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 configuration 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 anyhow;
extern crate cpal;
extern crate ringbuf;

use cpal::traits::{DeviceTrait, HostTrait, StreamTrait};
use ringbuf::RingBuffer;

const LATENCY_MS: f32 = 150.0;

fn main() -> Result<(), anyhow::Error> {
    let host = cpal::default_host();

    // Default devices.
    let input_device = host
        .default_input_device()
        .expect("failed to get default input device");
    let output_device = host
        .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 configuration between streams to keep it simple.
    let config: cpal::StreamConfig = input_device.default_input_config()?.into();

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

    // The buffer to share samples
    let ring = RingBuffer::new(latency_samples * 2);
    let (mut producer, mut consumer) = ring.split();

    // Fill the samples with 0.0 equal to the length of the delay.
    for _ in 0..latency_samples {
        // The ring buffer has twice as much space as necessary to add latency here,
        // so this should never fail
        producer.push(0.0).unwrap();
    }

    let input_data_fn = move |data: &[f32], _: &cpal::InputCallbackInfo| {
        let mut output_fell_behind = false;
        for &sample in data {
            if producer.push(sample).is_err() {
                output_fell_behind = true;
            }
        }
        if output_fell_behind {
            eprintln!("output stream fell behind: try increasing latency");
        }
    };

    let output_data_fn = move |data: &mut [f32], _: &cpal::OutputCallbackInfo| {
        let mut input_fell_behind = None;
        for sample in data {
            *sample = match consumer.pop() {
                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
            );
        }
    };

    // Build streams.
    println!(
        "Attempting to build both streams with f32 samples and `{:?}`.",
        config
    );
    let input_stream = input_device.build_input_stream(&config, input_data_fn, err_fn)?;
    let output_stream = output_device.build_output_stream(&config, output_data_fn, err_fn)?;
    println!("Successfully built streams.");

    // Play the streams.
    println!(
        "Starting the input and output streams with `{}` milliseconds of latency.",
        LATENCY_MS
    );
    input_stream.play()?;
    output_stream.play()?;

    // Run for 3 seconds before closing.
    println!("Playing for 3 seconds... ");
    std::thread::sleep(std::time::Duration::from_secs(3));
    drop(input_stream);
    drop(output_stream);
    println!("Done!");
    Ok(())
}

fn err_fn(err: cpal::StreamError) {
    eprintln!("an error occurred on stream: {}", err);
}
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.`
			`//!`
Rename stream `Format` types to `Config` This implements the changes described at #370. This commit implements only the `null` and `alsa` backends - the rest will be implemented in follow-up commits. Closes #370. 2020-01-27 20:28:07 +00:00			`//! Assumes that the input and output devices can use the same stream configuration and that they`
			`//! support the f32 sample format.`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00			`//!`
			//! Uses a delay of `LATENCY_MS` milliseconds in case the default input and output streams are not
			`//! precisely synchronised.`

