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5 Commits
1e3032c51b ... b660cdb2bf

Author SHA1 Message Date
Rostyslav Hnatyshyn b660cdb2bf code cleanup, fixed bug with food creating home ph
9 months ago
Rostyslav Hnatyshyn 9021e9e386 multiple home spots plus render
9 months ago
Rostyslav Hnatyshyn 0b13c7bfa3 cleared up gfx + ph storage
9 months ago
Rostyslav Hnatyshyn 823b5d39b8 semi functioning pheremone sim
9 months ago
Rostyslav Hnatyshyn 47c6eff011 added seek
9 months ago
8 changed files with 296 additions and 353 deletions
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Show Stats
  1. 149
      src/lib/ai.rs
  2. 95
      src/lib/entity.rs
  3. 145
      src/lib/point.rs
  4. 45
      src/lib/screen.rs
  5. 137
      src/lib/world.rs
  6. 30
      src/main.rs
  7. 11
      tests/ai_test.rs
  8. 7
      tests/entity_test.rs

149
src/lib/ai.rs
Unescape View File

@ -1,80 +1,122 @@
use crate::lib::entity::{Ant, Egg, Queen};
use crate::lib::point::{astar, Point};
use crate::lib::entity::{Ant, Egg, Food, FoodGenerator, Queen};
use crate::lib::point::Point;
use crate::lib::screen::{BoardCommand, Screen};
use crate::lib::world::World;
use crate::lib::world::{Pheremone, World};
use rand::Rng;
use rand::prelude::SliceRandom;
use rand::thread_rng;
use std::iter::zip;
pub trait AI {
fn step(&mut self, b: &Screen, w: &mut World) -> BoardCommand;
fn plan(&mut self, w: &World) {}
fn step(&mut self, b: &Screen, w: &mut World, step: u32) -> BoardCommand;
fn plan(&mut self, b: &Screen, w: &mut World) -> BoardCommand {
BoardCommand::Noop
}
}
#[derive(Clone, Debug)]
pub enum AIGoal {
Reach(Point),
//Pickup(Point),
//Drop(),
Idle,
Seek,
Return,
}
impl AI for Ant {
fn plan(&mut self, w: &World) {
// check last part of plan
if let Some(goal) = self.plan.last() {
match goal {
AIGoal::Reach(target) => {
if self.pos == *target {
self.plan.pop();
fn plan(&mut self, b: &Screen, w: &mut World) -> BoardCommand {
match self.goal {
AIGoal::Seek => {
// if we reach food, we change state
if w.food.contains(&self.pos) {
for p in &self.history {
w.drop_pheremone(&p, &self.goal);
}
self.history.clear();
self.about_face();
self.goal = AIGoal::Return;
}
BoardCommand::Noop
}
AIGoal::Return => {
if w.home.contains(&self.pos) {
for p in &self.history {
w.drop_pheremone(&p, &self.goal);
}
self.history.clear();
self.about_face();
self.goal = AIGoal::Seek;
return BoardCommand::SpawnAnt;
} else {
BoardCommand::Noop
}
AIGoal::Idle => {}
}
}
}
// return the next move for this ant
fn step(&mut self, b: &Screen, w: &mut World) -> BoardCommand {
let goal = match self.plan.last() {
Some(g) => g,
None => &AIGoal::Idle,
};
fn step(&mut self, b: &Screen, w: &mut World, t: u32) -> BoardCommand {
let valid = vec![
(self.dir, self.dir.relative_point(&self.pos)),
(self.dir.ccw(), self.dir.ccw().relative_point(&self.pos)),
(self.dir.cw(), self.dir.cw().relative_point(&self.pos)),
];
