Merge pull request #2017 from tildearrow/ymf278b

Prepare to OPL4 support
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tildearrow 2024-09-08 18:52:30 -05:00 committed by GitHub
commit e16bd903ef
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32 changed files with 3110 additions and 279 deletions

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@ -552,6 +552,7 @@ src/engine/platform/sound/nes/fds.c
src/engine/platform/sound/nes/mmc5.c src/engine/platform/sound/nes/mmc5.c
src/engine/platform/sound/vera_psg.c src/engine/platform/sound/vera_psg.c
src/engine/platform/sound/vera_pcm.c src/engine/platform/sound/vera_pcm.c
src/engine/platform/sound/ymf278b/ymf278.cpp
src/engine/platform/sound/atomicssg/ssg.c src/engine/platform/sound/atomicssg/ssg.c

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@ -590,6 +590,7 @@ size | description
| - 11: 8-bit μ-law PCM | - 11: 8-bit μ-law PCM
| - 12: C219 PCM | - 12: C219 PCM
| - 13: IMA ADPCM | - 13: IMA ADPCM
| - 14: 12-bit PCM (MultiPCM)
| - 16: 16-bit PCM | - 16: 16-bit PCM
1 | loop direction (>=123) or reserved 1 | loop direction (>=123) or reserved
| - 0: forward | - 0: forward

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@ -582,6 +582,11 @@ size | description
1 | LFO rate 1 | LFO rate
1 | vibrato depth 1 | vibrato depth
1 | AM depth 1 | AM depth
1 | flags (>=221)
| - bit 0: damp
| - bit 1: pseudo-reverb
| - bit 2: LFO reset
| - bit 3: level direct
``` ```
# Sound Unit data (SU) # Sound Unit data (SU)

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@ -268,6 +268,22 @@ enum DivDispatchCmds {
DIV_CMD_FM_OPMASK, // (mask) DIV_CMD_FM_OPMASK, // (mask)
DIV_CMD_MULTIPCM_MIX_FM, // (value)
DIV_CMD_MULTIPCM_MIX_PCM, // (value)
DIV_CMD_MULTIPCM_LFO, // (value)
DIV_CMD_MULTIPCM_VIB, // (value)
DIV_CMD_MULTIPCM_AM, // (value)
DIV_CMD_MULTIPCM_AR, // (value)
DIV_CMD_MULTIPCM_D1R, // (value)
DIV_CMD_MULTIPCM_DL, // (value)
DIV_CMD_MULTIPCM_D2R, // (value)
DIV_CMD_MULTIPCM_RC, // (value)
DIV_CMD_MULTIPCM_RR, // (value)
DIV_CMD_MULTIPCM_DAMP, // (value)
DIV_CMD_MULTIPCM_PSEUDO_REVERB, // (value)
DIV_CMD_MULTIPCM_LFO_RESET, // (value)
DIV_CMD_MULTIPCM_LEVEL_DIRECT, // (value)
DIV_CMD_MAX DIV_CMD_MAX
}; };

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@ -768,6 +768,24 @@ void DivDispatchContainer::init(DivSystem sys, DivEngine* eng, int chanCount, do
case DIV_SYSTEM_SID2: case DIV_SYSTEM_SID2:
dispatch=new DivPlatformSID2; dispatch=new DivPlatformSID2;
break; break;
case DIV_SYSTEM_OPL4:
dispatch=new DivPlatformOPL;
((DivPlatformOPL*)dispatch)->setOPLType(4,false);
if (isRender) {
((DivPlatformOPL*)dispatch)->setCore(eng->getConfInt("opl4CoreRender",0));
} else {
((DivPlatformOPL*)dispatch)->setCore(eng->getConfInt("opl4Core",0));
}
break;
case DIV_SYSTEM_OPL4_DRUMS:
dispatch=new DivPlatformOPL;
((DivPlatformOPL*)dispatch)->setOPLType(4,true);
if (isRender) {
((DivPlatformOPL*)dispatch)->setCore(eng->getConfInt("opl4CoreRender",0));
} else {
((DivPlatformOPL*)dispatch)->setCore(eng->getConfInt("opl4Core",0));
}
break;
case DIV_SYSTEM_DUMMY: case DIV_SYSTEM_DUMMY:
dispatch=new DivPlatformDummy; dispatch=new DivPlatformDummy;
break; break;

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@ -54,8 +54,8 @@ class DivWorkPool;
#define DIV_UNSTABLE #define DIV_UNSTABLE
#define DIV_VERSION "dev220" #define DIV_VERSION "dev221"
#define DIV_ENGINE_VERSION 220 #define DIV_ENGINE_VERSION 221
// for imports // for imports
#define DIV_VERSION_MOD 0xff01 #define DIV_VERSION_MOD 0xff01
#define DIV_VERSION_FC 0xff02 #define DIV_VERSION_FC 0xff02

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@ -174,7 +174,11 @@ bool DivInstrumentMultiPCM::operator==(const DivInstrumentMultiPCM& other) {
_C(rc) && _C(rc) &&
_C(lfo) && _C(lfo) &&
_C(vib) && _C(vib) &&
_C(am) _C(am) &&
_C(damp) &&
_C(pseudoReverb) &&
_C(lfoReset) &&
_C(levelDirect)
); );
} }
@ -892,6 +896,14 @@ void DivInstrument::writeFeatureMP(SafeWriter* w) {
w->writeC(multipcm.vib); w->writeC(multipcm.vib);
w->writeC(multipcm.am); w->writeC(multipcm.am);
unsigned char next=(
(multipcm.damp?1:0)&
(multipcm.pseudoReverb?2:0)&
(multipcm.lfoReset?4:0)&
(multipcm.levelDirect?8:0)
);
w->writeC(next);
FEATURE_END; FEATURE_END;
} }
@ -2218,6 +2230,14 @@ void DivInstrument::readFeatureMP(SafeReader& reader, short version) {
multipcm.vib=reader.readC(); multipcm.vib=reader.readC();
multipcm.am=reader.readC(); multipcm.am=reader.readC();
if (version>=221) {
unsigned char next=reader.readC();
multipcm.damp=next&1;
multipcm.pseudoReverb=next&2;
multipcm.lfoReset=next&4;
multipcm.levelDirect=next&8;
}
READ_FEAT_END; READ_FEAT_END;
} }

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@ -612,6 +612,7 @@ struct DivInstrumentFDS {
struct DivInstrumentMultiPCM { struct DivInstrumentMultiPCM {
unsigned char ar, d1r, dl, d2r, rr, rc; unsigned char ar, d1r, dl, d2r, rr, rc;
unsigned char lfo, vib, am; unsigned char lfo, vib, am;
bool damp, pseudoReverb, lfoReset, levelDirect;
bool operator==(const DivInstrumentMultiPCM& other); bool operator==(const DivInstrumentMultiPCM& other);
bool operator!=(const DivInstrumentMultiPCM& other) { bool operator!=(const DivInstrumentMultiPCM& other) {
@ -620,7 +621,11 @@ struct DivInstrumentMultiPCM {
DivInstrumentMultiPCM(): DivInstrumentMultiPCM():
ar(15), d1r(15), dl(0), d2r(0), rr(15), rc(15), ar(15), d1r(15), dl(0), d2r(0), rr(15), rc(15),
lfo(0), vib(0), am(0) { lfo(0), vib(0), am(0),
damp(false),
pseudoReverb(false),
lfoReset(false),
levelDirect(true) {
} }
}; };

File diff suppressed because it is too large Load diff

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@ -29,24 +29,41 @@ extern "C" {
} }
#include "sound/ymfm/ymfm_adpcm.h" #include "sound/ymfm/ymfm_adpcm.h"
#include "sound/ymfm/ymfm_opl.h" #include "sound/ymfm/ymfm_opl.h"
#include "sound/ymfm/ymfm_pcm.h"
#include "sound/ymf278b/ymf278.h"
class DivOPLAInterface: public ymfm::ymfm_interface { class DivOPLAInterface: public ymfm::ymfm_interface {
public: public:
unsigned char* adpcmBMem; unsigned char* adpcmBMem;
unsigned char* pcmMem;
int sampleBank; int sampleBank;
uint8_t ymfm_external_read(ymfm::access_class type, uint32_t address); uint8_t ymfm_external_read(ymfm::access_class type, uint32_t address);
void ymfm_external_write(ymfm::access_class type, uint32_t address, uint8_t data); void ymfm_external_write(ymfm::access_class type, uint32_t address, uint8_t data);
DivOPLAInterface(): adpcmBMem(NULL), sampleBank(0) {} DivOPLAInterface(): adpcmBMem(NULL), pcmMem(NULL), sampleBank(0) {}
};
class DivYMF278MemoryInterface: public MemoryInterface {
public:
unsigned char* memory;
DivYMF278MemoryInterface(unsigned size_) : memory(NULL), size(size_) {};
byte operator[](unsigned address) const override;
unsigned getSize() const override { return size; };
void write(unsigned address, byte value) override {};
void clear(byte value) override {};
private:
unsigned size;
}; };
class DivPlatformOPL: public DivDispatch { class DivPlatformOPL: public DivDispatch {
protected: protected:
struct Channel: public SharedChannel<int> { struct Channel: public SharedChannel<int> {
DivInstrumentFM state; DivInstrumentFM state;
unsigned char freqH, freqL; unsigned int freqH, freqL;
int sample, fixedFreq; int sample, fixedFreq;
bool furnacePCM, fourOp, hardReset; bool furnacePCM, fourOp, hardReset, writeCtrl;
unsigned char pan; bool levelDirect, damp, pseudoReverb, lfoReset, ch;
int lfo, vib, am, ar, d1r, d2r, dl, rc, rr;
int pan;
int macroVolMul; int macroVolMul;
Channel(): Channel():
SharedChannel<int>(0), SharedChannel<int>(0),
@ -57,14 +74,29 @@ class DivPlatformOPL: public DivDispatch {
furnacePCM(false), furnacePCM(false),
fourOp(false), fourOp(false),
hardReset(false), hardReset(false),
