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|
/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
#include "sci/sci.h"
#include "common/file.h"
#include "common/system.h"
#include "common/textconsole.h"
#include "audio/softsynth/fmtowns_pc98/pc98_audio.h"
#include "sci/resource.h"
#include "sci/sound/drivers/mididriver.h"
/* PC-98 sound driver for:
Quest for Glory 1 SCI_VERSION_0_LATE first driver type
Police Quest 2 SCI_VERSION_0_LATE second driver type
Castle of Dr. Brain SCI_VERSION_1_LATE third driver type
Space Quest IV SCI_VERSION_1_LATE third driver type
King's Quest V SCI_VERSION_1_LATE latest driver type
*/
namespace Sci {
class MidiPart_PC9801;
class SoundChannel_PC9801 {
public:
SoundChannel_PC9801(PC98AudioCore *pc98a, MidiPart_PC9801 **parts, SciVersion version, int type, SciSpan<const uint8> instrumentData, bool &soundOn);
virtual ~SoundChannel_PC9801();
void noteOff();
void noteOn(uint8 note, uint8 velo);
virtual void processNoteEvent(uint8 note, bool soundOn);
void update();
void setVolume(uint8 volume);
virtual void reset();
virtual void toggleNoiseGenerator(bool) {}
int getType() const { return _type; }
uint8 _assign;
uint8 _note;
uint8 _sustain;
uint16 _duration;
protected:
enum ChannelStatusFlags {
kChanVbrEnable = 0x01,
kChanVbrRestartEnv = 0x02,
kChanKeyOn = 0x04,
kChanNgEnable = 0x08,
kChanNgRestartEnv = 0x10,
kChanNgDecrease = 0x20,
kChanVbrMode = 0x40,
kChanVbrDecrease = 0x80
};
int recalculateFrequency(uint16 note, uint16 modifier, uint8 *destOctaveBlock, uint16 *destFrequency, uint8 *destVbrFrequencyModifier);
uint8 getVolume();
virtual void processSounds();
void programChangeInit(SciSpan<const uint8> &data);
void writeReg(uint8 part, uint8 reg, uint8 val);
int8 _transpose;
uint8 _vbrInitialDelay;
uint8 _vbrEnvelopeTimer;
uint8 _vbrEnvelopeSpeed;
uint16 _frequencyCourse;
uint8 _frequencyBlock;
uint8 _frequencyNoteModifier;
uint8 _vbrDepthIncr;
uint8 _vbrDecrTime;
uint8 _vbrDepthDecr;
uint8 _vbrIncrTime;
uint8 _vbrSensitivity;
uint16 _vbrIncrStep;
uint16 _vbrDecrStep;
uint8 _vbrModulationTimer;
uint16 _vbrFrequencyModifier;
uint8 _vbrCur;
uint8 _flags;
const uint16 *_noteFrequency;
const uint16 *_noteFrequencyModifier;
SciSpan<const uint8> _instrumentData;
const SciVersion _version;
private:
virtual void programChange(uint8 program) = 0;
virtual bool prepareFrequencyAndVolume(bool updateVolume);
virtual void sendSoundOnOff(bool soundOn) = 0;
virtual void sendFrequency() = 0;
virtual void sendVolume() = 0;
uint8 _velo;
uint8 _volume;
uint8 _program;
bool &_soundOn;
MidiPart_PC9801 **_parts;
PC98AudioCore *_pc98a;
const int _type;
};
class SoundChannel_PC9801_FM4OP : public SoundChannel_PC9801 {
public:
SoundChannel_PC9801_FM4OP(uint8 id, PC98AudioCore *pc98a, MidiPart_PC9801 **parts, SciVersion version, SciSpan<const uint8> instrumentData, uint8 patchSize, bool &soundOn);
virtual ~SoundChannel_PC9801_FM4OP() {}
private:
void programChange(uint8 program);
void sendSoundOnOff(bool soundOn);
void sendVolume();
void sendFrequency();
uint8 _operatorLevel[4];
uint8 _carrier;
uint8 _operatorFlags;
const uint8 _regPrt;
const uint8 _regOffs;
const uint8 _patchSize;
};
class SoundChannel_PC9801_FM2OP : public SoundChannel_PC9801 {
public:
SoundChannel_PC9801_FM2OP(uint8 id, PC98AudioCore *pc98a, MidiPart_PC9801 **parts, SciVersion version, SciSpan<const uint8> instrumentData, uint8 patchSize, bool &soundOn);
virtual ~SoundChannel_PC9801_FM2OP() {}
void processNoteEvent(uint8 note, bool soundOn);
void reset();
private:
void programChange(uint8 program);
bool prepareFrequencyAndVolume(bool updateVolume);
void processSounds();
void sendSoundOnOff(bool soundOn);
void sendVolume();
void sendFrequency();
uint8 _operatorLevel[2];
uint8 _operatorFrqIndex[2];
uint16 _frequencyCourse2;
uint8 _frequencyNoteModifier2;
int16 _vbrFrequencyModifier2;
uint16 _vbrIncrStep2;
uint16 _vbrDecrStep2;
uint8 _vbrCur2;
static uint8 _activeOperators;
const uint16 *_opFreqOffset;
const uint8 _patchOffset;
const uint8 _regPrt;
const uint8 _regOffs;
const uint8 _patchSize;
};
class SoundChannel_PC9801_SSG : public SoundChannel_PC9801 {
public:
SoundChannel_PC9801_SSG(uint8 id, PC98AudioCore *pc98a, MidiPart_PC9801 **parts, SciVersion version, SciSpan<const uint8> instrumentData, uint8 patchOffset, uint8 patchSize, bool &soundOn);
virtual ~SoundChannel_PC9801_SSG() {}
void reset();
void toggleNoiseGenerator(bool enable);
private:
enum {
kEnvSSG_silent = 0x00,
kEnvSSG_decay = 0x01,
kEnvSSG_sustain = 0x02,
kEnvSSG_attack = 0x03,
kEnvSSG_keyOn = 0x10
};
void programChange(uint8 program);
void processSounds();
void sendSoundOnOff(bool soundOn);
void sendVolume();
void sendFrequency();
void updateNg();
void sendActiveChannelsStatus();
uint8 _instrumentChanMask;
uint8 _chanDisableMask;
uint8 _chanEnableMask1;
uint8 _chanEnableMask2;
uint8 _currentLevel;
uint8 _ngPhaseStep;
uint8 _ngPhase;
uint8 _ngEnvelopeTimer;
uint8 _ngSpeed;
uint8 _ssgEnvelopeTimer;
uint8 _ssgLevel;
uint8 _ssgSpeed;
uint8 _ssgEnvelopeState;
bool _ccngEnabled;
static uint8 _activeChannnelsStatus;
SciSpan<const uint8> _selectedInstrument;
const uint8 *_ngFreq;
const uint8 _regOffs;
const uint8 _patchOffset;
const uint8 _patchSize;
};
class MidiPart_PC9801 {
public:
MidiPart_PC9801(uint8 id, SoundChannel_PC9801 **channels, uint8 numChan, SciVersion version);
~MidiPart_PC9801() {}
void noteOff(uint8 note);
void noteOn(uint8 note, uint8 velo);
void controlChangeVolume(uint8 vol);
void controlChangeSustain(uint8 sus);
