Schafkopf-Server/Sources/App/Model/OldTable.swift

import Foundation
import WebSocketKit

private extension Int {
    
    mutating func advanceInTable() {
        self = (self + 1) % maximumPlayersPerTable
    }
}

final class OldTable {
    
    let id: TableId
    
    let name: TableName
    
    let isPublic: Bool
    
    var players: [OldPlayer] = []
    
    var phase: GamePhase = .waitingForPlayers
    
    var gameType: GameType? = nil
    
    var minimumPlayableGame: GameType.GameClass = .none
    
    /// Indicates if any player doubled during the current round, extending it to the next round
    var didDoubleInCurrentRound = false
    
    /// Indicates that all players acted after the first four cards
    var allPlayersFinishedDoubling: Bool {
        !players.contains { $0.didDoubleAfterFourCards == nil }
    }

    /// At least one double exists after all players acted on their first cards
    var initialDoubleExists: Bool {
        players.contains { $0.didDoubleAfterFourCards == true }
    }

    var weddingOfferExists: Bool {
        players.contains { $0.offersWedding }
    }

    var weddingAcceptExists: Bool {
        players.contains { $0.wouldAcceptWedding }
    }

    var hasAuctionWinner: Bool {
        numberOfRemainingBidders == 1
    }

    var numberOfRemainingBidders: Int {
        players.filter { $0.isStillBidding }.count
    }

    var auctionWinner: OldPlayer {
        players.first { $0.isStillBidding }!
    }

    var hasCompletedTrick: Bool {
        !players.contains { $0.playedCard == nil }
    }

    var completedTrick: Trick? {
        let trick = players.compactMap { $0.playedCard }
        guard trick.count == maximumPlayersPerTable else {
            return nil
        }
        return trick
    }

    var currentTrick: [Card] {
        players.compactMap { $0.playedCard }
    }

    var didFinishGame: Bool {
        !players.contains { !$0.handCards.isEmpty }
    }
    
    init(id: TableId, name: TableName, isPublic: Bool) {
        self.id = id
        self.name = name
        self.isPublic = isPublic
    }
    
    init(newTable name: TableName, isPublic: Bool) {
        self.id = .newToken()
        self.name = name
        self.isPublic = isPublic
    }
    
    func add(player: PlayerName) -> Bool {
        guard !isFull else {
            return false
        }
        let player = OldPlayer(name: player)
        players.append(player)
        if isFull {
            prepareTableForFirstGame()
        }
        sendUpdateToAllPlayers()
        return true
    }
    
    func contains(player: PlayerName) -> Bool {
        players.contains { $0.name == player }
    }

    /// The player to play the first card of the current game
    var firstPlayer: OldPlayer {
        players.first { $0.playsFirstCard }!
    }
    
    func select(player: PlayerName) -> OldPlayer? {
        players.first { $0.name == player }
    }

    var indexOfTrickStarter: Int {
        players.firstIndex { $0.startedCurrentTrick }!
    }
    
    func player(at index: Int) -> OldPlayer? {
        guard index < players.count else {
            return nil
        }
        return players[index]
    }

    func index(of player: OldPlayer) -> Int {
        players.firstIndex(of: player)!
    }

    func nextPlayer(after player: OldPlayer) -> OldPlayer {
        let i = index(of: player)
        let newIndex = (i + 1) % maximumPlayersPerTable
        return players[newIndex]
    }

    func nextBidder(after player: OldPlayer) -> OldPlayer {
        // Find next player to place bid
        let index = index(of: player)
        for i in 1..<4 {
            let player = players[(index + i) % 4]
            guard player.isStillBidding, !player.offersWedding else {
                continue
            }
            return player
        }
        return player
    }

    func availableGames(forPlayerAt index: Int) -> [GameType] {

        return []
    }
    
    func remove(player: PlayerName) {
        guard let index = players.firstIndex(where: { $0.name == player }) else {
            return
        }
        let removedPlayer = players[index]
        if removedPlayer.playsFirstCard {
            players[(index + 1) % players.count].playsFirstCard = true
        }
        players.remove(at: index)
        reset()
    }
    
