mirror of
https://github.com/ekeeke/Genesis-Plus-GX.git
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248 lines
7.6 KiB
C
248 lines
7.6 KiB
C
/***************************************************************************************
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* Genesis Plus 1.2a
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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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* modified by Eke-Eke (compatibility fixes & additional code), GC/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 "samplerate.h"
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#define CLOCK_NTSC 53693175
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#define CLOCK_PAL 53203424
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/* generic functions */
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int (*_YM2612_Write)(unsigned char adr, unsigned char data);
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int (*_YM2612_Read)(void);
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void (*_YM2612_Update)(int **buf, int length);
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int (*_YM2612_Reset)(void);
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/* cycle-accurate samples */
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static double m68cycles_per_sample[2];
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static double z80cycles_per_sample[2];
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/* libsamplerate buffers (max. is 488 cycles per line x 313 lines / 144) */
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static SRC_DATA src_data;
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static float src_in[1061*2];
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static int src_buffer[2][1061];
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/* YM2612 register arrays */
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int fm_reg[2][0x100];
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/* return the number of samples that should have been rendered so far */
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static inline uint32 fm_sample_cnt(uint8 is_z80)
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{
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if (is_z80) return (uint32) ((double)(count_z80 + current_z80 - z80_ICount) / z80cycles_per_sample[0]);
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else return (uint32) ((double) count_m68k / m68cycles_per_sample[0]);
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}
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static inline uint32 psg_sample_cnt(uint8 is_z80)
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{
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if (is_z80) return (uint32) ((double)(count_z80 + current_z80 - z80_ICount) / z80cycles_per_sample[1]);
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else return (uint32) ((double) count_m68k / m68cycles_per_sample[1]);
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}
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/* update FM samples */
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static inline void fm_update()
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{
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if(snd.fm.curStage - snd.fm.lastStage > 0)
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{
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int *tempBuffer[2];
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if (config.hq_fm && !config.fm_core)
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{
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tempBuffer[0] = src_buffer[0] + snd.fm.lastStage;
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tempBuffer[1] = src_buffer[1] + snd.fm.lastStage;
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}
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else
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{
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tempBuffer[0] = snd.fm.buffer[0] + snd.fm.lastStage;
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tempBuffer[1] = snd.fm.buffer[1] + snd.fm.lastStage;
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}
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_YM2612_Update(tempBuffer, snd.fm.curStage - snd.fm.lastStage);
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snd.fm.lastStage = snd.fm.curStage;
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}
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}
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/* update PSG samples */
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static inline void psg_update()
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{
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if(snd.psg.curStage - snd.psg.lastStage > 0)
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{
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int16 *tempBuffer = snd.psg.buffer + snd.psg.lastStage;
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SN76489_Update (0, tempBuffer, snd.psg.curStage - snd.psg.lastStage);
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snd.psg.lastStage = snd.psg.curStage;
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}
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}
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void sound_init(int rate)
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{
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double vclk = (vdp_pal ? (double)CLOCK_PAL : (double)CLOCK_NTSC) / 7.0; /* 68000 and YM2612 clock */
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double zclk = (vdp_pal ? (double)CLOCK_PAL : (double)CLOCK_NTSC) / 15.0; /* Z80 and SN76489 clock */
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/* cycle-accurate FM samples */
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if (config.hq_fm && !config.fm_core)
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{
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m68cycles_per_sample[0] = 144.0;
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z80cycles_per_sample[0] = (144.0 * 7.0) / 15.0;
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/* initialize samplerate converter data */
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src_data.data_in = src_in;
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src_data.data_out = snd.fm.src_out;
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src_data.input_frames = (int)(((double)m68cycles_per_line * (double)lines_per_frame / 144.0) + 0.5);
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src_data.output_frames = rate / vdp_rate;
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src_data.src_ratio = (double)src_data.output_frames / (double)src_data.input_frames;
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}
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else
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{
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m68cycles_per_sample[0] = ((double)m68cycles_per_line * (double)lines_per_frame) / (double) (rate / vdp_rate);
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z80cycles_per_sample[0] = ((double)z80cycles_per_line * (double)lines_per_frame) / (double) (rate / vdp_rate);
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}
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/* cycle-accurate PSG samples */
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m68cycles_per_sample[1] = ((double)m68cycles_per_line * (double)lines_per_frame) / (double) (rate / vdp_rate);
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z80cycles_per_sample[1] = ((double)z80cycles_per_line * (double)lines_per_frame) / (double) (rate / vdp_rate);
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/* initialize sound chips */
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SN76489_Init(0, (int)zclk, rate);
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SN76489_Config(0, MUTE_ALLON, VOL_FULL, FB_SEGAVDP, SRW_SEGAVDP, 0);
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if (config.fm_core)
