From c2d39e91527450f9e592fc06a533ac3b183fa91c Mon Sep 17 00:00:00 2001 From: Johannes Schickel Date: Sun, 30 Sep 2012 21:08:40 +0200 Subject: AUDIO: Enforce method naming guidelines in adlib.cpp. --- audio/softsynth/adlib.cpp | 232 +++++++++++++++++++++++----------------------- 1 file changed, 116 insertions(+), 116 deletions(-) diff --git a/audio/softsynth/adlib.cpp b/audio/softsynth/adlib.cpp index bf13ad18e7..d71dca1a30 100644 --- a/audio/softsynth/adlib.cpp +++ b/audio/softsynth/adlib.cpp @@ -516,7 +516,7 @@ static const byte g_volumeTable[] = { 62, 63, 63, 63 }; -static int lookup_volume(int a, int b) { +static int lookupVolume(int a, int b) { if (b == 0) return 0; @@ -542,7 +542,7 @@ static int lookup_volume(int a, int b) { } } -static void create_lookup_table() { +static void createLookupTable() { int i, j; int sum; @@ -606,36 +606,36 @@ private: void generateSamples(int16 *buf, int len); void onTimer(); - void part_key_on(AdLibPart *part, AdLibInstrument *instr, byte note, byte velocity); - void part_key_off(AdLibPart *part, byte note); - - void adlib_key_off(int chan); - void adlib_note_on(int chan, byte note, int mod); - void adlib_note_on_ex(int chan, byte note, int mod); - int adlib_get_reg_value_param(int chan, byte data); - void adlib_setup_channel(int chan, AdLibInstrument *instr, byte vol1, byte vol2); - byte adlib_get_reg_value(byte reg) { + void partKeyOn(AdLibPart *part, AdLibInstrument *instr, byte note, byte velocity); + void partKeyOff(AdLibPart *part, byte note); + + void adlibKeyOff(int chan); + void adlibNoteOn(int chan, byte note, int mod); + void adlibNoteOnEx(int chan, byte note, int mod); + int adlibGetRegValueParam(int chan, byte data); + void adlibSetupChannel(int chan, AdLibInstrument *instr, byte vol1, byte vol2); + byte adlibGetRegValue(byte reg) { return _regCache[reg]; } - void adlib_set_param(int channel, byte param, int value); - void adlib_key_onoff(int channel); - void adlib_write(byte reg, byte value); - void adlib_playnote(int channel, int note); + void adlibSetParam(int channel, byte param, int value); + void adlibKeyOnOff(int channel); + void adlibWrite(byte reg, byte value); + void adlibPlayNote(int channel, int note); - AdLibVoice *allocate_voice(byte pri); + AdLibVoice *allocateVoice(byte pri); - void mc_off(AdLibVoice *voice); + void mcOff(AdLibVoice *voice); - static void link_mc(AdLibPart *part, AdLibVoice *voice); - void mc_inc_stuff(AdLibVoice *voice, Struct10 *s10, Struct11 *s11); - void mc_init_stuff(AdLibVoice *voice, Struct10 *s10, Struct11 *s11, byte flags, + static void linkMc(AdLibPart *part, AdLibVoice *voice); + void mcIncStuff(AdLibVoice *voice, Struct10 *s10, Struct11 *s11); + void mcInitStuff(AdLibVoice *voice, Struct10 *s10, Struct11 *s11, byte flags, InstrumentExtra *ie); - void struct10_init(Struct10 *s10, InstrumentExtra *ie); - static byte struct10_ontimer(Struct10 *s10, Struct11 *s11); - static void struct10_setup(Struct10 *s10); - static int