rust-sokoban/src/main.rs

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use ggez::graphics;
use ggez::graphics::DrawParam;
use ggez::graphics::Image;
use ggez::nalgebra as na;
use ggez::{conf, event, Context, GameResult};
use specs::{
join::Join, Builder, Component, ReadStorage, RunNow, System, VecStorage, World, WorldExt,
};
use std::path;
const TILE_WIDTH: f32 = 32.0;
// Components
#[derive(Debug, Component, Clone, Copy)]
#[storage(VecStorage)]
pub struct Position {
x: u8,
y: u8,
z: u8,
}
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impl Position {
pub fn new(x: u8, y: u8) -> Self {
Position {
x,
y,
z: 0,
}
}
}
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#[derive(Component)]
#[storage(VecStorage)]
pub struct Renderable {
path: String,
}
#[derive(Component)]
#[storage(VecStorage)]
pub struct Wall {}
#[derive(Component)]
#[storage(VecStorage)]
pub struct Player {}
#[derive(Component)]
#[storage(VecStorage)]
pub struct Box {}
#[derive(Component)]
#[storage(VecStorage)]
pub struct BoxSpot {}
// Systems
pub struct RenderingSystem<'a> {
context: &'a mut Context,
}
impl<'a> System<'a> for RenderingSystem<'a> {
type SystemData = (ReadStorage<'a, Position>, ReadStorage<'a, Renderable>);
fn run(&mut self, data: Self::SystemData) {
let (positions, renderables) = data;
// Clear the screen/set the background
graphics::clear(self.context, graphics::Color::new(0.95, 0.95, 0.95, 1.0));
// Get all the renderables with their positions and sort by the position z
// This will allow us to have entities layered visually.
let mut rendering_data = (&positions, &renderables).join().collect::<Vec<_>>();
rendering_data.sort_by(|&a, &b| a.0.z.partial_cmp(&b.0.z).expect("expected comparison"));
// Iterate through all paris of positions & renderables, load the image
// and draw it at the specified position.
for (position, renderable) in rendering_data.iter() {
// Load the image
let image = Image::new(self.context, renderable.path.clone()).expect("expected image");
let x = position.x as f32 * TILE_WIDTH;
let y = position.y as f32 * TILE_WIDTH;
// draw
let draw_params = DrawParam::new().dest(na::Point2::new(x, y));
graphics::draw(self.context, &image, draw_params).expect("expected render");
}
// Finally, present the context, this will actually display everything
// on the screen.
graphics::present(self.context).expect("expected to present");
}
}
// All the game state
struct Game {
world: World,
}
impl event::EventHandler for Game {
fn update(&mut self, _context: &mut Context) -> GameResult {
Ok(())
}
fn draw(&mut self, context: &mut Context) -> GameResult {
// Render gaem entities
{
let mut rs = RenderingSystem { context };
rs.run_now(&self.world);
}
Ok(())
}
}
pub fn register_components(world: &mut World) {
world.register::<Position>();
world.register::<Renderable>();
world.register::<Player>();
world.register::<Wall>();
world.register::<Box>();
world.register::<BoxSpot>();
}
pub fn create_wall(world: &mut World, position: Position) {
world
.create_entity()
.with(Position { z: 10, ..position })
.with(Renderable {
path: "/images/wall.png".to_string(),
})
.with(Wall {})
.build();
}
pub fn create_floor(world: &mut World, position: Position) {
world
.create_entity()
.with(Position { z: 5, ..position })
.with(Renderable {
path: "/images/floor.png".to_string(),
})
.build();
}
pub fn create_box(world: &mut World, position: Position) {
world
.create_entity()
.with(Position { z: 10, ..position })
.with(Renderable {
path: "/images/box.png".to_string(),
})
.build();
}
pub fn create_box_spot(world: &mut World, position: Position) {
world
.create_entity()
.with(Position { z: 9, ..position })
.with(Renderable {
path: "/images/box_spot.png".to_string(),
})
.with(BoxSpot {})
.build();
}
pub fn create_player(world: &mut World, position: Position) {
world
.create_entity()
.with(Position { z: 10, ..position })
.with(Renderable {
path: "/images/player.png".to_string(),
})
.with(Player {})
.build();
}
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pub fn load_map(world: &mut World, map_string: String) {
// read all lines
let rows: Vec<&str> = map_string
.trim()
.split('\n')
.map(|x| x.trim())
.collect();
for (y, row) in rows.iter().enumerate() {
let columns: Vec<&str> = row.split(' ').collect();
for (x, column) in columns.iter().enumerate() {
// Create the position at which to create something on the map
let position = Position::new(x as u8, y as u8);
// Figure out which object to create
match *column {
"." => create_floor(world, position),
"W" => {
create_floor(world, position);
create_wall(world, position);
}
"P" => {
create_floor(world, position);
create_player(world, position);
}
"B" => {
create_floor(world, position);
create_box(world, position);
}
"S" => {
create_floor(world, position);
create_box_spot(world, position);
},
"N" => (),
c => panic!("unrecognized map item {}", c),
}
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}
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}
}
pub fn initialize_level(world: &mut World) {
const MAP: &str = "
N N W W W W W W
W W W . . . . W
W . . . B . . W
W . . . . . . W
W . P . . . . W
W . . . . . . W
W . . S . . . W
W . . . . . . W
W W W W W W W W
";
load_map(world, MAP.to_string());
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}
pub fn main() -> GameResult {
let mut world = World::new();
register_components(&mut world);
initialize_level(&mut world);
// Create a game context and event loop
let context_builder = ggez::ContextBuilder::new("rust_sokoban", "Timothy J. Warren")
.window_setup(conf::WindowSetup::default().title("Rust Sokoban!"))
.window_mode(conf::WindowMode::default().dimensions(800.0, 600.0))
.add_resource_path(path::PathBuf::from("./resources"));
let (context, event_loop) = &mut context_builder.build()?;
// Create the game state
let game = &mut Game { world };
// Run the main event loop
event::run(context, event_loop, game)
}