mirror of
https://github.com/ekeeke/Genesis-Plus-GX.git
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b8506f31b7
.improved sound chips input clock precision (float->double)
250 lines
8.0 KiB
C
250 lines
8.0 KiB
C
/***************************************************************************************
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* Genesis Plus
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*
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* Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003 Charles Mac Donald (original code)
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* Eke-Eke (2007,2008,2009), additional code & fixes for the GCN/Wii port
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*
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* Sound Hardware
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****************************************************************************************/
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#include "shared.h"
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#include "Fir_Resampler.h"
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/* Cycle-accurate samples */
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static unsigned int psg_cycles_ratio;
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static unsigned int psg_cycles_count;
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static unsigned int fm_cycles_ratio;
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static unsigned int fm_cycles_count;
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/* Run FM chip for required M-cycles */
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static inline void fm_update(unsigned int cycles)
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{
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if (cycles > fm_cycles_count)
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{
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/* period to run */
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cycles -= fm_cycles_count;
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/* update cycle count */
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fm_cycles_count += cycles;
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/* number of samples during period */
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unsigned int cnt = cycles / fm_cycles_ratio;
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/* remaining cycles */
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unsigned int remain = cycles % fm_cycles_ratio;
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if (remain)
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{
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/* one sample ahead */
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fm_cycles_count += fm_cycles_ratio - remain;
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cnt++;
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}
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/* select input sample buffer */
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int32 *buffer = Fir_Resampler_buffer();
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if (buffer)
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{
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Fir_Resampler_write(cnt << 1);
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}
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else
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{
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buffer = snd.fm.pos;
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snd.fm.pos += (cnt << 1);
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}
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/* run FM chip & get samples */
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YM2612Update(buffer, cnt);
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}
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}
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/* Run PSG chip for required M-cycles */
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static inline void psg_update(unsigned int cycles)
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{
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if (cycles > psg_cycles_count)
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{
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/* period to run */
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cycles -= psg_cycles_count;
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/* update cycle count */
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psg_cycles_count += cycles;
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/* number of samples during period */
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unsigned int cnt = cycles / psg_cycles_ratio;
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/* remaining cycles */
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unsigned int remain = cycles % psg_cycles_ratio;
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if (remain)
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{
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/* one sample ahead */
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psg_cycles_count += psg_cycles_ratio - remain;
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cnt++;
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}
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/* run PSG chip & get samples */
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SN76489_Update(snd.psg.pos, cnt);
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snd.psg.pos += cnt;
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}
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}
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/* Initialize sound chips emulation */
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void sound_init(void)
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{
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/* Number of M-cycles executed per second. */
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/* */
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/* The original Genesis would run exactly 53693175 M-cycles (53203424 for PAL), with */
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/* 3420 M-cycles per line and 262 (313 for PAL) lines per frame, which gives an exact */
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/* framerate of 59.92 (49.70 for PAL) fps. */
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/* */
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/* On some systems, the output framerate is not exactly 60 or 50 fps because we need */
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/* 100% smooth video and therefore frame emulation is synchronized with VSYNC, which */
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/* period is never exactly 1/60 or 1/50 seconds. */
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/* */
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/* For optimal sound rendering, input samplerate (number of samples rendered per frame) */
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/* is the exact output samplerate (number of samples played per second) divided by the */
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/* exact output framerate (number of frames emulated per seconds). */
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/* */
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/* This ensure there is no audio skipping or lag between emulated frames, while keeping */
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/* accurate timings for sound chips execution & synchronization. */
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/* */
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double mclk = MCYCLES_PER_LINE * lines_per_frame * snd.frame_rate;
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/* For better accuracy, sound chips run in synchronization with 68k and Z80 cpus */
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/* These values give the exact number of M-cycles between 2 rendered samples. */
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/* we use 21.11 fixed point precision (max. mcycle value is 3420*313 i.e 21 bits max) */
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psg_cycles_ratio = (unsigned int)(mclk / (double) snd.sample_rate * 2048.0);
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fm_cycles_ratio = psg_cycles_ratio;
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fm_cycles_count = 0;
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psg_cycles_count = 0;
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/* Initialize core emulation (input clock based on input frequency for 100% accuracy) */
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/* By default, both chips are running at the output frequency. */
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SN76489_Init(mclk/15.0,snd.sample_rate);
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YM2612Init(mclk/7.0,snd.sample_rate);
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/* In HQ mode, YM2612 is running at its original rate (one sample each 144*7 M-cycles) */
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/* FM stream is resampled to the output frequency at the end of a frame. */
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if (config.hq_fm)
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{
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fm_cycles_ratio = 144 * 7 * (1 << 11);
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Fir_Resampler_time_ratio(mclk / (double)snd.sample_rate / (144.0 * 7.0), config.rolloff);
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}
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#ifdef LOGSOUND
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error("%d mcycles per PSG samples\n", psg_cycles_ratio);
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error("%d mcycles per FM samples\n", fm_cycles_ratio);
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#endif
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}
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/* Reset sound chips emulation */
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void sound_reset(void)
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{
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YM2612ResetChip();
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SN76489_Reset();
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fm_cycles_count = 0;
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psg_cycles_count = 0;
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}
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/* End of frame update, return the number of samples run so far. */
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int sound_update(unsigned int cycles)
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{
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/* run PSG & FM chips until end of frame */
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cycles <<= 11;
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psg_update(cycles);
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fm_update(cycles);
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int size = snd.psg.pos - snd.psg.buffer;
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#ifdef LOGSOUND
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error("%d PSG samples available\n",size);
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#endif
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/* FM resampling */
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if (config.hq_fm)
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{
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/* get available FM samples */
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int avail = Fir_Resampler_avail();
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/* resynchronize FM & PSG chips */
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if (avail < size)
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{
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/* FM chip is late for one (or two) samples */
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do
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{
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YM2612Update(Fir_Resampler_buffer(), 1);
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Fir_Resampler_write(2);
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avail = Fir_Resampler_avail();
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}
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while (avail < size);
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}
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else
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{
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/* FM chip is ahead */
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fm_cycles_count += (avail - size) * psg_cycles_ratio;
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}
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}
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#ifdef LOGSOUND
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if (config.hq_fm)
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error("%d FM samples (%d) available\n",Fir_Resampler_avail(), Fir_Resampler_written() >> 1);
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else
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error("%d FM samples available\n",(snd.fm.pos - snd.fm.buffer)>>1);
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#endif
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#ifdef LOGSOUND
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error("%lu PSG cycles run\n",psg_cycles_count);
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error("%lu FM cycles run \n",fm_cycles_count);
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#endif
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/* adjust PSG & FM cycle counts for next frame */
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psg_cycles_count -= cycles;
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fm_cycles_count -= cycles;
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#ifdef LOGSOUND
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error("%lu PSG cycles left\n",psg_cycles_count);
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error("%lu FM cycles left\n",fm_cycles_count);
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#endif
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return size;
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}
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/* Reset FM chip */
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void fm_reset(unsigned int cycles)
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{
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fm_update(cycles << 11);
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YM2612ResetChip();
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}
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/* Write FM chip */
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void fm_write(unsigned int cycles, unsigned int address, unsigned int data)
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{
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if (address & 1) fm_update(cycles << 11);
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YM2612Write(address, data);
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}
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/* Read FM status */
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unsigned int fm_read(unsigned int cycles, unsigned int address)
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{
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fm_update(cycles << 11);
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return YM2612Read();
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}
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/* Write PSG chip */
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void psg_write(unsigned int cycles, unsigned int data)
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{
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psg_update(cycles << 11);
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SN76489_Write(data);
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}
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