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e1b2004dcd
...
59b3b9c822
23
README.md
23
README.md
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@ -64,7 +64,6 @@ the following is the current list of plugins
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- `double_reverse_delta_inverter`: idk, a weird distortion
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- `double_reverse_delta_inverter`: idk, a weird distortion
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- `transmute_pitch`: pitch to midi converter
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- `transmute_pitch`: pitch to midi converter
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- `reverter`: play sound backwards
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- `reverter`: play sound backwards
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- `panera`: pan individual notes differently
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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
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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
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@ -265,28 +264,6 @@ this plugin will introduce a delay of `length` samples, since it has to record t
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in my experience values between 5000 and 8000 tend to work well, but you might want to experiment a bit to see what works for you
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in my experience values between 5000 and 8000 tend to work well, but you might want to experiment a bit to see what works for you
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### panera
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ever wanted to have each pluck of the guitar have a different pan? do i have something for you then!
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params:
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- `gain`: pregain added to the detector. doesn't affect output sound
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- `attack`: attack of the envelope follower
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- `release`: release of the envelope follower
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- `gate`: gate level at which a peak is detected
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- `panning mode`: one of {alternating [0, 0.33), sine [0.33, 0.66), random [0.66, 1]}
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- `lfo freq`: frequency for the sine lfo
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panera consists of a peak detector with a sample and hold lfo tied to the pan. this lfo is sampled each time a new peak comes in, and it's value will be held until the next peak
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there's three panning modes:
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- alternating: each peak will be hard panned to a different side, alternating between left and right
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- sine: samples a sine lfo, and uses that as the pan for the rest of the note
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- random: each note will have a random pan
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the peak detector is still a bit fiddly, so you'll have to tweak the params a bit until it works for the kind of sound you're giving it. the defaults have worked great for me, so i recommend you start from there and change as you see fit
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## contributing
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## contributing
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issues and prs are welcome, but please open an issue before making any big pr, i don't wanna have to reject a pr where you have put a lot of effort on. if you are fine with that, ig go ahead i'm not your mum
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issues and prs are welcome, but please open an issue before making any big pr, i don't wanna have to reject a pr where you have put a lot of effort on. if you are fine with that, ig go ahead i'm not your mum
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@ -1,13 +0,0 @@
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[package]
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name = "bistortion"
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version = "0.1.0"
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edition = "2018"
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[lib]
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crate-type = ["cdylib"]
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[dependencies]
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baseplug = { git = "https://github.com/wrl/baseplug.git", rev = "9cec68f31cca9c0c7a1448379f75d92bbbc782a8" }
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serde = "1.0.126"
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# utils = { path = "../utils" }
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@ -1,67 +0,0 @@
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#![allow(incomplete_features)]
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#![feature(generic_associated_types)]
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use baseplug::{Plugin, ProcessContext};
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use serde::{Deserialize, Serialize};
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baseplug::model! {
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#[derive(Debug, Serialize, Deserialize)]
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struct BistortionModel {
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#[model(min = 0.0, max = 10.0)]
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#[parameter(name = "a")]
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a: f32,
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#[model(min = 0.0, max = 30.0)]
