Friends

Our player has the whole window to explore but they're feeling lonely.
We can add a few friends.

struct Friend(Square);

We could store them in a Vec<Friend> but you're not here for a macroquad tutorial.
Instead we'll store them in a World.

World is shipyard's main type.
It's where everything is stored, from components to entities to systems.

In this guide, I'll be explicit about shipyard imports but you could use shipyard::*; if you prefer.

use macroquad::rand::gen_range;
use shipyard::{Component, World};

#[macroquad::main("Square Eater")]
async fn main() {
    rand::srand(macroquad::miniquad::date::now() as u64);

    // -- SNIP --

    let mut world = World::new();

    for _ in 0..5 {
        let _entity_id = world.add_entity(Friend::new());
    }

    loop {
        clear_background(WHITE);

        move_player(&mut player);
        render(&player, &world);

        next_frame().await
    }
}

fn render(player: &Player, world: &World) {
    for friend in &mut world.iter::<&Friend>() {
        friend.0.render(GREEN);
    }

    player.square.render(BLUE);
}

impl Friend {
    fn new() -> Friend {
        let width = screen_width();
        let height = screen_height();

        Friend(Square {
            x: gen_range(0.0, width - 5.0),
            y: gen_range(0.0, height - 5.0),
            size: 5.0,
        })
    }
}

This won't compile just yet, as Friend is not a Component.
Some ECS require you to explicitly specify which types are components and some don't.
One of the reasons shipyard requires it is to easily identify components in codebases.
With small projects, this isn't a big issue but as the number of lines grow, you'll have to find a way to identify components. This could be moving types to a component.rs, but I'd rather have modules split based on what they do.

Let's add the missing piece.

#[derive(Component)]
struct Friend(Square);

Now add_entity can create 5 entities that are each composed of a single component.
Every entity is identified with an EntityId. It's a small handle that you can copy.
And iter let us iterate over components.

We can move Player into the World to simplify our code a little.
We only have a single Player and it will only ever have a single component.
For this kind of entities, shipyard has Unique components.

use shipyard::{Component, Unique, World};

async fn main() {
    // -- SNIP --
    let mut world = World::new();
    let player = Player {
        square: Square { x, y, size: 15.0 },
    };

    world.add_unique(player);
    // -- SNIP --

    loop {
        clear_background(WHITE);

        move_player(&world);
        render(&world);

        next_frame().await
    }
}

#[derive(Unique)]
struct Player {
    square: Square,
}

fn render(world: &World) {
    for friend in &mut world.iter::<&Friend>() {
        friend.0.render(GREEN);
    }

    let player = world.get_unique::<&Player>().unwrap();

    player.square.render(BLUE);
}

fn move_player(world: &World) {
    let width = screen_width();
    let height = screen_height();
    let (x, y) = mouse_position();
    let mut player = world.get_unique::<&mut Player>().unwrap();

    player.square.x = x.clamp(0.0, width - player.square.size);
    player.square.y = y.clamp(0.0, height - player.square.size);
}

We can simply further by using views. Views are temporary access of components.

use shipyard::{Component, IntoIter, Unique, UniqueView, UniqueViewMut, View, World};

async fn main() {
    // -- SNIP --

    loop {
        clear_background(WHITE);

        world.run(move_player);
        world.run(render);

        next_frame().await
    }
}

fn render(player: UniqueView<Player>, v_friend: View<Friend>) {
    for friend in v_friend.iter() {
        friend.0.render(GREEN);
    }

    player.square.render(BLUE);
}

fn move_player(mut player: UniqueViewMut<Player>) {
    let width = screen_width();
    let height = screen_height();
    let (x, y) = mouse_position();

    player.square.x = x.clamp(0.0, width - player.square.size);
    player.square.y = y.clamp(0.0, height - player.square.size);
}

You've just written your first systems.
With shipyard, all functions that have only views as arguments are systems.
The World understands these functions and provides the desired components automatically.

The v_/vm_ prefix for views is a convention that some shipyard users use. I'll follow it throughout the guide.