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add movement

wip
Fabien Freling 2020-03-31 15:14:12 +02:00
parent b3eb24d329
commit bf4b32236e
3 changed files with 73 additions and 18 deletions
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2
.gitignore vendored
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@ -3,3 +3,5 @@
# Vim # Vim
*.swp *.swp
rustenstein.md

74
src/engine.rs
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@ -22,6 +22,7 @@ impl Position {
type Degree = f64; type Degree = f64;
type Radian = f64; type Radian = f64;
#[derive(Debug)]
struct Player { struct Player {
pos: Position, pos: Position,
angle: Degree, angle: Degree,
@ -39,6 +40,14 @@ pub struct Level {
pub tiles: Vec<Tile>, pub tiles: Vec<Tile>,
} }
#[derive(Copy, Clone, PartialEq, Debug)]
pub enum Movement {
Forward,
Backward,
TurnLeft,
TurnRight,
}
impl Level { impl Level {
pub fn contains(&self, pos: Position) -> bool { pub fn contains(&self, pos: Position) -> bool {
0.0 <= pos.x && pos.x <= self.width as f64 && 0.0 <= pos.y && pos.y <= self.height as f64 0.0 <= pos.x && pos.x <= self.width as f64 && 0.0 <= pos.y && pos.y <= self.height as f64
@ -51,6 +60,7 @@ pub struct Engine {
horiz_fov: Degree, horiz_fov: Degree,
player: Player, player: Player,
level: Level, level: Level,
inputs: Vec<Movement>,
} }
impl Engine { impl Engine {
@ -61,22 +71,25 @@ impl Engine {
horiz_fov: 90., horiz_fov: 90.,
player: Player { player: Player {
pos: Position { x: 2., y: 2. }, pos: Position { x: 2., y: 2. },
angle: 0., angle: 90.,
}, },
level: Level { level: Level {
width: 0, width: 0,
height: 0, height: 0,
tiles: vec![], tiles: vec![],
}, },
inputs: [].to_vec(),
} }
} }
fn closest_point(level: &Level, pos: &Position, angle: Radian) -> (Tile, Position) { fn closest_point(level: &Level, pos: &Position, angle: Radian) -> (Tile, Position) {
assert!((0.0..(PI * 2.0)).contains(&angle));
let (y_step, x_step) = match angle { let (y_step, x_step) = match angle {
0.0 => (0.0, std::f64::INFINITY), x if x == 0.0 => (0.0, std::f64::INFINITY),
90.0 => (std::f64::INFINITY, 0.0), x if x == PI * 0.5 => (std::f64::INFINITY, 0.0),
180.0 => (0.0, std::f64::NEG_INFINITY), x if x == PI => (0.0, std::f64::NEG_INFINITY),
270.0 => (std::f64::NEG_INFINITY, 0.0), x if x == PI * 1.5 => (std::f64::NEG_INFINITY, 0.0),
x if (0.0..(PI * 0.5)).contains(&x) => (angle.tan(), ((PI / 2.0) - angle).tan()), x if (0.0..(PI * 0.5)).contains(&x) => (angle.tan(), ((PI / 2.0) - angle).tan()),
x if ((PI * 0.5)..PI).contains(&x) => ((PI - x).tan(), -((x - (PI / 2.0)).tan())), x if ((PI * 0.5)..PI).contains(&x) => ((PI - x).tan(), -((x - (PI / 2.0)).tan())),
x if (PI..(PI * 1.5)).contains(&x) => (-((x - PI).tan()), -(((PI * 1.5) - x).tan())), x if (PI..(PI * 1.5)).contains(&x) => (-((x - PI).tan()), -(((PI * 1.5) - x).tan())),
@ -162,41 +175,66 @@ impl Engine {
context.transform, context.transform,
graphics); graphics);
// Walls
let left = self.player.angle + (self.horiz_fov / 2.0); let left = self.player.angle + (self.horiz_fov / 2.0);
let right = self.player.angle - (self.horiz_fov / 2.0); let right = self.player.angle - (self.horiz_fov / 2.0);
// for every angle (range / w) let step = self.horiz_fov / self.w;
let step = (left - right) / self.w;
let mut ray_angle = left; let mut ray_angle = left;
let width = self.w as i32; let width = self.w as i32;
for n in 0..width { for n in 0..width {