    func connect(player name: PlayerName, using socket: WebSocket) -> Bool {
        guard let player = select(player: name) else {
            return false
        }
        player.connect(using: socket)
        sendUpdateToAllPlayers()
        return true
    }
    
    func disconnect(player name: PlayerName) {
        guard let player = select(player: name) else {
            return
        }
        guard player.disconnect() else {
            return
        }
        sendUpdateToAllPlayers()
        return
    }
    
    private func prepareTableForFirstGame() {
        phase = .waitingForPlayers
        gameType = nil
        minimumPlayableGame = .none // Not relevant in this phase
        didDoubleInCurrentRound = false // Not relevant in this phase
        let index = players.firstIndex { $0.playsFirstCard } ?? 0
        for i in 0..<maximumPlayersPerTable {
            players[i].prepareForNewGame(isFirstPlayer: i == index)
        }
    }
    
    private func sendUpdateToAllPlayers() {

    }
    
    // MARK: Player actions

    func play(card: Card, player name: PlayerName) -> PlayCardResult {
        let player = select(player: name)!
        if phase == .selectWeddingCard {
            return selectedCardForWedding(card: card, player: player)
        }
        guard let game = gameType, player.hasPlayable(card: card) else {
            // Player only has playable cards when it is active
            return .invalidCard
        }
        if hasCompletedTrick {
            // Hide cards from last trick when next card is played
            players.forEach { $0.clearLastTrick() }
        }
        player.play(card: card)
        if let completedTrick = completedTrick {
            didFinish(trick: completedTrick, in: game)
            // Update cards for empty trick
            players.forEach { $0.setPlayableCards(forCurrentTrick: [], in: game) }
        } else {
            let next = nextPlayer(after: player)
            next.isNextActor = true
            player.isNextActor = false
            // Update cards for empty trick
            players.forEach { $0.setPlayableCards(forCurrentTrick: currentTrick, in: game) }
        }
        if didFinishGame {
            finishedGame()
        }
        sendUpdateToAllPlayers()
        return .success
    }

    private func finishedGame() {
        phase = .gameFinished
        players.forEach { $0.didFinishGame() }
        guard didFinishGame else {
            // Either no doubles or bids
            return
        }
        // TODO: Calculate winner, points, cost

    }

    func didFinish(trick: Trick, in game: GameType) {
        // If trick is completed, calculate winner
        let startIndex = indexOfTrickStarter
        let rotated = trick.rotated(toStartAt: startIndex)
        let index = rotated.highCardIndex(forGame: game)
        print("Winner \(index) for \(rotated)")
        let winner = players[(startIndex + index) % 4]
        players.forEach {
            $0.didFinish(trick: trick,
                         winner: winner == $0,
                         canDoubleInNextRound: didDoubleInCurrentRound)
        }
        if game == .bettel && winner.isGameLeader {
            // A bettel is lost if a single trick is won by the leader
            finishedGame()
            return
        }
        didDoubleInCurrentRound = false
    }
    
    func perform(action: PlayerAction, forPlayer player: PlayerName) -> PlayerActionResult {
        let player = select(player: player)!
        guard player.canPerform(action) else {
            print("Player \(player) wants to \(action.path), but only allowed: \(player.actions)")
            return .tableStateInvalid
        }
        defer { sendUpdateToAllPlayers() }
        switch action {
        case .deal:
            return dealInitialCards()
        case .initialDoubleCost:
            return perform(double: true, forPlayer: player)
        case .noDoubleCost:
            return perform(double: false, forPlayer: player)
        case .offerWedding:
            return performWeddingCall(forPlayer: player)
        case .acceptWedding:
            return handleWeddingAccept(forPlayer: player)
        case .increaseOrMatchGame:
            return performBidIncrease(forPlayer: player)
        case .withdrawFromAuction:
            return performWithdrawl(forPlayer: player)
        case .doubleDuringGame:
            return performDoubleDuringGame(forPlayer: player)
        }
    }
    