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#[parameter(name = "b")]
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b: f32,
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}
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}
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impl Default for BistortionModel {
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fn default() -> Self {
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Self { a: 1.0, b: 1.0 }
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}
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}
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struct Bistortion {
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frame: usize,
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}
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impl Plugin for Bistortion {
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const NAME: &'static str = "bistortion";
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const PRODUCT: &'static str = "bistortion";
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const VENDOR: &'static str = "unnieversal";
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const INPUT_CHANNELS: usize = 2;
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const OUTPUT_CHANNELS: usize = 2;
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type Model = BistortionModel;
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#[inline]
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fn new(_sample_rate: f32, _model: &BistortionModel) -> Self {
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Self { frame: 0 }
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}
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#[inline]
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fn process(&mut self, model: &BistortionModelProcess, ctx: &mut ProcessContext<Self>) {
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let input = &ctx.inputs[0].buffers;
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let output = &mut ctx.outputs[0].buffers;
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for i in 0..ctx.nframes {
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let a = model.a[i];
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let b = model.b[i];
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let p = self.frame as f32 / ctx.sample_rate;
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output[0][i] = process(input[0][i], p, a, b);
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output[1][i] = process(input[1][i], p, a, b);
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self.frame += 1;
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}
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}
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}
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// https://www.desmos.com/calculator/8gmb283p0v
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fn process(v: f32, p: f32, a: f32, b: f32) -> f32 {
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(v * a * (b * v).cos()).tanh()
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}
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baseplug::vst2!(Bistortion, b"bist");
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@ -1,13 +0,0 @@
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[package]
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name = "panera"
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version = "0.1.0"
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edition = "2018"
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[lib]
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crate-type = ["cdylib"]
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[dependencies]
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baseplug = { git = "https://github.com/wrl/baseplug.git", rev = "9cec68f31cca9c0c7a1448379f75d92bbbc782a8" }
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serde = "1.0.126"
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utils = { path = "../utils" }
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@ -1,167 +0,0 @@
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#![allow(incomplete_features)]
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#![feature(generic_associated_types)]
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use baseplug::{Plugin, ProcessContext};
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use serde::{Deserialize, Serialize};
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use utils::delay::*;
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use utils::envelope::*;
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const DELAY_LEN: usize = 200;
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baseplug::model! {
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#[derive(Debug, Serialize, Deserialize)]
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struct PaneraModel {
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// peak detection options
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#[model(min = 0.0, max = 3.0)]
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#[parameter(name = "gain")]
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gain: f32,
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#[model(min = 0.0, max = 1.0)]
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#[parameter(name = "attack")]
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attack: f32,
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#[model(min = 0.0, max = 1.0)]
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#[parameter(name = "release")]
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release: f32,
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#[model(min = 0.0, max = 1.0)]
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#[parameter(name = "gate")]
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gate: f32,
