refactor: MVC 구조 분리 + 미사용 파일 archive 정리

- tick_trader.py를 Controller로 축소, 로직을 3개 모듈로 분리:
  - core/signal.py: 시그널 감지, 지표 계산 (calc_vr, calc_atr, detect_signal)
  - core/order.py: Upbit 주문 실행 (매수/매도/취소/조회)
  - core/position_manager.py: 포지션 관리, DB sync, 복구, 청산 조건
- type hints, Google docstring, 구체적 예외 타입 적용
- 50줄 초과 함수 분리 (process_signal, restore_positions)
- 미사용 파일 58개 archive/ 폴더로 이동
- README.md 추가

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>

archive/tests/atr_sweep.py

@@ -0,0 +1,214 @@
+"""ATR_MAX_STOP 파라미터 스윕 시뮬레이션.
+
+실제 봇과 동일하게 ATR을 계산하되, ATR_MAX_STOP 상한만 바꿔가며 성과를 비교한다.
+  - ATR_MIN_STOP = 1.0% (고정)
+  - ATR_MULT     = 1.5  (고정)
+  - ATR_CANDLES  = 5    (고정)
+  - ATR_MAX_STOP : [1.5%, 2.0%, 2.5%, 3.0%, 3.5%, 4.0%] 스윕
+
+데이터: Oracle ADB ohlcv_hourly (top30_tickers.pkl 상위 20종목)
+"""
+
+import pickle
+import sys
+from pathlib import Path
+
+from dotenv import load_dotenv
+
+load_dotenv(dotenv_path=Path(__file__).parent / ".env")
+
+sys.path.insert(0, str(Path(__file__).parent))
+from ohlcv_db import load_from_db
+
+import pandas as pd
+
+# ── 고정 파라미터 ─────────────────────────────────────────
+TIME_STOP_HOURS   = 8
+TIME_STOP_MIN_PCT = 3.0
+FEE               = 0.0005
+LOCAL_VOL_HOURS   = 5
+VOL_MULT          = 2.0
+PRICE_QUIET_PCT   = 2.0
+SIGNAL_TIMEOUT_H  = 8
+THRESH            = 4.8
+FROM_DATE         = "2025-03-02"
+
+# ATR 고정값
+ATR_CANDLES = 5
+ATR_MULT    = 1.5
+ATR_MIN     = 0.010   # 1.0%
+
+# 스윕 대상: ATR_MAX_STOP
+ATR_MAX_CANDIDATES = [0.015, 0.020, 0.025, 0.030, 0.035, 0.040]
+
+TOP30_FILE = Path("top30_tickers.pkl")
+
+
+# ── 매수 시점 ATR 계산 ────────────────────────────────────
+def calc_atr_stop(df: pd.DataFrame, buy_idx: int, atr_max: float) -> float:
+    """매수 직전 ATR_CANDLES개 봉으로 스탑 비율 계산.
+
+    실제 봇(monitor.py)의 _get_adaptive_stop() 로직과 동일.
+    계산 실패 시 ATR_MIN 반환.
+    """
+    start = max(0, buy_idx - ATR_CANDLES - 1)
+    sub = df.iloc[start:buy_idx]
+    if len(sub) < ATR_CANDLES:
+        return ATR_MIN
+    try:
+        ranges = (sub["high"] - sub["low"]) / sub["low"]
+        avg_range = ranges.iloc[-ATR_CANDLES:].mean()
+        return float(max(ATR_MIN, min(atr_max, avg_range * ATR_MULT)))
+    except Exception:
+        return ATR_MIN
+
+
+# ── 포지션 시뮬 ───────────────────────────────────────────
+def simulate_pos(df: pd.DataFrame, buy_idx: int, buy_price: float, stop_pct: float):
+    """매수 후 청산 시뮬레이션 (고정 stop_pct 사용)."""
+    buy_dt = df.index[buy_idx]
+    peak   = buy_price
+
+    for i in range(buy_idx + 1, len(df)):
+        row = df.iloc[i]
+        ts  = df.index[i]
+
+        if row["high"] > peak:
+            peak = row["high"]
+
+        stop_price = peak * (1 - stop_pct)
+        elapsed_h  = (ts - buy_dt).total_seconds() / 3600
+
+        # 트레일링 스탑
+        if row["low"] <= stop_price:
+            sell_price = stop_price
+            pnl = (sell_price * (1 - FEE) - buy_price * (1 + FEE)) / (buy_price * (1 + FEE)) * 100
+            return pnl > 0, sell_price, ts, f"트레일링({pnl:+.1f}%)", pnl
+
+        # 타임 스탑
+        pnl_now = (row["close"] - buy_price) / buy_price * 100
+        if elapsed_h >= TIME_STOP_HOURS and pnl_now < TIME_STOP_MIN_PCT:
+            pnl = (row["close"] * (1 - FEE) - buy_price * (1 + FEE)) / (buy_price * (1 + FEE)) * 100
+            return pnl > 0, row["close"], ts, "타임스탑", pnl
+
+    last = df.iloc[-1]["close"]
+    pnl  = (last * (1 - FEE) - buy_price * (1 + FEE)) / (buy_price * (1 + FEE)) * 100
+    return pnl > 0, last, df.index[-1], "데이터종료", pnl
+
+
+# ── vol-lead 전략 실행 (ATR_MAX 동적 주입) ────────────────
+def run_vol_lead(df: pd.DataFrame, thresh: float, atr_max: float) -> list:
+    """vol-lead 신호 → 진입 → ATR 기반 청산 시뮬.
+
+    진입 시점의 ATR을 계산해 stop_pct를 결정하고 청산 시뮬에 전달.
+    """
+    trades       = []
+    signal_i     = None
+    signal_price = None
