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| author | Vitaly Novichkov <admin@wohlnet.ru> | 2018-06-24 21:46:38 +0300 |
|---|---|---|
| committer | Vitaly Novichkov <admin@wohlnet.ru> | 2018-06-24 21:46:38 +0300 |
| commit | 60f7ea56a4ccc88a8e747b87ba9fb39f1d8330b5 (patch) | |
| tree | cc26e12e08a485a8b928991936482fc0c77796f3 /src/adlmidi_midiplay.cpp | |
| parent | 76eb1a12ef6e6a3f8c7f6c0a226fc5b35dd99536 (diff) | |
| download | libADLMIDI-60f7ea56a4ccc88a8e747b87ba9fb39f1d8330b5.tar.gz libADLMIDI-60f7ea56a4ccc88a8e747b87ba9fb39f1d8330b5.tar.bz2 libADLMIDI-60f7ea56a4ccc88a8e747b87ba9fb39f1d8330b5.zip | |
[Experimental] Big re-factoring of internals and clean-up
- Renamed functions
- Renamed variables
- Documenting of most library internal stuff
- Disabling of embedded banks no more conflicts with accidental linking of adldata.cpp
Diffstat (limited to 'src/adlmidi_midiplay.cpp')
| -rw-r--r-- | src/adlmidi_midiplay.cpp | 572 |
1 files changed, 301 insertions, 271 deletions
diff --git a/src/adlmidi_midiplay.cpp b/src/adlmidi_midiplay.cpp index 190a521..ecf2732 100644 --- a/src/adlmidi_midiplay.cpp +++ b/src/adlmidi_midiplay.cpp @@ -100,7 +100,7 @@ inline bool isXgPercChannel(uint8_t msb, uint8_t lsb) return (msb == 0x7E || msb == 0x7F) && (lsb == 0); } -void MIDIplay::AdlChannel::AddAge(int64_t ms) +void MIDIplay::AdlChannel::addAge(int64_t ms) { const int64_t neg = static_cast<int64_t>(-0x1FFFFFFFl); if(users_empty()) @@ -118,7 +118,7 @@ void MIDIplay::AdlChannel::AddAge(int64_t ms) } MIDIplay::MIDIplay(unsigned long sampleRate): - cmf_percussion_mode(false), + m_cmfPercussionMode(false), m_masterVolume(MasterVolumeDefault), m_sysExDeviceId(0), m_synthMode(Mode_XG), @@ -127,7 +127,7 @@ MIDIplay::MIDIplay(unsigned long sampleRate): , m_audioTickCounter(0) #endif { - devices.clear(); + m_midiDevices.clear(); m_setup.emulator = ADLMIDI_EMU_NUKED; m_setup.runAtPcmRate = false; @@ -136,16 +136,16 @@ MIDIplay::MIDIplay(unsigned long sampleRate): m_setup.mindelay = 1.0 / (double)m_setup.PCM_RATE; m_setup.maxdelay = 512.0 / (double)m_setup.PCM_RATE; - m_setup.AdlBank = 0; - m_setup.NumFourOps = 7; - m_setup.NumCards = 2; - m_setup.HighTremoloMode = -1; - m_setup.HighVibratoMode = -1; - m_setup.AdlPercussionMode = -1; - m_setup.LogarithmicVolumes = false; - m_setup.VolumeModel = ADLMIDI_VolumeModel_AUTO; + m_setup.bankId = 0; + m_setup.numFourOps = 7; + m_setup.numChips = 2; + m_setup.deepTremoloMode = -1; + m_setup.deepVibratoMode = -1; + m_setup.rhythmMode = -1; + m_setup.logarithmicVolumes = false; + m_setup.volumeScaleModel = ADLMIDI_VolumeModel_AUTO; //m_setup.SkipForward = 0; - m_setup.ScaleModulators = -1; + m_setup.scaleModulators = -1; m_setup.fullRangeBrightnessCC74 = false; m_setup.delay = 0.0; m_setup.carry = 0.0; @@ -155,49 +155,51 @@ MIDIplay::MIDIplay(unsigned long sampleRate): initSequencerInterface(); #endif applySetup(); - ChooseDevice("none"); + chooseDevice("none"); realTime_ResetState(); } void MIDIplay::applySetup() { - opl.m_musicMode = OPL3::MODE_MIDI; + m_synth.m_musicMode = OPL3::MODE_MIDI; m_setup.tick_skip_samples_delay = 0; - opl.runAtPcmRate = m_setup.runAtPcmRate; - - if(opl.AdlBank != ~0u) - opl.dynamic_bank_setup = adlbanksetup[m_setup.AdlBank]; - - opl.HighTremoloMode = m_setup.HighTremoloMode < 0 ? - opl.dynamic_bank_setup.deepTremolo : - (m_setup.HighTremoloMode != 0); - opl.HighVibratoMode = m_setup.HighVibratoMode < 0 ? - opl.dynamic_bank_setup.deepVibrato : - (m_setup.HighVibratoMode != 0); - opl.AdlPercussionMode = m_setup.AdlPercussionMode < 0 ? - opl.dynamic_bank_setup.adLibPercussions : - (m_setup.AdlPercussionMode != 0); - opl.ScaleModulators = m_setup.ScaleModulators < 0 ? - opl.dynamic_bank_setup.scaleModulators : - (m_setup.ScaleModulators != 0); - - if(m_setup.LogarithmicVolumes) - opl.ChangeVolumeRangesModel(ADLMIDI_VolumeModel_NativeOPL3); + m_synth.m_runAtPcmRate = m_setup.runAtPcmRate; + +#ifndef DISABLE_EMBEDDED_BANKS + if(m_synth.m_embeddedBank != ~0u) + m_synth.m_insBankSetup = adlbanksetup[m_setup.bankId]; +#endif + + m_synth.m_deepTremoloMode = m_setup.deepTremoloMode < 0 ? + m_synth.m_insBankSetup.deepTremolo : + (m_setup.deepTremoloMode != 0); + m_synth.m_deepVibratoMode = m_setup.deepVibratoMode < 0 ? + m_synth.m_insBankSetup.deepVibrato : + (m_setup.deepVibratoMode != 0); + m_synth.m_rhythmMode = m_setup.rhythmMode < 0 ? + m_synth.m_insBankSetup.adLibPercussions : + (m_setup.rhythmMode != 0); + m_synth.m_scaleModulators = m_setup.scaleModulators < 0 ? + m_synth.m_insBankSetup.scaleModulators : + (m_setup.scaleModulators != 0); + + if(m_setup.logarithmicVolumes) + m_synth.setVolumeScaleModel(ADLMIDI_VolumeModel_NativeOPL3); else - opl.ChangeVolumeRangesModel(static_cast<ADLMIDI_VolumeModels>(m_setup.VolumeModel)); + m_synth.setVolumeScaleModel(static_cast<ADLMIDI_VolumeModels>(m_setup.volumeScaleModel)); - if(m_setup.VolumeModel == ADLMIDI_VolumeModel_AUTO)//Use bank default volume model - opl.m_volumeScale = (OPL3::VolumesScale)opl.dynamic_bank_setup.volumeModel; + if(m_setup.volumeScaleModel == ADLMIDI_VolumeModel_AUTO)//Use bank default volume model + m_synth.m_volumeScale = (OPL3::VolumesScale)m_synth.m_insBankSetup.volumeModel; - opl.NumCards = m_setup.NumCards; - opl.NumFourOps = m_setup.NumFourOps; - cmf_percussion_mode = false; + m_synth.m_numChips = m_setup.numChips; + m_synth.m_numFourOps = m_setup.numFourOps; + m_cmfPercussionMode = false; - opl.Reset(m_setup.emulator, m_setup.PCM_RATE, this); - ch.clear(); - ch.resize(opl.NumChannels); + m_synth.reset(m_setup.emulator, m_setup.PCM_RATE, this); + m_chipChannels.clear(); + m_chipChannels.resize(m_synth.m_numChannels); // Reset the arpeggio counter m_arpeggioCounter = 0; @@ -205,30 +207,30 @@ void MIDIplay::applySetup() void MIDIplay::TickIterators(double s) { - for(uint16_t c = 0; c < opl.NumChannels; ++c) - ch[c].AddAge(static_cast<int64_t>(s * 1000.0)); - UpdateVibrato(s); - UpdateArpeggio(s); + for(uint16_t c = 0; c < m_synth.m_numChannels; ++c) + m_chipChannels[c].addAge(static_cast<int64_t>(s * 1000.0)); + updateVibrato(s); + updateArpeggio(s); #if !defined(ADLMIDI_AUDIO_TICK_HANDLER) - UpdateGlide(s); + updateGlide(s); #endif } void MIDIplay::realTime_ResetState() { - for(size_t ch = 0; ch < Ch.size(); ch++) + for(size_t ch = 0; ch < m_midiChannels.size(); ch++) { - MIDIchannel &chan = Ch[ch]; + MIDIchannel &chan = m_midiChannels[ch]; chan.resetAllControllers(); - chan.volume = (opl.m_musicMode == OPL3::MODE_RSXX) ? 