touchkeys: Source/TouchKeys/OscMidiConverter.cpp annotate

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

merge

author	Andrew McPherson <andrewm@eecs.qmul.ac.uk>
date	Fri, 23 Nov 2018 15:48:14 +0000
parents	73576f49ad1c
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 OscMidiConverter.cpp: converts incoming OSC messages to outgoing MIDI
andrewm@0	21 messages with adjustable ranges and parameters.
andrewm@0	22 */
andrewm@0	23 #include "OscMidiConverter.h"
andrewm@0	24 #include "MidiKeyboardSegment.h"
andrewm@0	25
andrewm@44	26 #undef DEBUG_OSC_MIDI_CONVERTER
andrewm@0	27
andrewm@0	28 // Main constructor: set up OSC reception from the keyboard
andrewm@0	29 OscMidiConverter::OscMidiConverter(PianoKeyboard& keyboard, MidiKeyboardSegment& segment, int controllerId) :
andrewm@0	30 keyboard_(keyboard), keyboardSegment_(segment), midiOutputController_(0),
andrewm@0	31 controller_(controllerId), lastUniqueId_(0),
andrewm@7	32 incomingController_(MidiKeyboardSegment::kControlDisabled)
andrewm@0	33 {
andrewm@0	34 setOscController(&keyboard_);
andrewm@0	35
andrewm@0	36 for(int i = 0; i < 16; i++) {
andrewm@0	37 currentValue_[i] = 0;
andrewm@0	38 lastOutputValue_[i] = -1;
andrewm@0	39 }
andrewm@0	40 }
andrewm@0	41
andrewm@0	42 // Set the type of MIDI message (CC, Pitch Wheel, Aftertouch)
andrewm@0	43 // that this particular object is in charge of controlling.
andrewm@0	44 // Optionally specify the default, range, and whether to use a
andrewm@0	45 // 14 bit controller.
andrewm@0	46 void OscMidiConverter::setMidiMessageType(int defaultValue, int minValue,
andrewm@0	47 int maxValue, int centerValue, bool use14BitControl) {
andrewm@0	48 /*if(controller < 0 \|\| controller >= MidiKeyboardSegment::kControlMax) {
andrewm@0	49 controller_ = MidiKeyboardSegment::kControlDisabled;
andrewm@0	50 return;
andrewm@0	51 }
andrewm@0	52
andrewm@0	53 keyboardSegment_ = segment;*/
andrewm@0	54
andrewm@0	55 // Otherwise, send defaults on the current controller to all channels and update to the new values
andrewm@0	56 //for(int i = 0; i < 16; i++)
andrewm@0	57 // sendDefaultValue(i);
andrewm@0	58
andrewm@0	59 // Clear any existing active inputs, but not the mappings themselves
andrewm@0	60 lastValues_.clear();
andrewm@0	61
andrewm@0	62 //controller_ = controller;
andrewm@0	63 if(defaultValue >= 0)
andrewm@0	64 controlDefaultValue_ = defaultValue;
andrewm@0	65 else {
andrewm@0	66 // Default value for MIDI CCs and aftertouch is 0
andrewm@0	67 // Default value for MIDI pitch wheel is 8192
andrewm@0	68 if(controller_ == MidiKeyboardSegment::kControlPitchWheel)
andrewm@0	69 controlDefaultValue_ = 8192;
andrewm@0	70 else
andrewm@0	71 controlDefaultValue_ = 0;
andrewm@0	72 }
andrewm@0	73
andrewm@0	74 if(centerValue >= 0)
andrewm@0	75 controlCenterValue_ = centerValue;
andrewm@43	76 else {
andrewm@43	77 // Set center value with same procedure as default value
andrewm@43	78 if(controller_ == MidiKeyboardSegment::kControlPitchWheel)
andrewm@43	79 controlCenterValue_ = 8192;
andrewm@43	80 else
andrewm@43	81 controlCenterValue_ = 0;
andrewm@43	82 }
andrewm@0	83
andrewm@0	84 // Pitch wheel is always 14 bit. Aftertouch is always 7 bit.
