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base: paoda:5f3be3f2f52d08f4198ec1a52570c2ea38ce4aad
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paoda:main paoda:paoda/upgrade paoda:april-fools paoda:window paoda:apu-things
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compare: paoda:apu-things
Branches Tags
paoda:paoda/upgrade paoda:main paoda:april-fools paoda:window paoda:apu-things

3 Commits
5f3be3f2f5 ... apu-things

Author SHA1 Message Date
Rekai Musuka
2f2c03b96d chore: add test for RingBuffer 2022-12-10 01:02:59 -04:00
Rekai Musuka
9a2b7a48c0 tmp: removed audio resampler 2022-12-09 22:16:51 -04:00
Rekai Musuka
fe908a6ea9 feat(util): implement RingBuffer 2022-12-09 22:16:51 -04:00
4 changed files with 135 additions and 49 deletions
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39
src/core/apu.zig
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@@ -15,12 +15,10 @@ const SoundFifo = std.fifo.LinearFifo(u8, .{ .Static = 0x20 });
const getHalf = util.getHalf; const getHalf = util.getHalf;
const setHalf = util.setHalf; const setHalf = util.setHalf;
const intToBytes = util.intToBytes; const intToBytes = util.intToBytes;
const RingBuffer = util.RingBuffer;
const log = std.log.scoped(.APU); const log = std.log.scoped(.APU);
pub const host_rate = @import("../platform.zig").sample_rate;
pub const host_format = @import("../platform.zig").sample_format;
pub fn read(comptime T: type, apu: *const Apu, addr: u32) ?T { pub fn read(comptime T: type, apu: *const Apu, addr: u32) ?T {
const byte_addr = @truncate(u8, addr); const byte_addr = @truncate(u8, addr);
@@ -246,17 +244,20 @@ pub const Apu = struct {
sampling_cycle: u2, sampling_cycle: u2,
stream: *SDL.SDL_AudioStream, sample_queue: RingBuffer(u16),
sched: *Scheduler, sched: *Scheduler,
fs: FrameSequencer, fs: FrameSequencer,
capacitor: f32, capacitor: f32,
is_buffer_full: bool,
pub const Tick = enum { Length, Envelope, Sweep }; pub const Tick = enum { Length, Envelope, Sweep };
pub fn init(sched: *Scheduler) Self { pub fn init(sched: *Scheduler) Self {
const NUM_CHANNELS: usize = 2;
const allocator = std.heap.c_allocator;
const sample_buf = allocator.alloc(u16, 0x800 * NUM_CHANNELS) catch @panic("failed to allocate sample buffer");
const apu: Self = .{ const apu: Self = .{
.ch1 = ToneSweep.init(sched), .ch1 = ToneSweep.init(sched),
.ch2 = Tone.init(sched), .ch2 = Tone.init(sched),
@@ -271,12 +272,11 @@ pub const Apu = struct {
.bias = .{ .raw = 0x0200 }, .bias = .{ .raw = 0x0200 },
.sampling_cycle = 0b00, .sampling_cycle = 0b00,
.stream = SDL.SDL_NewAudioStream(SDL.AUDIO_U16, 2, 1 << 15, host_format, 2, host_rate).?, .sample_queue = RingBuffer(u16).init(sample_buf),
.sched = sched, .sched = sched,
.capacitor = 0, .capacitor = 0,
.fs = FrameSequencer.init(), .fs = FrameSequencer.init(),
.is_buffer_full = false,
}; };
sched.push(.SampleAudio, apu.interval()); sched.push(.SampleAudio, apu.interval());
@@ -370,11 +370,6 @@ pub const Apu = struct {
pub fn sampleAudio(self: *Self, late: u64) void { pub fn sampleAudio(self: *Self, late: u64) void {
self.sched.push(.SampleAudio, self.interval() -| late); self.sched.push(.SampleAudio, self.interval() -| late);
// Whether the APU is busy or not is determined by the main loop in emu.zig
// This should only ever be true (because this side of the emu is single threaded)
// When audio sync is disaabled
if (self.is_buffer_full) return;
var left: i16 = 0; var left: i16 = 0;
var right: i16 = 0; var right: i16 = 0;
@@ -430,23 +425,7 @@ pub const Apu = struct {
const ext_left = (clamped_left << 5) | (clamped_left >> 6); const ext_left = (clamped_left << 5) | (clamped_left >> 6);
const ext_right = (clamped_right << 5) | (clamped_right >> 6); const ext_right = (clamped_right << 5) | (clamped_right >> 6);
if (self.sampling_cycle != self.bias.sampling_cycle.read()) self.replaceSDLResampler(); self.sample_queue.push(ext_left, ext_right) catch {};
_ = SDL.SDL_AudioStreamPut(self.stream, &[2]u16{ ext_left, ext_right }, 2 * @sizeOf(u16));
}
fn replaceSDLResampler(self: *Self) void {
@setCold(true);
const sample_rate = Self.sampleRate(self.bias.sampling_cycle.read());
log.info("Sample Rate changed from {}Hz to {}Hz", .{ Self.sampleRate(self.sampling_cycle), sample_rate });
// Sampling Cycle (Sample Rate) changed, Craete a new SDL Audio Resampler
// FIXME: Replace SDL's Audio Resampler with either a custom or more reliable one
const old_stream = self.stream;
defer SDL.SDL_FreeAudioStream(old_stream);
self.sampling_cycle = self.bias.sampling_cycle.read();
self.stream = SDL.SDL_NewAudioStream(SDL.AUDIO_U16, 2, @intCast(c_int, sample_rate), host_format, 2, host_rate).?;
} }
fn interval(self: *const Self) u64 { fn interval(self: *const Self) u64 {

