Bandlimited oscillators #127
Comments
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Thanks for bringing up the issue! That makes a lot of sense. It would be great if you could port it to Rust. Perhaps as an independent crate? I can then just rely on the crate. |
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I know exactly enough Rust to have made it this far: https://github.com/paulbatchelor/boing My intention is to eventually populate it with a few more DSP goodies. Right now, it's just a bandlimited sawtooth oscillator as a proof-of-concept. The example I have included with the library produces a bandlimited sawtooth oscillator and writes it to disk as raw PCM audio, which can be converted to WAV using SoX. I'm pretty sure it works: https://github.com/PaulBatchelor/Boing/blob/main/examples/blsaw.rs What steps do I take to make this working in Glicol? I'm still very new to Rust, so if you have any suggestions, let me know! |
I think describing "the process of how a saw osc" is made can best illustrate the point here. glicol_parserFor my workflow, I always start with the parser. Inside Can test here: https://pest.rs/#editor Then in Rule::saw => one_para_number_or_ref!("saw"),Also, use the same Rule::saw => one_para_number_or_ref!("saw"),
Rule::yournode => one_para_number_or_ref!("yournode"),So for this kind of node, it takes one number or a reference. Done with the parser. glicol_synthIn You can write in a similar style to Remember to expose glicol main crateFinally, in the main repo, there is this Try to find move to wasmThen you can use the script in wasm to compile the code. Nothing needs to be changed there for adding a new node. Then Inside Hope I didn't miss anything. Let me know if you encounter any issues. |
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@chaosprint awesome information. Let me digest this. This seems pretty comprehensive, but if I run into anything, I'll let you know. |
If you'd like to keep it light and focus more on DSP, just look at And here's an example to combine https://github.com/chaosprint/cpal/blob/glicol_techno_example/examples/glicol_synth.rs |
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@chaosprint It took some fiddling, but I got some initial sound working: main...PaulBatchelor:glicol:main For troubleshooting, it was helpful for me to write bytes to disk offline, so I whipped up this program that I run as an example in use glicol::Engine;
use std::fs::File;
use std::io::prelude::*;
fn main() {
let mut engine = Engine::<32>::new();
let mut bytes: [u8; 128] = [0; 128];
let nblks = (44100 * 5) / 32;
let file = File::create("test.bin");
engine.update_with_code(r#"o: blsaw 440 >> mul 0.1"#);
for _ in 0..nblks {
let blk = engine.next_block(vec![]).0;
for n in 0..32 {
let pos = n * 4;
let b = blk[0][n].to_le_bytes();
bytes[pos] = b[0];
bytes[pos + 1] = b[1];
bytes[pos + 2] = b[2];
bytes[pos + 3] = b[3];
}
_ = file.as_ref().unwrap().write_all(&bytes);
}
}which I can convert to a WAV file with: sox -t raw -r 44100 -c 1 -e floating-point -b 32 test.bin test.wav |
Exciting! The offline workflow is very smart. I am now rewriting the whole repo. This will be super helpful in the next version. |
Hi! Big fan, long time lurker.
I took a peak at some of your DSP code. The oscillators I've seen so far are good and fast waveshape implementations, and while they work well for things like LFOs, they are also prone to aliasing artifacts at higher frequencies. It doesn't look like you have any bandlimited oscillators, which are designed in a way to suppress this kind of aliasing noise. Sometimes they are known as "virtual analog oscillators". PolyBLEPs are a pretty common way to implement bandlimited oscillators.
If you don't have these oscillators already, I have working C code for PolyBLEP saw, triangle, and square wave oscillators that I'd love to try and port to Rust and Glicol.
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