andrewm@0	85 // Other CCs are selectable (though according to MIDI spec not every
andrewm@0	86 // controller has an LSB defined). And above 96 using "control+32"
andrewm@0	87 // for fine adjust no longer makes sense
andrewm@0	88 if(controller_ < 96)
andrewm@0	89 controllerIs14Bit_ = use14BitControl;
andrewm@0	90 else if(controller_ == MidiKeyboardSegment::kControlPitchWheel)
andrewm@0	91 controllerIs14Bit_ = true;
andrewm@0	92 else
andrewm@0	93 controllerIs14Bit_ = false;
andrewm@0	94
andrewm@0	95 // Handle the outer ranges of the control, providing defaults if unspecified
andrewm@0	96 if(controllerIs14Bit_) {
andrewm@0	97 if(maxValue < 0 \|\| maxValue > 16383)
andrewm@0	98 controlMaxValue_ = 16383;
andrewm@0	99 else
andrewm@0	100 controlMaxValue_ = maxValue;
andrewm@0	101 if(minValue < 0 \|\| minValue > 16383)
andrewm@0	102 controlMinValue_ = 0;
andrewm@0	103 else
andrewm@0	104 controlMinValue_ = minValue;
andrewm@0	105 }
andrewm@0	106 else {
andrewm@0	107 if(maxValue < 0 \|\| maxValue > 127)
andrewm@0	108 controlMaxValue_ = 127;
andrewm@0	109 else
andrewm@0	110 controlMaxValue_ = maxValue;
andrewm@0	111 if(minValue < 0 \|\| minValue > 127)
andrewm@0	112 controlMinValue_ = 0;
andrewm@0	113 else
andrewm@0	114 controlMinValue_ = minValue;
andrewm@0	115 }
andrewm@0	116 }
andrewm@0	117
andrewm@0	118 void OscMidiConverter::listenToIncomingControl(int controller, int centerValue, bool use14BitControl) {
andrewm@0	119 if(controller < 0 \|\| controller >= MidiKeyboardSegment::kControlMax) {
andrewm@0	120 incomingController_ = MidiKeyboardSegment::kControlDisabled;
andrewm@0	121 return;
andrewm@0	122 }
andrewm@0	123
andrewm@0	124 incomingController_ = controller;
andrewm@0	125
andrewm@0	126 // Assign the center value that will be subtacted from the incoming controller
andrewm@0	127 if(centerValue >= 0)
andrewm@0	128 incomingControllerCenterValue_ = centerValue;
andrewm@0	129 else if(controller == MidiKeyboardSegment::kControlPitchWheel)
andrewm@0	130 incomingControllerCenterValue_ = 8192; // Pitch wheel is centered at 8192
andrewm@0	131 else
andrewm@0	132 incomingControllerCenterValue_ = 0;
andrewm@0	133
andrewm@0	134 // Pitch wheel is always 14 bit. Aftertouch is always 7 bit.
andrewm@0	135 // Other CCs are selectable (though according to MIDI spec not every
andrewm@0	136 // controller has an LSB defined). And above 96 using "control+32"
andrewm@0	137 // for fine adjust no longer makes sense
andrewm@0	138 if(controller < 96)
andrewm@0	139 incomingControllerIs14Bit_ = use14BitControl;
andrewm@0	140 else if(controller == MidiKeyboardSegment::kControlPitchWheel)
andrewm@0	141 incomingControllerIs14Bit_ = true;
andrewm@0	142 else
andrewm@0	143 incomingControllerIs14Bit_ = false;
andrewm@0	144 }
andrewm@0	145
andrewm@0	146 // Resend the most recent value
andrewm@0	147 void OscMidiConverter::resend(int channel) {
andrewm@0	148 sendCurrentValue(keyboardSegment_.outputPort(), channel, -1, true);
andrewm@0	149 }
andrewm@0	150
andrewm@0	151 // Send the default value on the specified channel.