writeCtrl(false),
levelDirect(true),
damp(false),
pseudoReverb(false),
lfoReset(false),
ch(false),
lfo(0),
vib(0),
am(0),
ar(15),
d1r(15),
d2r(0),
dl(0),
rc(15),
rr(15),
pan(3), pan(3),
macroVolMul(64) { macroVolMul(64) {
state.ops=2; state.ops=2;
} }
}; };
Channel chan[20]; Channel chan[44];
DivDispatchOscBuffer* oscBuf[20]; DivDispatchOscBuffer* oscBuf[44];
bool isMuted[20]; bool isMuted[44];
struct QueuedWrite { struct QueuedWrite {
unsigned short addr; unsigned short addr;
unsigned char val; unsigned char val;
@ -72,7 +104,7 @@ class DivPlatformOPL: public DivDispatch {
QueuedWrite(): addr(0), val(0), addrOrVal(false) {} QueuedWrite(): addr(0), val(0), addrOrVal(false) {}
QueuedWrite(unsigned short a, unsigned char v): addr(a), val(v), addrOrVal(false) {} QueuedWrite(unsigned short a, unsigned char v): addr(a), val(v), addrOrVal(false) {}
}; };
FixedQueue<QueuedWrite,2048> writes; FixedQueue<QueuedWrite,4096> writes;
unsigned int dacVal; unsigned int dacVal;
unsigned int dacVal2; unsigned int dacVal2;
@ -86,8 +118,12 @@ class DivPlatformOPL: public DivDispatch {
unsigned char* adpcmBMem; unsigned char* adpcmBMem;
size_t adpcmBMemLen; size_t adpcmBMemLen;
unsigned char* pcmMem;
size_t pcmMemLen;
DivOPLAInterface iface; DivOPLAInterface iface;
DivYMF278MemoryInterface pcmMemory;
unsigned int sampleOffB[256]; unsigned int sampleOffB[256];
unsigned int sampleOffPCM[256];
bool sampleLoaded[256]; bool sampleLoaded[256];
ymfm::adpcm_b_engine* adpcmB; ymfm::adpcm_b_engine* adpcmB;
@ -97,12 +133,13 @@ class DivPlatformOPL: public DivDispatch {
const unsigned short* chanMap; const unsigned short* chanMap;
const unsigned char* outChanMap; const unsigned char* outChanMap;
int chipFreqBase, chipRateBase; int chipFreqBase, chipRateBase;
int delay, chipType, oplType, chans, melodicChans, totalChans, adpcmChan, sampleBank, totalOutputs; int delay, chipType, oplType, chans, melodicChans, totalChans, adpcmChan=-1, pcmChanOffs=-1, sampleBank, totalOutputs, ramSize;
int fmMixL=7, fmMixR=7, pcmMixL=7, pcmMixR=7;
unsigned char lastBusy; unsigned char lastBusy;
unsigned char drumState; unsigned char drumState;
unsigned char drumVol[5]; unsigned char drumVol[5];
unsigned char regPool[512]; unsigned char regPool[768];
bool properDrums, properDrumsSys, dam, dvb; bool properDrums, properDrumsSys, dam, dvb;
@ -115,15 +152,17 @@ class DivPlatformOPL: public DivDispatch {
bool update4OpMask, pretendYMU, downsample, compatPan; bool update4OpMask, pretendYMU, downsample, compatPan;
short oldWrites[512]; short oldWrites[768];
short pendingWrites[512]; short pendingWrites[768];
// chips // chips
opl3_chip fm; opl3_chip fm;
YMF278 pcm;
ymfm::ym3526* fm_ymfm1; ymfm::ym3526* fm_ymfm1;
ymfm::ym3812* fm_ymfm2; ymfm::ym3812* fm_ymfm2;
ymfm::y8950* fm_ymfm8950; ymfm::y8950* fm_ymfm8950;
ymfm::ymf262* fm_ymfm3; ymfm::ymf262* fm_ymfm3;
ymfm::ymf278b* fm_ymfm4;
fmopl2_t fm_lle2; fmopl2_t fm_lle2;
fmopl3_t fm_lle3; fmopl3_t fm_lle3;
@ -141,6 +180,7 @@ class DivPlatformOPL: public DivDispatch {
void acquire_nukedLLE3(short** buf, size_t len); void acquire_nukedLLE3(short** buf, size_t len);
void acquire_nuked(short** buf, size_t len); void acquire_nuked(short** buf, size_t len);
void acquire_ymfm3(short** buf, size_t len); void acquire_ymfm3(short** buf, size_t len);
void acquire_ymfm4(short** buf, size_t len);
void acquire_ymfm8950(short** buf, size_t len); void acquire_ymfm8950(short** buf, size_t len);
void acquire_ymfm2(short** buf, size_t len); void acquire_ymfm2(short** buf, size_t len);
void acquire_ymfm1(short** buf, size_t len); void acquire_ymfm1(short** buf, size_t len);
@ -182,6 +222,9 @@ class DivPlatformOPL: public DivDispatch {
void renderSamples(int chipID); void renderSamples(int chipID);
int init(DivEngine* parent, int channels, int sugRate, const DivConfig& flags); int init(DivEngine* parent, int channels, int sugRate, const DivConfig& flags);
void quit(); void quit();
DivPlatformOPL():
pcmMemory(0x400000),
pcm(pcmMemory) {}
~DivPlatformOPL(); ~DivPlatformOPL();
}; };
#endif #endif

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@ -28,6 +28,11 @@ uint8_t DivOPLAInterface::ymfm_external_read(ymfm::access_class type, uint32_t a
return 0; return 0;
} }
return adpcmBMem[address&0x3ffff]; return adpcmBMem[address&0x3ffff];
case ymfm::ACCESS_PCM:
if (pcmMem==NULL) {
return 0;
}
return pcmMem[address&0x3fffff];
default: default:
return 0; return 0;
} }
@ -36,3 +41,10 @@ uint8_t DivOPLAInterface::ymfm_external_read(ymfm::access_class type, uint32_t a
void DivOPLAInterface::ymfm_external_write(ymfm::access_class type, uint32_t address, uint8_t data) { void DivOPLAInterface::ymfm_external_write(ymfm::access_class type, uint32_t address, uint8_t data) {
} }
byte DivYMF278MemoryInterface::operator[](unsigned address) const {
if (memory && address<size) {
return memory[address];
}
return 0;
}

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@ -0,0 +1,339 @@
GNU GENERAL PUBLIC LICENSE
Version 2, June 1991
Copyright (C) 1989, 1991 Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
Preamble
The licenses for most software are designed to take away your
freedom to share and change it. By contrast, the GNU General Public
License is intended to guarantee your freedom to share and change free
software--to make sure the software is free for all its users. This
General Public License applies to most of the Free Software
Foundation's software and to any other program whose authors commit to
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REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES,
INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING
OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED
TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY
YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER
PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE
POSSIBILITY OF SUCH DAMAGES.
END OF TERMS AND CONDITIONS
How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
possible use to the public, the best way to achieve this is to make it
free software which everyone can redistribute and change under these terms.
To do so, attach the following notices to the program. It is safest
to attach them to the start of each source file to most effectively
convey the exclusion of warranty; and each file should have at least
the "copyright" line and a pointer to where the full notice is found.
<one line to give the program's name and a brief idea of what it does.>
Copyright (C) <year> <name of author>
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.
Also add information on how to contact you by electronic and paper mail.
If the program is interactive, make it output a short notice like this
when it starts in an interactive mode:
Gnomovision version 69, Copyright (C) year name of author
Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, the commands you use may
be called something other than `show w' and `show c'; they could even be
mouse-clicks or menu items--whatever suits your program.
You should also get your employer (if you work as a programmer) or your
school, if any, to sign a "copyright disclaimer" for the program, if
necessary. Here is a sample; alter the names:
Yoyodyne, Inc., hereby disclaims all copyright interest in the program
`Gnomovision' (which makes passes at compilers) written by James Hacker.
<signature of Ty Coon>, 1 April 1989
Ty Coon, President of Vice
This General Public License does not permit incorporating your program into
proprietary programs. If your program is a subroutine library, you may
consider it more useful to permit linking proprietary applications with the
library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License.

