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16 Commits
eb85e1d36e ... main

Author SHA1 Message Date
sneak
8dbfc45ebb latest 2026-01-06 10:13:38 -08:00
sneak
e26b79751f cleanups 2024-05-18 23:55:15 -07:00
sneak
6c66adf8d3 linting and formatting updates 2024-05-18 23:50:19 -07:00
sneak
ab92f29a88 latest. passes all tests, no known bugs, has examples. 2024-05-18 23:25:55 -07:00
sneak
f135f480be added more tests, cleaned up example app 2024-05-18 23:00:19 -07:00
sneak
0757f12dfa update gitignore 2024-05-18 23:00:14 -07:00
sneak
79cf2fd9aa remove some guardrails from internal methods now that tests are passing 2024-05-18 22:31:55 -07:00
sneak
f527c6eb07 fixed scoring bug 
multiplier in scoring needs to increase by *100 for each item within
the hand type, because ranks are 2-14
 2024-05-18 22:25:59 -07:00
sneak
f217a95e19 refactored some stuff around, still has a scoring bug 2024-05-18 22:23:14 -07:00
sneak
de1eeb214e make 'clean' makefile target rm test binary 2024-05-18 22:11:26 -07:00
sneak
14ffbe4eb4 added more tests, cleaned up some code, found another bug 2024-05-18 22:10:53 -07:00
sneak
5f7dba942c fixed bug which misidentified bigger pair in two pair 2024-05-18 21:18:16 -07:00
sneak
11c5886951 got a failing test for the two pair bigger pair bug 2024-05-18 21:17:38 -07:00
sneak
39e2f5a268 add useful gitignore 2024-05-18 20:32:46 -07:00
sneak
5a2560051d oops committed binaries, how did those get there 2024-05-18 20:32:10 -07:00
sneak
336c0d953b latest, passes all tests, no known bugs, woo 2024-05-18 20:26:08 -07:00
19 changed files with 1354 additions and 559 deletions
Expand all files Collapse all files

42
.gitignore vendored
View File

@@ -5,9 +5,45 @@
*.so
*.dylib
# Test binary, build with `go test -c`
*.test
# Output of the go coverage tool, specifically when used with LiteIDE
*.out
# Go workspace file
go.work
go.work.sum
# Dependency directories
vendor/
# Go build artifacts
bin/
build/
dist/
# Configuration files for editors and tools
.vscode/
.idea/
*.swp
*.swo
# Logs
*.log
# Temporary files
*.tmp
*.temp
*.bak
# Test binary, coverage, and results
*.test
*.cover
*.cov
*.profile
*.prof
# OS-specific files
.DS_Store
Thumbs.db
# i don't know what keeps creating this file
examples/simgame/simgame

24
Makefile
View File

@@ -1,4 +1,24 @@
default: test
.PHONY: examples
default: run
run: simgame
simgame: examples
RANDOM_SHUFFLE=1 ./bin/simgame
clean:
rm -rf bin *.test
test:
go test -v ./...
go test -count=1 .
examples:
test -d bin || mkdir bin
go build -o bin/ ./examples/...
lint:
golangci-lint run
fmt:
go fmt ./...

173
card.go
View File

@@ -5,8 +5,9 @@ import (
"slices"
"sort"
"strings"
"unicode/utf8"
"github.com/logrusorgru/aurora/v4"
aurora "github.com/logrusorgru/aurora/v4"
)
type Card struct {
@@ -14,62 +15,56 @@ type Card struct {
Suit Suit
}
func NewRankFromString(rank string) Rank {
switch rank {
case "2":
return Rank(DEUCE)
case "3":
return Rank(THREE)
case "4":
return Rank(FOUR)
case "5":
return Rank(FIVE)
case "6":
return Rank(SIX)
case "7":
return Rank(SEVEN)
case "8":
return Rank(EIGHT)
case "9":
return Rank(NINE)
case "T":
return Rank(TEN)
case "J":
return Rank(JACK)
case "Q":
return Rank(QUEEN)
case "K":
return Rank(KING)
case "A":
return Rank(ACE)
}
return Rank(0)
}
func NewSuitFromString(suit string) Suit {
switch suit {
case string(SPADE):
return Suit(SPADE)
case string(CLUB):
return Suit(CLUB)
case string(HEART):
return Suit(HEART)
case string(DIAMOND):
return Suit(DIAMOND)
}
return Suit(0)
}
func NewCardFromString(card string) (Card, error) {
// FIXME extend this later to common format strings like "9s"
if len(card) != 2 {
return Card{}, fmt.Errorf("Invalid card string %s", card)
length := utf8.RuneCountInString(card)
if length != 2 {
return Card{}, fmt.Errorf("invalid card string %s, must be 2 characters", card)
}
rank := NewRankFromString(card[0:1])
suit := NewSuitFromString(card[1:2])
rankMap := map[rune]Rank{
rune(DEUCE): DEUCE,
rune(THREE): THREE,
rune(FOUR): FOUR,
rune(FIVE): FIVE,
rune(SIX): SIX,
rune(SEVEN): SEVEN,
rune(EIGHT): EIGHT,
rune(NINE): NINE,
rune(TEN): TEN,
rune(JACK): JACK,
rune(QUEEN): QUEEN,
rune(KING): KING,
rune(ACE): ACE,
}
suitMap := map[rune]Suit{
rune(SPADE): SPADE,
rune(HEART): HEART,
rune(DIAMOND): DIAMOND,
rune(CLUB): CLUB,
}
var rank Rank
var suit Suit
for r := range rankMap {
if strings.ContainsRune(card, r) {
rank = rankMap[r]
break
}
}
for s := range suitMap {
if strings.ContainsRune(card, s) {
suit = suitMap[s]
break
}
}
if rank == Rank(0) || suit == Suit(0) {
return Card{}, fmt.Errorf("Invalid card string %s", card)
return Card{}, fmt.Errorf("invalid card string %s", card)
}
return Card{Rank: rank, Suit: suit}, nil
}
@@ -77,17 +72,17 @@ func NewCardsFromString(cards string) (Cards, error) {
// supports a string like 9♠,9♣,Q♥,Q♦,K♣
// FIXME extend this later to common format strings like "9c Qh Qd Kc"
// with or without commas
var newCards Cards
cardStrings := strings.Split(cards, ",")
for _, cardString := range cardStrings {
newCards := make(Cards, len(cardStrings))
for i, cardString := range cardStrings {
card, err := NewCardFromString(cardString)
if err != nil {
return Cards{}, err
return nil, err
}
newCards = append(newCards, card)
newCards[i] = card
}
if len(newCards) == 0 {
return Cards{}, fmt.Errorf("No cards found in string %s", cards)
return nil, fmt.Errorf("no cards found in string %s", cards)
}
return newCards, nil
}
@@ -98,42 +93,41 @@ func (c *Card) String() string {
type Cards []Card
func (c Cards) First() Card {
return c[0]
func (cards Cards) First() Card {
return cards[0]
}
func (c Cards) Second() Card {
return c[1]
func (cards Cards) Second() Card {
return cards[1]
}
func (c Cards) Third() Card {
return c[2]
func (cards Cards) Third() Card {
return cards[2]
}
func (c Cards) Fourth() Card {
return c[3]
func (cards Cards) Fourth() Card {
return cards[3]
}
func (c Cards) Fifth() Card {
return c[4]
func (cards Cards) Fifth() Card {
return cards[4]
}
func (c Cards) Last() Card {
return c[len(c)-1]
func (cards Cards) Last() Card {
return cards[len(cards)-1]
}
func (c Cards) SortByRankAscending() Cards {
newCards := make(Cards, len(c))
copy(newCards, c)
sort.Slice(newCards, func(i, j int) bool {
return newCards[i].Rank.Score() < newCards[j].Rank.Score()
func (cards Cards) SortByRankAscending() Cards {
sortedCards := make(Cards, len(cards))
copy(sortedCards, cards)
sort.Slice(sortedCards, func(i, j int) bool {
return sortedCards[i].Rank.Score() < sortedCards[j].Rank.Score()
})
return newCards
return sortedCards
}
func (c Cards) PrintToTerminal() {
fmt.Printf("%s", c.FormatForTerminal())
func (cards Cards) PrintToTerminal() {
fmt.Printf("%s", cards.FormatForTerminal())
}
type SortOrder int
@@ -143,18 +137,18 @@ const (
AceHighDescending
)
func (c Cards) FormatForTerminalSorted(order SortOrder) string {
sorted := c.SortByRankAscending() // this is ascending
func (cards Cards) FormatForTerminalSorted(order SortOrder) string {
sorted := cards.SortByRankAscending() // this is ascending
if order == AceHighDescending {
slices.Reverse(sorted)
}
return sorted.FormatForTerminal()
}
func (c Cards) FormatForTerminal() string {
func (cards Cards) FormatForTerminal() string {
var cardstrings []string
for i := 0; i < len(c); i++ {
cardstrings = append(cardstrings, c[i].FormatForTerminal())
for i := 0; i < len(cards); i++ {
cardstrings = append(cardstrings, cards[i].FormatForTerminal())
}
return strings.Join(cardstrings, ",")
}
@@ -179,16 +173,15 @@ func (c Card) FormatForTerminal() string {
return fmt.Sprintf("%s%s", rank, suit)
}
func (c Cards) HighestRank() Rank {
sorted := c.SortByRankAscending()
func (cards Cards) HighestRank() Rank {
sorted := cards.SortByRankAscending()
return sorted[len(sorted)-1].Rank
}
func (s Cards) String() (output string) {
func (cards Cards) String() string {
var cardstrings []string
for i := 0; i < len(s); i++ {
cardstrings = append(cardstrings, s[i].String())
for i := 0; i < len(cards); i++ {
cardstrings = append(cardstrings, cards[i].String())
}
output = strings.Join(cardstrings, ",")
return output
return strings.Join(cardstrings, ",")
}