127 : 100; + chan.volume = (m_synth.m_musicMode == OPL3::MODE_RSXX) ? 127 : 100; chan.vibpos = 0.0; chan.lastlrpn = 0; chan.lastmrpn = 0; chan.nrpn = false; if((m_synthMode & Mode_GS) != 0)// Reset custom drum channels on GS chan.is_xg_percussion = false; - NoteUpdate_All(uint16_t(ch), Upd_All); - NoteUpdate_All(uint16_t(ch), Upd_Off); + noteUpdateAll(uint16_t(ch), Upd_All); + noteUpdateAll(uint16_t(ch), Upd_Off); } m_masterVolume = MasterVolumeDefault; } @@ -238,20 +240,20 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) if(note >= 128) note = 127; - if((opl.m_musicMode == OPL3::MODE_RSXX) && (velocity != 0)) + if((m_synth.m_musicMode == OPL3::MODE_RSXX) && (velocity != 0)) { // Check if this is just a note after-touch - MIDIchannel::activenoteiterator i = Ch[channel].activenotes_find(note); + MIDIchannel::activenoteiterator i = m_midiChannels[channel].activenotes_find(note); if(i) { i->vol = velocity; - NoteUpdate(channel, i, Upd_Volume); + noteUpdate(channel, i, Upd_Volume); return false; } } channel = channel % 16; - NoteOff(channel, note); + noteOff(channel, note); // On Note on, Keyoff the note first, just in case keyoff // was omitted; this fixes Dance of sugar-plum fairy // by Microsoft. Now that we've done a Keyoff, @@ -260,7 +262,7 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) if(velocity == 0) return false; - MIDIchannel &midiChan = Ch[channel]; + MIDIchannel &midiChan = m_midiChannels[channel]; size_t midiins = midiChan.patch; bool isPercussion = (channel % 16 == 9) || midiChan.is_xg_percussion; @@ -299,14 +301,14 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) if(isPercussion) bank += OPL3::PercussionTag; - const adlinsdata2 *ains = &OPL3::emptyInstrument; + const adlinsdata2 *ains = &OPL3::m_emptyInstrument; //Set bank bank const OPL3::Bank *bnk = NULL; if((bank & ~(uint16_t)OPL3::PercussionTag) > 0) { - OPL3::BankMap::iterator b = opl.dynamic_banks.find(bank); - if(b != opl.dynamic_banks.end()) + OPL3::BankMap::iterator b = m_synth.m_insBanks.find(bank); + if(b != m_synth.m_insBanks.end()) bnk = &b->second; if(bnk) @@ -324,8 +326,8 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) //Or fall back to first bank if(ains->flags & adlinsdata::Flag_NoSound) { - OPL3::BankMap::iterator b = opl.dynamic_banks.find(bank & OPL3::PercussionTag); - if(b != opl.dynamic_banks.end()) + OPL3::BankMap::iterator b = m_synth.m_insBanks.find(bank & OPL3::PercussionTag); + if(b != m_synth.m_insBanks.end()) bnk = &b->second; if(bnk) @@ -340,7 +342,7 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) if(hooks.onDebugMessage) { if(caugh_missing_instruments.insert(static_cast<uint8_t>(midiins)).second) - hooks.onDebugMessage(hooks.onDebugMessage_userData, "[%i] Caught a blank instrument %i (offset %i) in the MIDI bank %u", channel, Ch[channel].patch, midiins, bank); + hooks.onDebugMessage(hooks.onDebugMessage_userData, "[%i] Caught a blank instrument %i (offset %i) in the MIDI bank %u", channel, m_midiChannels[channel].patch, midiins, bank); } bank = 0; midiins = midiChan.patch; @@ -376,7 +378,7 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) voices[1].pseudo4op = pseudo_4op; #endif /* __WATCOMC__ */ - if((opl.AdlPercussionMode == 1) && PercussionMap[midiins & 0xFF]) + if((m_synth.m_rhythmMode == 1) && PercussionMap[midiins & 0xFF]) voices[1] = voices[0];//i[1] = i[0]; if(hooks.onDebugMessage) @@ -402,7 +404,7 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) int32_t c = -1; int32_t bs = -0x7FFFFFFFl; - for(size_t a = 0; a < (size_t)opl.NumChannels; ++a) + for(size_t a = 0; a < (size_t)m_synth.m_numChannels; ++a) { if(ccount == 1 && static_cast<int32_t>(a) == adlchannel[0]) continue; // ^ Don't use the same channel for primary&secondary @@ -412,15 +414,15 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) // Only use regular channels uint8_t expected_mode = 0; - if(opl.AdlPercussionMode == 1) + if(m_synth.m_rhythmMode == 1) { - if(cmf_percussion_mode) + if(m_cmfPercussionMode) expected_mode = channel < 11 ? 0 : (3 + channel - 11); // CMF else expected_mode = PercussionMap[midiins & 0xFF]; } - if(opl.four_op_category[a] != expected_mode) + if(m_synth.m_channelCategory[a] != expected_mode) continue; } else @@ -428,7 +430,7 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) if(ccount == 0) { // Only use four-op master channels - if(opl.four_op_category[a] != 1) + if(m_synth.m_channelCategory[a] != 1) continue; } else @@ -439,7 +441,7 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) } } - int64_t s = CalculateAdlChannelGoodness(a, voices[ccount], channel); + int64_t s = calculateAdlChannelGoodness(a, voices[ccount]); if(s > bs) { bs = (int32_t)s; // Best candidate wins @@ -456,7 +458,7 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) continue; // Could not play this note. Ignore it. } - PrepareAdlChannelForNewNote(static_cast<size_t>(c), voices[ccount]); + prepareAdlChannelForNewNote(static_cast<size_t>(c), voices[ccount]); adlchannel[ccount] = c; } @@ -509,21 +511,21 @@ bool MIDIplay::realTime_NoteOn(uint8_t channel, uint8_t note, uint8_t velocity) ir.first->phys_ensure_find_or_create(chipChan)->assign(voices[ccount]); } - NoteUpdate(channel, ir.first, Upd_All | Upd_Patch); + noteUpdate(channel, ir.first, Upd_All | Upd_Patch); return true; } void MIDIplay::realTime_NoteOff(uint8_t channel, uint8_t note) { channel = channel % 