File diff suppressed because it is too large Load diff

View file

@ -0,0 +1,155 @@
#ifndef YMF278_HH
#define YMF278_HH
#include <vector>
#include <string>
#include <algorithm>
#define UNREACHABLE while (1) assert(false)
using byte = uint8_t;
template<typename T>
const T& YMF_clamp(const T& value, const T& min, const T& max) {
return std::min(std::max(value, min), max);
}
class MemoryInterface {
public:
virtual byte operator[](unsigned address) const = 0;
virtual unsigned getSize() const = 0;
virtual void write(unsigned address, byte value) = 0;
virtual void clear(byte value) = 0;
virtual void setMemoryType(bool memoryType) {};
};
class YMF278Base
{
public:
YMF278Base(MemoryInterface& memory, int channelCount, int clockDivider, double clockFrequency);
~YMF278Base();
int getChannelCount();
int getClockDivider();
double getClockFrequency();
void setClockFrequency(double clockFrequency);
double getSampleRate();
virtual void reset();
void generate(short& fleft, short& fright, short& rleft, short& rright, short* channelBufs = nullptr);
class Slot final {
public:
Slot();
void reset();
int compute_rate(int val) const;
int compute_decay_rate(int val) const;
unsigned decay_rate(int num, int sample_rate);
void envelope_next(int sample_rate);
int16_t compute_vib() const;
uint16_t compute_am() const;
template<typename Archive>
void serialize(Archive& ar, unsigned version);
uint32_t startaddr;
uint16_t loopaddr;
uint16_t endaddr; // Note: stored in 2s complement (0x0000 = 0, 0x0001 = -65536, 0xffff = -1)
uint32_t step; // fixed-point frequency step
// invariant: step == calcStep(OCT, FN)
uint32_t stepptr; // fixed-point pointer into the sample
uint16_t pos;
int16_t env_vol;
uint32_t lfo_cnt;
int16_t DL;
uint16_t wave; // wavetable number
uint16_t FN; // f-number TODO store 'FN | 1024'?
int8_t OCT; // octave [-8..+7]
bool PRVB; // pseudo-reverb
uint8_t TLdest; // destination total level
uint8_t TL; // total level (goes towards TLdest)
uint8_t pan; // panpot 0..15
bool ch; // channel select
bool keyon; // slot keyed on
bool DAMP;
uint8_t lfo; // LFO speed 0..7
uint8_t vib; // vibrato 0..7
uint8_t AM; // AM level 0..7
uint8_t AR; // 0..15
uint8_t D1R; // 0..15
uint8_t D2R; // 0..15
uint8_t RC; // rate correction 0..15
uint8_t RR; // 0..15
uint8_t bits; // width of the samples
uint8_t state; // envelope generator state
bool lfo_active;
};
protected:
void keyOnHelper(Slot& slot);
MemoryInterface& memory;
std::vector<Slot> slots;
private:
int16_t getSample(Slot& slot, uint16_t pos) const;
static uint16_t nextPos(Slot& slot, uint16_t pos, uint16_t increment);
void advance();
bool anyActive();
/** Global envelope generator counter. */
unsigned eg_cnt;
unsigned channelCount, clockDivider;
double clockFrequency;
};
class YMF278 final : public YMF278Base {
public:
YMF278(MemoryInterface& memory);
void reset() override;
void writeReg(byte reg, byte data);
byte readReg(byte reg);
byte peekReg(byte reg) const;
void generateMix(short fmL, short fmR, short& bufFL, short& bufFR, short& bufRL, short& bufRR, short* channelBufs = nullptr) {
generate(bufFL, bufFR, bufRL, bufRR, channelBufs);
bufFL = std::min(std::max((pcmMixL * bufFL + fmMixL * fmL) >> 4, -0x8000), 0x7fff);
bufFR = std::min(std::max((pcmMixR * bufFR + fmMixR * fmR) >> 4, -0x8000), 0x7fff);;
}
private:
int fmMixL, fmMixR, pcmMixL, pcmMixR;
int memAdr;
byte regs[256];
};
class YMW258 final : public YMF278Base {
public:
YMW258(MemoryInterface& memory);
void writeReg(byte channel, byte reg, byte data);
};
class MemoryMoonSound : MemoryInterface {
public:
MemoryMoonSound(MemoryInterface& rom, MemoryInterface& ram);
byte operator[](unsigned address) const override;
unsigned getSize() const override;
void write(unsigned address, byte value) override;
void clear(byte value) override;
void setMemoryType(bool memoryType) override;
private:
unsigned getRamAddress(unsigned addr) const;
MemoryInterface& rom;
MemoryInterface& ram;
bool memoryType;
};
#endif

View file

@ -791,6 +791,8 @@ public:
// generate samples of sound // generate samples of sound
void generate(output_data *output, uint32_t numsamples = 1); void generate(output_data *output, uint32_t numsamples = 1);
fm_engine* debug_fm_engine() { return &m_fm; }
pcm_engine* debug_pcm_engine() { return &m_pcm; }
protected: protected:
// internal state // internal state
uint16_t m_address; // address register uint16_t m_address; // address register

View file

@ -309,6 +309,7 @@ void pcm_channel::clock(uint32_t env_counter)
void pcm_channel::output(output_data &output) const void pcm_channel::output(output_data &output) const
{ {
m_output[0] = m_output[1] = m_output[2] = m_output[3] = 0;
// early out if the envelope is effectively off // early out if the envelope is effectively off
uint32_t envelope = m_env_attenuation; uint32_t envelope = m_env_attenuation;
if (envelope > EG_QUIET) if (envelope > EG_QUIET)
@ -340,6 +341,8 @@ void pcm_channel::output(output_data &output) const
uint32_t outnum = m_regs.ch_output_channel(m_choffs) * 2; uint32_t outnum = m_regs.ch_output_channel(m_choffs) * 2;
output.data[outnum + 0] += (lvol * sample) >> 15; output.data[outnum + 0] += (lvol * sample) >> 15;
output.data[outnum + 1] += (rvol * sample) >> 15; output.data[outnum + 1] += (rvol * sample) >> 15;
m_output[outnum + 0] = output.data[outnum + 0];
m_output[outnum + 1] = output.data[outnum + 1];
} }

View file

@ -267,6 +267,8 @@ public:
// load a new wavetable entry // load a new wavetable entry
void load_wavetable(); void load_wavetable();
int32_t debug_output(uint32_t index) const { return m_output[index]; }
private: private:
// internal helpers // internal helpers
void start_attack(); void start_attack();
@ -291,6 +293,7 @@ private:
pcm_cache m_cache; // cached data pcm_cache m_cache; // cached data
pcm_registers &m_regs; // reference to registers pcm_registers &m_regs; // reference to registers
pcm_engine &m_owner; // reference to our owner pcm_engine &m_owner; // reference to our owner
mutable int32_t m_output[4];
}; };
@ -331,6 +334,8 @@ public:
// return a reference to our registers // return a reference to our registers
pcm_registers &regs() { return m_regs; } pcm_registers &regs() { return m_regs; }
// simple getters for debugging
pcm_channel *debug_channel(uint32_t index) const { return m_channel[index].get(); }
private: private:
// internal state // internal state
ymfm_interface &m_intf; // reference to the interface ymfm_interface &m_intf; // reference to the interface

View file

@ -266,7 +266,23 @@ const char* cmdName[]={
"FDS_MOD_AUTO", "FDS_MOD_AUTO",
"FM_OPMASK" "FM_OPMASK",
"MULTIPCM_MIX_FM",
"MULTIPCM_MIX_PCM",
"MULTIPCM_LFO",
"MULTIPCM_VIB",
"MULTIPCM_AM",
"MULTIPCM_AR",
"MULTIPCM_D1R",
"MULTIPCM_DL",
"MULTIPCM_D2R",
"MULTIPCM_RR",
"MULTIPCM_RC",
"MULTIPCM_DAMP",
"MULTIPCM_PSEUDO_REVERB",
"MULTIPCM_LFO_RESET",
"MULTIPCM_LEVEL_DIRECT"
}; };
static_assert((sizeof(cmdName)/sizeof(void*))==DIV_CMD_MAX,"update cmdName!"); static_assert((sizeof(cmdName)/sizeof(void*))==DIV_CMD_MAX,"update cmdName!");

View file

@ -285,6 +285,9 @@ int DivSample::getSampleOffset(int offset, int length, DivSampleDepth depth) {
case DIV_SAMPLE_DEPTH_IMA_ADPCM: case DIV_SAMPLE_DEPTH_IMA_ADPCM:
off=(offset+1)/2; off=(offset+1)/2;
break; break;
case DIV_SAMPLE_DEPTH_12BIT:
off=((offset*3)+1)/2;
break;
case DIV_SAMPLE_DEPTH_16BIT: case DIV_SAMPLE_DEPTH_16BIT:
off=offset*2; off=offset*2;
break; break;
@ -348,6 +351,10 @@ int DivSample::getSampleOffset(int offset, int length, DivSampleDepth depth) {
off=(offset+1)/2; off=(offset+1)/2;
len=(length+1)/2; len=(length+1)/2;
break; break;
case DIV_SAMPLE_DEPTH_12BIT:
off=((offset*3)+1)/2;
len=((length*3)+1)/2;
break;