void controlChangePolyphony(uint8 numChan);
void controlChangeNoiseGenerator(uint8 status);
void controlChangeAllNotesOff();
void programChange(uint8 prg);
void pitchBend(int16 val);
void addChannels(int num, int resetMissingChannels = -1, int channelType = -1);
void dropChannels(int num);
uint8 getCurrentProgram() const { return _program; }
uint8 getCurrentVolume() const { return _volume; }
uint16 getCurrentPitchBend() const { return _pitchBend; }
uint8 getMissingChannels() const { return _chanMissing; }
private:
int allocateChannel();
void assignFreeChannels();
uint8 _id;
uint8 _program;
uint8 _volume;
uint8 _sustain;
uint16 _pitchBend;
uint8 _outChan;
uint8 _chanMissing;
SoundChannel_PC9801 **_chan;
const SciVersion _version;
const int _numChan;
const uint8 _noteRangeLow;
const uint8 _noteRangeHigh;
};
class MidiDriver_PC9801 : public MidiDriver, public PC98AudioPluginDriver {
public:
enum {
MIDI_PROP_PLAYSWITCH = 1,
MIDI_PROP_POLYPHONY = 2,
MIDI_PROP_CHANNEL_ID = 3
};
MidiDriver_PC9801(Audio::Mixer *mixer, SciVersion version);
~MidiDriver_PC9801();
int open();
bool isOpen() const { return _isOpen; }
void close();
void send(uint32 b);
static void assignFreeChannels(int num);
uint32 property(int prop, uint32 param);
void initTrack(SciSpan<const byte> &header);
void setTimerCallback(void *timer_param, Common::TimerManager::TimerProc timer_proc);
uint32 getBaseTempo();
MidiChannel *allocateChannel() { return 0; }
MidiChannel *getPercussionChannel() { return 0; }
void timerCallbackB();
private:
bool loadInstruments(const SciSpan<const uint8> &data);
void updateParser();
void updateChannels();
void reset();
Common::TimerManager::TimerProc _timerProc;
void *_timerProcPara;
static MidiPart_PC9801 **_parts;
SoundChannel_PC9801 **_chan;
Common::SpanOwner<SciSpan<uint8> > _instrumentData;
uint8 _masterVolume;
bool _soundOn;
uint8 _numChan;
uint8 _ssgPatchOffset;
uint8 _patchSize;
uint8 _internalVersion;
const uint8 _playID;
const uint8 _channelMask1;
uint8 _channelMask2;
uint8 _polyphony;
bool _isOpen;
bool _ready;
const uint16 _baseTempo;
PC98AudioCore *_pc98a;
const SciVersion _version;
};
class MidiPlayer_PC9801 : public MidiPlayer {
public:
enum {
MIDI_PROP_PLAYSWITCH = 1,
MIDI_PROP_POLYPHONY = 2,
MIDI_PROP_CHANNEL_ID = 3
};
MidiPlayer_PC9801(SciVersion version);
~MidiPlayer_PC9801();
bool hasRhythmChannel() const;
byte getPlayId() const;
int getPolyphony() const;
void playSwitch(bool play);
void initTrack(SciSpan<const byte> &trackData);
};
SoundChannel_PC9801::SoundChannel_PC9801(PC98AudioCore *pc98a, MidiPart_PC9801 **parts, SciVersion version, int type, SciSpan<const uint8> instrumentData, bool &soundOn)
: _pc98a(pc98a), _parts(parts), _version(version), _type(type), _instrumentData(instrumentData), _soundOn(soundOn), _assign(0xff), _note(0xff), _velo(0),
_volume(0), _transpose(0), _sustain(0), _duration(0), _program(0xff), _vbrInitialDelay(0), _vbrEnvelopeTimer(0),
_vbrEnvelopeSpeed(0), _vbrDepthIncr(0), _vbrDecrTime(0), _vbrDepthDecr(0), _vbrIncrTime(0), _vbrSensitivity(0),
_vbrFrequencyModifier(0), _vbrIncrStep(0), _vbrDecrStep(0), _vbrModulationTimer(0), _flags(0), _vbrCur(0x80),
_frequencyBlock(0), _frequencyCourse(0), _frequencyNoteModifier(0) {
static const uint16 courseV0[] = { 0x269, 0x28D, 0x2B5, 0x2DE, 0x30A, 0x339, 0x368, 0x39D, 0x3D4, 0x40E, 0x44A, 0x48C };
static const uint16 courseV1[] = { 0x26A, 0x28E, 0x2B5, 0x2DF, 0x30A, 0x339, 0x36A, 0x39E, 0x3D5, 0x40F, 0x44D, 0x48F };
static const uint16 fine[] = { 0x24, 0x27, 0x2A, 0x2B, 0x2F, 0x31, 0x34, 0x37, 0x3A, 0x3E, 0x42, 0x45 };
_noteFrequency = (version > SCI_VERSION_0_LATE) ? courseV1 : courseV0;
_noteFrequencyModifier = fine;
}
SoundChannel_PC9801::~SoundChannel_PC9801() {
_instrumentData.clear();
}
void SoundChannel_PC9801::noteOff() {
if (_sustain)
return;
processNoteEvent(_note, false);
_note = 0xFF;
_duration = 0;
}
void SoundChannel_PC9801::noteOn(uint8 note, uint8 velo) {
_duration = 0;
if (_program != _parts[_assign]->getCurrentProgram() && _soundOn) {
_program = _parts[_assign]->getCurrentProgram();
programChange(_program);
}
if (_version > SCI_VERSION_0_LATE) {
velo >>= 1;
if (velo > 63)
velo = 63;
_velo = velo;
}
processNoteEvent(note, true);
}
void SoundChannel_PC9801::processNoteEvent(uint8 note, bool soundOn) {
if (_note != note) {
_note = note;
_vbrEnvelopeTimer = _vbrInitialDelay;
_vbrFrequencyModifier = 0;
_vbrCur = 0x80;
_flags |= kChanVbrRestartEnv;
}
if (!prepareFrequencyAndVolume(soundOn))
soundOn = false;
sendSoundOnOff(soundOn);
}
void SoundChannel_PC9801::update() {
processSounds();
if (_note != 0xFF)
_duration++;
}
void SoundChannel_PC9801::setVolume(uint8 volume) {
static const uint8 volumeTable[] = { 0x7F, 0x7F, 0x30, 0x30, 0x28, 0x28, 0x20, 0x20, 0x18, 0x18, 0x10, 0x10, 0x08, 0x08, 0x00, 0x00 };
assert(volume < 16);
_volume = volumeTable[volume];
}
void SoundChannel_PC9801::reset() {
_assign = 0xFF;
_note = 0xFF;
_volume = 0;
}
int SoundChannel_PC9801::recalculateFrequency(uint16 note, uint16 modifier, uint8 *destOctaveBlock, uint16 *destFrequency, uint8 *destVbrFrequencyModifier) {
note += _transpose;
uint16 pb = _parts[_assign]->getCurrentPitchBend();
if (pb == 0x2000) {
pb = 0;
} else {
int dir = 1;
if (pb > 0x2000) {
pb -= 0x2000;
} else if (pb < 0x2000) {
pb = 0x2000 - pb;
dir = -1;
}
uint8 noteDiff = pb / 684;
note += (noteDiff * dir);
pb %= 684;
if (pb > 682)
pb = 682;
pb = ((pb * 6) >> 4);
pb *= dir;
}
note += (modifier >> 8);
pb += (modifier & 0xff);
if ((pb >> 8) == 1) {
pb &= 0xFF;
note++;
}