24
src/core/emu.zig
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@@ -5,6 +5,7 @@ const config = @import("../config.zig");
const Scheduler = @import("scheduler.zig").Scheduler; const Scheduler = @import("scheduler.zig").Scheduler;
const Arm7tdmi = @import("cpu.zig").Arm7tdmi; const Arm7tdmi = @import("cpu.zig").Arm7tdmi;
const FpsTracker = @import("../util.zig").FpsTracker; const FpsTracker = @import("../util.zig").FpsTracker;
const RingBuffer = @import("../util.zig").RingBuffer;
const Timer = std.time.Timer; const Timer = std.time.Timer;
const Atomic = std.atomic.Atomic; const Atomic = std.atomic.Atomic;
@@ -58,7 +59,7 @@ fn inner(comptime kind: RunKind, audio_sync: bool, quit: *Atomic(bool), schedule
while (!quit.load(.Monotonic)) { while (!quit.load(.Monotonic)) {
runFrame(scheduler, cpu); runFrame(scheduler, cpu);
audioSync(audio_sync, cpu.bus.apu.stream, &cpu.bus.apu.is_buffer_full); audioSync(audio_sync, &cpu.bus.apu.sample_queue);
if (kind == .UnlimitedFPS) tracker.?.tick(); if (kind == .UnlimitedFPS) tracker.?.tick();
} }
@@ -77,7 +78,7 @@ fn inner(comptime kind: RunKind, audio_sync: bool, quit: *Atomic(bool), schedule
// the amount of time needed for audio to catch up rather than // the amount of time needed for audio to catch up rather than
// our expected wake-up time // our expected wake-up time
audioSync(audio_sync, cpu.bus.apu.stream, &cpu.bus.apu.is_buffer_full); audioSync(audio_sync, &cpu.bus.apu.sample_queue);
if (!audio_sync) spinLoop(&timer, wake_time); if (!audio_sync) spinLoop(&timer, wake_time);
wake_time = new_wake_time; wake_time = new_wake_time;
@@ -104,22 +105,13 @@ pub fn runFrame(sched: *Scheduler, cpu: *Arm7tdmi) void {
} }
} }
fn audioSync(audio_sync: bool, stream: *SDL.SDL_AudioStream, is_buffer_full: *bool) void { fn audioSync(audio_sync: bool, sample_queue: *RingBuffer(u16)) void {
comptime std.debug.assert(@import("../platform.zig").sample_format == SDL.AUDIO_U16); comptime std.debug.assert(@import("../platform.zig").sample_format == SDL.AUDIO_U16);
const sample_size = 2 * @sizeOf(u16); // const sample_size = 2 * @sizeOf(u16);
const max_buf_size: c_int = 0x400; // const max_buf_size: c_int = 0x400;
// Determine whether the APU is busy right at this moment _ = audio_sync;
var still_full: bool = SDL.SDL_AudioStreamAvailable(stream) > sample_size * if (is_buffer_full.*) max_buf_size >> 1 else max_buf_size; _ = sample_queue;
defer is_buffer_full.* = still_full; // Update APU Busy status right before exiting scope
// If Busy is false, there's no need to sync here
if (!still_full) return;
while (true) {
still_full = SDL.SDL_AudioStreamAvailable(stream) > sample_size * max_buf_size >> 1;
if (!audio_sync or !still_full) break;
}
} }
fn videoSync(timer: *Timer, wake_time: u64) u64 { fn videoSync(timer: *Timer, wake_time: u64) u64 {

