cleanup

src/asteroids.rs

@@ -72,7 +72,6 @@ impl Asteroid {
     }
 
     pub fn update(&mut self) {
-        // if self.alive {
         self.pos += self.vel;
         self.rot += self.omega;
         if self.pos.x.abs() > screen_width() * 0.5 + self.radius {
@@ -81,9 +80,6 @@ impl Asteroid {
         if self.pos.y.abs() > screen_height() * 0.5 + self.radius {
             self.pos.y *= -1.;
         }
-        // self.alive = self.pos.y.abs() < screen_height() * 0.51 + self.radius
-        //     && self.pos.x.abs() < screen_width() * 0.51 + self.radius;
-        // }
     }
 
     pub fn draw(&self) {

src/main.rs

@@ -6,7 +6,6 @@ mod world;
 
 use macroquad::prelude::*;
 use population::Population;
-use world::World;
 
 #[macroquad::main("Camera")]
 async fn main() {
@@ -18,9 +17,6 @@ async fn main() {
     set_camera(&cam);
     let mut pop = Population::new(100);
     let mut speedup = false;
-    // for _ in 0..10000 * 10 {
-    //     pop.update();
-    // }
     loop {
         clear_background(BLACK);
         if is_key_pressed(KeyCode::S) {
@@ -36,13 +32,4 @@ async fn main() {
         }
         next_frame().await
     }
-    // let mut world = World::new();
-    // loop {
-    //     clear_background(BLACK);
-    //     if !world.over {
-    //         world.update();
-    //     }
-    //     world.draw();
-    //     next_frame().await
-    // }
 }

src/nn.rs

@@ -39,9 +39,6 @@ impl NN {
                 .zip(config.iter().skip(1))
                 .map(|(&curr, &last)| {
                     // DMatrix::from_fn(last, curr + 1, |_, _| gen_range(-1., 1.))
-                    // DMatrix::<f32>::new_random(last, curr + 1)
-                    // println!("{}", a);
-                    // a
                     DMatrix::<f32>::from_distribution(last, curr + 1, &StandardNormal, &mut rng)
                         * (2. / last as f32).sqrt()
                 })
@@ -75,7 +72,6 @@ impl NN {
                     // *ele += gen_range(-1., 1.);
                     *ele = gen_range(-1., 1.);
                     // *ele = r::thread_rng().sample::<f32, StandardNormal>(StandardNormal);
-                    // *ele = r::thread_rng().sample::<f32, StandardNormal>(StandardNormal);
                 }
             }
         }

src/player.rs

@@ -1,7 +1,6 @@
 use std::{f32::consts::PI, f64::consts::TAU, iter};
 
 use macroquad::{prelude::*, rand::gen_range};
-use nalgebra::{max, partial_max, partial_min};
 
 use crate::{asteroids::Asteroid, nn::NN};
 #[derive(Default)]
@@ -58,35 +57,29 @@ impl Player {
     }
 
     pub fn check_player_collision(&mut self, asteroid: &Asteroid) -> bool {
-        // let directions = [
+        // To give more near asteroids data:
-        //     vec2(0., -screen_height()),
+
-        //     vec2(0., screen_height()),
+        // self.asteroid_data.push((
-        //     vec2(-screen_width(), 0.),
+        //     ((asteroid.pos - self.pos).length() - asteroid.radius) / screen_width(),
-        //     vec2(screen_width(), 0.),
+        //     self.dir.angle_between(asteroid.pos - self.pos),
-        // ];
+        //     (asteroid.vel - self.vel).length(),
-        // let mut nearest = asteroid.pos - self.pos;
+        // ));
-        // for dir in directions {
+
-        //     if (asteroid.pos - self.pos + dir).length_squared() < nearest.length_squared() {
+        // Single asteroid data:
-        //         nearest = asteroid.pos - self.pos + dir;
+        if self.asteroid.is_none()
-        //     }
+            || (asteroid.pos).distance_squared(self.pos)
-        // }
+                < self
-        self.asteroid_data.push((
+                    .asteroid
-            ((asteroid.pos - self.pos).length() - asteroid.radius) / screen_width(),
+                    .as_ref()
-            self.dir.angle_between(asteroid.pos - self.pos),
+                    .unwrap()
-            (asteroid.vel - self.vel).length(),
+                    .pos
-        ));
+                    .distance_squared(self.pos)
-        // if self.asteroid.is_none()
+        {
-        //     || (asteroid.pos).distance_squared(self.pos)
+            self.asteroid = Some(asteroid.clone());
-        //         < self
+        }
-        //             .asteroid
+
-        //             .as_ref()
+        // Try raycasting below:
-        //             .unwrap()
+
-        //             .pos
-        //             .distance_squared(self.pos)
-        // {
-        //     self.asteroid = Some(asteroid.clone());
-        // }
-        // ]);
         // let v = asteroid.pos - self.pos;
         // for i in 0..4 {
         //     let dir = Vec2::from_angle(PI / 4. * i as f32).rotate(self.dir);
@@ -125,35 +118,29 @@ impl Player {
         self.last_shot += 1;
         self.acc = 0.;
         let mut keys = vec![false, false, false, false];
-        let mut inputs = vec![
+        if let Some(ast) = self.asteroid.as_ref() {
-            // (self.asteroid.as_ref().unwrap().pos - self.pos).length() / screen_width(),
+            let inputs = vec![
-            // self.dir
+                (ast.pos - self.pos).length() / screen_width(),
-            //     .angle_between(self.asteroid.as_ref().unwrap().pos - self.pos),
+                self.dir.angle_between(ast.pos - self.pos),
-            // self.vel.x / 11.,
+                (ast.vel - self.vel).length(),
-            // self.vel.y / 11.,
+                self.rot / TAU as f32,
-            self.rot / TAU as f32,
+            ];
-            // self.rot.sin(),
-            // self.rot.cos(),
-        ];
 
