = false;
andrewm@0 98 }
andrewm@0 99
andrewm@0 100 // Iterate through the available MIDI devices. Return a vector containing
andrewm@0 101 // indices and names for each device. The index will later be passed back
andrewm@0 102 // to indicate which device to open.
andrewm@0 103
andrewm@0 104 vector<pair<int, string> > MidiInputController::availableMidiDevices() {
andrewm@0 105 vector<pair<int, string> > deviceList;
andrewm@0 106
andrewm@0 107 try {
andrewm@0 108 StringArray deviceStrings = MidiInput::getDevices();
andrewm@0 109
andrewm@0 110 for(int i = 0; i < deviceStrings.size(); i++) {
andrewm@0 111 pair<int, string> p(i, string(deviceStrings[i].toUTF8()));
andrewm@0 112 deviceList.push_back(p);
andrewm@0 113 }
andrewm@0 114 }
andrewm@0 115 catch(...) {
andrewm@0 116 deviceList.clear();
andrewm@0 117 }
andrewm@0 118
andrewm@0 119 return deviceList;
andrewm@0 120 }
andrewm@0 121
andrewm@0 122 // Enable a new MIDI port according to its index (returned from availableMidiDevices())
andrewm@0 123 // Returns true on success.
andrewm@0 124
andrewm@31 125 bool MidiInputController::enablePort(int portNumber, bool isPrimary) {
andrewm@0 126 if(portNumber < 0)
andrewm@0 127 return false;
andrewm@31 128 // If this is already the primary port, nothing to do
andrewm@31 129 if(isPrimary && primaryActivePort_ == portNumber)
andrewm@31 130 return true;
andrewm@31 131
andrewm@31 132 // If this port is active already but we are not making it primary,
andrewm@31 133 // then fail: can't override primary with aux
andrewm@31 134 if(!isPrimary)
andrewm@31 135 if(activePorts_.count(portNumber) > 0)
andrewm@31 136 return false;
andrewm@0 137
andrewm@31 138 // If there is already a (different) primary active port, disable it
andrewm@31 139 if(isPrimary && primaryActivePort_ >= 0 && activePorts_.count(primaryActivePort_) > 0)
andrewm@31 140 disablePort(primaryActivePort_);
andrewm@31 141
andrewm@31 142 // Enable the port if it hasn't been already
andrewm@31 143 if(activePorts_.count(portNumber) == 0) {
andrewm@31 144 MidiInput *device = MidiInput::openDevice(portNumber, this);
andrewm@31 145
andrewm@31 146 if(device == 0) {
andrewm@31 147 #ifdef DEBUG_MIDI_INPUT_CONTROLLER
andrewm@31 148 cout << "Failed to enable MIDI input port " << portNumber << ")\n";
andrewm@31 149 #endif
andrewm@31 150 return false;
andrewm@31 151 }
andrewm@0 152
andrewm@31 153
andrewm@31 154 #ifdef DEBUG_MIDI_INPUT_CONTROLLER
andrewm@31 155 cout << "Enabling MIDI input port " << portNumber << " (" << device->getName() << ")\n";
andrewm@31 156 #endif
andrewm@31 157 device->start();
andrewm@31 158
andrewm@31 159 // Save the device in the set of ports
andrewm@31 160 activePorts_[portNumber] = device;
andrewm@31 161 }
andrewm@31 162 else {
andrewm@31 163 #ifdef DEBUG_MIDI_INPUT_CONTROLLER
andrewm@31 164 cout << "MIDI input port " << portNumber << " already enabled\n";
andrewm@31 165 #endif
andrewm@0 166 }
andrewm@0 167
andrewm@31 168 if(isPrimary)
andrewm@31 169 primaryActivePort_ = portNumber;
andrewm@31 170
andrewm@0 171 return true;
andrewm@0 172 }
andrewm@0 173
andrewm@0 174 // Enable all current MIDI ports
