3 |
* LinuxSampler - modular, streaming capable sampler * |
* LinuxSampler - modular, streaming capable sampler * |
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* * |
* * |
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* Copyright (C) 2003, 2004 by Benno Senoner and Christian Schoenebeck * |
* Copyright (C) 2003, 2004 by Benno Senoner and Christian Schoenebeck * |
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* Copyright (C) 2005 - 2008 Christian Schoenebeck * |
* Copyright (C) 2005 - 2012 Christian Schoenebeck * |
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* * |
* * |
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* This program is free software; you can redistribute it and/or modify * |
* This program is free software; you can redistribute it and/or modify * |
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* it under the terms of the GNU General Public License as published by * |
* it under the terms of the GNU General Public License as published by * |
102 |
{ |
{ |
103 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
104 |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
105 |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOn(Key, Velocity); |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOn(Key, Velocity, MidiChannel); |
106 |
} |
} |
107 |
// dispatch event for engines listening to ALL MIDI channels |
// dispatch event for engines listening to ALL MIDI channels |
108 |
{ |
{ |
109 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
110 |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
111 |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOn(Key, Velocity); |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOn(Key, Velocity, MidiChannel); |
112 |
} |
} |
113 |
MidiChannelMapReader.Unlock(); |
MidiChannelMapReader.Unlock(); |
114 |
|
|
127 |
{ |
{ |
128 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
129 |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
130 |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOn(Key, Velocity, FragmentPos); |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOn(Key, Velocity, MidiChannel, FragmentPos); |
131 |
} |
} |
132 |
// dispatch event for engines listening to ALL MIDI channels |
// dispatch event for engines listening to ALL MIDI channels |
133 |
{ |
{ |
134 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
135 |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
136 |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOn(Key, Velocity, FragmentPos); |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOn(Key, Velocity, MidiChannel, FragmentPos); |
137 |
} |
} |
138 |
MidiChannelMapReader.Unlock(); |
MidiChannelMapReader.Unlock(); |
139 |
|
|
152 |
{ |
{ |
153 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
154 |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
155 |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOff(Key, Velocity); |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOff(Key, Velocity, MidiChannel); |
156 |
} |
} |
157 |
// dispatch event for engines listening to ALL MIDI channels |
// dispatch event for engines listening to ALL MIDI channels |
158 |
{ |
{ |
159 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
160 |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
161 |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOff(Key, Velocity); |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOff(Key, Velocity, MidiChannel); |
162 |
} |
} |
163 |
MidiChannelMapReader.Unlock(); |
MidiChannelMapReader.Unlock(); |
164 |
|
|
177 |
{ |
{ |
178 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
179 |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
180 |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOff(Key, Velocity, FragmentPos); |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOff(Key, Velocity, MidiChannel, FragmentPos); |
181 |
} |
} |
182 |
// dispatch event for engines listening to ALL MIDI channels |
// dispatch event for engines listening to ALL MIDI channels |
183 |
{ |
{ |
184 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
185 |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
186 |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOff(Key, Velocity, FragmentPos); |
for (; engineiter != end; engineiter++) (*engineiter)->SendNoteOff(Key, Velocity, MidiChannel, FragmentPos); |
187 |
} |
} |
188 |
MidiChannelMapReader.Unlock(); |
MidiChannelMapReader.Unlock(); |
189 |
|
|
202 |
{ |
{ |
203 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
204 |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
205 |
for (; engineiter != end; engineiter++) (*engineiter)->SendPitchbend(Pitch); |
for (; engineiter != end; engineiter++) (*engineiter)->SendPitchbend(Pitch, MidiChannel); |
206 |
} |
} |
207 |
// dispatch event for engines listening to ALL MIDI channels |
// dispatch event for engines listening to ALL MIDI channels |
208 |
{ |
{ |
209 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
210 |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
211 |
for (; engineiter != end; engineiter++) (*engineiter)->SendPitchbend(Pitch); |
for (; engineiter != end; engineiter++) (*engineiter)->SendPitchbend(Pitch, MidiChannel); |
212 |
} |
} |
213 |