-        self.asteroid_data
+            // self.asteroid_data
-            .sort_by(|a, b| a.0.partial_cmp(&b.0).unwrap());
+            //     .sort_by(|a, b| a.0.partial_cmp(&b.0).unwrap());
-        self.asteroid_data.resize(1, (0., 0., 0.));
+            // self.asteroid_data.resize(1, (0., 0., 0.));
-        inputs.append(
+            // inputs.append(
-            &mut self
+            //     &mut self
-                .asteroid_data
+            //         .asteroid_data
-                .iter()
+            //         .iter()
-                .map(|(d, a, h)| vec![*d, *a, *h])
+            //         .map(|(d, a, h)| vec![*d, *a, *h])
-                .flatten()
+            //         .flatten()
-                .collect::<Vec<_>>(),
+            //         .collect::<Vec<_>>(),
-        );
+            // );
-        // println!("{:?}", inputs);
-        // let inputs = self.raycasts.clone();
-        // inputs.append(self.asteroids_data.as_mut());
-        if let Some(brain) = &self.brain {
-            // println!("{:?}", brain.feed_forward(inputs.clone()));
 
-            keys = brain.feed_forward(inputs).iter().map(|&x| x > 0.).collect();
+            if let Some(brain) = &self.brain {
+                keys = brain.feed_forward(inputs).iter().map(|&x| x > 0.).collect();
+            }
         }
         if is_key_down(KeyCode::Right) && self.debug || keys[0] {
             self.rot = (self.rot + 0.1 + TAU as f32) % TAU as f32;
@@ -164,7 +151,6 @@ impl Player {
             self.dir = vec2(self.rot.cos(), self.rot.sin());
         }
         if is_key_down(KeyCode::Up) && self.debug || keys[2] {
-            // Change scaling when passing inputs if this is changed
             self.acc = 0.14;
         }
         if is_key_down(KeyCode::Space) && self.debug || keys[3] {
@@ -182,6 +168,9 @@ impl Player {
         if is_key_pressed(KeyCode::D) {
             self.debug = !self.debug;
         }
+        if is_key_pressed(KeyCode::S) {
+            self.debug = false;
+        }
 
         self.vel += self.acc * self.dir - self.drag * self.vel.length() * self.vel;
         self.pos += self.vel;
@@ -198,9 +187,11 @@ impl Player {
         self.bullets.retain(|b| {
             b.alive && b.pos.x.abs() * 2. < screen_width() && b.pos.y.abs() * 2. < screen_height()
         });
-        // self.draw();
+        if self.debug {
+            self.draw();
+        }
         self.asteroid = None;
-        self.asteroid_data.clear();
+        // self.asteroid_data.clear();
     }
 
     pub fn draw(&self) {
@@ -223,25 +214,16 @@ impl Player {
             draw_triangle_lines(p6, p7, p8, 2., color);
         }
         if self.debug {
-            // if self.asteroid.is_some() {
+            if let Some(ast) = self.asteroid.as_ref() {
-            //     draw_circle_lines(
+                draw_circle_lines(ast.pos.x, ast.pos.y, ast.radius, 1., GRAY);
-            //         self.asteroid.as_ref().unwrap().pos.x,
+                // let p = self.pos
-            //         self.asteroid.as_ref().unwrap().pos.y,
+                //     + self.dir.rotate(Vec2::from_angle(self.asteroid_data[0].1))
-            //         self.asteroid.as_ref().unwrap().radius,
+                //         * self.asteroid_data[0].0
-            //         1.,
+                //         * screen_width();
-            //         GRAY,
+                draw_line(self.pos.x, self.pos.y, ast.pos.x, ast.pos.y, 1., GRAY);
-            //     );
+            }
-            // }
+
-            let p = self.pos
+            // Draw raycasts
-                + self.dir.rotate(Vec2::from_angle(self.asteroid_data[0].1))
-                    * self.asteroid_data[0].0
-                    * screen_width();
-            draw_line(
-                self.pos.x, self.pos.y,
-                // self.asteroid.as_ref().unwrap().pos.x,
-                // self.asteroid.as_ref().unwrap().pos.y,
-                p.x, p.y, 1., GRAY,
-            );
 