119
examples/flip/main.go Normal file
View File

@@ -0,0 +1,119 @@
package main
import (
"fmt"
"git.eeqj.de/sneak/pokercore"
)
var playerCount = 2
type Player struct {
Hand pokercore.Cards
ScoredHand *pokercore.PokerHand
Position int
}
type Game struct {
Deck *pokercore.Deck
Players []*Player
Community pokercore.Cards
Street int
}
func NewGame() *Game {
g := &Game{}
g.Street = 0
g.Deck = pokercore.NewDeck()
g.Deck.ShuffleRandomly()
return g
}
func (g *Game) StreetAsString() string {
switch g.Street {
case 0:
return "pre-flop"
case 1:
return "flop"
case 2:
return "turn"
case 3:
return "river"
}
return "unknown"
}
func (g *Game) DealPlayersIn() {
for i := 0; i < playerCount; i++ {
p := Player{Hand: g.Deck.Deal(2), Position: i + 1}
g.Players = append(g.Players, &p)
}
}
func (g *Game) ShowGameStatus() {
fmt.Printf("Street: %s\n", g.StreetAsString())
fmt.Printf("Community cards: %s\n", g.Community.FormatForTerminal())
for _, p := range g.Players {
if p != nil {
fmt.Printf("Player %d: %s\n", p.Position, p.Hand.FormatForTerminal())
if g.Street > 0 {
ac := append(p.Hand, g.Community...)
ph, err := ac.PokerHand()
if err != nil {
panic(err)
}
fmt.Printf("Player %d has %s\n", p.Position, ph.Description())
fmt.Printf("Player %d Score: %d\n", p.Position, ph.Score)
}
}
}
}
func (g *Game) DealFlop() {
g.Community = g.Deck.Deal(3)
g.Street = 1
}
func (g *Game) DealTurn() {
g.Community = append(g.Community, g.Deck.Deal(1)...)
g.Street = 2
}
func (g *Game) DealRiver() {
g.Community = append(g.Community, g.Deck.Deal(1)...)
g.Street = 3
}
func (g *Game) ShowWinner() {
var winner *Player
var winningHand *pokercore.PokerHand
for _, p := range g.Players {
if p != nil {
ac := append(p.Hand, g.Community...)
ph, err := ac.PokerHand()
if err != nil {
panic(err)
}
if winner == nil {
winner = p
winningHand = ph
} else {
if ph.Score > winningHand.Score {
winner = p
winningHand = ph
}
}
}
}
fmt.Printf("Winner: Player %d with %s.\n", winner.Position, winningHand.Description())
}
func main() {
g := NewGame()
g.DealPlayersIn()
g.DealFlop()
g.DealTurn()
g.DealRiver()
g.ShowGameStatus()
g.ShowWinner()
}

155
examples/montecarlo/main.go Normal file
View File

@@ -0,0 +1,155 @@
package main
import (
"fmt"
"time"
"github.com/rcrowley/go-metrics"
"github.com/schollz/progressbar/v3"
"sneak.berlin/go/pokercore"
)
var gameCount = 50_000
var playerCount = 2
type Player struct {
Hand pokercore.Cards
ScoredHand *pokercore.PokerHand
Position int
}
type Game struct {
Deck *pokercore.Deck
Players []*Player
Community pokercore.Cards
Street int
}
func NewGame() *Game {
g := &Game{}
g.Street = 0
g.Deck = pokercore.NewDeck()
g.Deck.ShuffleRandomly()
return g
}
func (g *Game) StreetAsString() string {
switch g.Street {
case 0:
return "pre-flop"
case 1:
return "flop"
case 2:
return "turn"
case 3:
return "river"
}
return "unknown"
}
func (g *Game) DealPlayersIn() {
for i := 0; i < playerCount; i++ {
p := Player{Hand: g.Deck.Deal(2), Position: i + 1}
g.Players = append(g.Players, &p)
}
}
func (g *Game) DealFlop() {
g.Community = g.Deck.Deal(3)
g.Street = 1
}
func (g *Game) DealTurn() {
g.Community = append(g.Community, g.Deck.Deal(1)...)
g.Street = 2
}
func (g *Game) DealRiver() {
g.Community = append(g.Community, g.Deck.Deal(1)...)
g.Street = 3
}
func (g *Game) ShowWinner() int {
var winner *Player
var winningHand *pokercore.PokerHand
for _, p := range g.Players {
if p != nil {
ac := append(p.Hand, g.Community...)
ph, err := ac.PokerHand()
if err != nil {
panic(err)
}
if winner == nil {
winner = p
winningHand = ph
} else {
if ph.Score > winningHand.Score {
winner = p
winningHand = ph
}
}
}
}
return winner.Position
}
func main() {
oneWins := 0
twoWins := 0
registry := metrics.NewRegistry()
timer := metrics.NewTimer()
registry.Register("pokerGame", timer)
bar := progressbar.NewOptions(
gameCount,
progressbar.OptionSetDescription("Gambling..."),
progressbar.OptionShowCount(),
progressbar.OptionShowIts(),
progressbar.OptionSetPredictTime(true),
progressbar.OptionClearOnFinish(),
progressbar.OptionThrottle(
100*time.Millisecond,
), // Update every 100ms
)
for i := 0; i < gameCount; i++ {
start := time.Now()
w := runFlip()
duration := time.Since(start)
timer.Update(duration)
bar.Add(1)
if w == 1 {
oneWins++
} else {
twoWins++
}
}
fmt.Printf("%d games played\n", gameCount)
fmt.Printf("Min: %d ns\n", timer.Min())
fmt.Printf("Max: %d ns\n", timer.Max())
fmt.Printf("Mean: %0.2f ns\n", timer.Mean())
fmt.Printf("StdDev: %0.2f ns\n", timer.StdDev())
fmt.Printf(
"Percentiles: 50%%: %0.2f ns, 75%%: %0.2f ns, 95%%: %0.2f ns, 99%%: %0.2f ns\n",
timer.Percentile(0.50),
timer.Percentile(0.75),
timer.Percentile(0.95),
timer.Percentile(0.99),
)
oneWinPercentage := float64(oneWins) / float64(gameCount) * 100
twoWinPercentage := float64(twoWins) / float64(gameCount) * 100
fmt.Printf("Player 1 won: %d (%0.2f%%)\n", oneWins, oneWinPercentage)
fmt.Printf("Player 2 won: %d (%0.2f%%)\n", twoWins, twoWinPercentage)
}
func runFlip() int {
g := NewGame()
g.DealPlayersIn()
g.DealFlop()
g.DealTurn()
g.DealRiver()
winnerPosition := g.ShowWinner()
return winnerPosition
}

BIN
examples/searchbig/searchbig
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56
examples/sf/main.go Normal file
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@@ -0,0 +1,56 @@
package main
import (
"fmt"
"sneak.berlin/go/pokercore"
)
func main() {
var sfp bool
var tries int
var found int
const maxTries = 100_000_000
for i := 0; i < maxTries; i++ {
sfp = searchStraightFlush()
if sfp {
found++
}
tries++
if tries%1000 == 0 {
fmt.Printf("Tries: %d, Found: %d\n", tries, found)
}
}
fmt.Printf("Tries: %d, Found: %d\n", tries, found)
}
func searchStraightFlush() bool {
d := pokercore.NewDeck()
d.ShuffleRandomly()
var hand pokercore.Cards
hand = d.Deal(7)
ph, err := hand.PokerHand()
if err != nil {
fmt.Println("Error: ", err)
return false
}
if ph.Type == pokercore.StraightFlush ||
ph.Type == pokercore.RoyalFlush {
fmt.Println("straight flush found")
fmt.Println("Hand: ", hand.FormatForTerminal())
fmt.Println("PokerHand: ", ph)
return true
}
return false
}

170
examples/simgame/main.go Normal file
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@@ -0,0 +1,170 @@
package main
import (
"fmt"
"os"
"time"
"git.eeqj.de/sneak/pokercore"
)
// just like on tv
var delayTime = 2 * time.Second
var playerCount = 8
type Player struct {
Hand pokercore.Cards
ScoredHand *pokercore.PokerHand
Position int
}
type Game struct {
Deck *pokercore.Deck
Players []*Player
Community pokercore.Cards
Street int
}
func suspense() {
fmt.Printf("########################################\n")
if os.Getenv("NO_LAG") == "" {
time.Sleep(delayTime)
}
}
func NewGame() *Game {
// this "randomly chosen" seed somehow deals pocket queens, pocket kings, and pocket aces to three players.
// what are the odds? lol
//g := NewGame(1337))
// nothing up my sleeve:
seed := 3141592653
g := &Game{}
g.Street = 0
g.Deck = pokercore.NewDeck()
g.SpreadCards()
fmt.Printf("Shuffle up and deal!\n")
suspense()
fmt.Printf("Shuffling...\n")
if os.Getenv("RANDOM_SHUFFLE") != "" {
g.Deck.ShuffleRandomly()
} else {
fmt.Printf("Using deterministic shuffle seed: %d\n", seed)
g.Deck.ShuffleDeterministically(int64(seed))
}
return g
}
func (g *Game) StreetAsString() string {
switch g.Street {
case 0:
return "pre-flop"
case 1:
return "flop"
case 2:
return "turn"
case 3:
return "river"
}
return "unknown"
}
func (g *Game) SpreadCards() {
fmt.Printf("deck before shuffling: %s\n", g.Deck.FormatForTerminal())
}
func (g *Game) DealPlayersIn() {
for i := 0; i < playerCount; i++ {
p := Player{Hand: g.Deck.Deal(2), Position: i + 1}
g.Players = append(g.Players, &p)
}
}
func (g *Game) ShowGameStatus() {
fmt.Printf("Street: %s\n", g.StreetAsString())
fmt.Printf("Community cards: %s\n", g.Community.FormatForTerminal())
for _, p := range g.Players {
if p != nil {
fmt.Printf("Player %d: %s\n", p.Position, p.Hand.FormatForTerminal())
if g.Street > 0 {
ac := append(p.Hand, g.Community...)
ph, err := ac.PokerHand()
if err != nil {
panic(err)
}
fmt.Printf("Player %d has %s\n", p.Position, ph.Description())
fmt.Printf("Player %d Score: %d\n", p.Position, ph.Score)
}
}
}
}
func (g *Game) DealFlop() {
g.Community = g.Deck.Deal(3)
g.Street = 1
}
func (g *Game) DealTurn() {
g.Community = append(g.Community, g.Deck.Deal(1)...)
g.Street = 2
}
func (g *Game) DealRiver() {
g.Community = append(g.Community, g.Deck.Deal(1)...)
g.Street = 3
}
func (g *Game) ShowWinner() {
var winner *Player
var winningHand *pokercore.PokerHand
for _, p := range g.Players {
if p != nil {
ac := append(p.Hand, g.Community...)
ph, err := ac.PokerHand()
if err != nil {
panic(err)
}
if winner == nil {
winner = p
winningHand = ph
} else {
if ph.Score > winningHand.Score {
winner = p
winningHand = ph
}
}
}
}
fmt.Printf("Winner: Player %d with %s.\n", winner.Position, winningHand.Description())
}
func main() {
g := NewGame()
g.ShowGameStatus()
g.DealPlayersIn()
suspense()
g.ShowGameStatus()
g.DealFlop()
suspense()
g.ShowGameStatus()
g.DealTurn()
suspense()
g.ShowGameStatus()
g.DealRiver()
suspense()
g.ShowGameStatus()
g.ShowWinner()
fmt.Printf("What a strange game. The only winning move is to bet really big.\n")
fmt.Printf("Insert coin to play again.\n")
}

35
examples/sixhand/main.go
View File

@@ -1,35 +0,0 @@
package main
import (
"fmt"
"git.eeqj.de/sneak/pokercore"
)
func main() {
d := pokercore.NewDeck()
fmt.Printf("deck before shuffling: %s\n", d.FormatForTerminal())
d.ShuffleDeterministically(1337 + 1) // 1337 gives too weird a result
fmt.Printf("deck after shuffling: %s\n", d.FormatForTerminal())
var players []pokercore.Cards
for i := 0; i < 6; i++ {
players = append(players, d.Deal(2))
}
for i, p := range players {
fmt.Printf("player %d: %s\n", i, p.FormatForTerminal())
}
// deal the flop
var community pokercore.Cards
community = d.Deal(3)
fmt.Printf("flop: %s\n", community.FormatForTerminal())
// evaluate the hands so far
for i, p := range players {
fmt.Printf("player %d: %s\n", i, p.FormatForTerminal())
thisPlayersHand, err := p.Append(community).PokerHand()
if err != nil {
fmt.Printf("error evaluating hand: %s\n", err)
continue
}
fmt.Printf("player %d: %s\n", i, thisPlayersHand.String())
}
}