MidiChannelMapReader.Unlock(); |
MidiChannelMapReader.Unlock(); |
214 |
} |
} |
220 |
{ |
{ |
221 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
222 |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
223 |
for (; engineiter != end; engineiter++) (*engineiter)->SendPitchbend(Pitch, FragmentPos); |
for (; engineiter != end; engineiter++) (*engineiter)->SendPitchbend(Pitch, MidiChannel, FragmentPos); |
224 |
} |
} |
225 |
// dispatch event for engines listening to ALL MIDI channels |
// dispatch event for engines listening to ALL MIDI channels |
226 |
{ |
{ |
227 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
228 |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
229 |
for (; engineiter != end; engineiter++) (*engineiter)->SendPitchbend(Pitch, FragmentPos); |
for (; engineiter != end; engineiter++) (*engineiter)->SendPitchbend(Pitch, MidiChannel, FragmentPos); |
230 |
} |
} |
231 |
MidiChannelMapReader.Unlock(); |
MidiChannelMapReader.Unlock(); |
232 |
} |
} |
238 |
{ |
{ |
239 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
240 |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
241 |
for (; engineiter != end; engineiter++) (*engineiter)->SendControlChange(Controller, Value); |
for (; engineiter != end; engineiter++) (*engineiter)->SendControlChange(Controller, Value, MidiChannel); |
242 |
} |
} |
243 |
// dispatch event for engines listening to ALL MIDI channels |
// dispatch event for engines listening to ALL MIDI channels |
244 |
{ |
{ |
245 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
246 |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
247 |
for (; engineiter != end; engineiter++) (*engineiter)->SendControlChange(Controller, Value); |
for (; engineiter != end; engineiter++) (*engineiter)->SendControlChange(Controller, Value, MidiChannel); |
248 |
} |
} |
249 |
MidiChannelMapReader.Unlock(); |
MidiChannelMapReader.Unlock(); |
250 |
|
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251 |
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// dispatch event to all low priority MIDI listeners |
252 |
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const std::vector<VirtualMidiDevice*>& listeners = |
253 |
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virtualMidiDevicesReader.Lock(); |
254 |
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for (int i = 0; i < listeners.size(); ++i) |
255 |
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listeners[i]->SendCCToDevice(Controller, Value); |
256 |
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virtualMidiDevicesReader.Unlock(); |
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} |
} |
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259 |
void MidiInputPort::DispatchControlChange(uint8_t Controller, uint8_t Value, uint MidiChannel, int32_t FragmentPos) { |
void MidiInputPort::DispatchControlChange(uint8_t Controller, uint8_t Value, uint MidiChannel, int32_t FragmentPos) { |
263 |
{ |
{ |
264 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
265 |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
266 |
for (; engineiter != end; engineiter++) (*engineiter)->SendControlChange(Controller, Value, FragmentPos); |
for (; engineiter != end; engineiter++) (*engineiter)->SendControlChange(Controller, Value, MidiChannel, FragmentPos); |
267 |
} |
} |
268 |
// dispatch event for engines listening to ALL MIDI channels |
// dispatch event for engines listening to ALL MIDI channels |
269 |
{ |
{ |
270 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
271 |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
272 |
for (; engineiter != end; engineiter++) (*engineiter)->SendControlChange(Controller, Value, FragmentPos); |
for (; engineiter != end; engineiter++) (*engineiter)->SendControlChange(Controller, Value, MidiChannel, FragmentPos); |
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} |
} |
274 |
MidiChannelMapReader.Unlock(); |
MidiChannelMapReader.Unlock(); |
275 |
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|
276 |
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// dispatch event to all low priority MIDI listeners |
277 |
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const std::vector<VirtualMidiDevice*>& listeners = |
278 |
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virtualMidiDevicesReader.Lock(); |
279 |
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for (int i = 0; i < listeners.size(); ++i) |
280 |
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listeners[i]->SendCCToDevice(Controller, Value); |
281 |
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virtualMidiDevicesReader.Unlock(); |
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} |
} |
283 |
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284 |
void MidiInputPort::DispatchSysex(void* pData, uint Size) { |
void MidiInputPort::DispatchSysex(void* pData, uint Size) { |
291 |
} |
} |
292 |
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293 |
void MidiInputPort::DispatchProgramChange(uint8_t Program, uint MidiChannel) { |
void MidiInputPort::DispatchProgramChange(uint8_t Program, uint MidiChannel) { |
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dmsg(1,("Received MIDI program change (prog=%d,ch=%d)\n",Program,MidiChannel)); |
