hw/audio/fmopl.h - third_party/qemu - Git at Google

 #ifndef FMOPL_H
 #define FMOPL_H


 typedef void (*OPL_TIMERHANDLER)(void *param, int channel, double interval_Sec);

 /* !!!!! here is private section , do not access there member direct !!!!! */

 /* Saving is necessary for member of the 'R' mark for suspend/resume */
 /* ---------- OPL one of slot  ---------- */
 typedef struct fm_opl_slot {
 	int32_t TL;		/* total level     :TL << 8            */
 	int32_t TLL;		/* adjusted now TL                     */
 	uint8_t  KSR;		/* key scale rate  :(shift down bit)   */
 	int32_t *AR;		/* attack rate     :&AR_TABLE[AR<<2]   */
 	int32_t *DR;		/* decay rate      :&DR_TALBE[DR<<2]   */
 	int32_t SL;		/* sustin level    :SL_TALBE[SL]       */
 	int32_t *RR;		/* release rate    :&DR_TABLE[RR<<2]   */
 	uint8_t ksl;		/* keyscale level  :(shift down bits)  */
 	uint8_t ksr;		/* key scale rate  :kcode>>KSR         */
 	uint32_t mul;		/* multiple        :ML_TABLE[ML]       */
 	uint32_t Cnt;		/* frequency count :                   */
 	uint32_t Incr;	/* frequency step  :                   */
 	/* envelope generator state */
 	uint8_t eg_typ;	/* envelope type flag                  */
 	uint8_t evm;		/* envelope phase                      */
 	int32_t evc;		/* envelope counter                    */
 	int32_t eve;		/* envelope counter end point          */
 	int32_t evs;		/* envelope counter step               */
 	int32_t evsa;	/* envelope step for AR :AR[ksr]           */
 	int32_t evsd;	/* envelope step for DR :DR[ksr]           */
 	int32_t evsr;	/* envelope step for RR :RR[ksr]           */
 	/* LFO */
 	uint8_t ams;		/* ams flag                            */
 	uint8_t vib;		/* vibrate flag                        */
 	/* wave selector */
 	int32_t **wavetable;
 }OPL_SLOT;

 /* ---------- OPL one of channel  ---------- */
 typedef struct fm_opl_channel {
 	OPL_SLOT SLOT[2];
 	uint8_t CON;			/* connection type                     */
 	uint8_t FB;			/* feed back       :(shift down bit)   */
 	int32_t *connect1;	/* slot1 output pointer                */
 	int32_t *connect2;	/* slot2 output pointer                */
 	int32_t op1_out[2];	/* slot1 output for selfeedback        */
 	/* phase generator state */
 	uint32_t  block_fnum;	/* block+fnum      :                   */
 	uint8_t kcode;		/* key code        : KeyScaleCode      */
 	uint32_t  fc;			/* Freq. Increment base                */
 	uint32_t  ksl_base;	/* KeyScaleLevel Base step             */
 	uint8_t keyon;		/* key on/off flag                     */
 } OPL_CH;

 /* OPL state */
 typedef struct fm_opl_f {
 	int clock;			/* master clock  (Hz)                */
 	int rate;			/* sampling rate (Hz)                */
 	double freqbase;	/* frequency base                    */
 	double TimerBase;	/* Timer base time (==sampling time) */
 	uint8_t address;		/* address register                  */
 	uint8_t status;		/* status flag                       */
 	uint8_t statusmask;	/* status mask                       */
 	uint32_t mode;		/* Reg.08 : CSM , notesel,etc.       */
 	/* Timer */
 	int T[2];			/* timer counter                     */
 	uint8_t st[2];		/* timer enable                      */
 	/* FM channel slots */
 	OPL_CH *P_CH;		/* pointer of CH                     */
 	int	max_ch;			/* maximum channel                   */
 	/* Rhythm sention */
 	uint8_t rhythm;		/* Rhythm mode , key flag */
 	/* time tables */
 	int32_t AR_TABLE[76];	/* attack rate tables  */
 	int32_t DR_TABLE[76];	/* decay rate tables   */
 	uint32_t FN_TABLE[1024];  /* fnumber -> increment counter */
 	/* LFO */
 	int32_t *ams_table;
 	int32_t *vib_table;
 	int32_t amsCnt;
 	int32_t amsIncr;
 	int32_t vibCnt;
 	int32_t vibIncr;
 	/* wave selector enable flag */
 	uint8_t wavesel;
 	/* external event callback handler */
 	OPL_TIMERHANDLER  TimerHandler;		/* TIMER handler   */
     void *TimerParam; /* TIMER parameter */
 } FM_OPL;