random_nr(int a); - void mc_key_on(AdLibVoice *voice, AdLibInstrument *instr, byte note, byte velocity); + void struct10Init(Struct10 *s10, InstrumentExtra *ie); + static byte struct10OnTimer(Struct10 *s10, Struct11 *s11); + static void struct10Setup(Struct10 *s10); + static int randomNr(int a); + void mcKeyOn(AdLibVoice *voice, AdLibInstrument *instr, byte note, byte velocity); }; // MidiChannel method implementations @@ -659,14 +659,14 @@ void AdLibPart::noteOff(byte note) { #ifdef DEBUG_ADLIB debug(6, "%10d: noteOff(%d)", g_tick, note); #endif - _owner->part_key_off(this, note); + _owner->partKeyOff(this, note); } void AdLibPart::noteOn(byte note, byte velocity) { #ifdef DEBUG_ADLIB debug(6, "%10d: noteOn(%d,%d)", g_tick, note, velocity); #endif - _owner->part_key_on(this, &_partInstr, note, velocity); + _owner->partKeyOn(this, &_partInstr, note, velocity); } void AdLibPart::programChange(byte program) { @@ -690,7 +690,7 @@ void AdLibPart::pitchBend(int16 bend) { _pitchBend = bend; for (voice = _voice; voice; voice = voice->_next) { - _owner->adlib_note_on(voice->_channel, voice->_note + _transposeEff, + _owner->adlibNoteOn(voice->_channel, voice->_note + _transposeEff, (_pitchBend * _pitchBendFactor >> 6) + _detuneEff); } } @@ -763,9 +763,9 @@ void AdLibPart::volume(byte value) { _volEff = value; for (voice = _voice; voice; voice = voice->_next) { - _owner->adlib_set_param(voice->_channel, 0, g_volumeTable[g_volumeLookupTable[voice->_vol2][_volEff >> 2]]); + _owner->adlibSetParam(voice->_channel, 0, g_volumeTable[g_volumeLookupTable[voice->_vol2][_volEff >> 2]]); if (voice->_twoChan) { - _owner->adlib_set_param(voice->_channel, 13, g_volumeTable[g_volumeLookupTable[voice->_vol1][_volEff >> 2]]); + _owner->adlibSetParam(voice->_channel, 13, g_volumeTable[g_volumeLookupTable[voice->_vol1][_volEff >> 2]]); } } } @@ -775,7 +775,7 @@ void AdLibPart::pitchBendFactor(byte value) { _pitchBendFactor = value; for (voice = _voice; voice; voice = voice->_next) { - _owner->adlib_note_on(voice->_channel, voice->_note + _transposeEff, + _owner->adlibNoteOn(voice->_channel, voice->_note + _transposeEff, (_pitchBend * _pitchBendFactor >> 6) + _detuneEff); } } @@ -785,7 +785,7 @@ void AdLibPart::detune(byte value) { _detuneEff = value; for (voice = _voice; voice; voice = voice->_next) { - _owner->adlib_note_on(voice->_channel, voice->_note + _transposeEff, + _owner->adlibNoteOn(voice->_channel, voice->_note + _transposeEff, (_pitchBend * _pitchBendFactor >> 6) + _detuneEff); } } @@ -801,14 +801,14 @@ void AdLibPart::sustain(bool value) { if (!value) { for (voice = _voice; voice; voice = voice->_next) { if (voice->_waitForPedal) - _owner->mc_off(voice); + _owner->mcOff(voice); } } } void AdLibPart::allNotesOff() { while (_voice) - _owner->mc_off(_voice); + _owner->mcOff(_voice); } void AdLibPart::sysEx_customInstrument(uint32 type, const byte *instr) { @@ -846,7 +846,7 @@ void AdLibPercussionChannel::noteOff(byte note) { // not