andrewm@0 175
andrewm@31 176 bool MidiInputController::enableAllPorts(int primaryPortNumber) {
andrewm@0 177 bool enabledPort = false;
andrewm@0 178 vector<pair<int, string> > ports = availableMidiDevices();
andrewm@0 179 vector<pair<int, string> >::iterator it = ports.begin();
andrewm@0 180
andrewm@31 181 #ifdef DEBUG_MIDI_INPUT_CONTROLLER
andrewm@31 182 cout << "Enabling all MIDI input ports\n";
andrewm@31 183 #endif
andrewm@31 184
andrewm@0 185 while(it != ports.end()) {
andrewm@0 186 // Don't enable MIDI input from our own virtual output
andrewm@0 187 if(it->second != string(kMidiVirtualOutputName.toUTF8()))
andrewm@31 188 enabledPort |= enablePort((it++)->first, it->first == primaryPortNumber);
andrewm@0 189 else
andrewm@0 190 it++;
andrewm@0 191 }
andrewm@0 192
andrewm@0 193 return enabledPort;
andrewm@0 194 }
andrewm@0 195
andrewm@0 196 // Remove a specific MIDI input source and free associated memory
andrewm@0 197
andrewm@0 198 void MidiInputController::disablePort(int portNumber) {
andrewm@0 199 if(activePorts_.count(portNumber) <= 0)
andrewm@0 200 return;
andrewm@0 201
andrewm@0 202 MidiInput *device = activePorts_[portNumber];
andrewm@0 203
andrewm@0 204 if(device == 0)
andrewm@0 205 return;
andrewm@0 206
andrewm@31 207 #ifdef DEBUG_MIDI_INPUT_CONTROLLER
andrewm@31 208 cout << "Disabling MIDI input port " << portNumber << " (" << device->getName() << ")\n";
andrewm@31 209 #endif
andrewm@31 210
andrewm@0 211 device->stop();
andrewm@0 212 delete device;
andrewm@0 213
andrewm@0 214 activePorts_.erase(portNumber);
andrewm@31 215 if(primaryActivePort_ == portNumber)
andrewm@31 216 primaryActivePort_ = -1;
andrewm@31 217 }
andrewm@31 218
andrewm@31 219 // Remove the primary MIDI input source
andrewm@31 220
andrewm@31 221 void MidiInputController::disablePrimaryPort() {
andrewm@31 222 if(primaryActivePort_ < 0)
andrewm@31 223 return;
andrewm@31 224 disablePort(primaryActivePort_);
andrewm@0 225 }
andrewm@0 226
andrewm@0 227 // Remove all MIDI input sources and free associated memory
andrewm@0 228
andrewm@31 229 void MidiInputController::disableAllPorts(bool auxiliaryOnly) {
andrewm@0 230 map<int, MidiInput*>::iterator it;
andrewm@31 231 MidiInput* primaryPort = 0;
andrewm@0 232
andrewm@31 233 #ifdef DEBUG_MIDI_INPUT_CONTROLLER
andrewm@31 234 cout << "Disabling all MIDI input ports\n";
andrewm@31 235 #endif
andrewm@31 236
andrewm@0 237 it = activePorts_.begin();
andrewm@0 238
andrewm@0 239 while(it != activePorts_.end()) {
andrewm@0 240 if(it->second == 0) {
andrewm@0 241 it++;
andrewm@0 242 continue;
andrewm@0 243 }
andrewm@31 244
andrewm@31 245 // Save primary port?
andrewm@31 246 if(it->first == primaryActivePort_ && auxiliaryOnly)
andrewm@31 247 primaryPort = it->second;
andrewm@31 248 else {
andrewm@31 249 it->second->stop(); // disable port
andrewm@31 250 delete it->second; // free MidiInputCallback
andrewm@31 251 }
andrewm@0 252 it++;
andrewm@0 253 }
andrewm@0 254
andrewm@31 255 // Clear all ports including primary
andrewm@31 256 activePorts_.clear();
andrewm@31 257
andrewm@31 258 // But did we save the priamry port?