case DIV_SAMPLE_DEPTH_16BIT: case DIV_SAMPLE_DEPTH_16BIT:
off=offset*2; off=offset*2;
len=length*2; len=length*2;
@ -409,6 +416,9 @@ int DivSample::getEndPosition(DivSampleDepth depth) {
case DIV_SAMPLE_DEPTH_IMA_ADPCM: case DIV_SAMPLE_DEPTH_IMA_ADPCM:
off=lengthIMA; off=lengthIMA;
break; break;
case DIV_SAMPLE_DEPTH_12BIT:
off=length12;
break;
case DIV_SAMPLE_DEPTH_16BIT: case DIV_SAMPLE_DEPTH_16BIT:
off=length16; off=length16;
break; break;
@ -606,6 +616,12 @@ bool DivSample::initInternal(DivSampleDepth d, int count) {
dataIMA=new unsigned char[lengthIMA]; dataIMA=new unsigned char[lengthIMA];
memset(dataIMA,0,lengthIMA); memset(dataIMA,0,lengthIMA);
break; break;
case DIV_SAMPLE_DEPTH_12BIT: // 12-bit PCM (MultiPCM)
if (data12!=NULL) delete[] data12;
length12=((count*3)+1)/2;
data12=new unsigned char[length12];
memset(data12,0,length12);
break;
case DIV_SAMPLE_DEPTH_16BIT: // 16-bit case DIV_SAMPLE_DEPTH_16BIT: // 16-bit
if (data16!=NULL) delete[] data16; if (data16!=NULL) delete[] data16;
length16=count*2; length16=count*2;
@ -1293,6 +1309,14 @@ void DivSample::render(unsigned int formatMask) {
case DIV_SAMPLE_DEPTH_IMA_ADPCM: // IMA ADPCM case DIV_SAMPLE_DEPTH_IMA_ADPCM: // IMA ADPCM
if (adpcm_decode_block(data16,dataIMA,lengthIMA,samples)==0) logE("oh crap!"); if (adpcm_decode_block(data16,dataIMA,lengthIMA,samples)==0) logE("oh crap!");
break; break;
case DIV_SAMPLE_DEPTH_12BIT: // 12-bit PCM (MultiPCM)
for (unsigned int i=0,j=0; i<samples; i+=2,j+=3) {
data16[i+0]=(data12[j+0]<<8)|(data12[j+1]&0xf0);
if (i+1<samples) {
data16[i+1]=(data12[j+2]<<8)|((data12[j+1]<<4)&0xf0);
}
}
break;
default: default:
return; return;
} }
@ -1482,6 +1506,15 @@ void DivSample::render(unsigned int formatMask) {
adpcm_free_context(codec); adpcm_free_context(codec);
} }
} }
if (NOT_IN_FORMAT(DIV_SAMPLE_DEPTH_12BIT)) { // 12-bit PCM (MultiPCM)
if (!initInternal(DIV_SAMPLE_DEPTH_12BIT,samples)) return;
for (unsigned int i=0,j=0; i<samples; i+=2,j+=3) {
data12[j+0]=data16[i+0]>>8;
data12[j+1]=((data16[i+0]>>4)&0xf)|(i+1<samples?(data16[i+1]>>4)&0xf:0);
if (i+1<samples)
data12[j+2]=data16[i+1]>>8;
}
}
} }
void* DivSample::getCurBuf() { void* DivSample::getCurBuf() {
@ -1512,6 +1545,8 @@ void* DivSample::getCurBuf() {
return dataC219; return dataC219;
case DIV_SAMPLE_DEPTH_IMA_ADPCM: case DIV_SAMPLE_DEPTH_IMA_ADPCM:
return dataIMA; return dataIMA;
case DIV_SAMPLE_DEPTH_12BIT:
return data12;
case DIV_SAMPLE_DEPTH_16BIT: case DIV_SAMPLE_DEPTH_16BIT:
return data16; return data16;
default: default:
@ -1548,6 +1583,8 @@ unsigned int DivSample::getCurBufLen() {
return lengthC219; return lengthC219;
case DIV_SAMPLE_DEPTH_IMA_ADPCM: case DIV_SAMPLE_DEPTH_IMA_ADPCM:
return lengthIMA; return lengthIMA;
case DIV_SAMPLE_DEPTH_12BIT:
return length12;
case DIV_SAMPLE_DEPTH_16BIT: case DIV_SAMPLE_DEPTH_16BIT:
return length16; return length16;
default: default:
@ -1662,4 +1699,5 @@ DivSample::~DivSample() {
if (dataMuLaw) delete[] dataMuLaw; if (dataMuLaw) delete[] dataMuLaw;
if (dataC219) delete[] dataC219; if (dataC219) delete[] dataC219;
if (dataIMA) delete[] dataIMA; if (dataIMA) delete[] dataIMA;
if (data12) delete[] data12;
} }

View file

@ -47,6 +47,7 @@ enum DivSampleDepth: unsigned char {
DIV_SAMPLE_DEPTH_MULAW=11, DIV_SAMPLE_DEPTH_MULAW=11,
DIV_SAMPLE_DEPTH_C219=12, DIV_SAMPLE_DEPTH_C219=12,
DIV_SAMPLE_DEPTH_IMA_ADPCM=13, DIV_SAMPLE_DEPTH_IMA_ADPCM=13,
DIV_SAMPLE_DEPTH_12BIT=14,
DIV_SAMPLE_DEPTH_16BIT=16, DIV_SAMPLE_DEPTH_16BIT=16,
DIV_SAMPLE_DEPTH_MAX // boundary for sample depth DIV_SAMPLE_DEPTH_MAX // boundary for sample depth
}; };
@ -118,6 +119,7 @@ struct DivSample {
// - 11: 8-bit µ-law PCM // - 11: 8-bit µ-law PCM
// - 12: C219 "µ-law" PCM // - 12: C219 "µ-law" PCM
// - 13: IMA ADPCM // - 13: IMA ADPCM
// - 14: 12-bit PCM (MultiPCM)
// - 16: 16-bit PCM // - 16: 16-bit PCM
DivSampleDepth depth; DivSampleDepth depth;
bool loop, brrEmphasis, brrNoFilter, dither; bool loop, brrEmphasis, brrNoFilter, dither;
@ -144,8 +146,9 @@ struct DivSample {
unsigned char* dataMuLaw; // 11 unsigned char* dataMuLaw; // 11
unsigned char* dataC219; // 12 unsigned char* dataC219; // 12
unsigned char* dataIMA; // 13 unsigned char* dataIMA; // 13
unsigned char* data12; // 14
unsigned int length8, length16, length1, lengthDPCM, lengthZ, lengthQSoundA, lengthA, lengthB, lengthK, lengthBRR, lengthVOX, lengthMuLaw, lengthC219, lengthIMA; unsigned int length8, length16, length1, lengthDPCM, lengthZ, lengthQSoundA, lengthA, lengthB, lengthK, lengthBRR, lengthVOX, lengthMuLaw, lengthC219, lengthIMA, length12;
unsigned int samples; unsigned int samples;
@ -356,6 +359,7 @@ struct DivSample {
dataMuLaw(NULL), dataMuLaw(NULL),
dataC219(NULL), dataC219(NULL),
dataIMA(NULL), dataIMA(NULL),
data12(NULL),
length8(0), length8(0),
length16(0), length16(0),
length1(0), length1(0),
@ -370,6 +374,7 @@ struct DivSample {
lengthMuLaw(0), lengthMuLaw(0),
lengthC219(0), lengthC219(0),
lengthIMA(0), lengthIMA(0),
length12(0),
samples(0) { samples(0) {
for (int i=0; i<DIV_MAX_CHIPS; i++) { for (int i=0; i<DIV_MAX_CHIPS; i++) {
for (int j=0; j<DIV_MAX_SAMPLE_TYPE; j++) { for (int j=0; j<DIV_MAX_SAMPLE_TYPE; j++) {

View file

@ -602,6 +602,25 @@ void DivEngine::registerSystems() {
{0x5b, {DIV_CMD_FM_KSR, _("5Bxy: Set whether key will scale envelope (x: operator from 1 to 4 (0 for all ops); y: enabled)"), effectOpVal<4>, effectValAnd<1>}}, {0x5b, {DIV_CMD_FM_KSR, _("5Bxy: Set whether key will scale envelope (x: operator from 1 to 4 (0 for all ops); y: enabled)"), effectOpVal<4>, effectValAnd<1>}},
}; };
EffectHandlerMap fmOPL4PostEffectHandlerMap(fmOPLPostEffectHandlerMap);
fmOPL4PostEffectHandlerMap.insert({
{0x1e, {DIV_CMD_MULTIPCM_MIX_FM, _("1Exy: FM global level (x: left, y: right; 0 to 7)"), effectVal}},
{0x1f, {DIV_CMD_MULTIPCM_MIX_PCM, _("1Fxy: PCM global level (x: left, y: right; 0 to 7)"), effectVal}},
{0x20, {DIV_CMD_MULTIPCM_LFO, _("20xx: PCM LFO Rate (0 to 7)"), effectValAnd<7>}},
{0x21, {DIV_CMD_MULTIPCM_VIB, _("21xx: PCM LFO PM Depth (0 to 7)"), effectValAnd<7>}},
{0x22, {DIV_CMD_MULTIPCM_AM, _("22xx: PCM LFO AM Depth (0 to 7)"), effectValAnd<7>}},
{0x23, {DIV_CMD_MULTIPCM_AR, _("23xx: PCM Attack Rate (0 to 15)"), effectValAnd<15>}},
{0x24, {DIV_CMD_MULTIPCM_D1R, _("24xx: PCM Decay 1 Rate (0 to 15)"), effectValAnd<15>}},
{0x25, {DIV_CMD_MULTIPCM_DL, _("25xx: PCM Decay Level (0 to 15)"), effectValAnd<15>}},
{0x26, {DIV_CMD_MULTIPCM_D2R, _("26xx: PCM Decay 2 Rate (0 to 15)"), effectValAnd<15>}},
{0x27, {DIV_CMD_MULTIPCM_RR, _("27xx: PCM Release Rate (0 to 15)"), effectValAnd<15>}},
{0x28, {DIV_CMD_MULTIPCM_RC, _("28xx: PCM Rate Correction (0 to 15)"), effectValAnd<15>}},
{0x2c, {DIV_CMD_MULTIPCM_DAMP, _("2Cxx: PCM Damp"), effectValAnd<1>}},
{0x2d, {DIV_CMD_MULTIPCM_PSEUDO_REVERB, _("2Dxx: PCM Pseudo Reverb"), effectValAnd<1>}},
{0x2e, {DIV_CMD_MULTIPCM_LFO_RESET, _("2Exx: PCM LFO Reset"), effectValAnd<1>}},
{0x2f, {DIV_CMD_MULTIPCM_LEVEL_DIRECT, _("2Fxx: PCM Level Direct"), effectValAnd<1>}},
});
EffectHandlerMap c64PostEffectHandlerMap={ EffectHandlerMap c64PostEffectHandlerMap={
{0x10, {DIV_CMD_WAVE, _("10xx: Set waveform (bit 0: triangle; bit 1: saw; bit 2: pulse; bit 3: noise)")}}, {0x10, {DIV_CMD_WAVE, _("10xx: Set waveform (bit 0: triangle; bit 1: saw; bit 2: pulse; bit 3: noise)")}},
{0x11, {DIV_CMD_C64_CUTOFF, _("11xx: Set coarse cutoff (not recommended; use 4xxx instead)")}}, {0x11, {DIV_CMD_C64_CUTOFF, _("11xx: Set coarse cutoff (not recommended; use 4xxx instead)")}},
@ -1618,24 +1637,28 @@ void DivEngine::registerSystems() {
); );
// to Grauw: feel free to change this to 24 during development of OPL4's PCM part. // to Grauw: feel free to change this to 24 during development of OPL4's PCM part.
