Crate ecstatic[][src]

Expand description

Library for implementing the entity-component-system (ECS) pattern.

The API is very loosely based on specs, but with an emphasis on statically validating the usage of the library (instead of dynamically, as specs does). This comes at the cost of some flexibility, but almost all logic errors are detected at compile time.

It’s also not as optimized as specs is (yet), since it’s designed for roguelikes.

Usage

Implementing an ECS requires the following:

  1. Define the components and resources you need to store using the define_world! macro. This generates a struct called World, along with trait implementations necessary for the library to interact with it
  2. Implement one or more Systems
  3. Run your Systems on the World using the (run_system)[traits/trait.WorldInterface.html#method.run_system] method.

Peculiarities

This library uses Rust’s type system in a somewhat advanced manner. In the traits module you will find the Nest and Flatten traits, which allow flat tuples (such as (A, B, C)) to be converted to a nested representation (A, (B, (C, ()))) and back again. These traits are implemented for tuples up to length 32, which ought to be enough for most use cases.

Converting flat tuples to nested tuples at the API boundary allows us to implement certain traits recursively, rather than needing to write macros for each trait to implement them for flat tuple types. As a result, you will see type parameters that have Nest/Flatten trait bounds all over the code base. Because there’s no way to tell the compiler that Nest and Flatten are inverse operations, occasionally you will see bounds that specify that the nested represenation is also flattenable.

Additionally, we have some type-level metaprogramming traits that provide some amount of compile-time invariant checking.

In general, client code shouldn’t need to worry about these too much, but it does have the unfortunate side effect of making compiler error messages less helpful.

Examples

#[derive(Debug, PartialEq)]
pub struct Data {
    x: u32,
}

// `Default` impl that isn't the additive identity.
impl Default for Data {
    fn default() -> Data {
        Data { x: 128 }
    }
}

#[derive(Debug, Default, PartialEq)]
pub struct MoreData {
    y: u32,
}

define_world!(
    #[derive(Default)]
    pub world {
        components {
            test1: BasicVecStorage<Data>,
            test2: BasicVecStorage<MoreData>,
        }
        resources {}
    }
);

let mut w = World::default();
w.new_entity().with(Data { x: 1 }).build();
w.new_entity().with(Data { x: 1 }).build();
let md = w
    .new_entity()
    .with(Data { x: 2 })
    .with(MoreData { y: 42 })
    .build();
w.new_entity().with(Data { x: 3 }).build();
w.new_entity().with(Data { x: 5 }).build();
w.new_entity().with(Data { x: 8 }).build();

/// `TestSystem` adds up the values in every `Data` component (storing the result in `total`),
/// and multiplies every `MoreData` by the `Data` in the same component.
#[derive(Default)]
struct TestSystem {
    total: u32,
}

impl<'a> System<'a> for TestSystem {
    type Dependencies = (
        ReadComponent<'a, Data>,
        WriteComponent<'a, MoreData>,
    );
    fn run(&'a mut self, (data, mut more_data): Self::Dependencies) {
        self.total = 0;

        (&data,).for_each(|_, (d,)| {
            self.total += d.x;
        });

        (&data, &mut more_data).for_each(|_, (d, md)| {
            md.y *= d.x;
        });
    }
}

let mut system = TestSystem::default();
w.run_system(&mut system);

assert_eq!(system.total, 20);
assert_eq!(
    <World as GetComponent<'_, MoreData>>::get(&w).get(md),
    Some(&MoreData { y: 84 })
);

Components accessed via ReadComponent cannot be iterated over mutably:

#[derive(Debug, PartialEq)]
pub struct Data {
    x: u32,
}

define_world!(
    pub world {
        components {
            test1: BasicVecStorage<Data>,
        }
        resources {}
    }
);

#[derive(Default)]
struct TestSystem {}

impl<'a> System<'a> for TestSystem {
    type Dependencies = (
        ReadComponent<'a, Data>,
    );
    fn run(&'a mut self, (data,): Self::Dependencies) {
        (&mut data,).for_each(|(d,)| {
            // do something
        });
    }
}

Re-exports

pub use crate::join::*;
pub use crate::storage::*;
pub use crate::traits::*;

Modules

join

Support for iterating over a joined view of different components.

storage

Component storage infrastructure

traits

Traits used in the ECS interface(s)

typelist

Type-level metaprogramming traits that allow the library to validate certain invariants at compile time.

Macros

define_world

Defines the set of data structures necessary for using ecstatic.

tlist

Helper macro for writing TypeLists.

Structs

Entity

Entity is an opaque identifier that can be used to look up associated components in a World.