andrewm@31 259 if(auxiliaryOnly && primaryPort != 0) {
andrewm@31 260 // Re-insert primary only
andrewm@31 261 activePorts_[primaryActivePort_] = primaryPort;
andrewm@31 262 }
andrewm@31 263 else
andrewm@31 264 primaryActivePort_ = -1;
andrewm@0 265 }
andrewm@0 266
andrewm@31 267 // Return the primary active port corresponding to the TK keyboard
andrewm@0 268
andrewm@31 269 int MidiInputController::primaryActivePort() {
andrewm@31 270 return primaryActivePort_;
andrewm@31 271 }
andrewm@31 272
andrewm@31 273 // Return a list of active ports other than the primary
andrewm@31 274
andrewm@31 275 vector<int> MidiInputController::auxiliaryActivePorts() {
andrewm@0 276 vector<int> ports;
andrewm@0 277
andrewm@0 278 map<int, MidiInput*>::iterator it;
andrewm@0 279
andrewm@0 280 for(it = activePorts_.begin(); it != activePorts_.end(); ++it) {
andrewm@31 281 if(it->first == primaryActivePort_)
andrewm@31 282 continue;
andrewm@0 283 ports.push_back(it->first);
andrewm@0 284 }
andrewm@0 285
andrewm@0 286 return ports;
andrewm@0 287 }
andrewm@0 288
andrewm@41 289 // Get the name of a particular MIDI input port
andrewm@41 290 String MidiInputController::deviceName(int portNumber) {
andrewm@41 291 StringArray const& deviceStrings = MidiInput::getDevices();
andrewm@41 292 if(portNumber < 0 || portNumber >= deviceStrings.size())
andrewm@41 293 return "";
andrewm@41 294 return deviceStrings[portNumber];
andrewm@41 295 }
andrewm@41 296
andrewm@41 297 // Find the index of a device with a given name; return -1 if not found
andrewm@41 298 int MidiInputController::indexOfDeviceNamed(String const& name) {
andrewm@41 299 StringArray const& deviceStrings = MidiInput::getDevices();
andrewm@41 300
andrewm@41 301 for(int i = 0; i < deviceStrings.size(); i++) {
andrewm@41 302 if(name == deviceStrings[i])
andrewm@41 303 return i;
andrewm@41 304 }
andrewm@41 305
andrewm@41 306 return -1;
andrewm@41 307 }
andrewm@41 308
andrewm@0 309 // Add a new keyboard segment. Returns a pointer to the newly created segment
andrewm@0 310 MidiKeyboardSegment* MidiInputController::addSegment(int outputPortNumber,
andrewm@0 311 int noteMin, int noteMax,
andrewm@0 312 int channelMask) {
andrewm@0 313 ScopedLock sl(segmentsMutex_);
andrewm@0 314
andrewm@0 315 // Create a new segment and populate its values
andrewm@0 316 MidiKeyboardSegment *segment = new MidiKeyboardSegment(keyboard_);
andrewm@0 317
andrewm@0 318 segment->setMidiOutputController(midiOutputController_);
andrewm@0 319 segment->setOutputPort(outputPortNumber);
andrewm@0 320 segment->setNoteRange(noteMin, noteMax);
andrewm@0 321 segment->setChannelMask(channelMask);
andrewm@0 322
andrewm@0 323 // Add the segment to the vector and return the pointer
andrewm@0 324 segments_.push_back(segment);
andrewm@0 325 segmentUniqueIdentifier_++;
andrewm@0 326 return segment;
andrewm@0 327 }
andrewm@0 328
andrewm@49 329 // Remove a segment by index or by object. Returns true if segment existed
andrewm@49 330 bool MidiInputController::removeSegment(int index) {
andrewm@0 331 ScopedLock sl(segmentsMutex_);
andrewm@0 332
andrewm@0 333 if(index < 0 || index >= segments_.size())
andrewm@49 334 return false;
andrewm@0 335
andrewm@0 336 MidiKeyboardSegment* segment = segments_[index];
andrewm@0 337 delete segment;
andrewm@0 338 segments_.erase(segments_.begin() + index);
andrewm@0 339 segmentUniqueIdentifier_++;
andrewm@49 340 return true;
andrewm@0 341 }
andrewm@0 342
andrewm@49 343 bool MidiInputController::removeSegment(MidiKeyboardSegment* segment) {
andrewm@0 344 ScopedLock sl(segmentsMutex_);
andrewm@49 345 bool found = false;
andrewm@0 346
andrewm@0 347 for(int i = 0; i < segments_.size(); i++) {
andrewm@0 348 if(segments_[i] == segment) {
