X-Git-Url: https://notaz.gp2x.de/cgi-bin/gitweb.cgi?a=blobdiff_plain;f=Pico%2Fsound%2Fsound.c;h=6c7c6d8757c1a070f1af4bc3cc65b7b4c449e0ed;hb=4b9c58882616c5205a5ad5c9350f20a3d22bd7e1;hp=ac37c614c769b8adec3dac8639067a86d0dee8de;hpb=5f8c85be2aa0b7ea93e8b041c80996eaedaf715b;p=picodrive.git diff --git a/Pico/sound/sound.c b/Pico/sound/sound.c index ac37c61..6c7c6d8 100644 --- a/Pico/sound/sound.c +++ b/Pico/sound/sound.c @@ -1,7 +1,7 @@ // This is part of Pico Library // (c) Copyright 2004 Dave, All rights reserved. -// (c) Copyright 2006 notaz, All rights reserved. +// (c) Copyright 2006,2007 notaz, All rights reserved. // Free for non-commercial use. // For commercial use, separate licencing terms must be obtained. @@ -11,33 +11,32 @@ #include "ym2612.h" #include "sn76496.h" -#if defined(_USE_MZ80) -#include "../../cpu/mz80/mz80.h" -#elif defined(_USE_DRZ80) -#include "../../cpu/DrZ80/drz80.h" -#endif - #include "../PicoInt.h" #include "../cd/pcm.h" #include "mix.h" +void (*PsndMix_32_to_16l)(short *dest, int *src, int count) = mix_32_to_16l_stereo; + // master int buffer to mix to static int PsndBuffer[2*44100/50]; // dac -static unsigned short dac_info[312]; // pppppppp ppppllll, p - pos in buff, l - length to write for this sample +static unsigned short dac_info[312+4]; // pppppppp ppppllll, p - pos in buff, l - length to write for this sample + +// cdda output buffer +short cdda_out_buffer[2*1152]; // for Pico int PsndRate=0; int PsndLen=0; // number of mono samples, multiply by 2 for stereo int PsndLen_exc_add=0; // this is for non-integer sample counts per line, eg. 22050/60 int PsndLen_exc_cnt=0; +int PsndDacLine=0; short *PsndOut=NULL; // PCM data buffer -// from ym2612.c -extern int *ym2612_dacen; -extern INT32 *ym2612_dacout; -void YM2612TimerHandler(int c,int cnt); +// timers +int timer_a_next_oflow, timer_a_step; // in z80 cycles +//int // sn76496 extern int *sn76496_regs; @@ -89,6 +88,8 @@ static void dac_recalculate(void) if (PsndLen_exc_add) len++; dac_info[224] = (pos<<4)|len; } + for (i = lines; i < sizeof(dac_info) / sizeof(dac_info[0]); i++) + dac_info[i] = 0; //for(i=len=0; i < lines; i++) { // printf("%03i : %03i : %i\n", i, dac_info[i]>>4, dac_info[i]&0xf); // len+=dac_info[i]&0xf; @@ -99,47 +100,43 @@ static void dac_recalculate(void) } -PICO_INTERNAL void sound_reset(void) +PICO_INTERNAL void PsndReset(void) { void *ym2612_regs; // also clear the internal registers+addr line ym2612_regs = YM2612GetRegs(); memset(ym2612_regs, 0, 0x200+4); - // setting these to 0 might confuse timing code, - // so better set to something like this instead - z80startCycle = z80stopCycle = 0x01000000; + timers_reset(); - sound_rerate(0); + PsndRerate(0); } // to be called after changing sound rate or chips -void sound_rerate(int preserve_state) +void PsndRerate(int preserve_state) { void *state = NULL; int target_fps = Pico.m.pal ? 