# Simulations of Hanabi strategies Hanabi is a cooperative card game of incomplete information. Despite relatively [simple rules](https://boardgamegeek.com/article/10670613#10670613), the space of Hanabi strategies is quite interesting. This project provides a framework for implementing Hanabi strategies in Rust. It also explores some implementations, based on ideas from [this paper](https://d0474d97-a-62cb3a1a-s-sites.googlegroups.com/site/rmgpgrwc/research-papers/Hanabi_final.pdf). In particular, it contains an improved version of their "information strategy", which achieves state-of-the-art results for games with more than 2 players ([see below](#results)). Please feel free to contact me about Hanabi strategies, or this framework. Most similar projects I am aware of: - https://github.com/rjtobin/HanSim (written for the paper mentioned above) - https://github.com/Quuxplusone/Hanabi This repository has been cited in [this paper](https://arxiv.org/abs/1902.00506) from DeepMind and Google Brain, and is briefly discussed in [this article](https://www.wsj.com/articles/why-the-card-game-hanabi-is-the-next-big-hurdle-for-artificial-intelligence-11553875351) from the Wall Street Journal! ## Setup Install rust (rustc and cargo), and clone this git repo. Then, in the repo root, run `cargo run -- -h` to see usage details. For example, to simulate a 5 player game using the cheating strategy, for seeds 0-99: ``` cargo run -- -n 100 -s 0 -p 5 -g cheat ``` Or, if the simulation is slow, build with `--release` and use more threads: ``` time cargo run --release -- -n 10000 -o 1000 -s 0 -t 4 -p 5 -g info ``` Or, to see a transcript of the game with seed 222: ``` cargo run -- -s 222 -p 5 -g info -l debug | less ``` ## Strategies To write a strategy, you simply [implement a few traits](src/strategy.rs). The framework is designed to take advantage of Rust's ownership system so that you *can't cheat*, without using stuff like `Cell` or `Arc` or `Mutex`. Generally, your strategy will be passed something of type `&BorrowedGameView`. This game view contains many useful helper functions ([see here](src/game.rs)). If you want to mutate a view, you'll want to do something like `let mut self.view = OwnedGameView::clone_from(borrowed_view);`. An OwnedGameView will have the same API as a borrowed one. Some examples: - [Basic dummy examples](src/strategies/examples.rs) - [A cheating strategy](src/strategies/cheating.rs), using `Rc>` - [The information strategy](src/strategies/information.rs)! ## Results (auto-generated) To reproduce: ``` time cargo run --release -- --results-table ``` To update this file: ``` time cargo run --release -- --write-results-table ``` On the first 20000 seeds, we have these scores and win rates (average ± standard error): | | 2p | 3p | 4p | 5p | |---------|------------------|------------------|------------------|------------------| | cheat | 24.8594 ± 0.0036 | 24.9785 ± 0.0012 | 24.9720 ± 0.0014 | 24.9557 ± 0.0018 | | | 90.59 ± 0.21 % | 98.17 ± 0.09 % | 97.76 ± 0.10 % | 96.42 ± 0.13 % | | info | 22.5194 ± 0.0125 | 24.7942 ± 0.0039 | 24.9354 ± 0.0022 | 24.9220 ± 0.0024 | | | 12.58 ± 0.23 % | 84.46 ± 0.26 % | 95.03 ± 0.15 % | 94.01 ± 0.17 % |