1efc762924
# Objective
- Introduce a stable alternative to
[`std::any::type_name`](https://doc.rust-lang.org/std/any/fn.type_name.html).
- Rewrite of #5805 with heavy inspiration in design.
- On the path to #5830.
- Part of solving #3327.
## Solution
- Add a `TypePath` trait for static stable type path/name information.
- Add a `TypePath` derive macro.
- Add a `impl_type_path` macro for implementing internal and foreign
types in `bevy_reflect`.
---
## Changelog
- Added `TypePath` trait.
- Added `DynamicTypePath` trait and `get_type_path` method to `Reflect`.
- Added a `TypePath` derive macro.
- Added a `bevy_reflect::impl_type_path` for implementing `TypePath` on
internal and foreign types in `bevy_reflect`.
- Changed `bevy_reflect::utility::(Non)GenericTypeInfoCell` to
`(Non)GenericTypedCell<T>` which allows us to be generic over both
`TypeInfo` and `TypePath`.
- `TypePath` is now a supertrait of `Asset`, `Material` and
`Material2d`.
- `impl_reflect_struct` needs a `#[type_path = "..."]` attribute to be
specified.
- `impl_reflect_value` needs to either specify path starting with a
double colon (`::core::option::Option`) or an `in my_crate::foo`
declaration.
- Added `bevy_reflect_derive::ReflectTypePath`.
- Most uses of `Ident` in `bevy_reflect_derive` changed to use
`ReflectTypePath`.
## Migration Guide
- Implementors of `Asset`, `Material` and `Material2d` now also need to
derive `TypePath`.
- Manual implementors of `Reflect` will need to implement the new
`get_type_path` method.
## Open Questions
- [x] ~This PR currently does not migrate any usages of
`std::any::type_name` to use `bevy_reflect::TypePath` to ease the review
process. Should it?~ Migration will be left to a follow-up PR.
- [ ] This PR adds a lot of `#[derive(TypePath)]` and `T: TypePath` to
satisfy new bounds, mostly when deriving `TypeUuid`. Should we make
`TypePath` a supertrait of `TypeUuid`? [Should we remove `TypeUuid` in
favour of
`TypePath`?](2afbd85532 (r961067892))
103 lines
3.0 KiB
Rust
103 lines
3.0 KiB
Rust
//! Shows how to create a custom [`Decodable`] type by implementing a Sine wave.
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use bevy::audio::AddAudioSource;
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use bevy::audio::AudioPlugin;
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use bevy::audio::Source;
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use bevy::prelude::*;
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use bevy::reflect::{TypePath, TypeUuid};
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use bevy::utils::Duration;
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// This struct usually contains the data for the audio being played.
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// This is where data read from an audio file would be stored, for example.
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// Implementing `TypeUuid` will automatically implement `Asset`.
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// This allows the type to be registered as an asset.
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#[derive(TypePath, TypeUuid)]
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#[uuid = "c2090c23-78fd-44f1-8508-c89b1f3cec29"]
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struct SineAudio {
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frequency: f32,
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}
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// This decoder is responsible for playing the audio,
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// and so stores data about the audio being played.
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struct SineDecoder {
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// how far along one period the wave is (between 0 and 1)
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current_progress: f32,
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// how much we move along the period every frame
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progress_per_frame: f32,
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// how long a period is
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period: f32,
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sample_rate: u32,
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}
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impl SineDecoder {
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fn new(frequency: f32) -> Self {
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// standard sample rate for most recordings
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let sample_rate = 44_100;
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SineDecoder {
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current_progress: 0.,
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progress_per_frame: frequency / sample_rate as f32,
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period: std::f32::consts::PI * 2.,
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sample_rate,
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}
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}
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}
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// The decoder must implement iterator so that it can implement `Decodable`.
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impl Iterator for SineDecoder {
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type Item = f32;
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fn next(&mut self) -> Option<Self::Item> {
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self.current_progress += self.progress_per_frame;
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// we loop back round to 0 to avoid floating point inaccuracies
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self.current_progress %= 1.;
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Some(f32::sin(self.period * self.current_progress))
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}
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}
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// `Source` is what allows the audio source to be played by bevy.
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// This trait provides information on the audio.
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impl Source for SineDecoder {
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fn current_frame_len(&self) -> Option<usize> {
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None
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}
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fn channels(&self) -> u16 {
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1
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}
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fn sample_rate(&self) -> u32 {
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self.sample_rate
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}
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fn total_duration(&self) -> Option<Duration> {
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None
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}
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}
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// Finally `Decodable` can be implemented for our `SineAudio`.
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impl Decodable for SineAudio {
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type Decoder = SineDecoder;
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type DecoderItem = <SineDecoder as Iterator>::Item;
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fn decoder(&self) -> Self::Decoder {
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SineDecoder::new(self.frequency)
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}
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}
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fn main() {
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let mut app = App::new();
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// register the audio source so that it can be used
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app.add_plugins(DefaultPlugins.set(AudioPlugin {
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global_volume: GlobalVolume::new(0.2),
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}))
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.add_audio_source::<SineAudio>()
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.add_systems(Startup, setup)
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.run();
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}
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fn setup(mut assets: ResMut<Assets<SineAudio>>, audio: Res<Audio<SineAudio>>) {
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// add a `SineAudio` to the asset server so that it can be played
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let audio_handle = assets.add(SineAudio {
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frequency: 440., //this is the frequency of A4
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});
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audio.play(audio_handle);
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}
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