366 lines
7.7 KiB
C++
366 lines
7.7 KiB
C++
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// DGen v1.29
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <errno.h>
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#include "md.h"
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#include "rc-vars.h"
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// REMEMBER NOT TO USE ANY STATIC variables, because they
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// will exist thoughout ALL megadrives!
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int md::myfm_write(int a, int v, int md)
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{
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int sid = 0;
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int pass = 1;
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(void)md;
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a &= 3;
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sid = ((a & 0x02) >> 1);
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if ((a & 0x01) == 0) {
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fm_sel[sid] = v;
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goto end;
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}
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#ifdef WITH_VGMDUMP
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vgm_dump_ym2612(sid, fm_sel[sid], v);
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#endif
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if (fm_sel[sid] == 0x2a) {
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dac_submit((uint8_t)v);
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pass = 0;
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}
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if (fm_sel[sid] == 0x2b) {
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dac_enable((uint8_t)v);
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pass = 0;
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}
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if (fm_sel[sid] == 0x27) {
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unsigned int now = frame_usecs();
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if ((v & 0x01) && ((fm_reg[0][0x27] & 0x01) == 0)) {
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// load timer A
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fm_ticker[0] = 0;
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fm_ticker[1] = now;
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}
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if ((v & 0x02) && ((fm_reg[0][0x27] & 0x02) == 0)) {
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// load timer B
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fm_ticker[2] = 0;
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fm_ticker[3] = now;
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}
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// (v & 0x04) enable/disable timer A
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// (v & 0x08) enable/disable timer B
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if (v & 0x10) {
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// reset overflow A
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fm_tover &= ~0x01;
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v &= ~0x10;
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fm_reg[0][0x27] &= ~0x10;
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}
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if (v & 0x20) {
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// reset overflow B
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fm_tover &= ~0x02;
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v &= ~0x20;
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fm_reg[0][0x27] &= ~0x20;
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}
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}
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// stash all values
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fm_reg[sid][(fm_sel[sid])] = v;
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end:
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if (pass) {
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YM2612Write(0, a, v);
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if (dgen_mjazz) {
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YM2612Write(1, a, v);
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YM2612Write(2, a, v);
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}
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}
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return 0;
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}
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int md::myfm_read(int a)
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{
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fm_timer_callback();
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return (fm_tover | (YM2612Read(0, (a & 3)) & ~0x03));
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}
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int md::mysn_write(int d)
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{
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#ifdef WITH_VGMDUMP
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vgm_dump_sn76496(d);
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#endif
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SN76496Write(0, d);
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return 0;
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}
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int md::fm_timer_callback()
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{
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// periods in microseconds for timers A and B
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int amax = (18 * (1024 -
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(((fm_reg[0][0x24] << 2) |
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(fm_reg[0][0x25] & 0x03)) & 0x3ff)));
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int bmax = (288 * (256 - (fm_reg[0][0x26] & 0xff)));
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unsigned int now = frame_usecs();
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if ((fm_reg[0][0x27] & 0x01) && ((now - fm_ticker[1]) > 0)) {
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fm_ticker[0] += (now - fm_ticker[1]);
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fm_ticker[1] = now;
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if (fm_ticker[0] >= amax) {
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if (fm_reg[0][0x27] & 0x04)
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fm_tover |= 0x01;
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fm_ticker[0] -= amax;
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}
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}
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if ((fm_reg[0][0x27] & 0x02) && ((now - fm_ticker[3]) > 0)) {
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fm_ticker[2] += (now - fm_ticker[3]);
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fm_ticker[3] = now;
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if (fm_ticker[2] >= bmax) {
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if (fm_reg[0][0x27] & 0x08)
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fm_tover |= 0x02;
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fm_ticker[2] -= bmax;
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}
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}
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return 0;
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}
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void md::fm_reset()
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{
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memset(fm_sel, 0, sizeof(fm_sel));
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fm_tover = 0x00;
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memset(fm_ticker, 0, sizeof(fm_ticker));
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memset(fm_reg, 0, sizeof(fm_reg));
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YM2612ResetChip(0);
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if (dgen_mjazz) {
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YM2612ResetChip(1);