|
294 |
if (Program > 127 || MidiChannel > 16) return; |
if (Program > 127 || MidiChannel > 16) return; |
295 |
if (!pDevice || !pDevice->pSampler) { |
if (!pDevice || !pDevice->pSampler) { |
296 |
std::cerr << "MidiInputPort: ERROR, no sampler instance to handle program change." |
std::cerr << "MidiInputPort: ERROR, no sampler instance to handle program change." |
297 |
<< "This is a bug, please report it!\n" << std::flush; |
<< "This is a bug, please report it!\n" << std::flush; |
298 |
return; |
return; |
299 |
} |
} |
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std::vector<int> maps = MidiInstrumentMapper::Maps(); |
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if (maps.empty()) return; |
|
300 |
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|
301 |
const MidiChannelMap_t& midiChannelMap = MidiChannelMapReader.Lock(); |
const MidiChannelMap_t& midiChannelMap = MidiChannelMapReader.Lock(); |
302 |
// dispatch event for engines listening to the same MIDI channel |
// dispatch event for engines listening to the same MIDI channel |
303 |
{ |
{ |
304 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[MidiChannel].begin(); |
305 |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[MidiChannel].end(); |
306 |
for (; engineiter != end; engineiter++) { |
for (; engineiter != end; engineiter++) (*engineiter)->SendProgramChange(Program); |
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(*engineiter)->SetMidiProgram(Program); |
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if ((*engineiter)->UsesNoMidiInstrumentMap()) continue; |
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if (MidiInstrumentMapper::GetMapCount() == 0) continue; |
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// retrieve the MIDI instrument map this engine channel is assigned to |
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int iMapID = ((*engineiter)->UsesDefaultMidiInstrumentMap()) |
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? MidiInstrumentMapper::GetDefaultMap() /*default*/ : (*engineiter)->GetMidiInstrumentMap(); |
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// is there an entry for this MIDI bank&prog pair in that map? |
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midi_prog_index_t midiIndex; |
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midiIndex.midi_bank_msb = (*engineiter)->GetMidiBankMsb(); |
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midiIndex.midi_bank_lsb = (*engineiter)->GetMidiBankLsb(); |
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midiIndex.midi_prog = (*engineiter)->GetMidiProgram(); |
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optional<MidiInstrumentMapper::entry_t> mapping = |
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MidiInstrumentMapper::GetEntry(iMapID, midiIndex); |
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if (mapping) { // if mapping exists ... |
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InstrumentManager::instrument_id_t id; |
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id.FileName = mapping->InstrumentFile; |
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id.Index = mapping->InstrumentIndex; |
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//TODO: we should switch the engine type here |
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InstrumentManager::LoadInstrumentInBackground(id, *engineiter); |
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(*engineiter)->Volume(mapping->Volume); |
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} |
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} |
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307 |
} |
} |
308 |
// dispatch event for engines listening to ALL MIDI channels |
// dispatch event for engines listening to ALL MIDI channels |
309 |
{ |
{ |
310 |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
std::set<EngineChannel*>::iterator engineiter = midiChannelMap[midi_chan_all].begin(); |
311 |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
std::set<EngineChannel*>::iterator end = midiChannelMap[midi_chan_all].end(); |
312 |
for (; engineiter != end; engineiter++) { |
for (; engineiter != end; engineiter++) (*engineiter)->SendProgramChange(Program); |
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(*engineiter)->SetMidiProgram(Program); |
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if ((*engineiter)->UsesNoMidiInstrumentMap()) continue; |
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if (MidiInstrumentMapper::GetMapCount() == 0) continue; |
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// retrieve the MIDI instrument map this engine channel is assigned to |
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int iMapID = ((*engineiter)->UsesDefaultMidiInstrumentMap()) |
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? MidiInstrumentMapper::GetDefaultMap() /*default*/ : (*engineiter)->GetMidiInstrumentMap(); |
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// is there an entry for this MIDI bank&prog pair in that map? |
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midi_prog_index_t midiIndex; |