16; - NoteOff(channel, note); + noteOff(channel, note); } void MIDIplay::realTime_NoteAfterTouch(uint8_t channel, uint8_t note, uint8_t atVal) { channel = channel % 16; - MIDIchannel &chan = Ch[channel]; - MIDIchannel::activenoteiterator i = Ch[channel].activenotes_find(note); + MIDIchannel &chan = m_midiChannels[channel]; + MIDIchannel::activenoteiterator i = m_midiChannels[channel].activenotes_find(note); if(i) { i->vibrato = atVal; @@ -543,7 +545,7 @@ void MIDIplay::realTime_NoteAfterTouch(uint8_t channel, uint8_t note, uint8_t at void MIDIplay::realTime_ChannelAfterTouch(uint8_t channel, uint8_t atVal) { channel = channel % 16; - Ch[channel].aftertouch = atVal; + m_midiChannels[channel].aftertouch = atVal; } void MIDIplay::realTime_Controller(uint8_t channel, uint8_t type, uint8_t value) @@ -553,89 +555,89 @@ void MIDIplay::realTime_Controller(uint8_t channel, uint8_t type, uint8_t value) { case 1: // Adjust vibrato //UI.PrintLn("%u:vibrato %d", MidCh,value); - Ch[channel].vibrato = value; + m_midiChannels[channel].vibrato = value; break; case 0: // Set bank msb (GM bank) - Ch[channel].bank_msb = value; + m_midiChannels[channel].bank_msb = value; if((m_synthMode & Mode_GS) == 0)// Don't use XG drums on GS synth mode - Ch[channel].is_xg_percussion = isXgPercChannel(Ch[channel].bank_msb, Ch[channel].bank_lsb); + m_midiChannels[channel].is_xg_percussion = isXgPercChannel(m_midiChannels[channel].bank_msb, m_midiChannels[channel].bank_lsb); break; case 32: // Set bank lsb (XG bank) - Ch[channel].bank_lsb = value; + m_midiChannels[channel].bank_lsb = value; if((m_synthMode & Mode_GS) == 0)// Don't use XG drums on GS synth mode - Ch[channel].is_xg_percussion = isXgPercChannel(Ch[channel].bank_msb, Ch[channel].bank_lsb); + m_midiChannels[channel].is_xg_percussion = isXgPercChannel(m_midiChannels[channel].bank_msb, m_midiChannels[channel].bank_lsb); break; case 5: // Set portamento msb - Ch[channel].portamento = static_cast<uint16_t>((Ch[channel].portamento & 0x7F) | (value << 7)); - UpdatePortamento(channel); + m_midiChannels[channel].portamento = static_cast<uint16_t>((m_midiChannels[channel].portamento & 0x7F) | (value << 7)); + updatePortamento(channel); break; case 37: // Set portamento lsb - Ch[channel].portamento = (Ch[channel].portamento & 0x3F80) | (value); - UpdatePortamento(channel); + m_midiChannels[channel].portamento = (m_midiChannels[channel].portamento & 0x3F80) | (value); + updatePortamento(channel); break; case 65: // Enable/disable portamento - Ch[channel].portamentoEnable = value >= 64; - UpdatePortamento(channel); + m_midiChannels[channel].portamentoEnable = value >= 64; + updatePortamento(channel); break; case 7: // Change volume - Ch[channel].volume = value; - NoteUpdate_All(channel, Upd_Volume); + m_midiChannels[channel].volume = value; + noteUpdateAll(channel, Upd_Volume); break; case 74: // Change brightness - Ch[channel].brightness = value; - NoteUpdate_All(channel, Upd_Volume); + m_midiChannels[channel].brightness = value; + noteUpdateAll(channel, Upd_Volume); break; case 64: // Enable/disable sustain - Ch[channel].sustain = (value >= 64); - if(!Ch[channel].sustain) - KillSustainingNotes(channel, -1, AdlChannel::LocationData::Sustain_Pedal); + m_midiChannels[channel].sustain = (value >= 64); + if(!m_midiChannels[channel].sustain) + killSustainingNotes(channel, -1, AdlChannel::LocationData::Sustain_Pedal); break; case 66: // Enable/disable sostenuto if(value >= 64) //Find notes and mark them as sostenutoed - MarkSostenutoNotes(channel); + markSostenutoNotes(channel); else - KillSustainingNotes(channel, -1, AdlChannel::LocationData::Sustain_Sostenuto); + killSustainingNotes(channel, -1, AdlChannel::LocationData::Sustain_Sostenuto); break; case 67: // Enable/disable soft-pedal - Ch[channel].softPedal = (value >= 64); + m_midiChannels[channel].softPedal = (value >= 64); break; case 11: // Change expression (another volume factor) - Ch[channel].expression = value; - NoteUpdate_All(channel, Upd_Volume); + m_midiChannels[channel].expression = value; + noteUpdateAll(channel, Upd_Volume); break; case 10: // Change panning - Ch[channel].panning = 0x00; - if(value < 64 + 32) Ch[channel].panning |= OPL_PANNING_LEFT; - if(value >= 64 - 32) Ch[channel].panning |= OPL_PANNING_RIGHT; + m_midiChannels[channel].panning = 0x00; + if(value < 64 + 32) m_midiChannels[channel].panning |= OPL_PANNING_LEFT; + if(value >= 64 - 32) m_midiChannels[channel].panning |= OPL_PANNING_RIGHT; - NoteUpdate_All(channel, Upd_Pan); + noteUpdateAll(channel, Upd_Pan); break; case 121: // Reset all controllers - Ch[channel].resetAllControllers(); - NoteUpdate_All(channel, Upd_Pan + Upd_Volume + Upd_Pitch); + m_midiChannels[channel].resetAllControllers(); + noteUpdateAll(channel, Upd_Pan + Upd_Volume + Upd_Pitch); // Kill all sustained notes - KillSustainingNotes(channel, -1, AdlChannel::LocationData::Sustain_ANY); + killSustainingNotes(channel, -1, AdlChannel::LocationData::Sustain_ANY); break; case 120: // All sounds off - NoteUpdate_All(channel, Upd_OffMute); + noteUpdateAll(channel, Upd_OffMute); break; case 123: // All notes off - NoteUpdate_All(channel, Upd_Off); + noteUpdateAll(channel, Upd_Off); break; case 91: @@ -654,38 +656,39 @@ void MIDIplay::realTime_Controller(uint8_t channel, uint8_t type, uint8_t value) break; // Phaser effect depth. We don't do. case 98: - Ch[channel].lastlrpn = value; - Ch[channel].nrpn = true; + m_midiChannels[channel].lastlrpn = value; + m_midiChannels[channel].nrpn = true; break; case 99: - Ch[channel].lastmrpn = value; - Ch[channel].nrpn = true; + m_midiChannels[channel].lastmrpn = value; + m_midiChannels[channel].nrpn = true; break; case 100: - Ch[channel].lastlrpn = value; - Ch[channel].nrpn = false; + m_midiChannels[channel].lastlrpn = value; + m_midiChannels[channel].nrpn = false; break; case 101: - Ch[channel].lastmrpn = value; - Ch[channel].nrpn = false; + m_midiChannels[channel].lastmrpn = value; + m_midiChannels[channel].nrpn = false; break; case 113: break; // Related to pitch-bender, used by missimp.mid in Duke3D case 6: - SetRPN(channel, value, true); + setRPN(channel, value, true); break; case 38: - SetRPN(channel, value, false); + setRPN(channel, value, false); break; case 103: - cmf_percussion_mode = (value != 0); + if(m_synth.m_musicMode == OPL3::MODE_CMF) + m_cmfPercussionMode = (value != 0); break; // CMF (ctrl 0x67) rhythm mode default: @@ -697,40 +700,40 @@ void MIDIplay::realTime_Controller(uint8_t channel, uint8_t type, uint8_t value) void MIDIplay::realTime_PatchChange(uint8_t channel, uint8_t patch) { channel = channel % 16; - Ch[channel].patch = patch; + m_midiChannels[channel].patch = patch; } void MIDIplay::realTime_PitchBend(uint8_t channel, uint16_t pitch) { channel = channel % 16; - Ch[channel].bend = int(pitch) - 8192; - NoteUpdate_All(channel, Upd_Pitch); + m_midiChannels[channel].bend = int(pitch) - 8192; + noteUpdateAll(channel, Upd_Pitch); } void MIDIplay::realTime_PitchBend(uint8_t channel, uint8_t msb, uint8_t lsb) { channel = channel % 16; - Ch[channel].bend = int(lsb) + int(msb) * 128 - 8192; - NoteUpdate_All(channel, Upd_Pitch); + m_midiChannels[channel].bend = int(lsb) + int(msb) * 128 - 8192; + noteUpdateAll(channel, Upd_Pitch); } void MIDIplay::realTime_BankChangeLSB(uint8_t channel, uint8_t lsb) { channel = channel % 16; - Ch[channel].bank_lsb = lsb; + m_midiChannels[channel].bank_lsb = lsb; } void MIDIplay::realTime_BankChangeMSB(uint8_t channel, uint8_t msb) { channel = channel % 16; - Ch[channel].bank_msb = msb; + m_midiChannels[channel].bank_msb = msb; } void MIDIplay::realTime_BankChange(uint8_t channel, uint16_t bank) { channel = channel % 16; - Ch[channel].bank_lsb = uint8_t(bank & 0xFF); - Ch[channel].bank_msb = uint8_t((bank >> 8) & 0xFF); + m_midiChannels[channel].bank_lsb = uint8_t(bank & 0xFF); + m_midiChannels[channel].bank_msb = uint8_t((bank >> 8) & 0xFF); } void MIDIplay::setDeviceId(uint8_t id) @@ -798,8 +801,8 @@ bool MIDIplay::doUniversalSysEx(unsigned dev, bool realtime, const uint8_t *data (((unsigned)data[0] & 0x7F)) | (((unsigned)data[1] & 0x7F) << 7); m_masterVolume = volume >> 7; - for(size_t ch = 0; ch < Ch.size(); ch++) - NoteUpdate_All(uint16_t(ch), Upd_Volume); + for(size_t ch = 0; ch < m_midiChannels.size(); ch++) + noteUpdateAll(uint16_t(ch), Upd_Volume); return true; } @@ -889,7 +892,7 @@ bool MIDIplay::doRolandSysEx(unsigned dev, const uint8_t *data, size_t size) { if(size != 1 || (dev & 0xF0) != 0x10) break; - if(Ch.size() < 16) + if(m_midiChannels.size() < 16) break; unsigned value = data[0] & 0x7F; const uint8_t channels_map[16] = @@ -900,7 +903,7 @@ bool MIDIplay::doRolandSysEx(unsigned dev, const uint8_t *data, size_t size) hooks.onDebugMessage(hooks.onDebugMessage_userData, "SysEx: Caught Roland Percussion set: %02X on channel %u (from %X)", value, channels_map[target_channel], target_channel); - Ch[channels_map[target_channel]].is_xg_percussion = ((value == 0x01)) || ((value == 0x02)); + m_midiChannels[channels_map[target_channel]].is_xg_percussion = ((value == 0x01)) || ((value == 0x02)); return true; } } @@ -955,19 +958,19 @@ bool MIDIplay::doYamahaSysEx(unsigned dev, const uint8_t *data, size_t size) void MIDIplay::realTime_panic() { - Panic(); - KillSustainingNotes(-1, -1, AdlChannel::LocationData::Sustain_ANY); + panic(); + killSustainingNotes(-1, -1, AdlChannel::LocationData::Sustain_ANY); } void MIDIplay::realTime_deviceSwitch(size_t track, const char *data, size_t length) { const std::string indata(data, length); - current_device[track] = ChooseDevice(indata); + m_currentMidiDevice[track] = chooseDevice(indata); } uint64_t MIDIplay::realTime_currentDevice(size_t track) { - return current_device[track]; + return m_currentMidiDevice[track]; } void MIDIplay::realTime_rawOPL(uint8_t reg, uint8_t value) @@ -976,7 +979,7 @@ void MIDIplay::realTime_rawOPL(uint8_t reg, uint8_t value) value |= 0x30; //std::printf("OPL poke %02X, %02X\n", reg, value); //std::fflush(stdout); - opl.Poke(0, reg, value); + m_synth.writeReg(0, reg, value); } #if defined(ADLMIDI_AUDIO_TICK_HANDLER) @@ -993,12 +996,12 @@ void MIDIplay::AudioTick(uint32_t chipId, uint32_t rate) if(tickNumber % portamentoInterval == 0) { double portamentoDelta = timeDelta * portamentoInterval; - UpdateGlide(portamentoDelta); + updateGlide(portamentoDelta); } } #endif -void MIDIplay::NoteUpdate(uint16_t MidCh, +void MIDIplay::noteUpdate(uint16_t midCh, MIDIplay::MIDIchannel::activenoteiterator i, unsigned props_mask, int32_t select_adlchn) @@ -1010,7 +1013,7 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, const int midiins = static_cast<int>(info.midiins); const adlinsdata2 &ains = *info.ains; AdlChannel::Location my_loc; - my_loc.MidCh = MidCh; + my_loc.MidCh = midCh; my_loc.note = info.note; for(unsigned ccount = 0, ctotal = info.chip_channels_count; ccount < ctotal; ccount++) @@ -1022,8 +1025,8 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, if(props_mask & Upd_Patch) { - opl.Patch(c, ins.ains); - AdlChannel::LocationData *d = ch[c].users_find_or_create(my_loc); + m_synth.setPatch(c, ins.ains); + AdlChannel::LocationData *d = m_chipChannels[c].users_find_or_create(my_loc); if(d) // inserts if necessary { d->sustained = AdlChannel::LocationData::Sustain_None; @@ -1045,27 +1048,27 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, if(props_mask & Upd_Off) // note off { - if(!Ch[MidCh].sustain) + if(!m_midiChannels[midCh].sustain) { - AdlChannel::LocationData *k = ch[c].users_find(my_loc); + AdlChannel::LocationData *k = m_chipChannels[c].users_find(my_loc); bool do_erase_user = (k && ((k->sustained & AdlChannel::LocationData::Sustain_Sostenuto) == 0)); if(do_erase_user) - ch[c].users_erase(k); + m_chipChannels[c].users_erase(k); if(hooks.onNote) hooks.onNote(hooks.onNote_userData, c, noteTone, midiins, 0, 0.0); - if(do_erase_user && ch[c].users_empty()) + if(do_erase_user && m_chipChannels[c].users_empty()) { - opl.NoteOff(c); + m_synth.noteOff(c); if(props_mask & Upd_Mute) // Mute the note { - opl.Touch_Real(c, 0); - ch[c].koff_time_until_neglible = 0; + m_synth.touchReal(c, 0); + m_chipChannels[c].koff_time_until_neglible = 0; } else { - ch[c].koff_time_until_neglible = ains.ms_sound_koff; + m_chipChannels[c].koff_time_until_neglible = ains.ms_sound_koff; } } } @@ -1073,7 +1076,7 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, { // Sustain: Forget about the note, but don't key it off. // Also will avoid overwriting it very soon. - AdlChannel::LocationData *d = ch[c].users_find_or_create(my_loc); + AdlChannel::LocationData *d = m_chipChannels[c].users_find_or_create(my_loc); if(d) d->sustained |= AdlChannel::LocationData::Sustain_Pedal; // note: not erased! if(hooks.onNote) @@ -1086,13 +1089,13 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, } if(props_mask & Upd_Pan) - opl.Pan(c, Ch[MidCh].panning); + m_synth.setPan(c, m_midiChannels[midCh].panning); if(props_mask & Upd_Volume) { uint32_t volume; - bool is_percussion = (MidCh == 9) || Ch[MidCh].is_xg_percussion; - uint8_t brightness = is_percussion ? 127 : Ch[MidCh].brightness; + bool is_percussion = (midCh == 9) || m_midiChannels[midCh].is_xg_percussion; + uint8_t brightness = is_percussion ? 127 : m_midiChannels[midCh].brightness; if(!m_setup.fullRangeBrightnessCC74) { @@ -1103,12 +1106,12 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, brightness *= 2; } - switch(opl.m_volumeScale) + switch(m_synth.m_volumeScale) { default: case OPL3::VOLUME_Generic: { - volume = vol * m_masterVolume * Ch[MidCh].volume * Ch[MidCh].expression; + volume = vol * m_masterVolume * m_midiChannels[midCh].volume * m_midiChannels[midCh].expression; /* If the channel has arpeggio, the effective volume of * *this* instrument is actually lower due to timesharing. @@ -1128,7 +1131,7 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, case OPL3::VOLUME_NATIVE: { - volume = vol * Ch[MidCh].volume * Ch[MidCh].expression; + volume = vol * m_midiChannels[midCh].volume * m_midiChannels[midCh].expression; // volume = volume * m_masterVolume / (127 * 127 * 127) / 2; volume = (volume * m_masterVolume) / 4096766; } @@ -1136,7 +1139,7 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, case OPL3::VOLUME_DMX: { - volume = 2 * (Ch[MidCh].volume * Ch[MidCh].expression * m_masterVolume / 16129) + 1; + volume = 2 * (m_midiChannels[midCh].volume * m_midiChannels[midCh].expression * m_masterVolume / 16129) + 1; //volume = 2 * (Ch[MidCh].volume) + 1; volume = (DMX_volume_mapping_table[(vol < 128) ? vol : 127] * volume) >> 9; } @@ -1144,7 +1147,7 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, case OPL3::VOLUME_APOGEE: { - volume = (Ch[MidCh].volume * Ch[MidCh].expression * m_masterVolume / 16129); + volume = (m_midiChannels[midCh].volume * m_midiChannels[midCh].expression * m_masterVolume / 16129); volume = ((64 * (vol + 0x80)) * volume) >> 15; //volume = ((63 * (vol + 0x80)) * Ch[MidCh].volume) >> 15; } @@ -1153,13 +1156,13 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, case OPL3::VOLUME_9X: { //volume = 63 - W9X_volume_mapping_table[(((vol * Ch[MidCh].volume /** Ch[MidCh].expression*/) * m_masterVolume / 16129 /*2048383*/) >> 2)]; - volume = 63 - W9X_volume_mapping_table[((vol * Ch[MidCh].volume * Ch[MidCh].expression * m_masterVolume / 2048383) >> 2)]; + volume = 63 - W9X_volume_mapping_table[((vol * m_midiChannels[midCh].volume * m_midiChannels[midCh].expression * m_masterVolume / 2048383) >> 2)]; //volume = W9X_volume_mapping_table[vol >> 2] + volume; } break; } - opl.Touch_Real(c, volume, brightness); + m_synth.touchReal(c, volume, brightness); /* DEBUG ONLY!!! static uint32_t max = 0; @@ -1177,15 +1180,15 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, if(props_mask & Upd_Pitch) { - AdlChannel::LocationData *d = ch[c].users_find(my_loc); + AdlChannel::LocationData *d = m_chipChannels[c].users_find(my_loc); // Don't bend a sustained note if(!d || (d->sustained == AdlChannel::LocationData::Sustain_None)) { - double midibend = Ch[MidCh].bend * Ch[MidCh].bendsense; + double midibend = m_midiChannels[midCh].bend * m_midiChannels[midCh].bendsense; double bend = midibend + ins.ains.finetune; double phase = 0.0; - uint8_t vibrato = std::max(Ch[MidCh].vibrato, Ch[MidCh].aftertouch); + uint8_t vibrato = std::max(m_midiChannels[midCh].vibrato, m_midiChannels[midCh].aftertouch); vibrato = std::max(vibrato, i->vibrato); if((ains.flags & adlinsdata::Flag_Pseudo4op) && ins.pseudo4op) @@ -1193,11 +1196,11 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, phase = ains.voice2_fine_tune;//0.125; // Detune the note slightly (this is what Doom does) } - if(vibrato && (!d || d->vibdelay >= Ch[MidCh].vibdelay)) - bend += static_cast<double>(vibrato) * Ch[MidCh].vibdepth * std::sin(Ch[MidCh].vibpos); + if(vibrato && (!d || d->vibdelay >= m_midiChannels[midCh].vibdelay)) + bend += static_cast<double>(vibrato) * m_midiChannels[midCh].vibdepth * std::sin(m_midiChannels[midCh].vibpos); #define BEND_COEFFICIENT 172.4387 - opl.NoteOn(c, BEND_COEFFICIENT * std::exp(0.057762265 * (currentTone + bend + phase))); + m_synth.noteOn(c, BEND_COEFFICIENT * std::exp(0.057762265 * (currentTone + bend + phase))); #undef BEND_COEFFICIENT if(hooks.onNote) hooks.onNote(hooks.onNote_userData, c, noteTone, midiins, vol, midibend); @@ -1208,8 +1211,18 @@ void MIDIplay::NoteUpdate(uint16_t MidCh, if(info.chip_channels_count == 0) { if(i->glideRate != HUGE_VAL) - --Ch[MidCh].gliding_note_count; - Ch[MidCh].activenotes_erase(i); + --m_midiChannels[midCh].gliding_note_count; + m_midiChannels[midCh].activenotes_erase(i); + } +} + +void MIDIplay::noteUpdateAll(size_t midCh, unsigned props_mask) +{ + for(MIDIchannel::activenoteiterator + i = m_midiChannels[midCh].activenotes_begin(); i;) + { + MIDIchannel::activenoteiterator