Update examples for switch to `thiserror` To compensate for the removal of `failure`'s application friendly `failure::Error` trait, this `anyhow` crate has been added as a dev-dependency for the examples, but is by no means a necessity for other crates downstream of CPAL. 2019-10-13 10:36:49 +00:00			`extern crate anyhow;`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00			`extern crate cpal;`
Uses ringbuffer in feedback example 2019-09-27 00:16:09 +00:00			`extern crate ringbuf;`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00
Remove EventLoop and port the ALSA backend 2019-07-09 06:47:33 +00:00			`use cpal::traits::{DeviceTrait, HostTrait, StreamTrait};`
Uses ringbuffer in feedback example 2019-09-27 00:16:09 +00:00			`use ringbuf::RingBuffer;`
[WIP] Introduce a `Host` API This is an implementation of the API described at #204. Please see that issue for more details on the motivation. ----- A Host provides access to the available audio devices on the system. Some platforms have more than one host available, e.g. wasapi/asio/dsound on windows, alsa/pulse/jack on linux and so on. As a result, some audio devices are only available on certain hosts, while others are only available on other hosts. Every platform supported by CPAL has at least one DefaultHost that is guaranteed to be available (alsa, wasapi and coreaudio). Currently, the default hosts are the only hosts supported by CPAL, however this will change as of landing #221 (cc @freesig). These changes should also accommodate support for other hosts such as jack #250 (cc @derekdreery) and pulseaudio (cc @knappador) #259. This introduces a suite of traits allowing for both compile time and runtime dispatch of different hosts and their uniquely associated device and event loop types. A new private host module has been added containing the individual host implementations, each in their own submodule gated to the platforms on which they are available. A new platform module has been added containing platform-specific items, including a dynamically dispatched host type that allows for easily switching between hosts at runtime. The ALL_HOSTS slice contains a HostId for each host supported on the current platform. The available_hosts function produces a HostId for each host that is currently available on the platform. The host_from_id function allows for initialising a host from its associated ID, failing with a HostUnavailable error. The default_host function returns the default host and should never fail. Please see the examples for a demonstration of the change in usage. For the most part, things look the same at the surface level, however the role of device enumeration and creating the event loop have been moved from global functions to host methods. The enumerate.rs example has been updated to enumerate all devices for each host, not just the default. TODO - [x] Add the new Host API - [x] Update examples for the new API. - [x] ALSA host - [ ] WASAPI host - [ ] CoreAudio host - [ ] Emscripten host Follow-up PR - [ ] ASIO host #221 cc @ishitatsuyuki more to review for you if you're interested, but it might be easier after #288 lands and this gets rebased. 2019-06-23 13:49:48 +00:00
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 for switch to `thiserror` To compensate for the removal of `failure`'s application friendly `failure::Error` trait, this `anyhow` crate has been added as a dev-dependency for the examples, but is by no means a necessity for other crates downstream of CPAL. 2019-10-13 10:36:49 +00:00			`fn main() -> Result<(), anyhow::Error> {`
[WIP] Introduce a `Host` API This is an implementation of the API described at #204. Please see that issue for more details on the motivation. ----- A Host provides access to the available audio devices on the system. Some platforms have more than one host available, e.g. wasapi/asio/dsound on windows, alsa/pulse/jack on linux and so on. As a result, some audio devices are only available on certain hosts, while others are only available on other hosts. Every platform supported by CPAL has at least one DefaultHost that is guaranteed to be available (alsa, wasapi and coreaudio). Currently, the default hosts are the only hosts supported by CPAL, however this will change as of landing #221 (cc @freesig). These changes should also accommodate support for other hosts such as jack #250 (cc @derekdreery) and pulseaudio (cc @knappador) #259. This introduces a suite of traits allowing for both compile time and runtime dispatch of different hosts and their uniquely associated device and event loop types. A new private host module has been added containing the individual host implementations, each in their own submodule gated to the platforms on which they are available. A new platform module has been added containing platform-specific items, including a dynamically dispatched host type that allows for easily switching between hosts at runtime. The ALL_HOSTS slice contains a HostId for each host supported on the current platform. The available_hosts function produces a HostId for each host that is currently available on the platform. The host_from_id function allows for initialising a host from its associated ID, failing with a HostUnavailable error. The default_host function returns the default host and should never fail. Please see the examples for a demonstration of the change in usage. For the most part, things look the same at the surface level, however the role of device enumeration and creating the event loop have been moved from global functions to host methods. The enumerate.rs example has been updated to enumerate all devices for each host, not just the default. TODO - [x] Add the new Host API - [x] Update examples for the new API. - [x] ALSA host - [ ] WASAPI host - [ ] CoreAudio host - [ ] Emscripten host Follow-up PR - [ ] ASIO host #221 cc @ishitatsuyuki more to review for you if you're interested, but it might be easier after #288 lands and this gets rebased. 2019-06-23 13:49:48 +00:00			`let host = cpal::default_host();`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00
			`// Default devices.`
Remove EventLoop and port the ALSA backend 2019-07-09 06:47:33 +00:00			`let input_device = host`
			`.default_input_device()`
			`.expect("failed to get default input device");`
			`let output_device = host`
			`.default_output_device()`
			`.expect("failed to get default output device");`
Update examples to use std Termination 2019-06-21 12:55:21 +00:00			`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
Rename stream `Format` types to `Config` This implements the changes described at #370. This commit implements only the `null` and `alsa` backends - the rest will be implemented in follow-up commits. Closes #370. 2020-01-27 20:28:07 +00:00			`// We'll try and use the same configuration between streams to keep it simple.`
			`let config: cpal::StreamConfig = input_device.default_input_config()?.into();`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00
			`// Create a delay in case the input and output devices aren't synced.`
Rename stream `Format` types to `Config` This implements the changes described at #370. This commit implements only the `null` and `alsa` backends - the rest will be implemented in follow-up commits. Closes #370. 2020-01-27 20:28:07 +00:00			`let latency_frames = (LATENCY_MS / 1_000.0) * config.sample_rate.0 as f32;`
			`let latency_samples = latency_frames as usize * config.channels as usize;`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00
Uses ringbuffer in feedback example 2019-09-27 00:16:09 +00:00			`// The buffer to share samples`
			`let ring = RingBuffer::new(latency_samples * 2);`
			`let (mut producer, mut consumer) = ring.split();`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00
			`// Fill the samples with 0.0 equal to the length of the delay.`
			`for _ in 0..latency_samples {`
Adds comment about latency-push unwrap() 2019-09-27 17:18:23 +00:00			`// The ring buffer has twice as much space as necessary to add latency here,`
			`// so this should never fail`
Uses ringbuffer in feedback example 2019-09-27 00:16:09 +00:00			`producer.push(0.0).unwrap();`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00			`}`