if (_version == SCI_VERSION_0_LATE)
note -= 12;
if (note < 12 || note > 107)
return -1;
if (_version == SCI_VERSION_0_LATE && _type == 2) {
uint16 rs = _noteFrequency[note - 12];
if (destFrequency)
*destFrequency = rs;
return rs;
}
uint8 block = (note / 12) - 1;
note %= 12;
uint16 res =_noteFrequency[note];
uint16 pitchVbrMultiplier = _noteFrequencyModifier[note];
if (_type != 2)
res |= (block << 11);
else if (block == 0)
return -1;
if (pb)
res += (((pb * pitchVbrMultiplier) & 0x0FF0) >> 8);
if (res < 0x4000) {
if (destFrequency)
*destFrequency = res;
if (destOctaveBlock)
*destOctaveBlock = block;
if (destVbrFrequencyModifier)
*destVbrFrequencyModifier = pitchVbrMultiplier;
return res;
}
return -1;
}
uint8 SoundChannel_PC9801::getVolume() {
static const uint8 volumeTable1[] = {
0x00, 0x0c, 0x0d, 0x0e, 0x0f, 0x11, 0x12, 0x13, 0x14, 0x16, 0x17, 0x18, 0x1a, 0x1b, 0x1c, 0x1d,
0x1f, 0x20, 0x21, 0x22, 0x23, 0x24, 0x25, 0x26, 0x27, 0x28, 0x29, 0x2a, 0x2b, 0x2d, 0x2d, 0x2e,
0x2f, 0x30, 0x31, 0x32, 0x32, 0x33, 0x34, 0x34, 0x35, 0x36, 0x36, 0x37, 0x38, 0x38, 0x39, 0x3a,
0x3b, 0x3b, 0x3b, 0x3c, 0x3c, 0x3c, 0x3d, 0x3d, 0x3d, 0x3e, 0x3e, 0x3e, 0x3e, 0x3f, 0x3f, 0x3f
};
static const uint8 volumeTable2[] = {
0x00, 0x54, 0x55, 0x56, 0x57, 0x58, 0x59, 0x5a, 0x5b, 0x5c, 0x5d, 0x5e, 0x5f, 0x60, 0x61, 0x61,
0x62, 0x63, 0x64, 0x65, 0x66, 0x67, 0x68, 0x69, 0x6a, 0x6b, 0x6c, 0x6d, 0x6e, 0x6f, 0x6f, 0x70,
0x71, 0x72, 0x72, 0x73, 0x74, 0x74, 0x75, 0x76, 0x76, 0x77, 0x78, 0x78, 0x79, 0x79, 0x7a, 0x7a,
0x7b, 0x7b, 0x7b, 0x7c, 0x7c, 0x7c, 0x7d, 0x7d, 0x7d, 0x7e, 0x7e, 0x7e, 0x7e, 0x7f, 0x7f, 0x7f
};
uint16 partVolume = ((_assign != 0xFF) ? _parts[_assign]->getCurrentVolume() : 0);
if (_version == SCI_VERSION_0_LATE)
return partVolume;
partVolume += 1;
uint16 velocity = volumeTable1[_velo] + 1;
uint16 volume = _soundOn ? (partVolume * velocity) >> 6 : 0;
volume = volumeTable2[volume] - _volume;
return (volume < 0x7F ? volume : 0);
}
void SoundChannel_PC9801::processSounds() {
if (!(_flags & kChanVbrEnable))
return;
if (_flags & kChanVbrRestartEnv) {
if (--_vbrEnvelopeTimer)
return;
_vbrIncrStep = _vbrDepthIncr * _vbrSensitivity * _frequencyNoteModifier;
_vbrDecrStep = _vbrDepthDecr * _vbrSensitivity * _frequencyNoteModifier;
_vbrModulationTimer = ((_flags & kChanVbrMode) ? _vbrIncrTime : _vbrDecrTime) >> 1;
_vbrCur = 0x80;
_flags &= ~(kChanVbrDecrease | kChanVbrRestartEnv);
if (_flags & kChanVbrMode)
_flags |= kChanVbrDecrease;
}
uint16 t = _vbrEnvelopeTimer + _vbrEnvelopeSpeed;
_vbrEnvelopeTimer = t & 0xFF;
if (t & 0x100)
return;
if (!--_vbrModulationTimer) {
_vbrModulationTimer = (_flags & kChanVbrDecrease) ? _vbrDecrTime : _vbrIncrTime;
_flags ^= kChanVbrDecrease;
}
if (_flags & kChanVbrDecrease) {
uint8 sL = _vbrDecrStep & 0xFF;
uint8 sH = _vbrDecrStep >> 8;
bool ovrflow = (sL > _vbrCur);
_vbrCur -= sL;
if (!ovrflow)
return;
_vbrFrequencyModifier -= (sH + 1);
} else {
uint8 sL = _vbrDecrStep & 0xFF;
uint8 sH = _vbrDecrStep >> 8;
bool ovrflow = (sL + _vbrCur > 255);
_vbrCur += sL;
if (!ovrflow)
return;
_vbrFrequencyModifier += (sH + 1);
}
sendFrequency();
}
void SoundChannel_PC9801::programChangeInit(SciSpan<const uint8> &data) {
_transpose = (int8)(data[0] & 0xC0 && data[0] < 0xC0 ? data[0] ^ 0x80 : data[0]);
_vbrInitialDelay = data[1];
_vbrDepthIncr = data[2];
_vbrDecrTime = data[3];
_vbrDepthDecr = data[4];
_vbrIncrTime = data[5];
_vbrSensitivity = (data[6] & 3) + 1;
_vbrEnvelopeSpeed = data[6] >> 3;
_flags = (_flags & ~(kChanVbrEnable | kChanVbrMode)) | ((data[6] << 4) & 0x40);
if (_vbrInitialDelay)
_flags |= (kChanVbrEnable | kChanVbrRestartEnv);
}
void SoundChannel_PC9801::writeReg(uint8 part, uint8 reg, uint8 val) {
_pc98a->writeReg(part, reg, val);
}
bool SoundChannel_PC9801::prepareFrequencyAndVolume(bool updateVolume) {
if (recalculateFrequency(_note, 0, &_frequencyBlock, &_frequencyCourse, &_frequencyNoteModifier) == -1)
return false;
sendFrequency();
if (updateVolume)
sendVolume();
return true;
}
SoundChannel_PC9801_FM4OP::SoundChannel_PC9801_FM4OP(uint8 id, PC98AudioCore *pc98a, MidiPart_PC9801 **parts, SciVersion version, SciSpan<const uint8> instrumentData, uint8 patchSize, bool &soundOn)
: SoundChannel_PC9801(pc98a, parts, version, 0, instrumentData, soundOn), _carrier(0), _regPrt(id > 2 ? 1 : 0), _regOffs(id % 3),
_operatorFlags((id > 2 ? 4 : 0) | (id % 3) | 0xF0), _patchSize(patchSize) {
_operatorLevel[0] = _operatorLevel[1] = _operatorLevel[2] = _operatorLevel[3] = 0x7F;
}
void SoundChannel_PC9801_FM4OP::programChange(uint8 program) {
static const uint8 carrier[] = { 0x10, 0x10, 0x10, 0x10, 0x30, 0x70, 0x70, 0xF0 };
static const uint8 steps[] = { 0, 16, 8, 24 };
SciSpan<const uint8> data = _instrumentData.subspan(program * _patchSize);
if (_version == SCI_VERSION_1_LATE) {
programChangeInit(data);
uint8 pos = 8;
for (uint8 i = 0x40 + _regOffs; i < 0x50 + _regOffs; i += 4)
writeReg(_regPrt, i, 0xFF);
for (uint8 i = 0x30 + _regOffs; i < 0x40 + _regOffs; i += 4)
writeReg(_regPrt, i, data[pos++]);
for (int i = 0; i < 4; ++i)
_operatorLevel[i] = data[pos++];
for (uint8 i = 0x50 + _regOffs; i < 0xA0 + _regOffs; i += 4)
writeReg(_regPrt, i, data[pos++]);
writeReg(_regPrt, 0xB0 + _regOffs, data[pos]);
_carrier = carrier[data[pos] & 7];
} else {
uint8 pos = 11;
uint8 opFlags = data[pos];
uint8 fba = data[pos + 1] & 0x3F;
_carrier = carrier[fba & 7];
pos += 8;
uint8 reg = 0x30 + _regOffs;
for (int i = 0; i < 4; ++i)
writeReg(_regPrt, reg + (i << 2), data[pos + steps[i & 3]] & 0x7F);
pos -= 3;