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YM2612ResetChip(2);
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}
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SN76496_init(0,
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(((pal) ? PAL_MCLK : NTSC_MCLK) / 15),
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dgen_soundrate, 16);
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}
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void md::dac_init()
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{
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dac_enabled = true;
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dac_len = 0;
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#ifndef NDEBUG
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memset(dac_data, 0xff, sizeof(dac_data));
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#endif
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}
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static const struct {
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unsigned int samples;
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unsigned int usecs;
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} per_frame[2] = {
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{ (44100 / 60), (1000000 / 60) },
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{ (44100 / 50), (1000000 / 50) },
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};
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void md::dac_submit(uint8_t d)
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{
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unsigned int usecs;
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unsigned int index;
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unsigned int i;
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if (!dac_enabled)
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return;
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if (dac_len == elemof(dac_data))
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return;
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usecs = frame_usecs();
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index = ((usecs << 10) /
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((per_frame[pal].usecs << 10) /
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elemof(dac_data)));
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if (index >= elemof(dac_data))
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return;
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dac_data[index] = d;
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if (dac_len)
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d = dac_data[dac_len - 1];
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for (i = dac_len; (i < index); ++i)
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dac_data[i] = d;
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dac_len = (index + 1);
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}
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void md::dac_enable(uint8_t d)
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{
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dac_enabled = ((d & 0x80) >> 7);
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}
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#ifdef WITH_VGMDUMP
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void md::vgm_dump_ym2612(uint8_t a1, uint8_t reg, uint8_t data)
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{
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if (vgm_dump) {
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uint8_t buf[] = { (uint8_t)(0x52 + a1), reg, data };
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fwrite(buf, sizeof(buf), 1, vgm_dump_file);
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if ((a1 == 0) && (reg == 0x2a)) {
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unsigned int usecs = frame_usecs();
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unsigned int samples;
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unsigned int diff;
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if (usecs > per_frame[pal].usecs)
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usecs = per_frame[pal].usecs;
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samples = ((usecs *
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((per_frame[pal].samples << 20) /
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per_frame[pal].usecs)) >> 20);
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diff = (samples - vgm_dump_dac_samples);
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if ((diff > 0) && (diff <= 16)) {
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fputc((0x70 + (diff - 1)), vgm_dump_file);
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vgm_dump_dac_wait += diff;
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}
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vgm_dump_dac_samples = samples;
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}
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}
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}
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void md::vgm_dump_sn76496(uint8_t data)
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{
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if (vgm_dump) {
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uint8_t buf[] = { 0x50, data };
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fwrite(buf, sizeof(buf), 1, vgm_dump_file);
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}
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}
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void md::vgm_dump_frame()
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{
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unsigned int max = per_frame[pal].samples;
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if (!vgm_dump)
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return;
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if (vgm_dump_dac_wait < max) {
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uint8_t buf[] = { 0x61, 0x00, 0x00 };
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uint16_t tmp = h2le16(max - vgm_dump_dac_wait);
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memcpy(&buf[1], &tmp, sizeof(tmp));
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fwrite(buf, sizeof(buf), 1, vgm_dump_file);
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}
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vgm_dump_samples_total += max;
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vgm_dump_dac_wait = 0;
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vgm_dump_dac_samples = 0;
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}
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// Generate VGM 1.70 header as defined by:
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// http://www.smspower.org/uploads/Music/vgmspec170.txt
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int md::vgm_dump_start(const char *name)
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{
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uint8_t ym2612_buf[0x200];
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uint8_t buf[0x100] = { 0 };
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union {
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uint32_t u32;
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uint16_t u16;
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} tmp;
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unsigned int i;
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int err;
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if (vgm_dump == true)
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vgm_dump_stop();
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vgm_dump_file = dgen_fopen("vgm", name, DGEN_WRITE);
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if (vgm_dump_file == NULL)
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return -1;
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// 0x00: file identifier.
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memcpy(&buf[0x00], "Vgm ", 4);
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// 0x04: EoF offset. Not known yet.
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// 0x08: version number (1.70).
