kolibrios-fun/programs/emulator/dgen-sdl-1.33/fm.h
turbocat ea1a60faa3 Upload DGEN port source
git-svn-id: svn://kolibrios.org@9837 a494cfbc-eb01-0410-851d-a64ba20cac60
2022-06-15 18:25:17 +00:00

243 lines
7.1 KiB
C

/*
File: fm.h -- header file for software emulation for FM sound generator
*/
#ifndef _H_FM_FM_
#define _H_FM_FM_
#include <stdint.h>
/* --- select emulation chips --- */
#define BUILD_YM2203 (HAS_YM2203) /* build YM2203(OPN) emulator */
#define BUILD_YM2608 (HAS_YM2608) /* build YM2608(OPNA) emulator */
#define BUILD_YM2610 (HAS_YM2610) /* build YM2610(OPNB) emulator */
#define BUILD_YM2610B (HAS_YM2610B) /* build YM2610B(OPNB?)emulator */
#define BUILD_YM2612 1 /* build YM2612(OPN2) emulator */
//#define BUILD_YM2151 (HAS_YM2151) /* build YM2151(OPM) emulator */
#define FM_SSG_PRESCALER 0
/* select bit size of output : 8 or 16 */
#define FM_SAMPLE_BITS 16
/* select timer system internal or external */
#define FM_INTERNAL_TIMER 0
/* --- speedup optimize --- */
/* busy flag enulation , The definition of FM_GET_TIME_NOW() is necessary. */
#define FM_BUSY_FLAG_SUPPORT 0
/* --- external SSG(YM2149/AY-3-8910)emulator interface port */
/* used by YM2203,YM2608,and YM2610 */
/* SSGClk : Set SSG Clock */
/* int n = chip number */
/* int clk = MasterClock(Hz) */
/* int rate = sample rate(Hz) */
#define SSGClk(chip,clock) AY8910_set_clock((chip)+ay8910_index_ym,clock)
/* SSGWrite : Write SSG port */
/* int n = chip number */
/* int a = address */
/* int v = data */
#define SSGWrite(n,a,v) AY8910Write((n)+ay8910_index_ym,a,v)
/* SSGRead : Read SSG port */
/* int n = chip number */
/* return = Read data */
#define SSGRead(n) AY8910Read((n)+ay8910_index_ym)
/* SSGReset : Reset SSG chip */
/* int n = chip number */
#define SSGReset(chip) AY8910Reset((chip)+ay8910_index_ym)
/* --- external callback funstions for realtime update --- */
/* for busy flag emulation , function FM_GET_TIME_NOW() should */
/* return present time in seconds with "double" precision */
/* in timer.c */
#define FM_GET_TIME_NOW() timer_get_time()
#if 0
#if BUILD_YM2203
/* in 2203intf.c */
void BurnYM2203UpdateRequest(void);
#define YM2203UpdateReq(chip) BurnYM2203UpdateRequest()
#endif
#if BUILD_YM2608
/* in 2608intf.c */
void BurnYM2608UpdateRequest(void);
#define YM2608UpdateReq(chip) BurnYM2608UpdateRequest()
#endif
#if BUILD_YM2610
/* in 2610intf.c */
void BurnYM2610UpdateRequest(void);
#define YM2610UpdateReq(chip) BurnYM2610UpdateRequest()
#endif
#if BUILD_YM2612
/* in 2612intf.c */
void BurnYM2612UpdateRequest(void);
#define YM2612UpdateReq(chip) BurnYM2612UpdateRequest()
#endif
#if 0 //BUILD_YM2151
/* in 2151intf.c */
#define YM2151UpdateReq(chip) YM2151UpdateRequest(chip);
#endif
#else
#define YM2612UpdateReq(chip) (void)0
#endif
/* compiler dependence */
typedef uint8_t UINT8; /* unsigned 8bit */
typedef uint16_t UINT16; /* unsigned 16bit */
typedef uint32_t UINT32; /* unsigned 32bit */
typedef int8_t INT8; /* signed 8bit */
typedef int16_t INT16; /* signed 16bit */
typedef int32_t INT32; /* signed 32bit */
#define INLINE static inline
#if (FM_SAMPLE_BITS==16)
typedef INT16 FMSAMPLE;
#endif
#if (FM_SAMPLE_BITS==8)
typedef UINT8 FMSAMPLE;
#endif
typedef void (*FM_TIMERHANDLER)(int n,int c,int cnt,double stepTime);
typedef void (*FM_IRQHANDLER)(int n,int irq);