prevent later musical instruments (or even other // percussion sounds) from playing. /* - _owner->part_key_off(this, note); + _owner->partKeyOff(this, note); */ } @@ -870,7 +870,7 @@ void AdLibPercussionChannel::noteOn(byte note, byte velocity) { return; } - _owner->part_key_on(this, inst, note, velocity); + _owner->partKeyOn(this, inst, note, velocity); } void AdLibPercussionChannel::sysEx_customInstrument(uint32 type, const byte *instr) { @@ -942,10 +942,10 @@ int MidiDriver_ADLIB::open() { _opl = makeAdLibOPL(getRate()); - adlib_write(1, 0x20); - adlib_write(8, 0x40); - adlib_write(0xBD, 0x00); - create_lookup_table(); + adlibWrite(1, 0x20); + adlibWrite(8, 0x40); + adlibWrite(0xBD, 0x00); + createLookupTable(); _mixer->playStream(Audio::Mixer::kPlainSoundType, &_mixerSoundHandle, this, -1, Audio::Mixer::kMaxChannelVolume, 0, DisposeAfterUse::NO, true); @@ -962,7 +962,7 @@ void MidiDriver_ADLIB::close() { uint i; for (i = 0; i < ARRAYSIZE(_voices); ++i) { if (_voices[i]._part) - mc_off(&_voices[i]); + mcOff(&_voices[i]); } // Turn off the OPL emulation @@ -1042,7 +1042,7 @@ void MidiDriver_ADLIB::setPitchBendRange(byte channel, uint range) { part->_pitchBendFactor = range; for (voice = part->_voice; voice; voice = voice->_next) { - adlib_note_on(voice->_channel, voice->_note + part->_transposeEff, + adlibNoteOn(voice->_channel, voice->_note + part->_transposeEff, (part->_pitchBend * part->_pitchBendFactor >> 6) + part->_detuneEff); } } @@ -1067,11 +1067,11 @@ MidiChannel *MidiDriver_ADLIB::allocateChannel() { // All the code brought over from IMuseAdLib -void MidiDriver_ADLIB::adlib_write(byte reg, byte value) { +void MidiDriver_ADLIB::adlibWrite(byte reg, byte value) { if (_regCache[reg] == value) return; #ifdef DEBUG_ADLIB - debug(6, "%10d: adlib_write[%x] = %x", g_tick, reg, value); + debug(6, "%10d: adlibWrite[%x] = %x", g_tick, reg, value); #endif _regCache[reg] = value; @@ -1098,23 +1098,23 @@ void MidiDriver_ADLIB::onTimer() { if (!voice->_part) continue; if (voice->_duration && (voice->_duration -= 0x11) <= 0) { - mc_off(voice); + mcOff(voice); return; } if (voice->_s10a.active) { - mc_inc_stuff(voice, &voice->_s10a, &voice->_s11a); + mcIncStuff(voice, &voice->_s10a, &voice->_s11a); } if (voice->_s10b.active) { - mc_inc_stuff(voice, &voice->_s10b, &voice->_s11b); + mcIncStuff(voice, &voice->_s10b, &voice->_s11b); } } } } -void MidiDriver_ADLIB::mc_off(AdLibVoice *voice) { +void MidiDriver_ADLIB::mcOff(AdLibVoice *voice) { AdLibVoice *tmp; - adlib_key_off(voice->_channel); + adlibKeyOff(voice->_channel); tmp = voice->_prev; @@ -1127,32 +1127,32 @@ void MidiDriver_ADLIB::mc_off(AdLibVoice *voice) { voice->_part = NULL; } -void MidiDriver_ADLIB::mc_inc_stuff(AdLibVoice *voice, Struct10 *s10, Struct11 *s11) { +void MidiDriver_ADLIB::mcIncStuff(AdLibVoice *voice, Struct10 *s10, Struct11 *s11) { byte code; AdLibPart *part = voice->_part; - code = struct10_ontimer(s10, s11); + code = struct10OnTimer(s10, s11); if (code & 1) { switch (s11->param) { case 0: voice->_vol2 = s10->startValue + s11->modifyVal; if (!