1use aether_core::{node::DspNode, param::ParamBlock, BUFFER_SIZE, MAX_INPUTS};
11
12const MAX_DELAY_SECS: f32 = 2.0;
14const MAX_DELAY_SAMPLES: usize = (48_000.0 * MAX_DELAY_SECS) as usize;
15
16pub struct DelayLine {
17 buffer: Box<[f32; MAX_DELAY_SAMPLES]>,
18 write_pos: usize,
19}
20
21impl DelayLine {
22 pub fn new() -> Self {
23 Self {
24 buffer: Box::new([0.0f32; MAX_DELAY_SAMPLES]),
25 write_pos: 0,
26 }
27 }
28
29 #[inline(always)]
30 fn process_sample(&mut self, input: f32, delay_samples: usize, feedback: f32, wet: f32) -> f32 {
31 let read_pos = (self.write_pos + MAX_DELAY_SAMPLES - delay_samples) % MAX_DELAY_SAMPLES;
32 let delayed = self.buffer[read_pos];
33 self.buffer[self.write_pos] = input + delayed * feedback;
34 self.write_pos = (self.write_pos + 1) % MAX_DELAY_SAMPLES;
35 input * (1.0 - wet) + delayed * wet
36 }
37}
38
39impl Default for DelayLine {
40 fn default() -> Self {
41 Self::new()
42 }
43}
44
45impl DspNode for DelayLine {
46 fn process(
47 &mut self,
48 inputs: &[Option<&[f32; BUFFER_SIZE]>; MAX_INPUTS],
49 output: &mut [f32; BUFFER_SIZE],
50 params: &mut ParamBlock,
51 sample_rate: f32,
52 ) {
53 let silence = [0.0f32; BUFFER_SIZE];
54 let input = inputs[0].unwrap_or(&silence);
55
56 for (i, out) in output.iter_mut().enumerate() {
57 let delay_secs = params.get(0).current.clamp(0.0, MAX_DELAY_SECS);
58 let feedback = params.get(1).current.clamp(0.0, 0.99);
59 let wet = params.get(2).current.clamp(0.0, 1.0);
60 let delay_samples =
61 ((delay_secs * sample_rate) as usize).clamp(1, MAX_DELAY_SAMPLES - 1);
62
63 *out = self.process_sample(input[i], delay_samples, feedback, wet);
64 params.tick_all();
65 }
66 }
67
68 fn type_name(&self) -> &'static str {
69 "DelayLine"
70 }
71}