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4 Commits

Author SHA1 Message Date
Rekai Nyangadzayi Musuka 9e36e86c14 fix(apu): increase accuracy of apu
continuous-integration/drone/push Build is passing Details
Due to this, not all instruments work. This is a regression and will be
fixed in a later commit when presumably the implementation of the APU is
a bit more correct
2021-07-25 17:42:09 -05:00
Rekai Nyangadzayi Musuka 6f6c308d84 fix(apu): implement write guards for Ch1 & Ch1 when disabled 2021-07-18 22:10:32 -05:00
Rekai Nyangadzayi Musuka f429d72882 chore(bus): remove panics in IO bus read/write failures with stderr msgs 2021-07-18 21:52:22 -05:00
Rekai Nyangadzayi Musuka 4fda7587ce chore(main): disable vsync 2021-07-18 21:33:52 -05:00
3 changed files with 291 additions and 137 deletions

View File

@ -127,6 +127,49 @@ impl Apu {
}
}
/// 0xFF26 | NR52 - Sound On/Off
pub(crate) fn set_status(&mut self, byte: u8) {
self.ctrl.enabled = (byte >> 7) & 0x01 == 0x01;
if !self.ctrl.enabled {
self.reset();
}
self.ch1.enabled = self.ctrl.enabled;
self.ch2.enabled = self.ctrl.enabled;
self.ch3.enabled = self.ctrl.enabled;
self.ch4.enabled = self.ctrl.enabled;
}
fn reset(&mut self) {
// TODO: Clear readable sound registers
self.ch1.sweep = Default::default();
self.ch1.duty = Default::default();
self.ch1.envelope = Default::default();
self.ch1.freq_hi = Default::default(); // FIXME: What about frequency low?
self.ch2.duty = Default::default();
self.ch2.envelope = Default::default();
self.ch2.freq_hi = Default::default();
self.ch3.enabled = Default::default();
self.ch3.len = Default::default();
self.ch3.volume = Default::default();
self.ch3.freq_hi = Default::default();
self.ch4.len = Default::default();
self.ch4.envelope = Default::default();
self.ch4.poly = Default::default();
self.ch4.freq = Default::default();
self.ch2 = Default::default();
self.ch3 = Default::default();
self.ch4 = Default::default();
self.ctrl.channel = Default::default();
self.ctrl.output = Default::default();
}
fn clock_length(freq_hi: &FrequencyHigh, length_timer: &mut u16, enabled: &mut bool) {
if freq_hi.idk() && *length_timer > 0 {
*length_timer -= 1;
@ -248,38 +291,56 @@ impl Apu {
#[derive(Debug, Clone, Copy, Default)]
pub(crate) struct SoundControl {
/// 0xFF24 | NR50 - Channel Control
pub(crate) channel: ChannelControl,
channel: ChannelControl,
/// 0xFF25 | NR51 - Selection of Sound output terminal
pub(crate) output: SoundOutput,
output: SoundOutput,
enabled: bool,
}
impl SoundControl {
/// 0xFF26 | NR52 - Sound On/Off
pub(crate) fn status(&self, snd: &Apu) -> u8 {
(self.enabled as u8) << 7
| (snd.ch4.enabled as u8) << 3
| (snd.ch3.enabled as u8) << 2
| (snd.ch2.enabled as u8) << 1
| snd.ch1.enabled as u8
/// 0xFF24 | NR50 - Channel Control
pub(crate) fn channel(&self) -> u8 {
u8::from(self.channel)
}
/// 0xFF24 | NR50 - Channel Control
pub(crate) fn set_channel(&mut self, byte: u8) {
if self.enabled {
self.channel = byte.into();
}
}
/// 0xFF25 | NR51 - Selection of Sound output terminal
pub(crate) fn output(&self) -> u8 {
u8::from(self.output)
}
/// 0xFF25 | NR51 - Selection of Sound output terminal
pub(crate) fn set_output(&mut self, byte: u8) {
if self.enabled {
self.output = byte.into();
}
}
/// 0xFF26 | NR52 - Sound On/Off
pub(crate) fn set_status(&mut self, byte: u8) {
// TODO: Should all channel enabled fields be disabled when this is reset?
