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# Objective The way `Curve` presently achieves dyn-compatibility involves shoving `Self: Sized` bounds on a bunch of methods to forbid them from appearing in vtables. (This is called *explicit non-dispatchability*.) The `Curve` trait probably also just has way too many methods on its own. In the past, using extension traits instead to achieve similar functionality has been discussed. The upshot is that this would allow the "core" of the curve trait, on which all the automatic methods rely, to live in a very simple dyn-compatible trait, while other functionality is implemented by extensions. For instance, `dyn Curve<T>` cannot use the `Sized` methods, but `Box<dyn Curve<T>>` is `Sized`, hence would automatically implement the extension trait, containing the methods which are currently non-dispatchable. Other motivations for this include modularity and code organization: the `Curve` trait itself has grown quite large with the addition of numerous adaptors, and refactoring it to demonstrate the separation of functionality that is already present makes a lot of sense. Furthermore, resampling behavior in particular is dependent on special traits that may be mimicked or analogized in user-space, and creating extension traits to achieve similar behavior in user-space is something we ought to encourage by example. ## Solution `Curve` now contains only `domain` and the `sample` methods. `CurveExt` has been created, and it contains all adaptors, along with the other sampling convenience methods (`samples`, `sample_iter`, etc.). It is implemented for all `C` where `C: Curve<T> + Sized`. `CurveResampleExt` has been created, and it contains all resampling methods. It is implemented for all `C` where `C: Curve<T> + ?Sized`. ## Testing It compiles and `cargo doc` succeeds. --- ## Future work - Consider writing extension traits for resampling curves in related domains (e.g. resampling for `Curve<T>` where `T: Animatable` into an `AnimatableKeyframeCurve`). - `CurveExt` might be further broken down to separate the adaptor and sampling methods. --- ## Migration Guide `Curve` has been refactored so that much of its functionality is now in extension traits. Adaptors such as `map`, `reparametrize`, `reverse`, and so on now require importing `CurveExt`, while the resampling methods `resample_*` require importing `CurveResampleExt`. Both of these new traits are exported through `bevy::math::curve` and through `bevy::math::prelude`. |
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What is Bevy?
Bevy is a refreshingly simple data-driven game engine built in Rust. It is free and open-source forever!
WARNING
Bevy is still in the early stages of development. Important features are missing. Documentation is sparse. A new version of Bevy containing breaking changes to the API is released approximately once every 3 months. We provide migration guides, but we can't guarantee migrations will always be easy. Use only if you are willing to work in this environment.
MSRV: Bevy relies heavily on improvements in the Rust language and compiler. As a result, the Minimum Supported Rust Version (MSRV) is generally close to "the latest stable release" of Rust.
Design Goals
- Capable: Offer a complete 2D and 3D feature set
- Simple: Easy for newbies to pick up, but infinitely flexible for power users
- Data Focused: Data-oriented architecture using the Entity Component System paradigm
- Modular: Use only what you need. Replace what you don't like
- Fast: App logic should run quickly, and when possible, in parallel
- Productive: Changes should compile quickly ... waiting isn't fun
About
- Features: A quick overview of Bevy's features.
- News: A development blog that covers our progress, plans and shiny new features.
Docs
- Quick Start Guide: Bevy's official Quick Start Guide. The best place to start learning Bevy.
- Bevy Rust API Docs: Bevy's Rust API docs, which are automatically generated from the doc comments in this repo.
- Official Examples: Bevy's dedicated, runnable examples, which are great for digging into specific concepts.
- Community-Made Learning Resources: More tutorials, documentation, and examples made by the Bevy community.
Community
Before contributing or participating in discussions with the community, you should familiarize yourself with our Code of Conduct.
- Discord: Bevy's official discord server.
- Reddit: Bevy's official subreddit.
- GitHub Discussions: The best place for questions about Bevy, answered right here!
- Bevy Assets: A collection of awesome Bevy projects, tools, plugins and learning materials.
Contributing
If you'd like to help build Bevy, check out the Contributor's Guide. For simple problems, feel free to open an issue or PR and tackle it yourself!
For more complex architecture decisions and experimental mad science, please open an RFC (Request For Comments) so we can brainstorm together effectively!
Getting Started
We recommend checking out the Quick Start Guide for a brief introduction.
Follow the Setup guide to ensure your development environment is set up correctly. Once set up, you can quickly try out the examples by cloning this repo and running the following commands:
# Switch to the correct version (latest release, default is main development branch)
git checkout latest
# Runs the "breakout" example
cargo run --example breakout
To draw a window with standard functionality enabled, use:
use bevy::prelude::*;
fn main(){
App::new()
.add_plugins(DefaultPlugins)
.run();
}
Fast Compiles
Bevy can be built just fine using default configuration on stable Rust. However for really fast iterative compiles, you should enable the "fast compiles" setup by following the instructions here.
Bevy Cargo Features
This list outlines the different cargo features supported by Bevy. These allow you to customize the Bevy feature set for your use-case.
Thanks
Bevy is the result of the hard work of many people. A huge thanks to all Bevy contributors, the many open source projects that have come before us, the Rust gamedev ecosystem, and the many libraries we build on.
A huge thanks to Bevy's generous sponsors. Bevy will always be free and open source, but it isn't free to make. Please consider sponsoring our work if you like what we're building.
This project is tested with BrowserStack.
License
Bevy is free, open source and permissively licensed! Except where noted (below and/or in individual files), all code in this repository is dual-licensed under either:
- MIT License (LICENSE-MIT or http://opensource.org/licenses/MIT)
- Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
at your option. This means you can select the license you prefer! This dual-licensing approach is the de-facto standard in the Rust ecosystem and there are very good reasons to include both.
Some of the engine's code carries additional copyright notices and license terms due to their external origins.
These are generally BSD-like, but exact details vary by crate:
If the README of a crate contains a 'License' header (or similar), the additional copyright notices and license terms applicable to that crate will be listed.
The above licensing requirement still applies to contributions to those crates, and sections of those crates will carry those license terms.
The license field of each crate will also reflect this.
For example, bevy_mikktspace has code under the Zlib license (as well as a copyright notice when choosing the MIT license).
The assets included in this repository (for our examples) typically fall under different open licenses. These will not be included in your game (unless copied in by you), and they are not distributed in the published bevy crates. See CREDITS.md for the details of the licenses of those files.
Your contributions
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.