14
src/platform.zig
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@@ -12,7 +12,7 @@ const FpsTracker = @import("util.zig").FpsTracker;
const gba_width = @import("core/ppu.zig").width; const gba_width = @import("core/ppu.zig").width;
const gba_height = @import("core/ppu.zig").height; const gba_height = @import("core/ppu.zig").height;
pub const sample_rate = 1 << 15; pub const sample_rate = 1 << 16;
pub const sample_format = SDL.AUDIO_U16; pub const sample_format = SDL.AUDIO_U16;
const default_title = "ZBA"; const default_title = "ZBA";
@@ -216,7 +216,7 @@ pub const Gui = struct {
SDL.SDLK_RSHIFT => keyinput.select.set(), SDL.SDLK_RSHIFT => keyinput.select.set(),
SDL.SDLK_i => { SDL.SDLK_i => {
comptime std.debug.assert(sample_format == SDL.AUDIO_U16); comptime std.debug.assert(sample_format == SDL.AUDIO_U16);
log.err("Sample Count: {}", .{@intCast(u32, SDL.SDL_AudioStreamAvailable(cpu.bus.apu.stream)) / (2 * @sizeOf(u16))}); log.err("Sample Count: {}", .{cpu.bus.apu.sample_queue.len() / 2});
}, },
// SDL.SDLK_j => log.err("Scheduler Capacity: {} | Scheduler Event Count: {}", .{ scheduler.queue.capacity(), scheduler.queue.count() }), // SDL.SDLK_j => log.err("Scheduler Capacity: {} | Scheduler Event Count: {}", .{ scheduler.queue.capacity(), scheduler.queue.count() }),
SDL.SDLK_k => {}, SDL.SDLK_k => {},
@@ -299,7 +299,15 @@ const Audio = struct {
const T = *Apu; const T = *Apu;
const apu = @ptrCast(T, @alignCast(@alignOf(T), userdata)); const apu = @ptrCast(T, @alignCast(@alignOf(T), userdata));
_ = SDL.SDL_AudioStreamGet(apu.stream, stream, len); comptime std.debug.assert(sample_format == SDL.AUDIO_U16);
const sample_buf = @ptrCast([*]u16, @alignCast(@alignOf(u16), stream))[0 .. @intCast(u32, len) / @sizeOf(u16)];
var previous: u16 = 0x8000;
for (sample_buf) |*sample| {
if (apu.sample_queue.pop()) |value| previous = value;
sample.* = previous;
}
} }
}; };

107
src/util.zig
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@@ -275,3 +275,110 @@ fn HalfInt(comptime T: type) type {
return std.meta.Int(type_info.Int.signedness, type_info.Int.bits >> 1); return std.meta.Int(type_info.Int.signedness, type_info.Int.bits >> 1);
} }
const Mutex = std.Thread.Mutex;
pub fn RingBuffer(comptime T: type) type {
return struct {
const Self = @This();
const Index = usize;
const max_capacity = (@as(Index, 1) << @typeInfo(Index).Int.bits - 1) - 1; // half the range of index type
const log = std.log.scoped(.RingBuffer);
read: Index,
write: Index,
buf: []T,
mutex: Mutex,
const Error = error{buffer_full};
pub fn init(buf: []T) Self {
std.mem.set(T, buf, 0);
std.debug.assert(std.math.isPowerOfTwo(buf.len)); // capacity must be a power of two
std.debug.assert(buf.len <= max_capacity);
return .{ .read = 0, .write = 0, .buf = buf, .mutex = .{} };
}
pub fn push(self: *Self, left: T, right: T) Error!void {
self.mutex.lock();
defer self.mutex.unlock();
try self._push(left);
self._push(right) catch |e| {
self.write -= 1; // undo the previous write;
return e;
};
}
pub fn pop(self: *Self) ?T {
self.mutex.lock();
defer self.mutex.unlock();
return self._pop();
}
pub fn len(self: *Self) Index {
self.mutex.lock();
defer self.mutex.unlock();
return self._len();
}
fn _push(self: *Self, value: T) Error!void {
if (self.isFull()) return error.buffer_full;
defer self.write += 1;
self.buf[self.mask(self.write)] = value;
}
fn _pop(self: *Self) ?T {
if (self.isEmpty()) return null;
defer self.read += 1;
return self.buf[self.mask(self.read)];
}
fn _len(self: *const Self) Index {
return self.write - self.read;
}
fn isFull(self: *const Self) bool {
return self._len() == self.buf.len;
}
fn isEmpty(self: *const Self) bool {
return self.read == self.write;
}
fn mask(self: *const Self, idx: Index) Index {
return idx & (self.buf.len - 1);
}
};
}
test "RingBuffer" {
const Queue = RingBuffer(u8);
var buf: [4]u8 = undefined;
var queue = Queue.init(&buf);
try queue.push(1, 2);
try std.testing.expectEqual(@as(?u8, 1), queue.pop());
try queue.push(3, 4);
try std.testing.expectError(Queue.Error.buffer_full, queue.push(5, 6));
try std.testing.expectEqual(@as(?u8, 2), queue.pop());
try queue.push(7, 8);
try std.testing.expectEqual(@as(?u8, 3), queue.pop());
try std.testing.expectEqual(@as(?u8, 4), queue.pop());
try std.testing.expectEqual(@as(?u8, 7), queue.pop());
try std.testing.expectEqual(@as(?u8, 8), queue.pop());
try std.testing.expectEqual(@as(?u8, null), queue.pop());
}