Files
gogobee/internal/plugin/forex_convert.go
prosolis a00987e75c Coop lockout fix, holidays full list, !fx convert, lottery cleanup
- Co-op: when a run wipes or completes, clear the 99-sentinel combat
  lock for participants and pin combat_actions_used to maxCombatActions.
  Previously the lock only released on the next midnight reset, so
  members were stuck unable to combat for the rest of the day after
  their run ended.
- Holidays: !holidays now prints the full list. Previously it called
  the same featured-only formatter as TwinBee's morning auto-post,
  so users saw the same truncated message twice with a misleading
  "Use !holidays for the full list" hint that pointed at itself.
- Forex: add currency conversion. Auto-detects when the first arg is
  numeric (`!fx 1500 USD EUR`) and also accepts an explicit `convert`
  subcommand. Tolerant parsing: "to"/"into"/"in"/"=" filters, comma
  and k/m suffix support, and any of `1500 USD EUR`, `1500 USD/EUR`,
  `USD/EUR 1500` orderings. Includes parser + comma-formatter tests.
- Lottery: drop 2-match prize tier. At 1/16 odds × €25 it was +EV per
  ticket on its own and bled the community pot (~€775/wk recently),
  preventing jackpot rollover from accumulating. Removed from scoring,
  payout loops, draw announcement, !lottery odds, and !lottery history.
  Match2Winners DB column kept (history rows preserved); always written
  as 0 going forward.
- Lottery: shift week boundary so Sat/Sun return next Monday. Friday's
  23:59 draw used to leave players locked at their 100-ticket cap until
  next Monday rolled in; now the cap resets immediately after the draw.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-09 14:25:21 -07:00

194 lines
4.8 KiB
Go

package plugin
import (
"fmt"
"log/slog"
"math"
"strconv"
"strings"
)
// fxParseAmount parses a numeric token, allowing thousands separators
// ("1,500", "1500", "1500.50", "1.5k"). Returns an error on a non-numeric
// token. Negative amounts are rejected.
func fxParseAmount(tok string) (float64, error) {
t := strings.TrimSpace(tok)
t = strings.ReplaceAll(t, ",", "")
t = strings.ReplaceAll(t, "_", "")
multiplier := 1.0
if len(t) > 0 {
switch strings.ToLower(t[len(t)-1:]) {
case "k":
multiplier = 1_000
t = t[:len(t)-1]
case "m":
multiplier = 1_000_000
t = t[:len(t)-1]
}
}
v, err := strconv.ParseFloat(t, 64)
if err != nil {
return 0, err
}
if v < 0 || math.IsNaN(v) || math.IsInf(v, 0) {
return 0, fmt.Errorf("non-positive amount")
}
return v * multiplier, nil
}
// fxParseConvert parses a conversion request from free-form args.
// Accepts: `1500 USD EUR`, `1500 USD to EUR`, `1500 USD/EUR`, `USD/EUR 1500`,
// `1500USD EUR` is NOT supported (keep parsing simple — require whitespace).
// "to" / "into" / "in" are filtered as noise tokens.
func fxParseConvert(args []string) (amount float64, base, quote string, err error) {
if len(args) == 0 {
return 0, "", "", fmt.Errorf("no arguments")
}
tokens := make([]string, 0, len(args))
for _, a := range args {
switch strings.ToLower(a) {
case "to", "into", "in", "=":
continue
}
tokens = append(tokens, a)
}
var amountSet bool
var currencies []string
for _, tok := range tokens {
// Pair form: USD/EUR
if strings.ContainsAny(tok, "/|-") {
pair := fxParsePair([]string{tok})
if pair != nil {
if base != "" {
return 0, "", "", fmt.Errorf("multiple currency pairs")
}
base, quote = pair.Base, pair.Quote
continue
}
}
// Number?
if v, perr := fxParseAmount(tok); perr == nil {
if amountSet {
return 0, "", "", fmt.Errorf("multiple amounts")
}
amount = v
amountSet = true
continue
}
// Currency code?
up := strings.ToUpper(tok)
if fxIsSupported(up) {
currencies = append(currencies, up)
continue
}
return 0, "", "", fmt.Errorf("unrecognized token: %s", tok)
}
if !amountSet {
return 0, "", "", fmt.Errorf("missing amount")
}
if base == "" {
if len(currencies) != 2 {
return 0, "", "", fmt.Errorf("expected two currencies, got %d", len(currencies))
}
base, quote = currencies[0], currencies[1]
} else if len(currencies) != 0 {
return 0, "", "", fmt.Errorf("currency pair plus extra currency")
}
if base == quote {
return 0, "", "", fmt.Errorf("base and quote are the same")
}
return amount, base, quote, nil
}
func (p *ForexPlugin) cmdConvert(ctx MessageContext, args []string) error {
amount, base, quote, err := fxParseConvert(args)
if err != nil {
return p.SendReply(ctx.RoomID, ctx.EventID,
"Usage: `!fx 1500 USD to EUR` (or `!fx convert 1500 USD EUR`, `!fx convert USD/EUR 1500`)")
}
pair := &fxPair{Base: base, Quote: quote}
rate, err := p.fxLivePairRate(pair)
if err != nil {
slog.Error("forex: fetch rates failed", "err", err)
return p.SendReply(ctx.RoomID, ctx.EventID, "Could not fetch rates. Try again shortly.")
}
converted := amount * rate
baseEmoji := fxEmoji(base)
quoteEmoji := fxEmoji(quote)
msg := fmt.Sprintf("%s **%s %s** = %s **%s %s**\n_1 %s = %s %s_",
baseEmoji, fxFormatAmount(base, amount), base,
quoteEmoji, fxFormatAmount(quote, converted), quote,
base, fxFormatRate(quote, rate), quote)
return p.SendReply(ctx.RoomID, ctx.EventID, msg)
}
// fxEmoji returns the flag emoji for a supported currency, falling back
// to USD's flag.
func fxEmoji(cur string) string {
if m, ok := fxMeta[cur]; ok && m.Emoji != "" {
return m.Emoji
}
if cur == "USD" {
return "🇺🇸"
}
return ""
}
// fxFormatAmount formats a converted amount with thousands separators.
// JPY uses 0 decimal places (yen are not subdivided in practice for display),
// other currencies use 2.
func fxFormatAmount(currency string, amount float64) string {
decimals := 2
if currency == "JPY" {
decimals = 0
}
return fxAddCommas(amount, decimals)
}
// fxAddCommas formats a float with N decimal places and thousands separators.
func fxAddCommas(v float64, decimals int) string {
s := strconv.FormatFloat(v, 'f', decimals, 64)
intPart := s
fracPart := ""
if i := strings.IndexByte(s, '.'); i >= 0 {
intPart = s[:i]
fracPart = s[i:]
}
neg := false
if strings.HasPrefix(intPart, "-") {
neg = true
intPart = intPart[1:]
}
n := len(intPart)
if n <= 3 {
if neg {
return "-" + intPart + fracPart
}
return intPart + fracPart
}
var b strings.Builder
if neg {
b.WriteByte('-')
}
pre := n % 3
if pre > 0 {
b.WriteString(intPart[:pre])
if n > pre {
b.WriteByte(',')
}
}
for i := pre; i < n; i += 3 {
b.WriteString(intPart[i : i+3])
if i+3 < n {
b.WriteByte(',')
}
}
b.WriteString(fracPart)
return b.String()
}