👕 refactor: extract decoder module

2021-11-12 23:51:56 +00:00 · 2021-11-12 23:51:56 +00:00 · 722821e2c4
parent a98fea30b4
commit 722821e2c4
2 changed files with 168 additions and 69 deletions
--- a/src/decoder.rs
+++ b/src/decoder.rs
@ -0,0 +1,161 @@
 use std::{
 	io::Cursor,
 };
 use anyhow::{
 	anyhow,
 	Result,
 };
 use byteorder::{
 	LittleEndian,
 	ReadBytesExt,
 };
 // This crate flitters between being very convenient and being a type labyrinth.
 use ffmpeg_next::{
 	decoder::Audio as DecodeContext,
 	format::context::Input as DemuxContext,
 	software::resampling::Context as ResamplingContext,
 };
 pub const SAMPLE_RATE: u32 = 48000;
 #[derive (Default)]
 pub struct PcmBuffers {
 	buffers: Vec <Vec <f32>>,
 	// Always points into the first buffer, if any
 	consumer_cursor: usize,
 }
 impl PcmBuffers {
 	pub fn samples_available (&self) -> usize {
 		self.buffers.iter ().map (|b| b.len ()).sum::<usize> () - self.consumer_cursor
 	}
 	#[warn(unused_must_use)]
 	pub fn consume_exact (&mut self, data: &mut [f32]) -> bool {
 		if data.len () > self.samples_available () {
 			return false;
 		}
 		for x in data {
 			if self.consumer_cursor >= self.buffers [0].len () {
 				self.buffers.remove (0);
 				self.consumer_cursor = 0;
 			}
 			*x = self.buffers [0][self.consumer_cursor];
 			self.consumer_cursor += 1;
 		}
 		true
 	}
 	pub fn produce (&mut self, new_buffer: Vec <f32>) {
 		self.buffers.push (new_buffer);
 	}
 	pub fn produce_bytes (&mut self, new_buffer: &[u8]) {
 		let mut b = vec! [0.0f32; new_buffer.len () / 4];
 		let mut rdr = Cursor::new (new_buffer);
 		rdr.read_f32_into::<LittleEndian> (&mut b).unwrap ();
 		self.produce (b);
 	}
 }
 #[derive (Default)]
 pub struct SharedState {
 	pub pcm_buffers: PcmBuffers,
 	pub quit: bool,
 }
 pub struct Decoder {
 	input_ctx: DemuxContext,
 	best_stream_idx: usize,
 	decoder: DecodeContext,
 	resampler: ResamplingContext,
 }
 impl Decoder {
 	pub fn new (filename: &str) -> Result <Self> {
 		let input_ctx = ffmpeg_next::format::input (&filename)?;
 		let stream = input_ctx
 		.streams ()
 		.best (ffmpeg_next::media::Type::Audio)
 		.ok_or_else (|| anyhow! ("can't find good audio stream"))?;
 		let best_stream_idx = stream.index ();
 		let decoder = stream.codec ().decoder ().audio ()?;
 		let resampler = decoder.resampler (
 			ffmpeg_next::util::format::sample::Sample::F32 (
 				ffmpeg_next::util::format::sample::Type::Packed,
 			),
 			ffmpeg_next::util::channel_layout::ChannelLayout::STEREO,
 			48000,
 		)?;
 		Ok (Self {
 			input_ctx,
 			best_stream_idx,
 			decoder,
 			resampler,
 		})
 	}
 	pub fn fill_buffer (&mut self, pcm_buffers: &mut PcmBuffers) -> Result <bool> {
 		match self.resampler.delay () {
 			Some (x) if x.milliseconds > 500 => {
 				// tracing::trace! ("flushing resampler");
 				let mut frame_resampled = ffmpeg_next::util::frame::Audio::empty ();
 				if self.resampler.flush (&mut frame_resampled).is_ok () {
 					pcm_buffers.produce_bytes (frame_resampled.data (0));
 					return Ok (true);
 				}
 				else {
 					// tracing::warn! ("resampler flushed out a zero-length frame?");
 				}
 			},
 			_ => {},
 		}
 		let mut frame_src = ffmpeg_next::util::frame::Audio::empty ();
 		if self.decoder.receive_frame (&mut frame_src).is_ok () {
 			//eprintln! ("decoder.receive_frame");
 			let mut frame_resampled = ffmpeg_next::util::frame::Audio::empty ();
 			self.resampler.run (&frame_src, &mut frame_resampled)?;
 			pcm_buffers.produce_bytes (frame_resampled.data (0));
 			return Ok (true);
 		}
 		//eprintln! ("Decoder is dry, fetching a new packet...");
 		while let Some ((stream, packet)) = self.input_ctx.packets ().next () {