andrewm@0	152 void OscMidiConverter::sendDefaultValue(int channel) {
andrewm@0	153 if(midiOutputController_ == 0 \|\| controller_ == MidiKeyboardSegment::kControlDisabled)
andrewm@0	154 return;
andrewm@0	155
andrewm@0	156 // Modulate the default value by the value of the incoming controller,
andrewm@0	157 // if one is enabled.
andrewm@0	158 int defaultValue = controlDefaultValue_;
andrewm@0	159 if(incomingController_ != MidiKeyboardSegment::kControlDisabled)
andrewm@0	160 defaultValue += keyboardSegment_.controllerValue(incomingController_) - incomingControllerCenterValue_;
andrewm@0	161
andrewm@0	162 if(controller_ == MidiKeyboardSegment::kControlPitchWheel) {
andrewm@7	163 //sendPitchWheelRange(keyboardSegment_.outputPort(), channel);
andrewm@0	164 midiOutputController_->sendPitchWheel(keyboardSegment_.outputPort(), channel, defaultValue);
andrewm@0	165 }
andrewm@0	166 else if(controller_ == MidiKeyboardSegment::kControlChannelAftertouch) {
andrewm@0	167 midiOutputController_->sendAftertouchChannel(keyboardSegment_.outputPort(), channel, defaultValue);
andrewm@0	168 }
andrewm@0	169 else if(controller_ == MidiKeyboardSegment::kControlPolyphonicAftertouch) {
andrewm@0	170 // TODO
andrewm@0	171 }
andrewm@0	172 else if(controllerIs14Bit_) {
andrewm@0	173 midiOutputController_->sendControlChange(keyboardSegment_.outputPort(), channel, controller_, defaultValue >> 7);
andrewm@0	174 midiOutputController_->sendControlChange(keyboardSegment_.outputPort(), channel, controller_ + 32, defaultValue & 0x7F);
andrewm@0	175 }
andrewm@0	176 else
andrewm@0	177 midiOutputController_->sendControlChange(keyboardSegment_.outputPort(), channel, controller_, defaultValue);
andrewm@0	178 }
andrewm@0	179
andrewm@0	180 int OscMidiConverter::currentControllerValue(int channel) {
andrewm@0	181 float controlValue = (float)controlCenterValue_ + (float)controlMinValue_
andrewm@0	182 + currentValue_[channel]*(float)(controlMaxValue_ - controlMinValue_);
andrewm@0	183
andrewm@7	184 if(incomingController_ != MidiKeyboardSegment::kControlDisabled) {
andrewm@0	185 controlValue += keyboardSegment_.controllerValue(incomingController_) - incomingControllerCenterValue_;
andrewm@7	186 #ifdef DEBUG_OSC_MIDI_CONVERTER
andrewm@7	187 std::cout << "current value " << currentValue_[channel] << " corresponds to " << controlValue;
andrewm@7	188 std::cout << " including incoming value " << (keyboardSegment_.controllerValue(incomingController_) - incomingControllerCenterValue_) << std::endl;
andrewm@7	189 #endif
andrewm@7	190 }
andrewm@7	191 else {
andrewm@7	192 #ifdef DEBUG_OSC_MIDI_CONVERTER
andrewm@7	193 std::cout << "current value " << currentValue_[channel] << " corresponds to " << controlValue << std::endl;
andrewm@7	194 #endif
andrewm@7	195 }
andrewm@0	196
andrewm@41	197 // For 14-bit CC messages, multiply by 128 first to keep the same apparent range as
andrewm@41	198 // the 7-bit version but adding extra resolution on the second CC number. This should
andrewm@41	199 // not be done for pitch wheel where the values are already normalised to 14 bits.