// cast a ray let ray_angle = ((left - (n as f64) * step) + 360.0) % 360.0;
let ray_radian = ray_angle.to_radians(); let ray_radian = ray_angle.to_radians();
//println!("degree: {} -> radian: {}", ray_angle, ray_radian);
let (tile, pos) = Engine::closest_point(&self.level, &self.player.pos, ray_radian); let (tile, pos) = Engine::closest_point(&self.level, &self.player.pos, ray_radian);
let distance = self.player.pos.distance(pos); let distance = self.player.pos.distance(pos);
let player_space_distance = (self.player.pos.x - pos.x).abs() * ray_radian.cos() let player_space_distance = (self.player.pos.x - pos.x).abs() * self.player.angle.to_radians().cos()
- (self.player.pos.y - pos.y).abs() * ray_radian.sin(); - (self.player.pos.y - pos.y).abs() * self.player.angle.to_radians().sin();
if tile == Tile::Wall { if tile == Tile::Wall {
println!("ray: {}, wall at {:?}, distance: {}", n, pos, distance); //println!("ray: {}, wall at {:?}, distance: {}", n, pos, distance);
let wall_height = (self.h / (distance * 3.0)).min(self.h); let wall_height = (self.h / (distance * 3.0)).min(self.h);
let wall_color = [0.9, 0.2, 0.2, 1.0]; let wall_color = [0.2, 0.2, 0.9, 1.0];
println!("wall height: {}", wall_height); //println!("wall height: {}", wall_height);
rectangle(wall_color, rectangle(wall_color,
[n as f64, (self.h - wall_height) / 2.0, (n + 1) as f64, wall_height], [n as f64, (self.h - wall_height) / 2.0, (n + 1) as f64, wall_height],
context.transform, context.transform,
graphics); graphics);
}; };
// see what wall it hits
// compute wall height
// draw wall portion
ray_angle += step;
} }
} }
pub fn load_level(&mut self, level: Level) { pub fn load_level(&mut self, level: Level) {
self.level = level; self.level = level;
} }
pub fn add_movement(&mut self, movement: Movement) {
self.inputs.push(movement);
}
pub fn update(&mut self, dt: f64) {
for input in &self.inputs {
match input {
Movement::Forward => {
self.player.pos.x += self.player.angle.to_radians().cos() * dt;
self.player.pos.y += self.player.angle.to_radians().sin() * dt;
}
Movement::Backward => {
self.player.pos.x -= self.player.angle.to_radians().cos() * dt;
self.player.pos.y -= self.player.angle.to_radians().sin() * dt;
},
Movement::TurnLeft => {
self.player.angle += 90.0 * dt;
self.player.angle = (self.player.angle + 360.0) % 360.0;
}
Movement::TurnRight => {
self.player.angle -= 90.0 * dt;
self.player.angle = (self.player.angle + 360.0) % 360.0;
}
}
}
self.inputs.clear();
println!("player: {:?}", &self.player);
}
} }
#[cfg(test)] #[cfg(test)]

15
src/main.rs
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@ -29,8 +29,23 @@ fn main() {
engine.load_level(level); engine.load_level(level);
while let Some(event) = window.next() { while let Some(event) = window.next() {
if let Some(Button::Keyboard(key)) = event.press_args() {
match key {
Key::W => engine.add_movement(engine::Movement::Forward),
Key::S => engine.add_movement(engine::Movement::Backward),
Key::A => engine.add_movement(engine::Movement::TurnLeft),
Key::D => engine.add_movement(engine::Movement::TurnRight),
_ => (),
};
};
window.draw_2d(&event, |context, graphics, _device| { window.draw_2d(&event, |context, graphics, _device| {
engine.render(context, graphics); engine.render(context, graphics);
}); });
if let Some(args) = event.update_args() {
engine.update(args.dt);
}
} }
} }