//! # Play a TricTrac Game use crate::board::{Board, CheckerMove}; use crate::dice::Dice; use crate::game_rules_moves::MoveRules; use crate::game_rules_points::PointsRules; use crate::player::{Color, Player, PlayerId}; use log::error; // use itertools::Itertools; use serde::{Deserialize, Serialize}; use std::collections::HashMap; use std::{fmt, str}; use base64::{engine::general_purpose, Engine as _}; /// The different stages a game can be in. (not to be confused with the entire "GameState") #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, Serialize, Deserialize)] pub enum Stage { PreGame, InGame, Ended, } /// The different stages a game turn can be in. #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, Serialize, Deserialize)] pub enum TurnStage { RollDice, RollWaiting, MarkPoints, Move, } /// Represents a TricTrac game #[derive(Debug, Clone, PartialEq, Serialize, Deserialize)] pub struct GameState { pub stage: Stage, pub turn_stage: TurnStage, pub board: Board, pub active_player_id: PlayerId, pub players: HashMap, pub history: Vec, /// last dice pair rolled pub dice: Dice, /// true if player needs to roll first roll_first: bool, } // implement Display trait impl fmt::Display for GameState { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let mut s = String::new(); s.push_str(&format!( "Stage: {:?} / {:?}\n", self.stage, self.turn_stage )); s.push_str(&format!("Dice: {:?}\n", self.dice)); // s.push_str(&format!("Who plays: {}\n", self.who_plays().map(|player| &player.name ).unwrap_or(""))); s.push_str(&format!("Board: {:?}\n", self.board)); write!(f, "{}", s) } } impl PointsRules for GameState { fn board(&self) -> &Board { &self.board } fn dice(&self) -> &Dice { &self.dice } } impl Default for GameState { fn default() -> Self { Self { stage: Stage::PreGame, turn_stage: TurnStage::RollDice, board: Board::default(), active_player_id: 0, players: HashMap::new(), history: Vec::new(), dice: Dice::default(), roll_first: true, } } } impl GameState { /// Create a new default game pub fn new() -> Self { GameState::default() } // ------------------------------------------------------------------------- // accessors // ------------------------------------------------------------------------- /// Calculate game state id : pub fn to_string_id(&self) -> String { // Pieces placement -> 77 bits (24 + 23 + 30 max) let mut pos_bits = self.board.to_gnupg_pos_id(); // active player -> 1 bit // white : 0 (false) // black : 1 (true) pos_bits.push( self.who_plays() .map(|player| { if player.color == Color::Black { '1' } else { '0' } }) .unwrap_or('0'), // White by default ); // step -> 2 bits let step_bits = match self.turn_stage { TurnStage::RollWaiting => "00", TurnStage::RollDice => "01", TurnStage::MarkPoints => "10", TurnStage::Move => "11", }; pos_bits.push_str(step_bits); // dice roll -> 6 bits let dice_bits = self.dice.to_bits_string(); pos_bits.push_str(&dice_bits); // points 10bits x2 joueurs = 20bits let white_bits = self.get_white_player().unwrap().to_bits_string(); let black_bits = self.get_black_player().unwrap().to_bits_string(); pos_bits.push_str(&white_bits); pos_bits.push_str(&black_bits); pos_bits = format!("{:0>108}", pos_bits); // println!("{}", pos_bits); let pos_u8 = pos_bits .as_bytes() .chunks(6) .map(|chunk| str::from_utf8(chunk).unwrap()) .map(|chunk| u8::from_str_radix(chunk, 2).unwrap()) .collect::>(); general_purpose::STANDARD.encode(pos_u8) } pub fn who_plays(&self) -> Option<&Player> { self.players.get(&self.active_player_id) } pub fn get_white_player(&self) -> Option<&Player> { self.players .iter() .filter(|(_id, player)| player.color == Color::White) .map(|(_id, player)| player) .next() } pub fn get_black_player(&self) -> Option<&Player> { self.players .iter() .filter(|(_id, player)| player.color == Color::Black) .map(|(_id, player)| player) .next() } pub fn player_id_by_color(&self, color: Color) -> Option<&PlayerId> { self.players .iter() .filter(|(_id, player)| player.color == color) .map(|(id, _player)| id) .next() } pub fn player_id(&self, player: &Player) -> Option<&PlayerId> { self.players .iter() .filter(|(_id, candidate)| player.color == candidate.color) .map(|(id, _candidate)| id) .next() } pub fn player_color_by_id(&self, player_id: &PlayerId) -> Option { self.players .iter() .filter(|(id, _)| *id == player_id) .map(|(_, player)| player.color) .next() } // ---------------------------------------------------------------------------------- // Rules checks // ---------------------------------------------------------------------------------- /// Determines whether an event is valid considering the current GameState pub fn validate(&self, event: &GameEvent) -> bool { use GameEvent::*; match event { BeginGame { goes_first } => { // Check that the player supposed to go first exists if !self.players.contains_key(goes_first) { return false; } // Check that the game hasn't started yet. (we don't want to double start a game) if self.stage != Stage::PreGame { return false; } } EndGame { reason } => { if let EndGameReason::PlayerWon { winner: _ } = reason { // Check that the game has started before someone wins it if self.stage != Stage::InGame { return false; } } } PlayerJoined { player_id, name: _ } => { // Check that there isn't another player with the same id if self.players.contains_key(player_id) { return false; } } PlayerDisconnected { player_id } => { // Check player exists if !self.players.contains_key(player_id) { return false; } } Roll { player_id } | RollResult { player_id, dice: _ } => { // Check player exists if !self.players.contains_key(player_id) { return false; } // Check player is currently the one making their move if self.active_player_id != *player_id { return false; } } Mark { player_id, points } => { // Check player exists if !self.players.contains_key(player_id) { return false; } // Check player is currently the one making their move if self.active_player_id != *player_id { return false; } // Check points are correct let rules_points: u8 = self.get_points().iter().map(|r| r.0).sum(); if rules_points != *points { return false; } } Move { player_id, moves } => { // Check player exists if !self.players.contains_key(player_id) { error!