1 unstable release
0.1.0 | Oct 27, 2019 |
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#332 in Games
38KB
836 lines
mancala
Reinforcement learning Mancala, in Rust.
What is
This section will define the terms in the description of this project.
Mancala
Mancala is a
generic name for a family of two-player turn-based strategy board games played with small stones, beans, or seeds and rows of holes or pits in the earth, a board or other playing surface. The objective is usually to capture all or some set of the opponent's pieces.
Rust
Rust is a programming language that
is fundamentally about empowerment: no matter what kind of code you are writing now, Rust empowers you to reach farther, to program with confidence in a wider variety of domains than you did before.
Reinforcement learning
Reinforcement learning is an
area of machine learning concerned with how software agents ought to take actions in an environment so as to maximize some notion of cumulative reward. The problem, due to its generality, is studied in many other disciplines, such as game theory, control theory, operations research, information theory, simulation-based optimization, multi-agent systems, swarm intelligence, statistics and genetic algorithms.
Usage
Who will win?
Let's say we are interested in a game of mancala where each player has only one bowl. Players do not have a real choice. They can only play their single bowl. So determining who wins should not be that hard. Let's use mancala
for that.
Start with announcing the mancala
crate.
extern crate mancala;
Since we will be using Position
directly import it now.
use mancala::game::Position;
Let's agree to start out with 8 stones each. We can create a starting position from a array in the following manner
let mut position = Position::from([8; 2]);
This array represents the bowls with their stones, one bowl for each player.
No we want to play from the only bowl until the game is over.
while !position.finished() {
position = position.play(0).unwrap();
}
With the game finished, we can determine the score.
println!("score {}", position.score().unwrap());
Now we know who is going to win. You can see a similar program in examples/position2
.
Play the computer
If you want to play Mancala against the computer this crate has got you covered as well.
Since we are going to use this crate we should better announce that.
extern crate mancala;
Next we need a few imports that will help us setup the game. the std::ops::Neg
is used to show the correct score.
use std::ops::Neg;
use mancala::bout::Bout;
use mancala::game::{GameBuilder, Player};
use mancala::strategy::tree::Depth;
use mancala::strategy::{AlphaBeta, User};
Since this is a program, we need a main
function.
fn main() {
...
}
We first need two strategies. One User
strategy and a AlphaBeta
strategy limited to a depth of 10. Changing this parameter will influence how strong the computer plays and the amount of time the computer takes to come up with an play. With these two strategies we are ready to create a Bout
.
lt mut red_strategy = user();
let mut blue_strategy = AlphaBeta::limited_to(Depth::Limit(10));
let mut bout = Bout::new(&mut red_strategy, &mut blue_strategy);
Next, we create a game with 6 bowls each and 4 stones per bowl.
let game = GameBuilder::new().bowls(6).stones(4).build();
and start the bout between the strategies.
let result = bout.start(game).expect("a finished game with score");
The result is a position which can be asked for the score. We will show the score for the start player, which is Red
and need to negate the score if the position is Blue
, since this is a zero-sum game.
let mut score = result.score().expect("a defined score");
if result.turn() != Player::Red {
score = score.neg();
}
println!("{:?}", score);
A variant of the above is already made into a program in src/bin/play.rs
.
Strategies
A strategy is an algorithm that determines what to play in a given situation. A strategy can have a profound impact. For example below there is a comparison between the strategies MinMax
en AlphaBeta
.
Both strategies are used to determine which player will win for a mancala game with two bowls and a number of stones between 1 and 14.
number of stones | Score |
---|---|
1 | 2 |
2 | -2 |
3 | -4 |
4 | -10 |
5 | 6 |
6 | 8 |
7 | 12 |
8 | 4 |
9 | -10 |
10 | -6 |
11 | 6 |
12 | 14 |
13 | 6 |
14 | 4 |
The time it took to produce these result are found below
Algorithm | Time |
---|---|
MinMax |
25.21 |
AlphaBeta |
0.59 |
Which is quit impressive.
Dependencies
~750KB