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{
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_YM2612_Write = YM2612_Write;
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_YM2612_Read = YM2612_Read;
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_YM2612_Update = YM2612_Update;
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_YM2612_Reset = YM2612_Reset;
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YM2612_Init((int)vclk, rate, config.hq_fm);
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}
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else
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{
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_YM2612_Write = YM2612Write;
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_YM2612_Read = YM2612Read;
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_YM2612_Update = YM2612UpdateOne;
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_YM2612_Reset = YM2612ResetChip;
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YM2612Init ((int)vclk, rate);
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}
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}
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void sound_update(void)
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{
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/* finalize sound buffers */
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snd.fm.curStage = (config.hq_fm && !config.fm_core) ? src_data.input_frames : snd.buffer_size;
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snd.psg.curStage = snd.buffer_size;
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/* update last samples (if needed) */
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fm_update();
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psg_update();
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/* Resampling */
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if (config.hq_fm && !config.fm_core)
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{
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double scaled_value ;
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int len = src_data.input_frames;
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/* this is basically libsamplerate "src_int_to_float_array" function, adapted to interlace samples */
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while (len)
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{
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len -- ;
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src_in[len*2] = (float) (src_buffer[0] [len] / (8.0 * 0x10000000));
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src_in[len*2 + 1] = (float) (src_buffer[1] [len] / (8.0 * 0x10000000));
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}
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/* samplerate conversion */
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src_simple (&src_data, (config.hq_fm&1) ? SRC_LINEAR : SRC_SINC_FASTEST, 2);
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/* this is basically libsamplerate "src_float_to_int_array" function, adapted to interlace samples */
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len = snd.buffer_size;
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while (len)
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{
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len -- ;
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scaled_value = snd.fm.src_out[len*2] * (8.0 * 0x10000000);
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if (scaled_value >= (1.0 * 0x7FFFFFFF))
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snd.fm.buffer[0][len] = 0x7fffffff;
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else if (scaled_value <= (-8.0 * 0x10000000))
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snd.fm.buffer[0][len] = -1 - 0x7fffffff;
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else
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snd.fm.buffer[0][len] = (long)scaled_value;
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scaled_value = snd.fm.src_out[len*2+1] * (8.0 * 0x10000000);
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if (scaled_value >= (1.0 * 0x7FFFFFFF))
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snd.fm.buffer[1][len] = 0x7fffffff;
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else if (scaled_value <= (-8.0 * 0x10000000))
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snd.fm.buffer[1][len] = -1 - 0x7fffffff;
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else
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snd.fm.buffer[1][len] = (long)scaled_value;
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}
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}
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/* reset samples count */
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snd.fm.curStage = 0;
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snd.fm.lastStage = 0;
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snd.psg.curStage = 0;
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snd.psg.lastStage = 0;
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}
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/* YM2612 control */
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/* restore FM registers */
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void fm_restore(void)
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{
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int i;
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_YM2612_Reset();
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/* feed all the registers and update internal state */
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for(i = 0; i < 0x100; i++)
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{
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_YM2612_Write(0, i);
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_YM2612_Write(1, fm_reg[0][i]);
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_YM2612_Write(2, i);
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_YM2612_Write(3, fm_reg[1][i]);
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}
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}
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/* write FM chip */
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void fm_write(unsigned int cpu, unsigned int address, unsigned int data)
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{
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if (address & 1)
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{
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snd.fm.curStage = fm_sample_cnt(cpu);
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fm_update();
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}
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_YM2612_Write(address & 3, data);
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}
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/* read FM status */
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unsigned int fm_read(unsigned int cpu, unsigned int address)
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{
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snd.fm.curStage = fm_sample_cnt(cpu);
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fm_update();
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return (_YM2612_Read() & 0xff);
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}
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/* PSG write */
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void psg_write(unsigned int cpu, unsigned int data)
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{
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snd.psg.curStage = psg_sample_cnt(cpu);
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psg_update();
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SN76489_Write(0, data);
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}
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