_scummSmallHeader) { - adlib_set_param(voice->_channel, 0, + adlibSetParam(voice->_channel, 0, g_volumeTable[g_volumeLookupTable[voice->_vol2] [part->_volEff >> 2]]); } else { - adlib_set_param(voice->_channel, 0, voice->_vol2); + adlibSetParam(voice->_channel, 0, voice->_vol2); } break; case 13: voice->_vol1 = s10->startValue + s11->modifyVal; if (voice->_twoChan && !_scummSmallHeader) { - adlib_set_param(voice->_channel, 13, + adlibSetParam(voice->_channel, 13, g_volumeTable[g_volumeLookupTable[voice->_vol1] [part->_volEff >> 2]]); } else { - adlib_set_param(voice->_channel, 13, voice->_vol1); + adlibSetParam(voice->_channel, 13, voice->_vol1); } break; case 30: @@ -1162,22 +1162,22 @@ void MidiDriver_ADLIB::mc_inc_stuff(AdLibVoice *voice, Struct10 *s10, Struct11 * s11->s10->unk3 = (char)s11->modifyVal; break; default: - adlib_set_param(voice->_channel, s11->param, + adlibSetParam(voice->_channel, s11->param, s10->startValue + s11->modifyVal); break; } } if (code & 2 && s11->flag0x10) - adlib_key_onoff(voice->_channel); + adlibKeyOnOff(voice->_channel); } -void MidiDriver_ADLIB::adlib_key_off(int chan) { +void MidiDriver_ADLIB::adlibKeyOff(int chan) { byte reg = chan + 0xB0; - adlib_write(reg, adlib_get_reg_value(reg) & ~0x20); + adlibWrite(reg, adlibGetRegValue(reg) & ~0x20); } -byte MidiDriver_ADLIB::struct10_ontimer(Struct10 *s10, Struct11 *s11) { +byte MidiDriver_ADLIB::struct10OnTimer(Struct10 *s10, Struct11 *s11) { byte result = 0; int i; @@ -1195,7 +1195,7 @@ byte MidiDriver_ADLIB::struct10_ontimer(Struct10 *s10, Struct11 *s11) { if (s10->curVal != i || s10->modWheel != s10->modWheelLast) { s10->curVal = i; s10->modWheelLast = s10->modWheel; - i = lookup_volume(i, s10->modWheelLast); + i = lookupVolume(i, s10->modWheelLast); if (i != s11->modifyVal) { s11->modifyVal = i; result = 1; @@ -1208,19 +1208,19 @@ byte MidiDriver_ADLIB::struct10_ontimer(Struct10 *s10, Struct11 *s11) { if (s10->loop) { s10->active = 1; result |= 2; - struct10_setup(s10); + struct10Setup(s10); } else { s10->active = 0; } } else { - struct10_setup(s10); + struct10Setup(s10); } } return result; } -void MidiDriver_ADLIB::adlib_set_param(int channel, byte param, int value) { +void MidiDriver_ADLIB::adlibSetParam(int channel, byte param, int value) { const AdLibSetParams *as; byte reg; @@ -1241,7 +1241,7 @@ void MidiDriver_ADLIB::adlib_set_param(int channel, byte param, int value) { value -= 383; value <<= 4; _channelTable2[channel] = value; - adlib_playnote(channel, _curNotTable[channel] + value); + adlibPlayNote(channel, _curNotTable[channel] + value); return; } else { return; @@ -1251,20 +1251,20 @@ void MidiDriver_ADLIB::adlib_set_param(int channel, byte param, int value) { if (as->d) value = as->d - value; reg += as->a; - adlib_write(reg, (adlib_get_reg_value(reg) & ~as->c) | (((byte)value) << as->b)); + adlibWrite(reg, (adlibGetRegValue(reg) & ~as->c) | (((byte)value) << as->b)); } -void