    private func dealInitialCards() -> PlayerActionResult {
        guard isFull else {
            return .tableNotFull
        }
        guard phase == .waitingForPlayers || phase == .gameFinished else {
            return .tableStateInvalid
        }
        if phase == .gameFinished {
            prepareForNextGame()
        }
        
        let cards = Dealer.dealFirstCards()
        for (index, player) in players.enumerated() {
            player.assignFirstCards(cards[index])
        }
        phase = .collectingDoubles
        gameType = nil
        return .success
    }
    
    func perform(double: Bool, forPlayer player: OldPlayer) -> PlayerActionResult {
        player.didDouble(double)
        guard allPlayersFinishedDoubling else {
            return .success
        }
        if initialDoubleExists {
            dealAdditionalCards()
        } else {
            finishedGame()
        }
        return .success
    }
    
    private func dealAdditionalCards() {
        let cards = Dealer.dealRemainingCards(of: players.map { $0.rawCards })
        for (index, player) in players.enumerated() {
            player.assignRemainingCards(cards[index])
        }
        players.forEach { $0.startAuction() }
        minimumPlayableGame = .none
        phase = .bidding
    }

    private func performWeddingCall(forPlayer player: OldPlayer) -> PlayerActionResult {
        guard phase == .bidding else {
            print("Invalid phase \(phase) for wedding call")
            return .tableStateInvalid
        }
        guard minimumPlayableGame.allowsWedding else {
            print("Invalid minimum game \(minimumPlayableGame) for wedding call")
            return .tableStateInvalid
        }
        guard player.canOfferWedding else {
            print("Player does not offer wedding")
            return .tableStateInvalid
        }
        guard !weddingOfferExists else {
            // Only one wedding allowed at the table
            print("Already one wedding at table")
            return .tableStateInvalid
        }
        // Only allow wedding acceptance or outbidding
        players.forEach { $0.weddingOfferExists() }
        player.offerWedding()
        firstPlayer.hasWeddingOffer()
        minimumPlayableGame = .bettel
        return .success
    }

    private func performBidIncrease(forPlayer player: OldPlayer) -> PlayerActionResult {
        guard phase == .bidding else {
            return .tableStateInvalid
        }
        if weddingOfferExists {
            // Anyone except the offerer can outbid a wedding
            return handleWeddingOutbid(forPlayer: player)
        }
        guard player.isNextActor else {
            return .tableStateInvalid
        }
        // TODO: Check if new player sits before old player
        // then don't increase game
        minimumPlayableGame.increase()
        if !minimumPlayableGame.allowsWedding {
            // Remove wedding offers
            players.forEach { $0.weddingOutbid() }
        }
        #warning("Fix bidding")
        // TODO: Remove highest bidder from old player
        player.didPerformBid()

        if numberOfRemainingBidders == 1 {
            selectGame(player: player)
            return .success
        }
        // Find next player to place bid
        nextBidder(after: player).requiresBid(hasWedding: false)
        return .success
    }

    private func handleWeddingOutbid(forPlayer player: OldPlayer) -> PlayerActionResult {
        if player.offersWedding {
            // A player offering a wedding can't outbid itself
            return .tableStateInvalid
        }
        players.forEach { $0.weddingOutbid() }
        nextBidder(after: player).requiresBid(hasWedding: false)
        return .success
    }

    private func handleWeddingAccept(forPlayer player: OldPlayer) -> PlayerActionResult {
        guard phase == .bidding else {
            return .tableStateInvalid
        }
        guard minimumPlayableGame.allowsWedding else {
            return .tableStateInvalid
        }
        guard weddingOfferExists else {
            return .tableStateInvalid
        }
        guard player.isNextActor else {
            return .tableStateInvalid
        }
        guard !player.offersWedding else {
            return .tableStateInvalid
        }
        guard !weddingAcceptExists else {
            return .tableStateInvalid
        }
        if hasAuctionWinner {
            selectedWedding(player: player)
            return .success
        }
        minimumPlayableGame = .bettel
        players.forEach {
            $0.weddingAccepted()
        }
        player.acceptWedding()
        nextBidder(after: player).requiresBid(hasWedding: false)
        return .success
    }