// TODO: add 12-bit and 16-bit big-endian sample formats
sysDefs[DIV_SYSTEM_OPL4]=new DivSysDef( sysDefs[DIV_SYSTEM_OPL4]=new DivSysDef(
_("Yamaha YMF278B (OPL4)"), NULL, 0xae, 0, 42, true, true, 0, false, (1U<<DIV_SAMPLE_DEPTH_8BIT)|(1U<<DIV_SAMPLE_DEPTH_16BIT), 0, 0, _("Yamaha YMF278B (OPL4)"), NULL, 0xae, 0, 42, true, true, 0x151, false, (1U<<DIV_SAMPLE_DEPTH_8BIT)|(1U<<DIV_SAMPLE_DEPTH_12BIT)|(1U<<DIV_SAMPLE_DEPTH_16BIT), 0, 0,
_("like OPL3, but this time it also has a 24-channel version of MultiPCM."), _("like OPL3, but this time it also has a 24-channel version of MultiPCM."),
{_("4OP 1"), _("FM 2"), _("4OP 3"), _("FM 4"), _("4OP 5"), _("FM 6"), _("4OP 7"), _("FM 8"), _("4OP 9"), _("FM 10"), _("4OP 11"), _("FM 12"), _("FM 13"), _("FM 14"), _("FM 15"), _("FM 16"), _("FM 17"), _("FM 18"), _("PCM 1"), _("PCM 2"), _("PCM 3"), _("PCM 4"), _("PCM 5"), _("PCM 6"), _("PCM 7"), _("PCM 8"), _("PCM 9"), _("PCM 10"), _("PCM 11"), _("PCM 12"), _("PCM 13"), _("PCM 14"), _("PCM 15"), _("PCM 16"), _("PCM 17"), _("PCM 18"), _("PCM 19"), _("PCM 20"), _("PCM 21"), _("PCM 22"), _("PCM 23"), _("PCM 24")}, {_("4OP 1"), _("FM 2"), _("4OP 3"), _("FM 4"), _("4OP 5"), _("FM 6"), _("4OP 7"), _("FM 8"), _("4OP 9"), _("FM 10"), _("4OP 11"), _("FM 12"), _("FM 13"), _("FM 14"), _("FM 15"), _("FM 16"), _("FM 17"), _("FM 18"), _("PCM 1"), _("PCM 2"), _("PCM 3"), _("PCM 4"), _("PCM 5"), _("PCM 6"), _("PCM 7"), _("PCM 8"), _("PCM 9"), _("PCM 10"), _("PCM 11"), _("PCM 12"), _("PCM 13"), _("PCM 14"), _("PCM 15"), _("PCM 16"), _("PCM 17"), _("PCM 18"), _("PCM 19"), _("PCM 20"), _("PCM 21"), _("PCM 22"), _("PCM 23"), _("PCM 24")},
{"F1", "F2", "F3", "F4", "F5", "F6", "F7", "F8", "F9", "F10", "F11", "F12", "F13", "F14", "F15", "F16", "F17", "F18", "P1", "P2", "P3", "P4", "P5", "P6", "P7", "P8", "P8", "P10", "P11", "P12", "P13", "P14", "P15", "P16", "P17", "P18", "P19", "P20", "P21", "P22", "P23", "P24"}, {"F1", "F2", "F3", "F4", "F5", "F6", "F7", "F8", "F9", "F10", "F11", "F12", "F13", "F14", "F15", "F16", "F17", "F18", "P1", "P2", "P3", "P4", "P5", "P6", "P7", "P8", "P9", "P10", "P11", "P12", "P13", "P14", "P15", "P16", "P17", "P18", "P19", "P20", "P21", "P22", "P23", "P24"},
{DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM}, {DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM},
{DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM} {DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM},
{DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA},
fmEffectHandlerMap,
fmOPL4PostEffectHandlerMap
); );
// TODO: same here
sysDefs[DIV_SYSTEM_OPL4_DRUMS]=new DivSysDef( sysDefs[DIV_SYSTEM_OPL4_DRUMS]=new DivSysDef(
_("Yamaha YMF278B (OPL4) with drums"), NULL, 0xaf, 0, 44, true, true, 0, false, (1U<<DIV_SAMPLE_DEPTH_8BIT)|(1U<<DIV_SAMPLE_DEPTH_16BIT), 0, 0, _("Yamaha YMF278B (OPL4) with drums"), NULL, 0xaf, 0, 44, true, true, 0x151, false, (1U<<DIV_SAMPLE_DEPTH_8BIT)|(1U<<DIV_SAMPLE_DEPTH_12BIT)|(1U<<DIV_SAMPLE_DEPTH_16BIT), 0, 0,
_("the OPL4 but with drums mode turned on."), _("the OPL4 but with drums mode turned on."),
{_("4OP 1"), _("FM 2"), _("4OP 3"), _("FM 4"), _("4OP 5"), _("FM 6"), _("4OP 7"), _("FM 8"), _("4OP 9"), _("FM 10"), _("4OP 11"), _("FM 12"), _("FM 13"), _("FM 14"), _("FM 15"), _("Kick/FM 16"), _("Snare"), _("Tom"), _("Top"), _("HiHat"), _("PCM 1"), _("PCM 2"), _("PCM 3"), _("PCM 4"), _("PCM 5"), _("PCM 6"), _("PCM 7"), _("PCM 8"), _("PCM 9"), _("PCM 10"), _("PCM 11"), _("PCM 12"), _("PCM 13"), _("PCM 14"), _("PCM 15"), _("PCM 16"), _("PCM 17"), _("PCM 18"), _("PCM 19"), _("PCM 20"), _("PCM 21"), _("PCM 22"), _("PCM 23"), _("PCM 24")}, {_("4OP 1"), _("FM 2"), _("4OP 3"), _("FM 4"), _("4OP 5"), _("FM 6"), _("4OP 7"), _("FM 8"), _("4OP 9"), _("FM 10"), _("4OP 11"), _("FM 12"), _("FM 13"), _("FM 14"), _("FM 15"), _("Kick/FM 16"), _("Snare"), _("Tom"), _("Top"), _("HiHat"), _("PCM 1"), _("PCM 2"), _("PCM 3"), _("PCM 4"), _("PCM 5"), _("PCM 6"), _("PCM 7"), _("PCM 8"), _("PCM 9"), _("PCM 10"), _("PCM 11"), _("PCM 12"), _("PCM 13"), _("PCM 14"), _("PCM 15"), _("PCM 16"), _("PCM 17"), _("PCM 18"), _("PCM 19"), _("PCM 20"), _("PCM 21"), _("PCM 22"), _("PCM 23"), _("PCM 24")},
{"F1", "F2", "F3", "F4", "F5", "F6", "F7", "F8", "F9", "F10", "F11", "F12", "F13", "F14", "F15", "BD", "SD", "TM", "TP", "HH", "P1", "P2", "P3", "P4", "P5", "P6", "P7", "P8", "P8", "P10", "P11", "P12", "P13", "P14", "P15", "P16", "P17", "P18", "P19", "P20", "P21", "P22", "P23", "P24"}, {"F1", "F2", "F3", "F4", "F5", "F6", "F7", "F8", "F9", "F10", "F11", "F12", "F13", "F14", "F15", "BD", "SD", "TM", "TP", "HH", "P1", "P2", "P3", "P4", "P5", "P6", "P7", "P8", "P9", "P10", "P11", "P12", "P13", "P14", "P15", "P16", "P17", "P18", "P19", "P20", "P21", "P22", "P23", "P24"},
{DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_NOISE, DIV_CH_NOISE, DIV_CH_NOISE, DIV_CH_NOISE, DIV_CH_NOISE, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM}, {DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_OP, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_FM, DIV_CH_NOISE, DIV_CH_NOISE, DIV_CH_NOISE, DIV_CH_NOISE, DIV_CH_NOISE, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM, DIV_CH_PCM},
{DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM} {DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM, DIV_INS_MULTIPCM},
{DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_OPL, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA, DIV_INS_AMIGA},
fmOPLDrumsEffectHandlerMap,
fmOPL4PostEffectHandlerMap
); );
EffectHandlerMap es5506PreEffectHandlerMap={ EffectHandlerMap es5506PreEffectHandlerMap={

View file

@ -617,6 +617,96 @@ void DivEngine::performVGMWrite(SafeWriter* w, DivSystem sys, DivRegWrite& write
w->writeC(0); w->writeC(0);
} }
break; break;
case DIV_SYSTEM_OPL4:
case DIV_SYSTEM_OPL4_DRUMS:
// disable envelope
for (int i=0; i<6; i++) {
w->writeC(0xd0);
