cpal/examples/feedback.rs

//! Feeds back the input stream directly into the output stream.
//!
//! Assumes that the input and output devices can use the same stream format and that they support
//! the f32 sample format.
//!
//! Uses a delay of `LATENCY_MS` milliseconds in case the default input and output streams are not
//! precisely synchronised.

extern crate cpal;
extern crate failure;

const LATENCY_MS: f32 = 150.0;

fn main() -> Result<(), failure::Error> {
    let event_loop = cpal::EventLoop::new();

    // Default devices.
    let input_device = cpal::default_input_device().expect("failed to get default input device");
    let output_device = cpal::default_output_device().expect("failed to get default output device");
    println!("Using default input device: \"{}\"", input_device.name()?);
    println!("Using default output device: \"{}\"", output_device.name()?);

    // We'll try and use the same format between streams to keep it simple
    let mut format = input_device.default_input_format()?;
    format.data_type = cpal::SampleFormat::F32;

    // Build streams.
    println!("Attempting to build both streams with `{:?}`.", format);
    let input_stream_id = event_loop.build_input_stream(&input_device, &format)?;
    let output_stream_id = event_loop.build_output_stream(&output_device, &format)?;
    println!("Successfully built streams.");

    // Create a delay in case the input and output devices aren't synced.
    let latency_frames = (LATENCY_MS / 1_000.0) * format.sample_rate.0 as f32;
    let latency_samples = latency_frames as usize * format.channels as usize;

    // The channel to share samples.
    let (tx, rx) = std::sync::mpsc::sync_channel(latency_samples * 2);

    // Fill the samples with 0.0 equal to the length of the delay.
    for _ in 0..latency_samples {
        tx.send(0.0)?;
    }

    // Play the streams.
    println!("Starting the input and output streams with `{}` milliseconds of latency.", LATENCY_MS);
    event_loop.play_stream(input_stream_id.clone())?;
    event_loop.play_stream(output_stream_id.clone())?;

    // Run the event loop on a separate thread.
    std::thread::spawn(move || {
        event_loop.run(move |id, result| {
            let data = match result {
                Ok(data) => data,
                Err(err) => {
                    eprintln!("an error occurred on stream {:?}: {}", id, err);
                    return;
                }
            };

            match data {
                cpal::StreamData::Input { buffer: cpal::UnknownTypeInputBuffer::F32(buffer) } => {
                    assert_eq!(id, input_stream_id);
                    let mut output_fell_behind = false;
                    for &sample in buffer.iter() {
                        if tx.try_send(sample).is_err() {
                            output_fell_behind = true;
                        }
                    }
                    if output_fell_behind {
                        eprintln!("output stream fell behind: try increasing latency");
                    }
                },
                cpal::StreamData::Output { buffer: cpal::UnknownTypeOutputBuffer::F32(mut buffer) } => {
                    assert_eq!(id, output_stream_id);
                    let mut input_fell_behind = None;
                    for sample in buffer.iter_mut() {
                        *sample = match rx.try_recv() {
                            Ok(s) => s,
                            Err(err) => {
                                input_fell_behind = Some(err);
                                0.0
                            },
                        };
                    }
                    if let Some(err) = input_fell_behind {
                        eprintln!("input stream fell behind: {}: try increasing latency", err);
                    }
                },
                _ => panic!("we're expecting f32 data"),
            }
        });
    });

    // Run for 3 seconds before closing.
    println!("Playing for 3 seconds... ");
    std::thread::sleep(std::time::Duration::from_secs(3));
    println!("Done!");
    Ok(())
}
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00			`//! Feeds back the input stream directly into the output stream.`
			`//!`
			`//! Assumes that the input and output devices can use the same stream format and that they support`
			`//! the f32 sample format.`
			`//!`
			//! Uses a delay of `LATENCY_MS` milliseconds in case the default input and output streams are not
			`//! precisely synchronised.`

			`extern crate cpal;`
Update examples to use std Termination 2019-06-21 12:55:21 +00:00			`extern crate failure;`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00
			`const LATENCY_MS: f32 = 150.0;`

Update examples to use std Termination 2019-06-21 12:55:21 +00:00			`fn main() -> Result<(), failure::Error> {`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00			`let event_loop = cpal::EventLoop::new();`