50 : 60; // not all rates are supported in MCD mode due to mp3 decoder limitations - if (PicoMCD & 1) { + if (PicoAHW & PAHW_MCD) { if (PsndRate != 11025 && PsndRate != 22050 && PsndRate != 44100) PsndRate = 22050; - PicoOpt |= 8; // force stereo + PicoOpt |= POPT_EN_STEREO; // force stereo } if (preserve_state) { state = malloc(0x200); if (state == NULL) return; memcpy(state, YM2612GetRegs(), 0x200); - if ((PicoMCD & 1) && Pico_mcd->m.audio_track) - Pico_mcd->m.audio_offset = mp3_get_offset(); } YM2612Init(Pico.m.pal ? OSC_PAL/7 : OSC_NTSC/7, PsndRate); if (preserve_state) { // feed it back it's own registers, just like after loading state memcpy(YM2612GetRegs(), state, 0x200); YM2612PicoStateLoad(); - if ((PicoMCD & 1) && Pico_mcd->m.audio_track) - mp3_start_play(Pico_mcd->TOC.Tracks[Pico_mcd->m.audio_track].F, Pico_mcd->m.audio_offset); + if ((PicoAHW & PAHW_MCD) && !(Pico_mcd->s68k_regs[0x36] & 1) && (Pico_mcd->scd.Status_CDC & 1)) + cdda_start_play(); } if (preserve_state) memcpy(state, sn76496_regs, 28*4); // remember old state @@ -157,53 +154,42 @@ void sound_rerate(int preserve_state) // recalculate dac info dac_recalculate(); - if (PicoMCD & 1) + if (PicoAHW & PAHW_MCD) pcm_set_rate(PsndRate); // clear all buffers memset32(PsndBuffer, 0, sizeof(PsndBuffer)/4); + memset(cdda_out_buffer, 0, sizeof(cdda_out_buffer)); if (PsndOut) - sound_clear(); + PsndClear(); + + // set mixer + PsndMix_32_to_16l = (PicoOpt & POPT_EN_STEREO) ? mix_32_to_16l_stereo : mix_32_to_16_mono; + + if (PicoAHW & PAHW_PICO) + PicoReratePico(); } -// This is called once per raster (aka line), but not necessarily for every line -PICO_INTERNAL void sound_timers_and_dac(int raster) +PICO_INTERNAL void PsndDoDAC(int line_to) { - int pos, len; - int do_dac = PsndOut && (PicoOpt&1) && *ym2612_dacen; -// int do_pcm = PsndOut && (PicoMCD&1) && (PicoOpt&0x400); - - // Our raster lasts 63.61323/64.102564 microseconds (NTSC/PAL) - YM2612PicoTick(1); + int pos, pos1, len; + int dout = ym2612.dacout; + int line_from = PsndDacLine; - if (!do_dac /*&& !do_pcm*/) return; + PsndDacLine = line_to + 1; - pos=dac_info[raster], len=pos&0xf; + pos =dac_info[line_from]>>4; + pos1=dac_info[line_to]; + len = ((pos1>>4)-pos) + (pos1&0xf); if (!len) return; - pos>>=4; - - if (do_dac) { + if (PicoOpt & POPT_EN_STEREO) { short *d = PsndOut + pos*2; - int dout = *ym2612_dacout; - if(PicoOpt&8) { - // some manual loop unrolling here :) - d[0] = dout; - if (len > 1) { - d[2] = dout; - if (len > 2) - d[4] = dout; - } - } else { - short *d = PsndOut + pos; - d[0] = dout; - if (len > 1) { - d[1] = dout; - if (len > 2) - d[2] = dout; - } - } + for (; len > 0; len--, d+=2) *d = dout; + } else { + short *d = PsndOut + pos; + for (; len > 0; len--, d++) *d = dout; } #if 0 @@ -215,25 +201,108 @@ PICO_INTERNAL void sound_timers_and_dac(int raster) #endif } +// cdda +static pm_file *cdda_stream = NULL; + +static void cdda_raw_update(int *buffer, int length) +{ + int ret, cdda_bytes; + if (cdda_stream == NULL) return; + + cdda_bytes = length*4; + if (PsndRate <= 22050) cdda_bytes *= 2; + if (PsndRate < 22050) cdda_bytes *= 2; + + ret = pm_read(cdda_out_buffer, cdda_bytes, cdda_stream); + if (ret < cdda_bytes) { + memset((char *)cdda_out_buffer + ret, 0, cdda_bytes - ret); + cdda_stream = NULL; + return; + } + + // now mix + switch (PsndRate) { + case 44100: mix_16h_to_32(buffer, cdda_out_buffer, length*2); break; + case 22050: mix_16h_to_32_s1(buffer, cdda_out_buffer, length*2); break; + case 11025: mix_16h_to_32_s2(buffer, cdda_out_buffer, length*2); break; + } +} + +PICO_INTERNAL void cdda_start_play(void) +{ + int lba_offset, index, lba_length, i; + + elprintf(EL_STATUS, "cdda play track #%i", Pico_mcd->scd.Cur_Track); + + index = Pico_mcd->scd.Cur_Track - 1; + + lba_offset = Pico_mcd->scd.Cur_LBA - Track_to_LBA(index + 1); + if (lba_offset < 0) lba_offset = 0; + lba_offset += Pico_mcd->TOC.Tracks[index].Offset; + + // find the actual file for this track + for (i = index; i >= 0; i--) + if (Pico_mcd->TOC.Tracks[i].F != NULL) break; + + if (Pico_mcd->TOC.Tracks[i].F == NULL) { + elprintf(EL_STATUS|EL_ANOMALY, "no track?!"); + return; + } + + if (Pico_mcd->TOC.Tracks[i].ftype == TYPE_MP3) + { + int pos1024 = 0; + + lba_length = Pico_mcd->TOC.Tracks[i].Length; + for (i++; i < Pico_mcd->TOC.Last_Track; i++) { + if (Pico_mcd->TOC.Tracks[i].F != NULL) break; + lba_length += Pico_mcd->TOC.Tracks[i].Length; + } + + if (lba_offset) + pos1024 = lba_offset * 1024 / lba_length; + + mp3_start_play(Pico_mcd->TOC.Tracks[index].F, pos1024); + return; + } + + cdda_stream = Pico_mcd->TOC.Tracks[i].F; + PicoCDBufferFlush(); // buffering relies on fp not being touched + pm_seek(cdda_stream, lba_offset * 2352, SEEK_SET); + if (Pico_mcd->TOC.Tracks[i].ftype == TYPE_WAV) + { + // skip headers, assume it's 44kHz stereo uncompressed + pm_seek(cdda_stream, 44, SEEK_CUR); + } +} + -PICO_INTERNAL void sound_clear(void) +PICO_INTERNAL void PsndClear(void) { int len = PsndLen; if (PsndLen_exc_add) len++; - if (PicoOpt & 8) memset32((int *) PsndOut, 0, len); // clear both channels at once - else memset(PsndOut, 0, len<<1); + if (PicoOpt & POPT_EN_STEREO) + memset32((int *) PsndOut, 0, len); // assume PsndOut to be aligned + else { + short *out = PsndOut; + if ((int)out & 2) { *out++ = 0; len--; } + memset32((int *) out, 0, len/2); + if (len & 1) out[len-1] = 0; + } } -PICO_INTERNAL int sound_render(int offset, int length) +PICO_INTERNAL int PsndRender(int offset, int length) { int buf32_updated = 0; int *buf32 = PsndBuffer+offset; int stereo = (PicoOpt & 8) >> 3; // emulating CD && PCM option enabled && PCM chip on && have enabled channels - int do_pcm = (PicoMCD&1) && (PicoOpt&0x400) && (Pico_mcd->pcm.control & 0x80) && Pico_mcd->pcm.enabled; + int do_pcm = (PicoAHW & PAHW_MCD) && (PicoOpt&POPT_EN_MCD_PCM) && + (Pico_mcd->pcm.control & 0x80) && Pico_mcd->pcm.enabled; offset <<= stereo; +#if !SIMPLE_WRITE_SOUND if (offset == 0) { // should happen once per frame // compensate for float part of PsndLen PsndLen_exc_cnt += PsndLen_exc_add; @@ -242,13 +311,19 @@ PICO_INTERNAL int sound_render(int offset, int length) length++; } } +#endif // PSG - if (PicoOpt & 2) + if (PicoOpt & POPT_EN_PSG) SN76496Update(PsndOut+offset, length, stereo); + if (PicoAHW & PAHW_PICO) { + PicoPicoPCMUpdate(PsndOut+offset, length, stereo); + return length; + } + // Add in the stereo FM buffer - if (PicoOpt & 1) { + if (PicoOpt & POPT_EN_FM) { buf32_updated = YM2612UpdateOne(buf32, length, stereo, 1); } else memset32(buf32, 0, length<s68k_regs[0x36] & 1) && (Pico_mcd->scd.Status_CDC & 1)) + { + // note: only 44, 22 and 11 kHz supported, with forced stereo + int index = Pico_mcd->scd.Cur_Track - 1; + + if (Pico_mcd->TOC.Tracks[index].ftype == TYPE_MP3) + mp3_update(buf32, length, stereo); + else + cdda_raw_update(buf32, length); + } // convert + limit to normal 16bit output - if (stereo) - mix_32_to_16l_stereo(PsndOut+offset, buf32, length); - else mix_32_to_16_mono (PsndOut+offset, buf32, length); + PsndMix_32_to_16l(PsndOut+offset, buf32, length); return length; } +// ----------------------------------------------------------------- +// z80 stuff + #if defined(_USE_MZ80) @@ -299,9 +385,16 @@ static struct z80PortWrite mz80_io_write[]={ {(UINT16) -1,(UINT16) -1,NULL} }; +int mz80_run(int cycles) +{ + int ticks_pre = mz80GetElapsedTicks(0); + mz80exec(cycles); + return mz80GetElapsedTicks(0) - ticks_pre; +} + #elif defined(_USE_DRZ80) -static struct DrZ80 drZ80; +struct DrZ80 drZ80; static unsigned int DrZ80_rebasePC(unsigned short a) { @@ -315,24 +408,26 @@ static unsigned int DrZ80_rebaseSP(unsigned short a) return drZ80.Z80SP_BASE + a; } -static unsigned char DrZ80_in(unsigned short p) +static void DrZ80_irq_callback() { - elprintf(EL_ANOMALY, "Z80 port %04x read", p); - return 0xff; + drZ80.Z80_IRQ = 0; // lower irq when accepted } +#endif -static void DrZ80_out(unsigned short p,unsigned char d) +#if defined(_USE_DRZ80) || defined(_USE_CZ80) +static unsigned char z80_in(unsigned short p) { - elprintf(EL_ANOMALY, "Z80 port %04x write %02x", p, d); + elprintf(EL_ANOMALY, "Z80 port %04x read", p); + return 0xff; } -static void DrZ80_irq_callback() +static void z80_out(unsigned short p,unsigned char d) { - drZ80.Z80_IRQ = 0; // lower irq when accepted + elprintf(EL_ANOMALY, "Z80 port %04x write %02x", p, d); } - #endif + // z80 functionality wrappers PICO_INTERNAL void z80_init(void) { @@ -354,7 +449,6 @@ PICO_INTERNAL void z80_init(void) mz80SetContext(&z80); #elif defined(_USE_DRZ80) - memset(&drZ80, 0, sizeof(struct DrZ80)); drZ80.z80_rebasePC=DrZ80_rebasePC; drZ80.z80_rebaseSP=DrZ80_rebaseSP; @@ -362,9 +456,19 @@ PICO_INTERNAL void z80_init(void) drZ80.z80_read16 =z80_read16; drZ80.z80_write8 =z80_write; drZ80.z80_write16 =z80_write16; - drZ80.z80_in =DrZ80_in; - drZ80.z80_out =DrZ80_out; + drZ80.z80_in =z80_in; + drZ80.z80_out =z80_out; drZ80.z80_irq_callback=DrZ80_irq_callback; + +#elif defined(_USE_CZ80) + memset(&CZ80, 0, sizeof(CZ80)); + Cz80_Init(&CZ80); + Cz80_Set_Fetch(&CZ80, 0x0000, 0x1fff, (UINT32)Pico.zram); // main RAM + Cz80_Set_Fetch(&CZ80, 0x2000, 0x3fff, (UINT32)Pico.zram); // mirror + Cz80_Set_ReadB(&CZ80, (UINT8 (*)(UINT32 address))z80_read); // unused (hacked in) + Cz80_Set_WriteB(&CZ80, z80_write); + Cz80_Set_INPort(&CZ80, z80_in); + Cz80_Set_OUTPort(&CZ80, z80_out); #endif } @@ -381,40 +485,15 @@ PICO_INTERNAL void z80_reset(void) drZ80.Z80IM = 0; // 1? drZ80.Z80PC = drZ80.z80_rebasePC(0); drZ80.Z80SP = drZ80.z80_rebaseSP(0x2000); // 0xf000 ? +#elif defined(_USE_CZ80) + Cz80_Reset(&CZ80); + Cz80_Set_Reg(&CZ80, CZ80_IX, 0xffff); + Cz80_Set_Reg(&CZ80, CZ80_IY, 0xffff); + Cz80_Set_Reg(&CZ80, CZ80_SP, 0x2000); #endif Pico.m.z80_fakeval = 0; // for faking when Z80 is disabled } -PICO_INTERNAL void z80_resetCycles(void) -{ -#if defined(_USE_MZ80) - mz80GetElapsedTicks(1); -#endif -} - -PICO_INTERNAL void z80_int(void) -{ -#if defined(_USE_MZ80) - mz80int(0); -#elif defined(_USE_DRZ80) - drZ80.z80irqvector = 0xFF; // default IRQ vector RST opcode - drZ80.Z80_IRQ = 1; -#endif -} - -// returns number of cycles actually executed -PICO_INTERNAL int z80_run(int cycles) -{ -#if defined(_USE_MZ80) - int ticks_pre = mz80GetElapsedTicks(0); - mz80exec(cycles); - return mz80GetElapsedTicks(0) - ticks_pre; -#elif defined(_USE_DRZ80) - return cycles - DrZ80Run(&drZ80, cycles); -#else - return cycles; -#endif -} PICO_INTERNAL void z80_pack(unsigned char *data) { @@ -428,13 +507,17 @@ PICO_INTERNAL void z80_pack(unsigned char *data) drZ80.Z80PC = drZ80.z80_rebasePC(drZ80.Z80PC-drZ80.Z80PC_BASE); drZ80.Z80SP = drZ80.z80_rebaseSP(drZ80.Z80SP-drZ80.Z80SP_BASE); memcpy(data+4, &drZ80, 0x54); +#elif defined(_USE_CZ80) + *(int *)data = 0x00007a43; // "Cz" + *(int *)(data+4) = Cz80_Get_Reg(&CZ80, CZ80_PC); + memcpy(data+8, &CZ80, (INT32)&CZ80.BasePC - (INT32)&CZ80); #endif } PICO_INTERNAL void z80_unpack(unsigned char *data) { #if defined(_USE_MZ80) - if(*(int *)data == 0x00005A6D) { // "mZ" save? + if (*(int *)data == 0x00005A6D) { // "mZ" save? struct mz80context mz80; mz80GetContext(&mz80); memcpy(&mz80.z80clockticks, data+4, sizeof(mz80)-5*4); @@ -444,7 +527,7 @@ PICO_INTERNAL void z80_unpack(unsigned char *data) z80_int(); } #elif defined(_USE_DRZ80) - if(*(int *)data == 0x015A7244) { // "DrZ" v1 save? + if (*(int *)data == 0x015A7244) { // "DrZ" v1 save? memcpy(&drZ80, data+4, 0x54); // update bases drZ80.Z80PC = drZ80.z80_rebasePC(drZ80.Z80PC-drZ80.Z80PC_BASE); @@ -454,6 +537,14 @@ PICO_INTERNAL void z80_unpack(unsigned char *data) drZ80.Z80IM = 1; z80_int(); // try to goto int handler, maybe we won't execute trash there? } +#elif defined(_USE_CZ80) + if (*(int *)data == 0x00007a43) { // "Cz" save? + memcpy(&CZ80, data+8, (INT32)&CZ80.BasePC - (INT32)&CZ80); + Cz80_Set_Reg(&CZ80, CZ80_PC, *(int *)(data+4)); + } else { + z80_reset(); + z80_int(); + } #endif } @@ -464,11 +555,13 @@ PICO_INTERNAL void z80_exit(void) #endif } -#if defined(__DEBUG_PRINT) || defined(__GP2X__) +#if 1 // defined(__DEBUG_PRINT) || defined(__GP2X__) || defined(__GIZ__) PICO_INTERNAL void z80_debug(char *dstr) { #if defined(_USE_DRZ80) sprintf(dstr, "Z80 state: PC: %04x SP: %04x\n", drZ80.Z80PC-drZ80.Z80PC_BASE, drZ80.Z80SP-drZ80.Z80SP_BASE); +#elif defined(_USE_CZ80) + sprintf(dstr, "Z80 state: PC: %04x SP: %04x\n", CZ80.PC - CZ80.BasePC, CZ80.SP.W); #endif } #endif