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// options to control the pan oscillation
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#[model(min = 0.0, max = 1.0)]
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#[parameter(name = "panning mode")]
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panning_mode: f32,
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#[model(min = 0.0, max = 10.0)]
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#[parameter(name = "lfo freq")]
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lfo_freq: f32,
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}
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}
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impl Default for PaneraModel {
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fn default() -> Self {
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Self {
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gain: 1.8,
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attack: 0.0,
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release: 0.27,
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gate: 0.22,
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panning_mode: 0.0,
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lfo_freq: 1.0,
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}
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}
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}
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struct Panera {
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/// envelope follower so we can detect peaks
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envelope_follower: EnvelopeFollower,
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/// whether we are currently on a peak
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on: bool,
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/// the current pan position
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/// goes from 0 (left) to 1 (right)
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pan: f32,
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/// delay line is used so we don't change the pan after the peak has started
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/// since to detect a peak we have to be halfway through it, if we change the pan
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/// when we detect a peak, this means that it gets changed halfway, which results in a click
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/// the delay makes it so we can detect a peak before actually playing it, therefore
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/// allowing us to change the pan before the peak actually starts, and thus no clicks :)
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delay: DelayLine<DELAY_LEN>,
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lfo_idx: usize,
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}
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impl Plugin for Panera {
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const NAME: &'static str = "panera";
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const PRODUCT: &'static str = "panera";
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const VENDOR: &'static str = "unnieversal";
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const INPUT_CHANNELS: usize = 1;
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const OUTPUT_CHANNELS: usize = 2;
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type Model = PaneraModel;
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#[inline]
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fn new(_sample_rate: f32, _model: &PaneraModel) -> Self {
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Self {
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envelope_follower: EnvelopeFollower::new(),
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on: true,
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pan: 0.0,
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delay: DelayLine::<DELAY_LEN>::new(),
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lfo_idx: 0,
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}
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}
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#[inline]
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fn process(&mut self, model: &PaneraModelProcess, ctx: &mut ProcessContext<Self>) {
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let input = &ctx.inputs[0].buffers;
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let output = &mut ctx.outputs[0].buffers;
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for i in 0..ctx.nframes {
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// set values for env detector
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self.envelope_follower.set_attack_release(
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ctx.sample_rate,
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model.attack[i],
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model.release[i],
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);
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// process envelope detector with the non-delayed sample
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let env = self.envelope_follower.process(input[0][i] * model.gain[i]);
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// detect peak
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if env > model.gate[i] && !self.on {
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self.update_pan(
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model.panning_mode[i].into(),
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model.lfo_freq[i],
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ctx.sample_rate,
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);
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self.on = true;
