Mercurial > repos > blastem
view vgmsplit.c @ 2462:3b1b7b272311
Save SR before saving result in test generator. Move instructions update flags on 68K
author | Michael Pavone <pavone@retrodev.com> |
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date | Fri, 23 Feb 2024 23:08:45 -0800 |
parents | 215b5dabbc20 |
children |
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/* Copyright 2015 Michael Pavone This file is part of BlastEm. BlastEm is free software distributed under the terms of the GNU General Public License version 3 or greater. See COPYING for full license text. */ #include "ym2612.h" #include "vgm.h" #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #define OUT_CHANNELS 10 #define DAC_CHANNEL 5 #define PSG_BASE 6 #define SAMPLE_THRESHOLD 100 uint32_t total_delay; void accum_wait(uint32_t *delays, uint32_t samples) { total_delay += samples; for (int i = 0; i < OUT_CHANNELS; i++) { delays[i] += samples; } } void write_wait(uint8_t **out_buffer, uint32_t *delay) { while (*delay >= 65535) { *((*out_buffer)++) = CMD_WAIT; *((*out_buffer)++) = 0xFF; *((*out_buffer)++) = 0xFF; *delay -= 65535; } if (*delay) { if (*delay == 735) { *((*out_buffer)++) = CMD_WAIT_60; } else if (*delay > 735 && *delay <= 751) { *((*out_buffer)++) = CMD_WAIT_60; *((*out_buffer)++) = CMD_WAIT_SHORT + *delay - 736; } else if (*delay == 882) { *((*out_buffer)++) = CMD_WAIT_50; } else if (*delay > 882 && *delay <= 898) { *((*out_buffer)++) = CMD_WAIT_50; *((*out_buffer)++) = CMD_WAIT_SHORT + *delay - 882; } else if (*delay <= 16) { *((*out_buffer)++) = CMD_WAIT_SHORT + *delay - 1; } else { *((*out_buffer)++) = CMD_WAIT; *((*out_buffer)++) = *delay; *((*out_buffer)++) = *delay >> 8; } *delay = 0; } } int main(int argc, char ** argv) { data_block *blocks = NULL; data_block *seek_block = NULL; uint32_t seek_offset; uint32_t block_offset; FILE * f = fopen(argv[1], "rb"); vgm_header header; size_t bytes = fread(&header, 1, sizeof(header), f); if (bytes != sizeof(header)) { fputs("Error reading file\n", stderr); exit(1); } if (header.version < 0x150 || !header.data_offset) { header.data_offset = 0xC; } fseek(f, header.data_offset + 0x34, SEEK_SET); uint32_t data_size = header.eof_offset + 4 - (header.data_offset + 0x34); uint8_t * data = malloc(data_size); data_size = fread(data, 1, data_size, f); fclose(f); uint8_t *buffers[OUT_CHANNELS]; uint8_t *out_pos[OUT_CHANNELS]; uint8_t has_real_data[OUT_CHANNELS]; uint32_t delay[OUT_CHANNELS]; buffers[0] = malloc(data_size * OUT_CHANNELS); out_pos[0] = buffers[0]; has_real_data[0] = 0; delay[0] = 0; for (int i = 1; i < OUT_CHANNELS; i++) { buffers[i] = buffers[i-1] + data_size; out_pos[i] = buffers[i]; has_real_data[i] = 0; delay[i] = 0; } uint8_t * end = data + data_size; uint8_t * cur = data; uint32_t current_cycle = 0; uint8_t psg_latch = 0; uint8_t param,reg; uint8_t channel; uint32_t sample_count = 0; uint8_t last_cmd; while (cur < end) { uint8_t cmd = *(cur++); switch(cmd) { case CMD_PSG_STEREO: //ignore for now cur++; break; case CMD_PSG: param = *(cur++); if (param & 0x80) { psg_latch = param; channel = param >> 5 & 3; } else { channel = psg_latch >> 5 & 3; } write_wait(out_pos + PSG_BASE+channel, delay + PSG_BASE+channel); *(out_pos[PSG_BASE+channel]++) = cmd; *(out_pos[PSG_BASE+channel]++) = param; has_real_data[PSG_BASE+channel] = 1; break; case CMD_YM2612_0: reg = *(cur++); param = *(cur++); if (reg < REG_KEY_ONOFF) { for (int i = 0; i < 6; i++) { write_wait(out_pos + i, delay + i); *(out_pos[i]++) = cmd; *(out_pos[i]++) = reg; *(out_pos[i]++) = param; } break; } else if(reg == REG_DAC || reg == REG_DAC_ENABLE) { if (reg == REG_DAC) { sample_count++; } channel = DAC_CHANNEL; } else if(reg == REG_KEY_ONOFF) { channel = param & 7; if (channel > 2) { channel--; } if (param & 0xF0) { has_real_data[channel] = 1; } } else if (reg >= REG_FNUM_LOW_CH3 && reg < REG_ALG_FEEDBACK) { channel = 2; } else { channel = 255; } case CMD_YM2612_1: if (cmd == CMD_YM2612_1) { reg = *(cur++); param = *(cur++); channel = 255; } if (channel >= PSG_BASE) { if (reg >= REG_DETUNE_MULT && reg < REG_FNUM_LOW) { channel = (cmd == CMD_YM2612_0 ? 0 : 3) + (reg & 0xC >> 2); } else if ((reg >= REG_FNUM_LOW && reg < REG_FNUM_LOW_CH3) || (reg >= REG_ALG_FEEDBACK && reg < 0xC0)) { channel = (cmd == CMD_YM2612_0 ? 0 : 3) + (reg & 0x3); } else { fprintf(stderr, "WARNING: Skipping nrecognized write to register %X on part %d\n", reg, (cmd == CMD_YM2612_0 ? 1 : 2)); } } if (channel < PSG_BASE) { write_wait(out_pos + channel, delay + channel); *(out_pos[channel]++) = cmd; *(out_pos[channel]++) = reg; *(out_pos[channel]++) = param; } break; case CMD_WAIT: { uint32_t wait_time = *(cur++); wait_time |= *(cur++) << 8; accum_wait(delay, wait_time); break; } case CMD_WAIT_60: accum_wait(delay, 735); break; case CMD_WAIT_50: accum_wait(delay, 882); break; case CMD_END: for (int i = 0; i < OUT_CHANNELS; i++) { write_wait(out_pos + i, delay + i); *(out_pos[i]++) = cmd; } cur = end; break; case CMD_DATA: { uint8_t * start = cur - 1; cur++; //skip compat command uint8_t data_type = *(cur++); uint32_t data_size = *(cur++); data_size |= *(cur++) << 8; data_size |= *(cur++) << 16; data_size |= *(cur++) << 24; if (cur + data_size > end) { data_size = end - cur; } cur += data_size; if (data_type == DATA_YM2612_PCM) { write_wait(out_pos + DAC_CHANNEL, delay + DAC_CHANNEL); memcpy(out_pos[DAC_CHANNEL], start, cur-start); out_pos[DAC_CHANNEL] += cur-start; } else { fprintf(stderr, "WARNING: Skipping data block with unrecognized type %X\n", data_type); } break; } case CMD_DATA_SEEK: { write_wait(out_pos + DAC_CHANNEL, delay + DAC_CHANNEL); memcpy(out_pos[DAC_CHANNEL], cur-1, 5); out_pos[DAC_CHANNEL] += 5; cur += 4; break; } default: if (cmd >= CMD_WAIT_SHORT && cmd < (CMD_WAIT_SHORT + 0x10)) { accum_wait(delay, (cmd & 0xF) + 1); } else if (cmd >= CMD_YM2612_DAC && cmd < CMD_DAC_STREAM_SETUP) { write_wait(out_pos + DAC_CHANNEL, delay + DAC_CHANNEL); *(out_pos[DAC_CHANNEL]++) = cmd; for (int i = 0; i < OUT_CHANNELS; i++) { if (i != DAC_CHANNEL) { delay[i] += cmd & 0xF; } } sample_count++; } else { fprintf(stderr, "unimplemented command: %X at offset %X, last valid command was %X\n", cmd, (unsigned int)(cur - data - 1), last_cmd); exit(1); } } last_cmd = cmd; } if (sample_count > SAMPLE_THRESHOLD) { has_real_data[DAC_CHANNEL] = 1; } for (int i = 0; i < OUT_CHANNELS; i++) { if (has_real_data[i]) { char fname[11]; sprintf(fname, i < PSG_BASE ? "ym_%d.vgm" : "psg_%d.vgm", i < PSG_BASE ? i : i - PSG_BASE); f = fopen(fname, "wb"); if (!f) { fprintf(stderr, "Failed to open %s for writing\n", fname); exit(1); } data_size = out_pos[i] - buffers[i]; header.eof_offset = (header.data_offset + 0x34) + data_size - 4; header.gd3_offset = 0; fwrite(&header, 1, sizeof(header), f); fseek(f, header.data_offset + 0x34, SEEK_SET); fwrite(buffers[i], 1, data_size, f); fclose(f); } } printf("total_delay: %d\n", total_delay); return 0; }