andrewm@41	200 if(controllerIs14Bit_ && controller_ != MidiKeyboardSegment::kControlPitchWheel)
andrewm@41	201 controlValue *= 128.0;
andrewm@41	202
andrewm@20	203 int roundedControlValue = (int)floorf(controlValue + 0.5f);
andrewm@41	204 int maxValue = controllerIs14Bit_ ? 16383 : 127;
andrewm@41	205 if(roundedControlValue > maxValue)
andrewm@41	206 roundedControlValue = maxValue;
andrewm@41	207 if(roundedControlValue < 0)
andrewm@41	208 roundedControlValue = 0;
andrewm@0	209
andrewm@0	210 return roundedControlValue;
andrewm@0	211 }
andrewm@0	212
andrewm@0	213 // Add a new OSC input to this MIDI control
andrewm@0	214 void OscMidiConverter::addControl(const string& oscPath, int oscParamNumber, float oscMinValue,
andrewm@0	215 float oscMaxValue, float oscCenterValue, int outOfRangeBehavior) {
andrewm@0	216 // First remove any existing mapping with these exact parameters
andrewm@0	217 removeControl(oscPath);
andrewm@0	218
andrewm@0	219 #ifdef DEBUG_OSC_MIDI_CONVERTER
andrewm@0	220 std::cout << "OscMidiConverter: adding path " << oscPath << std::endl;
andrewm@0	221 #endif
andrewm@0	222
andrewm@0	223 // Insert the mapping
andrewm@0	224 OscInput input;
andrewm@0	225
andrewm@0	226 input.oscParamNumber = oscParamNumber;
andrewm@0	227 input.oscMinValue = oscMinValue;
andrewm@0	228 input.oscMaxValue = oscMaxValue;
andrewm@0	229
andrewm@0	230 // Calculate the normalized center value which will be subtracted
andrewm@0	231 // from the scaled input. Do this once now to save computation.
andrewm@0	232 if(oscMinValue == oscMaxValue)
andrewm@7	233 input.oscScaledCenterValue = 0.5;
andrewm@0	234 else {
andrewm@0	235 input.oscScaledCenterValue = (oscCenterValue - oscMinValue) / (oscMaxValue - oscMinValue);
andrewm@0	236 if(input.oscScaledCenterValue < 0)
andrewm@0	237 input.oscScaledCenterValue = 0;
andrewm@0	238 if(input.oscScaledCenterValue > 1.0)
andrewm@0	239 input.oscScaledCenterValue = 1.0;
andrewm@0	240 }
andrewm@0	241 input.outOfRangeBehavior = outOfRangeBehavior;
andrewm@0	242 input.uniqueId = lastUniqueId_++;
andrewm@0	243 inputs_[oscPath] = input;
andrewm@0	244
andrewm@0	245 // Register for the relevant OSC message
andrewm@0	246 addOscListener(oscPath);
andrewm@0	247 }
andrewm@0	248
andrewm@0	249 // Remove an existing OSC input
andrewm@0	250 void OscMidiConverter::removeControl(const string& oscPath) {
andrewm@0	251 // Find the affected control and its ID
andrewm@0	252 if(inputs_.count(oscPath) == 0)
andrewm@0	253 return;
andrewm@0	254 int controlId = inputs_[oscPath].uniqueId;
andrewm@0	255
andrewm@0	256 #ifdef DEBUG_OSC_MIDI_CONVERTER
andrewm@0	257 std::cout << "OscMidiConverter: removing path " << oscPath << std::endl;
andrewm@0	258 #endif
andrewm@0	259
andrewm@0	260 // Look for any active inputs on this channel
andrewm@0	261 for(int i = 0; i < 16; i++) {
andrewm@0	262 int channelModulatedId = idWithChannel(i, controlId);
andrewm@0	263 if(lastValues_.count(channelModulatedId) == 0)
andrewm@0	264 continue;
andrewm@0	265
andrewm@0	266 // Found a last value. Subtract it off and get new value
andrewm@0	267 float lastValueThisChannel = lastValues_[channelModulatedId];
andrewm@0	268 currentValue_[i] -= lastValueThisChannel;
andrewm@0	269