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examples/sixhand/sixhand
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8
findhand.go
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@@ -17,6 +17,14 @@ func (hand Cards) IdentifyBestFiveCardPokerHand() (Cards, error) {
return nil, ErrDuplicateCard
}
if len(hand) == 5 {
return hand, nil
}
if len(hand) < 5 {
return nil, errors.New("hand must have at least 5 cards to identify the best 5 card poker hand")
}
newHands := make([]Cards, len(hand))
for i := 0; i < len(hand); i++ {
newHand := make(Cards, len(hand)-1)

14
go.mod
View File

@@ -1,17 +1,23 @@
module git.eeqj.de/sneak/pokercore
module sneak.berlin/go/pokercore
go 1.22.2
require (
github.com/logrusorgru/aurora v2.0.3+incompatible
github.com/logrusorgru/aurora/v4 v4.0.0
github.com/rcrowley/go-metrics v0.0.0-20201227073835-cf1acfcdf475
github.com/schollz/progressbar/v3 v3.14.2
github.com/sirupsen/logrus v1.9.3
github.com/stretchr/testify v1.8.0
sneak.berlin/go/timingbench v0.0.0-20240522212031-a6243a470213
)
require (
github.com/davecgh/go-spew v1.1.1 // indirect
github.com/logrusorgru/aurora/v4 v4.0.0 // indirect
github.com/mitchellh/colorstring v0.0.0-20190213212951-d06e56a500db // indirect
github.com/pmezard/go-difflib v1.0.0 // indirect
golang.org/x/sys v0.0.0-20220715151400-c0bba94af5f8 // indirect
github.com/rivo/uniseg v0.4.7 // indirect
golang.org/x/sys v0.20.0 // indirect
golang.org/x/term v0.20.0 // indirect
gonum.org/v1/gonum v0.15.0 // indirect
gopkg.in/yaml.v3 v3.0.1 // indirect
)

30
go.sum
View File

@@ -1,25 +1,45 @@
github.com/davecgh/go-spew v1.1.0/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/davecgh/go-spew v1.1.1 h1:vj9j/u1bqnvCEfJOwUhtlOARqs3+rkHYY13jYWTU97c=
github.com/davecgh/go-spew v1.1.1/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/logrusorgru/aurora v2.0.3+incompatible h1:tOpm7WcpBTn4fjmVfgpQq0EfczGlG91VSDkswnjF5A8=
github.com/logrusorgru/aurora v2.0.3+incompatible/go.mod h1:7rIyQOR62GCctdiQpZ/zOJlFyk6y+94wXzv6RNZgaR4=
github.com/k0kubun/go-ansi v0.0.0-20180517002512-3bf9e2903213/go.mod h1:vNUNkEQ1e29fT/6vq2aBdFsgNPmy8qMdSay1npru+Sw=
github.com/logrusorgru/aurora/v4 v4.0.0 h1:sRjfPpun/63iADiSvGGjgA1cAYegEWMPCJdUpJYn9JA=
github.com/logrusorgru/aurora/v4 v4.0.0/go.mod h1:lP0iIa2nrnT/qoFXcOZSrZQpJ1o6n2CUf/hyHi2Q4ZQ=
github.com/mattn/go-isatty v0.0.20/go.mod h1:W+V8PltTTMOvKvAeJH7IuucS94S2C6jfK/D7dTCTo3Y=
github.com/mitchellh/colorstring v0.0.0-20190213212951-d06e56a500db h1:62I3jR2EmQ4l5rM/4FEfDWcRD+abF5XlKShorW5LRoQ=
github.com/mitchellh/colorstring v0.0.0-20190213212951-d06e56a500db/go.mod h1:l0dey0ia/Uv7NcFFVbCLtqEBQbrT4OCwCSKTEv6enCw=
github.com/pmezard/go-difflib v1.0.0 h1:4DBwDE0NGyQoBHbLQYPwSUPoCMWR5BEzIk/f1lZbAQM=
github.com/pmezard/go-difflib v1.0.0/go.mod h1:iKH77koFhYxTK1pcRnkKkqfTogsbg7gZNVY4sRDYZ/4=
github.com/rcrowley/go-metrics v0.0.0-20201227073835-cf1acfcdf475 h1:N/ElC8H3+5XpJzTSTfLsJV/mx9Q9g7kxmchpfZyxgzM=
github.com/rcrowley/go-metrics v0.0.0-20201227073835-cf1acfcdf475/go.mod h1:bCqnVzQkZxMG4s8nGwiZ5l3QUCyqpo9Y+/ZMZ9VjZe4=
github.com/rivo/uniseg v0.4.7 h1:WUdvkW8uEhrYfLC4ZzdpI2ztxP1I582+49Oc5Mq64VQ=
github.com/rivo/uniseg v0.4.7/go.mod h1:FN3SvrM+Zdj16jyLfmOkMNblXMcoc8DfTHruCPUcx88=
github.com/schollz/progressbar/v3 v3.14.2 h1:EducH6uNLIWsr560zSV1KrTeUb/wZGAHqyMFIEa99ks=
github.com/schollz/progressbar/v3 v3.14.2/go.mod h1:aQAZQnhF4JGFtRJiw/eobaXpsqpVQAftEQ+hLGXaRc4=
github.com/sirupsen/logrus v1.9.3 h1:dueUQJ1C2q9oE3F7wvmSGAaVtTmUizReu6fjN8uqzbQ=
github.com/sirupsen/logrus v1.9.3/go.mod h1:naHLuLoDiP4jHNo9R0sCBMtWGeIprob74mVsIT4qYEQ=
github.com/stretchr/objx v0.1.0/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME=
github.com/stretchr/objx v0.4.0/go.mod h1:YvHI0jy2hoMjB+UWwv71VJQ9isScKT/TqJzVSSt89Yw=
github.com/stretchr/testify v1.7.0 h1:nwc3DEeHmmLAfoZucVR881uASk0Mfjw8xYJ99tb5CcY=
github.com/stretchr/testify v1.3.0/go.mod h1:M5WIy9Dh21IEIfnGCwXGc5bZfKNJtfHm1UVUgZn+9EI=
github.com/stretchr/testify v1.7.0/go.mod h1:6Fq8oRcR53rry900zMqJjRRixrwX3KX962/h/Wwjteg=
github.com/stretchr/testify v1.7.1/go.mod h1:6Fq8oRcR53rry900zMqJjRRixrwX3KX962/h/Wwjteg=
github.com/stretchr/testify v1.8.0 h1:pSgiaMZlXftHpm5L7V1+rVB+AZJydKsMxsQBIJw4PKk=
github.com/stretchr/testify v1.8.0/go.mod h1:yNjHg4UonilssWZ8iaSj1OCr/vHnekPRkoO+kdMU+MU=
golang.org/x/sys v0.0.0-20220715151400-c0bba94af5f8 h1:0A+M6Uqn+Eje4kHMK80dtF3JCXC4ykBgQG4Fe06QRhQ=
golang.org/x/exp v0.0.0-20231110203233-9a3e6036ecaa h1:FRnLl4eNAQl8hwxVVC17teOw8kdjVDVAiFMtgUdTSRQ=
golang.org/x/exp v0.0.0-20231110203233-9a3e6036ecaa/go.mod h1:zk2irFbV9DP96SEBUUAy67IdHUaZuSnrz1n472HUCLE=
golang.org/x/sys v0.0.0-20220715151400-c0bba94af5f8/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.6.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.17.0/go.mod h1:/VUhepiaJMQUp4+oa/7Zr1D23ma6VTLIYjOOTFZPUcA=
golang.org/x/sys v0.20.0 h1:Od9JTbYCk261bKm4M/mw7AklTlFYIa0bIp9BgSm1S8Y=
golang.org/x/sys v0.20.0/go.mod h1:/VUhepiaJMQUp4+oa/7Zr1D23ma6VTLIYjOOTFZPUcA=
golang.org/x/term v0.17.0/go.mod h1:lLRBjIVuehSbZlaOtGMbcMncT+aqLLLmKrsjNrUguwk=
golang.org/x/term v0.20.0 h1:VnkxpohqXaOBYJtBmEppKUG6mXpi+4O6purfc2+sMhw=
golang.org/x/term v0.20.0/go.mod h1:8UkIAJTvZgivsXaD6/pH6U9ecQzZ45awqEOzuCvwpFY=
gonum.org/v1/gonum v0.15.0 h1:2lYxjRbTYyxkJxlhC+LvJIx3SsANPdRybu1tGj9/OrQ=
gonum.org/v1/gonum v0.15.0/go.mod h1:xzZVBJBtS+Mz4q0Yl2LJTk+OxOg4jiXZ7qBoM0uISGo=
gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405 h1:yhCVgyC4o1eVCa2tZl7eS0r+SDo693bJlVdllGtEeKM=
gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
gopkg.in/yaml.v3 v3.0.0-20200313102051-9f266ea9e77c h1:dUUwHk2QECo/6vqA44rthZ8ie2QXMNeKRTHCNY2nXvo=
gopkg.in/yaml.v3 v3.0.0-20200313102051-9f266ea9e77c/go.mod h1:K4uyk7z7BCEPqu6E+C64Yfv1cQ7kz7rIZviUmN+EgEM=
gopkg.in/yaml.v3 v3.0.1 h1:fxVm/GzAzEWqLHuvctI91KS9hhNmmWOoWu0XTYJS7CA=
gopkg.in/yaml.v3 v3.0.1/go.mod h1:K4uyk7z7BCEPqu6E+C64Yfv1cQ7kz7rIZviUmN+EgEM=
sneak.berlin/go/timingbench v0.0.0-20240522212031-a6243a470213 h1:jgfwL2lUUp6aII87vgkgFenfKftsbKvUR3jlsRdS2yo=
sneak.berlin/go/timingbench v0.0.0-20240522212031-a6243a470213/go.mod h1:W+0S+VhiuNIU/06KPhWJCmNhMaCztg2MuHitNEVEFG0=

