201 lines
7.1 KiB
Rust
201 lines
7.1 KiB
Rust
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//! Enum parameters. `enum` is a keyword, so `enums` it is.
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use std::fmt::Display;
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use super::internals::ParamPtr;
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use super::range::Range;
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use super::{IntParam, Param};
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// Re-export for the [EnumParam]
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// TODO: Consider re-exporting this from a non-root module to make it a bit less spammy:w
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pub use strum::{Display, EnumIter, EnumMessage, IntoEnumIterator as EnumIter};
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/// An [IntParam]-backed categorical parameter that allows convenient conversion to and from a
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/// simple enum. This enum must derive the re-exported [EnumIter] and [EnumMessage] and [Display]
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/// traits. You can use the `#[strum(message = "Foo Bar")]` to override the name of the variant.
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//
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// TODO: Figure out a more sound way to get the same interface
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pub struct EnumParam<T: EnumIter + EnumMessage + Eq + Copy + Display> {
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/// The integer parameter backing this enum parameter.
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pub inner: IntParam,
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/// An associative list of the variants converted to an i32 and their names. We need this
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/// because we're doing some nasty type erasure things with [ParamPtr::EnumParam], so we can't
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/// directly query the associated functions on `T` after the parameter when handling function
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/// calls from the wrapper.
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variants: Vec<(T, String)>,
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}
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impl<T: EnumIter + EnumMessage + Eq + Copy + Display + Default> Default for EnumParam<T> {
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fn default() -> Self {
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let variants: Vec<_> = Self::build_variants();
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let default = T::default();
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Self {
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inner: IntParam {
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value: variants
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.iter()
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.position(|(v, _)| v == &default)
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.expect("Invalid variant in init") as i32,
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range: Range::Linear {
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min: 0,
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max: variants.len() as i32 - 1,
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},
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..Default::default()
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},
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variants,
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}
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}
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}
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impl<T: EnumIter + EnumMessage + Eq + Copy + Display> Display for EnumParam<T> {
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fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
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write!(f, "{}", self.variants[self.inner.plain_value() as usize].1)
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}
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}
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impl<T: EnumIter + EnumMessage + Eq + Copy + Display> Param for EnumParam<T> {
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type Plain = T;
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fn update_smoother(&mut self, sample_rate: f32, reset: bool) {
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self.inner.update_smoother(sample_rate, reset)
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}
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fn set_from_string(&mut self, string: &str) -> bool {
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match self.variants.iter().find(|(_, repr)| repr == string) {
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Some((variant, _)) => {
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self.inner.set_plain_value(self.to_index(*variant));
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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 plain_value(&self) -> Self::Plain {
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self.from_index(self.inner.plain_value())
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}
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fn set_plain_value(&mut self, plain: Self::Plain) {
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self.inner.set_plain_value(self.to_index(plain))
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}
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fn normalized_value(&self) -> f32 {
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self.inner.normalized_value()
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}
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fn set_normalized_value(&mut self, normalized: f32) {
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self.inner.set_normalized_value(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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// XXX: As mentioned below, our type punning would cause `.to_string()` to print the
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// incorect value. Because of that, we already stored the string representations for
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// variants values in this struct.
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let plain = self.preview_plain(normalized);
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let index = self.to_index(plain);
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self.variants[index as usize].1.clone()
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}
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fn string_to_normalized_value(&self, string: &str) -> Option<f32> {
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self.variants
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.iter()
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.find(|(_, repr)| repr == string)
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.map(|(variant, _)| self.preview_normalized(*variant))
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}
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fn preview_normalized(&self, plain: Self::Plain) -> f32 {
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self.inner.preview_normalized(self.to_index(plain))
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}
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fn preview_plain(&self, normalized: f32) -> Self::Plain {
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self.from_index(self.inner.preview_plain(normalized))
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}
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fn as_ptr(&self) -> ParamPtr {
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ParamPtr::EnumParam(
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self as *const EnumParam<T> as *mut EnumParam<T>
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as *mut EnumParam<super::internals::AnyEnum>,
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)
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}
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}
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impl<T: EnumIter + EnumMessage + Eq + Copy + Display> EnumParam<T> {
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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) -> Self {
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let variants: Vec<_> = Self::build_variants();
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Self {
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inner: IntParam {
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value: variants
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.iter()
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.position(|(v, _)| v == &default)
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.expect("Invalid variant in init") as i32,
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range: Range::Linear {
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min: 0,
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max: variants.len() as i32 - 1,
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},
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name,
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..Default::default()
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},
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variants,
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}
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}
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// We currently don't implement callbacks here. If we want to do that, then we'll need to add
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// the IntParam fields to the parameter itself.
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// TODO: Do exactly that
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}
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impl<T: EnumIter + EnumMessage + Eq + Copy + Display> EnumParam<T> {
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// TODO: There doesn't seem to be a single enum crate that gives you a dense [0, n_variatns)
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// mapping between integers and enum variants. So far linear search over this variants has
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// been the best approach. We should probably replace this with our own macro at some
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// point.
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/// The number of variants for this parameter
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//
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// This is part of the magic sauce that lets [ParamPtr::Enum] work. The type parmaeter there is
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// a dummy type, acting as a somewhat unsound way to do type erasure. Because all data is stored
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// in the struct after initialization (i.e. we no longer rely on T's specifics) and AnyParam is
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// represented by an i32 this EnumParam behaves correctly even when casted between Ts.
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//
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// TODO: Come up with a sounder way to do this.
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#[allow(clippy::len_without_is_empty)]
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pub fn len(&self) -> usize {
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self.variants.len()
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}
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/// Get the index associated to an enum variant.
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fn to_index(&self, variant: T) -> i32 {
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self.variants
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.iter()
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// This is somewhat shady, as `T` is going to be `AnyEnum` when this is indirectly
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// called from the wrapper.
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.position(|(v, _)| v == &variant)
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.expect("Invalid enum variant") as i32
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}
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/// Get a variant from a index.
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///
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/// # Panics
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///
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/// indices `>= Self::len()` will trigger a panic.
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#[allow(clippy::wrong_self_convention)]
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fn from_index(&self, index: i32) -> T {
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self.variants[index as usize].0
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}
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fn build_variants() -> Vec<(T, String)> {
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T::iter()
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.map(|v| {
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(
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v,
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v.get_message()
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.map(|custom_name| custom_name.to_string())
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.unwrap_or_else(|| v.to_string()),
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)
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})
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.collect()
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}
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}
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