/* * PicoDrive * (c) Copyright Dave, 2004 * (C) notaz, 2006-2009 * * This work is licensed under the terms of MAME license. * See COPYING file in the top-level directory. */ #include #include "ym2612.h" #include "sn76496.h" #include "../pico_int.h" #include "../cd/cue.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+100)/50]; // dac, psg static unsigned short dac_info[312+4]; // pos in sample buffer // 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, PsndPsgLine; short *PsndOut=NULL; // PCM data buffer static int PsndLen_use; // timers int timer_a_next_oflow, timer_a_step; // in z80 cycles int timer_b_next_oflow, timer_b_step; // sn76496 extern int *sn76496_regs; static void dac_recalculate(void) { int i, dac_cnt, pos, len, lines = Pico.m.pal ? 312 : 262, mid = Pico.m.pal ? 68 : 93; if (PsndLen <= lines) { // shrinking algo dac_cnt = -PsndLen; len=1; pos=0; dac_info[225] = 1; for(i=226; i != 225; i++) { if (i >= lines) i = 0; if(dac_cnt < 0) { pos++; dac_cnt += lines; } dac_cnt -= PsndLen; dac_info[i] = pos; } } else { // stretching dac_cnt = PsndLen; pos=0; for(i = 225; i != 224; i++) { if (i >= lines) i = 0; len=0; while(dac_cnt >= 0) { dac_cnt -= lines; len++; } if (i == mid) // midpoint while(pos+len < PsndLen/2) { dac_cnt -= lines; len++; } dac_cnt += PsndLen; pos += len; dac_info[i] = pos; } } for (i = lines; i < sizeof(dac_info) / sizeof(dac_info[0]); i++) dac_info[i] = dac_info[0]; } PICO_INTERNAL void PsndReset(void) { // PsndRerate calls YM2612Init, which also resets PsndRerate(0); timers_reset(); } // to be called after changing sound rate or chips void PsndRerate(int preserve_state) { void *state = NULL; int target_fps = Pico.m.pal ? 50 : 60; if (preserve_state) { state = malloc(0x204); if (state == NULL) return; ym2612_pack_state(); memcpy(state, YM2612GetRegs(), 0x204); } 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, 0x204); ym2612_unpack_state(); } if (preserve_state) memcpy(state, sn76496_regs, 28*4); // remember old state SN76496_init(Pico.m.pal ? OSC_PAL/15 : OSC_NTSC/15, PsndRate); if (preserve_state) memcpy(sn76496_regs, state, 28*4); // restore old state if (state) free(state); // calculate PsndLen PsndLen=PsndRate / target_fps; PsndLen_exc_add=((PsndRate - PsndLen*target_fps)<<16) / target_fps; PsndLen_exc_cnt=0; // recalculate dac info dac_recalculate(); // clear all buffers memset32(PsndBuffer, 0, sizeof(PsndBuffer)/4); memset(cdda_out_buffer, 0, sizeof(cdda_out_buffer)); if (PsndOut) 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(); } PICO_INTERNAL void PsndStartFrame(void) { // compensate for float part of PsndLen PsndLen_use = PsndLen; PsndLen_exc_cnt += PsndLen_exc_add; if (PsndLen_exc_cnt >= 0x10000) { PsndLen_exc_cnt -= 0x10000; PsndLen_use++; } PsndDacLine = PsndPsgLine = 0; emustatus &= ~1; dac_info[224] = PsndLen_use; } PICO_INTERNAL void PsndDoDAC(int line_to) { int pos, pos1, len; int dout = ym2612.dacout; int line_from = PsndDacLine; if (line_to >= 312) line_to = 311; pos = dac_info[line_from]; pos1 = dac_info[line_to + 1]; len = pos1 - pos; if (len <= 0) return; PsndDacLine = line_to + 1; if (!PsndOut) return; if (PicoOpt & POPT_EN_STEREO) { short *d = PsndOut + pos*2; for (; len > 0; len--, d+=2) *d += dout; } else { short *d = PsndOut + pos; for (; len > 0; len--, d++) *d += dout; } } PICO_INTERNAL void PsndDoPSG(int line_to) { int line_from = PsndPsgLine; int pos, pos1, len; int stereo = 0; if (line_to >= 312) line_to = 311; pos = dac_info[line_from]; pos1 = dac_info[line_to + 1]; len = pos1 - pos; //elprintf(EL_STATUS, "%3d %3d %3d %3d %3d", // pos, pos1, len, line_from, line_to); if (len <= 0) return; PsndPsgLine = line_to + 1; if (!PsndOut || !