self.enabled = (byte >> 7) & 0x01 == 0x01;
pub(crate) fn status(&self, apu: &Apu) -> u8 {
(self.enabled as u8) << 7
| (apu.ch4.enabled as u8) << 3
| (apu.ch3.enabled as u8) << 2
| (apu.ch2.enabled as u8) << 1
| apu.ch1.enabled as u8
}
}
#[derive(Debug, Clone, Copy, Default)]
pub(crate) struct Channel1 {
/// 0xFF10 | NR10 - Channel 1 Sweep Register
pub(crate) sweep: Sweep,
sweep: Sweep,
/// 0xFF11 | NR11 - Channel 1 Sound length / Wave pattern duty
duty: SoundDuty,
/// 0xFF12 | NR12 - Channel 1 Volume Envelope
pub(crate) envelope: VolumeEnvelope,
envelope: VolumeEnvelope,
/// 0xFF13 | NR13 - Channel 1 Frequency low (lower 8 bits only)
freq_lo: u8,
/// 0xFF14 | NR14 - Channel 1 Frequency high
@ -322,56 +383,86 @@ impl Channel1 {
}
}
/// 0xFF10 | NR10 - Channel 1 Sweep Register
pub(crate) fn sweep(&self) -> u8 {
u8::from(self.sweep) | 0x80
}
/// 0xFF10 | NR10 - Channel 1 Sweep Register
pub(crate) fn set_sweep(&mut self, byte: u8) {
if self.enabled {
self.sweep = byte.into()
}
}
/// 0xFF11 | NR11 - Channel 1 Sound length / Wave pattern duty
pub(crate) fn duty(&self) -> u8 {
u8::from(self.duty) & 0xC0 // Only bits 7 and 6 can be read
u8::from(self.duty) | 0x3F
}
/// 0xFF11 | NR11 - Channel 1 Sound length / Wave pattern duty
pub(crate) fn set_duty(&mut self, byte: u8) {
self.duty = byte.into();
self.length_timer = 64 - self.duty.sound_length() as u16;
if self.enabled {
self.duty = byte.into();
self.length_timer = 64 - self.duty.sound_length() as u16;
}
}
/// 0xFF12 | NR12 - Channel 1 Volume Envelope
pub fn envelope(&self) -> u8 {
u8::from(self.envelope)
}
/// 0xFF12 | NR12 - Channel 1 Volume Envelope
pub(crate) fn set_envelope(&mut self, byte: u8) {
if self.enabled {
self.envelope = byte.into()
}
}
/// 0xFF13 | NR13 - Channel 1 Frequency low (lower 8 bits only)
pub(crate) fn set_freq_lo(&mut self, byte: u8) {
self.freq_lo = byte;
if self.enabled {
self.freq_lo = byte;
}
}
/// 0xFF14 | NR14 - Channel 1 Frequency high
pub(crate) fn freq_hi(&self) -> u8 {
u8::from(self.freq_hi) & 0x40 // Only bit 6 is readable
u8::from(self.freq_hi) | 0xBF
}
/// 0xFF14 | NR14 - Channel 1 Frequency high
pub(crate) fn set_freq_hi(&mut self, byte: u8) {
self.freq_hi = byte.into();
if self.enabled {
self.freq_hi = byte.into();
// If this bit is set, a trigger event occurs
if self.freq_hi.initial() {
// Envelope Behaviour during trigger event
self.period_timer = self.envelope.period();
self.current_volume = self.envelope.init_vol();
// If this bit is set, a trigger event occurs
if self.freq_hi.initial() {
// Envelope Behaviour during trigger event
self.period_timer = self.envelope.period();
self.current_volume = self.envelope.init_vol();
// Sweep behaviour during trigger event
self.shadow_freq = self.frequency() & 0x07FF; // Mask should be redundant
self.sweep_timer = if self.sweep.period() != 0 {
self.sweep.period()
} else {
8
};
// Sweep behaviour during trigger event
self.shadow_freq = self.frequency() & 0x07FF; // Mask should be redundant