andrewm@0	270 // Remove this value from the set of active inputs
andrewm@0	271 lastValues_.erase(channelModulatedId);
andrewm@0	272
andrewm@0	273 // Send the new value after removing this one
andrewm@0	274 sendCurrentValue(keyboardSegment_.outputPort(), i, -1, true);
andrewm@0	275 }
andrewm@0	276
andrewm@0	277 // Having removed any active inputs, now remove the control itself
andrewm@0	278 // TODO: mutex protection
andrewm@0	279 inputs_.erase(oscPath);
andrewm@0	280
andrewm@0	281 removeOscListener(oscPath);
andrewm@0	282 }
andrewm@0	283
andrewm@0	284 void OscMidiConverter::removeAllControls() {
andrewm@0	285 // Clear all active inputs and send default values to all channels
andrewm@0	286 for(int i = 0; i < 16; i++)
andrewm@0	287 sendDefaultValue(i);
andrewm@0	288 lastValues_.clear();
andrewm@0	289 inputs_.clear();
andrewm@0	290 lastUniqueId_ = 0;
andrewm@0	291 removeAllOscListeners();
andrewm@0	292 }
andrewm@0	293
andrewm@0	294 // Update the minimum input value of an existing path
andrewm@0	295 void OscMidiConverter::setControlMinValue(const string& oscPath, float newValue) {
andrewm@0	296 if(inputs_.count(oscPath) == 0)
andrewm@0	297 return;
andrewm@0	298 inputs_[oscPath].oscMinValue = newValue;
andrewm@0	299 }
andrewm@0	300
andrewm@0	301 // Update the maximum input value of an existing path
andrewm@0	302 void OscMidiConverter::setControlMaxValue(const string& oscPath, float newValue) {
andrewm@0	303 if(inputs_.count(oscPath) == 0)
andrewm@0	304 return;
andrewm@0	305 inputs_[oscPath].oscMaxValue = newValue;
andrewm@0	306 }
andrewm@0	307
andrewm@0	308 // Update the center input value of an existing path
andrewm@0	309 void OscMidiConverter::setControlCenterValue(const string& oscPath, float newValue) {
andrewm@0	310 if(inputs_.count(oscPath) == 0)
andrewm@0	311 return;
andrewm@0	312 float minValue, maxValue, scaledCenterValue;
andrewm@0	313 minValue = inputs_[oscPath].oscMinValue;
andrewm@0	314 maxValue = inputs_[oscPath].oscMaxValue;
andrewm@0	315
andrewm@7	316 if(minValue == maxValue)
andrewm@7	317 scaledCenterValue = 0.0;
andrewm@7	318 else
andrewm@7	319 scaledCenterValue = (newValue - minValue) / (maxValue - minValue);
andrewm@0	320 if(scaledCenterValue < 0)
andrewm@0	321 scaledCenterValue = 0;
andrewm@0	322 if(scaledCenterValue > 1.0)
andrewm@0	323 scaledCenterValue = 1.0;
andrewm@0	324
andrewm@0	325 inputs_[oscPath].oscScaledCenterValue = scaledCenterValue;
andrewm@0	326 }
andrewm@0	327
andrewm@0	328 // Update the out of range behavior for an existing path
andrewm@0	329 void OscMidiConverter::setControlOutOfRangeBehavior(const string& oscPath, int newBehavior) {
andrewm@0	330 if(inputs_.count(oscPath) == 0)
andrewm@0	331 return;
andrewm@0	332 inputs_[oscPath].outOfRangeBehavior = newBehavior;
andrewm@0	333 }
andrewm@0	334
andrewm@0	335 // Reset any active previous values on the given channel
andrewm@0	336 // 'send' indicated whether to send the value when finished
andrewm@0	337 // even if it hasn't changed
andrewm@0	338 void OscMidiConverter::clearLastValues(int channel, bool send) {
andrewm@0	339 std::map<int, float>::iterator it = lastValues_.begin();
andrewm@0	340
andrewm@0	341 bool erased = false;
andrewm@0	342
andrewm@0	343 while(it != lastValues_.end()) {