let choice = match goal {
AIGoal::Idle => {
// valid_movements does not return any diggables!
let valid = w.get_valid_movements(&self.pos, b, true);
let mut rng = thread_rng();
valid.choose(&mut rng).cloned()
}
AIGoal::Reach(target) => {
// here astar only produces a path between the target & pos without digging
let result = astar(&self.pos, &target, Some(w), Some(b));
let mut movements = match result {
Ok(m) => m,
Err(_) => vec![]
};
movements.pop()
}
let ph: Vec<Pheremone> = valid
.iter()
.map(|(_, pnt)| w.get_pheremone(pnt).clone())
.collect();
let ph_fn = match self.goal {
AIGoal::Seek => |ph: &Pheremone| ph.food,
AIGoal::Return => |ph: &Pheremone| ph.home,
};
if !choice.is_none() {
let pos = choice.unwrap();
if w.cleared.contains(&pos) {
self.pos = pos;
let r: f32 = rand::random();
let mut dir = &valid[0].0;
if r < 0.1 || ph.len() == 0 {
let mut rng = thread_rng();
let choice = valid.choose(&mut rng).unwrap();
dir = &choice.0;
} else {
if w.is_safe_to_dig(&pos, &b) {
w.clear(pos);
let mut greatest = &ph[0];
for (tup, p) in zip(&valid, &ph) {
if ph_fn(p) > ph_fn(greatest) {
greatest = p;
dir = &tup.0;
}
}
}
if dir == &self.dir {
self.forward(b);
} else if dir == &self.dir.cw() {
self.cw();
} else if dir == &self.dir.ccw() {
self.ccw();
}
BoardCommand::Noop
}
}
impl AI for FoodGenerator {
fn step(&mut self, b: &Screen, w: &mut World, t: u32) -> BoardCommand {
// eventually might want to use poisson disk distrib instead
if t % 600 == 0 && self.counter < 10 {
// generate random coords, if valid, spawn
// if not, try again next step
let (min, max) = b.get_dimensions();
let mut rng = rand::thread_rng();
let r_x = rng.gen_range(min.0..max.0 + 1);
let r_y = rng.gen_range(min.1..max.1 + 1);
self.counter += 1;
return BoardCommand::SpawnFood(Point(r_x, r_y));
}
BoardCommand::Noop
}
}
impl AI for Egg {
fn step(&mut self, b: &Screen, w: &mut World) -> BoardCommand {
fn step(&mut self, b: &Screen, w: &mut World, t: u32) -> BoardCommand {
if self.counter > 0 {
self.counter -= 1;
return BoardCommand::Noop;
@ -85,15 +127,14 @@ impl AI for Egg {
}
impl AI for Queen {
fn step(&mut self, b: &Screen, w: &mut World) -> BoardCommand {
let valid: Vec<Point> = w.get_valid_movements(&self.pos, b, false);
fn step(&mut self, b: &Screen, w: &mut World, t: u32) -> BoardCommand {
let valid: Vec<Point> = self.pos.get_neighbors();
let mut rng = thread_rng();
let choice = valid.choose(&mut rng).cloned();
if !choice.is_none() {
let pos = choice.unwrap();
if w.cleared.contains(&pos) {
// choose between laying an egg and moving
if self.egg_count < 3 {
self.egg_count += 1;
@ -102,7 +143,17 @@ impl AI for Queen {
self.pos = pos;
}
}
BoardCommand::Noop
}
}
impl AI for Food {
fn step(&mut self, b: &Screen, w: &mut World, t: u32) -> BoardCommand {
for n in self.pos.get_neighbors() {
w.drop_pheremone(&n, &AIGoal::Return);
}
w.drop_pheremone(&self.pos, &AIGoal::Return);
BoardCommand::Noop
}
}