andrewm@0 349 delete segment;
andrewm@0 350 segments_.erase(segments_.begin() + i);
andrewm@49 351 found = true;
andrewm@0 352 break;
andrewm@0 353 }
andrewm@0 354 }
andrewm@0 355 segmentUniqueIdentifier_++;
andrewm@49 356 return found;
andrewm@0 357 }
andrewm@0 358
andrewm@0 359 void MidiInputController::removeAllSegments() {
andrewm@0 360 ScopedLock sl(segmentsMutex_);
andrewm@0 361
andrewm@0 362 for(int i = 0; i < segments_.size(); i++)
andrewm@0 363 delete segments_[i];
andrewm@0 364 segments_.clear();
andrewm@0 365 segmentUniqueIdentifier_++;
andrewm@0 366 }
andrewm@0 367
andrewm@0 368 // Disable any currently active notes
andrewm@0 369
andrewm@0 370 void MidiInputController::allNotesOff() {
andrewm@0 371 ScopedLock sl(segmentsMutex_);
andrewm@0 372
andrewm@0 373 for(int i = 0; i < segments_.size(); i++)
andrewm@0 374 segments_[i]->allNotesOff();
andrewm@0 375 }
andrewm@0 376
andrewm@33 377 // Return the current preset as an XmlElement, suitable for
andrewm@33 378 // saving to file. This element will need to be deleted when finished
andrewm@33 379
andrewm@33 380 XmlElement* MidiInputController::getSegmentPreset() {
andrewm@33 381 ScopedLock sl(segmentsMutex_);
andrewm@33 382 XmlElement* controllerElement = new XmlElement("KeyboardSegments");
andrewm@33 383
andrewm@33 384 // Add settings for each zone to the element
andrewm@33 385 for(int i = 0; i < segments_.size(); i++) {
andrewm@33 386 XmlElement* segmentElement = segments_[i]->getPreset();
andrewm@33 387 controllerElement->addChildElement(segmentElement);
andrewm@33 388 }
andrewm@33 389
andrewm@33 390 // Return the element
andrewm@33 391 return controllerElement;
andrewm@33 392 }
andrewm@33 393
andrewm@33 394 // Load keyboard segments from a preset; returns true on success
andrewm@33 395
andrewm@33 396 bool MidiInputController::loadSegmentPreset(XmlElement const* preset) {
andrewm@33 397 ScopedLock sl(segmentsMutex_);
andrewm@33 398
andrewm@33 399 for(int i = 0; i < segments_.size(); i++)
andrewm@33 400 delete segments_[i];
andrewm@33 401 segments_.clear();
andrewm@33 402
andrewm@33 403 XmlElement *element = preset->getChildByName("Segment");
andrewm@33 404 while(element != 0) {
andrewm@33 405 // Create a new segment and populate its values
andrewm@33 406 MidiKeyboardSegment *segment = new MidiKeyboardSegment(keyboard_);
andrewm@33 407 segment->setMidiOutputController(midiOutputController_);
andrewm@33 408
andrewm@33 409 // Load settings for this particular segment
andrewm@33 410 if(!segment->loadPreset(element)) {
andrewm@33 411 delete segment;
andrewm@33 412 for(int i = 0; i < segments_.size(); i++)
andrewm@33 413 delete segments_[i];
andrewm@33 414 segments_.clear();
andrewm@33 415 return false;
andrewm@33 416 }
andrewm@33 417
andrewm@33 418 segments_.push_back(segment);
andrewm@33 419 element = element->getNextElementWithTagName("Segment");
andrewm@33 420 }
andrewm@33 421
andrewm@33 422 segmentUniqueIdentifier_++;
andrewm@33 423 return true;
andrewm@33 424 }
andrewm@33 425
andrewm@49 426 // OSC handling for keyboard segments
andrewm@49 427 OscMessage* MidiInputController::oscControlMessageForSegment(int segment, const char *path, const char *types,
andrewm@49 428 int numValues, lo_arg **values, void *data) {
andrewm@49 429 ScopedLock sl(segmentsMutex_);
andrewm@49 430 if(segment < 0 || segment >= segments_.size())
andrewm@49 431 return 0;
andrewm@49 432
andrewm@49 433 return segments_[segment]->oscControlMethod(path, types, numValues, values, data);
andrewm@49 434 }
andrewm@49 435
andrewm@0 436 // This gets called every time MIDI data becomes available on any input controller. source tells
andrewm@0 437 // us where the message came from, and may be 0 if being called internally.