("Player {} unknown", player_id); return false; } // Check player is currently the one making their move if self.active_player_id != *player_id { error!("Player not active : {}", self.active_player_id); return false; } let color = &self.players[player_id].color; let rules = MoveRules::new(color, &self.board, self.dice, moves); if !rules.moves_follow_rules() { return false; } } } // We couldn't find anything wrong with the event so it must be good true } // ---------------------------------------------------------------------------------- // State updates // ---------------------------------------------------------------------------------- pub fn init_player(&mut self, player_name: &str) -> Option { if self.players.len() > 2 { println!("more than two players"); return None; } let player_id = self.players.len() + 1; println!("player_id {}", player_id); let color = if player_id == 1 { Color::White } else { Color::Black }; let player = Player::new(player_name.into(), color); self.players.insert(player_id as PlayerId, player); Some(player_id as PlayerId) } fn add_player(&mut self, player_id: PlayerId, player: Player) { self.players.insert(player_id, player); } pub fn switch_active_player(&mut self) { let other_player_id = self .players .iter() .filter(|(id, _player)| **id != self.active_player_id) .map(|(id, _player)| *id) .next(); self.active_player_id = other_player_id.unwrap_or(0); } /// Consumes an event, modifying the GameState and adding the event to its history /// NOTE: consume assumes the event to have already been validated and will accept *any* event passed to it pub fn consume(&mut self, valid_event: &GameEvent) { use GameEvent::*; match valid_event { BeginGame { goes_first } => { self.active_player_id = *goes_first; // if self.who_plays().is_none() { // let active_color = match self.dice.coin() { // false => Color::Black, // true => Color::White, // }; // let color_player_id = self.player_id_by_color(active_color); // if color_player_id.is_some() { // self.active_player_id = *color_player_id.unwrap(); // } // } self.stage = Stage::InGame; self.turn_stage = TurnStage::RollDice; } EndGame { reason: _ } => self.stage = Stage::Ended, PlayerJoined { player_id, name } => { let color = if !self.players.is_empty() { Color::White } else { Color::Black }; self.players.insert( *player_id, Player { name: name.to_string(), color, holes: 0, points: 0, can_bredouille: true, can_big_bredouille: true, }, ); } PlayerDisconnected { player_id } => { self.players.remove(player_id); } Roll { player_id: _ } => { self.turn_stage = TurnStage::RollWaiting; } RollResult { player_id: _, dice } => { self.dice = *dice; self.turn_stage = TurnStage::MarkPoints; } Mark { player_id, points } => { self.mark_points(*player_id, *points); if self.stage != Stage::Ended { self.turn_stage = TurnStage::Move; } } Move { player_id, moves } => { let player = self.players.get(player_id).unwrap(); self.board.move_checker(&player.color, moves.0).unwrap(); self.board.move_checker(&player.color, moves.1).unwrap(); self.active_player_id = *self.players.keys().find(|id| *id != player_id).unwrap(); self.turn_stage = TurnStage::RollDice; } } self.history.push(valid_event.clone()); } /// Determines if someone has won the game pub fn determine_winner(&self) -> Option { None } fn mark_points(&mut self, player_id: PlayerId, points: u8) { self.players.get_mut(&player_id).map(|p| { p.points += points; p }); } } /// The reasons why a game could end #[derive(Debug, Clone, Copy, Serialize, PartialEq, Deserialize)] pub enum EndGameReason { // In tic tac toe it doesn't make sense to keep playing when one of the players disconnect. // Note that it might make sense to keep playing in some other game (like Team Fight Tactics for instance). PlayerLeft { player_id: PlayerId }, PlayerWon { winner: PlayerId }, } /// An event that progresses the GameState forward #[derive(Debug, Clone, Serialize, PartialEq, Deserialize)] pub enum GameEvent { BeginGame { goes_first: PlayerId, }, EndGame { reason: EndGameReason, }, PlayerJoined { player_id: PlayerId, name: String, }, PlayerDisconnected { player_id: PlayerId, }, Roll { player_id: PlayerId, }, RollResult { player_id: PlayerId, dice: Dice, }, Mark { player_id: PlayerId, points: u8, }, Move { player_id: PlayerId, moves: (CheckerMove, CheckerMove), }, } #[cfg(test)] mod tests { use super::*; #[test] fn to_string_id() { let mut state = GameState::default(); state.add_player(1, Player::new("player1".into(), Color::White)); state.add_player(2, Player::new("player2".into(), Color::Black)); let string_id = state.to_string_id(); // println!("string_id : {}", string_id); assert!(string_id == "Dz8+AAAAAT8/MAAAAAQAADAD"); } }