j(i++); + noteUpdate(midCh, j, props_mask); } } @@ -1223,13 +1236,13 @@ void MIDIplay::setErrorString(const std::string &err) errorStringOut = err; } -int64_t MIDIplay::CalculateAdlChannelGoodness(size_t c, const MIDIchannel::NoteInfo::Phys &ins, uint16_t) const +int64_t MIDIplay::calculateAdlChannelGoodness(size_t c, const MIDIchannel::NoteInfo::Phys &ins) const { - int64_t s = (opl.m_musicMode != OPL3::MODE_CMF) ? -ch[c].koff_time_until_neglible : 0; + int64_t s = (m_synth.m_musicMode != OPL3::MODE_CMF) ? -m_chipChannels[c].koff_time_until_neglible : 0; // Same midi-instrument = some stability //if(c == MidCh) s += 4; - for(AdlChannel::LocationData *j = ch[c].users_first; j; j = j->next) + for(AdlChannel::LocationData *j = m_chipChannels[c].users_first; j; j = j->next) { s -= 4000; @@ -1239,7 +1252,7 @@ int64_t MIDIplay::CalculateAdlChannelGoodness(size_t c, const MIDIchannel::NoteI s -= (j->kon_time_until_neglible / 2); MIDIchannel::activenoteiterator - k = const_cast<MIDIchannel &>(Ch[j->loc.MidCh]).activenotes_find(j->loc.note); + k = const_cast<MIDIchannel &>(m_midiChannels[j->loc.MidCh]).activenotes_find(j->loc.note); if(k) { @@ -1270,14 +1283,14 @@ int64_t MIDIplay::CalculateAdlChannelGoodness(size_t c, const MIDIchannel::NoteI // increase the score slightly. unsigned n_evacuation_stations = 0; - for(size_t c2 = 0; c2 < static_cast<size_t>(opl.NumChannels); ++c2) + for(size_t c2 = 0; c2 < static_cast<size_t>(m_synth.m_numChannels); ++c2) { if(c2 == c) continue; - if(opl.four_op_category[c2] - != opl.four_op_category[c]) continue; + if(m_synth.m_channelCategory[c2] + != m_synth.m_channelCategory[c]) continue; - for(AdlChannel::LocationData *m = ch[c2].users_first; m; m = m->next) + for(AdlChannel::LocationData *m = m_chipChannels[c2].users_first; m; m = m->next) { if(m->sustained != AdlChannel::LocationData::Sustain_None) continue; if(m->vibdelay >= 200) continue; @@ -1293,12 +1306,12 @@ int64_t MIDIplay::CalculateAdlChannelGoodness(size_t c, const MIDIchannel::NoteI } -void MIDIplay::PrepareAdlChannelForNewNote(size_t c, const MIDIchannel::NoteInfo::Phys &ins) +void MIDIplay::prepareAdlChannelForNewNote(size_t c, const MIDIchannel::NoteInfo::Phys &ins) { - if(ch[c].users_empty()) return; // Nothing to do + if(m_chipChannels[c].users_empty()) return; // Nothing to do //bool doing_arpeggio = false; - for(AdlChannel::LocationData *jnext = ch[c].users_first; jnext;) + for(AdlChannel::LocationData *jnext = m_chipChannels[c].users_first; jnext;) { AdlChannel::LocationData *j = jnext; jnext = jnext->next; @@ -1308,7 +1321,7 @@ void MIDIplay::PrepareAdlChannelForNewNote(size_t c, const MIDIchannel::NoteInfo // Collision: Kill old note, // UNLESS we're going to do arpeggio MIDIchannel::activenoteiterator i - (Ch[j->loc.MidCh].activenotes_ensure_find(j->loc.note)); + (m_midiChannels[j->loc.MidCh].activenotes_ensure_find(j->loc.note)); // Check if we can do arpeggio. if((j->vibdelay < 70 @@ -1320,7 +1333,7 @@ void MIDIplay::PrepareAdlChannelForNewNote(size_t c, const MIDIchannel::NoteInfo continue; } - KillOrEvacuate(c, j, i); + killOrEvacuate(c, j, i); // ^ will also erase j from ch[c].users. } } @@ -1328,15 +1341,15 @@ void MIDIplay::PrepareAdlChannelForNewNote(size_t c, const MIDIchannel::NoteInfo // Kill all sustained notes on this channel // Don't keep them for arpeggio, because arpeggio requires // an intact "activenotes" record. This is a design flaw. - KillSustainingNotes(-1, static_cast<int32_t>(c), AdlChannel::LocationData::Sustain_ANY); + killSustainingNotes(-1, static_cast<int32_t>(c), AdlChannel::LocationData::Sustain_ANY); // Keyoff the channel so that it can be retriggered, // unless the new note will be introduced as just an arpeggio. - if(ch[c].users_empty()) - opl.NoteOff(c); + if(m_chipChannels[c].users_empty()) + m_synth.noteOff(c); } -void MIDIplay::KillOrEvacuate(size_t from_channel, +void MIDIplay::killOrEvacuate(size_t from_channel, AdlChannel::LocationData *j, MIDIplay::MIDIchannel::activenoteiterator i) { @@ -1345,7 +1358,7 @@ void MIDIplay::KillOrEvacuate(size_t from_channel, // instrument. This helps if e.g. all channels // are full of strings and we want to do percussion. // FIXME: This does not care about four-op entanglements. - for(uint32_t c = 0; c < opl.NumChannels; ++c) + for(uint32_t c = 0; c < m_synth.m_numChannels; ++c) { uint16_t cs = static_cast<uint16_t>(c); @@ -1353,10 +1366,10 @@ void MIDIplay::KillOrEvacuate(size_t from_channel, break; if(c == from_channel) continue; - if(opl.four_op_category[c] != opl.four_op_category[from_channel]) + if(m_synth.m_channelCategory[c] != m_synth.m_channelCategory[from_channel]) continue; - AdlChannel &adlch = ch[c]; + AdlChannel &adlch = m_chipChannels[c]; if(adlch.users_size == AdlChannel::users_max) continue; // no room for more arpeggio on channel @@ -1381,9 +1394,9 @@ void MIDIplay::KillOrEvacuate(size_t from_channel, i->phys_erase(static_cast<uint16_t>(from_channel)); i->phys_ensure_find_or_create(cs)->assign(j->ins); - if(!ch[cs].users_insert(*j)) + if(!m_chipChannels[cs].users_insert(*j)) assert(false); - ch[from_channel].users_erase(j); + m_chipChannels[from_channel].users_erase(j); return; } } @@ -1396,24 +1409,24 @@ void MIDIplay::KillOrEvacuate(size_t from_channel, ins );*/ // Kill it - NoteUpdate(j->loc.MidCh, + noteUpdate(j->loc.MidCh, i, Upd_Off, static_cast<int32_t>(from_channel)); } -void MIDIplay::Panic() +void MIDIplay::panic() { - for(uint8_t chan = 0; chan < Ch.size(); chan++) + for(uint8_t chan = 0; chan < m_midiChannels.size(); chan++) { for(uint8_t note = 0; note < 128; note++) realTime_NoteOff(chan, note); } } -void MIDIplay::KillSustainingNotes(int32_t MidCh, int32_t this_adlchn, uint8_t sustain_type) +void MIDIplay::killSustainingNotes(int32_t MidCh, int32_t this_adlchn, uint8_t sustain_type) { - uint32_t first = 0, last = opl.NumChannels; + uint32_t first = 0, last = m_synth.m_numChannels; if(this_adlchn >= 