_operatorLevel[0] = (opFlags & 0x08) ? data[pos + steps[0]] : 0x7F;
_operatorLevel[1] = (opFlags & 0x20) ? data[pos + steps[1]] : 0x7F;
_operatorLevel[2] = (opFlags & 0x10) ? data[pos + steps[2]] : 0x7F;
_operatorLevel[3] = (opFlags & 0x40) ? data[pos + steps[3]] : 0x7F;
pos += 4;
reg = 0x50 + _regOffs;
for (int i = 0; i < 16; ++i)
writeReg(_regPrt, reg + (i << 2), data[pos + steps[i & 3] + (i >> 2)]);
if (fba >= 24)
fba -= 24;
else
fba &= 7;
writeReg(_regPrt, 0xB0 + _regOffs, fba);
_operatorFlags = (_operatorFlags & 7) | (opFlags << 1);
}
}
void SoundChannel_PC9801_FM4OP::sendSoundOnOff(bool soundOn) {
_flags = soundOn ? (_flags | kChanKeyOn) : (_flags & ~kChanKeyOn);
writeReg(0, 0x28, soundOn ? _operatorFlags : _operatorFlags & 7);
}
void SoundChannel_PC9801_FM4OP::sendVolume() {
uint8 vol = getVolume();
uint16 c = _carrier;
for (uint8 i = 0; i < 4; ++i) {
uint8 r = _operatorLevel[i];
c += c;
if (c & 0x100) {
c &= 0xFF;
if (_version == SCI_VERSION_1_LATE) {
r = (((r ^ 0x7F) * vol) / 0x7F) * 2;
r = ((r < 0x7F) ? 0x7F - r : 0) + 20;
if (r > 0x7F)
r = 0x7F;
} else {
r = 127 - ((127 - r) * vol / 128);
}
}
writeReg(_regPrt, 0x40 + (i << 2) + _regOffs, r);
}
}
void SoundChannel_PC9801_FM4OP::sendFrequency() {
uint16 freq = _frequencyCourse + _vbrFrequencyModifier;
writeReg(_regPrt, 0xA4 + _regOffs, freq >> 8);
writeReg(_regPrt, 0xA0 + _regOffs, freq & 0xFF);
}
uint8 SoundChannel_PC9801_FM2OP::_activeOperators = 0;
SoundChannel_PC9801_FM2OP::SoundChannel_PC9801_FM2OP(uint8 id, PC98AudioCore *pc98a, MidiPart_PC9801 **parts, SciVersion version, SciSpan<const uint8> instrumentData, uint8 patchSize, bool &soundOn)
: SoundChannel_PC9801(pc98a, parts, version, 1, instrumentData, soundOn), _patchOffset(37), _patchSize(patchSize), _frequencyCourse2(0), _frequencyNoteModifier2(0),
_vbrFrequencyModifier2(0), _vbrCur2(0x80), _vbrIncrStep2(0), _vbrDecrStep2(0), _regPrt(id > 3 ? 1 : 0), _regOffs(id & 1) {
static const uint16 opFreqOffset[] = { 0x0000, 0x0600, 0x07CF, 0x0980 };
_operatorLevel[0] = _operatorLevel[1] = 0x7F;
_operatorFrqIndex[0] = _operatorFrqIndex[1] = 0;
_opFreqOffset = opFreqOffset;
}
void SoundChannel_PC9801_FM2OP::processNoteEvent(uint8 note, bool soundOn) {
if (_note != note) {
_vbrCur2 = 0x80;
_vbrFrequencyModifier2 = 0;
}
SoundChannel_PC9801::processNoteEvent(note, soundOn);
}
void SoundChannel_PC9801_FM2OP::reset() {
SoundChannel_PC9801::reset();
_activeOperators = 0;
}
void SoundChannel_PC9801_FM2OP::programChange(uint8 program) {
SciSpan<const uint8> data = _instrumentData.subspan(program * _patchSize + _patchOffset);
programChangeInit(data);
uint8 pos = 7;
for (uint8 i = 0x42 + (_regOffs << 2); i < 0x52 + (_regOffs << 2); i += 8)
writeReg(_regPrt, i, 0xFF);
for (uint8 i = 0x32 + (_regOffs << 2); i < 0x42 + (_regOffs << 2); i += 8)
writeReg(_regPrt, i, data[pos++]);
for (int i = 0; i < 2; ++i)
_operatorLevel[i] = data[pos++];
for (uint8 i = 0x52 + (_regOffs << 2); i < 0x72 + (_regOffs << 2); i += 8)
writeReg(_regPrt, i, data[pos++]);
_operatorFrqIndex[0] = data[pos] >> 6;
_operatorFrqIndex[1] = data[pos + 1] >> 6;
for (uint8 i = 0x72 + (_regOffs << 2); i < 0xA2 + (_regOffs << 2); i += 8)
writeReg(_regPrt, i, data[pos++]);
}
bool SoundChannel_PC9801_FM2OP::prepareFrequencyAndVolume(bool updateVolume) {
if (recalculateFrequency(_note, _opFreqOffset[_operatorFrqIndex[0]], 0, &_frequencyCourse, &_frequencyNoteModifier) == -1)
return false;
if (recalculateFrequency(_note, _opFreqOffset[_operatorFrqIndex[1]], 0, &_frequencyCourse2, &_frequencyNoteModifier2) == -1)
return false;
sendFrequency();
if (updateVolume)
sendVolume();
return true;
}
void SoundChannel_PC9801_FM2OP::sendSoundOnOff(bool soundOn) {
uint8 op = 0x30 << (_regOffs << 1);
if (soundOn) {
_flags |= kChanKeyOn;
_activeOperators |= op;
} else {
_flags &= ~kChanKeyOn;
_activeOperators &= ~op;
}
writeReg(0, 0x28, _activeOperators | (_regPrt << 2) | 2);
}
void SoundChannel_PC9801_FM2OP::sendVolume() {
writeReg(_regPrt, 0x42 + (_regOffs << 2), _operatorLevel[0]);
uint8 r = (((_operatorLevel[1] ^ 0x7F) * getVolume()) / 0x7F) * 2;
r = ((r < 0x7F) ? 0x7F - r : 0) + 16;
writeReg(_regPrt, 0x4A + (_regOffs << 2), r);
}
void SoundChannel_PC9801_FM2OP::processSounds() {
if (!(_flags & kChanVbrEnable))
return;
if (_flags & kChanVbrRestartEnv) {
if (--_vbrEnvelopeTimer)
return;
_vbrIncrStep = _vbrDepthIncr * _vbrSensitivity * _frequencyNoteModifier;
_vbrIncrStep2 = _vbrDepthIncr * _vbrSensitivity * _frequencyNoteModifier2;
_vbrDecrStep = _vbrDepthDecr * _vbrSensitivity * _frequencyNoteModifier;
_vbrDecrStep2 = _vbrDepthDecr * _vbrSensitivity * _frequencyNoteModifier2;
_vbrModulationTimer = ((_flags & kChanVbrMode) ? _vbrIncrTime : _vbrDecrTime) >> 1;
_vbrCur = 0x80;
_flags &= ~(kChanVbrDecrease | kChanVbrRestartEnv);
if (_flags & kChanVbrMode)
_flags |= kChanVbrDecrease;
}
uint16 t = _vbrEnvelopeTimer + _vbrEnvelopeSpeed;
_vbrEnvelopeTimer = t & 0xFF;
if (t & 0x100)
return;
if (!--_vbrModulationTimer) {
_vbrModulationTimer = (_flags & kChanVbrDecrease) ? _vbrDecrTime : _vbrIncrTime;
_flags ^= kChanVbrDecrease;
}
if (_flags & kChanVbrDecrease) {
uint8 sL = _vbrDecrStep & 0xFF;
uint8 sH = _vbrDecrStep >> 8;
bool ovrflow = (sL > _vbrCur);
_vbrCur -= sL;
if (ovrflow)
_vbrFrequencyModifier -= (sH + 1);
sL = _vbrDecrStep2 & 0xFF;
sH = _vbrDecrStep2 >> 8;
ovrflow = (sL > _vbrCur2);
_vbrCur2 -= sL;
if (ovrflow)
_vbrFrequencyModifier2 -= (sH + 1);
} else {
uint8 sL = _vbrDecrStep & 0xFF;
uint8 sH = _vbrDecrStep >> 8;
bool ovrflow = (sL + _vbrCur > 255);
_vbrCur += sL;
if (ovrflow)
