ecs_rust

Crates.ioecs_rust
lib.rsecs_rust
version0.0.4
sourcesrc
created_at2021-09-15 05:23:26.471485
updated_at2021-09-28 03:32:49.082137
descriptionECS in Rust
homepagehttps://github.com/takahirox/ecs-rust
repositoryhttps://github.com/takahirox/ecs-rust
max_upload_size
id451671
size29,766
Takahiro (takahirox)

documentation

README

ecs-rust

Build Status Crate

ecu-rust is a tiny toy ECS (Entity Component System) library written in Rust.

Online demos

Online WebAssembly demos

Rust code is compiled to WebAssembly with wasm-bindgen and it runs even in web browsers.

Web Collision demo

Features

  • Tiny ECS library
  • Easy to use
  • Memory safe with Rust
  • Offers a clean design with ECS
  • Web application compatible by compiling to WebAssembly

Documents

T.B.D.

Sample Code

// Import ecs-rust
use ecs_rust::world::World;
use ecs_rust::entity_manager::{EntityIdAccessor, EntityManager};
use ecs_rust::component::Component;
use ecs_rust::system::System;

// Define Components and Systems

struct Namable {
  name: &'static str
}

struct Position {
  x: f32,
  y: f32
}

struct Velocity {
  x: f32,
  y: f32
}

struct Step {
  num: u32
}

struct PrintStepSystem;
struct MoveSystem;
struct PrintPositionSystem;

// Implement Components and Systems

impl Component for Namable {}
impl Component for Position {}
impl Component for Velocity {}
impl Component for Step {}

impl System for PrintStepSystem {
  fn update(&mut self, manager: &mut EntityManager, _accessor: &mut EntityIdAccessor) {
    let steps = manager.borrow_components_mut::<Step>().unwrap();
    for step in steps.iter_mut() {
      step.num += 1;
      println!("Step {}", step.num);
    }
  }
}

impl System for MoveSystem {
  fn update(&mut self, manager: &mut EntityManager, accessor: &mut EntityIdAccessor) {
    let entity_ids = accessor.borrow_ids_for_pair::<Velocity, Position>(manager).unwrap();
    for id in entity_ids.iter() {
      let (velocity, mut position) = manager.borrow_component_pair_mut::<Velocity, Position>(*id).unwrap();
      position.x += velocity.x;
      position.y += velocity.y;
    }
  }
}

impl System for PrintPositionSystem {
  fn update(&mut self, manager: &mut EntityManager, accessor: &mut EntityIdAccessor) {
    let entity_ids = accessor.borrow_ids_for_pair::<Namable, Position>(manager).unwrap();
    for id in entity_ids.iter() {
      let name = manager.borrow_component::<Namable>(*id).unwrap();
      let position = manager.borrow_component::<Position>(*id).unwrap();
      println!("{} is at ({}, {})", name.name, position.x, position.y);
    }
  }
}

// Build an application and Run

fn main() {
  // Create world
  let mut world = World::new();

  // Register Components to world
  world
    .register_component::<Step>()
    .register_component::<Namable>()
    .register_component::<Position>()
    .register_component::<Velocity>();

  // Create Entities and add Components to them
  {
    let entity_id = world.create_entity();
    world.add_component_to_entity(entity_id, Step {num: 0});
  }

  {
    let entity_id = world.create_entity();
    world
      .add_component_to_entity(entity_id, Namable {name: "Alice"})
      .add_component_to_entity(entity_id, Position {x: 0.0, y: 0.0})
      .add_component_to_entity(entity_id, Velocity {x: 1.0, y: 2.0});
  }

  {
    let entity_id = world.create_entity();
    world
      .add_component_to_entity(entity_id, Namable {name: "Bob"})
      .add_component_to_entity(entity_id, Position {x: 0.0, y: 0.0})
      .add_component_to_entity(entity_id, Velocity {x: -2.0, y: 1.0});
  }

  {
    // Unmovable
    let entity_id = world.create_entity();
    world
      .add_component_to_entity(entity_id, Namable {name: "Rock"})
      .add_component_to_entity(entity_id, Position {x: 0.0, y: 0.0});
  }

  // Add Systems to world
  world
    .add_system(PrintStepSystem {})
    .add_system(MoveSystem {})
    .add_system(PrintPositionSystem {});

  // Run
  for _i in 0..3 {
    world.update();
  }
}

/*
 * Result:
 * Step 1
 * Alice is at (1, 2)
 * Bob is at (-2, 1)
 * Rock is at (0, 0)
 * Step 2
 * Alice is at (2, 4)
 * Bob is at (-4, 2)
 * Rock is at (0, 0)
 * Step 3
 * Alice is at (3, 6)
 * Bob is at (-6, 3)
 * Rock is at (0, 0)
 */

How to import

The library is released at crates.io. Add the following line into Cargo.toml of your Rust project.

[dependencies]
ecs_rust = "0.0.4"

And add the following lines in your Rust code to import the library.

use ecs_rust::world::World;
use ecs_rust::entity_manager::{EntityIdAccessor, EntityManager};
use ecs_rust::component::Component;
use ecs_rust::system::System;

How to build the library locally

$ git clone https://github.com/takahirox/ecs-rust.git
$ cd ecs-rust
$ cargo build

How to run desktop examples locally

$ cd ecs-rust
$ cargo run --example example_name

How to run web examles locally

Prerequirements

  • Install wasm-bindgen client
  • Install Rust wasm32-unknown-unknown target with $ rustup target add wasm32-unknown-unknown
  • Install http-server with $ npm install -g http-server, or other local servers
$ cd ecs-rust/web
$ bash build_examples.sh
$ http-server . -p 8080 -c-1
# Access http://localhost:8080/examples/index.html on your web browser

How to run tests

T.B.D.

Commit count: 53

cargo fmt