2022-02-15 00:19:46 +11:00
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//! Simple number-backed parameters.
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use std::fmt::Display;
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use std::sync::Arc;
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use super::internals::ParamPtr;
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use super::range::{NormalizebleRange, Range};
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use super::smoothing::{Smoother, SmoothingStyle};
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use super::Param;
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pub type FloatParam = PlainParam<f32>;
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pub type IntParam = PlainParam<i32>;
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/// A numerical parameter that's stored unnormalized. The range is used for the normalization
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/// process.
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///
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/// You can either initialize the struct directly, using `..Default::default()` to fill in the
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/// unused fields, or you can use the builder interface with [Self::new()].
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//
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// XXX: To keep the API simple and to allow the optimizer to do its thing, the values are stored as
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// plain primitive values that are modified through the `*mut` pointers from the plugin's
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// `Params` object. Technically modifying these while the GUI is open is unsound. We could
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// remedy this by changing `value` to be an atomic type and adding a function also called
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// `value()` to load that value, but in practice that should not be necessary if we don't do
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// anything crazy other than modifying this value. On both AArch64 and x86(_64) reads and
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// writes to naturally aligned values up to word size are atomic, so there's no risk of reading
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// a partially written to value here. We should probably reconsider this at some point though.
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#[repr(C, align(4))]
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pub struct PlainParam<T> {
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/// The field's current plain, unnormalized value. Should be initialized with the default value.
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/// Storing parameter values like this instead of in a single contiguous array is bad for cache
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/// locality, but it does allow for a much nicer declarative API.
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pub value: T,
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/// An optional smoother that will automatically interpolate between the new automation values
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/// set by the host.
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pub smoothed: Smoother<T>,
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/// Optional callback for listening to value changes. The argument passed to this function is
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/// the parameter's new **plain** value. This should not do anything expensive as it may be
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/// called multiple times in rapid succession.
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///
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/// To use this, you'll probably want to store an `Arc<Atomic*>` alongside the parmater in the
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/// parmaeters struct, move a clone of that `Arc` into this closure, and then modify that.
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///
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/// TODO: We probably also want to pass the old value to this function.
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pub value_changed: Option<Arc<dyn Fn(T) + Send + Sync>>,
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/// The distribution of the parameter's values.
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pub range: Range<T>,
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/// The distance between steps of a [FloatParam]. Ignored for [IntParam]. Mostly useful for
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/// quantizing GUI input. If this is set and if [Self::value_to_string] is not set, then this is
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/// also used when formatting the parameter. This must be a positive, nonzero number.
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pub step_size: Option<f32>,
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/// The parameter's human readable display name.
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pub name: &'static str,
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/// The parameter value's unit, added after `value_to_string` if that is set. NIH-plug will not
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/// automatically add a space before the unit.
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pub unit: &'static str,
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/// Optional custom conversion function from a plain **unnormalized** value to a string.
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pub value_to_string: Option<Arc<dyn Fn(T) -> String + Send + Sync>>,
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/// Optional custom conversion function from a string to a plain **unnormalized** value. If the
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/// string cannot be parsed, then this should return a `None`. If this happens while the
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/// parameter is being updated then the update will be canceled.
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pub string_to_value: Option<Arc<dyn Fn(&str) -> Option<T> + Send + Sync>>,
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}
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impl<T> Default for PlainParam<T>
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where
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T: Default,
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Range<T>: Default,
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{
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fn default() -> Self {
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Self {
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value: T::default(),
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smoothed: Smoother::none(),
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value_changed: None,
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range: Range::default(),
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step_size: None,
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name: "",
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unit: "",
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value_to_string: None,
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string_to_value: None,
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}
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}
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}
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impl<T: Display + Copy> Display for PlainParam<T> {
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fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
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match (&self.value_to_string, &self.step_size) {
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(Some(func), _) => write!(f, "{}{}", func(self.value), self.unit),
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(None, Some(step_size)) => {
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let num_digits = decimals_from_step_size(*step_size);
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write!(f, "{:.num_digits$}{}", self.value, self.unit)
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}
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_ => write!(f, "{}{}", self.value, self.unit),
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}
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}
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}
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macro_rules! impl_plainparam {
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($ty:ident, $plain:ty) => {
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impl Param for $ty {
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type Plain = $plain;
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2022-03-03 23:55:54 +11:00
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fn name(&self) -> &'static str {
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self.name
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}
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fn unit(&self) -> &'static str {
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self.unit
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}
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fn step_count(&self) -> Option<usize> {
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self.range.step_count()
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}
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2022-02-15 00:19:46 +11:00
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fn plain_value(&self) -> Self::Plain {
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self.value
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}
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fn set_plain_value(&mut self, plain: Self::Plain) {
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self.value = plain;
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if let Some(f) = &self.value_changed {
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f(plain);
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}
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}
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fn normalized_value(&self) -> f32 {
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self.preview_normalized(self.value)
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}
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fn set_normalized_value(&mut self, normalized: f32) {
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self.set_plain_value(self.preview_plain(normalized));
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}
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fn normalized_value_to_string(&self, normalized: f32, include_unit: bool) -> String {
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let value = self.preview_plain(normalized);
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match (&self.value_to_string, &self.step_size, include_unit) {
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(Some(f), _, true) => format!("{}{}", f(value), self.unit),
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(Some(f), _, false) => format!("{}", f(value)),
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(None, Some(step_size), true) => {
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let num_digits = decimals_from_step_size(*step_size);
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format!("{:.num_digits$}{}", value, self.unit)
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}
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(None, Some(step_size), false) => {
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let num_digits = decimals_from_step_size(*step_size);