125
handhelpers.go
View File

@@ -1,38 +1,12 @@
package pokercore
func (c Cards) scoreStraightFlush() HandScore {
if !c.containsStraightFlush() {
panic("hand must be a straight flush to score it")
}
return ScoreStraightFlush + 1000*c.HighestRank().Score()
}
func (c Cards) scoreFlush() HandScore {
if !c.containsFlush() {
panic("hand must be a flush to score it")
}
var score HandScore
for _, card := range c {
score += card.Rank.Score()
}
return ScoreFlush + score
}
func (c Cards) scoreHighCard() HandScore {
if !c.isUnmadeHand() {
panic("hand must be a high card to score it")
}
var score HandScore
for _, card := range c {
score += card.Rank.Score()
}
return ScoreHighCard + score
}
// these helper functions are used in a Cards.PokerHand() constructor and in
// the calculateScore() function called from it.
// they only work with exactly five cards, no duplicates, and no wild cards.
// they are not intended to be used in any other context, which is why
// they are not exported
func (c Cards) pairRank() Rank {
if !c.containsPair() {
panic("hand must have a pair to have a pair rank")
}
sorted := c.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank {
return sorted[0].Rank
@@ -50,9 +24,6 @@ func (c Cards) pairRank() Rank {
}
func (c Cards) pairFirstKicker() Card {
if !c.containsPair() {
panic("hand must have a pair to have a first kicker")
}
sorted := c.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank {
return sorted[4]
@@ -70,9 +41,6 @@ func (c Cards) pairFirstKicker() Card {
}
func (c Cards) pairSecondKicker() Card {
if !c.containsPair() {
panic("hand must have a pair to have a second kicker")
}
sorted := c.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank {
// first kicker is [4]
@@ -94,9 +62,6 @@ func (c Cards) pairSecondKicker() Card {
}
func (c Cards) pairThirdKicker() Card {
if !c.containsPair() {
panic("hand must have a pair to have a third kicker")
}
sorted := c.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank {
// first kicker is [4]
@@ -122,14 +87,25 @@ func (c Cards) pairThirdKicker() Card {
}
func (c Cards) twoPairBiggestPair() Rank {
if !c.containsTwoPair() {
panic("hand must have two pair to have a biggest pair")
}
sorted := c.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank && sorted[2].Rank == sorted[3].Rank {
return sorted[2].Rank
}
if sorted[0].Rank == sorted[1].Rank && sorted[3].Rank == sorted[4].Rank {
return sorted[3].Rank
}
if sorted[1].Rank == sorted[2].Rank && sorted[3].Rank == sorted[4].Rank {
return sorted[3].Rank
}
panic("nope")
}
func (c Cards) twoPairSmallestPair() Rank {
sorted := c.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank && sorted[2].Rank == sorted[3].Rank {
return sorted[0].Rank
}
if sorted[0].Rank == sorted[1].Rank && sorted[3].Rank == sorted[4].Rank {
return sorted[0].Rank
}
@@ -139,27 +115,7 @@ func (c Cards) twoPairBiggestPair() Rank {
panic("nope")
}
func (c Cards) twoPairSmallestPair() Rank {
if !c.containsTwoPair() {
panic("hand must have two pair to have a smallest pair")
}
sorted := c.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank && sorted[2].Rank == sorted[3].Rank {
return sorted[2].Rank
}
if sorted[0].Rank == sorted[1].Rank && sorted[3].Rank == sorted[4].Rank {
return sorted[3].Rank
}
if sorted[1].Rank == sorted[2].Rank && sorted[3].Rank == sorted[4].Rank {
return sorted[3].Rank
}
panic("nope")
}
func (c Cards) twoPairKicker() Card {
if !c.containsTwoPair() {
panic("hand must have two pair to have a twoPairKicker")
}
sorted := c.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank && sorted[2].Rank == sorted[3].Rank {
return sorted[4]
@@ -174,9 +130,6 @@ func (c Cards) twoPairKicker() Card {
}
func (c Cards) threeOfAKindTripsRank() Rank {
if !c.containsThreeOfAKind() {
panic("hand must have three of a kind to have a trips rank")
}
sorted := c.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank && sorted[1].Rank == sorted[2].Rank {
return sorted[0].Rank
@@ -191,9 +144,6 @@ func (c Cards) threeOfAKindTripsRank() Rank {
}
func (c Cards) threeOfAKindKickers() Cards {
if !c.containsThreeOfAKind() {
panic("hand must have three of a kind to have kickers")
}
sorted := c.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank && sorted[1].Rank == sorted[2].Rank {
return Cards{sorted[3], sorted[4]}
@@ -284,14 +234,7 @@ func (hand Cards) containsDuplicates() bool {
return false
}
func (hand Cards) IsFiveCardPokerHand() bool {
return len(hand) == 5 && !hand.containsDuplicates()
}
func (hand Cards) containsFlush() bool {
if !hand.IsFiveCardPokerHand() {
panic("hand must have 5 cards to be scored")
}
suit := hand[0].Suit
for i := 1; i < len(hand); i++ {
if hand[i].Suit != suit {
@@ -302,9 +245,6 @@ func (hand Cards) containsFlush() bool {
}
func (hand Cards) containsStraight() bool {
if !hand.IsFiveCardPokerHand() {
panic("hand must have 5 cards to be scored")
}
sorted := hand.SortByRankAscending()
if sorted[4].Rank == ACE && sorted[3].Rank == FIVE {
@@ -322,9 +262,8 @@ func (hand Cards) containsStraight() bool {
}
func (hand Cards) containsStraightFlush() bool {
if !hand.IsFiveCardPokerHand() {
panic("hand must have 5 cards to be scored")
}
// this of course only works on five card hands
// but these hand helpers are only ever called from a five card hand
if hand.containsStraight() && hand.containsFlush() {
return true
}
@@ -332,9 +271,6 @@ func (hand Cards) containsStraightFlush() bool {
}
func (hand Cards) containsRoyalFlush() bool {
if !hand.IsFiveCardPokerHand() {
panic("hand must have 5 cards to be scored")
}
// This seems like it works, but a five-high straight flush is not a royal flush
// and the highest ranked card in five-high straigh flush is an ace.
//if hand.containsStraightFlush() && hand.HighestRank() == ACE {
@@ -348,9 +284,6 @@ func (hand Cards) containsRoyalFlush() bool {
}
func (hand Cards) containsFourOfAKind() bool {
if !hand.IsFiveCardPokerHand() {
panic("hand must have 5 cards to be scored")
}
sorted := hand.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank && sorted[1].Rank == sorted[2].Rank && sorted[2].Rank == sorted[3].Rank {
// the quads precede the kicker
@@ -364,9 +297,6 @@ func (hand Cards) containsFourOfAKind() bool {
}
func (hand Cards) containsFullHouse() bool {
if !hand.IsFiveCardPokerHand() {
panic("hand must have 5 cards to be scored")
}
sorted := hand.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank && sorted[1].Rank == sorted[2].Rank && sorted[3].Rank == sorted[4].Rank {
@@ -381,9 +311,6 @@ func (hand Cards) containsFullHouse() bool {
}
func (hand Cards) containsPair() bool {
if !hand.IsFiveCardPokerHand() {
panic("hand must have 5 cards to be scored")
}
sorted := hand.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank {
return true
@@ -401,9 +328,6 @@ func (hand Cards) containsPair() bool {
}
func (hand Cards) containsThreeOfAKind() bool {
if !hand.IsFiveCardPokerHand() {
panic("hand must have 5 cards to be scored")
}
sorted := hand.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank && sorted[1].Rank == sorted[2].Rank {
return true
@@ -418,9 +342,6 @@ func (hand Cards) containsThreeOfAKind() bool {
}
func (hand Cards) containsTwoPair() bool {
if !hand.IsFiveCardPokerHand() {
panic("hand must have 5 cards to be scored")
}
sorted := hand.SortByRankAscending()
if sorted[0].Rank == sorted[1].Rank && sorted[2].Rank == sorted[3].Rank {
return true
@@ -435,8 +356,6 @@ func (hand Cards) containsTwoPair() bool {
}
func (hand Cards) isUnmadeHand() bool {
if !hand.IsFiveCardPokerHand() {
panic("hand must have 5 cards to be scored")
}
// i suspect this is expensive but we use it only in tests
return !hand.containsPair() && !hand.containsTwoPair() && !hand.containsThreeOfAKind() && !hand.containsStraight() && !hand.containsFlush() && !hand.containsFullHouse() && !hand.containsFourOfAKind() && !hand.containsStraightFlush() && !hand.containsRoyalFlush()
}

83
perf_test.go Normal file
View File

@@ -0,0 +1,83 @@
package pokercore
import (
"context"
"testing"
"time"
"github.com/stretchr/testify/assert"
"sneak.berlin/go/timingbench"
)
func TestShuffleSpeed(t *testing.T) {
t.Parallel()
iterations := 1000
t.Logf("Running %d iterations of shuffle speed test", iterations)
// Create a context with a timeout for cancellation.
ctx, cancel := context.WithTimeout(context.Background(), 20*time.Second)
defer cancel()
// Measure the execution times of the sample function.
d := NewDeck()
result, err := timingbench.TimeFunction(ctx, func() { d.ShuffleRandomly() }, iterations)
if err != nil {
t.Fatalf("Error measuring function: %v", err)
}
// Print the timing results.
t.Logf(result.String())
}
func TestHandFindingSpeedFiveCard(t *testing.T) {
t.Parallel()
iterations := 1000
t.Logf("Running %d iterations of hand finding speed test for 5 card hand", iterations)
measureHandFinding(t, iterations, 5)
}
func TestHandFindingSpeedSevenCard(t *testing.T) {
t.Parallel()
iterations := 1000
t.Logf("Running %d iterations of hand finding speed test for 7 card hand", iterations)
measureHandFinding(t, iterations, 7)
}
func TestHandFindingSpeedNineCard(t *testing.T) {
t.Parallel()
iterations := 100
t.Logf("Running %d iterations of hand finding speed test for 9 card hand", iterations)
measureHandFinding(t, iterations, 9)
}
func measureHandFinding(t *testing.T, iterations int, cardCount int) {
// Create a context with a timeout for cancellation.
ctx, cancel := context.WithTimeout(context.Background(), 20*time.Second)
defer cancel()
// Measure the execution times of the sample function.
result, err := timingbench.TimeFunction(ctx, func() {
findHandInRandomCards(t, int(123456789), cardCount) // check for hand in 10 cards
}, iterations)
if err != nil {
t.Fatalf("Error measuring function: %v", err)
}
t.Logf("Searching %d random cards for a hand takes on average %s", cardCount, result.Mean)
t.Logf("Over %d iterations the min was %s and the max was %s", iterations, result.Min, result.Max)
t.Logf("The standard deviation was %s", result.StdDev)
t.Logf("The median was %s", result.Median)
// Print the timing results.
//t.Logf(result.String())
}
func findHandInRandomCards(t *testing.T, shuffleSeed int, cardCount int) {
d := NewDeck()
d.ShuffleDeterministically(int64(shuffleSeed))
cards := d.Deal(cardCount)
hand, err := cards.IdentifyBestFiveCardPokerHand()
assert.Nil(t, err, "Expected no error")
ph, err := hand.PokerHand()
assert.Nil(t, err, "Expected no error")
//assert.Greater(t, ph.Score, 0, "Expected score to be nonzero 0")
desc := ph.Description()
assert.NotEmpty(t, desc, "Expected description to not be empty")
}