0) { @@ -1423,10 +1436,10 @@ void MIDIplay::KillSustainingNotes(int32_t MidCh, int32_t this_adlchn, uint8_t s for(uint32_t c = first; c < last; ++c) { - if(ch[c].users_empty()) + if(m_chipChannels[c].users_empty()) continue; // Nothing to do - for(AdlChannel::LocationData *jnext = ch[c].users_first; jnext;) + for(AdlChannel::LocationData *jnext = m_chipChannels[c].users_first; jnext;) { AdlChannel::LocationData *j = jnext; jnext = jnext->next; @@ -1439,25 +1452,25 @@ void MIDIplay::KillSustainingNotes(int32_t MidCh, int32_t this_adlchn, uint8_t s hooks.onNote(hooks.onNote_userData, (int)c, j->loc.note, midiins, 0, 0.0); j->sustained &= ~sustain_type; if((j->sustained == AdlChannel::LocationData::Sustain_None)) - ch[c].users_erase(j);//Remove only when note is clean from any holders + m_chipChannels[c].users_erase(j);//Remove only when note is clean from any holders } } // Keyoff the channel, if there are no users left. - if(ch[c].users_empty()) - opl.NoteOff(c); + if(m_chipChannels[c].users_empty()) + m_synth.noteOff(c); } } -void MIDIplay::MarkSostenutoNotes(int32_t MidCh) +void MIDIplay::markSostenutoNotes(int32_t MidCh) { - uint32_t first = 0, last = opl.NumChannels; + uint32_t first = 0, last = m_synth.m_numChannels; for(uint32_t c = first; c < last; ++c) { - if(ch[c].users_empty()) + if(m_chipChannels[c].users_empty()) continue; // Nothing to do - for(AdlChannel::LocationData *jnext = ch[c].users_first; jnext;) + for(AdlChannel::LocationData *jnext = m_chipChannels[c].users_first; jnext;) { AdlChannel::LocationData *j = jnext; jnext = jnext->next; @@ -1467,40 +1480,40 @@ void MIDIplay::MarkSostenutoNotes(int32_t MidCh) } } -void MIDIplay::SetRPN(unsigned MidCh, unsigned value, bool MSB) +void MIDIplay::setRPN(unsigned MidCh, unsigned value, bool MSB) { - bool nrpn = Ch[MidCh].nrpn; - unsigned addr = Ch[MidCh].lastmrpn * 0x100 + Ch[MidCh].lastlrpn; + bool nrpn = m_midiChannels[MidCh].nrpn; + unsigned addr = m_midiChannels[MidCh].lastmrpn * 0x100 + m_midiChannels[MidCh].lastlrpn; switch(addr + nrpn * 0x10000 + MSB * 0x20000) { case 0x0000 + 0*0x10000 + 1*0x20000: // Pitch-bender sensitivity - Ch[MidCh].bendsense_msb = value; - Ch[MidCh].updateBendSensitivity(); + m_midiChannels[MidCh].bendsense_msb = value; + m_midiChannels[MidCh].updateBendSensitivity(); break; case 0x0000 + 0*0x10000 + 0*0x20000: // Pitch-bender sensitivity LSB - Ch[MidCh].bendsense_lsb = value; - Ch[MidCh].updateBendSensitivity(); + m_midiChannels[MidCh].bendsense_lsb = value; + m_midiChannels[MidCh].updateBendSensitivity(); break; case 0x0108 + 1*0x10000 + 1*0x20000: if((m_synthMode & Mode_XG) != 0) // Vibrato speed { - if(value == 64) Ch[MidCh].vibspeed = 1.0; - else if(value < 100) Ch[MidCh].vibspeed = 1.0 / (1.6e-2 * (value ? value : 1)); - else Ch[MidCh].vibspeed = 1.0 / (0.051153846 * value - 3.4965385); - Ch[MidCh].vibspeed *= 2 * 3.141592653 * 5.0; + if(value == 64) m_midiChannels[MidCh].vibspeed = 1.0; + else if(value < 100) m_midiChannels[MidCh].vibspeed = 1.0 / (1.6e-2 * (value ? value : 1)); + else m_midiChannels[MidCh].vibspeed = 1.0 / (0.051153846 * value - 3.4965385); + m_midiChannels[MidCh].vibspeed *= 2 * 3.141592653 * 5.0; } break; case 0x0109 + 1*0x10000 + 1*0x20000: if((m_synthMode & Mode_XG) != 0) // Vibrato depth { - Ch[MidCh].vibdepth = ((value - 64) * 0.15) * 0.01; + m_midiChannels[MidCh].vibdepth = ((value - 64) * 0.15) * 0.01; } break; case 0x010A + 1*0x10000 + 1*0x20000: if((m_synthMode & Mode_XG) != 0) // Vibrato delay in millisecons { - Ch[MidCh].vibdelay = value ? int64_t(0.2092 * std::exp(0.0795 * (double)value)) : 0; + m_midiChannels[MidCh].vibdelay = value ? int64_t(0.2092 * std::exp(0.0795 * (double)value)) : 0; } break; default:/* UI.PrintLn("%s %04X <- %d (%cSB) (ch %u)", @@ -1509,63 +1522,53 @@ void MIDIplay::SetRPN(unsigned MidCh, unsigned value, bool MSB) } } -void MIDIplay::UpdatePortamento(unsigned MidCh) +void MIDIplay::updatePortamento(size_t midCh) { double rate = HUGE_VAL; - uint16_t midival = Ch[MidCh].portamento; - if(Ch[MidCh].portamentoEnable && midival > 0) + uint16_t midival = m_midiChannels[midCh].portamento; + if(m_midiChannels[midCh].portamentoEnable && midival > 0) rate = 350.0 * std::pow(2.0, -0.062 * (1.0 / 128) * midival); - Ch[MidCh].portamentoRate = rate; + m_midiChannels[midCh].portamentoRate = rate; } -void MIDIplay::NoteUpdate_All(uint16_t MidCh, unsigned props_mask) -{ - for(MIDIchannel::activenoteiterator - i = Ch[MidCh].activenotes_begin(); i;) - { - MIDIchannel::activenoteiterator j(i++); - NoteUpdate(MidCh, j, props_mask); - } -} -void MIDIplay::NoteOff(uint16_t MidCh, uint8_t note) +void MIDIplay::noteOff(uint16_t midCh, uint8_t note) { MIDIchannel::activenoteiterator - i = Ch[MidCh].activenotes_find(note); - + i = m_midiChannels[midCh].activenotes_find(note); if(i) - NoteUpdate(MidCh, i, Upd_Off); + noteUpdate(midCh, i, Upd_Off); } -void MIDIplay::UpdateVibrato(double amount) +void MIDIplay::updateVibrato(double amount) { - for(size_t a = 0, b = Ch.size(); a < b; ++a) + for(size_t a = 0, b = m_midiChannels.size(); a < b; ++a) { - if(Ch[a].hasVibrato() && !Ch[a].activenotes_empty()) + if(m_midiChannels[a].hasVibrato() && !m_midiChannels[a].activenotes_empty()) { - NoteUpdate_All(static_cast<uint16_t>(a), Upd_Pitch); - Ch[a].vibpos += amount * Ch[a].vibspeed; + noteUpdateAll(static_cast<uint16_t>(a), Upd_Pitch); + m_midiChannels[a].vibpos += amount * m_midiChannels[a].vibspeed; } else - Ch[a].vibpos = 0.0; + m_midiChannels[a].vibpos = 0.0; } } -uint64_t MIDIplay::ChooseDevice(const std::string &name) +uint64_t MIDIplay::chooseDevice(const std::string &name) { - std::map<std::string, uint64_t>::iterator i = devices.find(name); + std::map<std::string, uint64_t>::iterator i = m_midiDevices.find(name); - if(i != devices.end()) + if(i != m_midiDevices.end()) return i->second; - size_t n = devices.size() * 16; - devices.insert(std::make_pair(name, n)); - Ch.resize(n + 