_vbrFrequencyModifier += (sH + 1);
sL = _vbrDecrStep2 & 0xFF;
sH = _vbrDecrStep2 >> 8;
ovrflow = (sL + _vbrCur2 > 255);
_vbrCur2 += sL;
if (ovrflow)
_vbrFrequencyModifier2 += (sH + 1);
}
sendFrequency();
}
void SoundChannel_PC9801_FM2OP::sendFrequency() {
uint16 freq = _frequencyCourse + _vbrFrequencyModifier;
writeReg(_regPrt, 0xAD - _regOffs, freq >> 8);
writeReg(_regPrt, 0xA9 - _regOffs, freq & 0xFF);
freq = _frequencyCourse2 + _vbrFrequencyModifier2;
writeReg(_regPrt, 0xAE - (_regOffs << 3), freq >> 8);
writeReg(_regPrt, 0xAA - (_regOffs << 3), freq & 0xFF);
}
uint8 SoundChannel_PC9801_SSG::_activeChannnelsStatus = 0x3F;
SoundChannel_PC9801_SSG::SoundChannel_PC9801_SSG(uint8 id, PC98AudioCore *pc98a, MidiPart_PC9801 **parts, SciVersion version, SciSpan<const uint8> instrumentData, uint8 patchOffset, uint8 patchSize, bool &soundOn)
: SoundChannel_PC9801(pc98a, parts, version, 2, instrumentData, soundOn), _patchOffset(patchOffset), _patchSize(patchSize), _regOffs(id & 3),
_instrumentChanMask(0x3F), _ngPhaseStep(0), _currentLevel(0), _ssgEnvelopeState(kEnvSSG_silent), _ngEnvelopeTimer(0),
_ngSpeed(0), _ngPhase(0), _ssgEnvelopeTimer(0), _ssgLevel(0), _ssgSpeed(0), _ccngEnabled(false) {
static const uint16 courseV0[] = {
0xfcf, 0xef1, 0xe16, 0xd59, 0xc87, 0xbcd, 0xb27, 0xa93, 0x9ee, 0x96a, 0x8da, 0x865, 0x778, 0x70d, 0x6a6, 0x643,
0x5ec, 0x599, 0x545, 0x4f7, 0x4b5, 0x46d, 0x432, 0x3f4, 0x3c5, 0x386, 0x353, 0x325, 0x2f6, 0x2cc, 0x2a3, 0x27d,
0x25a, 0x238, 0x218, 0x1fa, 0x1dd, 0x1c3, 0x1a9, 0x192, 0x17b, 0x166, 0x152, 0x13f, 0x12d, 0x11c, 0x10c, 0x0fd,
0x0ef, 0x0e1, 0x0d5, 0x0c9, 0x0bd, 0x0b3, 0x0a9, 0x09f, 0x096, 0x08e, 0x086, 0x07e, 0x077, 0x071, 0x06a, 0x064,
0x05f, 0x059, 0x054, 0x050, 0x04b, 0x047, 0x043, 0x03f, 0x03c, 0x038, 0x035, 0x032, 0x02f, 0x02d, 0x02a, 0x028,
0x026, 0x023, 0x021, 0x020, 0x01e, 0x01c, 0x01b, 0x019, 0x018, 0x016, 0x015, 0x014, 0x013, 0x012, 0x011, 0x010
};
static const uint16 courseV1[] = { 0x82D, 0x8A9, 0x92D, 0x9B6, 0xA4D, 0xAEA, 0xB90, 0xC40, 0xCFA, 0xDC0, 0xE90, 0xF6F };
static const uint16 fine[] = { 0x7C, 0x84, 0x8B, 0x94, 0x9D, 0xA6, 0xB0, 0xBA, 0xC5, 0xD0, 0xDE, 0xEB };
static const uint8 noiseFrq[] = { 0x00, 0x01, 0x04, 0x07, 0x0A, 0x0D, 0x10, 0x13, 0x16, 0x19, 0x1C, 0x1F };
static const uint8 disableMask[] = { 0xF6, 0xED, 0xDB };
static const uint8 enableMask1[] = { 0xBE, 0xBD, 0xBB };
static const uint8 enableMask2[] = { 0xB7, 0xAF, 0x9F };
_noteFrequency = (version > SCI_VERSION_0_LATE) ? courseV1 : courseV0;
_noteFrequencyModifier = fine;
_ngFreq = noiseFrq;
_chanDisableMask = disableMask[id & 3];
_chanEnableMask1 = enableMask1[id & 3];
_chanEnableMask2 = enableMask2[id & 3];
}
void SoundChannel_PC9801_SSG::reset() {
SoundChannel_PC9801::reset();
_activeChannnelsStatus = (_version == SCI_VERSION_1_LATE) ? 0x3F : 0xFF;
sendActiveChannelsStatus();
}
void SoundChannel_PC9801_SSG::toggleNoiseGenerator(bool enable) {
_ccngEnabled = enable;
}
void SoundChannel_PC9801_SSG::programChange(uint8 program) {
_selectedInstrument = _instrumentData.subspan(program * _patchSize + _patchOffset);
if (_version == SCI_VERSION_1_LATE) {
programChangeInit(_selectedInstrument);
_flags &= ~kChanNgEnable;
if (_selectedInstrument[7])
_flags |= (kChanNgEnable | kChanNgRestartEnv);
_instrumentChanMask = _selectedInstrument[22];
_activeChannnelsStatus = (_activeChannnelsStatus & _chanDisableMask) | (~_chanDisableMask & (_instrumentChanMask & 0x3F));
if (!(_instrumentChanMask & 8)) {
_ngPhaseStep = _selectedInstrument[21] & 0x1F;
updateNg();
}
sendActiveChannelsStatus();
} else {
writeReg(0, 13, _selectedInstrument[0]);
writeReg(0, 6, _selectedInstrument[1]);
writeReg(0, 11, _selectedInstrument[2]);
writeReg(0, 12, _selectedInstrument[3]);
}
_currentLevel = 0;
_ssgEnvelopeState = kEnvSSG_silent;
}
void SoundChannel_PC9801_SSG::processSounds() {
if (_ssgEnvelopeState == kEnvSSG_silent)
return;
SoundChannel_PC9801::processSounds();
if (!(_instrumentChanMask & 0x38) && (_flags & kChanNgEnable)) {
bool cont = false;
if (_flags & kChanNgRestartEnv) {
if (--_ngEnvelopeTimer) {
cont = true;
} else {
uint8 flg = _selectedInstrument[10] & 4;
_ngSpeed = ((flg ? _selectedInstrument[9] : _selectedInstrument[8]) & 0x1F) >> 1;
_flags = (_flags & ~(kChanNgDecrease | kChanNgRestartEnv)) | (flg << 3);
}
}
if (!cont) {
uint16 s = _ngEnvelopeTimer + (_selectedInstrument[10] >> 3);
_ngEnvelopeTimer = s & 0xFF;
if (s & 0x100)
cont = true;
if (!cont) {
if (--_ngSpeed) {
if (_flags & kChanNgDecrease) {
_ngSpeed = _selectedInstrument[8] & 0x1F;
_flags &= ~kChanNgDecrease;
} else {
_ngSpeed = _selectedInstrument[9] & 0x1F;
_flags |= kChanNgDecrease;
}
}
if (_flags & kChanNgDecrease) {
_ngPhase -= (_selectedInstrument[9] >> 5) * ((_selectedInstrument[10] & 3) + 1);
} else {
_ngPhase += (_selectedInstrument[8] >> 5) * ((_selectedInstrument[10] & 3) + 1);
}
updateNg();
}
}
}
uint16 s = _ssgEnvelopeTimer + (_selectedInstrument[21] & 0x60);
_ssgEnvelopeTimer = s & 0xFF;
if ((s & 0x100) || !(_ssgEnvelopeState & 0x0F))
return;
uint8 vol = _currentLevel;
if (_ssgLevel & 1)
vol = (vol > (_ssgLevel & ~1)) ? vol - (_ssgLevel & ~1) : 0;
else
vol = (vol + _ssgLevel > 255) ? 255 : vol + _ssgLevel;
if (!--_ssgSpeed) {
if (--_ssgEnvelopeState == (kEnvSSG_keyOn | kEnvSSG_sustain)) {
_ssgLevel = _selectedInstrument[13];
_ssgSpeed = _selectedInstrument[14];
vol = (uint8)CLIP<int16>(vol + (int8)(_selectedInstrument[19] & 0xF0), 0, 255);
}
if (_ssgEnvelopeState == (kEnvSSG_keyOn | kEnvSSG_decay)) {
_ssgLevel = _selectedInstrument[15];