    private func selectedWedding(player: OldPlayer) {
        minimumPlayableGame = .none
        gameType = .hochzeit
        phase = .selectWeddingCard
        players.forEach { $0.auctionEnded() }
        player.mustSelectWeddingCard()
    }

    private func selectedCardForWedding(card: Card, player: OldPlayer) -> PlayCardResult {
        guard player.isNextActor,
              player.wouldAcceptWedding,
              weddingOfferExists else {
                  return .tableStateInvalid
              }
        guard !card.isTrump(in: .hochzeit),
              player.has(card: card) else {
                  return .invalidCard
              }
        // Swap the cards
        let offerer = players.first { $0.offersWedding }!
        let offeredCard = offerer.replaceWeddingCard(with: card)
        player.replace(card: card, with: offeredCard)

        // Start the game
        gameType = .hochzeit
        players.forEach { $0.start(game: .hochzeit) }
        player.switchLeadership()
        offerer.switchLeadership()
        return .success
    }

    private func performWithdrawl(forPlayer player: OldPlayer) -> PlayerActionResult {
        guard phase == .bidding,
              player.isNextActor,
              player.isStillBidding else {
                  return .tableStateInvalid
              }
        player.withdrawFromBidding()
        switch numberOfRemainingBidders {
        case 1:
            if minimumPlayableGame != .none {
                // Will only be called when at least one player placed a bid
                selectGame(player: auctionWinner)
                return .success
            }
        case 0:
            // All players withdrawn, deal new cards
            finishedGame()
            return .success
        default:
            break
        }
        nextBidder(after: player).requiresBid(hasWedding: weddingOfferExists)
        return .success
    }

    private func prepareForNextGame() {
        let first = firstPlayer
        let newPlayer = self.nextBidder(after: first)
        first.playsFirstCard = false
        newPlayer.playsFirstCard = true
        print("Made \(newPlayer.name) to new starter")
        prepareTableForFirstGame()
    }

    private func selectGame(player: OldPlayer) {
        gameType = nil
        phase = .selectGame
        players.forEach { $0.auctionEnded() }
        player.mustSelectGame()
    }

    func select(game: GameType, player: PlayerName) -> PlayerActionResult {
        let player = select(player: player)!
        guard phase == .selectGame, player.selectsGame, game != .hochzeit else {
            return .tableStateInvalid
        }
        guard game.gameClass >= minimumPlayableGame else {
            return .tableStateInvalid
        }
        defer { sendUpdateToAllPlayers() }
        guard let suit = game.calledSuit else {
            phase = .playing
            gameType = game
            minimumPlayableGame = .none
            players.forEach { $0.start(game: game) }
            player.switchLeadership()
            
            return .success
        }

        guard player.canPlay(game: game) else {
            return .tableStateInvalid
        }
        phase = .playing
        gameType = game
        minimumPlayableGame = .none
        players.forEach { $0.start(game: game) }
        player.switchLeadership()
        // Find called player
        let ace = Card(suit, .ass)
        players.first { $0.rawCards.contains(ace) }!.switchLeadership()
        return .success
    }

    private func performDoubleDuringGame(forPlayer player: OldPlayer) -> PlayerActionResult {
        guard phase == .playing, !player.isGameLeader else {
            return .tableStateInvalid
        }
        player.numberOfRaises += 1
        players.forEach { $0.switchLeadership() }
        didDoubleInCurrentRound = true
        return .success
    }

    private func reset() {
        phase = .waitingForPlayers
        gameType = nil
        minimumPlayableGame = .none
        for player in players {
            player.prepareForNewGame(isFirstPlayer: player.playsFirstCard)
        }
    }
}

extension OldTable {
    
    var isFull: Bool {
        players.count == maximumPlayersPerTable
    }
    
    var publicInfo: PublicTableInfo {
        .init(id: id, name: name, players: playerNames)
    }
    
    var playerNames: [PlayerName] {
        players.map { $0.name }
    }

}