andrewm@0	344 // Look for any last values matching this channel
andrewm@0	345 if((it->first & 0x0F) == channel) {
andrewm@0	346 lastValues_.erase(it++);
andrewm@0	347 erased = true;
andrewm@0	348 }
andrewm@0	349 else
andrewm@0	350 it++;
andrewm@0	351 }
andrewm@0	352
andrewm@0	353 currentValue_[channel] = 0;
andrewm@0	354 lastOutputValue_[channel] = -1;
andrewm@0	355
andrewm@0	356 // If any last values were erased and send is enabled,
andrewm@0	357 // resend the current values
andrewm@0	358 if(erased \|\| send)
andrewm@0	359 sendDefaultValue(channel);
andrewm@0	360 }
andrewm@0	361
andrewm@0	362 // OSC Handler, called by the data source (PianoKeyboard in this case). Check path against stored
andrewm@0	363 // inputs and map to MIDI accordingly
andrewm@0	364
andrewm@0	365 bool OscMidiConverter::oscHandlerMethod(const char path, const char types, int numValues, lo_arg *values, void data) {
andrewm@0	366 #ifdef DEBUG_OSC_MIDI_CONVERTER
andrewm@0	367 std::cout << "OscMidiConverter: received path " << path << std::endl;
andrewm@0	368 #endif
andrewm@0	369 if(midiOutputController_ == 0 \|\| controller_ == MidiKeyboardSegment::kControlDisabled)
andrewm@0	370 return false;
andrewm@0	371
andrewm@0	372 //double before = Time::getMillisecondCounterHiRes(); // DEBUG
andrewm@0	373
andrewm@0	374 // First value should always be MIDI note number (integer type) so we can retrieve
andrewm@0	375 // information from the PianoKeyboard class
andrewm@0	376 if(numValues < 1)
andrewm@0	377 return false;
andrewm@0	378 if(types[0] != 'i')
andrewm@0	379 return false;
andrewm@0	380 int midiNoteNumber = values[0]->i;
andrewm@0	381
andrewm@0	382 // Get the MIDI retransmission channel from the note number
andrewm@0	383 if(keyboard_.key(midiNoteNumber) == 0)
andrewm@0	384 return false;
andrewm@0	385 int midiChannel = keyboard_.key(midiNoteNumber)->midiChannel();
andrewm@0	386 if(midiChannel < 0 \|\| midiChannel > 15) {
andrewm@0	387 #ifdef DEBUG_OSC_MIDI_CONVERTER
andrewm@0	388 std::cout << "OscMidiConverter: no retransmission channel on note " << midiNoteNumber << std::endl;
andrewm@0	389 #endif
andrewm@0	390 return false;
andrewm@0	391 }
andrewm@0	392
andrewm@0	393 // Find the relevant input and make sure this OSC message has enough parameters
andrewm@0	394 if(inputs_.count(path) == 0)
andrewm@0	395 return false;
andrewm@0	396 OscInput const& input = inputs_[path];
andrewm@0	397 if(input.oscParamNumber >= numValues)
andrewm@0	398 return false;
andrewm@0	399
andrewm@0	400 // Find the relevant input value from this OSC message
andrewm@0	401 float oscParamValue;
andrewm@0	402 if(types[input.oscParamNumber] == 'f')
andrewm@0	403 oscParamValue = values[input.oscParamNumber]->f;
andrewm@0	404 else if(types[input.oscParamNumber] == 'i')
andrewm@0	405 oscParamValue = (float)values[input.oscParamNumber]->i;
andrewm@0	406 else
andrewm@0	407 return false;
andrewm@0	408
andrewm@7	409 // Scale input to a 0-1 range, then to the output range. There's a special case for MIDI pitch wheel,
andrewm@7	410 // where if the range is set to 0, it means to use the segment-wide pitch wheel range. This is done so
andrewm@7	411 // we don't have to cache multiple copies of the pitch wheel range in every OSC-MIDI converter.