13
pokercore_test.go
View File

@@ -1,7 +1,6 @@
package pokercore
import (
"fmt"
"testing"
"github.com/stretchr/testify/assert"
@@ -13,14 +12,15 @@ type ShuffleTestResults []struct {
}
func TestPokerDeck(t *testing.T) {
t.Parallel()
d := NewDeck()
fmt.Printf("newdeck: %+v\n", d)
//fmt.Printf("newdeck: %+v\n", d)
d.ShuffleDeterministically(437)
fmt.Printf("deterministically shuffled deck: %+v\n", d)
//fmt.Printf("deterministically shuffled deck: %+v\n", d)
cards := d.Deal(7)
expected := "6♥,A♦,7♥,9♣,6♠,9♥,8♣"
fmt.Printf("deterministically shuffled deck after dealing: %+v\n", d)
fmt.Printf("cards: %+v\n", cards)
//fmt.Printf("deterministically shuffled deck after dealing: %+v\n", d)
//fmt.Printf("cards: %+v\n", cards)
assert.Equal(t, expected, cards.String())
x := d.Count()
@@ -36,6 +36,7 @@ func TestPokerDeck(t *testing.T) {
}
func TestDealing(t *testing.T) {
t.Parallel()
d := NewDeckFromCards(Cards{
Card{Rank: ACE, Suit: HEART},
Card{Rank: DEUCE, Suit: HEART},
@@ -51,6 +52,7 @@ func TestDealing(t *testing.T) {
}
func TestSpecialCaseOfFiveHighStraightFlush(t *testing.T) {
t.Parallel()
// actual bug from first implementation
d := NewDeckFromCards(Cards{
Card{Rank: ACE, Suit: HEART},
@@ -69,6 +71,7 @@ func TestSpecialCaseOfFiveHighStraightFlush(t *testing.T) {
}
func TestSpecialCaseOfFiveHighStraight(t *testing.T) {
t.Parallel()
// actual bug from first implementation
d := NewDeckFromCards(Cards{
Card{Rank: ACE, Suit: HEART},

184
pokerhand.go
View File

@@ -1,6 +1,9 @@
package pokercore
import "fmt"
import (
"errors"
"fmt"
)
type PokerHandType int
@@ -28,102 +31,44 @@ func (c Cards) Append(other Cards) Cards {
}
func (c Cards) PokerHand() (*PokerHand, error) {
if len(c) != 5 {
return nil, fmt.Errorf("hand must have 5 cards to be scored as a poker hand")
}
if c.containsDuplicates() {
return nil, fmt.Errorf("hand must have no duplicates to be scored as a poker hand")
return nil, errors.New("hand must have no duplicates to be scored as a poker hand")
}
ph := new(PokerHand)
ph.Hand = c
if c.containsRoyalFlush() {
ph.Type = RoyalFlush
ph.Score = ScoreRoyalFlush
return ph, nil
}
if c.containsStraightFlush() {
ph.Type = StraightFlush
ph.Score = ph.Hand.scoreStraightFlush()
return ph, nil
}
if c.containsFourOfAKind() {
ph.Type = FourOfAKind
ph.Score = ScoreFourOfAKind + 1000*c.fourOfAKindRank().Score() + c.fourOfAKindKicker().Score()
return ph, nil
}
if c.containsFullHouse() {
ph.Type = FullHouse
ph.Score = ScoreFullHouse + 1000*c.fullHouseTripsRank().Score() + c.fullHousePairRank().Score()
return ph, nil
}
if c.containsFlush() {
ph.Type = Flush
ph.Score = c.scoreFlush()
return ph, nil
}
if c.containsStraight() {
ph.Type = Straight
// Straights are scored by the highest card in the straight
// UNLESS the second highest card is a 5 and the highest card is an Ace
// In that case, the straight is a 5-high straight, not an Ace-high straight
sorted := c.SortByRankAscending()
if sorted[3].Rank == FIVE && sorted[4].Rank == ACE {
// 5-high straight
ph.Score = ScoreStraight + 1000*sorted[3].Score()
} else {
// All other straights
ph.Score = ScoreStraight + 1000*sorted[4].Score()
// IdentifyBestFiveCardPokerHand() calls us to score hands
// but only if the hand is 5 cards exactly which avoids recursion loop
if len(c) > 5 {
phc, err := c.IdentifyBestFiveCardPokerHand()
if err != nil {
// this should in theory never happen
return nil, err
}
return ph, nil
ph.Hand = phc.SortByRankAscending()
} else if len(c) == 5 {
ph.Hand = c.SortByRankAscending()
} else {
return nil, errors.New("hand must have at least 5 cards to be scored as a poker hand")
}
if c.containsThreeOfAKind() {
ph.Type = ThreeOfAKind
ph.Score = ScoreThreeOfAKind
ph.Score += 1000 * c.threeOfAKindTripsRank().Score()
ph.Score += 100 * c.threeOfAKindFirstKicker().Score()
ph.Score += 10 * c.threeOfAKindSecondKicker().Score()
return ph, nil
}
// this doesn't return an error because we've already checked for
// duplicates and we have already identified the best 5-card hand
if c.containsTwoPair() {
ph.Type = TwoPair
ph.Score = ScoreTwoPair
ph.Score += 1000 * c.twoPairBiggestPair().Score()
ph.Score += 100 * c.twoPairSmallestPair().Score()
ph.Score += 10 * c.twoPairKicker().Score()
return ph, nil
}
// this code used to be here, but got factored out so it can go in
// scoring.go
ph.calculateScore()
if c.containsPair() {
ph.Type = Pair
ph.Score = ScorePair
ph.Score += 1000 * c.pairRank().Score()
ph.Score += 100 * c.pairFirstKicker().Score()
ph.Score += 10 * c.pairSecondKicker().Score()
ph.Score += c.pairThirdKicker().Score()
return ph, nil
}
ph.Type = HighCard
ph.Score = c.scoreHighCard()
return ph, nil
}
func (ph PokerHand) ToSortedCards() Cards {
sorted := ph.Hand.SortByRankAscending()
return sorted
func (ph *PokerHand) ToSortedCards() Cards {
// I believe ph.Hand is already sorted, but in any case it's only 5
// cards and sorting it costs ~nothing
return ph.Hand.SortByRankAscending()
}
func (ph PokerHand) Compare(other PokerHand) int {
func (ph *PokerHand) Compare(other PokerHand) int {
if ph.Score > other.Score {
return 1
}
@@ -133,75 +78,74 @@ func (ph PokerHand) Compare(other PokerHand) int {
return 0
}
func (ph PokerHand) HighestRank() Rank {
func (ph *PokerHand) HighestRank() Rank {
return ph.Hand.HighestRank()
}
func (ph PokerHand) String() string {
func (ph *PokerHand) String() string {
return fmt.Sprintf("<PokerHand: %s (%s)>", ph.Hand.String(), ph.Description())
}
func (c PokerHand) Description() string {
sortedHand := c.Hand.SortByRankAscending()
if c.Type == RoyalFlush {
return fmt.Sprintf("a royal flush in %s", c.Hand[0].Suit)
func (ph *PokerHand) Description() string {
if ph.Type == RoyalFlush {
return fmt.Sprintf("a royal flush in %s", ph.Hand[0].Suit)
}
if c.Hand.containsStraightFlush() {
if sortedHand[3].Rank == FIVE && sortedHand[4].Rank == ACE {
if ph.Hand.containsStraightFlush() {
if ph.Hand[3].Rank == FIVE && ph.Hand[4].Rank == ACE {
// special case for steel wheel
return fmt.Sprintf("%s high straight flush in %s", sortedHand[3].Rank.WithArticle(), sortedHand[4].Suit)
return fmt.Sprintf("%s high straight flush in %s", ph.Hand[3].Rank.WithArticle(), ph.Hand[4].Suit)
}
return fmt.Sprintf("%s high straight flush in %s", c.HighestRank().WithArticle(), sortedHand[4].Suit)
return fmt.Sprintf("%s high straight flush in %s", ph.HighestRank().WithArticle(), ph.Hand[4].Suit)
}
if c.Hand.containsFourOfAKind() {
return fmt.Sprintf("four %s with %s", c.Hand.fourOfAKindRank().Pluralize(), c.Hand.fourOfAKindKicker().Rank.WithArticle())
if ph.Hand.containsFourOfAKind() {
return fmt.Sprintf("four %s with %s", ph.Hand.fourOfAKindRank().Pluralize(), ph.Hand.fourOfAKindKicker().Rank.WithArticle())
}
if c.Hand.containsFullHouse() {
return fmt.Sprintf("a full house, %s full of %s", c.Hand.fullHouseTripsRank().Pluralize(), c.Hand.fullHousePairRank().Pluralize())
if ph.Hand.containsFullHouse() {
return fmt.Sprintf("a full house, %s full of %s", ph.Hand.fullHouseTripsRank().Pluralize(), ph.Hand.fullHousePairRank().Pluralize())
}
if c.Hand.containsFlush() {
return fmt.Sprintf("%s high flush in %s", c.HighestRank().WithArticle(), sortedHand[4].Suit)
if ph.Hand.containsFlush() {
return fmt.Sprintf("%s high flush in %s", ph.HighestRank().WithArticle(), ph.Hand[4].Suit)
}
if c.Hand.containsStraight() {
if sortedHand[3].Rank == FIVE && sortedHand[4].Rank == ACE {
if ph.Hand.containsStraight() {
if ph.Hand[3].Rank == FIVE && ph.Hand[4].Rank == ACE {
// special case for wheel straight
return fmt.Sprintf("%s high straight", sortedHand[3].Rank.WithArticle())
return fmt.Sprintf("%s high straight", ph.Hand[3].Rank.WithArticle())
}
return fmt.Sprintf("%s high straight", c.HighestRank().WithArticle())
return fmt.Sprintf("%s high straight", ph.HighestRank().WithArticle())
}
if c.Hand.containsThreeOfAKind() {
if ph.Hand.containsThreeOfAKind() {
return fmt.Sprintf(
"three %s with %s and %s",
c.Hand.threeOfAKindTripsRank().Pluralize(),
c.Hand.threeOfAKindFirstKicker().Rank.WithArticle(),
c.Hand.threeOfAKindSecondKicker().Rank.WithArticle(),
ph.Hand.threeOfAKindTripsRank().Pluralize(),
ph.Hand.threeOfAKindFirstKicker().Rank.WithArticle(),
ph.Hand.threeOfAKindSecondKicker().Rank.WithArticle(),
)
}
if c.Hand.containsTwoPair() {
if ph.Hand.containsTwoPair() {
return fmt.Sprintf(
"two pair, %s and %s with %s",
c.Hand.twoPairBiggestPair().Pluralize(),
c.Hand.twoPairSmallestPair().Pluralize(),
c.Hand.twoPairKicker().Rank.WithArticle(),
ph.Hand.twoPairBiggestPair().Pluralize(),
ph.Hand.twoPairSmallestPair().Pluralize(),
ph.Hand.twoPairKicker().Rank.WithArticle(),
)
}
if c.Hand.containsPair() {
if ph.Hand.containsPair() {
return fmt.Sprintf(
"a pair of %s with %s, %s, and %s",
c.Hand.pairRank().Pluralize(),
c.Hand.pairFirstKicker().Rank.WithArticle(),
c.Hand.pairSecondKicker().Rank.WithArticle(),
c.Hand.pairThirdKicker().Rank.WithArticle(),
ph.Hand.pairRank().Pluralize(),
ph.Hand.pairFirstKicker().Rank.WithArticle(),
ph.Hand.pairSecondKicker().Rank.WithArticle(),
ph.Hand.pairThirdKicker().Rank.WithArticle(),
)
}
return fmt.Sprintf(
// "ace high with an eight, a seven, a six, and a deuce"
"%s high with %s, %s, %s, and %s",
sortedHand[4].Rank,
sortedHand[3].Rank.WithArticle(),
sortedHand[2].Rank.WithArticle(),
sortedHand[1].Rank.WithArticle(),
sortedHand[0].Rank.WithArticle(),
ph.Hand[4].Rank,
ph.Hand[3].Rank.WithArticle(),
ph.Hand[2].Rank.WithArticle(),
ph.Hand[1].Rank.WithArticle(),
ph.Hand[0].Rank.WithArticle(),
)
}

