valence/CONTRIBUTING.md
Ryan Johnson cb9230ec34
ECS Rewrite (#184)
This PR redesigns Valence's architecture around the Bevy Entity
Component System framework (`bevy_ecs` and `bevy_app`). Along the way, a
large number of changes and improvements have been made.
- Valence is now a Bevy plugin. This allows Valence to integrate with
the wider Bevy ecosystem.
- The `Config` trait has been replaced with the plugin struct which is
much easier to configure. Async callbacks are grouped into their own
trait.
- `World` has been renamed to `Instance` to avoid confusion with
`bevy_ecs::world::World`.
- Entities, clients, player list, and inventories are all just ECS
components/resources. There is no need for us to have our own
generational arena/slotmap/etc for each one.
- Client events use Bevy's event system. Users can read events with the
`EventReader` system parameter. This also means that events are
dispatched at an earlier stage of the program where access to the full
server is available. There is a special "event loop" stage which is used
primarily to avoid the loss of ordering information between events.
- Chunks have been completely overhauled to be simpler and faster. The
distinction between loaded and unloaded chunks has been mostly
eliminated. The per-section bitset that tracked changes has been
removed, which should further reduce memory usage. More operations on
chunks are available such as removal and cloning.
- The full client's game profile is accessible rather than just the
textures.
- Replaced `vek` with `glam` for parity with Bevy.
- Basic inventory support has been added.
- Various small changes to `valence_protocol`.
- New Examples
- The terrain and anvil examples are now fully asynchronous and will not
block the main tick loop while chunks are loading.

# TODOs
- [x] Implement and dispatch client events.
- ~~[ ] Finish implementing the new entity/chunk update algorithm.~~ New
approach ended up being slower. And also broken.
- [x] [Update rust-mc-bot to
1.19.3](https://github.com/Eoghanmc22/rust-mc-bot/pull/3).
- [x] Use rust-mc-bot to test for and fix any performance regressions.
Revert to old entity/chunk update algorithm if the new one turns out to
be slower for some reason.
- [x] Make inventories an ECS component.
- [x] Make player lists an ECS ~~component~~ resource.
- [x] Expose all properties of the client's game profile.
- [x] Update the examples.
- [x] Update `valence_anvil`.
- ~~[ ] Update `valence_spatial_index` to use `glam` instead of `vek`.~~
Maybe later
- [x] Make entity events use a bitset.
- [x] Update docs.

Closes #69
Closes #179
Closes #53

---------

Co-authored-by: Carson McManus <dyc3@users.noreply.github.com>
Co-authored-by: AviiNL <me@avii.nl>
Co-authored-by: Danik Vitek <x3665107@gmail.com>
Co-authored-by: Snowiiii <71594357+Snowiiii@users.noreply.github.com>
2023-02-11 09:51:53 -08:00

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Markdown

Valence has a public Discord server [here](https://discord.gg/8Fqqy9XrYb). Check it out if you have additional questions
or comments.
# What version of Rust should I use?
To _use_ Valence, only the most recent stable version of Rust is required. However, contributors should know that
unstable `rustfmt` settings are enabled in the project. To run `rustfmt` with the nightly toolchain, use
the `cargo +nightly fmt` command.
# What issues can I work on?
Issues
labelled [good first issue](https://github.com/valence-rs/valence/issues?q=is%3Aissue+is%3Aopen+label%3A%22good+first+issue%22)
are a good place to start. This label is reserved for issues that shouldn't require too much specialized domain
knowledge to complete. New contributors are not required to start with these issues.
If you plan to work on something that's not an open issue, consider making one first so that it can be discussed. This
way, your contribution will not be rejected when it is submitted for review.
## Playgrounds and Examples
Examples (found in the `examples/` directory) are a great way to document how pieces of Valence's API fit together. It's important that they remain as simple as possible. If you're working on a feature that requires a more complex scenario, consider making a playground instead.
Examples can be run with `cargo run -p valence --example <example_name>`.
Playgrounds are meant to provide a quick and minimal environment to test out new code or reproduce bugs. Playgrounds are also a great way test out quick ideas. This is the preferred method for providing code samples in issues and pull requests.
To get started with a new playground, copy the template to `playground.rs`.
```bash
cp crates/playground/src/playground.template.rs crates/playground/src/playground.rs
```
Make your changes to `crates/playground/src/playground.rs`. To run it:
```bash
cargo run -p playground # simply run the playground, or
cargo watch -c -x "run -p playground" # run the playground and watch for changes
```
# Automatic Checks
When you submit a pull request, your code will automatically run through clippy, rustfmt, etc. to check for any errors.
If an error does occur, it must be fixed before the pull request can be merged.
# Code Conventions
Here are some rules you should follow for your code. Generally the goal here is to be consistent with existing code, the
standard library, and the Rust ecosystem as a whole. Nonconforming code is not necessarily a blocker for accepting your
contribution. It's just nice to have.
These guidelines are intended to complement
the [Rust API Guidelines](https://rust-lang.github.io/api-guidelines/naming.html).
## Top-down Modules
Readers of the module should be able to understand your code by reading it from top to bottom.
Whenever [items](https://doc.rust-lang.org/reference/items.html) in your module form a parent-child relationship, the
parent should be written above the children. Typically this means that important `pub` items are placed before private
implementation details.
For instance, here are three functions. Notice how the definition of `foo` is placed above its dependencies. The parent
is `foo` while its children are `bar` and `baz`.
```rust
pub fn foo() {
bar();
baz();
}
fn bar() {}
fn baz() {}
```
This guideline applies to types as well.
```rust
pub struct Foo {
bars: Vec<Bar>,
}
struct Bar {
// ...
}
```
## Getters and Setters
Getters and setters should be named like this:
```rust
impl Foo {
fn bar(&self) -> &Bar { ... }
fn set_bar(&mut self, bar: Bar) { ... }
}
```
And **not** like this:
```rust
impl Foo {
fn get_bar(&self) -> &Bar { ... }
fn set_bar(&mut self, bar: Bar) { ... }
}
```
See [`SocketAddr`](https://doc.rust-lang.org/stable/std/net/enum.SocketAddr.html) for an example of a standard library
type that uses this convention.
Under appropriate circumstances a different naming scheme can be
used. [`Command`](https://doc.rust-lang.org/stable/std/process/struct.Command.html) is a standard type that demonstrates
this.
If a `bar` field exists and no invariants need to be maintained by the getters and setters, it is usually better to make
the `bar` field public.
## Naming Quantities
Quantities of something should be named `foo_count` where `foo` is the thing you're quantifying. It would be incorrect
to name this variable `num_foos`.
## Documentation
All public items should be documented. Documentation must be written with complete sentences and correct grammar.
Consider using [intra-doc links](https://doc.rust-lang.org/rustdoc/write-documentation/linking-to-items-by-name.html)
where appropriate.
## Unit Tests
Unit tests help your contributions last! They ensure that your code works as expected and that it continues to work in
the future.
You can find examples of unit tests in the `unit_test/example.rs` module.