w->writeC(0x00|baseAddr2);
w->writeC(0x80+i);
w->writeC(0x0f);
w->writeC(0xd0);
w->writeC(0x00|baseAddr2);
w->writeC(0x88+i);
w->writeC(0x0f);
w->writeC(0xd0);
w->writeC(0x00|baseAddr2);
w->writeC(0x90+i);
w->writeC(0x0f);
w->writeC(0xd0);
w->writeC(0x01|baseAddr2);
w->writeC(0x80+i);
w->writeC(0x0f);
w->writeC(0xd0);
w->writeC(0x01|baseAddr2);
w->writeC(0x88+i);
w->writeC(0x0f);
w->writeC(0xd0);
w->writeC(0x01|baseAddr2);
w->writeC(0x90+i);
w->writeC(0x0f);
}
for (int i=0; i<24; i++) {
w->writeC(0xd0);
w->writeC(0x02|baseAddr2);
w->writeC(0x80+i);
w->writeC(0x00);
w->writeC(0xd0);
w->writeC(0x02|baseAddr2);
w->writeC(0x98+i);
w->writeC(0x00);
w->writeC(0xd0);
w->writeC(0x02|baseAddr2);
w->writeC(0xb0+i);
w->writeC(0x00);
w->writeC(0xd0);
w->writeC(0x02|baseAddr2);
w->writeC(0xc8+i);
w->writeC(0x00);
w->writeC(0xd0);
w->writeC(0x02|baseAddr2);
w->writeC(0xe0+i);
w->writeC(0x00);
}
// key off + freq reset
for (int i=0; i<9; i++) {
w->writeC(0xd0);
w->writeC(0x00|baseAddr2);
w->writeC(0xa0+i);
w->writeC(0);
w->writeC(0xd0);
w->writeC(0x00|baseAddr2);
w->writeC(0xb0+i);
w->writeC(0);
w->writeC(0xd0);
w->writeC(0x01|baseAddr2);
w->writeC(0xa0+i);
w->writeC(0);
w->writeC(0xd0);
w->writeC(0x01|baseAddr2);
w->writeC(0xb0+i);
w->writeC(0);
}
for (int i=0; i<24; i++) {
w->writeC(0xd0);
w->writeC(0x02|baseAddr2);
w->writeC(0x20+i);
w->writeC(0);
w->writeC(0xd0);
w->writeC(0x02|baseAddr2);
w->writeC(0x38+i);
w->writeC(0);
w->writeC(0xd0);
w->writeC(0x02|baseAddr2);
w->writeC(0x68+i);
w->writeC(8);
}
// reset 4-op
w->writeC(0xd0);
w->writeC(0x01|baseAddr2);
w->writeC(0x04);
w->writeC(0x00);
break;
default: default:
break; break;
} }
@ -1096,6 +1186,13 @@ void DivEngine::performVGMWrite(SafeWriter* w, DivSystem sys, DivRegWrite& write
w->writeS_BE(baseAddr2S|(write.addr&0x1ff)); w->writeS_BE(baseAddr2S|(write.addr&0x1ff));
w->writeC(write.val&0xff); w->writeC(write.val&0xff);
break; break;
case DIV_SYSTEM_OPL4:
case DIV_SYSTEM_OPL4_DRUMS:
w->writeC(0xd0);
w->writeC(((write.addr>>8)&0x7f)|baseAddr2);
w->writeC(write.addr&0xff);
w->writeC(write.val);
break;
default: default:
logW("write not handled!"); logW("write not handled!");
break; break;
@ -1276,6 +1373,7 @@ SafeWriter* DivEngine::saveVGM(bool* sysToExport, bool loop, int version, bool p
DivDispatch* writeC140[2]={NULL,NULL}; DivDispatch* writeC140[2]={NULL,NULL};
DivDispatch* writeC219[2]={NULL,NULL}; DivDispatch* writeC219[2]={NULL,NULL};
DivDispatch* writeNES[2]={NULL,NULL}; DivDispatch* writeNES[2]={NULL,NULL};
DivDispatch* writePCM_OPL4[2]={NULL,NULL};
int writeNESIndex[2]={0,0}; int writeNESIndex[2]={0,0};
@ -1874,6 +1972,22 @@ SafeWriter* DivEngine::saveVGM(bool* sysToExport, bool loop, int version, bool p
howManyChips++; howManyChips++;
} }
break; break;
case DIV_SYSTEM_OPL4:
case DIV_SYSTEM_OPL4_DRUMS:
if (!hasOPL4) {
hasOPL4=disCont[i].dispatch->chipClock;
CHIP_VOL(13,1.0);
willExport[i]=true;
writePCM_OPL4[0]=disCont[i].dispatch;
} else if (!(hasOPL4&0x40000000)) {
isSecond[i]=true;
CHIP_VOL_SECOND(13,1.0);
willExport[i]=true;
writePCM_OPL4[1]=disCont[i].dispatch;
hasOPL4|=0x40000000;
howManyChips++;
}
break;
default: default:
break; break;
} }
@ -2209,6 +2323,16 @@ SafeWriter* DivEngine::saveVGM(bool* sysToExport, bool loop, int version, bool p
w->write(sampleMem,sampleMemLen); w->write(sampleMem,sampleMemLen);
delete[] sampleMem; delete[] sampleMem;
} }
// PCM (OPL4)
if (writePCM_OPL4[i]!=NULL && writePCM_OPL4[i]->getSampleMemUsage(0)>0) {
w->writeC(0x67);
w->writeC(0x66);
w->writeC(0x84);
w->writeI((writePCM_OPL4[i]->getSampleMemUsage(0)+8)|(i*0x80000000));
w->writeI(writePCM_OPL4[i]->getSampleMemCapacity(0));
w->writeI(0);
w->write(writePCM_OPL4[i]->getSampleMem(0),writePCM_OPL4[i]->getSampleMemUsage(0));
}
} }
for (int i=0; i<2; i++) { for (int i=0; i<2; i++) {

View file

@ -300,6 +300,7 @@ const char* aboutLine[]={
_N("PowerNoise emulator by scratchminer"), _N("PowerNoise emulator by scratchminer"),
_N("ep128emu by Istvan Varga"), _N("ep128emu by Istvan Varga"),
_N("NDS sound emulator by cam900"), _N("NDS sound emulator by cam900"),
_N("openMSX YMF278 emulator (modified version) by the openMSX developers"),
"", "",
_N("greetings to:"), _N("greetings to:"),
"floxy!", "floxy!",

View file

@ -1772,6 +1772,7 @@ class FurnaceGUI {
int opnbCore; int opnbCore;
int opl2Core; int opl2Core;
int opl3Core; int opl3Core;
int opl4Core;
int esfmCore; int esfmCore;
int opllCore; int opllCore;
int ayCore; int ayCore;
@ -1798,6 +1799,7 @@ class FurnaceGUI {
int opnbCoreRender; int opnbCoreRender;
int opl2CoreRender; int opl2CoreRender;
int opl3CoreRender; int opl3CoreRender;
int opl4CoreRender;
int esfmCoreRender; int esfmCoreRender;
int opllCoreRender; int opllCoreRender;
int ayCoreRender; int ayCoreRender;
@ -2032,6 +2034,7 @@ class FurnaceGUI {
opnbCore(1), opnbCore(1),
opl2Core(0), opl2Core(0),
opl3Core(0), opl3Core(0),
opl4Core(0),
esfmCore(0), esfmCore(0),
opllCore(0), opllCore(0),
ayCore(0), ayCore(0),
@ -2058,6 +2061,7 @@ class FurnaceGUI {
opnbCoreRender(1), opnbCoreRender(1),
opl2CoreRender(0), opl2CoreRender(0),
opl3CoreRender(0), opl3CoreRender(0),
opl4CoreRender(0),
esfmCoreRender(0), esfmCoreRender(0),
opllCoreRender(0), opllCoreRender(0),
ayCoreRender(0), ayCoreRender(0),

View file

@ -210,7 +210,7 @@ const char* sampleDepths[DIV_SAMPLE_DEPTH_MAX]={
"8-bit µ-law PCM", "8-bit µ-law PCM",
"C219 PCM", "C219 PCM",
"IMA ADPCM", "IMA ADPCM",
NULL, "12-bit PCM",
NULL, NULL,
"16-bit PCM" "16-bit PCM"
}; };
@ -1270,6 +1270,8 @@ const int availableSystems[]={
DIV_SYSTEM_5E01, DIV_SYSTEM_5E01,
DIV_SYSTEM_BIFURCATOR, DIV_SYSTEM_BIFURCATOR,
DIV_SYSTEM_SID2, DIV_SYSTEM_SID2,
DIV_SYSTEM_OPL4,
DIV_SYSTEM_OPL4_DRUMS,
DIV_SYSTEM_SUPERVISION, DIV_SYSTEM_SUPERVISION,
DIV_SYSTEM_UPD1771C, DIV_SYSTEM_UPD1771C,
0 // don't remove this last one! 0 // don't remove this last one!
