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nih-plug/plugins/examples/sine/src/lib.rs

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use nih_plug::prelude::*;
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use std::f32::consts;
use std::sync::Arc;
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/// A test tone generator that can either generate a sine wave based on the plugin's parameters or
/// based on the current MIDI input.
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struct Sine {
params: Arc<SineParams>,
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sample_rate: f32,
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/// The current phase of the sine wave, always kept between in `[0, 1]`.
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phase: f32,
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/// The MIDI note ID of the active note, if triggered by MIDI.
midi_note_id: u8,
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/// The frequency if the active note, if triggered by MIDI.
midi_note_freq: f32,
/// A simple attack and release envelope to avoid clicks. Controlled through velocity and
/// aftertouch.
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///
/// Smoothing is built into the parameters, but you can also use them manually if you need to
/// smooth soemthing that isn't a parameter.
midi_note_gain: Smoother<f32>,
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}
#[derive(Params)]
struct SineParams {
#[id = "gain"]
pub gain: FloatParam,
#[id = "freq"]
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pub frequency: FloatParam,
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#[id = "usemid"]
pub use_midi: BoolParam,
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}
impl Default for Sine {
fn default() -> Self {
Self {
params: Arc::new(SineParams::default()),
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sample_rate: 1.0,
phase: 0.0,
midi_note_id: 0,
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midi_note_freq: 1.0,
midi_note_gain: Smoother::new(SmoothingStyle::Linear(5.0)),
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}
}
}
impl Default for SineParams {
fn default() -> Self {
Self {
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gain: FloatParam::new(
"Gain",
-10.0,
FloatRange::Linear {
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min: -30.0,
max: 0.0,
},
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)
.with_smoother(SmoothingStyle::Linear(3.0))
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.with_step_size(0.01)
.with_unit(" dB"),
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frequency: FloatParam::new(
"Frequency",
420.0,
FloatRange::Skewed {
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min: 1.0,
max: 20_000.0,
factor: FloatRange::skew_factor(-2.0),
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},
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)
.with_smoother(SmoothingStyle::Linear(10.0))
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// We purposely don't specify a step size here, but the parameter should still be
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// displayed as if it were rounded. This formatter also includes the unit.
.with_value_to_string(formatters::v2s_f32_hz_then_khz(0))
.with_string_to_value(formatters::s2v_f32_hz_then_khz()),
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use_midi: BoolParam::new("Use MIDI", false),
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}
}
}
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impl Sine {
fn calculate_sine(&mut self, frequency: f32) -> f32 {
let phase_delta = frequency / self.sample_rate;
let sine = (self.phase * consts::TAU).sin();
self.phase += phase_delta;
if self.phase >= 1.0 {
self.phase -= 1.0;
}
sine
}
}
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impl Plugin for Sine {
const NAME: &'static str = "Sine Test Tone";
const VENDOR: &'static str = "Moist Plugins GmbH";
const URL: &'static str = "https://youtu.be/dQw4w9WgXcQ";
const EMAIL: &'static str = "info@example.com";
const VERSION: &'static str = "0.0.1";
const DEFAULT_INPUT_CHANNELS: u32 = 0;
const DEFAULT_OUTPUT_CHANNELS: u32 = 2;
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const MIDI_INPUT: MidiConfig = MidiConfig::Basic;
const SAMPLE_ACCURATE_AUTOMATION: bool = true;
type AsyncExecutor = ();
fn async_executor(&self) -> Self::AsyncExecutor {}
fn params(&self) -> Arc<dyn Params> {
self.params.clone()
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}
fn accepts_bus_config(&self, config: &BusConfig) -> bool {
// This can output to any number of channels, but it doesn't take any audio inputs
config.num_input_channels == 0 && config.num_output_channels > 0
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}
fn initialize(
&mut self,
_bus_config: &BusConfig,
buffer_config: &BufferConfig,
_context: &mut impl InitContext,
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) -> bool {
self.sample_rate = buffer_config.sample_rate;
true
}
fn reset(&mut self) {
self.phase = 0.0;
self.midi_note_id = 0;
self.midi_note_freq = 1.0;
self.midi_note_gain.reset(0.0);
}
fn process(
&mut self,
buffer: &mut Buffer,
_aux: &mut AuxiliaryBuffers,
context: &mut impl ProcessContext,
) -> ProcessStatus {
let mut next_event = context.next_event();
for (sample_id, channel_samples) in buffer.iter_samples().enumerate() {
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// Smoothing is optionally built into the parameters themselves
let gain = self.params.gain.smoothed.next();
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// This plugin can be either triggered by MIDI or controleld by a parameter
let sine = if self.params.use_midi.value() {
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// Act on the next MIDI event
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while let Some(event) = next_event {
if event.timing() > sample_id as u32 {
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break;
}
match event {
NoteEvent::NoteOn { note, velocity, .. } => {
self.midi_note_id = note;
self.midi_note_freq = util::midi_note_to_freq(note);
self.midi_note_gain.set_target(self.sample_rate, velocity);
}
NoteEvent::NoteOff { note, .. } if note == self.midi_note_id => {
self.midi_note_gain.set_target(self.sample_rate, 0.0);
}
NoteEvent::PolyPressure { note, pressure, .. }
if note == self.midi_note_id =>
{
self.midi_note_gain.set_target(self.sample_rate, pressure);
}
_ => (),
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}
next_event = context.next_event();
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}
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// This gain envelope prevents clicks with new notes and with released notes
self.calculate_sine(self.midi_note_freq) * self.midi_note_gain.next()
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} else {
let frequency = self.params.frequency.smoothed.next();
self.calculate_sine(frequency)
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};
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for sample in channel_samples {
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*sample = sine * util::db_to_gain(gain);
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}
}
ProcessStatus::KeepAlive
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}
}
impl ClapPlugin for Sine {
const CLAP_ID: &'static str = "com.moist-plugins-gmbh.sine";
const CLAP_DESCRIPTION: Option<&'static str> =
Some("An optionally MIDI controlled sine test tone");
const CLAP_MANUAL_URL: Option<&'static str> = Some(Self::URL);
const CLAP_SUPPORT_URL: Option<&'static str> = None;
const CLAP_FEATURES: &'static [ClapFeature] = &[
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ClapFeature::Synthesizer,
ClapFeature::Stereo,
ClapFeature::Mono,
ClapFeature::Utility,
];
}
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impl Vst3Plugin for Sine {
const VST3_CLASS_ID: [u8; 16] = *b"SineMoistestPlug";
const VST3_CATEGORIES: &'static str = "Instrument|Synth|Tools";
}
nih_export_clap!(Sine);
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nih_export_vst3!(Sine);