 			if stream.index () == self.best_stream_idx {
 				//eprintln! ("decoder.send_packet");
 				self.decoder.send_packet (&packet)?;
 				return Ok (true);
 			}
 		}
 		//eprintln! ("Decoder ran out of work");
 		if self.resampler.delay ().is_some () {
 			tracing::trace! ("flushing resampler");
 			let mut frame_resampled = ffmpeg_next::util::frame::Audio::empty ();
 			if self.resampler.flush (&mut frame_resampled).is_ok () {
 				//eprintln! ("resampler.flush");
 				pcm_buffers.produce_bytes (frame_resampled.data (0));
 				return Ok (true);
 			}
 		}
 		Ok (false)
 	}
 }
--- a/src/main.rs
+++ b/src/main.rs
@ -1,5 +1,4 @@
 use std::{
 	io::Cursor,
 	sync::{
 		Arc,
 		Condvar,
@ -14,80 +13,21 @@ use std::{
 use anyhow::{
 	anyhow,
 	//bail,
 	Result,
 };
 use byteorder::{
 	LittleEndian,
 	ReadBytesExt,
 };
 use cpal::traits::{
 	DeviceTrait,
 	HostTrait,
 	StreamTrait,
 };
-const SAMPLE_RATE: u32 = 48000;
+mod decoder;
 #[derive (Default)]
 struct PcmBuffers {
 	buffers: Vec <Vec <f32>>,
 	// Always points into the first buffer, if any
 	consumer_cursor: usize,
 }
 impl PcmBuffers {
 	fn samples_available (&self) -> usize {
 		self.buffers.iter ().map (|b| b.len ()).sum::<usize> () - self.consumer_cursor
 	}
 	#[warn(unused_must_use)]
 	fn consume_exact (&mut self, data: &mut [f32]) -> bool {
 		if data.len () > self.samples_available () {
 			return false;
 		}
 		for x in data {
 			if self.consumer_cursor >= self.buffers [0].len () {
 				self.buffers.remove (0);
 				self.consumer_cursor = 0;
 			}
 			*x = self.buffers [0][self.consumer_cursor];
 			self.consumer_cursor += 1;
 		}
 		true
 	}
 	fn produce (&mut self, new_buffer: Vec <f32>) {
 		self.buffers.push (new_buffer);
 	}
 	fn produce_bytes (&mut self, new_buffer: &[u8]) {
 		let mut b = vec! [0.0f32; new_buffer.len () / 4];
 		let mut rdr = Cursor::new (new_buffer);
 		rdr.read_f32_into::<LittleEndian> (&mut b).unwrap ();
 		self.produce (b);
 	}
 }
 fn main () -> Result <()> {
 	#[derive (Default)]
 	struct DecoderState {
 		pcm_buffers: PcmBuffers,
 		quit: bool,
 	}
 	tracing_subscriber::fmt::init ();
 	tracing::error! ("frik");
-	let pair = Arc::new ((Mutex::new (DecoderState::default ()), Condvar::new ()));
+	let pair = Arc::new ((Mutex::new (decoder::SharedState::default ()), Condvar::new ()));
 	let pair2 = Arc::clone (&pair);
 	let pair3 = Arc::clone (&pair);
@ -166,7 +106,7 @@ fn main () -> Result <()> {
 				//eprintln! ("Decoder is dry, fetching a new packet...");
-				'get_packet: while let Some ((stream, packet)) = packets.next () {
+				while let Some ((stream, packet)) = packets.next () {
 					if stream.index () == best_stream_idx {
 						//eprintln! ("decoder.send_packet");
 						decoder.send_packet (&packet)?;
@ -218,7 +158,7 @@ fn main () -> Result <()> {
 	let config = supported_configs_range.next ()
 	.ok_or_else (|| anyhow! ("can't get stereo f32 audio output"))?
-	.with_sample_rate (cpal::SampleRate (SAMPLE_RATE))
+	.with_sample_rate (cpal::SampleRate (decoder::SAMPLE_RATE))
 	.config ();
 	dbg! (config.clone ());
@ -253,13 +193,11 @@ fn main () -> Result <()> {
 			cvar.notify_one ();
 		},
-		move |err| {
+		move |_err| {
 			// react to errors here.
 		},
 	);
 	let mut stream = Some (stream);
 	// sleep (std::time::Duration::from_secs (3 * 60 + 40));
 	tracing::debug! ("Joining decoder thread...");
@ -275,9 +213,9 @@ fn main () -> Result <()> {
 	tracing::debug! ("Joining PCM thread...");
 	let (lock, cvar) = &*pcm_quit2;
-	cvar.wait (lock.lock ().unwrap ());
+	let _ = cvar.wait (lock.lock ().unwrap ()).unwrap ();
-	stream = None;
+	drop (stream);
 	sleep (Duration::from_secs (1));