advent-of-code/day07/main.go

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package main
import (
"bufio"
"fmt"
"sort"
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aoc "go.sour.is/advent-of-code"
)
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func main() { aoc.MustResult(aoc.Runner(run)) }
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type result struct {
valuePT1 uint64
valuePT2 uint64
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}
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func run(scan *bufio.Scanner) (result, error) {
var game Game
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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)
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game.plays = append(game.plays, Play{bid, []rune(cards), &game})
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}
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game.cardOrder = getOrder(cardTypes1)
product1 := calcProduct(game)
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game.cardOrder = getOrder(cardTypes2)
game.wildCard = 'J'
product2 := calcProduct(game)
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return result{product1, product2}, nil
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}
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'}
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func calcProduct(game Game) uint64 {
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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
}
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func getOrder(cardTypes []rune) map[rune]int {
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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
wildCard rune
}
type Play struct {
bid int
hand Hand
game *Game
}
type Hand []rune
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func (h Play) HandType() string {
hc, _ := h.HighCard()
switch {
case h.IsFiveOfKind():
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return "5K-" + string(hc)
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case h.IsFourOfKind():
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return "4K-" + string(hc)
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case h.IsFullHouse():
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return "FH-" + string(hc)
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case h.IsThreeOfKind():
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return "3K-" + string(hc)
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case h.IsTwoPair():
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return "2P-" + string(hc)
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case h.IsOnePair():
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return "1P-" + string(hc)
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case h.IsHighCard():
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return "HC-" + string(hc)
}
return "Uno"
}
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func (h Play) HandStrength() int {
_, v := h.HighCard()
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switch {
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case h.IsFiveOfKind():
return 0x700000 | v
case h.IsFourOfKind():
return 0x600000 | v
case h.IsFullHouse():
return 0x500000 | v
case h.IsThreeOfKind():
return 0x400000 | v
case h.IsTwoPair():
return 0x300000 | v
case h.IsOnePair():
return 0x200000 | v
case h.IsHighCard():
return 0x100000 | v
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}
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return 0
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}
func (h Play) IsFiveOfKind() bool {
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_, _, _, _, has5 := h.game.hasSame(h.hand)
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return has5
}
func (h Play) IsFourOfKind() bool {
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_, _, _, has4, _ := h.game.hasSame(h.hand)
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return has4
}
func (h Play) IsFullHouse() bool {
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_, has2, has3, _, _ := h.game.hasSame(h.hand)
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return has3 && has2
}
func (h Play) IsThreeOfKind() bool {
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has1, _, has3, _, _ := h.game.hasSame(h.hand)
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return has3 && has1
}
func (h Play) IsTwoPair() bool {
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_, has2, has3, _, _ := h.game.hasSame(h.hand)
return !has3 && has2 && h.game.pairs(h.hand) == 2
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}
func (h Play) IsOnePair() bool {
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_, has2, has3, _, _ := h.game.hasSame(h.hand)
return !has3 && has2 && h.game.pairs(h.hand) == 1
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}
func (h Play) IsHighCard() bool {
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has1, has2, has3, has4, _ := h.game.hasSame(h.hand)
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return has1 && !has2 && !has3 && !has4
}
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func (h Play) HighCard() (rune, int) {
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var i int
pairs := make(Pairs, 5)
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cnt := h.game.Counts(h.hand)
for r, c := range cnt {
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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] }
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func (g *Game) Counts(cards []rune) map[rune]int {
m := make(map[rune]int, len(g.cardOrder))
for _, c := range cards {
m[c]++
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}
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if g.wildCard != 0 && m[g.wildCard] > 0 {
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var maxK rune
var maxV int
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for k, v := range m {
if k != g.wildCard && v > maxV {
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maxK, maxV = k, v
}
}
if maxK != 0 {
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m[maxK] += m[g.wildCard]
delete(m, g.wildCard)
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}
}
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return m
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}
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func (g *Game) hasSame(cards []rune) (has1, has2, has3, has4, has5 bool) {
cnt := g.Counts(cards)
for _, c := range cnt {
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switch c {
case 1:
has1 = true
case 2:
has2 = true
case 3:
has3 = true
case 4:
has4 = true
case 5:
has5 = true
}
}
return
}
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func (g *Game) pairs(cards []rune) int {
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pairs := 0
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for _, n := range g.Counts(cards) {
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if n == 2 {
pairs++
}
}
return pairs
}