Add a `CallbackInfo` argument to the stream data callback I began on an implementation of the timestamp API described in #363 but quickly realised that it might be best to land the API for providing extra information to the user's callback first. This PR adds two new types: `InputCallbackInfo` and `OutputCallbackInfo`. These types are delivered to the user's data callback as a new, second argument. While these types are currently empty, the intention is for these types to provide information relevant to the current request for or delivery of data. This includes: - Timestamp information #363. - Flags related to the state of the stream (e.g buffer underflow/overflow). In order to maintain flexibility to avoid breaking things, I figure we can keep the fields of these types private and provide methods for retrieving this info. @Ralith, @ishitatsuyuki does this seem OK to you? 2020-04-16 12:50:36 +00:00			`let input_data_fn = move \|data: &[f32], _: &cpal::InputCallbackInfo\| {`
An alternative approach to removing `UnknownBufferType`. This is a potential alternative to #359. This PR is based on #359. This approach opts for a dynamically checked sample type approach with the aim of minimising compile time and binary size. You can read more discussion on this [here](https://github.com/RustAudio/cpal/pull/359#issuecomment-575931461) Implemented backends: - [x] null - [x] ALSA - [ ] CoreAudio - [ ] WASAPI - [ ] ASIO - [ ] Emscripten 2020-01-19 14:06:19 +00:00			`let mut output_fell_behind = false;`
			`for &sample in data {`
			`if producer.push(sample).is_err() {`
			`output_fell_behind = true;`
			`}`
			`}`
			`if output_fell_behind {`
			`eprintln!("output stream fell behind: try increasing latency");`
			`}`
			`};`

