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basic.rs
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extern crate specs;
use specs::prelude::*;
// A component contains data which is associated with an entity.
#[derive(Debug)]
struct Vel(f32);
impl Component for Vel {
type Storage = VecStorage<Self>;
}
#[derive(Debug)]
struct Pos(f32);
impl Component for Pos {
type Storage = VecStorage<Self>;
}
struct SysA;
impl<'a> System<'a> for SysA {
// These are the resources required for execution.
// You can also define a struct and `#[derive(SystemData)]`,
// see the `full` example.
type SystemData = (WriteStorage<'a, Pos>, ReadStorage<'a, Vel>);
fn run(&mut self, (mut pos, vel): Self::SystemData) {
// The `.join()` combines multiple components,
// so we only access those entities which have
// both of them.
// You could also use `par_join()` to get a rayon `ParallelIterator`.
for (pos, vel) in (&mut pos, &vel).join() {
pos.0 += vel.0;
}
}
}
fn main() {
// The `World` is our
// container for components
// and other resources.
let mut world = World::new();
// This builds a dispatcher.
// The third parameter of `add` specifies
// logical dependencies on other systems.
// Since we only have one, we don't depend on anything.
// See the `full` example for dependencies.
let mut dispatcher = DispatcherBuilder::new().with(SysA, "sys_a", &[]).build();
// setup() must be called before creating any entity, it will register
// all Components and Resources that Systems depend on
dispatcher.setup(&mut world);
// An entity may or may not contain some component.
world.create_entity().with(Vel(2.0)).with(Pos(0.0)).build();
world.create_entity().with(Vel(4.0)).with(Pos(1.6)).build();
world.create_entity().with(Vel(1.5)).with(Pos(5.4)).build();
// This entity does not have `Vel`, so it won't be dispatched.
world.create_entity().with(Pos(2.0)).build();
// This dispatches all the systems in parallel (but blocking).
dispatcher.dispatch(&world);
}