(PicoOpt & POPT_EN_PSG)) return; if (PicoOpt & POPT_EN_STEREO) { stereo = 1; pos <<= 1; } SN76496Update(PsndOut + pos, len, stereo); } // cdda static void cdda_raw_update(int *buffer, int length) { int ret, cdda_bytes, mult = 1; cdda_bytes = length*4; if (PsndRate <= 22050 + 100) mult = 2; if (PsndRate < 22050 - 100) mult = 4; cdda_bytes *= mult; ret = pm_read(cdda_out_buffer, cdda_bytes, Pico_mcd->cdda_stream); if (ret < cdda_bytes) { memset((char *)cdda_out_buffer + ret, 0, cdda_bytes - ret); Pico_mcd->cdda_stream = NULL; return; } // now mix switch (mult) { case 1: mix_16h_to_32(buffer, cdda_out_buffer, length*2); break; case 2: mix_16h_to_32_s1(buffer, cdda_out_buffer, length*2); break; case 4: mix_16h_to_32_s2(buffer, cdda_out_buffer, length*2); break; } } void cdda_start_play(int lba_base, int lba_offset, int lb_len) { if (Pico_mcd->cdda_type == CT_MP3) { int pos1024 = 0; if (lba_offset) pos1024 = lba_offset * 1024 / lb_len; mp3_start_play(Pico_mcd->cdda_stream, pos1024); return; } pm_seek(Pico_mcd->cdda_stream, (lba_base + lba_offset) * 2352, SEEK_SET); if (Pico_mcd->cdda_type == CT_WAV) { // skip headers, assume it's 44kHz stereo uncompressed pm_seek(Pico_mcd->cdda_stream, 44, SEEK_CUR); } } PICO_INTERNAL void PsndClear(void) { int len = PsndLen; if (PsndLen_exc_add) len++; if (PicoOpt & POPT_EN_STEREO) memset32((int *) PsndOut, 0, len); // assume PsndOut to be aligned else { short *out = PsndOut; if ((long)out & 2) { *out++ = 0; len--; } memset32((int *) out, 0, len/2); if (len & 1) out[len-1] = 0; } } static int PsndRender(int offset, int length) { int buf32_updated = 0; int *buf32 = PsndBuffer+offset; int stereo = (PicoOpt & 8) >> 3; offset <<= stereo; pprof_start(sound); if (PicoAHW & PAHW_PICO) { PicoPicoPCMUpdate(PsndOut+offset, length, stereo); return length; } // Add in the stereo FM buffer if (PicoOpt & POPT_EN_FM) { buf32_updated = YM2612UpdateOne(buf32, length, stereo, 1); } else memset32(buf32, 0, length<cdda_stream != NULL && !(Pico_mcd->s68k_regs[0x36] & 1)) { // note: only 44, 22 and 11 kHz supported, with forced stereo if (Pico_mcd->cdda_type == CT_MP3) mp3_update(buf32, length, stereo); else cdda_raw_update(buf32, length); } if ((PicoAHW & PAHW_32X) && (PicoOpt & POPT_EN_PWM)) p32x_pwm_update(buf32, length, stereo); // convert + limit to normal 16bit output PsndMix_32_to_16l(PsndOut+offset, buf32, length); pprof_end(sound); return length; } // to be called on 224 or line_sample scanlines only PICO_INTERNAL void PsndGetSamples(int y) { static int curr_pos = 0; if (ym2612.dacen && PsndDacLine < y) PsndDoDAC(y - 1); PsndDoPSG(y - 1); if (y == 224) { if (emustatus & 2) curr_pos += PsndRender(curr_pos, PsndLen-PsndLen/2); else curr_pos = PsndRender(0, PsndLen_use); if (emustatus & 1) emustatus |= 2; else emustatus &= ~2; if (PicoWriteSound) PicoWriteSound(curr_pos * ((PicoOpt & POPT_EN_STEREO) ? 4 : 2)); // clear sound buffer PsndClear(); PsndDacLine = 224; dac_info[224] = 0; } else if (emustatus & 3) { emustatus|= 2; emustatus&=~1; curr_pos = PsndRender(0, PsndLen/2); } } PICO_INTERNAL void PsndGetSamplesMS(void) { int stereo = (PicoOpt & 8) >> 3; int length = PsndLen_use; // PSG if (PicoOpt & POPT_EN_PSG) SN76496Update(PsndOut, length, stereo); // upmix to "stereo" if needed if (stereo) { int i, *p; for (i = length, p = (void *)PsndOut; i > 0; i--, p++) *p |= *p << 16; } if (PicoWriteSound != NULL) PicoWriteSound(length * ((PicoOpt & POPT_EN_STEREO) ? 4 : 2)); PsndClear(); } // vim:shiftwidth=2:ts=2:expandtab