16); + size_t n = m_midiDevices.size() * 16; + m_midiDevices.insert(std::make_pair(name, n)); + m_midiChannels.resize(n + 16); return n; } -void MIDIplay::UpdateArpeggio(double) // amount = amount of time passed +void MIDIplay::updateArpeggio(double) // amount = amount of time passed { // If there is an adlib channel that has multiple notes // simulated on the same channel, arpeggio them. @@ -1591,17 +1594,17 @@ void MIDIplay::UpdateArpeggio(double) // amount = amount of time passed ++m_arpeggioCounter; - for(uint32_t c = 0; c < opl.NumChannels; ++c) + for(uint32_t c = 0; c < m_synth.m_numChannels; ++c) { retry_arpeggio: if(c > uint32_t(std::numeric_limits<int32_t>::max())) break; - size_t n_users = ch[c].users_size; + size_t n_users = m_chipChannels[c].users_size; if(n_users > 1) { - AdlChannel::LocationData *i = ch[c].users_first; + AdlChannel::LocationData *i = m_chipChannels[c].users_first; size_t rate_reduction = 3; if(n_users >= 3) @@ -1618,17 +1621,17 @@ retry_arpeggio: { if(i->kon_time_until_neglible <= 0l) { - NoteUpdate( + noteUpdate( i->loc.MidCh, - Ch[ i->loc.MidCh ].activenotes_ensure_find(i->loc.note), + m_midiChannels[ i->loc.MidCh ].activenotes_ensure_find(i->loc.note), Upd_Off, static_cast<int32_t>(c)); goto retry_arpeggio; } - NoteUpdate( + noteUpdate( i->loc.MidCh, - Ch[ i->loc.MidCh ].activenotes_ensure_find(i->loc.note), + m_midiChannels[ i->loc.MidCh ].activenotes_ensure_find(i->loc.note), Upd_Pitch | Upd_Volume | Upd_Pan, static_cast<int32_t>(c)); } @@ -1636,13 +1639,13 @@ retry_arpeggio: } } -void MIDIplay::UpdateGlide(double amount) +void MIDIplay::updateGlide(double amount) { - size_t num_channels = Ch.size(); + size_t num_channels = m_midiChannels.size(); for(size_t channel = 0; channel < num_channels; ++channel) { - MIDIchannel &midiChan = Ch[channel]; + MIDIchannel &midiChan = m_midiChannels[channel]; if(midiChan.gliding_note_count == 0) continue; @@ -1662,7 +1665,7 @@ void MIDIplay::UpdateGlide(double amount) if(currentTone != previousTone) { it->currentTone = currentTone; - NoteUpdate(static_cast<uint16_t>(channel), it, Upd_Pitch); + noteUpdate(static_cast<uint16_t>(channel), it, Upd_Pitch); } } } @@ -1683,11 +1686,15 @@ struct AdlInstrumentTester::Impl ADLMIDI_EXPORT AdlInstrumentTester::AdlInstrumentTester(ADL_MIDIPlayer *device) : P(new Impl) { +#ifndef DISABLE_EMBEDDED_BANKS MIDIplay *play = reinterpret_cast<MIDIplay *>(device->adl_midiPlayer); P->cur_gm = 0; P->ins_idx = 0; P->play = play; - P->opl = play ? &play->opl : NULL; + P->opl = play ? &play->m_synth : NULL; +#else + ADL_UNUSED(device); +#endif } ADLMIDI_EXPORT AdlInstrumentTester::~AdlInstrumentTester() @@ -1697,6 +1704,7 @@ ADLMIDI_EXPORT AdlInstrumentTester::~AdlInstrumentTester() ADLMIDI_EXPORT void AdlInstrumentTester::FindAdlList() { +#ifndef DISABLE_EMBEDDED_BANKS const unsigned NumBanks = (unsigned)adl_getBanksCount(); std::set<unsigned> adl_ins_set; for(unsigned bankno = 0; bankno < NumBanks; ++bankno) @@ -1704,27 +1712,34 @@ ADLMIDI_EXPORT void AdlInstrumentTester::FindAdlList() P->adl_ins_list.assign(adl_ins_set.begin(), adl_ins_set.end()); P->ins_idx = 0; NextAdl(0); - P->opl->Silence(); + P->opl->silenceAll(); +#endif } ADLMIDI_EXPORT void AdlInstrumentTester::Touch(unsigned c, unsigned volume) // Volume maxes at 127*127*127 { +#ifndef DISABLE_EMBEDDED_BANKS OPL3 *opl = P->opl; if(opl->m_volumeScale == OPL3::VOLUME_NATIVE) - opl->Touch_Real(c, volume * 127 / (127 * 127 * 127) / 2); + opl->touchReal(c, volume * 127 / (127 * 127 * 127) / 2); else { // The formula below: SOLVE(V=127^3 * 2^( (A-63.49999) / 8), A) - opl->Touch_Real(c, volume > 8725 ? static_cast<unsigned int>(std::log((double)volume) * 11.541561 + (0.5 - 104.22845)) : 0); + opl->touchReal(c, volume > 8725 ? static_cast<unsigned int>(std::log((double)volume) * 11.541561 + (0.5 - 104.22845)) : 0); // The incorrect formula below: SOLVE(V=127^3 * (2^(A/63)-1), A) //Touch_Real(c, volume>11210 ? 91.61112 * std::log(4.8819E-7*volume + 1.0)+0.5 : 0); } +#else + ADL_UNUSED(c); + ADL_UNUSED(volume); +#endif } ADLMIDI_EXPORT void AdlInstrumentTester::DoNote(int note) { +#ifndef DISABLE_EMBEDDED_BANKS MIDIplay *play = P->play; OPL3 *opl = P->opl; if(P->adl_ins_list.empty()) FindAdlList(); @@ -1763,27 +1778,35 @@ ADLMIDI_EXPORT void AdlInstrumentTester::DoNote(int note) } } - opl->NoteOff(0); - opl->NoteOff(3); - opl->NoteOff(6); + opl->noteOff(0); + opl->noteOff(3); + opl->noteOff(6); for(unsigned c = 0; c < 2; ++c) { if(adlchannel[c] < 0) continue; - opl->Patch((uint16_t)adlchannel[c], ains.adl[c]); - opl->Touch_Real((uint16_t)adlchannel[c], 127 * 127 * 100); - opl->Pan((uint16_t)adlchannel[c], 0x30); - opl->NoteOn((uint16_t)adlchannel[c], hertz); + opl->setPatch(static_cast<size_t>(adlchannel[c]), ains.adl[c]); + opl->touchReal(static_cast<size_t>(adlchannel[c]), 63); + opl->setPan(static_cast<size_t>(adlchannel[c]), 0x30); + opl->noteOn(static_cast<size_t>(adlchannel[c]), hertz); } +#else + ADL_UNUSED(note); +#endif } ADLMIDI_EXPORT void AdlInstrumentTester::NextGM(int offset) { +#ifndef DISABLE_EMBEDDED_BANKS P->cur_gm = (P->cur_gm + 256 + (uint32_t)offset) & 0xFF; FindAdlList(); +#else + ADL_UNUSED(offset); +#endif } ADLMIDI_EXPORT void AdlInstrumentTester::NextAdl(int offset) { +#ifndef DISABLE_EMBEDDED_BANKS //OPL3 *opl = P->opl; if(P->adl_ins_list.empty()) FindAdlList(); const unsigned NumBanks = (unsigned)adl_getBanksCount(); @@ -1829,10 +1852,14 @@ ADLMIDI_EXPORT void AdlInstrumentTester::NextAdl(int offset) std::printf("\n"); } +#else + ADL_UNUSED(offset); +#endif } ADLMIDI_EXPORT bool AdlInstrumentTester::HandleInputChar(char ch) { +#ifndef DISABLE_EMBEDDED_BANKS static const char notes[] = "zsxdcvgbhnjmq2w3er5t6y7ui9o0p"; // c'd'ef'g'a'bC'D'EF'G'A'Bc'd'e switch(ch) @@ -1867,6 +1894,9 @@ ADLMIDI_EXPORT bool AdlInstrumentTester::HandleInputChar(char ch) if(p && *p) DoNote((int)(p - notes) - 12); } +#else + ADL_UNUSED(ch); +#endif return true; } |