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// Copyright 2015 The Vanadium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// table contains and manages the logic half of the game state
package table
import (
"golang.org/x/mobile/exp/sprite"
"hearts/img/direction"
"hearts/logic/card"
"hearts/logic/player"
"log"
"math/rand"
"sort"
)
// Returns a table instance with player set length numPlayers
func InitializeGame(numPlayers int, texs map[string]sprite.SubTex) *Table {
players := make([]*player.Player, 0)
names := []string{"YoungSeok", "Dan", "Emily", "Ross"}
images := []sprite.SubTex{texs["player0.jpeg"], texs["player1.jpeg"], texs["player2.jpeg"], texs["player3.jpeg"]}
for i := 0; i < numPlayers; i++ {
players = append(players, player.NewPlayer(i, names[i], images[i]))
}
t := makeTable(players)
t.GenerateClassicCards()
t.NewRound()
return t
}
// Given a group of players, returns a table instance with that group as its player set
func makeTable(p []*player.Player) *Table {
return &Table{
players: p,
trick: make([]*card.Card, len(p)),
firstPlayer: -1,
allCards: nil,
heartsBroken: false,
firstTrick: true,
winCondition: 100,
dir: direction.Right,
}
}
type Table struct {
// players contains all players in the game, indexed by playerIndex
players []*player.Player
// trick contains all cards in the current trick, indexed by the playerIndex of the player who played them
trick []*card.Card
// firstPlayer is the index in trick of the card played first
firstPlayer int
// allCards contains all 52 cards in the deck. GenerateCards() populates this
allCards []*card.Card
// heartsBroken returns true if a heart has been played yet in the round, otherwise false
heartsBroken bool
// firstTrick returns true if the current trick is the first in the round, otherwise false
firstTrick bool
// winCondition is the number of points needed to win the game
// traditionally 100, could set higher or lower for longer or shorter game
winCondition int
// dir is the current round's passing direction
dir direction.Direction
}
// Returns the player set of t
func (t *Table) GetPlayers() []*player.Player {
return t.players
}
// Returns the current trick of t
func (t *Table) GetTrick() []*card.Card {
return t.trick
}
// Returns the index in t.players and t.trick of the designated first player in the current round
func (t *Table) GetFirstPlayer() int {
return t.firstPlayer
}
// Returns the deck of all cards stored in t
func (t *Table) GetAllCards() []*card.Card {
return t.allCards
}
func (t *Table) GetDir() direction.Direction {
return t.dir
}
// Sets the firstplayer variable of t to index
func (t *Table) SetFirstPlayer(index int) {
log.Println("Setting first player to", index)
t.firstPlayer = index
}
// This function generates a traditional deck of 52 cards, with 13 in each of the four suits
// Each card has a suit (Club, Diamond, Spade, or Heart)
// Each card also has a face from Two to Ace (Aces are high in Hearts)
func (t *Table) GenerateClassicCards() {
cardsPerSuit := 13
t.allCards = make([]*card.Card, 0)
cardFaces := []card.Face{card.Two, card.Three, card.Four, card.Five, card.Six, card.Seven, card.Eight, card.Nine,
card.Ten, card.Jack, card.Queen, card.King, card.Ace}
for i := 0; i < cardsPerSuit; i++ {
t.allCards = append(t.allCards, card.NewCard(cardFaces[i], card.Club))
t.allCards = append(t.allCards, card.NewCard(cardFaces[i], card.Diamond))
t.allCards = append(t.allCards, card.NewCard(cardFaces[i], card.Spade))
t.allCards = append(t.allCards, card.NewCard(cardFaces[i], card.Heart))
}
sort.Sort(card.CardSorter(t.allCards))
}
// Given a card and the index of its player, adds that card to the appropriate spot in the current trick
func (t *Table) SetPlayedCard(c *card.Card, playerIndex int) {
t.trick[playerIndex] = c
if c.GetSuit() == card.Heart && !t.heartsBroken {
t.heartsBroken = true
}
}
// Returns true if there are exactly three cards being passed (specified by Hearts logic)
func (t *Table) ValidPass(cardsPassed []*card.Card) bool {
return len(cardsPassed) == 3
}
// Returns whether it is valid for the player at playerIndex to play a card
func (t *Table) ValidPlayOrder(playerIndex int) bool {
if t.firstPlayer == playerIndex {
return true
}
playerBeforeMe := playerIndex - 1
if playerBeforeMe < 0 {
playerBeforeMe += len(t.players)
}
if t.trick[playerBeforeMe] == nil {
return false
}
return true
}
// Given a card and the index of its player, returns true if this move was valid based on game logic
func (t *Table) ValidPlayLogic(c *card.Card, playerIndex int) bool {