andrewm@7	412 float scaledValue;
andrewm@7	413 if(controller_ == MidiKeyboardSegment::kControlPitchWheel &&
andrewm@7	414 input.oscMaxValue == 0 && input.oscMinValue == 0) {
andrewm@7	415 float pitchWheelRange = keyboardSegment_.midiPitchWheelRange();
andrewm@7	416 scaledValue = (oscParamValue + pitchWheelRange) / (2.0 * pitchWheelRange);
andrewm@7	417 }
andrewm@7	418 else
andrewm@7	419 scaledValue = (oscParamValue - input.oscMinValue) / (input.oscMaxValue - input.oscMinValue);
andrewm@0	420
andrewm@0	421 #ifdef DEBUG_OSC_MIDI_CONVERTER
andrewm@0	422 std::cout << "port " << keyboardSegment_.outputPort() << " received input " << oscParamValue << " which scales to " << scaledValue << std::endl;
andrewm@0	423 #endif
andrewm@0	424
andrewm@0	425 // Figure out what to do with an out of range value...
andrewm@0	426 if(scaledValue < 0.0 \|\| scaledValue > 1.0) {
andrewm@0	427 if(input.outOfRangeBehavior == kOutOfRangeClip) {
andrewm@0	428 if(scaledValue < 0.0)
andrewm@0	429 scaledValue = 0.0;
andrewm@0	430 if(scaledValue > 1.0)
andrewm@0	431 scaledValue = 1.0;
andrewm@0	432 }
andrewm@0	433 else if(input.outOfRangeBehavior == kOutOfRangeExtrapolate) {
andrewm@0	434 // Do nothing
andrewm@0	435 }
andrewm@0	436 else // Ignore or unknown behavior
andrewm@0	437 return false;
andrewm@0	438 }
andrewm@0	439
andrewm@0	440 //double midpoint = Time::getMillisecondCounterHiRes(); // DEBUG
andrewm@0	441
andrewm@0	442 // Now subtract the normalized center value, which may put the range outside 0-1
andrewm@0	443 // but this is expected. For example, in a pitch wheel situation, we might move
andrewm@0	444 // to a range of -0.5 to 0.5.
andrewm@0	445 scaledValue -= input.oscScaledCenterValue;
andrewm@0	446
andrewm@0	447 // Look for previous input with this path and channel and remove it
andrewm@0	448 int channelModulatedId = idWithChannel(midiChannel, input.uniqueId);
andrewm@0	449 if(lastValues_.count(channelModulatedId) > 0) {
andrewm@0	450 // Found a last value. Subtract it off and replace with our current value
andrewm@0	451 float lastValueThisChannel = lastValues_[channelModulatedId];
andrewm@0	452 currentValue_[midiChannel] -= lastValueThisChannel;
andrewm@0	453 #ifdef DEBUG_OSC_MIDI_CONVERTER
andrewm@0	454 std::cout << "found and removed " << lastValueThisChannel << ", now have " << currentValue_[midiChannel] << std::endl;
andrewm@0	455 #endif
andrewm@0	456 }
andrewm@0	457
andrewm@0	458 lastValues_[channelModulatedId] = scaledValue;
andrewm@0	459 currentValue_[midiChannel] += scaledValue;
andrewm@0	460
andrewm@0	461 // Send the total current value as a MIDI controller
andrewm@0	462 sendCurrentValue(keyboardSegment_.outputPort(), midiChannel, midiNoteNumber, false);
andrewm@0	463
andrewm@0	464 //double after = Time::getMillisecondCounterHiRes(); // DEBUG
andrewm@0	465
andrewm@0	466 //std::cout << "OscMidiConverter: total " << after - before << "ms, of which " << after - midpoint << " in 2nd half\n";
andrewm@0	467
andrewm@0	468 return true;
andrewm@0	469 }
andrewm@0	470
andrewm@0	471 // Send the current sum value of all OSC inputs as a MIDI message
andrewm@0	472 void OscMidiConverter::sendCurrentValue(int port, int channel, int note, bool force) {
andrewm@0	473 if(midiOutputController_ == 0 \|\| channel < 0 \|\| channel > 15)
andrewm@0	474 return;
andrewm@0	475
andrewm@0	476 // TODO: what about values that are centered by default e.g. pitch?