+    in_pos       = False
+    buy_idx = buy_price = stop_pct = None
+    i = max(12, LOCAL_VOL_HOURS + 2)
+
+    while i < len(df):
+        if in_pos:
+            is_win, sp, sdt, reason, pnl = simulate_pos(df, buy_idx, buy_price, stop_pct)
+            next_i = next((j for j in range(i, len(df)) if df.index[j] > sdt), len(df))
+            trades.append((is_win, pnl, df.index[buy_idx], sdt, reason, stop_pct))
+            in_pos       = False
+            signal_i     = None
+            signal_price = None
+            i = next_i
+            continue
+
+        close    = df.iloc[i]["close"]
+        close_2h = df.iloc[i - 2]["close"]
+        quiet    = abs(close - close_2h) / close_2h * 100 < PRICE_QUIET_PCT
+
+        vol_recent = df.iloc[i - 1]["volume"]
+        vol_avg    = df.iloc[i - LOCAL_VOL_HOURS - 1:i - 1]["volume"].mean()
+        vol_spike  = vol_avg > 0 and vol_recent >= vol_avg * VOL_MULT
+
+        if quiet and vol_spike:
+            if signal_i is None:
+                signal_i     = i
+                signal_price = close
+        else:
+            if signal_i is not None and close < signal_price:
+                signal_i = signal_price = None
+
+        if signal_i is not None and (i - signal_i) > SIGNAL_TIMEOUT_H:
+            signal_i = signal_price = None
+
+        if signal_i is not None:
+            move = (close - signal_price) / signal_price * 100
+            if move >= thresh:
+                in_pos       = True
+                buy_idx      = i
+                buy_price    = close
+                stop_pct     = calc_atr_stop(df, i, atr_max)   # ← 진입 시점 ATR 계산
+                signal_i     = signal_price = None
+
+        i += 1
+
+    return trades
+
+
+# ── 최대 낙폭 계산 ────────────────────────────────────────
+def calc_max_drawdown(trades: list) -> float:
+    if not trades:
+        return 0.0
+    cum = peak = max_dd = 0.0
+    for t in sorted(trades, key=lambda x: x[2]):
+        cum += t[1]
+        if cum > peak:
+            peak = cum
+        dd = peak - cum
+        if dd > max_dd:
+            max_dd = dd
+    return max_dd
+
+
+# ── 메인 ─────────────────────────────────────────────────
+def main() -> None:
+    top30: list = pickle.load(open(TOP30_FILE, "rb"))
+    print(f"DB 로드 중... ({len(top30)}종목)")
+    data = load_from_db(top30, from_date=FROM_DATE)
+
+    valid = [t for t in top30 if t in data and len(data[t]) >= 500]
+    use20 = valid[:20]
+    print(f"유효 종목: {len(use20)}개\n")
+
+    print(f"{'='*72}")
+    print(f"ATR_MAX_STOP 스윕 | ATR×{ATR_MULT} (최소={ATR_MIN:.1%}) | vol-lead +{THRESH}% | {len(use20)}종목")
+    print(f"{'='*72}")
+    print(f"{'ATR_MAX':>8} | {'거래수':>6} | {'승률':>6} | {'누적PnL%':>10} | {'최대낙폭%':>10} | {'평균스탑%':>9}")
+    print(f"{'─'*72}")
+
+    for atr_max in ATR_MAX_CANDIDATES:
+        all_trades = []
+        for ticker in use20:
+            if ticker not in data:
+                continue
+            trades = run_vol_lead(data[ticker], THRESH, atr_max)
+            all_trades.extend(trades)
+
+        total = len(all_trades)
+        if total == 0:
+            print(f"{atr_max*100:>7.1f}% | {'0':>6} | {'N/A':>6} | {'N/A':>10} | {'N/A':>10} | {'N/A':>9}")
+            continue
+
+        wins     = sum(1 for t in all_trades if t[0])
+        win_rate = wins / total * 100
+        cum_pnl  = sum(t[1] for t in all_trades)
+        max_dd   = calc_max_drawdown(all_trades)
+        avg_stop = sum(t[5] for t in all_trades) / total * 100  # 실제 평균 스탑%
+
+        print(f"{atr_max*100:>7.1f}% | {total:>6}건 | {win_rate:>5.1f}% | "
+              f"{cum_pnl:>+9.2f}% | {-max_dd:>+9.2f}% | {avg_stop:>8.2f}%")
+
+    print(f"{'='*72}")
+    print("\n※ 평균스탑% = 실제 거래에서 적용된 ATR 스탑의 평균 (ATR_MAX에 걸렸는지 확인)")
+
+
+if __name__ == "__main__":
+    main()