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}
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if env < model.gate[i] && self.on {
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self.on = false;
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}
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// increment lfo counter
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self.lfo_idx += 1;
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// update delay and get value
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let s = self.delay.write_and_advance_get_last(input[0][i]);
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// square pan law
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// we play the delayed value
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output[0][i] = self.pan.sqrt() * s;
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output[1][i] = (1.0 - self.pan).sqrt() * s;
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}
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}
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}
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enum PanningMode {
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Alternating,
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Sine,
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Random,
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}
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impl From<f32> for PanningMode {
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fn from(a: f32) -> Self {
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if a < 0.33 {
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Self::Alternating
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} else if a < 0.66 {
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Self::Sine
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} else {
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Self::Random
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}
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}
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}
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impl Panera {
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fn update_pan(&mut self, lfo_type: PanningMode, lfo_freq: f32, sample_rate: f32) {
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self.pan = match lfo_type {
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PanningMode::Alternating => 1.0 - self.pan,
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PanningMode::Sine => ((self.lfo_idx as f32 * lfo_freq / sample_rate).sin() + 1.0) / 2.0,
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PanningMode::Random => {
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// idk tbh, just something kinda random ig
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// i just want it to not be predictable
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(((self.lfo_idx * (self.lfo_idx ^ 1234)) as f32 * lfo_freq).sin() + 1.0) / 2.0
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}
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}
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}
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||||||
}
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|
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|
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baseplug::vst2!(Panera, b"pann");
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@ -170,13 +170,17 @@ impl RoboTuna {
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self.delay_idx_r += adv_r;
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self.delay_idx_r += adv_r;
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self.true_idx += 1;
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self.true_idx += 1;
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// get how close we are to the input idx, so we know if we have to interpolate/jump
|
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let l_diff = self.true_idx as f32 - self.delay_idx_l;
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let r_diff = self.true_idx as f32 - self.delay_idx_r;
|
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|
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// get the current value
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// get the current value
|
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let mut l = self.delays.l.floating_index(self.delay_idx_l);
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let mut l = self.delays.l.floating_index(self.delay_idx_l);
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||||||
let mut r = self.delays.r.floating_index(self.delay_idx_r);
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let mut r = self.delays.r.floating_index(self.delay_idx_r);
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||||||
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|
||||||
// get how close we are to the input idx, so we know if we have to interpolate/jump
|
// Interpolation
|
||||||
let l_diff = self.true_idx as f32 - self.delay_idx_l;
|
// if we are close to having to jump, we start interpolating with the jump destination
|
||||||
let r_diff = self.true_idx as f32 - self.delay_idx_r;
|
// interpolate when we're one third of the period away from jumping
|
||||||
|
|
||||||
// TODO change to a non-linear interpolation
|
// TODO change to a non-linear interpolation
|
||||||
|
|
||||||
|
@ -185,22 +189,11 @@ impl RoboTuna {
|
||||||
let a = (l_diff - period_l) / (period_l / DIV);
|
let a = (l_diff - period_l) / (period_l / DIV);
|
||||||
l *= a;
|
l *= a;
|
||||||
l += (1.0 - a) * self.delays.l.floating_index(self.delay_idx_l - period_l);
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l += (1.0 - a) * self.delays.l.floating_index(self.delay_idx_l - period_l);
|
||||||
// crossfade
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|
||||||
// if we are close to having to jump, we start crossfading with the jump destination