andrewm@0	477 /*float controlValue = (float)controlCenterValue_ + (float)controlMinValue_
andrewm@0	478 + currentValue_[channel]*(float)(controlMaxValue_ - controlMinValue_);
andrewm@0	479
andrewm@0	480 if(incomingController_ != MidiKeyboardSegment::kControlDisabled)
andrewm@0	481 controlValue += keyboardSegment_.controllerValue(incomingController_) - incomingControllerCenterValue_;
andrewm@0	482
andrewm@0	483 std::cout << "sending value " << currentValue_[channel] << " as " << controlValue << std::endl;
andrewm@0	484 int roundedControlValue = (int)roundf(controlValue);
andrewm@0	485 if(roundedControlValue > controlMaxValue_)
andrewm@0	486 roundedControlValue = controlMaxValue_;
andrewm@0	487 if(roundedControlValue < controlMinValue_)
andrewm@0	488 roundedControlValue = controlMinValue_;*/
andrewm@0	489
andrewm@0	490 int roundedControlValue = currentControllerValue(channel);
andrewm@0	491
andrewm@0	492 // If this is the same ultimate CC value as before, don't resend unless forced
andrewm@0	493 if(roundedControlValue == lastOutputValue_[channel] && !force)
andrewm@0	494 return;
andrewm@0	495 lastOutputValue_[channel] = roundedControlValue;
andrewm@0	496
andrewm@0	497 // Four cases: Pitch Wheel messages, aftertouch, 14-bit controls (major and minor controllers), ordinary 7-bit controls
andrewm@0	498 if(controller_ == MidiKeyboardSegment::kControlPitchWheel) {
andrewm@0	499 midiOutputController_->sendPitchWheel(port, channel, roundedControlValue);
andrewm@0	500 }
andrewm@0	501 else if(controller_ == MidiKeyboardSegment::kControlChannelAftertouch) {
andrewm@0	502 midiOutputController_->sendAftertouchChannel(port, channel, roundedControlValue);
andrewm@0	503 }
andrewm@0	504 else if(controller_ == MidiKeyboardSegment::kControlPolyphonicAftertouch && note >= 0) {
andrewm@28	505 midiOutputController_->sendAftertouchPoly(port, channel, note + keyboardSegment_.outputTransposition(),
andrewm@28	506 roundedControlValue);
andrewm@0	507 }
andrewm@0	508 else if(controllerIs14Bit_) {
andrewm@0	509 // LSB for controllers 0-31 are found on controllers 32-63
andrewm@0	510 int lsb = roundedControlValue & 0x007F;
andrewm@0	511 int msb = (roundedControlValue >> 7) & 0x007F;
andrewm@0	512
andrewm@0	513 midiOutputController_->sendControlChange(port, channel, controller_, msb);
andrewm@0	514 midiOutputController_->sendControlChange(port, channel, controller_ + 32, lsb);
andrewm@0	515 }
andrewm@0	516 else { // 7 bit
andrewm@0	517 midiOutputController_->sendControlChange(port, channel, controller_, roundedControlValue);
andrewm@0	518 }
andrewm@0	519 }
andrewm@0	520

Mercurial > hg > touchkeys

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