self.sweep_timer = if self.sweep.period() != 0 {
self.sweep.period()
} else {
8
};
if self.sweep.period() != 0 || self.sweep.shift_count() != 0 {
self.sweep_enabled = true;
}
if self.sweep.period() != 0 || self.sweep.shift_count() != 0 {
self.sweep_enabled = true;
}
if self.sweep.shift_count() != 0 {
let _ = self.calc_sweep_freq();
}
if self.sweep.shift_count() != 0 {
let _ = self.calc_sweep_freq();
}
// Length behaviour during trigger event
if self.length_timer == 0 {
self.length_timer = 64;
// Length behaviour during trigger event
if self.length_timer == 0 {
self.length_timer = 64;
}
}
}
}
@ -410,7 +501,7 @@ pub(crate) struct Channel2 {
/// 0xFF16 | NR21 - Channel 2 Sound length / Wave Pattern Duty
duty: SoundDuty,
/// 0xFF17 | NR22 - Channel 2 Volume ENvelope
pub(crate) envelope: VolumeEnvelope,
envelope: VolumeEnvelope,
/// 0xFF18 | NR23 - Channel 2 Frequency low (lower 8 bits only)
freq_lo: u8,
/// 0xFF19 | NR24 - Channel 2 Frequency high
@ -450,37 +541,55 @@ impl Channel2 {
/// 0xFF16 | NR21 - Channel 2 Sound length / Wave Pattern Duty
pub(crate) fn duty(&self) -> u8 {
u8::from(self.duty) & 0xC0 // Only bits 7 & 6 are readable
u8::from(self.duty) | 0x3F
}
/// 0xFF16 | NR21 - Channel 2 Sound length / Wave Pattern Duty
pub(crate) fn set_duty(&mut self, byte: u8) {
self.duty = byte.into();
self.length_timer = 64 - self.duty.sound_length() as u16;
if self.enabled {
self.duty = byte.into();
self.length_timer = 64 - self.duty.sound_length() as u16;
}
}
/// 0xFF17 | NR22 - Channel 2 Volume ENvelope
pub(crate) fn envelope(&self) -> u8 {
u8::from(self.envelope)
}
/// 0xFF17 | NR22 - Channel 2 Volume ENvelope
pub(crate) fn set_envelope(&mut self, byte: u8) {
if self.enabled {
self.envelope = byte.into()
}
}
/// 0xFF18 | NR23 - Channel 2 Frequency low (lower 8 bits only)
pub(crate) fn set_freq_lo(&mut self, byte: u8) {
self.freq_lo = byte;
if self.enabled {
self.freq_lo = byte;
}
}
/// 0xFF19 | NR24 - Channel 2 Frequency high
pub(crate) fn freq_hi(&self) -> u8 {
u8::from(self.freq_hi) & 0x40 // only bit 6 is readable
u8::from(self.freq_hi) | 0xBF
}
/// 0xFF19 | NR24 - Channel 2 Frequency high
pub(crate) fn set_freq_hi(&mut self, byte: u8) {
self.freq_hi = byte.into();
if self.enabled {
self.freq_hi = byte.into();
if self.freq_hi.initial() {
// Envelope behaviour during trigger event
self.period_timer = self.envelope.period();
self.current_volume = self.envelope.init_vol();
if self.freq_hi.initial() {
// Envelope behaviour during trigger event
self.period_timer = self.envelope.period();
self.current_volume = self.envelope.init_vol();
// Length behaviour during trigger event
if self.length_timer == 0 {
self.length_timer = 64;
// Length behaviour during trigger event
if self.length_timer == 0 {
self.length_timer = 64;
}
}
}
}
@ -512,61 +621,73 @@ pub(crate) struct Channel3 {
}
impl Channel3 {
/// 0xFF1B | NR31 - Sound Length
pub(crate) fn len(&self) -> u8 {
self.len
}
/// 0xFF1B | NR31 - Sound Length