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midiIndex.midi_bank_msb = (*engineiter)->GetMidiBankMsb(); |
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midiIndex.midi_bank_lsb = (*engineiter)->GetMidiBankLsb(); |
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midiIndex.midi_prog = (*engineiter)->GetMidiProgram(); |
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optional<MidiInstrumentMapper::entry_t> mapping = |
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MidiInstrumentMapper::GetEntry(iMapID, midiIndex); |
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if (mapping) { // if mapping exists ... |
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InstrumentManager::instrument_id_t id; |
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id.FileName = mapping->InstrumentFile; |
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id.Index = mapping->InstrumentIndex; |
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//TODO: we should switch the engine type here |
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InstrumentManager::LoadInstrumentInBackground(id, *engineiter); |
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(*engineiter)->Volume(mapping->Volume); |
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} |
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} |
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313 |
} |
} |
314 |
MidiChannelMapReader.Unlock(); |
MidiChannelMapReader.Unlock(); |
315 |
} |
} |
364 |
MidiChannelMapReader.Unlock(); |
MidiChannelMapReader.Unlock(); |
365 |
} |
} |
366 |
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|
367 |
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void MidiInputPort::DispatchRaw(uint8_t* pData) { |
368 |
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uint8_t channel = pData[0] & 0x0f; |
369 |
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switch (pData[0] & 0xf0) { |
370 |
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case 0x80: |
371 |
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DispatchNoteOff(pData[1], pData[2], channel); |
372 |
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break; |
373 |
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case 0x90: |
374 |
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if (pData[2]) { |
375 |
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DispatchNoteOn(pData[1], pData[2], channel); |
376 |
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} else { |
377 |
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DispatchNoteOff(pData[1], pData[2], channel); |
378 |
|
} |
379 |
|
break; |
380 |
|
case 0xb0: |
381 |
|
if (pData[1] == 0) { |
382 |
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DispatchBankSelectMsb(pData[2], channel); |
383 |
|
} else if (pData[1] == 32) { |
384 |
|
DispatchBankSelectLsb(pData[2], channel); |
385 |
|
} |
386 |
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DispatchControlChange(pData[1], pData[2], channel); |
387 |
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break; |
388 |
|
case 0xc0: |
389 |
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DispatchProgramChange(pData[1], channel); |
390 |
|
break; |
391 |
|
case 0xd0: |
392 |
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DispatchControlChange(128, pData[1], channel); |
393 |
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break; |
394 |
|
case 0xe0: |
395 |
|
DispatchPitchbend((pData[1] | pData[2] << 7) - 8192, channel); |
396 |
|
break; |
397 |
|
} |
398 |
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} |
399 |
|
|
400 |
|
void MidiInputPort::DispatchRaw(uint8_t* pData, int32_t FragmentPos) { |
401 |
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uint8_t channel = pData[0] & 0x0f; |
402 |
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switch (pData[0] & 0xf0) { |
403 |
|
case 0x80: |
404 |
|
DispatchNoteOff(pData[1], pData[2], channel, FragmentPos); |
405 |
|
break; |
406 |
|
case 0x90: |
407 |
|
if (pData[2]) { |
408 |
|
DispatchNoteOn(pData[1], pData[2], channel, FragmentPos); |
409 |
|
} else { |
410 |
|
DispatchNoteOff(pData[1], pData[2], channel, FragmentPos); |
411 |
|
} |
412 |
|
break; |
413 |
|
case 0xb0: |
414 |
|
if (pData[1] == 0) { |
415 |
|
DispatchBankSelectMsb(pData[2], channel); |
416 |
|
} else if (pData[1] == 32) { |
417 |
|
DispatchBankSelectLsb(pData[2], channel); |
418 |
|
} |
419 |
|
DispatchControlChange(pData[1], pData[2], channel, FragmentPos); |
420 |
|
break; |
421 |
|
case 0xc0: |
422 |
|
DispatchProgramChange(pData[1], channel); |
423 |
|
break; |
424 |
|
case 0xd0: |
425 |
|
DispatchControlChange(128, pData[1], channel, FragmentPos); |
426 |
|
break; |
427 |
|
case 0xe0: |
428 |
|
DispatchPitchbend((pData[1] | pData[2] << 7) - 8192, channel, FragmentPos); |
429 |
|
break; |
430 |
|
} |
431 |
|
} |
432 |
|
|
433 |
void MidiInputPort::Connect(EngineChannel* pEngineChannel, midi_chan_t MidiChannel) { |
void MidiInputPort::Connect(EngineChannel* pEngineChannel, midi_chan_t MidiChannel) { |
434 |
if (MidiChannel < 0 || MidiChannel > 16) |
if (MidiChannel < 0 || MidiChannel > 16) |
435 |
throw MidiInputException("MIDI channel index out of bounds"); |
throw MidiInputException("MIDI channel index out of bounds"); |