95
src/lib/entity.rs
Unescape View File

@ -1,10 +1,8 @@
use crate::lib::ai::{AIGoal, AI};
use crate::lib::point::Point;
use crate::lib::screen::{BoardCommand, Screen};
use crate::lib::world::World;
use rand::Rng;
use crate::lib::point::{Direction, Point};
use crate::lib::screen::Screen;
use std::collections::HashMap;
use std::collections::{HashMap, HashSet};
use ncurses::*;
@ -16,6 +14,7 @@ pub trait Entity: AI + Downcast {
fn set_id(&mut self, id: u32);
}
macro_rules! impl_entity {
($t: ident) => {
impl Entity for $t {
@ -40,7 +39,9 @@ impl_downcast!(Renderable);
pub struct Ant {
pub pos: Point,
pub id: u32,
pub plan: Vec<AIGoal>,
pub goal: AIGoal,
pub dir: Direction,
pub history: HashSet<Point>,
}
impl Ant {
@ -48,10 +49,37 @@ impl Ant {
Ant {
pos: Point(x, y),
id: 0,
plan: vec![],
goal: AIGoal::Seek,
dir: Direction::Up,
history: HashSet::new(),
}
}
pub fn forward(&mut self, s: &Screen) {
let target = self.dir.relative_point(&self.pos);
if s.is_in_bounds(&target) {
self.history.insert(self.pos);
self.pos = target;
} else {
self.cw();
self.cw();
}
}
pub fn ccw(&mut self) {
self.dir = self.dir.ccw();
}
pub fn cw(&mut self) {
self.dir = self.dir.cw();
}
pub fn about_face(&mut self) {
self.cw();
self.cw();
}
}
impl_entity!(Ant);
impl_entity!(Food);
impl_entity!(FoodGenerator);
@ -60,14 +88,27 @@ impl_entity!(Queen);
impl Renderable for Ant {
fn representation(&self) -> &str {
"o"
match self.dir {
Direction::Up => "^",
Direction::Down => "v",
Direction::Right => ">",
Direction::Left => "<",
}
}
fn before_render(&self) {
attron(A_BOLD());
match self.goal {
AIGoal::Return => attron(A_UNDERLINE()),
AIGoal::Seek => 0,
};
}
fn after_render(&self) {
attroff(A_BOLD());
match self.goal {
AIGoal::Return => attroff(A_UNDERLINE()),
AIGoal::Seek => 0,
};
}
}
@ -173,7 +214,7 @@ impl Entities {
#[derive(Clone)]
pub struct Food {
pos: Point,
pub pos: Point,
id: u32,
}
@ -186,14 +227,6 @@ impl Food {
}
}
impl AI for Food {
fn step(&mut self, b: &Screen, w: &mut World) -> BoardCommand {
// perhaps check if we're in target?
// implement drag logic?
BoardCommand::Noop
}
}
impl Renderable for Food {
fn representation(&self) -> &str {
"f"
@ -203,34 +236,20 @@ impl Renderable for Food {
// no position, does not get rendered yet acts per turn
#[derive(Clone)]
pub struct FoodGenerator {
timer: u32,
pub timer: u32,
pos: Point,
id: u32,
counter: u32
pub counter: u32,
}
impl FoodGenerator {
pub fn new() -> FoodGenerator {
FoodGenerator { timer: 0, id: 0, pos: Point(0,0), counter: 0 }
}
}
impl AI for FoodGenerator {
fn step(&mut self, b: &Screen, w: &mut World) -> BoardCommand {
if self.timer % 600 == 0 && self.counter < 10 {
// generate random coords, if valid, spawn
// if not, try again next step
let (min, max) = b.get_dimensions();
let mut rng = rand::thread_rng();
let r_x = rng.gen_range(min.0..max.0 + 1);
let r_y = rng.gen_range(min.1..max.1 + 1);
self.counter += 1;
return BoardCommand::SpawnFood(Point(r_x, r_y));
FoodGenerator {
timer: 0,
id: 0,
pos: Point(0, 0),
counter: 0,
}
self.timer += 1;
BoardCommand::Noop
}
}