_ssgSpeed = _selectedInstrument[16];
vol = (uint8)CLIP<int16>(vol + (int8)((_selectedInstrument[20] & 0x0F) << 4), 0, 255);
}
}
if (_ssgEnvelopeState == kEnvSSG_silent)
vol = 0;
if (_currentLevel != vol) {
_currentLevel = vol;
sendVolume();
}
}
void SoundChannel_PC9801_SSG::sendSoundOnOff(bool soundOn) {
if (_version == SCI_VERSION_1_LATE && soundOn && !(_ssgEnvelopeState & kEnvSSG_keyOn)) {
_currentLevel = _selectedInstrument[19] << 4;
_ssgEnvelopeState = (kEnvSSG_keyOn | kEnvSSG_attack);
_ssgLevel = _selectedInstrument[11];
_ssgSpeed = _selectedInstrument[12];
_ssgEnvelopeTimer = 1;
if (!(_selectedInstrument[22] & 0x38)) {
if (_selectedInstrument[21] & 0x80)
_ngPhaseStep = _ngFreq[_note % 12];
_ngEnvelopeTimer = _selectedInstrument[7];
_ngPhase = 0;
updateNg();
_flags |= kChanNgRestartEnv;
}
} else if (_version == SCI_VERSION_1_LATE && !soundOn) {
int16 l = _currentLevel + (int8)(_selectedInstrument[20] & 0xF0);
_currentLevel = (uint8)CLIP<int16>(l, 0, 255);
_ssgEnvelopeState = kEnvSSG_decay;
_ssgLevel = _selectedInstrument[17];
_ssgSpeed = _selectedInstrument[18];
_note = 0xFF;
} else if (_version == SCI_VERSION_0_LATE && soundOn) {
_activeChannnelsStatus &= _chanEnableMask1;
if (_ccngEnabled)
_activeChannnelsStatus &= _chanEnableMask2;
_currentLevel = 1;
sendActiveChannelsStatus();
writeReg(0, 13, _selectedInstrument[0]);
} else if (_version == SCI_VERSION_0_LATE) {
_activeChannnelsStatus |= ~_chanEnableMask1;
if (_ccngEnabled)
_activeChannnelsStatus |= ~_chanEnableMask2;
_currentLevel = 0;
_note = 0xFF;
sendActiveChannelsStatus();
}
sendVolume();
}
void SoundChannel_PC9801_SSG::sendVolume() {
uint8 v1 = getVolume();
uint16 r = 0;
if (_version == SCI_VERSION_1_LATE) {
uint8 vol = v1 + (((v1 >> 1) + v1) >> 2);
if (vol > 0x7F)
vol = 0x7F;
vol = (vol >> 3) & 0x0F;
r = _currentLevel & 0xF0;
for (uint8 i = 0; i < 4; ++i) {
r += r;
if (r & 0x100)
r = (r + vol) & 0xFF;
}
r = (r + 15) >> 4;
} else {
r = _currentLevel * (0x10 | v1 >> 3);
}
writeReg(0, 8 + _regOffs, r);
}
void SoundChannel_PC9801_SSG::sendFrequency() {
uint16 freq = _frequencyCourse;
if (_version > SCI_VERSION_0_LATE) {
freq = (uint16)(freq + _vbrFrequencyModifier) >> (8 - _frequencyBlock);
if (!freq)
return;
freq = 62400 / freq;
}
writeReg(0, _regOffs << 1, freq & 0xFF);
writeReg(0, (_regOffs << 1) + 1, freq >> 8);
}
void SoundChannel_PC9801_SSG::updateNg() {
int p = _ngPhase + _ngPhaseStep;
if (p > 255)
p = 0;
if (p > 31)
p = 31;
_ngPhase = p & 0xFF;
writeReg(0, 6, _ngPhase);
}
void SoundChannel_PC9801_SSG::sendActiveChannelsStatus() {
writeReg(0, 7, (_activeChannnelsStatus & 0x3F) | 0x80);
}
MidiPart_PC9801::MidiPart_PC9801(uint8 id, SoundChannel_PC9801 **channels, uint8 numChan, SciVersion version) : _chan(channels), _id(id), _version(version), _numChan(numChan),
_program(0), _volume(0x3f), _sustain(0), _chanMissing(0), _pitchBend(0x2000), _outChan(0), _noteRangeLow(version > SCI_VERSION_0_LATE ? 12 : 24), _noteRangeHigh(version > SCI_VERSION_0_LATE ? 107 : 119) {
}
void MidiPart_PC9801::noteOff(uint8 note) {
for (int i = 0; i < _numChan; ++i) {
if (_chan[i]->_assign != _id || _chan[i]->_note != note)
continue;
if (_sustain && _version > SCI_VERSION_0_LATE)
_chan[i]->_sustain = 1;
else
_chan[i]->noteOff();
return;
}
}
void MidiPart_PC9801::noteOn(uint8 note, uint8 velo) {
if (note < _noteRangeLow || note > _noteRangeHigh)
return;
if (velo == 0) {
noteOff(note);
return;
}
velo >>= 1;
for (int i = 0; i < _numChan; ++i) {
if (_chan[i]->_assign != _id || _chan[i]->_note != note)
continue;
_chan[i]->_sustain = 0;
_chan[i]->noteOff();
_chan[i]->noteOn(note, velo);
return;
}
int chan = allocateChannel();
if (chan != -1)
_chan[chan]->noteOn(note, velo);
}
void MidiPart_PC9801::controlChangeVolume(uint8 vol) {
_volume = (_version < SCI_VERSION_1_LATE) ? vol : CLIP(vol >> 1, 0, 0x3f);
for (int i = 0; i < _numChan; ++i) {
if (_chan[i]->_assign == _id && _chan[i]->_note != 0xff)
_chan[i]->processNoteEvent(_chan[i]->_note, true);
}
}
void MidiPart_PC9801::controlChangeSustain(uint8 sus) {
if (_version < SCI_VERSION_1_LATE)
return;
_sustain = sus;
if (_sustain)
return;
for (int i = 0; i < _numChan; ++i) {
if (_chan[i]->_assign == _id && _chan[i]->_sustain) {
_chan[i]->_sustain = 0;
_chan[i]->noteOff();
}
}
}
void MidiPart_PC9801::controlChangePolyphony(uint8 numChan) {
if (_version < SCI_VERSION_1_LATE)
return;
uint8 numAssigned = 0;
for (int i = 0; i < _numChan; ++i) {
if (_chan[i]->_assign == _id)
numAssigned++;
}
numAssigned += _chanMissing;
if (numAssigned < numChan) {
addChannels(numChan - numAssigned);
} else if (numAssigned > numChan) {
dropChannels(numAssigned - numChan);
assignFreeChannels();
}
}
void MidiPart_PC9801::controlChangeNoiseGenerator(uint8 enable) {
if (_version > SCI_VERSION_0_LATE)
return;
for (int i = 0; i < _numChan; ++i) {
if (_chan[i]->_assign == _id)
_chan[i]->toggleNoiseGenerator(enable);
}
}
void MidiPart_PC9801::controlChangeAllNotesOff() {
for (int i = 0; i < _numChan; ++i) {
if (_chan[i]->_assign == _id && _chan[i]->_note != 0xff)
_chan[i]->noteOff();
}
}
void MidiPart_PC9801::programChange(uint8 prg) {
_program = prg;
}
void MidiPart_PC9801::pitchBend(int16 val) {
if (_version < SCI_VERSION_1_LATE)
return;
_pitchBend = val;
for (int i = 0; i < _numChan; ++i) {
if (_chan[i]->_assign == _id && _chan[i]->_note != 0xff)
_chan[i]->processNoteEvent(_chan[i]->_note, true);
}
}
void MidiPart_PC9801::addChannels(int num, int resetMissingChannels, int channelType) {
if (resetMissingChannels != -1)