			`// Default devices.`
Update examples to use std Termination 2019-06-21 12:55:21 +00:00			`let input_device = cpal::default_input_device().expect("failed to get default input device");`
			`let output_device = cpal::default_output_device().expect("failed to get default output device");`
			`println!("Using default input device: \"{}\"", input_device.name()?);`
			`println!("Using default output device: \"{}\"", output_device.name()?);`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00
			`// We'll try and use the same format between streams to keep it simple`
Update examples to use std Termination 2019-06-21 12:55:21 +00:00			`let mut format = input_device.default_input_format()?;`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00			`format.data_type = cpal::SampleFormat::F32;`

			`// Build streams.`
			println!("Attempting to build both streams with `{:?}`.", format);
Update examples to use std Termination 2019-06-21 12:55:21 +00:00			`let input_stream_id = event_loop.build_input_stream(&input_device, &format)?;`
			`let output_stream_id = event_loop.build_output_stream(&output_device, &format)?;`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00			`println!("Successfully built streams.");`

			`// Create a delay in case the input and output devices aren't synced.`
			`let latency_frames = (LATENCY_MS / 1_000.0) * format.sample_rate.0 as f32;`
			`let latency_samples = latency_frames as usize * format.channels as usize;`

			`// The channel to share samples.`
			`let (tx, rx) = std::sync::mpsc::sync_channel(latency_samples * 2);`

			`// Fill the samples with 0.0 equal to the length of the delay.`
			`for _ in 0..latency_samples {`
Update examples to use std Termination 2019-06-21 12:55:21 +00:00			`tx.send(0.0)?;`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00			`}`

			`// Play the streams.`
			println!("Starting the input and output streams with `{}` milliseconds of latency.", LATENCY_MS);
Update examples to use std Termination 2019-06-21 12:55:21 +00:00			`event_loop.play_stream(input_stream_id.clone())?;`
			`event_loop.play_stream(output_stream_id.clone())?;`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00
			`// Run the event loop on a separate thread.`
			`std::thread::spawn(move \|\| {`
Remove `StreamEvent` in favour of `StreamDataResult` 2019-06-24 18:43:27 +00:00			`event_loop.run(move \|id, result\| {`
			`let data = match result {`
			`Ok(data) => data,`
			`Err(err) => {`
Update examples eprintln to more accurately reflect error 2019-06-24 18:57:01 +00:00			`eprintln!("an error occurred on stream {:?}: {}", id, err);`
Update examples for addition of new StreamEvent API 2019-06-21 22:10:40 +00:00			`return;`
			`}`
			`};`

Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00			`match data {`
			`cpal::StreamData::Input { buffer: cpal::UnknownTypeInputBuffer::F32(buffer) } => {`
			`assert_eq!(id, input_stream_id);`
			`let mut output_fell_behind = false;`
			`for &sample in buffer.iter() {`
			`if tx.try_send(sample).is_err() {`
			`output_fell_behind = true;`
			`}`
			`}`
			`if output_fell_behind {`
			`eprintln!("output stream fell behind: try increasing latency");`
			`}`
			`},`
			`cpal::StreamData::Output { buffer: cpal::UnknownTypeOutputBuffer::F32(mut buffer) } => {`
			`assert_eq!(id, output_stream_id);`
			`let mut input_fell_behind = None;`
			`for sample in buffer.iter_mut() {`
			`*sample = match rx.try_recv() {`
			`Ok(s) => s,`
			`Err(err) => {`
			`input_fell_behind = Some(err);`
			`0.0`
			`},`
			`};`
			`}`
			`if let Some(err) = input_fell_behind {`
			`eprintln!("input stream fell behind: {}: try increasing latency", err);`
			`}`
			`},`
			`_ => panic!("we're expecting f32 data"),`
			`}`
			`});`
			`});`

			`// Run for 3 seconds before closing.`
			`println!("Playing for 3 seconds... ");`
			`std::thread::sleep(std::time::Duration::from_secs(3));`
			`println!("Done!");`
Update examples to use std Termination 2019-06-21 12:55:21 +00:00			`Ok(())`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00			`}`