Mercurial > repos > blastem
view psg.c @ 1445:349d50930c03
Save and restore Z80 bank register in native save states
| author | Michael Pavone <pavone@retrodev.com> |
|---|---|
| date | Mon, 28 Aug 2017 22:40:33 -0700 |
| parents | 4e5797b3935a |
| children | 9c65819afec3 |
line wrap: on
line source
/* Copyright 2013 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 "psg.h" #include "render.h" #include "blastem.h" #include <string.h> #include <stdlib.h> #include <stdio.h> #include <math.h> void psg_init(psg_context * context, uint32_t sample_rate, uint32_t master_clock, uint32_t clock_div, uint32_t samples_frame, uint32_t lowpass_cutoff) { memset(context, 0, sizeof(*context)); context->audio_buffer = malloc(sizeof(*context->audio_buffer) * samples_frame); context->back_buffer = malloc(sizeof(*context->audio_buffer) * samples_frame); context->clock_inc = clock_div; context->sample_rate = sample_rate; context->samples_frame = samples_frame; double rc = (1.0 / (double)lowpass_cutoff) / (2.0 * M_PI); double dt = 1.0 / ((double)master_clock / (double)clock_div); double alpha = dt / (dt + rc); context->lowpass_alpha = (int32_t)(((double)0x10000) * alpha); psg_adjust_master_clock(context, master_clock); for (int i = 0; i < 4; i++) { context->volume[i] = 0xF; } } void psg_free(psg_context *context) { free(context->audio_buffer); //TODO: Figure out how to make this 100% safe //audio thread could still be using this free(context->back_buffer); free(context); } #define BUFFER_INC_RES 0x40000000UL void psg_adjust_master_clock(psg_context * context, uint32_t master_clock) { uint64_t old_inc = context->buffer_inc; context->buffer_inc = ((BUFFER_INC_RES * (uint64_t)context->sample_rate) / (uint64_t)master_clock) * (uint64_t)context->clock_inc; } void psg_write(psg_context * context, uint8_t value) { if (value & 0x80) { context->latch = value & 0x70; uint8_t channel = value >> 5 & 0x3; if (value & 0x10) { context->volume[channel] = value & 0xF; } else { if (channel == 3) { switch(value & 0x3) { case 0: case 1: case 2: context->counter_load[3] = 0x10 << (value & 0x3); context->noise_use_tone = 0; break; default: context->counter_load[3] = context->counter_load[2]; context->noise_use_tone = 1; } context->noise_type = value & 0x4; context->lsfr = 0x8000; } else { context->counter_load[channel] = (context->counter_load[channel] & 0x3F0) | (value & 0xF); if (channel == 2 && context->noise_use_tone) { context->counter_load[3] = context->counter_load[2]; } } } } else { if (!(context->latch & 0x10)) { uint8_t channel = context->latch >> 5 & 0x3; if (channel != 3) { context->counter_load[channel] = (value << 4 & 0x3F0) | (context->counter_load[channel] & 0xF); if (channel == 2 && context->noise_use_tone) { context->counter_load[3] = context->counter_load[2]; } } } } } #define PSG_VOL_DIV 14 //table shamelessly swiped from PSG doc from smspower.org static int16_t volume_table[16] = { 32767/PSG_VOL_DIV, 26028/PSG_VOL_DIV, 20675/PSG_VOL_DIV, 16422/PSG_VOL_DIV, 13045/PSG_VOL_DIV, 10362/PSG_VOL_DIV, 8231/PSG_VOL_DIV, 6568/PSG_VOL_DIV, 5193/PSG_VOL_DIV, 4125/PSG_VOL_DIV, 3277/PSG_VOL_DIV, 2603/PSG_VOL_DIV, 2067/PSG_VOL_DIV, 1642/PSG_VOL_DIV, 1304/PSG_VOL_DIV, 0 }; void psg_run(psg_context * context, uint32_t cycles) { while (context->cycles < cycles) { for (int i = 0; i < 4; i++) { if (context->counters[i]) { context->counters[i] -= 1; } if (!context->counters[i]) { context->counters[i] = context->counter_load[i]; context->output_state[i] = !context->output_state[i]; if (i == 3 && context->output_state[i]) { context->noise_out = context->lsfr & 1; context->lsfr = (context->lsfr >> 1) | (context->lsfr << 15); if (context->noise_type) { //white noise if (context->lsfr & 0x40) { context->lsfr ^= 0x8000; } } } } } context->last_sample = context->accum; context->accum = 0; for (int i = 0; i < 3; i++) { if (context->output_state[i]) { context->accum += volume_table[context->volume[i]]; } } if (context->noise_out) { context->accum += volume_table[context->volume[3]]; } int32_t tmp = context->accum * context->lowpass_alpha + context->last_sample * (0x10000 - context->lowpass_alpha); context->accum = tmp >> 16; context->buffer_fraction += context->buffer_inc; while (context->buffer_fraction >= BUFFER_INC_RES) { context->buffer_fraction -= BUFFER_INC_RES; int32_t tmp = context->last_sample * ((context->buffer_fraction << 16) / context->buffer_inc); tmp += context->accum * (0x10000 - ((context->buffer_fraction << 16) / context->buffer_inc)); context->audio_buffer[context->buffer_pos++] = tmp >> 16; if (context->buffer_pos == context->samples_frame) { if (!headless) { render_wait_psg(context); } } } context->cycles += context->clock_inc; } } void psg_serialize(psg_context *context, serialize_buffer *buf) { save_int16(buf, context->lsfr); save_buffer16(buf, context->counter_load, 4); save_buffer16(buf, context->counters, 4); save_buffer8(buf, context->volume, 4); uint8_t output_state = context->output_state[0] << 3 | context->output_state[1] << 2 | context->output_state[2] << 1 | context->output_state[3] | context->noise_use_tone << 4; save_int8(buf, output_state); save_int8(buf, context->noise_type); save_int8(buf, context->latch); save_int32(buf, context->cycles); } void psg_deserialize(deserialize_buffer *buf, void *vcontext) { psg_context *context = vcontext; context->lsfr = load_int16(buf); load_buffer16(buf, context->counter_load, 4); load_buffer16(buf, context->counters, 4); load_buffer8(buf, context->volume, 4); uint8_t output_state = load_int8(buf); context->output_state[0] = output_state & 8 >> 3; context->output_state[1] = output_state & 4 >> 2; context->output_state[2] = output_state & 2 >> 1; context->output_state[3] = output_state & 1; context->noise_use_tone = output_state & 0x10 >> 4; context->noise_type = load_int8(buf); context->latch = load_int8(buf); context->cycles = load_int32(buf); }