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tmp.u32 = 0x0170;
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memcpy(&buf[0x08], &tmp.u32, 4);
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// 0x0c: SN76489 (PSG) clock.
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tmp.u32 = h2le32(clk0);
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memcpy(&buf[0x0c], &tmp.u32, 4);
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// 0x18: total # samples. Not known yet.
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// 0x24: rate.
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tmp.u32 = h2le32(vhz);
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memcpy(&buf[0x24], &tmp.u32, 4);
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// 0x28: SN76489 (PSG) feedback.
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tmp.u16 = h2le16(0x0009);
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memcpy(&buf[0x28], &tmp.u16, 2);
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// 0x2a: SN76489 shift register width.
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buf[0x2a] = 16;
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// 0x2b: SN76489 flags.
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buf[0x2b] = 0x00;
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// 0x2c: YM2612 clock.
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tmp.u32 = h2le32(clk1);
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memcpy(&buf[0x2c], &tmp.u32, 4);
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// 0x34: VGM data offset.
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tmp.u32 = h2le32(sizeof(buf) - 0x34);
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memcpy(&buf[0x34], &tmp.u32, 4);
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// Dump VGM header.
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if (fwrite(buf, sizeof(buf), 1, vgm_dump_file) != 1)
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goto error;
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// Dump YM2612 registers directly.
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YM2612_dump(0, ym2612_buf);
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// Timers.
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{
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uint8_t buf[] = {
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0x52, 0x24, (uint8_t)fm_reg[0][0x24],
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0x52, 0x25, (uint8_t)fm_reg[0][0x25],
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0x52, 0x26, (uint8_t)fm_reg[0][0x26],
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0x52, 0x27, (uint8_t)fm_reg[0][0x27],
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};
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if (fwrite(buf, sizeof(buf), 1, vgm_dump_file) != 1)
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goto error;
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}
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// DAC.
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{
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uint8_t buf[] = { 0x52, 0x2b, (uint8_t)(dac_enabled << 7) };
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if (fwrite(buf, sizeof(buf), 1, vgm_dump_file) != 1)
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goto error;
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}
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// FM CH1-CH3.
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for (i = 0x30; (i != 0x9e); ++i) {
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uint8_t buf[] = {
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0x52, (uint8_t)i, ym2612_buf[i],
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0x53, (uint8_t)i, ym2612_buf[i | 0x100],
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};
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if (fwrite(buf, sizeof(buf), 1, vgm_dump_file) != 1)
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goto error;
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}
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// FM CH4-CH6.
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for (i = 0xb0; (i != 0xb6); ++i) {
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uint8_t buf[] = {
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0x52, (uint8_t)i, ym2612_buf[i],
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0x53, (uint8_t)i, ym2612_buf[i | 0x100],
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};
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if (fwrite(buf, sizeof(buf), 1, vgm_dump_file) != 1)
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goto error;
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}
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vgm_dump_samples_total = 0;
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vgm_dump_dac_wait = 0;
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vgm_dump_dac_samples = 0;
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vgm_dump = true;
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return 0;
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error:
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err = errno;
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fclose(vgm_dump_file);
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vgm_dump_file = NULL;
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errno = err;
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return -1;
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}
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void md::vgm_dump_stop()
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{
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long pos;
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uint32_t tmp;
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if (!vgm_dump)
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return;
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// Append end of sound data.
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fputc(0x66, vgm_dump_file);
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pos = ftell(vgm_dump_file);
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// Fill EoF offset.
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fseek(vgm_dump_file, 0x04, SEEK_SET);
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tmp = h2le32(pos - 4);
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fwrite(&tmp, sizeof(tmp), 1, vgm_dump_file);
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// Fill total number of samples.
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fseek(vgm_dump_file, 0x18, SEEK_SET);
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tmp = h2le32(vgm_dump_samples_total);
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fwrite(&tmp, sizeof(tmp), 1, vgm_dump_file);
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fclose(vgm_dump_file);
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vgm_dump_file = NULL;
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vgm_dump_samples_total = 0;
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vgm_dump_dac_wait = 0;
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vgm_dump_dac_samples = 0;
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vgm_dump = false;
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}
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#endif // WITH_VGMDUMP
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