Add a `CallbackInfo` argument to the stream data callback I began on an implementation of the timestamp API described in #363 but quickly realised that it might be best to land the API for providing extra information to the user's callback first. This PR adds two new types: `InputCallbackInfo` and `OutputCallbackInfo`. These types are delivered to the user's data callback as a new, second argument. While these types are currently empty, the intention is for these types to provide information relevant to the current request for or delivery of data. This includes: - Timestamp information #363. - Flags related to the state of the stream (e.g buffer underflow/overflow). In order to maintain flexibility to avoid breaking things, I figure we can keep the fields of these types private and provide methods for retrieving this info. @Ralith, @ishitatsuyuki does this seem OK to you? 2020-04-16 12:50:36 +00:00			`let output_data_fn = move \|data: &mut [f32], _: &cpal::OutputCallbackInfo\| {`
An alternative approach to removing `UnknownBufferType`. This is a potential alternative to #359. This PR is based on #359. This approach opts for a dynamically checked sample type approach with the aim of minimising compile time and binary size. You can read more discussion on this [here](https://github.com/RustAudio/cpal/pull/359#issuecomment-575931461) Implemented backends: - [x] null - [x] ALSA - [ ] CoreAudio - [ ] WASAPI - [ ] ASIO - [ ] Emscripten 2020-01-19 14:06:19 +00:00			`let mut input_fell_behind = None;`
			`for sample in data {`
			`*sample = match consumer.pop() {`
			`Ok(s) => s,`
			`Err(err) => {`
			`input_fell_behind = Some(err);`
			`0.0`
Remove old `.rustfmt.toml` config. Run default `cargo fmt` on repo. Seeing as a few large refactors have landed recently, I thought I'd take this opportunity to do a `cargo fmt` run and standardise on the default rustfmt settings. 2020-01-20 19:35:23 +00:00			`}`
An alternative approach to removing `UnknownBufferType`. This is a potential alternative to #359. This PR is based on #359. This approach opts for a dynamically checked sample type approach with the aim of minimising compile time and binary size. You can read more discussion on this [here](https://github.com/RustAudio/cpal/pull/359#issuecomment-575931461) Implemented backends: - [x] null - [x] ALSA - [ ] CoreAudio - [ ] WASAPI - [ ] ASIO - [ ] Emscripten 2020-01-19 14:06:19 +00:00			`};`
			`}`
			`if let Some(err) = input_fell_behind {`
Remove old `.rustfmt.toml` config. Run default `cargo fmt` on repo. Seeing as a few large refactors have landed recently, I thought I'd take this opportunity to do a `cargo fmt` run and standardise on the default rustfmt settings. 2020-01-20 19:35:23 +00:00			`eprintln!(`
			`"input stream fell behind: {:?}: try increasing latency",`
			`err`
			`);`
An alternative approach to removing `UnknownBufferType`. This is a potential alternative to #359. This PR is based on #359. This approach opts for a dynamically checked sample type approach with the aim of minimising compile time and binary size. You can read more discussion on this [here](https://github.com/RustAudio/cpal/pull/359#issuecomment-575931461) Implemented backends: - [x] null - [x] ALSA - [ ] CoreAudio - [ ] WASAPI - [ ] ASIO - [ ] Emscripten 2020-01-19 14:06:19 +00:00			`}`
			`};`

Remove EventLoop and port the ALSA backend 2019-07-09 06:47:33 +00:00			`// Build streams.`
Introduce polymorphic stream constructors 2020-01-22 06:01:49 +00:00			`println!(`
			"Attempting to build both streams with f32 samples and `{:?}`.",
Rename stream `Format` types to `Config` This implements the changes described at #370. This commit implements only the `null` and `alsa` backends - the rest will be implemented in follow-up commits. Closes #370. 2020-01-27 20:28:07 +00:00			`config`
Introduce polymorphic stream constructors 2020-01-22 06:01:49 +00:00			`);`
Rename stream `Format` types to `Config` This implements the changes described at #370. This commit implements only the `null` and `alsa` backends - the rest will be implemented in follow-up commits. Closes #370. 2020-01-27 20:28:07 +00:00			`let input_stream = input_device.build_input_stream(&config, input_data_fn, err_fn)?;`
			`let output_stream = output_device.build_output_stream(&config, output_data_fn, err_fn)?;`
Remove EventLoop and port the ALSA backend 2019-07-09 06:47:33 +00:00			`println!("Successfully built streams.");`
Update examples for addition of new StreamEvent API 2019-06-21 22:10:40 +00:00
Remove EventLoop and port the ALSA backend 2019-07-09 06:47:33 +00:00			`// Play the streams.`
			`println!(`
			"Starting the input and output streams with `{}` milliseconds of latency.",
			`LATENCY_MS`
			`);`
			`input_stream.play()?;`
			`output_stream.play()?;`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00
			`// Run for 3 seconds before closing.`
			`println!("Playing for 3 seconds... ");`
			`std::thread::sleep(std::time::Duration::from_secs(3));`
Remove EventLoop and port the ALSA backend 2019-07-09 06:47:33 +00:00			`drop(input_stream);`
			`drop(output_stream);`
Add an example that demonstrates feeding input directly to output with some latency 2018-02-17 04:16:03 +00:00			`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			`}`
An alternative approach to removing `UnknownBufferType`. This is a potential alternative to #359. This PR is based on #359. This approach opts for a dynamically checked sample type approach with the aim of minimising compile time and binary size. You can read more discussion on this [here](https://github.com/RustAudio/cpal/pull/359#issuecomment-575931461) Implemented backends: - [x] null - [x] ALSA - [ ] CoreAudio - [ ] WASAPI - [ ] ASIO - [ ] Emscripten 2020-01-19 14:06:19 +00:00
			`fn err_fn(err: cpal::StreamError) {`
			`eprintln!("an error occurred on stream: {}", err);`
			`}`