120
scoring.go
View File

@@ -1,6 +1,8 @@
package pokercore
import "fmt"
import (
"fmt"
)
type HandScore int
@@ -22,18 +24,122 @@ func (c Card) Score() HandScore {
}
func (c Cards) PokerHandScore() (HandScore, error) {
if len(c) != 5 {
return 0, fmt.Errorf("hand must have 5 cards to be scored as a poker hand")
}
ph, err := c.PokerHand()
if err != nil {
return 0, err
}
//fmt.Println(ph)
return ph.Score, nil
}
func (x HandScore) String() string {
return fmt.Sprintf("<HandScore %d>", x)
//return scoreToName(x)
}
func (ph *PokerHand) calculateScore() {
// sanity check, we should only be called in the PokerHand() method from
// a Cards, but just in case
if len(ph.Hand) != 5 {
// normally we don't panic in a library but this is a "should never
// happen"
panic("PokerHand.calculateScore() called on a PokerHand with != 5 cards")
}
if ph.Hand.containsRoyalFlush() {
ph.Type = RoyalFlush
ph.Score = ScoreRoyalFlush
return
}
if ph.Hand.containsStraightFlush() {
ph.Type = StraightFlush
ph.Score = ScoreStraightFlush
ph.Score += ph.Hand.HighestRank().Score()
return
}
if ph.Hand.containsFourOfAKind() {
ph.Type = FourOfAKind
ph.Score = ScoreFourOfAKind
ph.Score += 10000 * ph.Hand.fourOfAKindRank().Score()
ph.Score += 100 * ph.Hand.fourOfAKindKicker().Score()
return
}
if ph.Hand.containsFullHouse() {
ph.Type = FullHouse
ph.Score = ScoreFullHouse
ph.Score += 10000 * ph.Hand.fullHouseTripsRank().Score()
ph.Score += 100 * ph.Hand.fullHousePairRank().Score()
return
}
if ph.Hand.containsFlush() {
ph.Type = Flush
ph.Score = ScoreFlush
// flush base score plus sum of card ranks
ph.Score += ph.Hand[0].Score()
ph.Score += ph.Hand[1].Score()
ph.Score += ph.Hand[2].Score()
ph.Score += ph.Hand[3].Score()
ph.Score += ph.Hand[4].Score()
return
}
if ph.Hand.containsStraight() {
ph.Type = Straight
ph.Score = ScoreStraight
// note that ph.Hand is already sorted by rank ascending with ace
// high
// Straights are scored by the highest card in the straight
// UNLESS the second highest card is a 5 and the highest card is an Ace
// In that case, the straight is a 5-high straight, not an Ace-high straight
if ph.Hand[3].Rank == FIVE && ph.Hand[4].Rank == ACE {
// 5-high straight, scored by the five's rank
ph.Score += ph.Hand[3].Score()
} else {
// All other straights are scored by the highest card in the straight
ph.Score += ph.Hand[4].Score()
}
return
}
if ph.Hand.containsThreeOfAKind() {
ph.Type = ThreeOfAKind
ph.Score = ScoreThreeOfAKind
ph.Score += 10000 * ph.Hand.threeOfAKindTripsRank().Score()
ph.Score += 100 * ph.Hand.threeOfAKindFirstKicker().Score()
ph.Score += ph.Hand.threeOfAKindSecondKicker().Score()
return
}
if ph.Hand.containsTwoPair() {
ph.Type = TwoPair
ph.Score = ScoreTwoPair
ph.Score += 10000 * ph.Hand.twoPairBiggestPair().Score()
ph.Score += 100 * ph.Hand.twoPairSmallestPair().Score()
ph.Score += ph.Hand.twoPairKicker().Score()
return
}
if ph.Hand.containsPair() {
ph.Type = Pair
ph.Score = ScorePair
ph.Score += 10000 * ph.Hand.pairRank().Score()
ph.Score += 100 * ph.Hand.pairFirstKicker().Score()
ph.Score += ph.Hand.pairSecondKicker().Score()
ph.Score += ph.Hand.pairThirdKicker().Score()
return
}
ph.Type = HighCard
ph.Score = ScoreHighCard // base score
// unmade hands are scored like flushes, just add up the values
ph.Score += ph.Hand[0].Score()
ph.Score += ph.Hand[1].Score()
ph.Score += ph.Hand[2].Score()
ph.Score += ph.Hand[3].Score()
ph.Score += ph.Hand[4].Score()
}