 /* ---------- Generic interface section ---------- */
 FM_OPL *OPLCreate(int clock, int rate);
 void OPLDestroy(FM_OPL *OPL);
 void OPLSetTimerHandler(FM_OPL *OPL, OPL_TIMERHANDLER TimerHandler,
                         void *param);

 int OPLWrite(FM_OPL *OPL,int a,int v);
 unsigned char OPLRead(FM_OPL *OPL,int a);
 int OPLTimerOver(FM_OPL *OPL,int c);

 void YM3812UpdateOne(FM_OPL *OPL, int16_t *buffer, int length);
 #endif
	#ifndef FMOPL_H
	#define FMOPL_H


	typedef void (OPL_TIMERHANDLER)(void param, int channel, double interval_Sec);

	/* !!!!! here is private section , do not access there member direct !!!!! */

	/* Saving is necessary for member of the 'R' mark for suspend/resume */
	/* ---------- OPL one of slot ---------- */
	typedef struct fm_opl_slot {
	int32_t TL; /* total level :TL << 8 */
	int32_t TLL; /* adjusted now TL */
	uint8_t KSR; /* key scale rate :(shift down bit) */
	int32_t AR; / attack rate :&AR_TABLE[AR<<2] */
	int32_t DR; / decay rate :&DR_TALBE[DR<<2] */
	int32_t SL; /* sustin level :SL_TALBE[SL] */
	int32_t RR; / release rate :&DR_TABLE[RR<<2] */
	uint8_t ksl; /* keyscale level :(shift down bits) */
	uint8_t ksr; /* key scale rate :kcode>>KSR */
	uint32_t mul; /* multiple :ML_TABLE[ML] */
	uint32_t Cnt; /* frequency count : */
	uint32_t Incr; /* frequency step : */
	/* envelope generator state */
	uint8_t eg_typ; /* envelope type flag */
	uint8_t evm; /* envelope phase */
	int32_t evc; /* envelope counter */
	int32_t eve; /* envelope counter end point */
	int32_t evs; /* envelope counter step */
	int32_t evsa; /* envelope step for AR :AR[ksr] */
	int32_t evsd; /* envelope step for DR :DR[ksr] */
	int32_t evsr; /* envelope step for RR :RR[ksr] */
	/* LFO */
	uint8_t ams; /* ams flag */
	uint8_t vib; /* vibrate flag */
	/* wave selector */
	int32_t **wavetable;
	}OPL_SLOT;

	/* ---------- OPL one of channel ---------- */
	typedef struct fm_opl_channel {
	OPL_SLOT SLOT[2];
	uint8_t CON; /* connection type */
	uint8_t FB; /* feed back :(shift down bit) */
	int32_t connect1; / slot1 output pointer */
	int32_t connect2; / slot2 output pointer */
	int32_t op1_out[2]; /* slot1 output for selfeedback */
	/* phase generator state */
	uint32_t block_fnum; /* block+fnum : */
	uint8_t kcode; /* key code : KeyScaleCode */
	uint32_t fc; /* Freq. Increment base */
	uint32_t ksl_base; /* KeyScaleLevel Base step */
	uint8_t keyon; /* key on/off flag */
	} OPL_CH;

	/* OPL state */
	typedef struct fm_opl_f {
	int clock; /* master clock (Hz) */
	int rate; /* sampling rate (Hz) */
	double freqbase; /* frequency base */
	double TimerBase; /* Timer base time (==sampling time) */
	uint8_t address; /* address register */
	uint8_t status; /* status flag */
	uint8_t statusmask; /* status mask */
	uint32_t mode; /* Reg.08 : CSM , notesel,etc. */
	/* Timer */
	int T[2]; /* timer counter */
	uint8_t st[2]; /* timer enable */
	/* FM channel slots */
	OPL_CH P_CH; / pointer of CH */
	int max_ch; /* maximum channel */
	/* Rhythm sention */
	uint8_t rhythm; /* Rhythm mode , key flag */
	/* time tables */
	int32_t AR_TABLE[76]; /* attack rate tables */
	int32_t DR_TABLE[76]; /* decay rate tables */
	uint32_t FN_TABLE[1024]; /* fnumber -> increment counter */
	/* LFO */
	int32_t *ams_table;
	int32_t *vib_table;
	int32_t amsCnt;
	int32_t amsIncr;
	int32_t vibCnt;
	int32_t vibIncr;
	/* wave selector enable flag */
	uint8_t wavesel;
	/* external event callback handler */
	OPL_TIMERHANDLER TimerHandler; /* TIMER handler */
	void TimerParam; / TIMER parameter */
	} FM_OPL;

	/* ---------- Generic interface section ---------- */
	FM_OPL *OPLCreate(int clock, int rate);
	void OPLDestroy(FM_OPL *OPL);
	void OPLSetTimerHandler(FM_OPL *OPL, OPL_TIMERHANDLER TimerHandler,
	void *param);

	int OPLWrite(FM_OPL *OPL,int a,int v);
	unsigned char OPLRead(FM_OPL *OPL,int a);
	int OPLTimerOver(FM_OPL *OPL,int c);

	void YM3812UpdateOne(FM_OPL OPL, int16_t buffer, int length);
	#endif