pub(crate) fn set_len(&mut self, byte: u8) {
self.len = byte;
self.length_timer = 256 - self.len as u16;
}
/// 0xFF1D | NR33 - Channel 3 Frequency low (lower 8 bits)
pub(crate) fn set_freq_lo(&mut self, byte: u8) {
self.freq_lo = byte;
}
/// 0xFF1E | NR34 - Channel 3 Frequency high
pub(crate) fn freq_hi(&self) -> u8 {
u8::from(self.freq_hi) & 0x40 // Only bit 6 readable
}
/// 0xFF1E | NR34 - Channel 3 Frequency high
pub(crate) fn set_freq_hi(&mut self, byte: u8) {
self.freq_hi = byte.into();
if self.freq_hi.initial() {
// Length behaviour during trigger event
if self.length_timer == 0 {
self.length_timer = 256;
}
}
}
/// 0xFF1A | NR30 - Channel 3 Sound on/off
pub(crate) fn enabled(&self) -> u8 {
(self.enabled as u8) << 7
((self.enabled as u8) << 7) | 0x7F
}
/// 0xFF1A | NR30 - Channel 3 Sound on/off
pub(crate) fn set_enabled(&mut self, byte: u8) {
self.enabled = (byte >> 7) & 0x01 == 0x01;
}
pub(crate) fn volume(&self) -> u8 {
(self.volume as u8) << 5
/// 0xFF1B | NR31 - Sound Length
pub(crate) fn len(&self) -> u8 {
self.len | 0xFF
}
/// 0xFF1B | NR31 - Sound Length
pub(crate) fn set_len(&mut self, byte: u8) {
if self.enabled {
self.len = byte;
self.length_timer = 256 - self.len as u16;
}
}
/// 0xFF1C | NR32 - Channel 3 Volume
pub(crate) fn volume(&self) -> u8 {
((self.volume as u8) << 5) | 0x9F
}
/// 0xFF1C | NR32 - Channel 3 Volume
pub(crate) fn set_volume(&mut self, byte: u8) {
use Ch3Volume::*;
self.volume = match (byte >> 5) & 0x03 {
0b00 => Mute,
0b01 => Full,
0b10 => Half,
0b11 => Quarter,
_ => unreachable!("{:#04X} is not a valid value for Channel3Volume", byte),
};
if self.enabled {
self.volume = match (byte >> 5) & 0x03 {
0b00 => Mute,
0b01 => Full,
0b10 => Half,
0b11 => Quarter,
_ => unreachable!("{:#04X} is not a valid value for Channel3Volume", byte),
};
}
}
/// 0xFF1D | NR33 - Channel 3 Frequency low (lower 8 bits)
pub(crate) fn set_freq_lo(&mut self, byte: u8) {
if self.enabled {
self.freq_lo = byte;
}
}
/// 0xFF1E | NR34 - Channel 3 Frequency high
pub(crate) fn freq_hi(&self) -> u8 {
u8::from(self.freq_hi) | 0xBF
}
/// 0xFF1E | NR34 - Channel 3 Frequency high
pub(crate) fn set_freq_hi(&mut self, byte: u8) {
if self.enabled {
self.freq_hi = byte.into();
if self.freq_hi.initial() {
// Length behaviour during trigger event
if self.length_timer == 0 {
self.length_timer = 256;
}
}
}
}
fn amplitude(&self) -> f32 {
@ -608,9 +729,9 @@ pub(crate) struct Channel4 {
/// 0xFF20 | NR41 - Channel 4 Sound Length
len: u8,
/// 0xFF21 | NR42 - Channel 4 Volume Envelope
pub(crate) envelope: VolumeEnvelope,
envelope: VolumeEnvelope,
/// 0xFF22 | NR43 - Chanel 4 Polynomial Counter
pub(crate) poly: PolynomialCounter,
poly: PolynomialCounter,
/// 0xFF23 | NR44 - Channel 4 Counter / Consecutive Selector and Restart
freq: Ch4Frequency,
@ -632,36 +753,64 @@ pub(crate) struct Channel4 {
impl Channel4 {
/// 0xFF20 | NR41 - Channel 4 Sound Length
pub(crate) fn len(&self) -> u8 {
self.len & 0x3F