562
scoring_test.go
View File

@@ -1,231 +1,423 @@
package pokercore
import (
"fmt"
"testing"
"github.com/stretchr/testify/assert"
)
func TestAceLowStraight(t *testing.T) {
hand := Cards{
AceOfSpades(),
DeuceOfHearts(),
ThreeOfDiamonds(),
FourOfClubs(),
FiveOfSpades(),
func TestHandDescriptionBug(t *testing.T) {
t.Parallel()
playerCount := 8
d := NewDeck()
d.ShuffleDeterministically(1337)
players := make([]*Cards, playerCount)
for i := 0; i < playerCount; i++ {
c := d.Deal(2)
players[i] = &c
t.Logf("Player %d dealt: %+v\n", i+1, c)
}
assert.True(t, hand.containsStraight(), "Expected hand to be a straight")
ph, err := hand.PokerHand()
assert.Nil(t, err, "Expected no error")
assert.Greater(t, ph.Score, 0, "Expected score to be nonzero 0")
assert.Less(t, ph.Score, 100000000000000000, "Expected score to be less than 100000000000000000")
assert.Equal(t, ph.Score, ScoreStraight+100*FIVE.Score())
assert.Equal(t, ph.Description(), "a five high straight")
assert.True(t, hand.HighestRank() == ACE, "Expected highest rank to be an ace")
assert.True(t, hand.SortByRankAscending().First().Rank == DEUCE, "Expected first card to be a deuce")
assert.True(t, hand.SortByRankAscending().Last().Rank == ACE, "Expected last card in sorted to be a ace")
assert.True(t, hand.SortByRankAscending().Second().Rank == THREE, "Expected second card to be a three")
assert.True(t, hand.SortByRankAscending().Third().Rank == FOUR, "Expected third card to be a four")
assert.True(t, hand.SortByRankAscending().Fourth().Rank == FIVE, "Expected fourth card to be a five")
assert.True(t, hand.SortByRankAscending().Fifth().Rank == ACE, "Expected fifth card to be an ace")
t.Logf("Players: %+v\n", players)
community := d.Deal(5)
t.Logf("Community: %+v\n", community)
var playerResults []*PokerHand
for i := 0; i < playerCount; i++ {
t.Logf("Player %d hole cards: %+v\n", i+1, *players[i])
pc := append(*players[i], community...)
t.Logf("Player %d cards available: %+v\n", i+1, pc)
hand, err := pc.IdentifyBestFiveCardPokerHand()
assert.NoError(t, err, "Expected no error")
ph, err := hand.PokerHand()
assert.NoError(t, err, "Expected no error")
t.Logf("Player %d five cards used: %+v\n", i+1, hand)
t.Logf("Player %d poker hand: %+v\n", i+1, ph)
t.Logf("Player %d best hand description: %s\n", i+1, ph.Description())
playerResults = append(playerResults, ph)
}
weirdOne := playerResults[7]
t.Logf("Weird one: %v\n", weirdOne)
t.Logf("Weird one description: %s\n", weirdOne.Description())
// T♠,7♠,9♦,7♣,T♥
assert.Equal(t, "two pair, tens and sevens with a nine", weirdOne.Description())
scoreShouldBe := ScoreTwoPair
scoreShouldBe += 10000 * TEN.Score()
scoreShouldBe += 100 * SEVEN.Score()
scoreShouldBe += NINE.Score()
assert.Equal(t, scoreShouldBe, weirdOne.Score)
cards := weirdOne.Hand
assert.True(t, cards.containsTwoPair(), "Expected hand to be two pair")
bp := cards.twoPairBiggestPair() // returns Rank, because describing a pair
assert.Equal(t, TEN, bp, "Expected biggest pair to be a ten")
sp := cards.twoPairSmallestPair() // returns Rank, because describing a pair
assert.Equal(t, SEVEN, sp, "Expected smallest pair to be a seven")
k := cards.twoPairKicker() // returns Card, because describing a single card
assert.Equal(t, NINE, k.Rank, "Expected kicker to be a nine")
}
func TestAceLowStraight(t *testing.T) {
t.Parallel()
t.Run("Test Ace-Low Straight", func(t *testing.T) {
hand := Cards{
AceOfSpades(),
DeuceOfHearts(),
ThreeOfDiamonds(),
FourOfClubs(),
FiveOfSpades(),
}
assert.True(t, hand.containsStraight(), "Expected hand to be a straight")
ph, err := hand.PokerHand()
assert.NoError(t, err, "Expected no error")
assert.Greater(t, ph.Score, 0, "Expected score to be greater than 0")
assert.Less(t, ph.Score, 100000000000000000, "Expected score to be less than 100000000000000000")
assert.Equal(t, ph.Score, ScoreStraight+FIVE.Score())
assert.Equal(t, "a five high straight", ph.Description())
assert.Equal(t, ACE, hand.HighestRank(), "Expected highest rank to be an ace")
s := hand.SortByRankAscending()
assert.Equal(t, DEUCE, s.First().Rank, "Expected first card to be a deuce")
assert.Equal(t, ACE, s.Last().Rank, "Expected last card in sorted to be an ace")
assert.Equal(t, THREE, s.Second().Rank, "Expected second card to be a three")
assert.Equal(t, FOUR, s.Third().Rank, "Expected third card to be a four")
assert.Equal(t, FIVE, s.Fourth().Rank, "Expected fourth card to be a five")
assert.Equal(t, ACE, s.Fifth().Rank, "Expected fifth card to be an ace")
})
}
func TestAceHighStraight(t *testing.T) {
hand := Cards{
TenOfSpades(),
JackOfHearts(),
KingOfClubs(),
AceOfSpades(),
QueenOfDiamonds(),
}
t.Parallel()
t.Run("Test Ace-High Straight", func(t *testing.T) {
hand := Cards{
TenOfSpades(),
JackOfHearts(),
KingOfClubs(),
AceOfSpades(),
QueenOfDiamonds(),
}
assert.True(t, hand.containsStraight(), "Expected hand to be a straight")
newDeck := NewDeckFromCards(hand)
newDeck.ShuffleDeterministically(123456789)
shuffledHand := newDeck.Deal(5)
assert.True(t, shuffledHand.containsStraight(), "Expected hand to still be a straight after shuffle")
assert.True(t, shuffledHand.HighestRank() == ACE, "Expected highest rank to be an ace")
sortedHand := shuffledHand.SortByRankAscending()
assert.True(t, sortedHand[0].Rank == TEN, "Expected lowest rank to be a ten")
assert.True(t, sortedHand[1].Rank == JACK, "Expected second lowest rank to be a jack")
assert.True(t, sortedHand[2].Rank == QUEEN, "Expected third lowest rank to be a queen")
assert.True(t, sortedHand[3].Rank == KING, "Expected fourth lowest rank to be a king")
assert.True(t, sortedHand[4].Rank == ACE, "Expected highest rank to be an ace")
assert.True(t, hand.containsStraight(), "Expected hand to be a straight")
newDeck := NewDeckFromCards(hand)
newDeck.ShuffleDeterministically(123456789)
shuffledHand := newDeck.Deal(5)
assert.True(t, shuffledHand.containsStraight(), "Expected hand to still be a straight after shuffle")
assert.Equal(t, ACE, shuffledHand.HighestRank(), "Expected highest rank to be an ace")
sortedHand := shuffledHand.SortByRankAscending()
assert.Equal(t, TEN, sortedHand[0].Rank, "Expected lowest rank to be a ten")
assert.Equal(t, JACK, sortedHand[1].Rank, "Expected second lowest rank to be a jack")
assert.Equal(t, QUEEN, sortedHand[2].Rank, "Expected third lowest rank to be a queen")
assert.Equal(t, KING, sortedHand[3].Rank, "Expected fourth lowest rank to be a king")
assert.Equal(t, ACE, sortedHand[4].Rank, "Expected highest rank to be an ace")
})
}
func TestOtherStraight(t *testing.T) {
hand := Cards{
DeuceOfSpades(),
ThreeOfHearts(),
FourOfDiamonds(),
FiveOfClubs(),
SixOfSpades(),
}
assert.True(t, hand.containsStraight(), "Expected hand to be a straight")
newDeck := NewDeckFromCards(hand)
newDeck.ShuffleDeterministically(123456789)
fmt.Printf("Shuffled deck: %s\n", newDeck.String())
fmt.Printf("new deck has %d cards\n", newDeck.Count())
shuffledHand := newDeck.Deal(5)
assert.True(t, shuffledHand.containsStraight(), "Expected hand to still be a straight after shuffle")
assert.False(t, shuffledHand.containsTwoPair(), "Expected hand to not be two pair")
t.Parallel()
t.Run("Test Other Straight", func(t *testing.T) {
hand := Cards{
DeuceOfSpades(),
ThreeOfHearts(),
FourOfDiamonds(),
FiveOfClubs(),
SixOfSpades(),
}
assert.True(t, hand.containsStraight(), "Expected hand to be a straight")
newDeck := NewDeckFromCards(hand)
newDeck.ShuffleDeterministically(123456789)
shuffledHand := newDeck.Deal(5)
assert.True(t, shuffledHand.containsStraight(), "Expected hand to still be a straight after shuffle")
assert.False(t, shuffledHand.containsTwoPair(), "Expected hand to not be two pair")
assert.False(t, shuffledHand.containsPair(), "Expected hand to not be a pair")
assert.Equal(t, SIX, shuffledHand.HighestRank(), "Expected highest rank to be a six")
assert.Equal(t, DEUCE, shuffledHand.SortByRankAscending().First().Rank, "Expected first card to be a deuce")
})
}
func TestFlush(t *testing.T) {
hand := Cards{
AceOfSpades(),
DeuceOfSpades(),
ThreeOfSpades(),
FourOfSpades(),
SixOfSpades(),
}
assert.True(t, hand.containsFlush(), "Expected hand to be a flush")
newDeck := NewDeckFromCards(hand)
newDeck.ShuffleDeterministically(123456789)
fmt.Printf("Shuffled deck: %s\n", newDeck.String())
fmt.Printf("new deck has %d cards\n", newDeck.Count())
shuffledHand := newDeck.Deal(5)
assert.True(t, shuffledHand.containsFlush(), "Expected hand to still be a flush after shuffle")
t.Parallel()
t.Run("Test Flush", func(t *testing.T) {
hand := Cards{
AceOfSpades(),
DeuceOfSpades(),
ThreeOfSpades(),
FourOfSpades(),
SixOfSpades(),
}
assert.True(t, hand.containsFlush(), "Expected hand to be a flush")
newDeck := NewDeckFromCards(hand)
newDeck.ShuffleDeterministically(123456789)
shuffledHand := newDeck.Deal(5)
assert.True(t, shuffledHand.containsFlush(), "Expected hand to still be a flush after shuffle")
x := ScoreFlush
var multiplier HandScore = 100
x += multiplier * DEUCE.Score()
multiplier *= 100
x += multiplier * THREE.Score()
multiplier *= 100
x += multiplier * FOUR.Score()
multiplier *= 100
x += multiplier * SIX.Score()
fmt.Printf("a-2-3-4-6 flush score should be: %d\n", x)
// flush value is the sum of the ranks, just like high card
x := ScoreFlush
x += ACE.Score()
x += DEUCE.Score()
x += THREE.Score()
x += FOUR.Score()
x += SIX.Score()
ph, err := shuffledHand.PokerHand()
assert.NoError(t, err, "Expected no error")
assert.Greater(t, ph.Score, 0, "Expected score to be nonzero")
assert.Equal(t, ph.Score, x)
})
}
func TestStraightFlush(t *testing.T) {
hand := Cards{
SixOfSpades(),
DeuceOfSpades(),
ThreeOfSpades(),
FourOfSpades(),
FiveOfSpades(),
}
assert.True(t, hand.containsStraight(), "Expected hand to be a straight")
assert.True(t, hand.containsFlush(), "Expected hand to be a flush")
assert.True(t, hand.containsStraightFlush(), "Expected hand to be a straight flush")
assert.False(t, hand.containsRoyalFlush(), "Expected hand to not be a royal flush")
assert.False(t, hand.containsFourOfAKind(), "Expected hand to not be four of a kind")
assert.False(t, hand.containsFullHouse(), "Expected hand to not be a full house")
assert.False(t, hand.containsThreeOfAKind(), "Expected hand to not be three of a kind")
assert.False(t, hand.containsTwoPair(), "Expected hand to not be two pair")
assert.False(t, hand.containsPair(), "Expected hand to not be a pair")
t.Parallel()
t.Run("Test Straight Flush", func(t *testing.T) {
hand := Cards{
SixOfSpades(),
DeuceOfSpades(),
ThreeOfSpades(),
FourOfSpades(),
FiveOfSpades(),
}
assert.True(t, hand.containsStraight(), "Expected hand to be a straight")
assert.True(t, hand.containsFlush(), "Expected hand to be a flush")
assert.True(t, hand.containsStraightFlush(), "Expected hand to be a straight flush")
assert.False(t, hand.containsRoyalFlush(), "Expected hand to not be a royal flush")
assert.False(t, hand.containsFourOfAKind(), "Expected hand to not be four of a kind")
assert.False(t, hand.containsFullHouse(), "Expected hand to not be a full house")
assert.False(t, hand.containsThreeOfAKind(), "Expected hand to not be three of a kind")
assert.False(t, hand.containsTwoPair(), "Expected hand to not be two pair")
assert.False(t, hand.containsPair(), "Expected hand to not be a pair")
assert.True(t, hand.HighestRank() == SIX, "Expected highest rank to be a six")
assert.Equal(t, SIX, hand.HighestRank(), "Expected highest rank to be a six")
nd := NewDeckFromCards(hand)
nd.ShuffleDeterministically(123456789)
fmt.Printf("Shuffled deck: %s\n", nd.String())
fmt.Printf("new deck has %d cards\n", nd.Count())
shuffledHand := nd.Deal(5)
assert.True(t, shuffledHand.containsStraightFlush(), "Expected hand to still be a straight flush after shuffle")
assert.True(t, shuffledHand.HighestRank() == SIX, "Expected highest rank to still be a six after shuffle")