145
src/lib/point.rs
Unescape View File

@ -1,7 +1,3 @@
use crate::lib::screen::Screen;
use crate::lib::world::World;
use std::collections::{HashMap, HashSet};
#[derive(Hash, PartialEq, Eq, Clone, Debug, Copy)]
pub struct Point(pub i32, pub i32);
@ -14,29 +10,10 @@ impl Point {
Point(self.0 - 1, self.1)
}
pub fn is_below(&self, other: Point) -> bool {
other.down() == *self
}
pub fn right(&self) -> Point {
Point(self.0 + 1, self.1)
}
pub fn uldiag(&self) -> Point {
Point(self.0 - 1, self.1 - 1)
}
pub fn bldiag(&self) -> Point {
Point(self.0 + 1, self.1 - 1)
}
pub fn brdiag(&self) -> Point {
Point(self.0 + 1, self.1 + 1)
}
pub fn urdiag(&self) -> Point {
Point(self.0 - 1, self.1 + 1)
}
// y values are reversed in ncurses
pub fn down(&self) -> Point {
Point(self.0, self.1 + 1)
@ -47,111 +24,45 @@ impl Point {
}
}
fn manhattan(c1: &Point, c2: &Point) -> i32 {
return (c2.0 - c1.0).abs() + (c2.1 - c1.1).abs();
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
pub enum Direction {
Up = 0,
Right = 1,
Down = 2,
Left = 3,
}
fn weigh_point(w: &World, p: &Point) -> i32 {
if w.is_cleared(p) {
3
} else {
15
impl Direction {
pub fn from_u8(v: u8) -> Direction {
match v {
0 => Direction::Up,
1 => Direction::Right,
2 => Direction::Down,
3 => Direction::Left,
_ => panic!("Shouldn't happen")
}
}
pub struct PathNotFoundError;
pub fn astar(start: &Point, goal: &Point, w: Option<&World>, s: Option<&Screen>) -> Result<Vec<Point>, PathNotFoundError> {
let mut open_set: HashSet<Point> = HashSet::new();
open_set.insert(*start);
let mut came_from: HashMap<Point, Point> = HashMap::new();
let mut gscore: HashMap<Point, i32> = HashMap::new();
gscore.insert(*start, 0);
let mut fscore: HashMap<Point, i32> = HashMap::new();
fscore.insert(*start, manhattan(&start, &goal));
let mut answer = Vec::new();
let mut current: Point = *start;
while !open_set.is_empty() {
let mut min_score = i32::MAX;
for c in open_set.iter() {
let val = fscore[c];
current = if val < min_score { c.clone() } else { current };
min_score = if val < min_score { val } else { min_score };
}
if current == *goal {
answer.push(current.clone());
while came_from.contains_key(&current) {
current = came_from[&current].clone();
if current != *start {
answer.push(current.clone());
}
}
return Ok(answer);
pub fn cw(&self) -> Direction {
let val = *self as u8;
Direction::from_u8((val + 1) % 4)
}
open_set.remove(&current);
let current_gscore = gscore[&current];
let all_neighbors: Vec<Point> = match w {
Some(w) => current
.get_neighbors()
.iter()
.filter(|p| w.is_valid_movement(&current, p, s.unwrap()))
.map(|e| e.clone())
.collect(),
None => current.get_neighbors(),
};
for neighbor in all_neighbors.iter() {
let neighbor_score = if gscore.contains_key(&neighbor) {
gscore[&neighbor]
pub fn ccw(&self) -> Direction {
let val = *self as u8;
if val == 0 {
Direction::Left
} else {
i32::MAX
};
let weight = match w {
Some(w) => weigh_point(&w, neighbor),
None => 1,
};
let score = current_gscore + weight;
if score < neighbor_score {
gscore.insert(neighbor.clone(), score);
fscore.insert(neighbor.clone(), score + manhattan(&neighbor, &goal));
came_from.insert(neighbor.clone(), current.clone());
open_set.insert(neighbor.clone());
Direction::from_u8(val - 1)
}
}
}
Err(PathNotFoundError)
}
#[test]
fn test_astar() {
let start = Point(0, 0);
let goal = Point(10, 10);
let answers = astar(&start, &goal, None, None);
match answers {
Ok(ans) => {
for a in ans.iter() {
println!("{:?}", &a);
}
},
Err(_) => {
panic!("Path not found. That shouldn't happen!")
pub fn relative_point(&self, p: &Point) -> Point {
match self {
Direction::Up => p.up(),
Direction::Left => p.left(),
Direction::Right => p.right(),
Direction::Down => p.down(),
}
}
}