player := t.players[playerIndex]
if t.firstPlayer == playerIndex {
if !t.firstTrick {
if c.GetSuit() != card.Heart || t.heartsBroken {
return true
} else {
if player.HasOnlyHearts() {
return true
}
}
} else if c.GetSuit() == card.Club && c.GetFace() == card.Two {
return true
}
} else {
firstPlayedSuit := t.trick[t.firstPlayer].GetSuit()
if c.GetSuit() == firstPlayedSuit || !player.HasSuit(firstPlayedSuit) {
if !t.firstTrick {
return true
} else if !c.WorthPoints() {
return true
} else if player.HasAllPoints() {
return true
}
}
}
return false
}
// Returns true if all players have their initial dealt hands
func (t *Table) AllDoneDealing() bool {
for _, p := range t.players {
if len(p.GetHand()) == 0 {
return false
}
}
return true
}
// Returns true if all players have taken the cards passed to them
func (t *Table) AllDonePassing() bool {
for _, p := range t.players {
if !p.GetDonePassing() {
log.Println(p.GetPlayerIndex())
return false
}
}
return true
}
// Returns true if all players have finished looking at their scores
func (t *Table) AllReadyForNewRound() bool {
for _, p := range t.players {
if !p.GetDoneScoring() {
return false
}
}
return true
}
// Returns true if all players are out of cards, indicating the end of a round
func (t *Table) RoundOver() bool {
for _, p := range t.players {
if len(p.GetHand()) > 0 {
return false
}
}
return true
}
// Calculates who should take the cards in the current trick and sends them. Sets next first player accordingly. Returns true if the round is over
func (t *Table) SendTrick() (bool, int) {
trickSuit := t.trick[t.firstPlayer].GetSuit()
highestCardFace := card.Two
highestIndex := -1
for i := 0; i < len(t.trick); i++ {
curCard := t.trick[i]
if curCard.GetSuit() == trickSuit && curCard.GetFace() >= highestCardFace {
highestCardFace = curCard.GetFace()
highestIndex = i
}
}
// resets all players' donePlaying bools
for _, p := range t.players {
p.SetDonePlaying(false)
}
// clear trick
t.players[highestIndex].TakeTrick(t.trick)
t.trick = make([]*card.Card, len(t.players))
if t.firstTrick {
t.firstTrick = false
}
if t.RoundOver() {
return true, highestIndex
}
// set first player for next trick to whoever received the current trick
t.SetFirstPlayer(highestIndex)
return false, highestIndex
}
// Updates each player's score with the score of the current round
// Accounts for a player possibly shooting the moon
func (t *Table) ScoreRound() {
allPoints := 26
roundScores := make([]int, len(t.players))
shotMoon := false
shooter := -1
for i := 0; i < len(t.players); i++ {
roundScores[i] = t.players[i].CalculateScore()
if roundScores[i] == allPoints {
shotMoon = true
shooter = i
}
}
if shotMoon {
for i := 0; i < len(t.players); i++ {
if i == shooter {
roundScores[i] = 0
} else {
roundScores[i] = allPoints
}
}
}
// sending scores to players
for i := 0; i < len(t.players); i++ {
t.players[i].UpdateScore(roundScores[i])
}
}
// Returns set of hands with random, even card distribution
func (t *Table) Deal() [][]*card.Card {
numPlayers := len(t.players)
allHands := make([][]*card.Card, numPlayers)
shuffle := rand.Perm(len(t.allCards))
for i := 0; i < len(t.allCards); i++ {
allHands[i%numPlayers] = append(allHands[i%numPlayers], t.allCards[shuffle[i]])
}
return allHands
}
// Returns empty array if the game hasn't been won yet, array containing all playerIndices of the winners if it has
func (t *Table) EndRound() []int {
t.ScoreRound()
lowestScore := -1
winningPlayers := make([]int, 0)
winTriggered := false
t.dir = (t.dir + 1) % 4
for _, p := range t.players {
p.ResetTricks()
if p.GetScore() >= t.winCondition {
winTriggered = true
}
if p.GetScore() < lowestScore || lowestScore == -1 {
lowestScore = p.GetScore()
}
}
if winTriggered {
for _, p := range t.players {
if p.GetScore() == lowestScore {
winningPlayers = append(winningPlayers, p.GetPlayerIndex())
}
}
}
return winningPlayers
}
// Resets stats for a new round of the game
func (t *Table) NewRound() {
t.heartsBroken = false
t.firstTrick = true
players := t.GetPlayers()
for _, p := range players {
if t.dir != direction.None {
p.SetDonePassing(false)
p.SetDoneTaking(false)
} else {
p.SetDonePassing(true)
p.SetDoneTaking(true)
if p.HasTwoOfClubs() {
t.SetFirstPlayer(p.GetPlayerIndex())
}
}
p.SetDoneScoring(false)
}
}
// Resets table for start of new game
func (t *Table) NewGame() {
for _, p := range t.players {
p.ResetPassedTo()
p.ResetPassedFrom()
p.ResetTricks()
p.ResetScore()
}
t.NewRound()
t.dir = direction.Right
}