assert.True(t, shuffledHand.HighestRank() == SIX, "Expected highest rank to be a six after shuffle even with aces low")
nd := NewDeckFromCards(hand)
nd.ShuffleDeterministically(123456789)
shuffledHand := nd.Deal(5)
assert.True(t, shuffledHand.containsStraightFlush(), "Expected hand to still be a straight flush after shuffle")
assert.Equal(t, SIX, shuffledHand.HighestRank(), "Expected highest rank to still be a six after shuffle")
assert.Equal(t, SIX, shuffledHand.HighestRank(), "Expected highest rank to be a six after shuffle even with aces low")
})
}
func TestFourOfAKind(t *testing.T) {
t.Parallel()
t.Run("Test Four of a Kind", func(t *testing.T) {
hand := Cards{
SixOfSpades(),
SixOfHearts(),
SixOfDiamonds(),
SixOfClubs(),
FiveOfSpades(),
}
assert.False(t, hand.containsStraight(), "Expected hand to not be a straight")
assert.False(t, hand.containsFlush(), "Expected hand to not be a flush")
assert.False(t, hand.containsStraightFlush(), "Expected hand to not be a straight flush")
assert.False(t, hand.containsRoyalFlush(), "Expected hand to not be a royal flush")
assert.True(t, hand.containsFourOfAKind(), "Expected hand to be four of a kind")
assert.False(t, hand.containsFullHouse(), "Expected hand to not be a full house")
// note that these are *expected* to be true. the contains* functions
// are used in the PokerHand.calculateScore method to determine the best hand
// and are checked in sequence of descending value, so if a hand is four of a kind
// it will not be checked for full house, three of a kind, etc.
// technically quads *is* two pair also, and a hand with quads does
// indeed contain three of a kind, and contains a pair.
assert.True(t, hand.containsThreeOfAKind(), "Expected hand to contain three of a kind")
assert.True(t, hand.containsTwoPair(), "Expected hand to contain two pair")
assert.True(t, hand.containsPair(), "Expected hand to contain a pair")
assert.Equal(t, SIX, hand.HighestRank(), "Expected highest rank to be a six")
})
}
func TestRoyalFlush(t *testing.T) {
hand := Cards{
TenOfSpades(),
JackOfSpades(),
QueenOfSpades(),
KingOfSpades(),
AceOfSpades(),
}
assert.True(t, hand.containsStraight(), "Expected hand to be a straight")
assert.True(t, hand.containsFlush(), "Expected hand to be a flush")
assert.True(t, hand.containsStraightFlush(), "Expected hand to be a straight flush")
assert.True(t, hand.containsRoyalFlush(), "Expected hand to be a royal flush")
t.Parallel()
t.Run("Test Royal Flush", func(t *testing.T) {
hand := Cards{
TenOfSpades(),
JackOfSpades(),
QueenOfSpades(),
KingOfSpades(),
AceOfSpades(),
}
assert.True(t, hand.containsStraight(), "Expected hand to be a straight")
assert.True(t, hand.containsFlush(), "Expected hand to be a flush")
assert.True(t, hand.containsStraightFlush(), "Expected hand to be a straight flush")
assert.True(t, hand.containsRoyalFlush(), "Expected hand to be a royal flush")
assert.False(t, hand.containsFourOfAKind(), "Expected hand to not be four of a kind")
assert.False(t, hand.containsFullHouse(), "Expected hand to not be a full house")
assert.False(t, hand.containsThreeOfAKind(), "Expected hand to not be three of a kind")
assert.False(t, hand.containsTwoPair(), "Expected hand to not be two pair")
assert.False(t, hand.containsPair(), "Expected hand to not be a pair")
assert.False(t, hand.containsFourOfAKind(), "Expected hand to not be four of a kind")
assert.False(t, hand.containsFullHouse(), "Expected hand to not be a full house")
assert.False(t, hand.containsThreeOfAKind(), "Expected hand to not be three of a kind")
assert.False(t, hand.containsTwoPair(), "Expected hand to not be two pair")
assert.False(t, hand.containsPair(), "Expected hand to not be a pair")
assert.True(t, hand.HighestRank() == ACE, "Expected highest rank to be an ace")
assert.False(t, hand.HighestRank() == TEN, "Expected highest rank to not be an ace")
assert.Equal(t, ACE, hand.HighestRank(), "Expected highest rank to be an ace")
assert.NotEqual(t, TEN, hand.HighestRank(), "Expected highest rank to not be a ten")
})
}
func TestUnmadeHand(t *testing.T) {
hand := Cards{
TenOfSpades(),
JackOfDiamonds(),
QueenOfSpades(),
KingOfSpades(),
DeuceOfSpades(),
}
assert.False(t, hand.containsStraight(), "Expected hand to not be a straight")
assert.False(t, hand.containsFlush(), "Expected hand to not be a flush")
assert.False(t, hand.containsStraightFlush(), "Expected hand to not be a straight flush")
assert.False(t, hand.containsRoyalFlush(), "Expected hand to not be a royal flush")
assert.False(t, hand.containsFourOfAKind(), "Expected hand to not be four of a kind")
assert.False(t, hand.containsFullHouse(), "Expected hand to not be a full house")
assert.False(t, hand.containsThreeOfAKind(), "Expected hand to not be three of a kind")
assert.False(t, hand.containsTwoPair(), "Expected hand to not be two pair")
assert.False(t, hand.containsPair(), "Expected hand to not be a pair")
assert.True(t, hand.HighestRank() == KING, "Expected highest rank to be a king")
assert.True(t, hand.isUnmadeHand(), "Expected hand to be unmade")
t.Parallel()
t.Run("Test Unmade Hand", func(t *testing.T) {
hand := Cards{
TenOfSpades(),
JackOfDiamonds(),
QueenOfSpades(),
KingOfSpades(),
DeuceOfSpades(),
}
assert.False(t, hand.containsStraight(), "Expected hand to not be a straight")
assert.False(t, hand.containsFlush(), "Expected hand to not be a flush")
assert.False(t, hand.containsStraightFlush(), "Expected hand to not be a straight flush")
assert.False(t, hand.containsRoyalFlush(), "Expected hand to not be a royal flush")
assert.False(t, hand.containsFourOfAKind(), "Expected hand to not be four of a kind")
assert.False(t, hand.containsFullHouse(), "Expected hand to not be a full house")
assert.False(t, hand.containsThreeOfAKind(), "Expected hand to not be three of a kind")
assert.False(t, hand.containsTwoPair(), "Expected hand to not be two pair")
assert.False(t, hand.containsPair(), "Expected hand to not be a pair")
assert.Equal(t, KING, hand.HighestRank(), "Expected highest rank to be a king")
assert.True(t, hand.isUnmadeHand(), "Expected hand to be unmade")
})
}
func TestTwoPair(t *testing.T) {
hand := Cards{
KingOfSpades(),
JackOfDiamonds(),
JackOfSpades(),
KingOfDiamonds(),
TenOfSpades(),
}
assert.False(t, hand.containsStraight(), "Expected hand to not be a straight")
assert.False(t, hand.containsFlush(), "Expected hand to not be a flush")
assert.False(t, hand.containsStraightFlush(), "Expected hand to not be a straight flush")
assert.False(t, hand.containsRoyalFlush(), "Expected hand to not be a royal flush")
assert.False(t, hand.containsFourOfAKind(), "Expected hand to not be four of a kind")
assert.False(t, hand.containsFullHouse(), "Expected hand to not be a full house")
assert.False(t, hand.containsThreeOfAKind(), "Expected hand to not be three of a kind")
assert.True(t, hand.containsTwoPair(), "Expected hand to be two pair")
assert.True(t, hand.containsPair(), "Expected hand to also be a pair")
assert.True(t, hand.HighestRank() == KING, "Expected highest rank to be a king")
assert.False(t, hand.isUnmadeHand(), "Expected hand to not be unmade")
t.Parallel()
t.Run("Test Two Pair", func(t *testing.T) {
hand := Cards{
KingOfSpades(),
JackOfDiamonds(),
JackOfSpades(),
KingOfDiamonds(),
TenOfSpades(),
}
assert.False(t, hand.containsStraight(), "Expected hand to not be a straight")
assert.False(t, hand.containsFlush(), "Expected hand to not be a flush")
assert.False(t, hand.containsStraightFlush(), "Expected hand to not be a straight flush")
assert.False(t, hand.containsRoyalFlush(), "Expected hand to not be a royal flush")
assert.False(t, hand.containsFourOfAKind(), "Expected hand to not be four of a kind")
assert.False(t, hand.containsFullHouse(), "Expected hand to not be a full house")
assert.False(t, hand.containsThreeOfAKind(), "Expected hand to not be three of a kind")
assert.True(t, hand.containsTwoPair(), "Expected hand to be two pair")
assert.True(t, hand.containsPair(), "Expected hand to also be a pair")
assert.Equal(t, KING, hand.HighestRank(), "Expected highest rank to be a king")
assert.False(t, hand.isUnmadeHand(), "Expected hand to not be unmade")
})
}
func TestDetectDuplicates(t *testing.T) {
t.Parallel()
t.Run("Test Detect Duplicates", func(t *testing.T) {
hand := Cards{
KingOfSpades(),
JackOfDiamonds(),
JackOfSpades(),
KingOfSpades(),
TenOfSpades(),
}
assert.True(t, hand.containsDuplicates(), "Expected hand to contain duplicates")
})
}
func TestHandScore(t *testing.T) {
hand := Cards{
KingOfSpades(),
JackOfDiamonds(),
JackOfSpades(),
KingOfDiamonds(),
TenOfSpades(),
}
t.Parallel()
t.Run("Test Hand Score", func(t *testing.T) {
hand := Cards{
KingOfSpades(),
JackOfDiamonds(),
JackOfSpades(),
KingOfDiamonds(),
TenOfSpades(),
}
ph, error := hand.PokerHand()
assert.Nil(t, error, "Expected no error")
assert.True(t, ph.Score > 0, "Expected score to be nonzero 0")
assert.True(t, ph.Score < 100000000000000000, "Expected score to be less than 100000000000000000")
fmt.Printf("PokerHand: %v+\n", ph)
fmt.Printf("PH score: %d\n", ph.Score)
ph, err := hand.PokerHand()
assert.NoError(t, err, "Expected no error")
assert.True(t, ph.Score > 0, "Expected score to be nonzero")
assert.True(t, ph.Score < 100000000000000000, "Expected score to be less than 100000000000000000")
// write more assertions FIXME
})
}
func TestTwoPairBug(t *testing.T) {
// this is an actual bug in the first implementation
c, err := NewCardsFromString("9♠,9♣,Q♥,Q♦,K♣")
assert.Nil(t, err, "Expected no error")
t.Parallel()
t.Run("Test Two Pair Bug", func(t *testing.T) {
// this is an actual bug in the first implementation
c, err := NewCardsFromString("9♠,9♣,Q♥,Q♦,K♣")
assert.NoError(t, err, "Expected no error")
ph, err := c.PokerHand()
assert.Nil(t, err, "Expected no error")
assert.Greater(t, ph.Score, 0, "Expected score to be nonzero 0")
desc := ph.Description()
assert.Equal(t, desc, "two pair, queens and nines with a king")
fmt.Printf("PokerHand: %v+\n", ph)
fmt.Printf("PH score: %d\n", ph.Score)
ph, err := c.PokerHand()
assert.NoError(t, err, "Expected no error")
assert.Greater(t, ph.Score, 0, "Expected score to be nonzero")
desc := ph.Description()
assert.Equal(t, "two pair, queens and nines with a king", desc)
})
}
func TestScoringStructureQuads(t *testing.T) {
t.Parallel()
t.Run("Test Scoring Structure Quads", func(t *testing.T) {
// this test case was for a bug, but is now fixed
handA := Cards{
DeuceOfSpades(),
DeuceOfHearts(),
DeuceOfDiamonds(),
DeuceOfClubs(),
AceOfSpades(),
}
handB := Cards{
ThreeOfSpades(),
ThreeOfHearts(),
ThreeOfDiamonds(),
ThreeOfClubs(),
DeuceOfSpades(),
}
phA, err := handA.PokerHand()
assert.NoError(t, err, "Expected no error")
phB, err := handB.PokerHand()
assert.NoError(t, err, "Expected no error")
assert.Greater(t, phB.Score, phA.Score, "Expected hand B to be higher than hand A")
})
}
func TestScoringStructureFullHouse(t *testing.T) {
t.Parallel()
t.Run("Test Scoring Structure Full House", func(t *testing.T) {
// this test case documents an actual bug i found in my scoring code
// related to the fact that i was multiplying by 100 then by 1000,
// instead of by 100 then by 10000 in the scoring. because the ranks
// are 2-14, the different levels of kickers (or in the case of a full
// house, the pair) were not distinguishing sufficiently.
handA := Cards{
DeuceOfSpades(),
DeuceOfHearts(),
DeuceOfDiamonds(),
AceOfSpades(),
AceOfHearts(),
}
phA, err := handA.PokerHand()
assert.NoError(t, err, "Expected no error")
deucesFullOfAcesScore := phA.Score
handB := Cards{
ThreeOfSpades(),
ThreeOfHearts(),
ThreeOfDiamonds(),
DeuceOfSpades(),
DeuceOfHearts(),
}
phB, err := handB.PokerHand()
assert.NoError(t, err, "Expected no error")
threesFullOfDeucesScore := phB.Score
assert.Greater(t, threesFullOfDeucesScore, deucesFullOfAcesScore, "Expected Threes full of deuces to beat deuces full of aces")
})
}