45
src/lib/screen.rs
Unescape View File

@ -1,16 +1,17 @@
use crate::lib::point::Point;
use ncurses::*;
pub struct Screen {
pub center: Point,
max_x: i32,
max_y: i32,
pub max_x: i32,
pub max_y: i32,
}
use ncurses::*;
pub fn init_screen() -> Screen {
initscr();
start_color();
init_pair(0, 0, 1);
/* Invisible cursor. */
curs_set(CURSOR_VISIBILITY::CURSOR_INVISIBLE);
@ -32,16 +33,7 @@ impl Screen {
}
pub fn is_in_bounds(&self, pos: &Point) -> bool {
(pos.0 >= 0 && pos.0 < self.max_x) && (pos.1 >= 0 && pos.1 < self.max_y)
}
pub fn get_valid_movements(&self, pos: &Point) -> Vec<Point> {
let binding = pos.get_neighbors();
binding
.iter()
.filter(|e| self.is_in_bounds(e))
.map(|e| e.clone())
.collect()
(pos.0 > 0 && pos.0 < self.max_x) && (pos.1 > 0 && pos.1 < self.max_y)
}
pub fn render(&self, p: &Point, char: &str) {
@ -53,33 +45,10 @@ impl Screen {
}
}
/*#[test]
fn test_in_bounds() {
let x = 20;
let y = 20;
let s = Screen::new(x, y);
assert!(&s.is_in_bounds(&Point(0, 0)));
assert!(!&s.is_in_bounds(&Point(21, 0)));
}
#[test]
fn test_get_valid_movements_board() {
let x = 20;
let y = 20;
let s = Screen::new(x, y);
let valid = s.get_valid_movements(&Point(0,0));
assert_eq!(valid, Point(0,0).get_neighbors());
let border = s.get_valid_movements(&Point(19,19));
assert!(border.len() == 2);
}*/
pub enum BoardCommand {
Dig(Point),
LayEgg(Point, u32),
SpawnFood(Point),
Hatch(u32, u32),
SpawnAnt,
Noop,
}