self.len | 0xFF
}
/// 0xFF20 | NR41 - Channel 4 Sound Length
pub(crate) fn set_len(&mut self, byte: u8) {
self.len = byte & 0x3F;
self.length_timer = 256 - self.len as u16;
if self.enabled {
self.len = byte & 0x3F;
self.length_timer = 256 - self.len as u16;
}
}
/// 0xFF21 | NR42 - Channel 4 Volume Envelope
pub(crate) fn envelope(&self) -> u8 {
u8::from(self.envelope)
}
/// 0xFF21 | NR42 - Channel 4 Volume Envelope
pub(crate) fn set_envelope(&mut self, byte: u8) {
if self.enabled {
self.envelope = byte.into()
}
}
/// 0xFF22 | NR43 - Chanel 4 Polynomial Counter
pub(crate) fn poly(&self) -> u8 {
u8::from(self.poly)
}
/// 0xFF22 | NR43 - Chanel 4 Polynomial Counter
pub(crate) fn set_poly(&mut self, byte: u8) {
if self.enabled {
self.poly = byte.into();
}
}
/// 0xFF23 | NR44 - Channel 4 Counter / Consecutive Selector and Restart
pub(crate) fn freq_data(&self) -> u8 {
u8::from(self.freq) & 0x40 // only bit 6 readable
pub(crate) fn frequency(&self) -> u8 {
u8::from(self.freq) | 0xBF
}
/// 0xFF23 | NR44 - Channel 4 Counter / Consecutive Selector and Restart
pub(crate) fn set_freq_data(&mut self, byte: u8) {
self.freq = byte.into();
if self.enabled {
self.freq = byte.into();
if self.freq.initial() {
// Envelope behaviour during trigger event
self.period_timer = self.envelope.period();
self.current_volume = self.envelope.init_vol();
if self.freq.initial() {
// Envelope behaviour during trigger event
self.period_timer = self.envelope.period();
self.current_volume = self.envelope.init_vol();
// Length behaviour during trigger event
if self.length_timer == 0 {
self.length_timer = 64;
// Length behaviour during trigger event
if self.length_timer == 0 {
self.length_timer = 64;
}
// LFSR behaviour during trigger event
self.lf_shift = 0x7FFF;
}
// LFSR behaviour during trigger event
self.lf_shift = 0x7FFF;
}
}

View File

@ -224,23 +224,23 @@ impl BusIo for Bus {
0x06 => self.timer.modulo,
0x07 => self.timer.ctrl.into(),
0x0F => self.interrupt_flag().into(),
0x10 => self.apu.ch1.sweep.into(),
0x10 => self.apu.ch1.sweep(),
0x11 => self.apu.ch1.duty(),
0x12 => self.apu.ch1.envelope.into(),
0x12 => self.apu.ch1.envelope(),
0x14 => self.apu.ch1.freq_hi(),
0x16 => self.apu.ch2.duty(),
0x17 => self.apu.ch2.envelope.into(),
0x17 => self.apu.ch2.envelope(),
0x19 => self.apu.ch2.freq_hi(),
0x1A => self.apu.ch3.enabled(),
0x1B => self.apu.ch3.len(),
0x1C => self.apu.ch3.volume(),
0x1E => self.apu.ch3.freq_hi(),
0x20 => self.apu.ch4.len(),
0x21 => self.apu.ch4.envelope.into(),
0x22 => self.apu.ch4.poly.into(),
0x23 => self.apu.ch4.freq_data(),
0x24 => self.apu.ctrl.channel.into(),
0x25 => self.apu.ctrl.output.into(),
0x21 => self.apu.ch4.envelope(),
0x22 => self.apu.ch4.poly(),
0x23 => self.apu.ch4.frequency(),
0x24 => self.apu.ctrl.channel(),
0x25 => self.apu.ctrl.output(),
0x26 => self.apu.ctrl.status(&self.apu),
0x30..=0x3F => self.apu.ch3.wave_ram[addr as usize - 0xFF30],
0x40 => self.ppu.ctrl.into(),