             // for (i, r) in self.raycasts.iter().enumerate() {
             //     let dir = Vec2::from_angle(PI / 4. * i as f32).rotate(self.dir);

src/population.rs

@@ -63,22 +63,12 @@ impl Population {
             println!("Fitness: {}", i.fitness);
         }
         println!("Gen: {}, Fitness: {}", self.gen, self.worlds[0].fitness);
-        // let mut new_worlds = vec![World::simulate(Some(self.worlds[0].see_brain().to_owned()))];
         let mut new_worlds = (0..self.size / 20)
             .map(|i| World::simulate(Some(self.worlds[i].see_brain().to_owned())))
             .collect::<Vec<_>>();
-        // if is_key_down(KeyCode::K) {
         new_worlds[0].set_best();
-        // }
-        // println!(
-        //     "Total fitness: {} {} {}",
-        //     total,
-        //     self.worlds[0].fitness(),
-        //     self.worlds[1].fitness()
-        // );
         while new_worlds.len() < self.size {
             let rands = (gen_range(0., total), gen_range(0., total));
-            // println!("rands: {} {} {}", rands.0, rands.1, total);
             let mut sum = 0.;
             let (mut a, mut b) = (None, None);
             for world in &self.worlds {
@@ -90,8 +80,6 @@ impl Population {
                     b = Some(world.see_brain());
                 }
             }
-            // println!("{}", &a.unwrap().weights[0]);
-            // println!("{}", &b.unwrap().weights[0]);
             if a.is_none() {
                 a = Some(self.worlds.last().unwrap().see_brain());
             }
@@ -99,10 +87,7 @@ impl Population {
                 b = Some(self.worlds.last().unwrap().see_brain());
             }
             let mut new_brain = NN::crossover(a.unwrap(), b.unwrap());
-            // println!("{}", &a.unwrap().weights[0]);
-            // println!("{}", &b.unwrap().weights[0]);
             new_brain.mutate();
-            // println!("{}", &new_brain.weights[0]);
             new_worlds.push(World::simulate(Some(new_brain)));
         }
         self.worlds = new_worlds;

src/world.rs

@@ -11,24 +11,13 @@ pub struct World {
     asteroids: Vec<Asteroid>,
     pub score: f32,
     pub over: bool,
-    max_asteroids: usize,
     pub fitness: f32,
 }
 
 impl World {
-    pub fn new() -> Self {
-        Self {
-            player: Player::new(),
-            max_asteroids: 28,
-            score: 1.,
-            ..Default::default()
-        }
-    }
-
     pub fn simulate(brain: Option<NN>) -> Self {
         Self {
             player: Player::simulate(brain),
-            max_asteroids: 28,
             score: 1.,
             asteroids: vec![
                 Asteroid::new_to(vec2(0., 0.), 1.5, AsteroidSize::Large),
@@ -49,30 +38,7 @@ impl World {
         self.player.brain.as_ref().unwrap()
     }
 
-    // fn calc_fitness(&mut self) {
-    // println!(
-    //     "{} {} {}",
-    //     self.score as f32,
-    //     self.player.lifespan as f32 * 0.001,
-    //     if self.player.shots > 0 {
-    //         self.score as f32 / self.player.shots as f32 * 5.
-    //     } else {
-    //         0.
-    //     }
-    // );
-    // }
-
     pub fn update(&mut self) {
-        // if self.player.lifespan > 150 {
-        //     self.fitness = 1.
-        //         / ((self.player.pos * vec2(2. / screen_width(), 2. / screen_height()))
-        //             .distance_squared(vec2(0., -1.))
-        //             + self.player.vel.length_squared()
-        //                 * self.player.vel.length_squared()
-        //                 * 0.00006830134554
-        //             + 1.);
-        //     self.over = true;
-        // }
         let mut to_add: Vec<Asteroid> = Vec::new();
         for asteroid in &mut self.asteroids {
             asteroid.update();
@@ -108,19 +74,15 @@ impl World {
                     _ => {}
                 }
             }
-        }
+            if self.player.check_player_collision(asteroid) {
-        for asteroid in self.asteroids.iter() {
-            if self.player.check_player_collision(&*asteroid) {
                 self.over = true;
                 self.fitness =
                     (self.score / self.player.shots as f32).powi(2) * self.player.lifespan as f32;
-
-                // println!("{} {} {}", self.score, self.player.lifespan, self.fitness);
             }
         }
+        self.player.update();
         self.asteroids.append(&mut to_add);
         self.asteroids.retain(|asteroid| asteroid.alive);
-        self.player.update();
         // if self.asteroids.iter().fold(0, |acc, x| {
         //     acc + match x.size {
         //         AsteroidSize::Large => 4,
@@ -146,8 +108,6 @@ impl World {
                 "{}",
                 (self.score / self.player.shots as f32).powi(2) * self.player.lifespan as f32
             ),
-            // 20. - screen_width() * 0.5,
-            // 30. - screen_height() * 0.5,
             self.player.pos.x - 20.,
             self.player.pos.y - 20.,
             12.,