137
src/lib/world.rs
Unescape View File

@ -1,97 +1,77 @@
use crate::lib::ai::AIGoal;
use crate::lib::entity::{Ant, Egg, Entities, Food, Queen};
use crate::lib::point::{astar, Point};
use crate::lib::point::Point;
use crate::lib::screen::{BoardCommand, Screen};
use std::collections::HashSet;
use ncurses::*;
#[derive(Clone)]
pub struct World {
pub cleared: HashSet<Point>,
pub food: HashSet<u32>,
pub pheremones: Vec<Pheremone>,
pub food: HashSet<Point>,
pub home: HashSet<Point>,
width: usize,
}
impl World {
pub fn new() -> World {
World {
cleared: HashSet::new(),
food: HashSet::new(),
}
}
#[derive(Clone, PartialEq, PartialOrd, Debug)]
pub struct Pheremone {
pub home: u32,
pub food: u32,
}
pub fn clear(&mut self, pos: Point) {
self.cleared.insert(pos);
impl Pheremone {
pub fn new() -> Pheremone {
Pheremone { home: 0, food: 0 }
}
pub fn create_chamber(&mut self, center: Point, radius: i32) {
let cx = center.0;
let cy = center.1;
for i in cx-radius..cx+radius {
for j in cy-radius..cy+radius {
self.clear(Point(i,j));
pub fn decay(&mut self) {
if self.home > 0 {
self.home -= 1;
}
if self.food > 0 {
self.food -= 1;
}
}
}
pub fn is_valid_movement(&self, current: &Point, target: &Point, b: &Screen) -> bool {
// should allow down movements always
let safe = target.is_below(*current) || (
!self.cleared.contains(&target.down())
|| !self.cleared.contains(&target.left())
|| !self.cleared.contains(&target.right())
|| !self.cleared.contains(&target.bldiag())
|| !self.cleared.contains(&target.uldiag())
|| !self.cleared.contains(&target.brdiag())
|| !self.cleared.contains(&target.urdiag()));
impl World {
pub fn new(grid_size: &Point) -> World {
let x = grid_size.0;
let y = grid_size.1;
let ph: Vec<Pheremone> = vec![Pheremone::new(); (x+1) as usize * (y+1) as usize];
// of course, its only a valid move if you can walk there!
b.is_in_bounds(target) && self.cleared.contains(target) && safe
World {
pheremones: ph,
food: HashSet::new(),
home: HashSet::new(), // should be a property per colony
width: (y as usize), // width of map for Pheremone calculation
}
pub fn is_cleared(&self, pos: &Point) -> bool {
self.cleared.contains(pos)
}
pub fn is_safe_to_dig(&self, target: &Point, b: &Screen) -> bool {
let mut hypothetical_world = self.clone();
hypothetical_world.clear(*target);
let result = astar(target, &Point(0, 0), Some(&hypothetical_world), Some(b));
b.is_in_bounds(target) && result.is_ok()
pub fn get_mut_pheremone(&mut self, pos: &Point) -> &mut Pheremone {
&mut self.pheremones[((pos.0 as usize) * self.width) + (pos.1 as usize)]
}
pub fn get_diggable(&self, b: &Screen, pos: &Point) -> Vec<Point> {
let moves = b.get_valid_movements(pos);
moves
.iter()
.filter(|p| !self.is_cleared(p))
.map(|p| p.clone())
.collect()
pub fn get_pheremone(&self, pos: &Point) -> &Pheremone {
&self.pheremones[((pos.0 as usize) * self.width) + (pos.1 as usize)]
}
pub fn get_valid_movements(
&self,
pos: &Point,
b: &Screen,
return_diggables: bool,
) -> Vec<Point> {
let moves = b.get_valid_movements(pos);
let mut ans: Vec<Point> = moves
.iter()
.filter(|p| self.is_valid_movement(pos, p, b))
.map(|p| p.clone())
.collect();
pub fn drop_pheremone(&mut self, pos: &Point, state: &AIGoal) {
let ph = self.get_mut_pheremone(pos);
if return_diggables {
ans.extend(self.get_diggable(b, pos));
match state {
AIGoal::Seek => ph.home += 1,
AIGoal::Return => ph.food += 1,
}
ans
}
}
pub fn render(e: &Entities, w: &World, b: &Screen) {
for c in w.cleared.iter() {
b.render(c, "x");
erase();
for h in w.home.iter() {
b.render(h, "x");
}
for a in e.data.values() {
@ -99,20 +79,17 @@ pub fn render(e: &Entities, w: &World, b: &Screen) {
}
}
pub fn simulate(e: &mut Entities, w: &mut World, b: &mut Screen) {
let cmds: Vec<BoardCommand> = e
.data
.values_mut()
.map(|a| {
a.plan(w);
a.step(b, w)
})
.collect();
pub fn simulate(e: &mut Entities, w: &mut World, b: &mut Screen, step: u32) {
let plan_cmds: Vec<BoardCommand> = e.data.values_mut().map(|a| a.plan(b, w)).collect();
let mut cmds: Vec<BoardCommand> = e.data.values_mut().map(|a| a.step(b, w, step)).collect();
cmds.extend(plan_cmds);
for cmd in cmds {
match cmd {
BoardCommand::Dig(pos) => {
w.clear(pos);
BoardCommand::SpawnAnt => {
let ant = Ant::new(b.center.0, b.center.1);
e.add_entity(&ant);
}
BoardCommand::LayEgg(pos, id) => {
let egg = Egg::new(pos.0, pos.1, id);
@ -131,8 +108,16 @@ pub fn simulate(e: &mut Entities, w: &mut World, b: &mut Screen) {
BoardCommand::SpawnFood(pos) => {
let food = Food::new(pos.0, pos.1);
e.add_entity(&food);
w.food.insert(pos);
}
BoardCommand::Noop => {}
}
}
// decay all pheremones by some amount
if step % 600 == 0 {
for ph in w.pheremones.iter_mut() {
ph.decay();
}
}
}