@ -256,7 +256,10 @@ impl BusIo for Bus {
0x4A => self.ppu.pos.window_y,
0x4B => self.ppu.pos.window_x,
0x4D => 0xFF, // CGB Specific Register
_ => unimplemented!("Unable to read {:#06X} in I/O Registers", addr),
_ => {
eprintln!("Read 0xFF from unused IO register {:#06X}.", addr);
0xFF
}
}
}
0xFF80..=0xFFFE => {
@ -339,13 +342,13 @@ impl BusIo for Bus {
0x06 => self.timer.modulo = byte,
0x07 => self.timer.ctrl = byte.into(),
0x0F => self.set_interrupt_flag(byte),
0x10 => self.apu.ch1.sweep = byte.into(),
0x10 => self.apu.ch1.set_sweep(byte),
0x11 => self.apu.ch1.set_duty(byte),
0x12 => self.apu.ch1.envelope = byte.into(),
0x12 => self.apu.ch1.set_envelope(byte),
0x13 => self.apu.ch1.set_freq_lo(byte),
0x14 => self.apu.ch1.set_freq_hi(byte),
0x16 => self.apu.ch2.set_duty(byte),
0x17 => self.apu.ch2.envelope = byte.into(),
0x17 => self.apu.ch2.set_envelope(byte),
0x18 => self.apu.ch2.set_freq_lo(byte),
0x19 => self.apu.ch2.set_freq_hi(byte),
0x1A => self.apu.ch3.set_enabled(byte),
@ -354,12 +357,12 @@ impl BusIo for Bus {
0x1D => self.apu.ch3.set_freq_lo(byte),
0x1E => self.apu.ch3.set_freq_hi(byte),
0x20 => self.apu.ch4.set_len(byte),
0x21 => self.apu.ch4.envelope = byte.into(),
0x22 => self.apu.ch4.poly = byte.into(),
0x21 => self.apu.ch4.set_envelope(byte),
0x22 => self.apu.ch4.set_poly(byte),
0x23 => self.apu.ch4.set_freq_data(byte),
0x24 => self.apu.ctrl.channel = byte.into(),
0x25 => self.apu.ctrl.output = byte.into(),
0x26 => self.apu.ctrl.set_status(byte), // FIXME: Should we control which bytes are written to here?
0x24 => self.apu.ctrl.set_channel(byte),
0x25 => self.apu.ctrl.set_output(byte),
0x26 => self.apu.set_status(byte),
0x30..=0x3F => self.apu.ch3.wave_ram[addr as usize - 0xFF30] = byte,
0x40 => self.ppu.ctrl = byte.into(),
0x41 => self.ppu.stat.update(byte),
@ -392,8 +395,7 @@ impl BusIo for Bus {
self.boot = None;
}
}
0x7F => {} // Tetris tries to write to this non-existent IO Address
_ => unimplemented!("Unable to write to {:#06X} in I/O Registers", addr),
_ => eprintln!("Wrote {:#04X} to unused IO register {:#06X}.", byte, addr),
};
}
0xFF80..=0xFFFE => {

View File

@ -2,7 +2,7 @@ use anyhow::{anyhow, Result};
use clap::{crate_authors, crate_description, crate_name, crate_version, App, Arg};
use gb::{AudioMPSC, Cycle, Egui, GB_HEIGHT, GB_WIDTH};
use gilrs::Gilrs;
use pixels::{Pixels, SurfaceTexture};
use pixels::{PixelsBuilder, SurfaceTexture};
use rodio::OutputStream;
use std::time::Instant;
use winit::dpi::LogicalSize;
@ -60,7 +60,10 @@ fn main() -> Result<()> {
let size = window.inner_size();
let scale_factor = window.scale_factor();
let surface_texture = SurfaceTexture::new(size.width, size.height, &window);
let pixels = Pixels::new(GB_WIDTH as u32, GB_HEIGHT as u32, surface_texture)?;
let pixels = PixelsBuilder::new(GB_WIDTH as u32, GB_HEIGHT as u32, surface_texture)
.enable_vsync(false)
.build()?;
let egui = Egui::new(size.width, size.height, scale_factor, pixels.context());
(pixels, egui)