@ -1307,6 +1309,8 @@ const int chipsFM[]={
DIV_SYSTEM_OPL3_DRUMS, DIV_SYSTEM_OPL3_DRUMS,
DIV_SYSTEM_OPZ, DIV_SYSTEM_OPZ,
DIV_SYSTEM_ESFM, DIV_SYSTEM_ESFM,
DIV_SYSTEM_OPL4,
DIV_SYSTEM_OPL4_DRUMS,
0 // don't remove this last one! 0 // don't remove this last one!
}; };
@ -1394,6 +1398,8 @@ const int chipsSample[]={
DIV_SYSTEM_NDS, DIV_SYSTEM_NDS,
DIV_SYSTEM_GBA_DMA, DIV_SYSTEM_GBA_DMA,
DIV_SYSTEM_GBA_MINMOD, DIV_SYSTEM_GBA_MINMOD,
DIV_SYSTEM_OPL4,
DIV_SYSTEM_OPL4_DRUMS,
0 // don't remove this last one! 0 // don't remove this last one!
}; };

View file

@ -6569,6 +6569,19 @@ void FurnaceGUI::drawInsEdit() {
P(CWSliderScalar(_("AM Depth"),ImGuiDataType_U8,&ins->multipcm.am,&_ZERO,&_SEVEN)); rightClickable P(CWSliderScalar(_("AM Depth"),ImGuiDataType_U8,&ins->multipcm.am,&_ZERO,&_SEVEN)); rightClickable
ImGui::EndTable(); ImGui::EndTable();
} }
P(ImGui::Checkbox(_("Damp"),&ins->multipcm.damp));
if (ImGui::IsItemHovered()) {
ImGui::SetTooltip(_("Only for OPL4 PCM."));
}
P(ImGui::Checkbox(_("Pseudo Reverb"),&ins->multipcm.pseudoReverb));
if (ImGui::IsItemHovered()) {
ImGui::SetTooltip(_("Only for OPL4 PCM."));
}
P(ImGui::Checkbox(_("LFO Reset"),&ins->multipcm.lfoReset));
if (ImGui::IsItemHovered()) {
ImGui::SetTooltip(_("Only for OPL4 PCM."));
}
P(ImGui::Checkbox(_("Level Direct"),&ins->multipcm.levelDirect));
ImGui::EndTabItem(); ImGui::EndTabItem();
} }
} }
@ -7262,6 +7275,9 @@ void FurnaceGUI::drawInsEdit() {
macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,-7,7,45,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL)); macroList.push_back(FurnaceGUIMacroDesc(_("Panning"),&ins->std.panLMacro,-7,7,45,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL));
macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode)); macroList.push_back(FurnaceGUIMacroDesc(_("Pitch"),&ins->std.pitchMacro,-2048,2047,160,uiColors[GUI_COLOR_MACRO_PITCH],true,macroRelativeMode));
macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true)); macroList.push_back(FurnaceGUIMacroDesc(_("Phase Reset"),&ins->std.phaseResetMacro,0,1,32,uiColors[GUI_COLOR_MACRO_OTHER],false,NULL,NULL,true));
macroList.push_back(FurnaceGUIMacroDesc(_("LFO Speed"),&ins->std.ex1Macro,0,7,160,uiColors[GUI_COLOR_MACRO_OTHER]));
macroList.push_back(FurnaceGUIMacroDesc(_("LFO Vib Depth"),&ins->std.fmsMacro,0,7,160,uiColors[GUI_COLOR_MACRO_PITCH]));
macroList.push_back(FurnaceGUIMacroDesc(_("LFO AM Depth"),&ins->std.amsMacro,0,7,160,uiColors[GUI_COLOR_MACRO_VOLUME]));
break; break;
case DIV_INS_SNES: case DIV_INS_SNES:
macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME])); macroList.push_back(FurnaceGUIMacroDesc(_("Volume"),&ins->std.volMacro,0,127,160,uiColors[GUI_COLOR_MACRO_VOLUME]));

View file

@ -524,6 +524,18 @@ void FurnaceGUI::initSystemPresets() {
) // variable rate, Mono DAC ) // variable rate, Mono DAC
} }
); );
SUB_ENTRY(
"MSX + MoonSound", {
CH(DIV_SYSTEM_AY8910, 1.0f, 0, "chipType=1"),
CH(DIV_SYSTEM_OPL4, 1.0f, 0, "")
}
);
SUB_ENTRY(
"MSX + MoonSound (drums mode)", {
CH(DIV_SYSTEM_AY8910, 1.0f, 0, "chipType=1"),
CH(DIV_SYSTEM_OPL4_DRUMS, 1.0f, 0, "")
}
);
ENTRY( ENTRY(
"NEC PC-6001", { "NEC PC-6001", {
CH(DIV_SYSTEM_AY8910, 1.0f, 0, "customClock=3993600") CH(DIV_SYSTEM_AY8910, 1.0f, 0, "customClock=3993600")
@ -1905,6 +1917,30 @@ void FurnaceGUI::initSystemPresets() {
} }
); );
ENTRY(
"Psikyo", {}
);
SUB_ENTRY(
"Psikyo 68EC020 hardware with OPL4", {
CH(DIV_SYSTEM_OPL4, 1.0f, 0, "")
}
);
SUB_ENTRY(
"Psikyo 68EC020 hardware with OPL4 (drums mode)", {
CH(DIV_SYSTEM_OPL4_DRUMS, 1.0f, 0, "")
}
);
SUB_ENTRY(
"Psikyo SH-2 hardware", {
CH(DIV_SYSTEM_OPL4, 1.0f, 0, "clockSel=1")
}
);
SUB_ENTRY(
"Psikyo SH-2 hardware (drums mode)", {
CH(DIV_SYSTEM_OPL4_DRUMS, 1.0f, 0, "clockSel=1")
}
);
ENTRY( ENTRY(
"Sega", {} "Sega", {}
); );
@ -2729,6 +2765,16 @@ void FurnaceGUI::initSystemPresets() {
CH(DIV_SYSTEM_ESFM, 1.0f, 0, "") CH(DIV_SYSTEM_ESFM, 1.0f, 0, "")
} }
); );
ENTRY(
"Yamaha YMF278B (OPL4)", {
CH(DIV_SYSTEM_OPL4, 1.0f, 0, "")
}
);
SUB_ENTRY(
"Yamaha YMF278B (drums mode)", {
CH(DIV_SYSTEM_OPL4_DRUMS, 1.0f, 0, "")
}
);
if (settings.hiddenSystems) { if (settings.hiddenSystems) {
ENTRY( ENTRY(
"Yamaha YMU759 (MA-2)", { "Yamaha YMU759 (MA-2)", {
@ -2940,6 +2986,16 @@ void FurnaceGUI::initSystemPresets() {
CH(DIV_SYSTEM_NDS, 1.0f, 0, "") CH(DIV_SYSTEM_NDS, 1.0f, 0, "")
} }
); );
ENTRY(
"Yamaha YMF278B (OPL4)", {
CH(DIV_SYSTEM_OPL4, 1.0f, 0, "")
}
);
SUB_ENTRY(
"Yamaha YMF278B (drums mode)", {
CH(DIV_SYSTEM_OPL4_DRUMS, 1.0f, 0, "")
}
);
CATEGORY_END; CATEGORY_END;
CATEGORY_BEGIN("Wavetable","chips which use user-specified waveforms to generate sound."); CATEGORY_BEGIN("Wavetable","chips which use user-specified waveforms to generate sound.");

View file

@ -413,6 +413,12 @@ void FurnaceGUI::drawSampleEdit() {
SAMPLE_WARN(warnLength,_("GBA DMA: sample length will be padded to multiple of 16")); SAMPLE_WARN(warnLength,_("GBA DMA: sample length will be padded to multiple of 16"));
} }
break; break;
case DIV_SYSTEM_OPL4:
case DIV_SYSTEM_OPL4_DRUMS:
if (sample->samples>65535) {
SAMPLE_WARN(warnLength,_("OPL4: maximum sample length is 65535"));
}
break;
case DIV_SYSTEM_SUPERVISION: case DIV_SYSTEM_SUPERVISION:
if (sample->loop) { if (sample->loop) {
if (sample->loopStart!=0 || sample->loopEnd!=(int)(sample->samples)) { if (sample->loopStart!=0 || sample->loopEnd!=(int)(sample->samples)) {

View file

@ -189,6 +189,11 @@ const char* opl3Cores[]={
"YMF262-LLE" "YMF262-LLE"
}; };
const char* opl4Cores[]={
"Nuked-OPL3 (FM) + openMSX (PCM)",
"ymfm"
};
const char* esfmCores[]={ const char* esfmCores[]={
"ESFMu", "ESFMu",
_N("ESFMu (fast)") _N("ESFMu (fast)")
@ -2058,6 +2063,17 @@ void FurnaceGUI::drawSettings() {
ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x); ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
if (ImGui::Combo("##OPL3CoreRender",&settings.opl3CoreRender,opl3Cores,3)) settingsChanged=true; if (ImGui::Combo("##OPL3CoreRender",&settings.opl3CoreRender,opl3Cores,3)) settingsChanged=true;
ImGui::TableNextRow();
ImGui::TableNextColumn();
ImGui::AlignTextToFramePadding();
ImGui::Text("OPL4");
ImGui::TableNextColumn();
ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
if (ImGui::Combo("##OPL4Core",&settings.opl4Core,opl4Cores,2)) settingsChanged=true;
ImGui::TableNextColumn();
ImGui::SetNextItemWidth(ImGui::GetContentRegionAvail().x);
if (ImGui::Combo("##OPL4CoreRender",&settings.opl4CoreRender,opl4Cores,2)) settingsChanged=true;
ImGui::TableNextRow(); ImGui::TableNextRow();
ImGui::TableNextColumn(); ImGui::TableNextColumn();
ImGui::AlignTextToFramePadding(); ImGui::AlignTextToFramePadding();
@ -5002,6 +5018,7 @@ void FurnaceGUI::readConfig(DivConfig& conf, FurnaceGUISettingGroups groups) {