30
src/main.rs
Unescape View File

@ -7,34 +7,42 @@ use std::thread::sleep;
use std::time;
mod lib {
pub mod ai;
pub mod entity;
pub mod point;
pub mod screen;
pub mod world;
pub mod entity;
pub mod ai;
}
use lib::entity::{Ant, Entities, FoodGenerator};
use lib::point::Point;
use lib::screen::init_screen;
use lib::world::{World, simulate, render};
use lib::entity::{Entities, Queen};
use lib::world::{render, simulate, World};
fn main() {
let mut board = init_screen();
let mut world = World::new();
let mut screen = init_screen();
let mut world = World::new(&Point(screen.max_x, screen.max_y));
world.home.insert(screen.center);
let mut entities = Entities::new();
let q = Queen::new(board.center.0,board.center.1);
entities.add_entity(&q);
world.create_chamber(Point(board.center.0, board.center.1), 3);
let fg = FoodGenerator::new();
entities.add_entity(&fg);
for _ in 0..5 {
let mut a = Ant::new(screen.center.0, screen.center.1);
a.goal = lib::ai::AIGoal::Seek;
entities.add_entity(&a);
}
let mut t = 0;
loop {
// TODO: add way to break out of the loop by hitting a random key
simulate(&mut entities, &mut world, &mut board);
render(&entities, &world, &board);
simulate(&mut entities, &mut world, &mut screen, t);
render(&entities, &world, &screen);
sleep(time::Duration::from_millis(100));
refresh();
t += 1;
}
endwin();
}

11
tests/ai_test.rs
Unescape View File

@ -13,9 +13,8 @@ use std::time;
#[test]
fn test_reach_astar() {
let mut board = init_screen(); //Screen::new(40,40);
let mut world = World::new();
let mut world = World::new(&Point(board.max_x, board.max_y));
world.clear(Point(0, 0));
let mut entities = Entities::new();
let a = Ant::new(0, 0);
@ -23,15 +22,15 @@ fn test_reach_astar() {
let a = entities.data.get_mut(&id).unwrap();
let ant: &mut Ant = a.downcast_mut::<Ant>().unwrap();
ant.plan.push(AIGoal::Reach(Point(0, 0)));
/*ant.plan.push(AIGoal::Reach(Point(0, 0)));
ant.plan.push(AIGoal::Reach(Point(20, 20)));
ant.plan.push(AIGoal::Reach(Point(0, 0)));
ant.plan.push(AIGoal::Reach(Point(20, 20)));
ant.plan.push(AIGoal::Reach(Point(20, 20)));*/
// craps out... need to make sure unwrap() is safe
for _ in 0..420 {
for t in 0..420 {
// TODO: add way to break out of the loop by hitting a random key
simulate(&mut entities, &mut world, &mut board);
simulate(&mut entities, &mut world, &mut board, t);
render(&entities, &world, &board);
sleep(time::Duration::from_millis(100));
refresh();

7
tests/entity_test.rs
Unescape View File

@ -1,6 +1,7 @@
use antf::lib::screen::init_screen;
use antf::lib::world::{World, simulate, render};
use antf::lib::entity::{Entities, FoodGenerator};
use antf::lib::point::Point;
use ncurses::*;
use std::thread::sleep;
@ -9,15 +10,15 @@ use std::time;
#[test]
fn test_foodgen() {
let mut board = init_screen();
let mut world = World::new();
let mut world = World::new(&Point(board.max_x, board.max_y));
let mut entities = Entities::new();
let fg = FoodGenerator::new();
entities.add_entity(&fg);
for _ in 0..60 {
for t in 0..60 {
// TODO: add way to break out of the loop by hitting a random key
simulate(&mut entities, &mut world, &mut board);
simulate(&mut entities, &mut world, &mut board, t);
render(&entities, &world, &board);
sleep(time::Duration::from_millis(100));
refresh();

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