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format!("{:.num_digits$}", value)
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}
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(None, None, true) => format!("{}{}", value, self.unit),
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(None, None, false) => format!("{}", value),
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}
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}
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fn string_to_normalized_value(&self, string: &str) -> Option<f32> {
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let value = match &self.string_to_value {
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Some(f) => f(string),
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// TODO: Check how Rust's parse function handles trailing garbage
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None => string.parse().ok(),
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}?;
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Some(self.preview_normalized(value))
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}
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fn preview_normalized(&self, plain: Self::Plain) -> f32 {
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self.range.normalize(plain)
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}
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fn preview_plain(&self, normalized: f32) -> Self::Plain {
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let value = self.range.unnormalize(normalized);
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match &self.step_size {
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// Step size snapping is not defined for [IntParam], so this cast is here just
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// so we can keep everything in this macro
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Some(step_size) => self.range.snap_to_step(value, *step_size as Self::Plain),
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None => value,
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}
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}
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2022-03-02 02:53:18 +11:00
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fn set_from_string(&mut self, string: &str) -> bool {
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let value = match &self.string_to_value {
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Some(f) => f(string),
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// TODO: Check how Rust's parse function handles trailing garbage
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None => string.parse().ok(),
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};
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match value {
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Some(plain) => {
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self.set_plain_value(plain);
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true
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}
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None => false,
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}
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}
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fn update_smoother(&mut self, sample_rate: f32, reset: bool) {
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if reset {
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self.smoothed.reset(self.value);
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} else {
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self.smoothed.set_target(sample_rate, self.value);
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}
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}
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2022-03-02 03:07:03 +11:00
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fn initialize_block_smoother(&mut self, max_block_size: usize) {
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self.smoothed.initialize_block_smoother(max_block_size);
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}
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2022-02-15 00:19:46 +11:00
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fn as_ptr(&self) -> ParamPtr {
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ParamPtr::$ty(self as *const $ty as *mut $ty)
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}
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}
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};
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}
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impl_plainparam!(FloatParam, f32);
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impl_plainparam!(IntParam, i32);
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impl<T: Default> PlainParam<T>
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where
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Range<T>: Default,
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{
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/// Build a new [Self]. Use the other associated functions to modify the behavior of the
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/// parameter.
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pub fn new(name: &'static str, default: T, range: Range<T>) -> Self {
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Self {
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value: default,
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range,
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name,
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..Default::default()
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}
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}
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/// Run a callback whenever this parameter's value changes. The argument passed to this function
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/// is the parameter's new value. This should not do anything expensive as it may be called
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/// multiple times in rapid succession, and it can be run from both the GUI and the audio
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/// thread.
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pub fn with_smoother(mut self, style: SmoothingStyle) -> Self {
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self.smoothed = Smoother::new(style);
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self
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}
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/// Run a callback whenever this parameter's value changes. The argument passed to this function
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/// is the parameter's new value. This should not do anything expensive as it may be called
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/// multiple times in rapid succession, and it can be run from both the GUI and the audio
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/// thread.
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pub fn with_callback(mut self, callback: Arc<dyn Fn(T) + Send + Sync>) -> Self {
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self.value_changed = Some(callback);
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self
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}
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/// Display a unit when rendering this parameter to a string. Appended after the
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/// [Self::value_to_string] function if that is also set. NIH-plug will not
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/// automatically add a space before the unit.
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pub fn with_unit(mut self, unit: &'static str) -> Self {
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self.unit = unit;
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self
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}
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/// Use a custom conversion function to convert the plain, unnormalized value to a
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/// string.
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pub fn with_value_to_string(
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mut self,
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callback: Arc<dyn Fn(T) -> String + Send + Sync>,
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) -> Self {
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self.value_to_string = Some(callback);
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self
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}
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// `with_step_size` is only implemented for the f32 version
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/// Use a custom conversion function to convert from a string to a plain, unnormalized
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/// value. If the string cannot be parsed, then this should return a `None`. If this
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/// happens while the parameter is being updated then the update will be canceled.
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pub fn with_string_to_value<F>(
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mut self,
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callback: Arc<dyn Fn(&str) -> Option<T> + Send + Sync>,
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) -> Self {
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self.string_to_value = Some(callback);
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self
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}
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}
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impl PlainParam<f32> {
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/// Set the distance between steps of a [FloatParam]. Mostly useful for quantizing GUI input. If
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/// this is set and if [Self::value_to_string] is not set, then this is also used when
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/// formatting the parameter. This must be a positive, nonzero number.
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pub fn with_step_size(mut self, step_size: f32) -> Self {
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self.step_size = Some(step_size);
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self
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}
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}
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/// Caldculate how many decimals to round to when displaying a floating point value with a specific
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/// step size. We'll perform some rounding to ignore spurious extra precision caused by the floating
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/// point quantization.
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fn decimals_from_step_size(step_size: f32) -> usize {
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const SCALE: f32 = 1_000_000.0; // 10.0f32.powi(f32::DIGITS as i32)
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let step_size = (step_size * SCALE).round() / SCALE;
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let mut num_digits = 0;
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for decimals in 0..f32::DIGITS as i32 {
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if step_size * 10.0f32.powi(decimals) as f32 >= 1.0 {
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num_digits = decimals;
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break;
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}
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}
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num_digits as usize
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}
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