MidiDriver_ADLIB::adlib_key_onoff(int channel) { +void MidiDriver_ADLIB::adlibKeyOnOff(int channel) { byte val; byte reg = channel + 0xB0; assert(channel >= 0 && channel < 9); - val = adlib_get_reg_value(reg); - adlib_write(reg, val & ~0x20); - adlib_write(reg, val | 0x20); + val = adlibGetRegValue(reg); + adlibWrite(reg, val & ~0x20); + adlibWrite(reg, val | 0x20); } -void MidiDriver_ADLIB::struct10_setup(Struct10 *s10) { +void MidiDriver_ADLIB::struct10Setup(Struct10 *s10) { int b, c, d, e, f, g, h; byte t; @@ -1274,7 +1274,7 @@ void MidiDriver_ADLIB::struct10_setup(Struct10 *s10) { t = s10->tableA[f]; e = g_numStepsTable[g_volumeLookupTable[t & 0x7F][b]]; if (t & 0x80) { - e = random_nr(e); + e = randomNr(e); } if (e == 0) e++; @@ -1285,9 +1285,9 @@ void MidiDriver_ADLIB::struct10_setup(Struct10 *s10) { c = s10->maxValue; g = s10->startValue; t = s10->tableB[f]; - d = lookup_volume(c, (t & 0x7F) - 31); + d = lookupVolume(c, (t & 0x7F) - 31); if (t & 0x80) { - d = random_nr(d); + d = randomNr(d); } if (d + g > c) { h = c - g; @@ -1313,7 +1313,7 @@ void MidiDriver_ADLIB::struct10_setup(Struct10 *s10) { s10->speedLoCounter = 0; } -void MidiDriver_ADLIB::adlib_playnote(int channel, int note) { +void MidiDriver_ADLIB::adlibPlayNote(int channel, int note) { byte old, oct, notex; int note2; int i; @@ -1328,7 +1328,7 @@ void MidiDriver_ADLIB::adlib_playnote(int channel, int note) { oct <<= 2; notex = note2 % 12 + 3; - old = adlib_get_reg_value(channel + 0xB0); + old = adlibGetRegValue(channel + 0xB0); if (old & 0x20) { old &= ~0x20; if (oct > old) { @@ -1345,11 +1345,11 @@ void MidiDriver_ADLIB::adlib_playnote(int channel, int note) { } i = (notex << 3) + ((note >> 4) & 0x7); - adlib_write(channel + 0xA0, g_noteFrequencies[i]); - adlib_write(channel + 0xB0, oct | 0x20); + adlibWrite(channel + 0xA0, g_noteFrequencies[i]); + adlibWrite(channel + 0xB0, oct | 0x20); } -int MidiDriver_ADLIB::random_nr(int a) { +int MidiDriver_ADLIB::randomNr(int a) { static byte _randSeed = 1; if (_randSeed & 1) { _randSeed >>= 1; @@ -1360,7 +1360,7 @@ int MidiDriver_ADLIB::random_nr(int a) { return _randSeed * a >> 8; } -void MidiDriver_ADLIB::part_key_off(AdLibPart *part, byte note) { +void MidiDriver_ADLIB::partKeyOff(AdLibPart *part, byte note) { AdLibVoice *voice; for (voice = part->_voice; voice; voice = voice->_next) { @@ -1368,23 +1368,23 @@ void MidiDriver_ADLIB::part_key_off(AdLibPart *part, byte note) { if (part->_pedal) voice->_waitForPedal = true; else - mc_off(voice); + mcOff(voice); } } } -void MidiDriver_ADLIB::part_key_on(AdLibPart *part, AdLibInstrument *instr, byte note, byte velocity) { +void MidiDriver_ADLIB::partKeyOn(AdLibPart *part, AdLibInstrument *instr, byte note, byte velocity) { AdLibVoice *voice; - voice = allocate_voice(part->_priEff); + voice = allocateVoice(part->_priEff); if (!voice) return; - link_mc(part, voice); - mc_key_on(voice, instr, note, velocity); + linkMc(part, voice); + mcKeyOn(voice, instr, note, velocity); } -AdLibVoice *MidiDriver_ADLIB::allocate_voice(byte pri) { +AdLibVoice *MidiDriver_ADLIB::allocateVoice(byte pri) { AdLibVoice *ac, *best = NULL; int i; @@ -1407,11 +1407,11 @@ AdLibVoice *MidiDriver_ADLIB::allocate_voice(byte pri) { return NULL; if (best) - mc_off(best); + mcOff(best); return best; } -void MidiDriver_ADLIB::link_mc(AdLibPart *part, AdLibVoice *voice) { +void MidiDriver_ADLIB::linkMc(AdLibPart *part, AdLibVoice *voice) { voice->_part = part; voice->_next = (AdLibVoice *)part->_voice; part->_voice = voice; @@ -1421,7 +1421,7 @@ void MidiDriver_ADLIB::link_mc(AdLibPart *part, AdLibVoice *voice) { voice->_next->_prev = voice; } -void MidiDriver_ADLIB::mc_key_on(AdLibVoice *voice, AdLibInstrument *instr, byte note, byte velocity) { +void MidiDriver_ADLIB::mcKeyOn(AdLibVoice *voice, AdLibInstrument *instr, byte note, byte velocity) { AdLibPart *part = voice->_part; int c; byte vol1, vol2; @@ -1457,54 +1457,54 @@ void MidiDriver_ADLIB::mc_key_on(AdLibVoice *voice, AdLibInstrument *instr, byte vol1 = g_volumeTable[g_volumeLookupTable[vol1][c]]; } - adlib_setup_channel(voice->_channel, instr, vol1, vol2); - adlib_note_on_ex(voice->_channel, part->_transposeEff + note, part->_detuneEff + (part->_pitchBend * part->_pitchBendFactor >> 6)); + adlibSetupChannel(voice->_channel, instr, vol1, vol2); + adlibNoteOnEx(voice->_channel, part->_transposeEff + note, part->_detuneEff + (part->_pitchBend * part->_pitchBendFactor >> 6)); if (instr->flagsA & 0x80) { - mc_init_stuff(voice, &voice->_s10a, &voice->_s11a, instr->flagsA, &instr->extraA); + mcInitStuff(voice, &voice->_s10a, &voice->_s11a, instr->flagsA, &instr->extraA); } else { voice->_s10a.active = 0; } if (instr->flagsB & 0x80) { - mc_init_stuff(voice, &voice->_s10b, &voice->_s11b, instr->flagsB, &instr->extraB); + mcInitStuff(voice, &voice->_s10b, &voice->_s11b, instr->flagsB, &instr->extraB); } else { voice->_s10b.active = 0; } } -void MidiDriver_ADLIB::adlib_setup_channel(int chan, AdLibInstrument *instr, byte vol1, byte vol2) { +void MidiDriver_ADLIB::adlibSetupChannel(int chan, AdLibInstrument *instr, byte vol1, byte vol2) { byte channel; assert(chan >= 0 && chan < 9); channel = g_operator1Offsets[chan]; - adlib_write(channel + 0x20, instr->modCharacteristic); - adlib_write(channel + 0x40, (instr->modScalingOutputLevel | 0x3F) - vol1); - adlib_write(channel + 0x60, 0xff & (~instr->modAttackDecay)); - adlib_write(channel + 0x80, 0xff & (~instr->modSustainRelease)); - adlib_write(channel + 0xE0, instr->modWaveformSelect); + adlibWrite(channel + 0x20, instr->modCharacteristic); + adlibWrite(channel + 0x40, (instr->modScalingOutputLevel | 0x3F) - vol1); + adlibWrite(channel + 0x60, 0xff & (~instr->modAttackDecay)); + adlibWrite(channel + 0x80, 0xff & (~instr->modSustainRelease)); + adlibWrite(channel + 0xE0, instr->modWaveformSelect); channel = g_operator2Offsets[chan]; - adlib_write(channel + 0x20, instr->carCharacteristic); - adlib_write(channel + 0x40, (instr->carScalingOutputLevel | 0x3F) - vol2); - adlib_write(channel + 0x60, 0xff & (~instr->carAttackDecay)); - adlib_write(channel + 0x80, 0xff & (~instr->carSustainRelease)); - adlib_write(channel + 0xE0, instr->carWaveformSelect); + adlibWrite(channel + 0x20, instr->carCharacteristic); + adlibWrite(channel + 0x40, (instr->carScalingOutputLevel | 0x3F) - vol2); + adlibWrite(channel + 0x60, 0xff & (~instr->carAttackDecay)); + adlibWrite(channel + 0x80, 0xff & (~instr->carSustainRelease)); + adlibWrite(channel + 0xE0, instr->carWaveformSelect); - adlib_write((byte)chan + 0xC0, instr->feedback); + adlibWrite((byte)chan + 0xC0, instr->feedback); } -void MidiDriver_ADLIB::adlib_note_on_ex(int chan, byte note, int mod) { +void MidiDriver_ADLIB::adlibNoteOnEx(int chan, byte note, int mod) { int code; assert(chan >= 0 && chan < 9); code = (note << 7) + mod; _curNotTable[chan] = code; _channelTable2[chan] = 0; - adlib_playnote(chan, code); + adlibPlayNote(chan, code); } -void MidiDriver_ADLIB::mc_init_stuff(AdLibVoice *voice, Struct10 *s10, +void MidiDriver_ADLIB::mcInitStuff(AdLibVoice *voice, Struct10 *s10, Struct11 *s11, byte flags, InstrumentExtra *ie) { AdLibPart *part = voice->_part; s11->modifyVal = 0; @@ -1536,13 +1536,13 @@ void MidiDriver_ADLIB::mc_init_stuff(AdLibVoice *voice, Struct10 *s10, s11->s10->unk3 = 0; break; default: - s10->startValue = adlib_get_reg_value_param(voice->_channel, s11->param); + s10->startValue = adlibGetRegValueParam(voice->_channel, s11->param); } - struct10_init(s10, ie); + struct10Init(s10, ie); } -void MidiDriver_ADLIB::struct10_init(Struct10 *s10, InstrumentExtra *ie) { +void MidiDriver_ADLIB::struct10Init(Struct10 *s10, InstrumentExtra *ie) { s10->active = 1; if (!_scummSmallHeader) { s10->curVal = 0; @@ -1564,10 +1564,10 @@ void MidiDriver_ADLIB::struct10_init(Struct10 *s10, InstrumentExtra *ie) { s10->tableB[2] = 0; s10->tableB[3] = ie->h; - struct10_setup(s10); + struct10Setup(s10); } -int MidiDriver_ADLIB::adlib_get_reg_value_param(int chan, byte param) { +int MidiDriver_ADLIB::adlibGetRegValueParam(int chan, byte param) { const AdLibSetParams *as; byte val; byte channel; @@ -1591,7 +1591,7 @@ int MidiDriver_ADLIB::adlib_get_reg_value_param(int chan, byte param) { } as = &g_setParamTable[param]; - val = adlib_get_reg_value(channel + as->a); + val = adlibGetRegValue(channel + as->a); val &= as->c; val >>= as->b; if (as->d) @@ -1600,12 +1600,12 @@ int MidiDriver_ADLIB::adlib_get_reg_value_param(int chan, byte param) { return val; } -void MidiDriver_ADLIB::adlib_note_on(int chan, byte note, int mod) { +void MidiDriver_ADLIB::adlibNoteOn(int chan, byte note, int mod) { int code; assert(chan >= 0 && chan < 9); code = (note << 7) + mod; _curNotTable[chan] = code; - adlib_playnote(chan, (int16)_channelTable2[chan] + code); + adlibPlayNote(chan, (int16)_channelTable2[chan] + code); } -- cgit v1.2.3