/*
YM-2149F emulator for Unreal Speccy project
created under public domain license by SMT, jan.2006
*/
#ifndef _SNDCHIP_H_INCLUDED
#define _SNDCHIP_H_INCLUDED
#include "../sysdefs.h"
#include "sndrender.h"
const unsigned SNDR_DEFAULT_AY_RATE = 1774400; // original ZX-Spectrum soundchip clock fq
struct AYOUT;
struct SNDCHIP_VOLTAB;
struct SNDCHIP_PANTAB;
extern const char * const ay_chips[];
#ifdef __GNUC__
#pragma pack(push,1)
#else
#pragma pack(push)
#pragma pack(1) // envelope period (envT, R13-R14) has invalid word alignment
#endif
struct AYREGS
{
unsigned short fA, fB, fC;
unsigned char noise, mix;
unsigned char vA, vB, vC;
unsigned short envT;
unsigned char env;
unsigned char portA, portB;
};
#pragma pack(pop)
class SNDCHIP : public SNDRENDER
{
public:
YM2203 * Chip2203; //registers //Dexus
//FMSAMPLE FMbuf; //1 sample //Dexus
#define FMBUFSIZE (1) //Alone Coder
FMSAMPLE FMbufs[FMBUFSIZE]; //Alone Coder
UINT16 FMbufN; //Alone Coder
int FMbufOUT; //1 sample for add to AY output //Alone Coder
UINT16 FMbufMUL; //conf.sound.ay/8192*0.7f //Alone Coder
float nextfmtickfloat,ayticks_per_fmtick; //Alone Coder
unsigned int nextfmtick; //Alone Coder
enum CHIP_TYPE { CHIP_AY, CHIP_YM, CHIP_YM2203, CHIP_MAX }; //Dexus
static const char *get_chipname(CHIP_TYPE i) { return ay_chips[i]; }
void set_chip(CHIP_TYPE type) { chiptype = type; }
void set_timings(unsigned system_clock_rate, unsigned chip_clock_rate, unsigned sample_rate);
void set_volumes(unsigned global_vol, const SNDCHIP_VOLTAB *voltab, const SNDCHIP_PANTAB *stereo);
void reset(unsigned timestamp = 0); // call with default parameter, when context outside start_frame/end_frame block
// 'render' is a function that converts array of register writes into PCM-buffer
//[vv] unsigned render(AYOUT *src, unsigned srclen, unsigned clk_ticks, bufptr_t dst);
// set of functions that fills buffer in emulation progress
void start_frame(bufptr_t dst);
void select(unsigned char nreg);
void write(unsigned timestamp, unsigned char val);
unsigned char read();
unsigned end_frame(unsigned clk_ticks);
SNDCHIP();
// new start position as previous end position
// (continue to fill buffer)
void start_frame() { start_frame(dstpos); }
// for monitoring, chip can't report this values
unsigned char get_activereg() { return activereg; }
unsigned char get_r13_reloaded() { return r13_reloaded; }
unsigned char get_reg(unsigned nreg) { return reg[nreg]; }
unsigned get_env() { return env; }
private:
unsigned t, ta, tb, tc, tn, te, env;
int denv;
unsigned bitA, bitB, bitC, bitN, ns;
unsigned bit0, bit1, bit2, bit3, bit4, bit5;
unsigned ea, eb, ec, va, vb, vc;
unsigned fa, fb, fc, fn, fe;
unsigned mult_const;
unsigned char activereg, r13_reloaded;
unsigned vols[6][32];
CHIP_TYPE chiptype;
union {
unsigned char reg[16];
struct AYREGS r;
};
unsigned chip_clock_rate, system_clock_rate;
uint64_t passed_chip_ticks, passed_clk_ticks;
void flush(unsigned chiptick);
void apply_regs(unsigned timestamp = 0);
};
struct AYOUT
{
unsigned timestamp; // in system ticks
unsigned char reg_num;
unsigned char reg_value;
unsigned char res1, res2; // padding
};
// output volumes (#0000-#FFFF) for given envelope state or R8-R10 value
// AY chip has only 16 different volume values, so v[0]=v[1], v[2]=v[3], ...
struct SNDCHIP_VOLTAB
{
unsigned v[32];
};
// generator's channel panning, % (0-100)
struct SNDCHIP_PANTAB
{
unsigned raw[6];
// structured as 'struct { unsigned left, right; } chan[3]';
};
extern const SNDCHIP_VOLTAB SNDR_VOL_AY_S;
extern const SNDCHIP_VOLTAB SNDR_VOL_YM_S;
extern const SNDCHIP_PANTAB SNDR_PAN_MONO_S;
extern const SNDCHIP_PANTAB SNDR_PAN_ABC_S;
extern const SNDCHIP_PANTAB SNDR_PAN_ACB_S;
extern const SNDCHIP_PANTAB SNDR_PAN_BAC_S;
extern const SNDCHIP_PANTAB SNDR_PAN_BCA_S;
extern const SNDCHIP_PANTAB SNDR_PAN_CAB_S;
extern const SNDCHIP_PANTAB SNDR_PAN_CBA_S;
// used as parameters to SNDCHIP::set_volumes(),
// if application don't want to override defaults
const SNDCHIP_VOLTAB * const SNDR_VOL_AY = &SNDR_VOL_AY_S;
const SNDCHIP_VOLTAB * const SNDR_VOL_YM = &SNDR_VOL_YM_S;
const SNDCHIP_PANTAB * const SNDR_PAN_MONO = &SNDR_PAN_MONO_S;
const SNDCHIP_PANTAB * const SNDR_PAN_ABC = &SNDR_PAN_ABC_S;
const SNDCHIP_PANTAB * const SNDR_PAN_ACB = &SNDR_PAN_ACB_S;
const SNDCHIP_PANTAB * const SNDR_PAN_BAC = &SNDR_PAN_BAC_S;
const SNDCHIP_PANTAB * const SNDR_PAN_BCA = &SNDR_PAN_BCA_S;
const SNDCHIP_PANTAB * const SNDR_PAN_CAB = &SNDR_PAN_CAB_S;
const SNDCHIP_PANTAB * const SNDR_PAN_CBA = &SNDR_PAN_CBA_S;
#endif // _SNDCHIP_H_INCLUDED