[sosten] add pitch detection

This commit is contained in:
annieversary 2021-08-05 15:53:23 +02:00
parent 62bc461f60
commit 43605dfa87
4 changed files with 86 additions and 33 deletions

View file

@ -48,6 +48,7 @@ PRs are welcome for more build instructions
the following is the current list of plugins the following is the current list of plugins
- `basic_gain`: simple gain plugin - `basic_gain`: simple gain plugin
- `noted`: output midi at regular intervals - `noted`: output midi at regular intervals
- `sosten`: granular sustain plugin - `sosten`: granular sustain plugin
@ -63,6 +64,8 @@ the following is the current list of plugins
- `double_reverse_delta_inverter`: idk, a weird distortion - `double_reverse_delta_inverter`: idk, a weird distortion
- `transmute_pitch`: pitch to midi converter - `transmute_pitch`: pitch to midi converter
there's a bit of an explanation of each of the plugins below, but it's not a thorough documentation or a manual, it's just a bunch of notes i've written and a short description of the parameters
### basic_gain ### basic_gain
simple gain plugin, used as a template for starting new projects simple gain plugin, used as a template for starting new projects
@ -83,11 +86,18 @@ it's useful when you want to play a note super fast (over 1/64 tempo) but don't
sustains a sound by replaying a grain of sound on loop sustains a sound by replaying a grain of sound on loop
parameters: parameters:
- `length`: length of the grain in samples. maximum is 48000 cause i said so
- `mix`: dry/wet knob
- `enable`: will enable the sustain if it's over 0.5 - `enable`: will enable the sustain if it's over 0.5
- `length`: length of the grain in samples. maximum is 48000 cause i said so
- `manual/pitch detection`: whether to use the manually set length (if under 0.5) or use the detected pitch (over 0.5)
- `dissipation`: amount of dissipation of the input
to use this plugin, add an automation for `enable` and set the value to `1.0` wherever you want the sustain to happen to use this plugin, add an automation for `enable` and set the value to `1.0` wherever you want the sustain to happen. as soon as that happens, it'll start looping the last `length` samples
if set to manual, it uses the provided length for the looped grain. if pitch detection is enabled, it will use the detected pitch to calculate the period of the input, and it'll use that for the length of the grain. this should cause the sound to be sustained seamlessly
dissipation is a weird thingy. it smooths out the sound, and i think it's a lowpass filter? not sure. makes cool sounds though. what it does is roughly `x[n] = dissipation * x[n] + (1 - dissipation) * x[n + 1]` after each time it plays a sample, so `dissipation = 1` will leave the audio untouched, and setting it to `0.5` provides the greatest effect
low lengths will almost produce a tone of frequency `1 / length`, which makes for interesting sounds
### quinoa [WIP] ### quinoa [WIP]