_chanMissing = resetMissingChannels;
for (int i = 0; i < _numChan; ++i) {
if (_chan[i]->_assign != 0xFF || (channelType != -1 && _chan[i]->getType() != channelType))
continue;
_chan[i]->_assign = _id;
#ifdef DEBUG_REMAP
debug("===== MidiDriver_PC9801: hardware channel %d is assigned to device channel %d =====", i, _id);
#endif
if (_chan[i]->_note != 0xff)
_chan[i]->noteOff();
if (!--num)
break;
}
_chanMissing += num;
}
void MidiPart_PC9801::dropChannels(int num) {
if (_chanMissing == num) {
_chanMissing = 0;
return;
} else if (_chanMissing > num) {
_chanMissing -= num;
return;
}
num -= _chanMissing;
_chanMissing = 0;
for (int i = 0; i < _numChan; i++) {
if (_chan[i]->_assign != _id || _chan[i]->_note != 0xff)
continue;
_chan[i]->_assign = 0xff;
#ifdef DEBUG_REMAP
debug("===== MidiDriver_PC9801: hardware channel %d is dropped from device channel %d =====", i, _id);
#endif
if (!--num)
return;
}
for (int i = 0; i < _numChan; i++) {
if (_chan[i]->_assign != _id)
continue;
_chan[i]->_sustain = 0;
_chan[i]->noteOff();
_chan[i]->_assign = 0xff;
if (!--num)
return;
}
}
int MidiPart_PC9801::allocateChannel() {
int chan = _outChan;
int ovrChan = 0;
int ld = 0;
bool found = false;
for (bool loop = true; loop; ) {
if (++chan == _numChan)
chan = 0;
if (chan == _outChan)
loop = false;
if (_id == _chan[chan]->_assign) {
if (_chan[chan]->_note == 0xff || _version < SCI_VERSION_1_LATE) {
found = true;
break;
}
if (_chan[chan]->_duration >= ld) {
ld = _chan[chan]->_duration;
ovrChan = chan;
}
}
}
if (!found) {
if (!ld)
return -1;
chan = ovrChan;
_chan[chan]->_sustain = 0;
_chan[chan]->noteOff();
}
_outChan = chan;
return chan;
}
void MidiPart_PC9801::assignFreeChannels() {
uint8 freeChan = 0;
for (int i = 0; i < _numChan; i++) {
if (_chan[i]->_assign == 0xff)
freeChan++;
}
if (!freeChan)
return;
MidiDriver_PC9801::assignFreeChannels(freeChan);
}
MidiPart_PC9801 **MidiDriver_PC9801::_parts = 0;
MidiDriver_PC9801::MidiDriver_PC9801(Audio::Mixer *mixer, SciVersion version)
: _version(version), _pc98a(0), _chan(0), _numChan(6), _internalVersion(0xFF), _ssgPatchOffset(0xFF), _patchSize(0),
_timerProc(0), _timerProcPara(0), _baseTempo(10080), _ready(false), _isOpen(false), _masterVolume(0x0f) ,_soundOn(true), _playID(0),
_polyphony(9), _channelMask1(0x10), _channelMask2(0x02) {
_pc98a =
#ifdef SCI_PC98_AUDIO_EXTENDED
new PC98AudioCore(mixer, this, kType86);
#else
new PC98AudioCore(mixer, this, kType26);
#endif
}
MidiDriver_PC9801::~MidiDriver_PC9801() {
_ready = false;
close();
delete _pc98a;
}
int MidiDriver_PC9801::open() {
if (_isOpen)
return MERR_ALREADY_OPEN;
if (!_ready) {
if (!_pc98a->init())
return MERR_CANNOT_CONNECT;
_pc98a->setSoundEffectChanMask(0);
_pc98a->ssgSetVolume(205);
_ready = true;
}
ResourceManager *resMan = g_sci->getResMan();
if (!loadInstruments(*resMan->findResource(ResourceId(kResourceTypePatch, _version < SCI_VERSION_1_LATE ? 2 : 8), false)))
return MERR_CANNOT_CONNECT;
if (_version == SCI_VERSION_0_LATE && _channelMask2 == 0x00) {
_internalVersion = 0;
_polyphony = 3;
} else if (_version == SCI_VERSION_0_LATE && _channelMask2 == 0x02) {
_internalVersion = 1;
_polyphony = 6;
} else if (_patchSize == 60 && _ssgPatchOffset == 37)
_internalVersion = 2;
else if (_patchSize == 81 && _ssgPatchOffset == 58)
_internalVersion = 3;
else
return MERR_CANNOT_CONNECT;
if (_internalVersion == 3)
_numChan++;
int config = _internalVersion;
#ifdef SCI_PC98_AUDIO_EXTENDED
_numChan = 9;
config = 4;
#endif
static const int channelConfig[6][11] = {
{ 0, 0, 0, 2, 2, 2, -1, -1, -1, -1, -1 },
{ 0, 0, 0, 2, 2, 2, -1, -1, -1, -1, -1 },
{ 0, 0, 0, 2, 2, 2, -1, -1, -1, -1, -1 },
{ 0, 0, 1, 1, 2, 2, 2, -1, -1, -1, -1 },
{ 0, 0, 0, 0, 0, 0, 2, 2, 2, -1, -1 }
};
_parts = new MidiPart_PC9801*[16];
_chan = new SoundChannel_PC9801*[_numChan];
int numSSG = 0;
for (int i = 0; i < _numChan; ++i) {
if (channelConfig[config][i] == 0)
_chan[i] = new SoundChannel_PC9801_FM4OP(i, _pc98a, _parts, _version, *_instrumentData, _patchSize, _soundOn);
else if (channelConfig[config][i] == 1)
_chan[i] = new SoundChannel_PC9801_FM2OP(i, _pc98a, _parts, _version, *_instrumentData, _patchSize, _soundOn);
else if (channelConfig[config][i] == 2)
_chan[i] = new SoundChannel_PC9801_SSG(numSSG++, _pc98a, _parts, _version, *_instrumentData, _ssgPatchOffset, _patchSize, _soundOn);
else
_chan[i] = 0;
}
for (int i = 0; i < 16; ++i)
_parts[i] = new MidiPart_PC9801(i, _chan, _numChan, _version);
_isOpen = true;
reset();
return 0;
}
void MidiDriver_PC9801::close() {
if (!_isOpen)
return;
bool ready = _ready;
_isOpen = _ready = false;
PC98AudioCore::MutexLock lock = _pc98a->stackLockMutex();
if (_parts) {
for (int i = 0; i < 16; ++i) {
delete _parts[i];
_parts[i] = 0;
}
delete[] _parts;
_parts = 0;
}
if (_chan) {
for (int i = 0; i < _numChan; ++i) {
delete _chan[i];
_chan[i] = 0;
}
delete[] _chan;
_chan = 0;
}
_instrumentData.clear();
_ready = ready;
}
void MidiDriver_PC9801::send(uint32 b) {
if (!_isOpen)
return;
byte para2 = (b >> 16) & 0xFF;
byte para1 = (b >> 8) & 0xFF;
byte cmd = b & 0xF0;
MidiPart_PC9801 *part = _parts[b & 0x0F];
switch (cmd) {
case 0x80:
part->noteOff(para1);
break;
case 0x90:
part->noteOn(para1, para2);
break;
case 0xb0:
switch (para1) {
case 7:
part->controlChangeVolume(para2);
break;
case 64:
part->controlChangeSustain(para2);
break;
case SCI_MIDI_SET_POLYPHONY:
part->controlChangePolyphony(para2);
break;
case 76:
// This event (from the SCI0 driver) is parsing related and can't be handled here. Lets's see if this ever comes up.
