bevyjam/src/audio.rs
2022-08-24 17:43:46 +02:00

166 lines
4.8 KiB
Rust

// https://github.com/WeirdConstructor/HexoDSP/blob/master/examples/cpal_demo_node_api.rs
use crate::game::AudioMsg;
use cpal::traits::{DeviceTrait, HostTrait, StreamTrait};
use crossbeam_channel::Receiver;
use hexodsp::{matrix_repr::MatrixRepr, *};
use std::io::Read;
use ticktock::Clock;
pub fn setup(event_channel: Receiver<AudioMsg>) {
#[cfg(not(target_arch = "wasm32"))]
let matrix_repr: MatrixRepr = {
let mut buf = String::new();
std::fs::File::open("assets/init.hxy")
.unwrap()
.read_to_string(&mut buf)
.unwrap();
MatrixRepr::deserialize(&buf).unwrap()
};
#[cfg(target_arch = "wasm32")]
let matrix_repr: MatrixRepr = MatrixRepr::deserialize(include_str!("../assets/init.hxy")).unwrap();
let (node_conf, node_exec) = new_node_engine();
let mut matrix = Matrix::new(node_conf, 64, 64);
matrix.from_repr(&matrix_repr).unwrap();
start_backend(node_exec, move || {
let color_mix = NodeId::Mix3(0);
let color_mix_r_gain = color_mix.inp_param("gain1").unwrap();
let color_mix_g_gain = color_mix.inp_param("gain2").unwrap();
let color_mix_b_gain = color_mix.inp_param("gain3").unwrap();
let jump_ad = NodeId::Ad(0);
let jump_ad_trig = jump_ad.inp_param("trig").unwrap();
let switch_ad = NodeId::Ad(1);
let switch_ad_trig = switch_ad.inp_param("trig").unwrap();
let fusion_ad = NodeId::Ad(2);
let fusion_ad_trig = fusion_ad.inp_param("trig").unwrap();
let fusion_ad2 = NodeId::Ad(3);
let fusion_ad2_trig = fusion_ad2.inp_param("trig").unwrap();
for (_tick, _now) in Clock::framerate(20.0).iter() {
matrix.set_param(jump_ad_trig, (0.0).into());
matrix.set_param(switch_ad_trig, (0.0).into());
matrix.set_param(fusion_ad_trig, (0.0).into());
matrix.set_param(fusion_ad2_trig, (0.0).into());
if let Ok(msg) = event_channel.try_recv() {
match msg {
AudioMsg::Color([r, g, b]) => {
matrix.set_param(color_mix_r_gain, r.into());
matrix.set_param(color_mix_g_gain, g.into());
matrix.set_param(color_mix_b_gain, b.into());
}
AudioMsg::Fusion => {
matrix.set_param(fusion_ad_trig, (1.0).into());
matrix.set_param(fusion_ad2_trig, (1.0).into());
}
AudioMsg::Jump => matrix.set_param(jump_ad_trig, (1.0).into()),
AudioMsg::Switch => matrix.set_param(switch_ad_trig, (1.0).into()),
}
}
}
});
}
pub fn run<T, F: FnMut()>(
device: &cpal::Device,
config: &cpal::StreamConfig,
mut node_exec: NodeExecutor,
mut frontend_loop: F,
) where
T: cpal::Sample,
{
let sample_rate = config.sample_rate.0 as f32;
let channels = config.channels as usize;
node_exec.set_sample_rate(sample_rate);
let input_bufs = [[0.0; hexodsp::dsp::MAX_BLOCK_SIZE]; 2];
let mut outputbufs = [[0.0; hexodsp::dsp::MAX_BLOCK_SIZE]; 2];
let err_fn = |err| eprintln!("an error occurred on stream: {}", err);
let stream = device
.build_output_stream(
config,
move |data: &mut [T], _: &cpal::OutputCallbackInfo| {
let mut frames_left = data.len() / channels;
let mut out_iter = data.chunks_mut(channels);
node_exec.process_graph_updates();
while frames_left > 0 {
let cur_nframes = if frames_left >= hexodsp::dsp::MAX_BLOCK_SIZE {
hexodsp::dsp::MAX_BLOCK_SIZE
} else {
frames_left
};
let input = &[
&input_bufs[0][0..cur_nframes],
&input_bufs[1][0..cur_nframes],
];
let split = outputbufs.split_at_mut(1);
let mut output = [
&mut ((split.0[0])[0..cur_nframes]),
&mut ((split.1[0])[0..cur_nframes]),
];
let mut context = Context {
nframes: cur_nframes,
output: &mut output[..],
input,
};
context.output[0].fill(0.0);
context.output[1].fill(0.0);
node_exec.process(&mut context);
for i in 0..cur_nframes {
if let Some(frame) = out_iter.next() {
let mut ctx_chan = 0;
for sample in frame.iter_mut() {
let value: T =
cpal::Sample::from::<f32>(&context.output[ctx_chan][i]);
*sample = value;
ctx_chan += 1;
if ctx_chan > context.output.len() {
ctx_chan = context.output.len() - 1;
}
}
}
}
frames_left -= cur_nframes;
}
},
err_fn,
)
.unwrap();
stream.play().unwrap();
frontend_loop();
}
fn start_backend<F: FnMut()>(node_exec: NodeExecutor, frontend_loop: F) {
let host = cpal::default_host();
let device = host
.default_output_device()
.expect("Finding useable audio device");
let config = device
.default_output_config()
.expect("A workable output config");
match config.sample_format() {
cpal::SampleFormat::F32 => run::<f32, F>(&device, &config.into(), node_exec, frontend_loop),
cpal::SampleFormat::I16 => run::<i16, F>(&device, &config.into(), node_exec, frontend_loop),
cpal::SampleFormat::U16 => run::<u16, F>(&device, &config.into(), node_exec, frontend_loop),
};
}