View file

@ -4,20 +4,26 @@
use baseplug::{Plugin, ProcessContext}; use baseplug::{Plugin, ProcessContext};
use serde::{Deserialize, Serialize}; use serde::{Deserialize, Serialize};
use utils::buffers::*;
use utils::delay::*; use utils::delay::*;
use utils::pitch::*;
// If you change this remember to change the max on the model // If you change this remember to change the max on the model
const LEN: usize = 48000; const LEN: usize = 48000;
const PITCH_LEN: usize = 2 << 9;
baseplug::model! { baseplug::model! {
#[derive(Debug, Serialize, Deserialize)] #[derive(Debug, Serialize, Deserialize)]
struct SostenModel { struct SostenModel {
#[model(min = 0.0, max = 1.0)]
#[parameter(name = "enable")]
enable: f32,
#[model(min = 10.0, max = 48000.0)] #[model(min = 10.0, max = 48000.0)]
#[parameter(name = "length")] #[parameter(name = "length")]
length: f32, length: f32,
#[model(min = 0.0, max = 1.0)] #[model(min = 0.0, max = 1.0)]
#[parameter(name = "enable")] #[parameter(name = "manual/pitch detection")]
enable: f32, manual: f32,
#[model(min = 0.0, max = 1.0)] #[model(min = 0.0, max = 1.0)]
#[parameter(name = "dissipation")] #[parameter(name = "dissipation")]
dissipation: f32, dissipation: f32,
@ -27,21 +33,26 @@ baseplug::model! {
impl Default for SostenModel { impl Default for SostenModel {
fn default() -> Self { fn default() -> Self {
Self { Self {
length: 1000.0,
enable: 0.0, enable: 0.0,
length: 1000.0,
manual: 0.0,
dissipation: 1.0, dissipation: 1.0,
} }
} }
} }
struct Sosten { struct Sosten {
delay_l: DelayLine<LEN>, delay: DelayLines<LEN>,
delay_r: DelayLine<LEN>, buffers: Buffers<LEN>,
buffer_l: [f32; LEN],
buffer_r: [f32; LEN],
playing: bool, playing: bool,
idx: usize,
detector_thread: pitch_detection::PitchDetectorThread<PITCH_LEN>,
/// Period of the thing we're currently repeating
used_period: Option<usize>,
/// Period of the processed input
/// We keep both so we can instantly switch
period: Option<usize>,
} }
impl Plugin for Sosten { impl Plugin for Sosten {
@ -57,13 +68,14 @@ impl Plugin for Sosten {
#[inline] #[inline]
fn new(_sample_rate: f32, _model: &SostenModel) -> Self { fn new(_sample_rate: f32, _model: &SostenModel) -> Self {
Self { Self {
delay_l: DelayLine::<LEN>::new(), delay: DelayLines::<LEN>::new(),
delay_r: DelayLine::<LEN>::new(), buffers: Buffers::new(),
buffer_l: [0.; LEN],
buffer_r: [0.; LEN],
playing: false, playing: false,
idx: 0,
detector_thread: pitch_detection::PitchDetectorThread::<PITCH_LEN>::new(),
used_period: None,
period: None,
} }
} }
@ -73,19 +85,34 @@ impl Plugin for Sosten {
let output = &mut ctx.outputs[0].buffers; let output = &mut ctx.outputs[0].buffers;
for i in 0..ctx.nframes { for i in 0..ctx.nframes {
// Update delays // update delays
self.delay_l.write_and_advance(input[0][i]); self.delay.write_and_advance(input[0][i], input[1][i]);
self.delay_r.write_and_advance(input[1][i]);
// pass input to pitch detector, in mono
self.detector_thread.write(
0.5 * (input[0][i] + input[0][i]),
0.0,
ctx.sample_rate as u32,
);
// get pitch from detector thread
match self.detector_thread.try_get_pitch() {
Some((pitch, _)) => {
let sr = ctx.sample_rate;
self.period = pitch.map(|pitch| (sr / pitch).floor() as usize);
}
_ => {}
}
// Toggle playing according to `enable` // Toggle playing according to `enable`
if model.enable[i] >= 0.5 { if model.enable[i] >= 0.5 {
// If it wasn't playing before this, reload buffer // If it wasn't playing before this, reload buffer
if !self.playing { if !self.playing {
self.delay_l.read_slice(&mut self.buffer_l); self.delay.read_to_buffers(&mut self.buffers);
self.delay_r.read_slice(&mut self.buffer_r); self.buffers.reset();
self.idx = 0;
self.playing = true; self.playing = true;
self.used_period = self.period;
} }
} else { } else {
self.playing = false; self.playing = false;
@ -94,28 +121,34 @@ impl Plugin for Sosten {
// Play the repeating part // Play the repeating part
if self.playing { if self.playing {
// Length of section to play // Length of section to play
let len = model.length[i].trunc() as usize; let len = if model.manual[i] < 0.5 {
model.length[i].trunc() as usize
} else {
self.used_period.unwrap_or(model.length[i].trunc() as usize)
};
// If len has changed, idx may have not, so we do the min so we don't go out of bounds // If len has changed, idx may have not, so we do the min so we don't go out of bounds
let idx = self.idx.min(len - 1); let idx = self.buffers.idx.min(len - 1);
// Play from Buffer // Play from Buffer
output[0][i] = self.buffer_l[(LEN - len) + idx]; let (l, r) = self.buffers.read((LEN - len) + idx);
output[1][i] = self.buffer_r[(LEN - len) + idx];
output[0][i] = l;
output[1][i] = r;
// dissipates the audio in the buffer, idk // dissipates the audio in the buffer, idk
// it adds a bit of the next sample to this one, which smooths it out // it adds a bit of the next sample to this one, which smooths it out
let diss = model.dissipation[i]; let diss = model.dissipation[i];
let a = (LEN - len) + idx; let a = (LEN - len) + idx;
self.buffer_l[a] *= diss; self.buffers.l[a] *= diss;
self.buffer_r[a] *= diss; self.buffers.r[a] *= diss;
self.buffer_l[a] += (1.0 - diss) * self.buffer_l[(a + 1) % LEN]; self.buffers.l[a] += (1.0 - diss) * self.buffers.l[(a + 1) % LEN];
self.buffer_r[a] += (1.0 - diss) * self.buffer_r[(a + 1) % LEN]; self.buffers.r[a] += (1.0 - diss) * self.buffers.r[(a + 1) % LEN];
// Loop index after we finish playing a section // Loop index after we finish playing a section
self.idx += 1; self.buffers.idx += 1;
if self.idx >= len { if self.buffers.idx >= len {
self.idx = 0; self.buffers.idx = 0;
} }
} else { } else {
// If it's not on a repeat section, pass all the audio fully // If it's not on a repeat section, pass all the audio fully

View file

@ -47,6 +47,11 @@ impl<const LEN: usize> Buffers<LEN> {
}) })
} }
pub fn read(&self, idx: usize) -> (f32, f32) {
let idx = idx % LEN;
(self.l[idx], self.r[idx])
}
pub fn reset(&mut self) { pub fn reset(&mut self) {
self.idx = 0; self.idx = 0;
} }

View file

@ -81,6 +81,11 @@ impl<const LEN: usize> DelayLines<LEN> {
self.r.read_slice(r); self.r.read_slice(r);
} }
pub fn read_to_buffers(&self, buffers: &mut crate::buffers::Buffers<LEN>) {
self.l.read_slice(&mut buffers.l);
self.r.read_slice(&mut buffers.r);
}
pub fn write_and_advance(&mut self, l: f32, r: f32) { pub fn write_and_advance(&mut self, l: f32, r: f32) {
self.l.write_and_advance(l); self.l.write_and_advance(l);
self.r.write_and_advance(r); self.r.write_and_advance(r);