warning("MidiDriver_PC9801: Midi Control Change '0x%2x' not implemented", para1);
break;
case 81:
part->controlChangeNoiseGenerator(para2);
break;
case 96:
// This event (from the SCI0 driver) is parsing related. It is handled in MidiParser_SCI::processEvent().
break;
case SCI_MIDI_CHANNEL_NOTES_OFF:
part->controlChangeAllNotesOff();
break;
default:
break;
}
break;
case 0xc0:
part->programChange(para1);
break;
case 0xe0:
part->pitchBend(para1 | (para2 << 7));
break;
default:
break;
}
}
void MidiDriver_PC9801::assignFreeChannels(int num) {
assert(_parts);
for (int i = 0; i < 16; ++i) {
uint8 missing = _parts[i]->getMissingChannels();
if (!missing)
continue;
if (missing < num) {
num -= missing;
_parts[i]->addChannels(missing, 0);
} else {
_parts[i]->addChannels(num, missing - num);
return;
}
}
}
uint32 MidiDriver_PC9801::property(int prop, uint32 param) {
if (!_isOpen)
return 0;
switch(prop) {
case MIDI_PROP_MASTER_VOLUME:
if (param != 0xffff && param != _masterVolume && param < 16) {
_masterVolume = param;
for (int i = 0; i < _numChan; ++i) {
_chan[i]->setVolume(_masterVolume);
if (_chan[i]->_note != 0xFF)
_chan[i]->processNoteEvent(_chan[i]->_note, true);
}
}
return _masterVolume;
case MIDI_PROP_PLAYSWITCH:
_soundOn = param;
break;
case MIDI_PROP_POLYPHONY:
return _polyphony;
case MIDI_PROP_CHANNEL_ID:
return _version < SCI_VERSION_1_LATE ? (_channelMask1 | _channelMask2) : _playID;
default:
break;
}
return 0;
}
void MidiDriver_PC9801::initTrack(SciSpan<const byte> &header) {
if (!_isOpen || _version > SCI_VERSION_0_LATE)
return;
for (int i = 0; i < _numChan; ++i)
_chan[i]->reset();
uint8 readPos = 0;
uint8 caps = header.getInt8At(readPos++);
int numChan = (caps == 2) ? 15 : 16;
if (caps != 0 && caps != 2)
return;
for (int i = 0; i < numChan; ++i) {
_parts[i]->controlChangeVolume(103);
uint8 num = (_internalVersion == 1) ? (header.getInt8At(readPos) & 0x7F) : 1;
readPos++;
uint8 flags = header.getInt8At(readPos);
readPos++;
if (flags & _channelMask1 && num)
_parts[i]->addChannels(num, -1, 0);
if (flags & _channelMask2 && num)
_parts[i]->addChannels(num, -1, 2);
if (_internalVersion == 0)
_parts[i]->programChange(10);
}
}
void MidiDriver_PC9801::setTimerCallback(void *timer_param, Common::TimerManager::TimerProc timer_proc) {
_timerProc = timer_proc;
_timerProcPara = timer_param;
}
uint32 MidiDriver_PC9801::getBaseTempo() {
return _baseTempo;
}
void MidiDriver_PC9801::timerCallbackB() {
if (!_isOpen)
return;
updateParser();
updateChannels();
}
bool MidiDriver_PC9801::loadInstruments(const SciSpan<const uint8> &data) {
if (!data)
return false;
SciSpan<const uint8> src = data;
_instrumentData.clear();
if (_version == SCI_VERSION_0_LATE) {
_ssgPatchOffset = 48;
_patchSize = 52;
_instrumentData->allocate(96 * _patchSize);
SciSpan<uint8> dst = *_instrumentData;
for (bool load = true; load; ) {
for (int i = 0; i < 48; ++i) {
src.subspan(0, _patchSize).copyDataTo(dst);
src += 64;
dst += _patchSize;
}
uint16 id = (src.byteSize() >= 2) ? src.getInt16BEAt(0) : 0;
if (id == 0xABCD || id == 0xCDAB) {
src += 2;
_channelMask2 = 0x00;
} else {
load = false;
}
}
} else if (_version == SCI_VERSION_1_LATE) {
_instrumentData->allocateFromSpan(++src);
_patchSize = (data.byteSize() - 1) / 96;
_ssgPatchOffset = (_patchSize == 81) ? 58 : 37;
}
return (_instrumentData->byteSize() && _patchSize && _ssgPatchOffset != 0xFF);
}
void MidiDriver_PC9801::updateParser() {
if (_timerProc)
_timerProc(_timerProcPara);
}
void MidiDriver_PC9801::updateChannels() {
for (int i = 0; i < _numChan; ++i)
_chan[i]->update();
}
void MidiDriver_PC9801::reset() {
if (!_ready)
return;
for (int i = 0; i < 3; ++i) {
_pc98a->writeReg(0, 0x28, i);
_pc98a->writeReg(0, i, 0);
_pc98a->writeReg(0, 8 + i, 0);
}
uint8 flag = 0;
#ifndef SCI_PC98_AUDIO_EXTENDED
if (_internalVersion == 3) {
_pc98a->writeReg(0, 0xB2, 0x04);
flag = 0x40;
}
#endif
_pc98a->writeReg(0, 0x27, 0x38);
_pc98a->writeReg(0, 0x27, 0x3a | flag);
if (!_isOpen)
return;
for (int i = 0; i < _numChan; ++i)
_chan[i]->reset();
}
MidiPlayer_PC9801::MidiPlayer_PC9801(SciVersion version) : MidiPlayer(version) {
_driver = new MidiDriver_PC9801(g_system->getMixer(), version);
}
MidiPlayer_PC9801::~MidiPlayer_PC9801() {
delete _driver;
}
bool MidiPlayer_PC9801::hasRhythmChannel() const {
return false;
}
byte MidiPlayer_PC9801::getPlayId() const {
return _driver ? _driver->property(MIDI_PROP_CHANNEL_ID, 0) : 0;
}
int MidiPlayer_PC9801::getPolyphony() const {
return _driver ? _driver->property(MIDI_PROP_POLYPHONY, 0) : 0;
}
void MidiPlayer_PC9801::playSwitch(bool play) {
if (_driver)
_driver->property(MIDI_PROP_PLAYSWITCH, play ? 1 : 0);
}
void MidiPlayer_PC9801::initTrack(SciSpan<const byte> &trackData) {
if (_driver)
static_cast<MidiDriver_PC9801*>(_driver)->initTrack(trackData);
}
MidiPlayer *MidiPlayer_PC9801_create(SciVersion _soundVersion) {
return new MidiPlayer_PC9801(_soundVersion);
}
} // End of namespace Sci
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