/* FM_TIMERHANDLER : Stop or Start timer */
/* int n = chip number */
/* int c = Channel 0=TimerA,1=TimerB */
/* int count = timer count (0=stop) */
/* doube stepTime = step time of one count (sec.)*/
/* FM_IRQHHANDLER : IRQ level changing sense */
/* int n = chip number */
/* int irq = IRQ level 0=OFF,1=ON */
//#if BUILD_YM2203
#if 1
/* -------------------- YM2203(OPN) Interface -------------------- */
/*
** Initialize YM2203 emulator(s).
**
** 'num' is the number of virtual YM2203's to allocate
** 'baseclock'
** 'rate' is sampling rate
** 'TimerHandler' timer callback handler when timer start and clear
** 'IRQHandler' IRQ callback handler when changed IRQ level
** return 0 = success
*/
int YM2203Init(int num, int baseclock, int rate,
FM_TIMERHANDLER TimerHandler,FM_IRQHANDLER IRQHandler);
/*
** shutdown the YM2203 emulators
*/
void YM2203Shutdown(void);
/*
** reset all chip registers for YM2203 number 'num'
*/
void YM2203ResetChip(int num);
/*
** update one of chip
*/
void YM2203UpdateOne(int num, INT16 *buffer, int length);
/*
** Write
** return : InterruptLevel
*/
int YM2203Write(int n,int a,unsigned char v);
/*
** Read
** return : InterruptLevel
*/
unsigned char YM2203Read(int n,int a);
/*
** Timer OverFlow
*/
int YM2203TimerOver(int n, int c);
#endif /* BUILD_YM2203 */
#if BUILD_YM2608
/* -------------------- YM2608(OPNA) Interface -------------------- */
int YM2608Init(int num, int baseclock, int rate,
void **pcmroma,int *pcmsizea,
FM_TIMERHANDLER TimerHandler,FM_IRQHANDLER IRQHandler);
void YM2608Shutdown(void);
void YM2608ResetChip(int num);
void YM2608UpdateOne(int num, INT16 **buffer, int length);
int YM2608Write(int n, int a,unsigned char v);
unsigned char YM2608Read(int n,int a);
int YM2608TimerOver(int n, int c );
#endif /* BUILD_YM2608 */
#if (BUILD_YM2610||BUILD_YM2610B)
/* -------------------- YM2610(OPNB) Interface -------------------- */
int YM2610Init(int num, int baseclock, int rate,
void **pcmroma,int *pcmasize,void **pcmromb,int *pcmbsize,
FM_TIMERHANDLER TimerHandler,FM_IRQHANDLER IRQHandler);
void YM2610SetRom(int num,
void *pcmroma,int pcmsizea,void *pcmromb,int pcmsizeb);
void YM2610Shutdown(void);
void YM2610ResetChip(int num);
void YM2610UpdateOne(int num, INT16 **buffer, int length);
#if BUILD_YM2610B
void YM2610BUpdateOne(int num, INT16 **buffer, int length);
#endif
int YM2610Write(int n, int a,unsigned char v);
unsigned char YM2610Read(int n,int a);
int YM2610TimerOver(int n, int c );
#endif /* BUILD_YM2610 */
#if BUILD_YM2612
int YM2612Init(int num, int baseclock, int rate, int mjazz,
FM_TIMERHANDLER TimerHandler,FM_IRQHANDLER IRQHandler);
void YM2612Shutdown(void);
void YM2612ResetChip(int num);
void YM2612UpdateOne(int num, INT16 *buffer, unsigned int length,
unsigned int volume, int loud);
int YM2612Write(int n, int a,unsigned char v);
unsigned char YM2612Read(int n,int a);
int YM2612TimerOver(int n, int c );
void YM2612_dump(int num, uint8_t buf[512]);
void YM2612_restore(int num, uint8_t buf[512]);
#endif /* BUILD_YM2612 */
#if 0 //BUILD_YM2151
/* -------------------- YM2151(OPM) Interface -------------------- */
int OPMInit(int num, int baseclock, int rate,
FM_TIMERHANDLER TimerHandler,FM_IRQHANDLER IRQHandler);
void OPMShutdown(void);
void OPMResetChip(int num);
void OPMUpdateOne(int num, INT16 **buffer, int length );
/* ---- set callback hander when port CT0/1 write ----- */
/* CT.bit0 = CT0 , CT.bit1 = CT1 */
/*
typedef void (*write8_handler)(int offset,int data);
*/
void OPMSetPortHander(int n,write8_handler PortWrite);
/* JB 981119 - so it will match MAME's memory write functions scheme*/
int YM2151Write(int n,int a,unsigned char v);
unsigned char YM2151Read(int n,int a);
int YM2151TimerOver(int n,int c);
#endif /* BUILD_YM2151 */
#endif /* _H_FM_FM_ */