Files
nofx/agent/scheduler.go
shinchan-zhai f095b6655b feat: NOFXi Agent integrated into NOFX core
This is the key architectural change: NOFXi is no longer a separate
sub-project in nofxi/, but a first-class module in agent/ that sits
on top of NOFX's existing engine.

agent/ package:
- agent.go: Core orchestrator, directly uses NOFX's TraderManager,
  Store, and Market packages. No wrapper/bridge needed.
- brain.go: Proactive intelligence (news scan, market briefs, signal handling)
- sentinel.go: Market anomaly detection (price breakout, volume spike, funding rate)
- scheduler.go: Daily reports, position risk checks
- router.go: Intent routing for natural language (中/英 bilingual)
- i18n.go: Full Chinese/English message catalog
- web.go: Agent REST API on :8900 (chat, klines, ticker)

main.go changes:
- Banner: NOFX → NOFXi
- Agent auto-starts with NOFX (sentinel + brain + scheduler + web)
- Zero breaking changes to existing NOFX functionality

Key difference from old nofxi/:
- Agent reads LIVE data from TraderManager (positions, balances, status)
- Uses market.Get() for full technical indicators (EMA/MACD/RSI/BB)
- No duplicate code — kernel, trader, store all used directly
- Old nofxi/ sub-project will be removed once migration is verified

Architecture:
  NOFX (engine) → kernel + trader + market + store + mcp + telegram
  NOFXi (brain) → agent/ package → uses all of the above
2026-03-25 01:05:54 +08:00

100 lines
2.3 KiB
Go

package agent
import (
"context"
"fmt"
"log/slog"
"strings"
"time"
)
type Scheduler struct {
agent *Agent
logger *slog.Logger
stopCh chan struct{}
}
func NewScheduler(a *Agent, l *slog.Logger) *Scheduler {
return &Scheduler{agent: a, logger: l, stopCh: make(chan struct{})}
}
func (s *Scheduler) Start(ctx context.Context) {
go func() {
ticker := time.NewTicker(1 * time.Minute)
defer ticker.Stop()
lastReport := time.Time{}
lastCheck := time.Time{}
for {
select {
case <-ctx.Done(): return
case <-s.stopCh: return
case now := <-ticker.C:
// Daily report at 21:00
if now.Hour() == 21 && now.Sub(lastReport) > 12*time.Hour {
s.dailyReport()
lastReport = now
}
// Position risk check every 4h
if now.Sub(lastCheck) > 4*time.Hour {
s.riskCheck()
lastCheck = now
}
}
}
}()
}
func (s *Scheduler) Stop() { close(s.stopCh) }
func (s *Scheduler) dailyReport() {
if s.agent.traderManager == nil { return }
traders := s.agent.traderManager.GetAllTraders()
if len(traders) == 0 { return }
var sb strings.Builder
sb.WriteString(fmt.Sprintf("📊 *NOFXi 每日报告 — %s*\n\n", time.Now().Format("2006-01-02")))
totalPnL := 0.0
for _, t := range traders {
info, err := t.GetAccountInfo()
if err != nil { continue }
equity := toFloat(info["total_equity"])
pnl := toFloat(info["unrealized_pnl"])
sb.WriteString(fmt.Sprintf("• %s: $%.2f (P/L: $%.2f)\n", t.GetName(), equity, pnl))
totalPnL += pnl
}
e := "📈"
if totalPnL < 0 { e = "📉" }
sb.WriteString(fmt.Sprintf("\n%s Total P/L: $%.2f", e, totalPnL))
s.agent.notifyAll(sb.String())
}
func (s *Scheduler) riskCheck() {
if s.agent.traderManager == nil { return }
var alerts []string
for _, t := range s.agent.traderManager.GetAllTraders() {
positions, err := t.GetPositions()
if err != nil { continue }
for _, p := range positions {
pnl := toFloat(p["unrealizedPnl"])
size := toFloat(p["size"])
if size == 0 { continue }
entry := toFloat(p["entryPrice"])
if entry > 0 {
pnlPct := (pnl / (entry * size)) * 100
if pnlPct < -5 {
alerts = append(alerts, fmt.Sprintf("⚠️ *%s* %s: %.1f%% ($%.2f)",
p["symbol"], p["side"], pnlPct, pnl))
}
}
}
}
if len(alerts) > 0 {
s.agent.notifyAll("🚨 *持仓风险提醒*\n\n" + strings.Join(alerts, "\n"))
}
}