andrewm@0 438
andrewm@0 439 void MidiInputController::handleIncomingMidiMessage(MidiInput* source, const MidiMessage& message)
andrewm@0 440 //void MidiInputController::rtMidiCallback(double deltaTime, vector<unsigned char> *message, int inputNumber)
andrewm@0 441 {
andrewm@0 442 // Juce will give us one MIDI command per callback, which makes processing easier for us.
andrewm@0 443
andrewm@0 444 // Ignore sysex messages for now
andrewm@0 445 if(message.isSysEx())
andrewm@0 446 return;
andrewm@0 447
andrewm@0 448 // Pull out the raw bytes
andrewm@0 449 int dataSize = message.getRawDataSize();
andrewm@0 450 if(dataSize <= 0)
andrewm@0 451 return;
andrewm@0 452 const unsigned char *messageData = message.getRawData();
andrewm@0 453
andrewm@0 454 // if logging is active
andrewm@0 455 if (loggingActive)
andrewm@0 456 {
andrewm@0 457 ////////////////////////////////////////////////////////
andrewm@0 458 ////////////////////////////////////////////////////////
andrewm@0 459 //////////////////// BEGIN LOGGING /////////////////////
andrewm@0 460
andrewm@0 461 int midi_channel = (int)(messageData[0]);
andrewm@0 462 int midi_number = dataSize > 1 ? (int)(messageData[1]) : 0;
andrewm@0 463 int midi_velocity = dataSize > 2 ? (int)(messageData[2]) : 0;
andrewm@0 464 timestamp_type timestamp = keyboard_.schedulerCurrentTimestamp();
andrewm@0 465
andrewm@0 466 midiLog.write ((char*)&timestamp, sizeof (timestamp_type));
andrewm@0 467 midiLog.write ((char*)&midi_channel, sizeof (int));
andrewm@0 468 midiLog.write ((char*)&midi_number, sizeof (int));
andrewm@0 469 midiLog.write ((char*)&midi_velocity, sizeof (int));
andrewm@0 470
andrewm@0 471 ///////////////////// END LOGGING //////////////////////
andrewm@0 472 ////////////////////////////////////////////////////////
andrewm@0 473 ////////////////////////////////////////////////////////
andrewm@0 474 }
andrewm@0 475
andrewm@0 476 #ifdef MIDI_INPUT_CONTROLLER_DEBUG_RAW
andrewm@0 477 if(source == 0)
andrewm@0 478 cout << "MIDI Input [internal]: ";
andrewm@0 479 else
andrewm@0 480 cout << "MIDI Input [" << source->getName() << "]: ";
andrewm@0 481 for(int debugPrint = 0; debugPrint < dataSize; debugPrint++)
andrewm@0 482 printf("%x ", messageData[debugPrint]);
andrewm@0 483 cout << endl;
andrewm@0 484 #endif /* MIDI_INPUT_CONTROLLER_DEBUG_RAW */
andrewm@0 485
andrewm@0 486 ScopedLock ksl(keyboard_.performanceDataMutex_);
andrewm@0 487 ScopedLock sl(segmentsMutex_);
andrewm@0 488 for(int i = 0; i < segments_.size(); i++) {
andrewm@0 489 if(segments_[i]->respondsToMessage(message))
andrewm@0 490 segments_[i]->midiHandlerMethod(source, message);
andrewm@0 491 }
andrewm@0 492 }
andrewm@0 493
andrewm@0 494 // Destructor. Free any existing callbacks
andrewm@0 495 MidiInputController::~MidiInputController() {
andrewm@0 496 if(logFileCreated) {
andrewm@0 497 midiLog.close();
andrewm@0 498 }
andrewm@31 499 disableAllPorts(false);
andrewm@0 500 removeAllSegments();
andrewm@0 501 }