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|
||||||
// crossfade when we're one third of the period away from jumping
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|
||||||
// when we get close to jumping back
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|
||||||
if l_diff - period_l < cf_len_l {
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|
||||||
// cross goes from 1 (when l_diff is at the max) to 0 (when l_diff == period_l)
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|
||||||
let cross = (l_diff - period_l) / cf_len_l;
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|
||||||
let (fade_in, fade_out) = ep_crossfade(1.0 - cross);
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|
||||||
l = fade_out * l + fade_in * self.delays.l.floating_index(self.delay_idx_l - period_l);
|
|
||||||
}
|
}
|
||||||
// when we get close to jumping foward
|
if 3.0 * period_l - l_diff < (period_l / DIV) {
|
||||||
if MAX_PERIOD * period_l - l_diff < cf_len_l {
|
let a = (3.0 * period_l - l_diff) / (period_l / DIV);
|
||||||
// cross goes from 1 (when l_diff is at the min) to 0 (when l_diff == 3.0 * period_l)
|
l *= a;
|
||||||
let cross = (MAX_PERIOD * period_l - l_diff) / cf_len_l;
|
l += (1.0 - a) * self.delays.l.floating_index(self.delay_idx_l - period_l);
|
||||||
let (fade_in, fade_out) = ep_crossfade(1.0 - cross);
|
|
||||||
l = fade_out * l + fade_in * self.delays.l.floating_index(self.delay_idx_l + period_l);
|
|
||||||
}
|
}
|
||||||
if r_diff - period_r < (period_r / DIV) {
|
if r_diff - period_r < (period_r / DIV) {
|
||||||
let a = (r_diff - period_r) / (period_r / DIV);
|
let a = (r_diff - period_r) / (period_r / DIV);
|
||||||
|
|
|
@ -10,7 +10,13 @@ impl<const LEN: usize> DelayLine<LEN> {
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
/// write to delay line and advance index
|
pub fn read_slice(&self, slice: &mut [f32]) {
|
||||||
|
// Copy values in order
|
||||||
|
for i in 0..LEN {
|
||||||
|
slice[i] = self.wrapped_index(self.index + i);
|
||||||
|
}
|
||||||
|
}
|
||||||
|
|
||||||
pub fn write_and_advance(&mut self, value: f32) {
|
pub fn write_and_advance(&mut self, value: f32) {
|
||||||
self.buffer[self.index] = value;
|
self.buffer[self.index] = value;
|
||||||
|
|
||||||
|
@ -21,13 +27,6 @@ impl<const LEN: usize> DelayLine<LEN> {
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
/// write to delay line, advance index, and return the oldest sample
|
|
||||||
pub fn write_and_advance_get_last(&mut self, value: f32) -> f32 {
|
|
||||||
self.write_and_advance(value);
|
|
||||||
|
|
||||||
self.wrapped_index(self.index + 1)
|
|
||||||
}
|
|
||||||
|
|
||||||
/// Returns the sample at idx after taking modulo LEN
|
/// Returns the sample at idx after taking modulo LEN
|
||||||
pub fn wrapped_index(&self, idx: usize) -> f32 {
|
pub fn wrapped_index(&self, idx: usize) -> f32 {
|
||||||
self.buffer[idx % LEN]
|
self.buffer[idx % LEN]
|
||||||
|
@ -38,8 +37,9 @@ impl<const LEN: usize> DelayLine<LEN> {
|
||||||
let idx = val.trunc() as usize;
|
let idx = val.trunc() as usize;
|
||||||
let frac = val.fract();
|
let frac = val.fract();
|
||||||
|
|
||||||
|
// TODO uhm idk what this should be, but we don't want an underflow so yeah,
|
||||||
let xm1 = if idx == 0 {
|
let xm1 = if idx == 0 {
|
||||||
self.wrapped_index(LEN - 1)
|
0.0
|
||||||
} else {
|
} else {
|
||||||
self.wrapped_index(idx - 1)
|
self.wrapped_index(idx - 1)
|
||||||
};
|
};
|
||||||
|
@ -62,13 +62,6 @@ impl<const LEN: usize> DelayLine<LEN> {
|
||||||
pub fn buffer(&self) -> &[f32; LEN] {
|
pub fn buffer(&self) -> &[f32; LEN] {
|
||||||
&self.buffer
|
&self.buffer
|
||||||
}
|
}
|
||||||
|
|
||||||
pub fn read_slice(&self, slice: &mut [f32]) {
|
|
||||||
// Copy values in order
|
|
||||||
for i in 0..LEN {
|
|
||||||
slice[i] = self.wrapped_index(self.index + i);
|
|
||||||
}
|
|
||||||
}
|
|
||||||
}
|
}
|
||||||
|
|
||||||
pub struct DelayLines<const LEN: usize> {
|
pub struct DelayLines<const LEN: usize> {
|
||||||
|
|
|
@ -1,41 +0,0 @@
|
||||||
// from https://www.musicdsp.org/en/latest/Analysis/97-envelope-detector.html
|
|
||||||
// with some modifications
|
|
||||||
pub struct EnvelopeFollower {
|
|
||||||
x1: f32,
|
|
||||||
x2: f32,
|
|
||||||
|
|
||||||
ga: f32,
|
|
||||||
gr: f32,
|
|
||||||
}
|
|
||||||
|
|
||||||
impl EnvelopeFollower {
|
|
||||||
pub fn new() -> Self {
|
|
||||||
Self {
|
|
||||||
x1: 0.0,
|
|
||||||
x2: 0.0,
|
|
||||||
ga: 0.0,
|
|
||||||
gr: 0.0,
|
|
||||||
}
|
|
||||||
}
|
|
||||||
|
|
||||||
/// attack and release are in seconds
|
|
||||||
pub fn set_attack_release(&mut self, sample_rate: f32, attack: f32, release: f32) {
|
|
||||||
self.ga = (-1.0 / (sample_rate * attack)).exp();
|
|
||||||
self.gr = (-1.0 / (sample_rate * release)).exp();
|
|
||||||
}
|
|
||||||
|
|
||||||
pub fn process(&mut self, input: f32) -> f32 {
|
|
||||||
let in_abs = input.abs();
|
|
||||||
|
|
||||||
// 2nd order lowpass
|
|
||||||
if self.x1 < in_abs {
|
|
||||||
self.x1 = in_abs + self.ga * (self.x1 - in_abs);
|
|
||||||
self.x2 = self.x1 + self.ga * (self.x2 - self.x1);
|
|
||||||
} else {
|
|
||||||
self.x1 = in_abs + self.gr * (self.x1 - in_abs);
|
|
||||||
self.x2 = self.x1 + self.gr * (self.x2 - self.x1);
|
|
||||||
}
|
|
||||||
|
|
||||||
self.x2
|
|
||||||
}
|
|
||||||
}
|
|
|
@ -1,6 +1,5 @@
|
||||||
pub mod buffers;
|
pub mod buffers;
|
||||||
pub mod delay;
|
pub mod delay;
|
||||||
pub mod envelope;
|
|
||||||
pub mod logs;
|
pub mod logs;
|
||||||
pub mod pitch;
|
pub mod pitch;
|
||||||
pub mod threeband;
|
pub mod threeband;
|
||||||
|
|
3
macos.sh
3
macos.sh
|
@ -1,7 +1,6 @@
|
||||||
#!/bin/bash
|
#!/bin/bash
|
||||||
|
|
||||||
set -e
|
# Make sure we have the arguments we need
|
||||||
|
|
||||||
if [[ -z $1 ]]; then
|
if [[ -z $1 ]]; then
|
||||||
echo "Builds, bundles and copies to /Library/Audio/Plug-Ins/VST a package"
|
echo "Builds, bundles and copies to /Library/Audio/Plug-Ins/VST a package"
|
||||||
echo "Example:"
|
echo "Example:"
|
||||||
|
|
Loading…
Reference in New Issue