settings.opnbCore=conf.getInt("opnbCore",1); settings.opnbCore=conf.getInt("opnbCore",1);
settings.opl2Core=conf.getInt("opl2Core",0); settings.opl2Core=conf.getInt("opl2Core",0);
settings.opl3Core=conf.getInt("opl3Core",0); settings.opl3Core=conf.getInt("opl3Core",0);
settings.opl4Core=conf.getInt("opl4Core",0);
settings.esfmCore=conf.getInt("esfmCore",0); settings.esfmCore=conf.getInt("esfmCore",0);
settings.opllCore=conf.getInt("opllCore",0); settings.opllCore=conf.getInt("opllCore",0);
settings.ayCore=conf.getInt("ayCore",0); settings.ayCore=conf.getInt("ayCore",0);
@ -5030,6 +5047,7 @@ void FurnaceGUI::readConfig(DivConfig& conf, FurnaceGUISettingGroups groups) {
settings.opnbCoreRender=conf.getInt("opnbCoreRender",1); settings.opnbCoreRender=conf.getInt("opnbCoreRender",1);
settings.opl2CoreRender=conf.getInt("opl2CoreRender",0); settings.opl2CoreRender=conf.getInt("opl2CoreRender",0);
settings.opl3CoreRender=conf.getInt("opl3CoreRender",0); settings.opl3CoreRender=conf.getInt("opl3CoreRender",0);
settings.opl4CoreRender=conf.getInt("opl4CoreRender",0);
settings.esfmCoreRender=conf.getInt("esfmCoreRender",0); settings.esfmCoreRender=conf.getInt("esfmCoreRender",0);
settings.opllCoreRender=conf.getInt("opllCoreRender",0); settings.opllCoreRender=conf.getInt("opllCoreRender",0);
settings.ayCoreRender=conf.getInt("ayCoreRender",0); settings.ayCoreRender=conf.getInt("ayCoreRender",0);
@ -5075,6 +5093,7 @@ void FurnaceGUI::readConfig(DivConfig& conf, FurnaceGUISettingGroups groups) {
clampSetting(settings.opnbCore,0,2); clampSetting(settings.opnbCore,0,2);
clampSetting(settings.opl2Core,0,2); clampSetting(settings.opl2Core,0,2);
clampSetting(settings.opl3Core,0,2); clampSetting(settings.opl3Core,0,2);
clampSetting(settings.opl4Core,0,1);
clampSetting(settings.esfmCore,0,1); clampSetting(settings.esfmCore,0,1);
clampSetting(settings.opllCore,0,1); clampSetting(settings.opllCore,0,1);
clampSetting(settings.ayCore,0,1); clampSetting(settings.ayCore,0,1);
@ -5101,6 +5120,7 @@ void FurnaceGUI::readConfig(DivConfig& conf, FurnaceGUISettingGroups groups) {
clampSetting(settings.opnbCoreRender,0,2); clampSetting(settings.opnbCoreRender,0,2);
clampSetting(settings.opl2CoreRender,0,2); clampSetting(settings.opl2CoreRender,0,2);
clampSetting(settings.opl3CoreRender,0,2); clampSetting(settings.opl3CoreRender,0,2);
clampSetting(settings.opl4CoreRender,0,1);
clampSetting(settings.esfmCoreRender,0,1); clampSetting(settings.esfmCoreRender,0,1);
clampSetting(settings.opllCoreRender,0,1); clampSetting(settings.opllCoreRender,0,1);
clampSetting(settings.ayCoreRender,0,1); clampSetting(settings.ayCoreRender,0,1);
@ -5591,6 +5611,7 @@ void FurnaceGUI::writeConfig(DivConfig& conf, FurnaceGUISettingGroups groups) {
conf.set("opnbCore",settings.opnbCore); conf.set("opnbCore",settings.opnbCore);
conf.set("opl2Core",settings.opl2Core); conf.set("opl2Core",settings.opl2Core);
conf.set("opl3Core",settings.opl3Core); conf.set("opl3Core",settings.opl3Core);
conf.set("opl4Core",settings.opl4Core);
conf.set("esfmCore",settings.esfmCore); conf.set("esfmCore",settings.esfmCore);
conf.set("opllCore",settings.opllCore); conf.set("opllCore",settings.opllCore);
conf.set("ayCore",settings.ayCore); conf.set("ayCore",settings.ayCore);
@ -5619,6 +5640,7 @@ void FurnaceGUI::writeConfig(DivConfig& conf, FurnaceGUISettingGroups groups) {
conf.set("opnbCoreRender",settings.opnbCoreRender); conf.set("opnbCoreRender",settings.opnbCoreRender);
conf.set("opl2CoreRender",settings.opl2CoreRender); conf.set("opl2CoreRender",settings.opl2CoreRender);
conf.set("opl3CoreRender",settings.opl3CoreRender); conf.set("opl3CoreRender",settings.opl3CoreRender);
conf.set("opl4CoreRender",settings.opl4CoreRender);
conf.set("esfmCoreRender",settings.esfmCoreRender); conf.set("esfmCoreRender",settings.esfmCoreRender);
conf.set("opllCoreRender",settings.opllCoreRender); conf.set("opllCoreRender",settings.opllCoreRender);
conf.set("ayCoreRender",settings.ayCoreRender); conf.set("ayCoreRender",settings.ayCoreRender);
@ -5682,6 +5704,7 @@ void FurnaceGUI::commitSettings() {
settings.opnbCore!=e->getConfInt("opnbCore",1) || settings.opnbCore!=e->getConfInt("opnbCore",1) ||
settings.opl2Core!=e->getConfInt("opl2Core",0) || settings.opl2Core!=e->getConfInt("opl2Core",0) ||
settings.opl3Core!=e->getConfInt("opl3Core",0) || settings.opl3Core!=e->getConfInt("opl3Core",0) ||
settings.opl4Core!=e->getConfInt("opl4Core",0) ||
settings.esfmCore!=e->getConfInt("esfmCore",0) || settings.esfmCore!=e->getConfInt("esfmCore",0) ||
settings.opllCore!=e->getConfInt("opllCore",0) || settings.opllCore!=e->getConfInt("opllCore",0) ||
settings.ayCore!=e->getConfInt("ayCore",0) || settings.ayCore!=e->getConfInt("ayCore",0) ||

View file

@ -2543,6 +2543,67 @@ bool FurnaceGUI::drawSysConf(int chan, int sysPos, DivSystem type, DivConfig& fl
} }
break; break;
} }
case DIV_SYSTEM_OPL4:
case DIV_SYSTEM_OPL4_DRUMS: {
int clockSel=flags.getInt("clockSel",0);
int ramSize=flags.getInt("ramSize",0);
ImGui::Text(_("Clock rate:"));
ImGui::Indent();
if (ImGui::RadioButton(_("33.8688MHz"),clockSel==0)) {
clockSel=0;
altered=true;
}
if (ImGui::RadioButton(_("28.64MHz (NTSC)"),clockSel==1)) {
clockSel=1;
altered=true;
}
if (ImGui::RadioButton(_("28.38MHz (PAL)"),clockSel==2)) {
clockSel=2;
altered=true;
}
ImGui::Unindent();
ImGui::Text(_("RAM size:"));
ImGui::Indent();
if (ImGui::RadioButton(_("4MB"),ramSize==0)) {
ramSize=0;
altered=true;
}
if (ImGui::RadioButton(_("2MB"),ramSize==1)) {
ramSize=1;
altered=true;
}
if (ImGui::RadioButton(_("1MB"),ramSize==2)) {
ramSize=2;
altered=true;
}
if (ImGui::RadioButton(_("640KB"),ramSize==3)) {
ramSize=3;
altered=true;
}
if (ImGui::RadioButton(_("512KB"),ramSize==4)) {
ramSize=4;
altered=true;
}
if (ImGui::RadioButton(_("256KB"),ramSize==5)) {
ramSize=5;
altered=true;
}
if (ImGui::RadioButton(_("128KB"),ramSize==6)) {
ramSize=6;
altered=true;
}
ImGui::Unindent();
if (altered) {
e->lockSave([&]() {
flags.set("clockSel",clockSel);
flags.set("ramSize",ramSize);
});
}
break;
}
case DIV_SYSTEM_SWAN: case DIV_SYSTEM_SWAN:
case DIV_SYSTEM_BUBSYS_WSG: case DIV_SYSTEM_BUBSYS_WSG:
case DIV_SYSTEM_PET: case DIV_SYSTEM_PET:

View file

@ -339,6 +339,7 @@ TAParamResult pVersion(String) {
printf("- PowerNoise emulator by scratchminer (MIT)\n"); printf("- PowerNoise emulator by scratchminer (MIT)\n");
printf("- ep128emu by Istvan Varga (GPLv2)\n"); printf("- ep128emu by Istvan Varga (GPLv2)\n");
printf("- NDS sound emulator by cam900 (zlib license)\n"); printf("- NDS sound emulator by cam900 (zlib license)\n");
printf("- openMSX YMF278 emulator (modified version) by the openMSX developers (GPLv2)\n");
return TA_PARAM_QUIT; return TA_PARAM_QUIT;
} }