package main import ( "bufio" "fmt" "os" "sort" ) func main() { if len(os.Args) != 2 { fmt.Fprintln(os.Stderr, "Usage: day07 FILE") } input, err := os.Open(os.Args[1]) if err != nil { fmt.Fprintln(os.Stderr, err) } scan := bufio.NewScanner(input) score1, score2 := run(scan) fmt.Println("score 1", score1) fmt.Println("score 2", score2) } func run(scan *bufio.Scanner) (uint64, uint64) { var game1, game2 Game for scan.Scan() { var cards string var bid int _, err := fmt.Sscanf(scan.Text(), "%s %d", &cards, &bid) if err != nil { panic(err) } fmt.Println("cards", cards, "bid", bid) game1.Append(cards, bid) game2.Append(cards, bid) } game1.cardTypes = cardTypes1 game1.cardOrder = getOrder(cardTypes1) product1 := calcProduct(game1) game2.cardTypes = cardTypes2 game2.cardOrder = getOrder(cardTypes2) game2.wildCard = 'J' product2 := calcProduct(game2) return product1, product2 } var cardTypes1 = []rune{'A', 'K', 'Q', 'J', 'T', '9', '8', '7', '6', '5', '4', '3', '2'} var cardTypes2 = []rune{'A', 'K', 'Q', 'T', '9', '8', '7', '6', '5', '4', '3', '2', 'J'} func calcProduct(game Game) uint64 { sort.Sort(game.plays) var product uint64 for i, play := range game.plays { rank := i + 1 fmt.Printf("play %d %s %d %s %x\n", rank, string(play.hand), play.bid, play.HandType(), play.HandStrength()) product += uint64(play.bid * rank) } return product } func getOrder(cardTypes []rune) map[rune]int { cardOrder := make(map[rune]int, len(cardTypes)) for i, r := range cardTypes { cardOrder[r] = len(cardTypes) - i } return cardOrder } type Game struct { plays Plays cardOrder map[rune]int cardTypes []rune wildCard rune } func (g *Game) Append(cards string, bid int) { p := Play{bid: bid, hand: []rune(cards), game: g} g.plays = append(g.plays, p) } type Play struct { bid int hand Hand cardCounts map[rune]int strength int game *Game } type Hand []rune func (h *Play) HandType() string { hs := h.HandStrength() kind := hs& 0xf00000 hc := h.game.cardTypes[13-hs&0xf0000>>16] switch kind { case 0x700000: return "5K-" + string(hc) case 0x600000: return "4K-" + string(hc) case 0x500000: return "FH-" + string(hc) case 0x400000: return "3K-" + string(hc) case 0x300000: return "2P-" + string(hc) case 0x200000: return "1P-" + string(hc) case 0x100000: return "HC-" + string(hc) } return "Uno" } func (p *Play) HandStrength() int { _, v := p.HighCard() switch { case p.IsFiveOfKind(): p.strength = 0x700000 | v case p.IsFourOfKind(): p.strength = 0x600000 | v case p.IsFullHouse(): p.strength = 0x500000 | v case p.IsThreeOfKind(): p.strength = 0x400000 | v case p.IsTwoPair(): p.strength = 0x300000 | v case p.IsOnePair(): p.strength = 0x200000 | v case p.IsHighCard(): p.strength = 0x100000 | v } return p.strength } func (h Play) IsFiveOfKind() bool { _, _, _, _, has5 := h.game.hasSame(h.cardCounts) return has5 } func (h Play) IsFourOfKind() bool { _, _, _, has4, _ := h.game.hasSame(h.cardCounts) return has4 } func (h Play) IsFullHouse() bool { _, has2, has3, _, _ := h.game.hasSame(h.cardCounts) return has3 && has2 } func (h Play) IsThreeOfKind() bool { has1, _, has3, _, _ := h.game.hasSame(h.cardCounts) return has3 && has1 } func (h Play) IsTwoPair() bool { _, has2, has3, _, _ := h.game.hasSame(h.cardCounts) return !has3 && has2 && h.game.pairs(h.cardCounts) == 2 } func (h Play) IsOnePair() bool { _, has2, has3, _, _ := h.game.hasSame(h.cardCounts) return !has3 && has2 && h.game.pairs(h.cardCounts) == 1 } func (h Play) IsHighCard() bool { has1, has2, has3, has4, _ := h.game.hasSame(h.cardCounts) return has1 && !has2 && !has3 && !has4 } func (h *Play) HighCard() (rune, int) { if h.cardCounts == nil { h.generateCounts() } var i int pairs := make(Pairs, 5) for r, c := range h.cardCounts { pairs[i].c = c pairs[i].r = r pairs[i].o = h.game.cardOrder[r] i++ } sort.Sort(sort.Reverse(pairs)) value := 0 for i, r := range h.hand { if r == 0 { continue } value |= h.game.cardOrder[r] << (4 * (4 - i)) } return pairs[0].r, value } type Pairs []struct { r rune c int o int } func (p Pairs) Len() int { return len(p) } func (p Pairs) Less(i, j int) bool { if p[i].c == p[j].c { return p[i].o < p[j].o } return p[i].c < p[j].c } func (p Pairs) Swap(i, j int) { p[i], p[j] = p[j], p[i] } type Plays []Play func (p Plays) Len() int { return len(p) } func (p Plays) Less(i, j int) bool { return p[i].HandStrength() < p[j].HandStrength() } func (p Plays) Swap(i, j int) { p[i], p[j] = p[j], p[i] } func (p *Play) generateCounts() { cardOrder := p.game.cardOrder wildCard := p.game.wildCard p.cardCounts = make(map[rune]int, len(cardOrder)) for _, c := range p.hand { p.cardCounts[c]++ } if wildCard != 0 && p.cardCounts[wildCard] > 0 { var maxK rune var maxV int for k, v := range p.cardCounts { if k != wildCard && v > maxV { maxK, maxV = k, v } } if maxK != 0 { p.cardCounts[maxK] += p.cardCounts[wildCard] delete(p.cardCounts, wildCard) } } } func (g *Game) hasSame(counts map[rune]int) (has1, has2, has3, has4, has5 bool) { for _, c := range counts { switch c { case 1: has1 = true case 2: has2 = true case 3: has3 = true case 4: has4 = true case 5: has5 = true } } return } func (g *Game) pairs(counts map[rune]int) int { pairs := 0 for _, n := range counts { if n == 2 { pairs++ } } return pairs }